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O46522
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CY24B_BOVIN
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Cytochrome b-245 heavy chain (EC 1.-.-.-) (CGD91-phox) (Cytochrome b(558) subunit beta) (Cytochrome b558 subunit beta) (Heme-binding membrane glycoprotein gp91phox) (Neutrophil cytochrome b 91 kDa polypeptide) (gp91-1) (gp91-phox) (p22 phagocyte B-cytochrome)
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MGNWVVNEGISIFVILVWLGMNVFLFVWYYRVYDIPDKFFYTRKLLGSALALARAPAACLNFNCMLILLPVCRNLLSFLRGSSACCSTRIRRQLDRNLTFHKMVAWMIALHTAIHTIAHLFNVEWCVNARVNNSDPYSIALSDIGDKPNETYLNFVRQRIKNPEGGLYVAVTRLAGITGVVITLCLILIITSSTKTIRRSYFEVFWYTHHLFVIFFIGLAIHGAQRIVRGQTAESLLKHQPRNCYQNISQWGKIENCPIPEFSGNPPMTWKWIVGPMFLYLCERLVRFWRSQQKVVITKVVTHPFKTIELQMKKKGFKMEVGQYIFVKCPVVSKLEWHPFTLTSAPEEDFFSIHIRIVGDWTEGLFKACGCDKQEFQDAWKLPKIAVDGPFGTASEDVFSYEVVMLVGAGIGVTPFASILKSVWYKYCNKAPNLRLKKIYFYWLCRDTHAFEWFADLLQLLETQMQEKNNTDFLSYNICLTGWDESQASHFAMHHDEEKDVITGLKQKTLYGRPNWDNEFKTIGSQHPNTRIGVFLCGPEALADTLNKQCISNSDSGPRGVHFIFNKENF
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Critical component of the membrane-bound oxidase of phagocytes that generates superoxide. It is the terminal component of a respiratory chain that transfers single electrons from cytoplasmic NADPH across the plasma membrane to molecular oxygen on the exterior. Also functions as a voltage-gated proton channel that mediates the H(+) currents of resting phagocytes.
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O46540
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ANF_SHEEP
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Natriuretic peptides A (Atrial natriuretic factor prohormone) (preproANF) (proANF) (Atrial natriuretic peptide prohormone) (preproANP) (proANP) (Atriopeptigen) (Cardiodilatin) (CDD) (preproCDD-ANF) [Cleaved into: Long-acting natriuretic peptide (LANP) (Long-acting natriuretic hormone) (LANH) (Pro atrial natriuretic factor 1-30) (proANF 1-30) (Pro atrial natriuretic peptide 1-30) (proANP 1-30); Vessel dilator (VSDL) (Pro atrial natriuretic factor 31-67) (proANF 31-67) (Pro atrial natriuretic peptide 31-67) (proANP 31-67); Kaliuretic peptide (KP) (Pro atrial natriuretic factor 79-98) (proANF 79-98) (Pro atrial natriuretic peptide 79-98) (proANP 79-98); Urodilatin (URO) (CDD 95-126) (CDD-ANP (95-126)) (Pro atrial natriuretic peptide 95-126) (proANP 95-126); Auriculin-C (Atrial natriuretic factor 1-33) (ANF 1-33); Auriculin-D (Atrial natriuretic factor 3-33) (ANF 3-33); Atrial natriuretic peptide (ANP) (Alpha-atrial natriuretic peptide) (Alpha-hANP) (Atrial natriuretic factor) (ANF) (CDD-ANF) (CDD-ANP (99-126)) (Cardionatrin) (Pro atrial natriuretic factor 99-126) (proANF 99-126); Auriculin-B (Atrial natriuretic factor 8-33) (ANF 8-33); Auriculin-A; Atriopeptin-1 (Atriopeptin I); Atriopeptin-2 (Atriopeptin II); Atriopeptin-3 (Atriopeptin III)]
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MGSSAITTSFLLFVAFQLPGQTGANPVYGSVSNADLMDFKNLLDRLEDKMPLEDEAVPSQVLSEQNEEAGAPLSPLSEVPPWDGGRSTQPREMGAPSDGDPGNPPRSVLLKSKLRALLTAPRSLRRSSCFGGRMDRIGAQSGLGCNSFRYRR
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[Atrial natriuretic peptide]: Hormone that plays a key role in mediating cardio-renal homeostasis, and is involved in vascular remodeling and regulating energy metabolism (By similarity). Acts by specifically binding and stimulating NPR1 to produce cGMP, which in turn activates effector proteins, such as PRKG1, that drive various biological responses (By similarity). Regulates vasodilation, natriuresis, diuresis and aldosterone synthesis and is therefore essential for regulating blood pressure, controlling the extracellular fluid volume and maintaining the fluid-electrolyte balance (By similarity). Also involved in inhibiting cardiac remodeling and cardiac hypertrophy by inducing cardiomyocyte apoptosis and attenuating the growth of cardiomyocytes and fibroblasts (By similarity). Plays a role in female pregnancy by promoting trophoblast invasion and spiral artery remodeling in uterus, and thus prevents pregnancy-induced hypertension (By similarity). In adipose tissue, acts in various cGMP- and PKG-dependent pathways to regulate lipid metabolism and energy homeostasis (By similarity). This includes up-regulating lipid metabolism and mitochondrial oxygen utilization by activating the AMP-activated protein kinase (AMPK), and increasing energy expenditure by acting via MAPK11 to promote the UCP1-dependent thermogenesis of brown adipose tissue (By similarity). Binds the clearance receptor NPR3 which removes the hormone from circulation (By similarity). [Long-acting natriuretic peptide]: May have a role in cardio-renal homeostasis through regulation of natriuresis, diuresis, vasodilation, and inhibiting aldosterone synthesis. In vitro, promotes the production of cGMP and induces vasodilation. May promote natriuresis, at least in part, by enhancing prostaglandin E2 synthesis resulting in the inhibition of renal Na+-K+-ATPase (By similarity). However reports on the involvement of this peptide in mammal blood volume and blood pressure homeostasis are conflicting according to a report, in vivo it is not sufficient to activate cGMP and does not inhibit collecting duct transport nor effect diuresis and natriuresis (By similarity). Appears to bind to specific receptors that are distinct from the receptors bound by atrial natriuretic peptide and vessel dilator. Possibly enhances protein excretion in urine by decreasing proximal tubular protein reabsorption (By similarity). [Vessel dilator]: May have a role in cardio-renal homeostasis through regulation of natriuresis, diuresis, and vasodilation. In vitro, promotes the production of cGMP and induces vasodilation. May promote natriuresis, at least in part, by enhancing prostaglandin E2 synthesis resulting in the inhibition of renal Na+-K+-ATPase. However reports on the involvement of this peptide in mammal blood volume and blood pressure homeostasis are conflicting according to a report it is not sufficient to activate cGMP and does not inhibit collecting duct transport nor effect diuresis and natriuresis. Appears to bind to specific receptors that are distinct from the receptors bound by the atrial natriuretic and long-acting natriuretic peptides. Possibly functions in protein excretion in urine by maintaining the integrity of the proximal tubules and enhancing protein excretion by decreasing proximal tubular protein reabsorption. [Kaliuretic peptide]: May have a role in cardio-renal homeostasis through regulation of diuresis and inhibiting aldosterone synthesis. In vitro, promotes the production of cGMP and induces vasodilation. May promote natriuresis, at least in part, by enhancing prostaglandin E2 synthesis resulting in the inhibition of renal Na+-K+-ATPase. May have a role in potassium excretion but not sodium excretion (natriuresis). Possibly enhances protein excretion in urine by decreasing proximal tubular protein reabsorption. [Urodilatin]: Hormone produced in the kidneys that appears to be important for maintaining cardio-renal homeostasis. Mediates vasodilation, natriuresis and diuresis primarily in the renal system, in order to maintain the extracellular fluid volume and control the fluid-electrolyte balance. Specifically binds and stimulates cGMP production by renal transmembrane receptors, likely NPR1. Urodilatin not ANP, may be the natriuretic peptide responsible for the regulation of sodium and water homeostasis in the kidney. [Auriculin-D]: May have a role in cardio-renal homeostasis through regulation of natriuresis and vasodilation. In vivo promotes natriuresis and in vitro, vasodilates renal artery strips. [Auriculin-B]: May have a role in cardio-renal homeostasis through regulation of natriuresis and vasodilation. In vivo promotes natriuresis and in vitro, vasodilates renal artery strips. [Auriculin-A]: May have a role in cardio-renal homeostasis through regulation of regulation of natriuresis and vasodilation. In vivo promotes natriuresis. In vitro, vasodilates intestinal smooth muscle but not smooth muscle strips. [Atriopeptin-2]: May have a role in cardio-renal homeostasis through regulation of natriuresis and vasodilation. In vivo promotes natriuresis. In vitro, selectively vasodilates intestinal and vascular smooth muscle strips. [Atriopeptin-1]: May have a role in cardio-renal homeostasis through regulation of natriuresis and vasodilation. In vivo promotes natriuresis. In vitro, selectively vasodilates intestinal smooth muscle but not vascular smooth muscle strips.
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O46550
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CAV2_CANLF
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Caveolin-2
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MGLETEKADVQLCMDDDAYSRHSAVDFGDLEQLADSGSDRDPRRLNSHLQVGFEDVIAEPVSTHSFDKVWICSHALFEVSKYVIYKFLTLLLAMPMAFAAGVLFATLSCLHIWIIMPFVKTCLMVLPSVQTIWKSVTDAVIAPLCSSVGRSFSSVSLQVSHD
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May act as a scaffolding protein within caveolar membranes. Interacts directly with G-protein alpha subunits and can functionally regulate their activity. Acts as an accessory protein in conjunction with CAV1 in targeting to lipid rafts and driving caveolae formation. The Ser-36 phosphorylated form has a role in modulating mitosis in endothelial cells. Positive regulator of cellular mitogenesis of the MAPK signaling pathway. Required for the insulin-stimulated nuclear translocation and activation of MAPK1 and STAT3, and the subsequent regulation of cell cycle progression (By similarity).
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O46559
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LIPC_RABIT
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Hepatic triacylglycerol lipase (HL) (Hepatic lipase) (EC 3.1.1.3) (Lipase member C) (Lysophospholipase) (EC 3.1.1.5) (Phospholipase A1) (EC 3.1.1.32)
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MGSPLCVPIFLAVCILIQSSTHGQSLRPEPFGRRARVTATKKTLLETETRFLLFKDKANKGCQIRLHHADTLQECGFNSSLPLVMIVHGWSVDGLLESWIWQMVAALKSQPARPVNVGLVDWISLAHSHYAVAVRNARLVGQEVAALLQWLEESAPFSRSNVHLIGYSLGAHVAGFAGSYISGKHKIGRITGLDAAGPLFEGTSASDRLSPDDATFVDAIHTFTREHMGLSVGIKQPVGHYDFYPNGGSFQPGCHFLELYKHIAQHGLNALSQTIKCAHERSVHLFIDSLLHPSMQSTAYQCSDMDSFSQGLCLGCTKGRCNTLGYHIRQEPLSKGKRLFLVTQAQSPFRVYHYQFKIQFINQIEKPLEPTFTMSLLGTKEEMQKIPITLGEGITSNKTYSFLITLNLDIGELMVIKFKWENSAVWANVWNTVQTIIPWGIKPRNSGLILKTIRVKAGETQQRMTFCSENMDDLQLHPTQEKNFVRCEVNPKKLKLKIK
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Catalyzes the hydrolysis of triglycerides and phospholipids present in circulating plasma lipoproteins, including chylomicrons, intermediate density lipoproteins (IDL), low density lipoproteins (LDL) of large size and high density lipoproteins (HDL), releasing free fatty acids (FFA) and smaller lipoprotein particles. Also exhibits lysophospholipase activity (By similarity). Can hydrolyze both neutral lipid and phospholipid substrates but shows a greater binding affinity for neutral lipid substrates than phospholipid substrates (By similarity). In native LDL, preferentially hydrolyzes the phosphatidylcholine species containing polyunsaturated fatty acids at sn-2 position (By similarity).
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O46560
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PDXK_PIG
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Pyridoxal kinase (EC 2.7.1.35) (Pyridoxine kinase)
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MQAGSWVVGGGDSDSRVLSIQSHVVRGYVGNRAATFPLQVLGFEVDAVNSVQFSNHTGYAHWKGQVLNSDELHALYEGLKLNNVNQYDYVLTGYTRDKSFLAMVVDIVRELKQQNPRLVYVCDPVMGDKWDGEGSMYVPEDLLPVYREKVVPVADIITPNQFEAELLTGRRIHSEEEALAVMDMLHAMGPDTVVITSSDLPSPRGKDYLIALGSQRTRSPDGSVATQRIRMEICKVDAVFVGTGDLFAAMLLAWTHKHPNNLKVACEKTVSAMHHVLRRTIQCAKAKAGEGLKPSPAQLELRMVQSKRDIEDPEVVVQATVL
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Catalyzes the phosphorylation of the dietary vitamin B6 vitamers pyridoxal (PL), pyridoxine (PN) and pyridoxamine (PM) to form pyridoxal 5'-phosphate (PLP), pyridoxine 5'-phosphate (PNP) and pyridoxamine 5'-phosphate (PMP), respectively (Probable). PLP is the active form of vitamin B6, and acts as a cofactor for over 140 different enzymatic reactions (By similarity).
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O46564
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BMP2_RABIT
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Bone morphogenetic protein 2 (BMP-2)
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MVAGTRCLLALLLPQVLLGGAAGLIPELGRRKFAASSGRPSPQPSDDILSEFELRLLSMFGLKQRPTPSRDAVVPPYMLDLYRRHSGQPGAPAPDHRLERAASRANTVRSFHHEESLEELPETSGKTTRRFFFNLTSIPPEEFITSAELQVFREQMQEALGDDSGFHHRINIYEIIKPATANSKFPATRLLDTRLVNQNTSRWESFDVTPAVMRWTAQGHANHGFVVEVTHLEEKQGVSKRHVRISRSLHPDEHSWSQIRPLLVTFGHDGKGHPLHRREKRQAKHKQRKRLKSSCKRHPLYVDFSDVGWNDWIVAPPGYHAFYCHGECPFPLADHLNSTNHAIVQTLVNSVNSKIPKACCVPTELSAISMLYLDENEKVVLKNYQDMVVEGCGCR
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Growth factor of the TGF-beta superfamily that plays essential roles in many developmental processes, including cardiogenesis, neurogenesis, and osteogenesis. Induces cartilage and bone formation. Initiates the canonical BMP signaling cascade by associating with type I receptor BMPR1A and type II receptor BMPR2. Once all three components are bound together in a complex at the cell surface, BMPR2 phosphorylates and activates BMPR1A. In turn, BMPR1A propagates signal by phosphorylating SMAD1/5/8 that travel to the nucleus and act as activators and repressors of transcription of target genes. Also acts to promote expression of HAMP, via the interaction with its receptor BMPR1A/ALK3 (By similarity). Can also signal through non-canonical pathways such as ERK/MAP kinase signaling cascade that regulates osteoblast differentiation. Stimulates also the differentiation of myoblasts into osteoblasts via the EIF2AK3-EIF2A-ATF4 pathway by stimulating EIF2A phosphorylation which leads to increased expression of ATF4 which plays a central role in osteoblast differentiation.
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O46567
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GCR_SAISC
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Glucocorticoid receptor (GR) (Nuclear receptor subfamily 3 group C member 1)
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MDSKESLTPGKEENPSSVLTQERGNVMDFCKILRGGATLKVSVSSTSLAAASQSDSKQQRLLVDFPKGSVSNAQQPDLSKAVSLSMGLYMGETETKVMGNDLGFPQQGQISLSSGETDLQLLEESIANLNRSTSVPENPKSSASSSVSAAPKEKEFPKTHSDVSSEQQNLKGQTGTNGGNVKLYTADQSTFDILQDLEFSSGSPGKETNQSPWKSDLLIDENCLLSPLAGEEDSFLLEGNSNEDCKPLILPDTKPKIKDNGDLVLSSSSNVTLPQVKTEKEDFIELCTPGVIKQEKLSTVYCQASFPGANIIGNKMSAISIHGVSTSGGQMYHYDMNTASLSQQQDQKPIFNVIPPIPVGSENWNRCQGSGDDNLTSLGTLNFPGRTVFSNGYSSPSMRPDVSSPPSSSSTATTGPPPKLCLVCSDEASGCHYGVLTCGSCKVFFKRAVEGQHNYLCAGRNDCIIDKIRRKNCPACRYRKCLQAGMNLEARKTKKKIIKGIQQATTGVSQETSENPANKTIVPATLPQLTPTLVSLLEVIEPEVLYAGYDSTVPDSTWRIMTTLNMLGGRQVIAAVKWAKAIPGFRNLHLDDQMTLLQYSWMFLMAFALGWRSYRQASSNLLCFAPDLIINEQRMTLPCMYDQCKHMLYVSSELHRLQVSYEEYLCMKTLLLLSSVPKDGLKSQELFDEIRMTYIKELGKAIVKREGNSSQNWQRFYQLTKLLDSMHEVVENLLNYCFQTFLDKTMSIEFPEMLAEIITNQLPKYSNGNIKKLLFHQK
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Receptor for glucocorticoids (GC). Has a dual mode of action: as a transcription factor that binds to glucocorticoid response elements (GRE), both for nuclear and mitochondrial DNA, and as a modulator of other transcription factors. Affects inflammatory responses, cellular proliferation and differentiation in target tissues. Involved in chromatin remodeling (By similarity). Plays a role in rapid mRNA degradation by binding to the 5' UTR of target mRNAs and interacting with PNRC2 in a ligand-dependent manner which recruits the RNA helicase UPF1 and the mRNA-decapping enzyme DCP1A, leading to RNA decay (By similarity). Could act as a coactivator for STAT5-dependent transcription upon growth hormone (GH) stimulation and could reveal an essential role of hepatic GR in the control of body growth (By similarity). Mediates glucocorticoid-induced apoptosis (By similarity). Promotes accurate chromosome segregation during mitosis (By similarity). May act as a tumor suppressor (By similarity). May play a negative role in adipogenesis through the regulation of lipolytic and antilipogenic gene expression (By similarity).
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O46576
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BMP4_RABIT
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Bone morphogenetic protein 4 (BMP-4)
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MIPGNRMLMVVLLCQVLLGGASHASLIPETGKKKVAEIQGHAGGRRSGQSHELLRDFEATLLQMFGLRRHPQPSKSAVIPDYMRDLYRLQSGEEEEEEQMPSGGLEYPERPASRANTVRSFHHEEHLENIPGTSENSAFRFLFNLSSIPENEAISSAELRLFREQVDQGPDWERGFHRINIYEVMKPPAEAVPGHLITRLLDTRLVHHNVTRWETFDVSPAVLRWTREKQPNHGLAVEVTHFHHTRTHQGQHVRLSRSLLQGSGDWAQFRPLLVTFGHDGRGHALTRRRRAKRSLKHHPQRARKKNKNCRRHALYVDFSDVGWNDWIVAPPGYQAFYCHGDCPFPLADHFNSTNHAIVQTLVNSVNSSIPKACCVPTELSAISMLYLDEYDKVVLKNYQEMVVEGCGCR
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Growth factor of the TGF-beta superfamily that plays essential roles in many developmental processes, including neurogenesis, vascular development, angiogenesis and osteogenesis (By similarity). Acts in concert with PTHLH/PTHRP to stimulate ductal outgrowth during embryonic mammary development and to inhibit hair follicle induction (By similarity). Initiates the canonical BMP signaling cascade by associating with type I receptor BMPR1A and type II receptor BMPR2. Once all three components are bound together in a complex at the cell surface, BMPR2 phosphorylates and activates BMPR1A. In turn, BMPR1A propagates signal by phosphorylating SMAD1/5/8 that travel to the nucleus and act as activators and repressors of transcription of target genes. Can also signal through non-canonical BMP pathways such as ERK/MAP kinase, PI3K/Akt, or SRC cascades. For example, induces SRC phosphorylation which, in turn, activates VEGFR2, leading to an angiogenic response (By similarity).
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O46600
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GHR_BOVIN
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Growth hormone receptor (GH receptor) (Somatotropin receptor) [Cleaved into: Growth hormone-binding protein (GH-binding protein) (GHBP) (Serum-binding protein)]
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MDLWQLLLTLAVAGSSDAFSGSEATPAFLVRASQSLQILYPVLETNSSGNPKFTKCRSPELETFSCHWTDGANHSLQSPGSVQMFYIRRDIQEWKECPDYVSAGENSCYFNSSYTSVWTPYCIKLTSNGGIVDHKCFSVEDIVQPDPPVGLNWTLLNISLTEIHADILVKWEPPPNTDVKMGWIILEYELHYKELNETQWKMMDPLMVTSVPMYSLRLDKEYEVRVRTRQRNTEKYGKFSEVLLITFPQMNPSACEEDFQFPWFLIIIFGILGLAVTLYLLIFSKQQRIKMLILPPVPVPKIKGIDPDLLKEGKLEEVNTILAIHDNYKHEFYNDDSWVEFIELDIDDPDEKTEGSDTDRLLSNDHEKSLNIFGAKDDDSGRTSCYEPDILEADFHVSDMCDGTSEVAQPQRLKGEADISCLDQKNQNNSPSNDAAPASQQPSVILVEENKPRPLLIGGTESTHQAVHTQLSNPSSLANIDFYAQVSDITPAGNVVLSPGQKNKTGNPQCDTHPEVVTPCQANFIVDNAYFCEVDAKKYIALAPHVEAESHVEPSFNQEDIYITTESLTTTAGRSGTAEHVPSSEIPVPDYTSIHIVQSPQGLVLNATALPLPDKEFLSSCGYVSTDQLNKIMP
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Receptor for pituitary gland growth hormone involved in regulating postnatal body growth. On ligand binding, couples to, and activates the JAK2/STAT5 pathway (By similarity). The soluble form (GHBP) acts as a reservoir of growth hormone in plasma and may be a modulator/inhibitor of GH signaling.
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O46606
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DDHD1_BOVIN
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Phospholipase DDHD1 (EC 3.1.1.111) (EC 3.1.1.32) (DDHD domain-containing protein 1) (Phosphatidic acid-preferring phospholipase A1) (PA-PLA1) (EC 3.1.1.118) (Phospholipid sn-1 acylhydrolase)
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MNYPGHGSPRSSERNGGRGGDGAAWELGSDTEPAFGGSVCRFDHLPVGEPGDDEVPLALLRGEPGLHLAPGAEDHNHHLALDPCLSDDNYDFSSAESGSSLRYYSEGESGGGGSSSSLHPPQQPLVPSNSGGGGAAGGGPGERKRTRPGGAAARHRYEVVTELGPEEVRWFYKEDKKTWKPFIGYDSLRIELAFRTLLQATGARARAQDPDGDHVCGPASPAGPASSSVEDEDEDRVCGFCPRIAGHGREMEELVNIERVCVRGGLYEVDVTQGECYPVYWNQSDKIPVMRGQWFIDGTWQPLEEEESNLIEQEHLSRFRGQQMQESFDIEVSKPIDGKDAIHSFKLSRNHVDWHSVDEVYLYSDATTSKIARTVTQKLGFSKASSSGTRLHRGYVEEATLEDKPSQTTHIVFVVHGIGQKMDQGRIIKNTAMMREAARKIEERHFSNHATHVEFLPVEWRSKLTLDGDTVDSITPDKVRGLRDMLNSSAMDIMYYTSPLYRDELVKGLQQELNRLYSLFCSRNPNFEEKGGKVSIVSHSLGCVITYDIMTGWNPVRLYEQLLQKEEELPDERWMSYEERHLLDELYITKRRLREIEERLHGLKASSMTQTPALKFKVENFFCMGSPLAVFLALRGIRPGNTGSQDHILPREICNRLLNIFHPTDPVAYRLEPLILKHYSNISPVQIHWYNTSNPLPYEYMKPSFLHPAKDPTSISENEGISTIPSPVTSPVLSRRHYGESITNIGKASILGAASIGKGLGGMLFSRFGRSSASQPSETSRDSIEDEKKPVASPPMTTVATQTLPHSSSGFLDSALELDHRIDFELREGLVESRYWSAVTSHTAYWSSLDVALFLLTFMYKHEHDNNVKPSLDPV
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Phospholipase A1 (PLA1) that hydrolyzes ester bonds at the sn-1 position of glycerophospholipids producing a free fatty acid and a lysophospholipid. Prefers phosphatidate (1,2-diacyl-sn-glycero-3-phosphate, PA) as substrate in vitro, but can efficiently hydrolyze phosphatidylinositol (1,2-diacyl-sn-glycero-3-phospho-(1D-myo-inositol), PI), as well as a range of other glycerophospholipid substrates such as phosphatidylcholine (1,2-diacyl-sn-glycero-3-phosphocholine, PC), phosphatidylethanolamine (1,2-diacyl-sn-glycero-3-phosphoethanolamine, PE), phosphatidylserine (1,2-diacyl-sn-glycero-3-phospho-L-serine, PS) and phosphatidylglycerol (1,2-diacyl-sn-glycero-3-phospho-(1'-sn-glycerol), PG). Involved in the regulation of the endogenous content of polyunsaturated PI and PS lipids in the nervous system. Changes in these lipids extend to downstream metabolic products like PI phosphates PIP and PIP2, which play fundamental roles in cell biology (By similarity). Regulates mitochondrial morphology. These dynamic changes may be due to PA hydrolysis at the mitochondrial surface (By similarity). May play a regulatory role in spermatogenesis or sperm function.
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O46613
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IL1A_FELCA
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Interleukin-1 alpha (IL-1 alpha)
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MAKVPDLFEDLKNCYSENEEYSSEIDHLTLNQKSFYDASYDPLHEDCTDKFMSPSTSETSKTPQLTLKKSVVMVAANGKILKKRRLSLNQFLTADDLEAIANEVEEEIMKPRSVAPNFYSSEKYNYQKIIKSQFILNDNLSQSVIRKAGGKYLAAAALQNLDDAVKFDMGAYTSKEDSKLPVTLRISKTRLFVSAQNEDEPVLLKEMPETPKTIRDETNLLFFWERHGSKNYFKSVAHPKLFIATQEEQLVHMARGLPSVTDFQILETQS
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Cytokine constitutively present intracellularly in nearly all resting non-hematopoietic cells that plays an important role in inflammation and bridges the innate and adaptive immune systems. After binding to its receptor IL1R1 together with its accessory protein IL1RAP, forms the high affinity interleukin-1 receptor complex. Signaling involves the recruitment of adapter molecules such as MYD88, IRAK1 or IRAK4. In turn, mediates the activation of NF-kappa-B and the three MAPK pathways p38, p42/p44 and JNK pathways. Within the cell, acts as an alarmin and cell death results in its liberation in the extracellular space after disruption of the cell membrane to induce inflammation and alert the host to injury or damage. In addition to its role as a danger signal, which occurs when the cytokine is passively released by cell necrosis, directly senses DNA damage and acts as signal for genotoxic stress without loss of cell integrity.
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O46629
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ECHB_BOVIN
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Trifunctional enzyme subunit beta, mitochondrial (TP-beta) [Includes: 3-ketoacyl-CoA thiolase (EC 2.3.1.155) (EC 2.3.1.16) (Acetyl-CoA acyltransferase) (Beta-ketothiolase)]
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MISLLTYTLKNLPNTSKWALRFCMRPLSSSSQLQAAAASQTKSKKTLAKPNIRNIVVVDGVRTPFLLSGTSYKDLMPHDLARAALSGLLHRTSVPKDVVDYIIFGTVIQEVKTSNVAREAALGAGFSDKTPAHTVTMACISSNQAMTTAVGLIASGQCDVVVAGGVELMSDIPIRHSRKMRKMMLDLNKAKTLAQRLSIISKFRLNFLSPELPAVSEFSTSETMGHSADRLAAAFAISREEQDEYALRSHSLAKKAQDEGLLSDVVPFKVPGRDTVTQDNGIRPSSLDQMAKLKPAFIKPYGTVTAANSSFLTDGASAVLIMAEEKALAMGYKPKAYLRDFMYVSQDPKDQLLLGPTYATPKVLEKAGLTMNDIDVFEFHEAFSGQILANLKAMDSDWFAQNYMGRKAKVGLPPLEKFNNWGGSLSLGHPFGATGCRLVMAAANRLRKEGGQYGLVAACAAGGQGHAMIVEAYPK
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Mitochondrial trifunctional enzyme catalyzes the last three of the four reactions of the mitochondrial beta-oxidation pathway. The mitochondrial beta-oxidation pathway is the major energy-producing process in tissues and is performed through four consecutive reactions breaking down fatty acids into acetyl-CoA. Among the enzymes involved in this pathway, the trifunctional enzyme exhibits specificity for long-chain fatty acids. Mitochondrial trifunctional enzyme is a heterotetrameric complex composed of two proteins, the trifunctional enzyme subunit alpha/HADHA carries the 2,3-enoyl-CoA hydratase and the 3-hydroxyacyl-CoA dehydrogenase activities, while the trifunctional enzyme subunit beta/HADHB described here bears the 3-ketoacyl-CoA thiolase activity.
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O46631
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SHPS1_BOVIN
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Tyrosine-protein phosphatase non-receptor type substrate 1 (SHP substrate 1) (SHPS-1) (CD172 antigen-like family member A) (Inhibitory receptor SHPS-1) (MyD-1 antigen) (Signal-regulatory protein alpha-1) (Sirp-alpha-1) (CD antigen CD172a)
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MEPARPAPGRLRPLLCLLLAASNAWTGTAGDGELQVIQPERSVSVAAGETATLHCTVTSLSPVGPIKWFKGTGPGREFIYSQKEAPFPRVTNVSDATKRNNMDFSIRISNITPADAGVYYCVKFRKEERGDMEFKSGPGTHLTVSAKPSPPVLSGPTVRATPEQTVNFTCTSHGFSPRNISLKWFKNGNELSASQTSVDPEDNNVSYSINSTTKVLLATGDVHSQVICEVAHVTLQGGPPLRGTANLSETIRVPPTLEITGSPSAGNQVNVTCQVNKFYPRHLQLTWLENGNMSRTEAASVFVENKDGTFNQTSWFLVNSSAHREAVVLTCQVEHDGQPAVSKNHTLEVSAPQKDQDTGQTPGPNDSNWTSIFIVVGVVCALLVALLIAALYLLRIRQNKAKGSTSSTRLHEPEKNTRETTQIQDNNDITYADLNLPKGKKSTPKANEPNNHTEYASIQARPPPVSEDTLTYADLDMVHLNRTPKQPAPKPEPSYSEYASVQVQRK
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Immunoglobulin-like cell surface receptor for CD47. Acts as docking protein and induces translocation of PTPN6, PTPN11 and other binding partners from the cytosol to the plasma membrane. Supports adhesion of cerebellar neurons, neurite outgrowth and glial cell attachment. May play a key role in intracellular signaling during synaptogenesis and in synaptic function. Involved in the negative regulation of receptor tyrosine kinase-coupled cellular responses induced by cell adhesion, growth factors or insulin. Mediates negative regulation of phagocytosis, mast cell activation and dendritic cell activation. CD47 binding prevents maturation of immature dendritic cells and inhibits cytokine production by mature dendritic cells. Plays a role in antiviral immunity and limits new world arenavirus infection by decreasing virus internalization (By similarity). Receptor for THBS1 (By similarity). Interaction with THBS1 stimulates phosphorylation of SIRPA (By similarity). In response to THBS1, involved in ROS signaling in non-phagocytic cells, stimulating NADPH oxidase-derived ROS production (By similarity).
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O46635
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5HT2A_CANLF
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5-hydroxytryptamine receptor 2A (5-HT-2) (5-HT-2A) (5-hydroxytryptamine receptor) (Serotonin receptor 2A)
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MDVLFEDNAPLSPTTSSLMPSNGDPRLYGNDLNAGDANTSDAFNWTVDAENRTNLSCEGCLSPPCFSLLHLQEKNWSALLTAVVIILTIAGNILVIMAVSLEKKLQNATNYFLMSLAIADMLLGFLVMPVSMLTILYGYRWPLPSKLCAVWIYLDVLFSTASIMHLCAISLDRYVAIQNPIHHSRFNSRTKAFLKIIAVWTISVGISMPIPVFGLQDDSKVFKEGSCLLADDNFVLIGSFVSFFIPLTIMVITYFLTIKSLQKEATLCVSDPGTRAKLASFSFLPQSSLSSEKLFQRSIHREPGSYGRRTMQSISNEQKACKVLGIVFFLFVVMWCPFFITNIMAVICKESCNEDIIGALLNVFVWIGYLSSAVNPLVYTLFNKTYRSAFSRYIQCQYKENKKPLQLILVNTIPALAYKSSQLQMGQKKNSKKDAKSTDNDYSMVALGKQHSEDAPTDNINTVNEKVSCV
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G-protein coupled receptor for 5-hydroxytryptamine (serotonin). Also functions as a receptor for various drugs and psychoactive substances, including mescaline, psilocybin, 1-(2,5-dimethoxy-4-iodophenyl)-2-aminopropane (DOI) and lysergic acid diethylamide (LSD). Ligand binding causes a conformation change that triggers signaling via guanine nucleotide-binding proteins (G proteins) and modulates the activity of down-stream effectors. Beta-arrestin family members inhibit signaling via G proteins and mediate activation of alternative signaling pathways. Signaling activates phospholipase C and a phosphatidylinositol-calcium second messenger system that modulates the activity of phosphatidylinositol 3-kinase and promotes the release of Ca(2+) ions from intracellular stores. Affects neural activity, perception, cognition and mood. Plays a role in the regulation of behavior, including responses to anxiogenic situations and psychoactive substances. Plays a role in intestinal smooth muscle contraction, and may play a role in arterial vasoconstriction.
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O46644
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CELA1_MACFA
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Chymotrypsin-like elastase family member 1 (EC 3.4.21.36) (Elastase-1)
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MLRFLVFATLVLYGHSTQDFPETNARVVGGTEAGRNSWPSQISLQYLSGGSWYHTCGGTLIRQNWVMTAAHCVDSPKTFRVVVGDHNLSQNDGTEQYVSVQKIVVHPYWNSNNVAAGYDIALLRLAQSVTLNSYVQLGVLPQEGAILANDSPCYITGWGRTKTNGQLAQTLQQAYLPSVDYAICSSSSYWGSTVKNTMVCAGGDGVHSGCQGDSGGPLHCLVNGKYSVHGVTSFVSKQGCNVSRKPTVFTRVSAYISWINKTIASN
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Acts upon elastin.
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O46647
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LIPL_NEOVI
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Lipoprotein lipase (LPL) (EC 3.1.1.34)
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MESKALLLVALGMWFQSLTATRGGVAAADRGGDFIDIESKFALRTPEDTAEDTCHLIPGVTESVANCHFNHSSKTFVVIHGWTVTGMYESWVPKLVAALYKREPDSNVIVVDWLSRAQQHYPVSAGYTKLVGKDVAKFINWMAEEFHYPLDNVHLLGYSLGAHAAGIAGSLTNKKVNRITGLDPAGPNFEYAEAPSRLSPDDADFVDVLHTFTRGSPGRSIGIQKPVGHVDIYPNGGTFQPGCNIGEAIRVIAERGLGDVDQLVKCSHERSIHLFIDSLLNEENPSKAYRCNSKEAFEKGLCLSCRKNRCNNLGYEINKVRAKRSSKMYLKTRSQMPYKVFHYQVKIHFSGTESDTQTNQAFEISLYGTVAESENIPFTLPEVSANKTYSFLIYTEVDIGELLMLKLKWKSDSYFSWSDWWSSPGFAIEKIRVKAGETQKKVIFCSREKVSHLQKGKASVVFVKCHDKSLNKKSG
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Key enzyme in triglyceride metabolism. Catalyzes the hydrolysis of triglycerides from circulating chylomicrons and very low density lipoproteins (VLDL), and thereby plays an important role in lipid clearance from the blood stream, lipid utilization and storage. Mediates margination of triglyceride-rich lipoprotein particles in capillaries. Recruited to its site of action on the luminal surface of vascular endothelium by binding to GPIHBP1 and cell surface heparan sulfate proteoglycans (By similarity).
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O46658
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CP2DP_PIG
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Vitamin D(3) 25-hydroxylase (EC 1.14.14.24) (CYPIID25) (Cytochrome P450 2D25)
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MGLLTGDLLGILALAMVIFLLLVDLMHRRSRWAPRYPPGPMPLPGLGNLLQVNFQDPRLSFIQLRRRFGDVFSLQQIWRPVVVLNGLAAVREALVSHSHETSDRPPVFILEHLGYGPRSEGVILARYGKAWREQRRFSVSTLRNFGLGKKSLEEWVTQEASCLCAAFADQAGRPFSPNNLLNKAVSNVIASLTFARRFEYNDPRMLKLLDLVLEGLKEEVGLMRQVLEAMPVLRHIPGLCAKLFPRQKAFLVMIDELITEHKMTRDLAQPPRDLTDAFLDEMKEAKGNPESSFNDENLRLVVAHLFSAGMITTSTTLAWALLLMILHPDVQRRVQQEIDEVIGHVRQPEIKDQALMPFTLAVLHEVQRFGDIVPLGVAHMTSCDIEVQGFLIPKGTTLITNLTSVLKDETVWKKPFRFYPEHFLDAQGRFTKQEAFMPFSAGRRSCLGEPLARMELFLFFTTLLQAFSFSVPTGQPCPSDHGVFAFLLFPSPYQLCAVPR
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Catalyzes the 25-hydroxylation of vitamin D(3) (calciol), 1alpha-hydroxyvitamin D(3) (alphacalcidiol) and some C27 steroids. In addition the enzyme catalyzes the hydroxylation of positions 11 and 12 of dodecanoate.
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O46669
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SCNAA_CANLF
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Sodium channel protein type 10 subunit alpha (NaNG) (Sodium channel protein type X subunit alpha) (Voltage-gated sodium channel subunit alpha Nav1.8)
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MEFPFGSLETTNFRRFTPESLVEIEKRIAAKQAAKKAKGKHREQKDQEEKPRPQLDLKACNQPPKFYGELPAELVGEPLEDLDPFYSTHRTFMVLDKGRTISRFSATRALWLFSPFNLIRRTAIKVSVHSWFSLFITVTILVNCVGMTQTELPDRIEYVFTVIYTFEALIKILARGFCLNEFAYLRDPWDWLDFSVITLAYIGEATALRGISGLRTFRVLRALKTVSVIPGLKVIVGALIHSVRKLADVTILTVFCLSVFALVGLQLFKGNLKNKCVKNCAALNETGNYSSYGKQEWNFCHRDEDFYYNKPGTSDPLLCGNGSDAGHCPKGYLCLKTSDNPDFNYTSFDSFAWAFLSLFRLMTQDSWERLYQQTLRASGKMYMVFFVLVIFLGSFYLVNLILAVVTMAYEEQNQATIDEIEAKEKTFQETLEMPRKEQEVLAALGIDTASLHSCNGSPLPSKNASERMRRMKPRVSEGSTDDNKSPQSDPYNQRRMSFLGLTSGRRRASHGSVFHFRTPCLDTSFPDGVTDDGVFPGDRESHRGSLLLGGGTSQQGPLLRSPLPQPPNPGSGHGEDGHSTLPTGELAPGGIEVSAFDAGQKKTFLSAEYLNEPFRAQRAMSVVSIMTSVLEELEESERRCPPCLTSFAQKYLIWECCPTWVKLKTVLFGIVTDPFAELTTTLCIVVNTVFMAMEHHGMSSAFEAMLQIGNIVFTVFFTAEMVFKIIAFDPYYYFQKRWNIFDCIIVTVSLIELGAARKGSLSVLRTFRLLRVFKLAKSWPTLNTLIKIIGNSVGALGNLTIILAIIVFVFALVGKQLLGENYRDNRRNISAPNEEWPRWHMHDFFHSFLIVFRILCGEWIENMWACMEVGQKSICLILFLTVMVLGNLVVLNLFTALLLNSFSADNLATPDEDGEVNNLQVALARIQAFGHRTKKAICNFFTRPCLLPWPKAEPQLVVKLPLSSSKAENHIAANAAVGSPGGLSVSRGLRDDHSDFITNPNIWVSVPIAEGESDLDDLEEDGEEDSQSSQQEVILQGQEQLQVETCEGHTAPRSPGSGMSSEDLASYVDEKWKDEAVAQAPAEGGDDSSSSGGSTVDCLDPEEILRKIPELADDLEEPDDCFTEGCLRRCPCCKVDISKFPWTVGWQVRKTCYRIVEHSWFESFIIFMILLSSGSLAFEDYHLDQKPTVKALLEYTDRMFTFIFVLEMLLKWVAYGFKKYFTNAWCWLDFLIVNISLISLIAKILQYSDVASIKALRTLRALRPLRALSRFEGMRVVVDALVGAIPSIMNVLLVCLIFWLIFSTMGVNFFAGKFGRCINKTNEYFSLVPLSIVNNISDCKYQNHTGSFFWVNVKVNFDNVAMGYLALLQVATFKGWMDIMYAAVDARDVNLQPKWEDNVYMYLYFVIFIIFGGFFTLNLFVGVIIDNFNQQKKKLGGQDIFMTEEQKKYYNAMKKLGSKKPQKPIPRPLNKYQGFVFDIVTKQAFDIVIMVLICLNMITMMVETDEQSAEKTKILNKINQFFVAVFTGECVMKMFALRHYYFTNGWNVFDFIVVVLSIGSLVFSVILTSLENYFSPTLFRVIRLARIGRILRLIRAAKGIRTLLFALMMSLPALFNIGLLLFLVMFIYSIFGMASFPHVSWEAGIDDMFNFQTFANSMLCLFQITTSAGWDGLLSPILNTGPPYCDPNLPNSNGSRGNCGSPAVGILFFTTYIIISFLIVVNMYIAVILENFNVATQESSEPLSEDDFDMFYETWEKFDPEATQFITFSALSDFADTLSGPLRIPKPNQNILIQMDLPLVPGDKIHCLDILFAFTKNVLGESGELDSLKANIEEKFMATNVSKASYEPIATTLRWKQEDISATVIQKAYRSYVLHRSMTISNPPAVPRAEEAVPPPDEAFVEFMVNENCALPDKSETASAASFPPSYDSVTRGLSDQINMSTSSSMQNEDEGTSKKVTAPGP
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Tetrodotoxin-resistant channel that mediates the voltage-dependent sodium ion permeability of excitable membranes. Assuming opened or closed conformations in response to the voltage difference across the membrane, the protein forms a sodium-selective channel through which sodium ions may pass in accordance with their electrochemical gradient. Plays a role in neuropathic pain mechanisms (By similarity).
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O46674
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AT2A2_CANLF
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Sarcoplasmic/endoplasmic reticulum calcium ATPase 2 (SERCA2) (SR Ca(2+)-ATPase 2) (EC 7.2.2.10) (Calcium pump 2) (Calcium-transporting ATPase sarcoplasmic reticulum type, slow twitch skeletal muscle isoform) (Endoplasmic reticulum class 1/2 Ca(2+) ATPase)
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MENAHTKTVEEVLGHFGVNESTGLSLEQVKKLKERWGSNELPAEEGKTLLELVIEQFEDLLVRILLLAACISFVLAWFEEGEETITAFVEPFVILLILVANAIVGVWQERNAENAIEALKEYEPEMGKVYRQDRKSVQRIKAKDIVPGDIVEIAVGDKVPADIRLTSIKSTTLRVDQSILTGESVSVIKHTDPVPDPRAVNQDKKNMLFSGTNIAAGKAMGVVVATGVNTEIGKIRDEMVATEQERTPLQQKLDEFGEQLSKVISLICIAVWIINIGHFNDPVHGGSWIRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCRMFILDRVEGDSCSLNEFTITGSTYAPIGEVHKDDKPVKCHQYDGLVELATICALCNDSALDYNEAKGVYEKVGEATETALTCLVEKMNVFDTELKGLSKIERANACNSVIKQLMKKEFTLEFSRDRKSMSVYCTPNKPSRTSMSKMFVKGAPEGVIDRCTHIRVGSTKVPMTPGVKQKVMSVIREWGSGSDTLRCLALATHDNPLRREEMNLEDSANFIKYETNLTFVGCVGMLDPPRIEVASSVKLCRQAGIRVIMITGDNKGTAVAICRRIGIFGQDEDVTSKAFTGREFDELSPSAQRDACLNARCFARVEPSHKSKIVEFLQSFDEITAMTGDGVNDAPALKKSEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAALGFPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMNKPPRNPKEPLISGWLFFRYLAIGCYVGAATVGAAAWWFIAADGGPRVSFYQLSHFLQCKDDNPDFEGVDCAIFESPYPMTMALSVLVTIEMCNALNSLSENQSLLRMPPWENIWLVGSICLSMSLHFLILYVEPLPLIFQITPLNLTQWLMVLKISLPVILMDETLKFVARNYLEPAILE
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This magnesium-dependent enzyme catalyzes the hydrolysis of ATP coupled with the translocation of calcium from the cytosol to the sarcoplasmic reticulum lumen. Involved in autophagy in response to starvation. Upon interaction with VMP1 and activation, controls ER-isolation membrane contacts for autophagosome formation. Also modulates ER contacts with lipid droplets, mitochondria and endosomes (By similarity). In coordination with FLVCR2 mediates heme-stimulated switching from mitochondrial ATP synthesis to thermogenesis (By similarity). [Isoform 1]: Involved in the regulation of the contraction/relaxation cycle. Acts as a regulator of TNFSF11-mediated Ca(2+) signaling pathways via its interaction with TMEM64 which is critical for the TNFSF11-induced CREB1 activation and mitochondrial ROS generation necessary for proper osteoclast generation. Association between TMEM64 and SERCA2 in the ER leads to cytosolic Ca(2+) spiking for activation of NFATC1 and production of mitochondrial ROS, thereby triggering Ca(2+) signaling cascades that promote osteoclast differentiation and activation.
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O46680
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TGFR1_BOVIN
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TGF-beta receptor type-1 (TGFR-1) (EC 2.7.11.30) (TGF-beta type I receptor) (Transforming growth factor-beta receptor type I) (TGF-beta receptor type I) (TbetaR-I)
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MEAAAATPRPRLFLLMLAAAATLVPEATPLQCFCHLCTKDNFTCVTDGLCFVSVTETTDKVIHNSMCIAEIDLIPRDRPFVCAPSSKTGSITTTYCCNQDHCNKIELPTVGKPSSGLGPVELAAVIAGPVCFVCISLMLMVYICHNRTVIHHRVPNEEDPSLDRPFISEGTTLKDLIYDMTTSGSGSGLPLLVQRTIARTIVLQESIGKGRFGEVWRGKWRGEEVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTVEGMIKLALSTASGLAHLHMEIVGTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVRHDSATDTIDIAPNHRVGTKRYMAPEVLDDSINMKHFESFKRADIYAMGLVFWEVARRCSIGGIHEDYQLPYYDLVPSDPSVEEMRKVVCEQKLRPNIPNRWQSCEALRVMAKIMRECWYANGAARLTALRIKKTLSQLSQQEGIKM
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Transmembrane serine/threonine kinase forming with the TGF-beta type II serine/threonine kinase receptor, TGFBR2, the non-promiscuous receptor for the TGF-beta cytokines TGFB1, TGFB2 and TGFB3. Transduces the TGFB1, TGFB2 and TGFB3 signal from the cell surface to the cytoplasm and is thus regulating a plethora of physiological and pathological processes including cell cycle arrest in epithelial and hematopoietic cells, control of mesenchymal cell proliferation and differentiation, wound healing, extracellular matrix production, immunosuppression and carcinogenesis. The formation of the receptor complex composed of 2 TGFBR1 and 2 TGFBR2 molecules symmetrically bound to the cytokine dimer results in the phosphorylation and the activation of TGFBR1 by the constitutively active TGFBR2. Activated TGFBR1 phosphorylates SMAD2 which dissociates from the receptor and interacts with SMAD4. The SMAD2-SMAD4 complex is subsequently translocated to the nucleus where it modulates the transcription of the TGF-beta-regulated genes. This constitutes the canonical SMAD-dependent TGF-beta signaling cascade. Also involved in non-canonical, SMAD-independent TGF-beta signaling pathways. For instance, TGFBR1 induces TRAF6 autoubiquitination which in turn results in MAP3K7 ubiquitination and activation to trigger apoptosis. Also regulates epithelial to mesenchymal transition through a SMAD-independent signaling pathway through PARD6A phosphorylation and activation (By similarity).
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O48528
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OP163_ARATH
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Outer envelope pore protein 16-3, chloroplastic/mitochondrial (Chloroplastic outer envelope pore protein of 16 kDa 3) (AtOEP16-3) (OEP16-3) (Mitochondrial complex I subunit B14.7)
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MDPAEMRYLEEEDGPLMKTIKGSITGFGAGTIYGTILATWKDVPRVERNVALPGLIRTLKMMGTHGLTFAAIGGVYIGVEQLVQNFRSKRDFYNGAIGGFVAGASVLGYRARSIPTAIAAGATLAVTSALIDSGGQTTRVDNGREYYPYTVEKRAEADS
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Voltage-dependent high-conductance channel with a slight cation-selectivity selective for amino acids but excludes triosephosphates or uncharged sugars. Non-essential amino acid-selective channel protein and translocation pore for NADPH:protochlorophyllide oxidoreductase A (PORA) and possibly PORB (By similarity).
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O48533
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PYM_ARATH
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Protein POLYCHOME (Protein UV-B-INSENSITIVE 4)
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MPEARDRIERQVDYPAAFLNRRSHGILLDEPATQHNLFGSPVQRVPSEATGGLGSIGQGSMTGRGGLVRGNFGIRRTGGGRRGQIQFRSPQGRENMSLGVTRRGRARASNSVLPSWYPRTPLRDISAVVRAIERRRARMGEGVGRDIETPTPQQLGVLDSLVPLSGAHLEHDYSMVTPGPSIGFKRPWPPSTAKVHQILLDITRENTGEEDALTPEKKLLNSIDKVEKVVMEEIQKMKSTPSAKRAEREKRVRTLMSMR
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Negative regulator of the anaphase-promoting complex/cyclosome (APC/C) ubiquitin ligase required for proper mitotic progression and cell fate determination inhibits premature cell differentiation. Prevents DNA endoreplication by promoting the maintenance of the mitotic state by preferentially inhibiting APC/C(FZR) and triggering cyclins accumulation (e.g. CYCB1-1, CYCB1-2 and CYCA2-3) in a temporal manner. Required for megagametophyte and endosperm development. Counteracts the activity of CCS52A1 thus inhibiting the turnover of CYCA2-3. Confers immunity to bacterial pathogens (e.g. Pseudomonas syringae pv. tomato DC3000), which is associated with increased expression of disease resistance (R) genes.
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O48538
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RBOHF_ARATH
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Respiratory burst oxidase homolog protein F (EC 1.11.1.-) (EC 1.6.3.-) (Cytochrome b245 beta chain homolog RbohAp108) (NADPH oxidase RBOHF) (AtRBOHF)
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MKPFSKNDRRRWSFDSVSAGKTAVGSASTSPGTEYSINGDQEFVEVTIDLQDDDTIVLRSVEPATAINVIGDISDDNTGIMTPVSISRSPTMKRTSSNRFRQFSQELKAEAVAKAKQLSQELKRFSWSRSFSGNLTTTSTAANQSGGAGGGLVNSALEARALRKQRAQLDRTRSSAQRALRGLRFISNKQKNVDGWNDVQSNFEKFEKNGYIYRSDFAQCIGMKDSKEFALELFDALSRRRRLKVEKINHDELYEYWSQINDESFDSRLQIFFDIVDKNEDGRITEEEVKEIIMLSASANKLSRLKEQAEEYAALIMEELDPERLGYIELWQLETLLLQKDTYLNYSQALSYTSQALSQNLQGLRGKSRIHRMSSDFVYIMQENWKRIWVLSLWIMIMIGLFLWKFFQYKQKDAFHVMGYCLLTAKGAAETLKFNMALILFPVCRNTITWLRSTRLSYFVPFDDNINFHKTIAGAIVVAVILHIGDHLACDFPRIVRATEYDYNRYLFHYFQTKQPTYFDLVKGPEGITGILMVILMIISFTLATRWFRRNLVKLPKPFDRLTGFNAFWYSHHLFVIVYILLILHGIFLYFAKPWYVRTTWMYLAVPVLLYGGERTLRYFRSGSYSVRLLKVAIYPGNVLTLQMSKPTQFRYKSGQYMFVQCPAVSPFEWHPFSITSAPEDDYISIHIRQLGDWTQELKRVFSEVCEPPVGGKSGLLRADETTKKSLPKLLIDGPYGAPAQDYRKYDVLLLVGLGIGATPFISILKDLLNNIVKMEEHADSISDFSRSSEYSTGSNGDTPRRKRILKTTNAYFYWVTREQGSFDWFKGVMNEVAELDQRGVIEMHNYLTSVYEEGDARSALITMVQALNHAKNGVDIVSGTRVRTHFARPNWKKVLTKLSSKHCNARIGVFYCGVPVLGKELSKLCNTFNQKGSTKFEFHKEHF
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Calcium-dependent NADPH oxidase that generates superoxide. Generates reactive oxygen species (ROS) during incompatible interactions with pathogens and is important in the regulation of the hypersensitive response (HR). Involved in abscisic acid-induced stomatal closing and in UV-B and abscisic acid ROS-dependent signaling.
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O48573
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LAZ5_ARATH
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Disease resistance protein LAZ5 (EC 3.2.2.6) (Protein LAZARUS 5) (Protein TOLERANCE TO TOBACCO RINGSPOT VIRUS 1)
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MAASSEILPESWQVFINFRGADLRNGFISHLAGALTSAGITYYIDTEEVPSEDLTVLFKRIEESEIALSIFSSNYAESKWCLDELVKIMEQVKKGKLRIMPVFFNVKPEEVREQNGEFGLKLYGEGKSKRPNIPNWENALRSVPSKIGLNLANFRNEKELLDKIIDSIKKVLARITRASRVAESLNGISKDSEAKNVDTFSPNSSDFPSTSIDDDLSINSPQYQATIPPASREGERLNTISTVSSTGSIEHPPPNYGIEPRLKEMEEKLDFDSLETKTVGIVGMPGIGKTTLAETLYRKWEHKFERSMFFPDASKMANEHGMCWLQKRLLEELLKDTNLNIGYTTNEHEFCKDVLLLKKVFLVIDNVSSEEQIETLFGKWNWIKNGSKIVITSSDESMLKGFVKDTYVVPSLNSRDSLLWFTNHAFGLDDAQGNLVKLSKHFLNYAKGNPLALGAFGVELCGKDKADWEKRIKTLTLISNKMIQDVLRRRYDELTERQKDIFLDVACFFKSENESYVRHVVNSCDSESTKSWDEITDLKGKFLVNISGGRVEMHDILCTFAKELASQALTEDTRVHLRLWNYQDIMWFLNNELEMENVRGIFLDMSKVPEEMTFDGNIFSNMCNLRYLKIYSSVCHKEGEGIFKFDTVREIQLPLDKVRYLHWMKYPWEKLPSDFNPENLVDLELPYSSIKKVWEGVKDTPILKWANLSYSSKLTNLLGLSNAKNLERLNLEGCTSLLKLPQEMENMKSLVFLNMRRCTSLTCLQSIKVSSLKILILSDCSKLEEFEVISENLEELYLDGTAIKGLPPAAGDLTRLVVLNMEGCTELESLPKRLGKQKALQELVLSGCSKLESVPTDVKDMKHLRLLLLDGTRIRKIPKIKSLKCLCLSRNIAMVNLQDNLKDFSNLKCLVMKNCENLRYLPSLPKCLEYLNVYGCERLESVENPLVADRLTLFLDRSEELRSTFLFTNCHNLFQDAKDSISTYAKWKCHRLAVECYEQDIVSGAFFNTCYPGYIVPSWFDHQAVGSVLEPRLEPHWYNTMLSGIALCAVVSFHENQDPIIGSFSVKCTLQFENEDGSLRFDCDIGCLNEPGMIEADHVFIGYVTCSRLKDHHSIPIHHPTTVKMQFHLTDACKSKVVDCGFRLMYTQSRGCLLEEEVNANFTKLYLGLL
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TIR-NB-LRR receptor-like protein that may play a role in plant innate immunity. May trigger hypersensitive programmed cell death in response to pathogen attack. Involved in tolerance to tobacco ringspot virus (TRSV).
|
O48626
|
ZW10_ARATH
|
Centromere/kinetochore protein zw10 homolog (AtZW10) (MAG2-interacting protein 1)
|
MPEIDALFESINVRDLLAGHDLNDPTTPLSAPDLRLLINRLESHSLRIKSKVQSYLVAHHSDFSELFSLCQDTVSRTRLISDDVSDVLQLVSDRPIDVEIRSVVDEITEKTKEVKLKRESLDLVNAIVGICEALQETKEALKNGRFRFAAERIRELKVVLRIGEEEDGEPVAYALLRKEWSNCFDEIQEVLAKFMENAVRFELDSSRIRIKYQLSVGETAGIALSTVLEAMEVIGILDYGLAKAADSIFKHVITPAVTHASTFAAVEDLCKSAGEVTEATLRLEQSSDHKFEDVDGDAMYSGILKVVKFICSSLCFGNVTWIHSFGRLTWPRISELIISKFLSKVVPEDASKLADFQKIIERTSQFEAALKELNFVSSSDAESRLSKYAEDVEVHFASRKKIEILAKARNLLLQCNFTIPQDIAMRNAKHIVCLLFSSERCVVSEAASQLMNLVHKTLEDVCVSSARVASEFYNAARDSILLYEAVVPVKLEKQLDGLNEAAVLLHNDCLYLFEEILGLAFEYRASFPSSIKEYAVFADIAPRFKLMAEEVLQKQVHLVISSLREAIDSADGFQNTHQIKQFKSAEFSIDQVVFSLKNVHMIWEPVLRPKTYKQSMCAVLESVFRRIARDILLLDDMAADETFELQKLIYLMLKNLSSVLDSVRSADETSRPLDDIIPSLRKTRKLAELLDMPLMSITSAWESGELFRCNFTRTEVQDFIKAIFTDSPLRKECLWRIDEVNQ
|
May be required for accurate chromosome segregation. Required for proper maturation of seed storage proteins. Forms a complex with MAG2, MIP2 and MIP3 on the endoplasmic reticulum that may be responsible for efficient transport of seed storage proteins.
|
O48651
|
SQE1_PANGI
|
Squalene monooxygenase SE1 (EC 1.14.14.17) (Squalene epoxidase 1) (PgSQE1) (SE) (SE1) (gse)
|
MNSSSSTTTTDTLHSFMEASALLIDQYFLGWIFAFLFGFLLLLNFKRKREKNNSTEFGTDDSNGYYTPENIAGSTDVIIVGAGVAGSALAYTLANDGRRVHVIERDLTEQDRIVGELLQPGGYLKLIELGLEDCVNEIDAQRVFGYALYMDGKNTRLSYPLEKFHSDVAGRSFHNGRFVQRMREKAASLPNVRMEQGTVTSLVEKKGSVKGVQYKTKDGQELSAFAPLTIVCDGCFSNLRRSLCNPKVEVPSCFVGLILENIDLPHINHGHVILADPSPILFYKISSTEIRCLVDVPGQKVPCISNGELANYLKTVVAPQVPKQLYNSFIAAVDKGNIRTMPNRSMPADPHPTPGALLLGDAFNMRHPLTGGGMTVALSDIVLIRDLLRPLRDLHDSSTLCKYLESFYTLRKPVASTINTLAGALYKVFCASPDKARQEMRNACFDYLSLGGICSQGPIALLSGLNPRPISLFLHFFAVAIYGVGRLLIPFPSPKRMWLGARLILGASGIIFPIIKSEGLRQMFFPAIVPAYYRAPPIH
|
Component of the triterpene saponins (e.g. ginsenosides or panaxosides) and phytosterols biosynthetic pathways. Catalyzes the first oxygenation step in sterol biosynthesis and is suggested to be one of the rate-limiting enzymes in this pathway (By similarity).
|
O48652
|
UVR3_ARATH
|
(6-4)DNA photolyase (EC 4.1.99.13) (Protein UV repair defective 3)
|
MQRFCVCSPSSYRLNPITSMATGSGSLIWFRKGLRVHDNPALEYASKGSEFMYPVFVIDPHYMESDPSAFSPGSSRAGVNRIRFLLESLKDLDSSLKKLGSRLLVFKGEPGEVLVRCLQEWKVKRLCFEYDTDPYYQALDVKVKDYASSTGVEVFSPVSHTLFNPAHIIEKNGGKPPLSYQSFLKVAGEPSCAKSELVMSYSSLPPIGDIGNLGISEVPSLEELGYKDDEQADWTPFRGGESEALKRLTKSISDKAWVANFEKPKGDPSAFLKPATTVMSPYLKFGCLSSRYFYQCLQNIYKDVKKHTSPPVSLLGQLLWREFFYTTAFGTPNFDKMKGNRICKQIPWNEDHAMLAAWRDGKTGYPWIDAIMVQLLKWGWMHHLARHCVACFLTRGDLFIHWEQGRDVFERLLIDSDWAINNGNWMWLSCSSFFYQFNRIYSPISFGKKYDPDGKYIRHFLPVLKDMPKQYIYEPWTAPLSVQTKANCIVGKDYPKPMVLHDSASKECKRKMGEAYALNKKMDGKVDEENLRDLRRKLQKDEHEESKIRNQRPKLK
|
Involved in repair of UV radiation-induced DNA damage. Catalyzes the photoreactivation of pyrimidine [6-4] pyrimidone photoproduct (6-4 products). Binds specifically to DNA containing 6-4 products and repairs these lesions in a visible light-dependent manner. Not required for repair of cyclobutane pyrimidine dimer (CPD).
|
O48653
|
DPOLA_ORYSJ
|
DNA polymerase alpha catalytic subunit (EC 2.7.7.7)
|
MDEGSADAGASGRRSRARGSEAVARSAALERLRAIRDGGARAAAAVQVRIEAPIYDTVAEEDYAALVARRRKDAGAFIVDDDGLGYADDGREEDWTHRTIHSSSDEGSDGEDGAPRKRKQPRPQSKRPPQQSAAAASLSAAAAMMGKQRLSSMFTSSVFRKPGSDRGRDSSLAADSIVDDVIAEFAPDDNDREERRRRVGRVCAPAPAPTTTAHIKAENVAVDTAMAFRSDNVFEAHEVSDHGNDMDMELKPDVEMEPKLDTPLGASAELANNSNSLEEPKQEANGEVKIEKVHRLNAKIKTEDSRNGDMASATAGWMKICGDGDNAGGEGAVAANSNTGVDESSEFELKDGALPFYILDAYEEPFGANSGTVYLFGKVEVGKRFHSCCVVVKNMQRCIYAIPSSSIFPRDTISRLEKNSTTSDSSPSLRASLHELASGLKSEIADKLSDFNVSNFAMTPVKRNYAFERTDLPNGEQYVLKINYPYKDPALPTDLRGQHFHALLGTNNSALELLLIKRKIKGPSWLSISKFLACPATQRVSWCKFEVTVDSPKDISVLMTSTTLEVPPVVVAAVNLKTIINEKHNVHEIVSASVICCHRVKIDSPMRSEDWQKRGMLSHFTVMRKLEGSIFPIGLSKESSDRNQKAGSNVLALESSERALLNRLMIELSKLDCDVLVGHNISGFDLDVLLHRAQTCKVPSNMWSKIGRLRRSVMPRLTKGNTLYGSGASPGIMSCIAGRLLCDTYLCSRDLLKEVSYSLTQLAETQLKKERKEVSPHDIPPMFQSSGALLKLVEYGETDACLALELMFHLSVLPLTRQLTNISGNLWGKTLQGSRAQRVEYLLLHAFHARKFIVPDKFARSKEFNSTKRKMNPDTEAARPDEADPSIDDEGHHVDQGKTKKGPSYAGGLVLEPKKGLYDKYVLLLDFNSLYPSIIQEYNICFTTVDRSADGNVPNLPASKTTGVLPELLKSLVERRRMVKSWLKTASGLKRQQFDIQQQALKLTANSMYGCLGFSNSRFYAKPLAELITLQGREILQNTVDLVQNNLNLEVIYGDTDSIMIHTGLDDISRAKGIAGKVIQEVNKKYRCLEIDLDGIYKRMLLLKKKKYAAIKVALDGSLRENIERKGLDMVRRDWSLLSKEIGDFCLNQILSGGSCDDVIESIHSSLVQVQEQMRGGQTELEKYIITKSLTKAPEDYPDAKNQPHVQVALRLKQNGYSGCSAGDTVPYIICSQQDSESTHSGGIAQRARHPEELKRNPDKWMIDIDYYLSQQIHPVVSRLCASIQGTSPARLAECLGLDSSKFQSRLTESDNQDTSSMLLSVIDDEDERYRGCEPLRLSCPSCSTTFDCPPVSSLIIGSSSGNVSNPNEGNDASINFWRRMRCPRCPDDTDESRVSPAVLANQMKRQADSFINLYYKGLLMCDDEGCKYSTHSVNLRVMGDSERGTICPNYPRCNGHLVRQYTEADLYRQLSYFCYVVDATRCLEKLDQKARLPFEKEFAALSQTINLALMEVQKIRDRCAFGWVQLKDLAISI
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Polymerase alpha in a complex with DNA primase is a replicative polymerase.
|
O48666
|
SQS1_PANGI
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Squalene synthase 1 (PgSS) (PgSS1) (PgssA) (SQS 1) (SQS 4) (EC 2.5.1.21) (FPP:FPP farnesyltransferase SS1) (Farnesyl-diphosphate farnesyltransferase SS1)
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MGSLGAILKHPEDFYPLLKLKFAARHAEKQIPPEPHWAFCYSMLHKVSRSFGLVIQQLGPQLRDAVCIFYLVLRALDTVEDDTSIPTEVKVPILMAFHRHIYDKDWHFSCGTKEYKVLMDEFHHVSNAFLELGSGYQEAIEDITMRMGAGMAKFICKEVETINDYDEYCHYVAGLVGLGLSKLFHASGAEDLATDSLSNSMGLFLQKTNIIRDYLEDINEIPKSRMFWPRQIWSKYVDKLEDLKYEENSAKAVQCLNDMVTDALVHAEDCLKYMSDLRGPAIFRFCAIPQIMAIGTLALCFNNTQVFRGVVKMRRGLTAKVIDQTKTMSDVYGAFFDFSCLLKSKVDNNDPNATKTLSRLEAIQKTCKESGTLSKRKSYIIESESGHNSALIAIIFIILAILYAYLSSNLLLNKQ
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Component of the triterpene saponins (e.g. ginsenosides or panaxosides) and phytosterols biosynthetic pathways. Catalyzes the biosynthesis of squalene.
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O48676
|
U74B1_ARATH
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UDP-glycosyltransferase 74B1 (N-hydroxythioamide S-beta-glucosyltransferase) (EC 2.4.1.195) (Thiohydroximate S-glucosyltransferase)
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MAETTPKVKGHVVILPYPVQGHLNPMVQFAKRLVSKNVKVTIATTTYTASSITTPSLSVEPISDGFDFIPIGIPGFSVDTYSESFKLNGSETLTLLIEKFKSTDSPIDCLIYDSFLPWGLEVARSMELSAASFFTNNLTVCSVLRKFSNGDFPLPADPNSAPFRIRGLPSLSYDELPSFVGRHWLTHPEHGRVLLNQFPNHENADWLFVNGFEGLEETQDCENGESDAMKATLIGPMIPSAYLDDRMEDDKDYGASLLKPISKECMEWLETKQAQSVAFVSFGSFGILFEKQLAEVAIALQESDLNFLWVIKEAHIAKLPEGFVESTKDRALLVSWCNQLEVLAHESIGCFLTHCGWNSTLEGLSLGVPMVGVPQWSDQMNDAKFVEEVWKVGYRAKEEAGEVIVKSEELVRCLKGVMEGESSVKIRESSKKWKDLAVKAMSEGGSSDRSINEFIESLGK
|
Involved in the biosynthesis of glucosinolate. In in vitro assay, may use phenylacetothiohydroximate (PATH), but not phenylacetic acid (PAA), indole-3-acetic acid (IAA) or salicylic acid (SA) as substrate. Specific for the thiohydroximate functional group and does not glucosylate the carboxylate group or a hydroxyl group.
|
O48709
|
PI5K3_ARATH
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Phosphatidylinositol 4-phosphate 5-kinase 3 (AtPIP5K3) (EC 2.7.1.68) (1-phosphatidylinositol 4-phosphate kinase 3) (Diphosphoinositide kinase 3) (PtdIns(4)P-5-kinase 3)
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MQETVFLFTEENLNKEQSLGVKYKQSSRRVVPMTSCEVSDTAAEIRIVEKVLKNGDLYNGGLSAGVPHGTGKYLWSDGCMYEGEWTRGKASGKGRFSWPSGATYEGQFKDGRMDGEGTFIGIDGDTYRGHWLWGRKHGYGEKRYANGDGYQGNWKANLQDGNGRYVWSDGNEYVGEWKNGVISGKGKMTWANGNRYDGLWENGAPVGKGVLSWGEEKTSYNGWGRKSKKKDEEIVQNHKLSSVETLSANTNFPRICISELEDTGVCDHVEASPYTSESDTSGCGEQEWARSPLLLESGGAMSVQQSPRWLDEGDVKKPGHTVTAGHKNYDLMLNLQLGIRYSVGKHASLLRELRHSDFDPKDKQWTRFPPEGSKSTPPHLSAEFKWKDYCPIVFRHLRDLFAIDQADYMLAICGNESLREFASPGKSGSAFYLTQDERYMIKTMKKSEIKVLLKMLPNYYEHVSKYKNSLVTKFFGVHCVKPVGGQKTRFIVMGNLFCSEYRIHKRFDLKGSSHGRTIDKDEGEIDETTTLKDLDLKYVFRLETSWFQAFINQIDLDCEFLEAERIMDYSLLIGLHFRESGMRDDISLGIGRRDQEDKLMRGNGPLMRLGESTPAKAEQVSRFEEETWEEDAIDNSNPKGTRKEAVEVILYFGVIDILQDYDITKKLEHAYKSLHADPASISAVDPKLYSRRFRDFINKIFIEDK
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With DRP1A and DRP2B, required for the precise coordination of polar ARAC3/ROP6 and ARAC4/ROP2 placement and subsequent root hair positioning during planar polarity formation in root hair-forming cells, probably by mediating the correct basal-to-planar polarity switching of D6PK into the polar, lipid-enriched domain.
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O48711
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PME12_ARATH
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Probable pectinesterase/pectinesterase inhibitor 12 [Includes: Pectinesterase inhibitor 12 (Pectin methylesterase inhibitor 12); Pectinesterase 12 (PE 12) (EC 3.1.1.11) (Pectin methylesterase 12) (AtPME12)]
|
MALSSFNLSSLLFLLFFTPSVFSYSYQPSLNPHETSATSFCKNTPYPDACFTSLKLSISINISPNILSFLLQTLQTALSEAGKLTDLLSGAGVSNNLVEGQRGSLQDCKDLHHITSSFLKRSISKIQDGVNDSRKLADARAYLSAALTNKITCLEGLESASGPLKPKLVTSFTTTYKHISNSLSALPKQRRTTNPKTGGNTKNRRLLGLFPDWVYKKDHRFLEDSSDGYDEYDPSESLVVAADGTGNFSTINEAISFAPNMSNDRVLIYVKEGVYDENIDIPIYKTNIVLIGDGSDVTFITGNRSVGDGWTTFRSATLAVSGEGFLARDIMITNTAGPEKHQAVALRVNADFVALYRCVIDGYQDTLYTHSFRQFYRECDIYGTIDYIFGNAAVVFQGCNIVSKLPMPGQFTVITAQSRDTQDEDTGISMQNCSILASEDLFNSSNKVKSYLGRPWREFSRTVVMESYIDEFIDGSGWSKWNGGEALDTLYYGEYNNNGPGSETVKRVNWPGFHIMGYEDAFNFTATEFITGDGWLGSTSFPYDNGI
|
Acts in the modification of cell walls via demethylesterification of cell wall pectin.
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O48723
|
PLP2_ARATH
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Patatin-like protein 2 (AtPLP2) (EC 3.1.1.-) (Patatin-related phospholipase A IIalpha) (pPLAIIa) (Phospholipase A IIA) (AtPLAIIA)
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MQMDSPKSPLQPPTYGNLVTILSIDGGGIRGLIPAVILGFLESELQKLDGEEARLADYFDVIAGTSTGGLVTAMLTAPNKEGRPLFAASEIKDFYLEQCPKIFPQDHFPFSAAKKLVKSLTGPKYDGKYLHQLIHAKLGDTKLSQTLTNVVIPTFDIKHLQPTIFSSYEVKNHPLKDATLADIAISTSAAPTYLPAHFFKVEDLNGNAKEYNLIDGGVAANNPALLAIGEVTNEISGGSSDFFPIRPNDYGRFLVLSLGTGNHKAEEKFNAKEVAGWGLLNWLTHDNSTPIIDAFSQASSDMVDFHLSAVFRALHSEANYIRIQDDTLTGDAASVDIATVENLDILAKTGDELLKKPVARVNLDSGCNENAYETTNEHALIKLAGILSKEKKIRDIRSPHAKAPIRI
|
Possesses non-specific lipolytic acyl hydrolase (LAH) activity. Catalyzes the hydrolysis of the galactolipids monogalactosyldiacylglycerol (MGDG) and digalactosyldiacylglycerol (DGDG), and less efficiently the phoshpolipids phosphatidylcholine (PC), phosphatidylethanolamine (PE), phosphatidylglycerol (PG), phosphatidic acid (PA), phosphatidylserine (PS) and phosphatidylinositol (PI). Favors the release of fatty acid at the sn-1 position for PC or PE and the sn-2 position for PG, PA, PS and PI. Negatively affects disease resistance to the necrotic fungal pathogen Botrytis cinerea and the avirulent bacteria Pseudomonas syringae by promoting cell death and reducing the efficiency of the hypersensitive response, respectively. However, PLP2 contributes to resistance to cucumber mosaic virus (CMV), an obligate parasite inducing hypersensitive response. May negatively regulate oxylipin production, possibly via participating in membrane repair that includes removal of oxidatively modified lipids.
|
O48726
|
RPN13_ARATH
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26S proteasome regulatory subunit RPN13 (AtRPN13) (26S proteasome non-ATPase regulatory subunit 13)
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MSSSEAFPVMQEIMLEFRAGKMSLQGTRVVPDARKGLVRIARGDEGLIHFQWLDRNQNTVEDDQIVFPDEALFEKVNQSSDRVYILKFNSDDRKLFFWMQEPRAEGDAELCSSVNQYLNQPLEFPGEEGLAAAITEELEDMAEDNTSSRAGNLVVPNLSSEVSDVTSSSGPVKLADLQRILNNLSGGPVGIAGDQDEGLALGDILKPELIMPLLEALPVQERLSSHLPEGHSRAEDILELLQSPPFRQQVDAFTYVLRTGQIDLTQFGIDPSKYKFTVDSFLEALEDSVSTQSRDAMDES
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Functions as a proteasomal ubiquitin receptor. Binds and presumably selects ubiquitin-conjugates for destruction. Prefers multiubiquitin chains rather than single ubiquitins, with a binding affinity for 'Lys-63'-linked ubiquitin chains.
|
O48737
|
TRXM1_ARATH
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Thioredoxin M1, chloroplastic (AtTrxm1)
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MAAYTCTSRPPISIRSEMRIASSPTGSFSTRQMFSVLPESSGLRTRVSLSSLSKNSRVSRLRRGVICEAQDTATGIPVVNDSTWDSLVLKADEPVFVDFWAPWCGPCKMIDPIVNELAQKYAGQFKFYKLNTDESPATPGQYGVRSIPTIMIFVNGEKKDTIIGAVSKDTLATSINKFL
|
Thiol-disulfide oxidoreductase involved in the redox regulation of enzymes of both reductive pentose phosphate pathway (Calvin-Benson cycle) and oxidative pentose phosphate pathway. Under reducing conditions, activates the glyceraldehyde-3-phosphate dehydrogenase and the phosphoribulokinase, and inhibits. the glucose-6-phosphate dehydrogenase. Activates NADP-malate dehydrogenase.
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O48741
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PORC_ARATH
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Protochlorophyllide reductase C, chloroplastic (PCR C) (EC 1.3.1.33) (NADPH-protochlorophyllide oxidoreductase C) (POR C)
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MALQAAYSLLPSTISIQKEGKFNASLKETTFTGSSFSNHLRAEKISTLLTIKEQRRQKPRFSTGIRAQTVTATPPANEASPEQKKTERKGTAVITGASSGLGLATAKALADTGKWHVIMACRNFLKAEKAARSVGMSKEDYTVMHLDLASLESVKQFVENFRRTEQPLDVLVCNAAVYQPTAKEPSFTAEGFEISVGTNHLGHFLLSRLLLDDLKKSDYPSKRMIIVGSITGNTNTLAGNVPPKANLGDLRGLASGLNGQNSSMIDGGEFDGAKAYKDSKVCNMLTMQELHRRYHEETGVTFASLYPGCIATTGLFREHIPLFRLLFPPFQKYITKGYVSEEEAGKRLAQVVSDPSLGKSGVYWSWNNNSSSFENQLSKEASDAEKAKKLWEVSEKLVGLA
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Phototransformation of protochlorophyllide (Pchlide) to chlorophyllide (Chlide).
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O48773
|
PDI23_ARATH
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Protein disulfide-isomerase 2-3 (AtPDIL2-3) (EC 5.3.4.1) (Protein disulfide-isomerase 5-2) (AtPDIL5-2) (Protein disulfide-isomerase 9) (PDI9)
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MYKSPLTLLTLLTICFGFFDLSSALYGSSSPVVQLTASNFKSKVLNSNGVVLVEFFAPWCGHCKALTPTWEKVANILKGVATVAAIDADAHQSAAQDYGIKGFPTIKVFVPGKAPIDYQGARDAKSIANFAYKQIKGLLSDRLEGKSKPTGGGSKEKKSEPSASVELNASNFDDLVIESNELWIVEFFAPWCGHCKKLAPEWKRAAKNLQGKVKLGHVNCDVEQSIMSRFKVQGFPTILVFGPDKSSPYPYEGARSASAIESFASELVESSAGPVEVTELTGPDVMEKKCGSAAICFISFLPDILDSKAEGRNKYLEMLLSVAEKFKKQPYSFMWVAAVTQMDLEKRVNVGGYGYPAMVAMNVKKGVYAPLKSAFELQHLLEFVKDAGTGGKGNVPMNGTPEIVKTKEWDGKDGELIEEDEFSLDELMGGDDAVGSKDEL
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Acts as a protein-folding catalyst that interacts with nascent polypeptides to catalyze the formation, isomerization, and reduction or oxidation of disulfide bonds.
|
O48782
|
HMOX1_ARATH
|
Heme oxygenase 1, chloroplastic (AtHO1) (EC 1.14.14.18) (Protein GENOMES UNCOUPLED 2) (Protein REVERSAL OF THE DET PHENOTYPE 4)
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MAYLAPISSSLSIFKNPQLSRFQFSSSSPNPLFLRPRIQILSMTMNKSPSLVVVAATTAAEKQKKRYPGESKGFVEEMRFVAMRLHTKDQAKEGEKETKSIEERPVAKWEPTVEGYLRFLVDSKLVYDTLELIIQDSNFPTYAEFKNTGLERAEKLSTDLEWFKEQGYEIPEPTAPGKTYSQYLKELAEKDPQAFICHFYNIYFAHSAGGRMIGRKVAERILDNKELEFYKWDGELSQLLQNVREKLNKVAEEWTREEKNHCLEETEKSFKYSGEILRLILS
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Key enzyme in the synthesis of the chromophore of the phytochrome family of plant photoreceptors. Catalyzes the opening of the heme ring to form the open-chain tetrapyrrole biliverdin IX with the release of iron and carbon monoxide (CO). Produces specifically the biliverdin IX-alpha isomer. Can form complex with heme, is ferredoxin-dependent and its activity is increased in the presence of ascorbate. Plays a role in salt acclimation signaling. May affect the plastid-to-nucleus signaling pathway by perturbing tetrapyrrole synthesis. The plastid-to-nucleus signal plays an important role in the coordinated expression of both nuclear- and chloroplast-localized genes that encode photosynthesis-related proteins.
|
O48791
|
SCAB1_ARATH
|
Stomatal closure-related actin-binding protein 1
|
MTRVTRDFRDSLQRDGVPAVSADVKFASSRFPNYRIGANDQIFDVKDDPKVMSMKEVVARETAQLMDQQKRLSVRDLAHKFEKGLAAAAKLSEEAKLKEATSLEKHVLLKKLRDALESLRGRVAGRNKDDVEEAIAMVEALAVQLTQREGELFIEKAEVKKLASFLKQASEDAKKLVDEERAFARAEIESARAAVQRVEEALREHEQMSRASGKQDMEDLMKEVQEARRIKMLHQPSRVMDMEYELRALRNQLAEKSKHFLQLQKKLAMCRKSEENISLVYEIDGTEALGSCLRVRPCSNDAPDLSKCTIQWYRSSSDGSKKELISGATKSVYAPEPFDVGRVLHADIIYDGHSLSLSTVGKIDPAAGLGSYVEALVRKHDVDFNVVVTQMSGEDHTSESIHLFHVGKMRIKLCKGKTVIAKEYYSSAMQLCGVRGGGNAAAQALYWQAKKGVSFVIAFESERERNAAIMLARRFACDCNVTLAGPEDRTETGQSP
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Plant-specific actin binding protein that bundles and stabilizes microfilaments (MFs). Has no nucleation or capping activity. Regulates MF reorganization during stomatal closure. The binding to F-actin is insensitive to Ca(2+) and pH. Binds weakly to inositol phosphates.
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O48802
|
PHOX2_ARATH
|
Protein CLMP1 (CLUMPED CHLOROPLASTS 1) (Protein MADB2) (Protein PHOX2) (Putative myosin adapter B2)
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MGKSGGRKKKSGGSNSNSSQVNSSETSGLSKPSTIVNGGVDFDASIFLKRAHELKEEGNKKFQARDYVGALEQYENGIKLIPKSHPDRAVFHSNRAACLMQMKPIDYESVISECSMALKSQPGFTRALLRRARAFEAVGKFDLAVQDVNVLLGSDPNHKDAGEISKRLKTALGPHQDLQSRPSPAALGASAALGGPIAGLGPCLPSRNVHKKGVTSPVGSVSLPNASNGKVERPQVVNPVTENGGSVSKGQASRVVLKPVSHSPKGSKVEELGSSSVAVVGKVQEKRIRWRPLKFVYDHDIRLGQMPVNCRFKELREIVSSRFPSSKAVLIKYKDNDGDLVTITSTAELKLAESAADCILTKEPDTDKSDSVGMLRLHVVDVSPEQEPMLLEEEEEEVEEKPVIEEVISSPTESLSETEINTEKTDKEVEKEKASSSEDPETKELEMDDWLFDFAHLFRTHVGIDPDAHIDLHELGMELCSEALEETVTSEKAQPLFDKASAKFQEVAALAFFNWGNVHMCAARKRIPLDESAGKEVVAAQLQTAYEWVKERYTLAKEKYEQALSIKPDFYEGLLALGQQQFEMAKLHWSYLLAQKIDISGWDPSETLNLFDSAEAKMKDATEMWEKLEEQRMDDLKNPNSNKKEEVSKRRKKQGGDGNEEVSETITAEEAAEQATAMRSQIHLFWGNMLFERSQVECKIGKDGWNKNLDSAVERFKLAGASEADIATVVKNHCSNEAAATEGDEKKVPAP
|
Required for plastid separation and partitioning during cell division. Not involved in plastid constriction or in the organization of cytoplasmic actin cables. Contributes to polar growth of root hairs.
|
O48814
|
BIK1_ARATH
|
Serine/threonine-protein kinase BIK1 (EC 2.7.11.1) (Protein BOTRYTIS-INDUCED KINASE 1)
|
MGSCFSSRVKADIFHNGKSSDLYGLSLSSRKSSSTVAAAQKTEGEILSSTPVKSFTFNELKLATRNFRPDSVIGEGGFGCVFKGWLDESTLTPTKPGTGLVIAVKKLNQEGFQGHREWLTEINYLGQLSHPNLVKLIGYCLEDEHRLLVYEFMQKGSLENHLFRRGAYFKPLPWFLRVNVALDAAKGLAFLHSDPVKVIYRDIKASNILLDADYNAKLSDFGLARDGPMGDLSYVSTRVMGTYGYAAPEYMSSGHLNARSDVYSFGVLLLEILSGKRALDHNRPAKEENLVDWARPYLTSKRKVLLIVDNRLDTQYLPEEAVRMASVAVQCLSFEPKSRPTMDQVVRALQQLQDNLGKPSQTNPVKDTKKLGFKTGTTKSSEKRFTQKPFGRHLV
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Plays a central role in immune responses. Required to activate the resistance responses to necrotrophic pathogens, including the regulation of defense hormone expression (e.g. jasmonic acid (JA) and salicylic acid (SA)). Phosphorylates FLS2 and BAK1. Involved in pathogen-associated molecular pattern (PAMP)-triggered immunity (PTI) signaling, including calcium signaling, and defense responses downstream of FLS2 upon PAMP recognition, first phosphorylated by FLS2 and SIK1 prior to being monoubiquitinated by ATL44/RHA3A and ATL45/RHA3B at the plasma membrane, then internalized dynamically into endocytic compartments together with FLS2 (PubMed:20413097, PubMed:25522736, Ref.20, PubMed:30212650). Acts additively with PBL1 in PTI defenses. Acts as positive regulator of the PAMP flg22-induced increase of cytosolic calcium. Binds directly and phosphorylates the NADPH oxidase RBOHD at specific sites in a calcium-independent manner to enhance reactive oxygen species (ROS) generation upon flg22 perception. ROS production in response to flg22 controls stomatal movement and restriction of bacterial entry into leaf tissues. Seems not required for flg22-induced MAPK activation (Probable). Required for Pep1-induced defenses. Pep1 is an endogenous elicitor that potentiates PAMP-inducible plant responses. In association with PEPR1, acts downstream of the canonical ethylene signaling cascade to regulate ethylene responses. Involved in ethylene signaling. Destabilizes EIN3, the key transcription activator in ethylene signaling, and represses EIN3-dependent transcription. Acts as a negative regulator in brassinosteroid (BR) signaling. Functions in BR signaling by direct interaction with the BR receptor BRI1 cytosolic kinase domain. Required during SCOOP small peptides (e.g. SCOOP10 and SCOOP12) perception and signaling receptor-like cytosolic kinases (RLCK) activated by BAK1/SERK3 and SERK4 coreceptors when associated with MIK2 upon the perception of SCOOP peptides. (Microbial infection) Xanthomonas campestris effector AvrAC/XopAC-mediated uridylylation prevents activation by phosphorylation at the same residues, thus affecting immune responses and reducing defense responses toward X.campestris, mediating avrAC/XopAC virulence functions.
|
O48847
|
LUH_ARATH
|
Transcriptional corepressor LEUNIG_HOMOLOG (Protein MUCILAGE-MODIFIED 1)
|
MAQSNWEADKMLDVYIYDYLVKKKLHNTAKSFMTEGKVSPDPVAIDAPGGFLFEWWSVFWDIFIARTNEKHSEAAAAYIEAQQGKAKEQQMQIQQLQMMRQAQMQRRDPNHPSLGGPMNAIGSEGMIGQSNASALAAKMYEERMKQPNPMNSETSQPHLDARMALLKSATNHHGQIVQGNHQGGVSAALQQIQSRTQQPTEIKTEVNLGTSPRQLPVDPSTVYGQGILQSKPGMGSAGLNPGVSGLPLKGWPLTGIEQMRPGLGGPQVQKSFLQNQSQFQLSPQQQQHQMLAQVQAQGNMTNSPMYGGDMDPRRFTGLPRGNLNPKDGQQNANDGSIGSPMQSSSSKHISMPPVQQSSSQQQDHLLSQQSQQNNRKRKGPSSSGPANSTGTGNTVGPSNSQPSTPSTHTPVDGVAIAGNMHHVNSMPKGPMMYGSDGIGGLASSANQLLQDDMDQFGDVGALEDNVESFLSQDDGDGGSLFGTLKRNSSVHTETSKPFSFNEVSCIRKSASKVICCSFSYDGKLLASAGHDKKVFIWNMETLQVESTPEEHAHIITDVRFRPNSTQLATSSFDKTIKIWDASDPGYFLRTISGHAAPVMSIDFHPKKTELLCSCDSNNDIRFWDINASCVRAVKGASTQVRFQPRTGQFLAAASENTVSIFDIENNNKRVNIFKGHSSNVHSVCWSPNGELVASVSEDAVKLWSLSSGDCIHELSNSGNKFHSVVFHPSYPDLLVIGGYQAIELWNTMENKCMTVAGHECVISALAQSPSTGVVASASHDKSVKIWK
|
Transcription repressor subunit of the SEU-SLK1 and SEU-SLK2 transcriptional corepressor of abiotic stress (e.g. salt and osmotic stress) response genes, by means of an epigenetic process involving histone modification (e.g. H3K9 and H3K14 acetylation), probably by recruiting HDAC, to facilitate the condensation of chromatin thus preventing transcription at the target genes. Can also act as a transcription activator. Implicated in embryo and floral development. Involved in post-synthesis cell wall modifications necessary for mucilage extrusion from seeds upon imbibition, probably by promoting the expression of genes required for mucilage maturation (e.g. MUM2). Regulates the maintenance on leaf polarity and meristem activity as well as the initiation of embryonic shoot apical meristem (SAM) development.
|
O48849
|
RLP23_ARATH
|
Receptor like protein 23 (AtRLP23)
|
MSKALLHLHFLSLFLLCCVCHSSIFTLNFHFTGIVACRPHQIQAFTKFTNEFDTRGCNNSDTFNGVWCDNSTGAVAVLQLRKCLSGTLKSNSSLFGFHQLRYVDLQNNNLTSSSLPSGFGNLKRLEGLFLSSNGFLGQVPSSFSNLTMLAQLDLSYNKLTGSFPLVRGLRKLIVLDLSYNHFSGTLNPNSSLFELHQLRYLNLAFNNFSSSLPSKFGNLHRLENLILSSNGFSGQVPSTISNLTRLTKLYLDQNKLTSSFPLVQNLTNLYELDLSYNKFFGVIPSSLLTLPFLAHLALRENNLAGSVEVSNSSTSSRLEIMYLGSNHFEGQILEPISKLINLKHLDLSFLNTSYPIDLKLFSSLKSLRSLDLSGNSISSASLSSDSYIPLTLEMLTLRHCDINEFPNILKTLKELVYIDISNNRMKGKIPEWLWSLPLLQSVTLGNNYFTGFQGSAEILVNSSVLLLYLDSNNFEGALPDLPLSIKGFGVASNSFTSEIPLSICNRSSLAAIDLSYNNFTGPIPPCLRNLELVYLRNNNLEGSIPDALCDGASLRTLDVSHNRLTGKLPRSFVNCSSLKFLSVINNRIEDTFPFWLKALPNLQVLTLRSNRFYGPISPPHQGPLGFPELRIFEISDNKFTGSLPPNYFVNWKASSRTMNQDGGLYMVYEEKLFDEGGYGYTDALDLQYKGLHMEQAKALTSYAAIDFSGNRLEGQIPESIGLLKALIAVNISNNAFTGHIPLSMANLENLESLDMSRNQLSGTIPNGLGSISFLAYINVSHNQLTGEIPQGTQITGQSKSSFEGNAGLCGLPLKESCFGTGAPPMYHQKQEDKEEEEEEEEEEEEVLNGRAVAIGYGSGLLLGLAIAQVIASYKPEWLVKIIGLNKRRKR
|
Involved in the perception of necrosis and ethylene-inducing peptide 1-like proteins (NLPs), that act as extracellular signals mediating immune activation. Component of the RLP23-SOBIR1-BAK1 complex that mediates NLP-triggered immunity.
|
O48881
|
TPS1_BRANA
|
Thiamine biosynthetic bifunctional enzyme BTH1, chloroplastic [Includes: Thiamine-phosphate synthase (TP synthase) (TPS) (EC 2.5.1.3) (Thiamine-phosphate pyrophosphorylase) (TMP pyrophosphorylase) (TMP-PPase); Hydroxymethylpyrimidine kinase (HMP kinase) (EC 2.7.1.49)]
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MQSLGGIRSWPATWRTTTASMTTTTTESVRKVAQVLTVAGSDSGAGAGIQADIKVCAARGVYCASVKTAVKAKNTRAVQSVHLLPPDSVSEQLKSVLSDFEVDVVKTGMLPSPEIVEVLLQNLSEYPVRALVVDPVMVSTSGHVLAGSSILSIFRERLLPLADIITPNVKEASALLGGVRIQTVAEMRSAAKSLHQMGPRFVLVKGGDLPDSSDSVDVYFDGNEFHELHSPRIATRNTHGTGCTLASCIAAELAKGSNMLSAVKVAKRFVDSALNYSKDIVIGSGMQGPFDHFLSLKDPQSYRQSTFKPDDLFLYAVTDSRMNKKWNRSIVDAVKAAIEGGATIIQLREKEAETREFLEEAKSCVDICRSNGVCLLINDRFDIAIALDADGVHVGQSDMPVDLVRSLLGPDKIIGVSCKTQEQAHQAWKDGADYIGSGGVFPTNTKANNRTIGLDGLREVCKASKLPVVAIGGIGISNAESVMRIGEPNLKGVAVVSALFDQECVLTQAKKLHKTLTESKREH
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Essential for thiamine biosynthesis. Bifunctional enzyme that catalyzes the phosphorylation of hydroxymethylpyrimidine phosphate (HMP-P) to HMP-PP and condenses 4-methyl-5-(beta-hydroxyethyl)thiazole monophosphate (THZ-P) and 2-methyl-4-amino-5-hydroxymethyl pyrimidine pyrophosphate (HMP-PP) to form thiamine monophosphate (TMP).
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O48915
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NDR1_ARATH
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Protein NDR1 (Non-race specific disease resistance protein 1) (AtNDR1)
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MNNQNEDTEGGRNCCTCCLSFIFTAGLTSLFLWLSLRADKPKCSIQNFFIPALGKDPNSRDNTTLNFMVRCDNPNKDKGIYYDDVHLNFSTINTTKINSSALVLVGNYTVPKFYQGHKKKAKKWGQVKPLNNQTVLRAVLPNGSAVFRLDLKTQVRFKIVFWKTKRYGVEVGADVEVNGDGVKAQKKGIKMKKSDSSFPLRSSFPISVLMNLLVFFAIR
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Involved in disease resistance. Required for resistance conferred by multiple R genes recognizing different bacterial and oomycete pathogen isolates like avirulent P.syringae or H.parasitica (downy mildew). Required for the establishment of hypersensitive response (HR) and systemic acquired resistance (SAR) after infection with the bacterial pathogen P.syringae DC3000 carrying avrRpt2. Required for resistance to the soilborne fungus V.longisporum. Interaction with RIN4 is required for the activation of the R gene RPS2 and RPS2-mediated resistance.
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O48917
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SQD1_ARATH
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UDP-sulfoquinovose synthase, chloroplastic (EC 3.13.1.1) (Sulfite:UDP-glucose sulfotransferase) (Sulfolipid biosynthesis protein)
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MAHLLSASCPSVISLSSSSSKNSVKPFVSGQTFFNAQLLSRSSLKGLLFQEKKPRKSCVFRATAVPITQQAPPETSTNNSSSKPKRVMVIGGDGYCGWATALHLSKKNYEVCIVDNLVRRLFDHQLGLESLTPIASIHDRISRWKALTGKSIELYVGDICDFEFLAESFKSFEPDSVVHFGEQRSAPYSMIDRSRAVYTQHNNVIGTLNVLFAIKEFGEECHLVKLGTMGEYGTPNIDIEEGYITITHNGRTDTLPYPKQASSFYHLSKVHDSHNIAFTCKAWGIRATDLNQGVVYGVKTDETEMHEELRNRLDYDAVFGTALNRFCVQAAVGHPLTVYGKGGQTRGYLDIRDTVQCVEIAIANPAKAGEFRVFNQFTEQFSVNELASLVTKAGSKLGLDVKKMTVPNPRVEAEEHYYNAKHTKLMELGLEPHYLSDSLLDSLLNFAVQFKDRVDTKQIMPSVSWKKIGVKTKSMTT
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Involved in the biosynthesis of sulfolipids found in thylakoid membranes. Converts UDP-glucose and sulfite to the sulfolipid head group precursor UDP-sulfoquinovose.
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O48946
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CESA1_ARATH
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Cellulose synthase A catalytic subunit 1 [UDP-forming] (AtCesA1) (EC 2.4.1.12) (Protein RADIALLY SWOLLEN 1) (AtRSW1)
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MEASAGLVAGSYRRNELVRIRHESDGGTKPLKNMNGQICQICGDDVGLAETGDVFVACNECAFPVCRPCYEYERKDGTQCCPQCKTRFRRHRGSPRVEGDEDEDDVDDIENEFNYAQGANKARHQRHGEEFSSSSRHESQPIPLLTHGHTVSGEIRTPDTQSVRTTSGPLGPSDRNAISSPYIDPRQPVPVRIVDPSKDLNSYGLGNVDWKERVEGWKLKQEKNMLQMTGKYHEGKGGEIEGTGSNGEELQMADDTRLPMSRVVPIPSSRLTPYRVVIILRLIILCFFLQYRTTHPVKNAYPLWLTSVICEIWFAFSWLLDQFPKWYPINRETYLDRLAIRYDRDGEPSQLVPVDVFVSTVDPLKEPPLVTANTVLSILSVDYPVDKVACYVSDDGSAMLTFESLSETAEFAKKWVPFCKKFNIEPRAPEFYFAQKIDYLKDKIQPSFVKERRAMKREYEEFKVRINALVAKAQKIPEEGWTMQDGTPWPGNNTRDHPGMIQVFLGHSGGLDTDGNELPRLIYVSREKRPGFQHHKKAGAMNALIRVSAVLTNGAYLLNVDCDHYFNNSKAIKEAMCFMMDPAIGKKCCYVQFPQRFDGIDLHDRYANRNIVFFDINMKGLDGIQGPVYVGTGCCFNRQALYGYDPVLTEEDLEPNIIVKSCCGSRKKGKSSKKYNYEKRRGINRSDSNAPLFNMEDIDEGFEGYDDERSILMSQRSVEKRFGQSPVFIAATFMEQGGIPPTTNPATLLKEAIHVISCGYEDKTEWGKEIGWIYGSVTEDILTGFKMHARGWISIYCNPPRPAFKGSAPINLSDRLNQVLRWALGSIEILLSRHCPIWYGYHGRLRLLERIAYINTIVYPITSIPLIAYCILPAFCLITDRFIIPEISNYASIWFILLFISIAVTGILELRWSGVSIEDWWRNEQFWVIGGTSAHLFAVFQGLLKVLAGIDTNFTVTSKATDEDGDFAELYIFKWTALLIPPTTVLLVNLIGIVAGVSYAVNSGYQSWGPLFGKLFFALWVIAHLYPFLKGLLGRQNRTPTIVIVWSVLLASIFSLLWVRINPFVDANPNANNFNGKGGVF
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Catalytic subunit of cellulose synthase terminal complexes ('rosettes'), required for beta-1,4-glucan microfibril crystallization, a major mechanism of the cell wall formation. Involved in the primary cell wall formation. Required during embryogenesis for cell elongation, orientation of cell expansion and complex cell wall formations, such as interdigitated pattern of epidermal pavement cells, stomatal guard cells and trichomes. Plays a role in lateral roots formation, but seems not necessary for the development of tip-growing cells such as root hairs. The presence of each protein CESA1 and CESA6 is critical for cell expansion after germination.
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O48947
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CESA2_ARATH
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Cellulose synthase A catalytic subunit 2 [UDP-forming] (AtCesA2) (Ath-A) (EC 2.4.1.12)
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MNTGGRLIAGSHNRNEFVLINADESARIRSVQELSGQTCQICGDEIELTVSSELFVACNECAFPVCRPCYEYERREGNQACPQCKTRYKRIKGSPRVDGDDEEEEDIDDLEYEFDHGMDPEHAAEAALSSRLNTGRGGLDSAPPGSQIPLLTYCDEDADMYSDRHALIVPPSTGYGNRVYPAPFTDSSAPPQARSMVPQKDIAEYGYGSVAWKDRMEVWKRRQGEKLQVIKHEGGNNGRGSNDDDELDDPDMPMMDEGRQPLSRKLPIRSSRINPYRMLILCRLAILGLFFHYRILHPVNDAYGLWLTSVICEIWFAVSWILDQFPKWYPIERETYLDRLSLRYEKEGKPSGLAPVDVFVSTVDPLKEPPLITANTVLSILAVDYPVDKVACYVSDDGAAMLTFEALSDTAEFARKWVPFCKKFNIEPRAPEWYFSQKMDYLKNKVHPAFVRERRAMKRDYEEFKVKINALVATAQKVPEEGWTMQDGTPWPGNNVRDHPGMIQVFLGHSGVRDTDGNELPRLVYVSREKRPGFDHHKKAGAMNSLIRVSAVLSNAPYLLNVDCDHYINNSKAIRESMCFMMDPQSGKKVCYVQFPQRFDGIDRHDRYSNRNVVFFDINMKGLDGIQGPIYVGTGCVFRRQALYGFDAPKKKKPPGKTCNCWPKWCCLCCGLRKKSKTKAKDKKTNTKETSKQIHALENVDEGVIVPVSNVEKRSEATQLKLEKKFGQSPVFVASAVLQNGGVPRNASPACLLREAIQVISCGYEDKTEWGKEIGWIYGSVTEDILTGFKMHCHGWRSVYCMPKRAAFKGSAPINLSDRLHQVLRWALGSVEIFLSRHCPIWYGYGGGLKWLERFSYINSVVYPWTSLPLIVYCSLPAVCLLTGKFIVPEISNYAGILFMLMFISIAVTGILEMQWGGVGIDDWWRNEQFWVIGGASSHLFALFQGLLKVLAGVNTNFTVTSKAADDGAFSELYIFKWTTLLIPPTTLLIINIIGVIVGVSDAISNGYDSWGPLFGRLFFALWVIVHLYPFLKGMLGKQDKMPTIIVVWSILLASILTLLWVRVNPFVAKGGPVLEICGLNCGN
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Catalytic subunit of cellulose synthase terminal complexes ('rosettes'), required for beta-1,4-glucan microfibril crystallization, a major mechanism of the cell wall formation. Involved in the primary cell wall formation.
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O48963
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PHOT1_ARATH
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Phototropin-1 (EC 2.7.11.1) (Non-phototropic hypocotyl protein 1) (Root phototropism protein 1)
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MEPTEKPSTKPSSRTLPRDTRGSLEVFNPSTQLTRPDNPVFRPEPPAWQNLSDPRGTSPQPRPQQEPAPSNPVRSDQEIAVTTSWMALKDPSPETISKKTITAEKPQKSAVAAEQRAAEWGLVLKTDTKTGKPQGVGVRNSGGTENDPNGKKTTSQRNSQNSCRSSGEMSDGDVPGGRSGIPRVSEDLKDALSTFQQTFVVSDATKPDYPIMYASAGFFNMTGYTSKEVVGRNCRFLQGSGTDADELAKIRETLAAGNNYCGRILNYKKDGTSFWNLLTIAPIKDESGKVLKFIGMQVEVSKHTEGAKEKALRPNGLPESLIRYDARQKDMATNSVTELVEAVKRPRALSESTNLHPFMTKSESDELPKKPARRMSENVVPSGRRNSGGGRRNSMQRINEIPEKKSRKSSLSFMGIKKKSESLDESIDDGFIEYGEEDDEISDRDERPESVDDKVRQKEMRKGIDLATTLERIEKNFVITDPRLPDNPIIFASDSFLELTEYSREEILGRNCRFLQGPETDLTTVKKIRNAIDNQTEVTVQLINYTKSGKKFWNIFHLQPMRDQKGEVQYFIGVQLDGSKHVEPVRNVIEETAVKEGEDLVKKTAVNIDEAVRELPDANMTPEDLWANHSKVVHCKPHRKDSPPWIAIQKVLESGEPIGLKHFKPVKPLGSGDTGSVHLVELVGTDQLFAMKAMDKAVMLNRNKVHRARAEREILDLLDHPFLPALYASFQTKTHICLITDYYPGGELFMLLDRQPRKVLKEDAVRFYAAQVVVALEYLHCQGIIYRDLKPENVLIQGNGDISLSDFDLSCLTSCKPQLLIPSIDEKKKKKQQKSQQTPIFMAEPMRASNSFVGTEEYIAPEIISGAGHTSAVDWWALGILMYEMLYGYTPFRGKTRQKTFTNVLQKDLKFPASIPASLQVKQLIFRLLQRDPKKRLGCFEGANEVKQHSFFKGINWALIRCTNPPELETPIFSGEAENGEKVVDPELEDLQTNVF
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Protein kinase that acts as a blue light photoreceptor in a signal-transduction pathway for photo-induced movements. Phosphorylates BLUS1, a kinase involved in stomatal opening. Required for blue light mediated mRNA destabilization. Mediates calcium spiking of extracellular origin in response to a low rate of blue light. Also mediates rapid membrane depolarization and growth inhibition in response to blue light. Necessary for root phototropism. Involved in hypocotyl phototropism under a low rate but not under a high rate of blue light. Contributes to the chloroplast accumulation but seems not to be required for chloroplast translocation. Regulates stomata opening and photomorphogenesis response of leaf tissue. Confers sensitivity to drought. Not involved in hypocotyl elongation inhibition, anthocyanin accumulation or cotyledon opening.
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O49006
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PME3_ARATH
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Pectinesterase/pectinesterase inhibitor 3 [Includes: Pectinesterase inhibitor 3 (Pectin methylesterase inhibitor 3); Pectinesterase 3 (PE 3) (EC 3.1.1.11) (Pectin methylesterase 27) (AtPME27) (Pectin methylesterase 3)]
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MAPSMKEIFSKDNFKKNKKLVLLSAAVALLFVAAVAGISAGASKANEKRTLSPSSHAVLRSSCSSTRYPELCISAVVTAGGVELTSQKDVIEASVNLTITAVEHNYFTVKKLIKKRKGLTPREKTALHDCLETIDETLDELHETVEDLHLYPTKKTLREHAGDLKTLISSAITNQETCLDGFSHDDADKQVRKALLKGQIHVEHMCSNALAMIKNMTDTDIANFEQKAKITSNNRKLKEENQETTVAVDIAGAGELDSEGWPTWLSAGDRRLLQGSGVKADATVAADGSGTFKTVAAAVAAAPENSNKRYVIHIKAGVYRENVEVAKKKKNIMFMGDGRTRTIITGSRNVVDGSTTFHSATVAAVGERFLARDITFQNTAGPSKHQAVALRVGSDFSAFYNCDMLAYQDTLYVHSNRQFFVKCLIAGTVDFIFGNAAVVLQDCDIHARRPNSGQKNMVTAQGRTDPNQNTGIVIQKCRIGATSDLQSVKGSFPTYLGRPWKEYSQTVIMQSAISDVIRPEGWSEWTGTFALNTLTYREYSNTGAGAGTANRVKWRGFKVITAAAEAQKYTAGQFIGGGGWLSSTGFPFSLGL
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Acts in the modification of cell walls via demethylesterification of cell wall pectin.
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O49048
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VPS45_ARATH
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Vacuolar protein sorting-associated protein 45 homolog (AtVPS45) (Protein BFA-VISUALIZED ENDOCYTIC TRAFFICKING DEFECTIVE 2)
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MVLVTSVRDYINRMLQDISGMKVLILDSETVSNVSIVYSQSELLQKEVFLVEMIDSISVSKESMSHLKAVYFIRPTSDNIQKLRYQLANPRFGEYHLFFSNLLKDTQIHILADSDEQEVVQQVQEYYADFVSGDPYHFTLNMASNHLYMIPAVVDPSGLQRFSDRVVDGIAAVFLALKRRPVIRYQRTSDTAKRIAHETAKLMYQHESALFDFRRTESSPLLLVIDRRDDPVTPLLNQWTYQAMVHELIGLQDNKVDLKSIGSLPKDQQVEVVLSSEQDAFFKSNMYENFGDIGMNIKRMVDDFQQVAKSNQNIQTVEDMARFVDNYPEYKKMQGNVSKHVTLVTEMSKLVEARKLMTVSQTEQDLACNGGQGAAYEAVTDLLNNESVSDIDRLRLVMLYALRYEKENPVQLMQLFNKLASRSPKYKPGLVQFLLKQAGVEKRTGDLFGNRDLLNIARNMARGLKGVENVYTQHQPLLFQTMESITRGRLRDVDYPFVGDHFQQGRPQEVVIFMVGGTTYEESRSVALQNATNSGVRFILGGTAVLNSKRFLKDLEEAQRISRSGSHMV
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Involved in the protein transport to the vacuole, probably at the level of vesicle fusion at the trans-Golgi network (TGN) and not in transport from the TGN to the prevacuolar compartment, by promoting the recycling of vacuolar sorting receptors back to the TGN. Involved in early endosomal vesicle trafficking, particularly at the trans-Golgi-network/early endosome (TGN/EE) thus residing in early endocytic route. Together with BIG5/BEN1 required for polar PIN-FORMED (PIN) proteins localization, for their dynamic repolarization, and consequently for auxin activity gradient formation and auxin-related developmental processes (e.g. embryonic patterning, organogenesis and vasculature venation patterning). Necessary for pollen germination and for cell expansion. Binds syntaxins.
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O49139
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CMT1_ARATH
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Putative DNA (cytosine-5)-methyltransferase CMT1 (EC 2.1.1.37) (Chromomethylase 1) (Protein CHROMOMETHYLASE 1)
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MAARNKQKKRAEPESDLCFAGKPMSVVESTIRWPHRYQSKKTKLQAPTKKPANKGGKKEDEEIIKQAKCHFDKALVDGVLINLNDDVYVTGLPGKLKFIAKVIELFEADDGVPYCRFRWYYRPEDTLIERFSHLVQPKRVFLSNDENDNPLTCIWSKVNIAKVPLPKITSRIEQRVIPPCDYYYDMKYEVPYLNFTSADDGSDASSSLSSDSALNCFENLHKDEKFLLDLYSGCGAMSTGFCMGASISGVKLITKWSVDINKFACDSLKLNHPETEVRNEAAEDFLALLKEWKRLCEKFSLVSSTEPVESISELEDEEVEENDDIDEASTGAELEPGEFEVEKFLGIMFGDPQGTGEKTLQLMVRWKGYNSSYDTWEPYSGLGNCKEKLKEYVIDGFKSHLLPLPGTVYTVCGGPPCQGISGYNRYRNNEAPLEDQKNQQLLVFLDIIDFLKPNYVLMENVVDLLRFSKGFLARHAVASFVAMNYQTRLGMMAAGSYGLPQLRNRVFLWAAQPSEKLPPYPLPTHEVAKKFNTPKEFKDLQVGRIQMEFLKLDNALTLADAISDLPPVTNYVANDVMDYNDAAPKTEFENFISLKRSETLLPAFGGDPTRRLFDHQPLVLGDDDLERVSYIPKQKGANYRDMPGVLVHNNKAEINPRFRAKLKSGKNVVPAYAISFIKGKSKKPFGRLWGDEIVNTVVTRAEPHNQCVIHPMQNRVLSVRENARLQGFPDCYKLCGTIKEKYIQVGNAVAVPVGVALGYAFGMASQGLTDDEPVIKLPFKYPECMQAKDQI
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May be involved in the CpXpG methylation and in gene silencing.
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O49163
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HM1_MAIZE
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NADPH HC-toxin reductase 1 (EC 1.3.1.-) (Disease-defense protein HM1) (NAD-dependent epimerase/dehydratase domain-containing protein HM1) (Protein Helminthosporium carbonum susceptibility 1)
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MAEKESNGVRVCVTGGAGFIGSWLVRKLLEKGYTVHATLRNTGDEAKAGLLRRLVPGAAERLRLFQADLFDAATFAPAIAGCQFVFLVATPFGLDSAGSQYKSTAEAVVDAVHAILRQCEESRTVKRVIHTASVAAASPLLEEEVPASGVGYRDFIDESCWTSLNVDYPLRSAHFDKYILSKLQSEQELLSYNNGESPAFEVVTLPLGLVAGDTVLGRAPETVESAVAPVSRSEPYFGLLRILQQLLGSLPLVHVDDVCDALVFCMERRPSVAGRFLCAAAYPTIHDVVAHYASKFPHLDILKETTEAVATVRPARDRLGELGFKYKYGMEEILDSSVACAARLGSLDASKLGLQKG
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In tandem with Hm2, NADPH-dependent Helminthosporium carbonum (HC) toxin reductase (HCTR), which inactivates HC toxin, a cyclic tetrapeptide produced by the fungus Cochliobolus carbonum to permit infection and acting as an inhibitor of host histone deacetylases (HDACs), thus confering resistance against C.carbonum race 1 in resistant cultivars (e.g. cv. B73 and cv. Wisconsin 22). Catalyzes the production of 8-hydroxy derivative of HC-toxin via the reduction of the 8-keto group of 2-amino-9,10-epoxy-8-oxo-decanoic acid, an amino acid of the HC-toxin.
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O49196
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APK2_ARATH
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Adenylyl-sulfate kinase 2, chloroplastic (EC 2.7.1.25) (ATP adenosine-5'-phosphosulfate 3'-phosphotransferase 2) (Adenosine-5'-phosphosulfate kinase 2) (APS kinase 2)
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MEGLAIRASRPSVFCSIPGLGGDSHRKPPSDGFLKLPASSIPADSRKLVANSTSFHPISAVNVSAQASLTADFPALSETILKEGRNNGKEKAENIVWHESSICRCDRQQLLQQKGCVVWITGLSGSGKSTVACALSKALFERGKLTYTLDGDNVRHGLNRDLTFKAEHRTENIRRIGEVAKLFADVGVICIASLISPYRRDRDACRSLLPDGDFVEVFMDVPLHVCESRDPKGLYKLARAGKIKGFTGIDDPYEAPVNCEVVLKHTGDDESCSPRQMAENIISYLQNKGYLEG
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Catalyzes the synthesis of activated sulfate. Essential for plant reproduction and viability. Required for the production of glucosinolates.
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O49203
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NDK3_ARATH
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Nucleoside diphosphate kinase III, chloroplastic/mitochondrial (NDK III) (NDP kinase III) (NDPK III) (EC 2.7.4.6)
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MSSQICRSASKAAKSLLSSAKNARFFSEGRAIGAAAAVSASGKIPLYASNFARSSGSGVASKSWITGLLALPAAAYMIQDQEVLAAEMERTFIAIKPDGVQRGLISEIISRFERKGFKLVGIKVIVPSKDFAQKHYHDLKERPFFNGLCDFLSSGPVIAMVWEGDGVIRYGRKLIGATDPQKSEPGTIRGDLAVTVGRNIIHGSDGPETAKDEISLWFKPQELVSYTSNSEKWLYGDN
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Major role in the synthesis of nucleoside triphosphates other than ATP. The ATP gamma phosphate is transferred to the NDP beta phosphate via a ping-pong mechanism, using a phosphorylated active-site intermediate. Shows the highest specificity towards GDP (By similarity).
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O49230
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ETR1_BRAOL
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Ethylene receptor 1 (EC 2.7.13.3)
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MEVCNCIEPQWPADELLMKYQYISDFFIAVAYFSIPLELIYFVKKSAVFPYRWVLVQFGAFIVLCGATHLINLWTFTTHSRTVALVMTTAKVLTAVVSCATALMLVHIIPDLLSVKTRELFLKNKAAELDREMGLIRTQEETGRHVRMLTHEIRSTLDRHTILKTTLVELGRTLALEECALWMPTRTGLELQLSYTLRQQHPVEYTVPIQLPVINQVFGTSRAVKISPNSPVARLRPVSGKYLLGEVVAVRVPLLHLSNFQINDWPELSTKRYALMVLMLPSDSARQWHVHELELVEVVADQVAVALSHAAILEESMRARDLLMEQNVALDIARREAETAIRARNDFLAVMNHEMRTPMHAIIALSSLLQETELTPEQRLMVETVLKSSSLLATLMNDVLDLSRLEDGSLQLELGTFNLHTLFREVLNLIKPIAVVKKLPITLNLAPDLPEFVVGDEKRLMQIILNIVGNAVKFSKQGSISVTALVTKSDNRAPPDFFVVPTGSHFYLRVKVKDLGAGINPQDIPKLFTKFAQTQSLATRSSGGSGLGLAISKRFVNLMEGNIWIESEGVGKGCTAIFDVKLAISNESKQSGIPKVPANPQHVNFAGLKVLVMDENGVSRMVTKGLLVHLGCEVTTVSSNEECLRVVSHEHRVVFMDVCTPGVENYQIALRIHEKFTKRHQRPLLVALTGNTDKSTKEKCMSFGLDGVLLKPVSLDNMRNVLSDRLEHRVLYEAM
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May act early in the ethylene signal transduction pathway, possibly as an ethylene receptor, or as a regulator of the pathway.
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O49255
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NAC29_ARATH
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NAC transcription factor 29 (AtNAC029) (Protein NAC-LIKE, ACTIVATED BY AP3/PI) (AtNAP)
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MEVTSQSTLPPGFRFHPTDEELIVYYLRNQTMSKPCPVSIIPEVDIYKFDPWQLPEKTEFGENEWYFFSPRERKYPNGVRPNRAAVSGYWKATGTDKAIHSGSSNVGVKKALVFYKGRPPKGIKTDWIMHEYRLHDSRKASTKRNGSMRLDEWVLCRIYKKRGASKLLNEQEGFMDEVLMEDETKVVVNEAERRTEEEIMMMTSMKLPRTCSLAHLLEMDYMGPVSHIDNFSQFDHLHQPDSESSWFGDLQFNQDEILNHHRQAMFKF
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Transcription activator that binds to, and transactivates the promoter of the abscisic aldehyde oxidase AAO3. Promotes chlorophyll degradation in leaves by enhancing transcription of AAO3, which leads to increased levels of the senescence-inducing hormone abscisic acid (ABA). Involved in the control of dehydration in senescing leaves. Binds to the DNA sequence 5'-CACGTAAGT-3' of SAG113 promoter. SAG113 acts as negative regulator of ABA signaling for stomatal closure in leaves, and controls water loss during leaf senescence. Transcription factor of the NAC family involved in senescence. May function in the transition between active cell division and cell expansion. Required for normal seed development and morphology.
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O49326
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JAL21_ARATH
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Thiohydroximate-O-sulfate sulfur/sulfate-lyase (nitrile-forming) NSP2 (EC 4.8.1.5) (Jacalin-related lectin 21) (Nitrile-specifier protein 2) (AtNSP2)
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MVQKVEARGGEIGDVWDDGAYDGVRKVYVGQGEDGIAFVKFEYVNGSQEVVGDERGKKTLLGAEEFEVDPDDYIVYVEGYHEKVFGVTTKEIISTLTFKTYKGKTSPPFGIVSGTKFVLQGGKIVGFHGRSTDVLHSLGAYISSPATPKLRGKWIKVEQKGEGPGPRCSHDIAQVGNKIFSFGGELTPNQPIDKHLYVFDLETRTWSISPATGDVPNLSCLGVRMVSIGSSLYVFGGRDASRKYNGFYSFDTTKNEWKLLTPVEQGPTPRSFHSMTADENNVYVFGGVSATVRLKTLDAYNIVDHKWVQCSTPGGSCSVRGGAGLEVVQGKVWVVYGFNGCEVDDVHCYDPAQDKWTQVETFGEKPCARSVFASAVVGKHILVFGGEIAMDPKAHEGPGQLSGGTFALDTETLKWEKLDKLGEEEETPSIRGWSASTTGTIDGKKGLVMFGGKAQTNDRFGDLFFYGVDSA
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Specifier protein responsible for constitutive and herbivore-induced simple nitrile formation, especially in seeds. Promotes simple nitriles, but not epithionitrile or thiocyanate formation. Converts allylglucosinolate (allyl-GSL), 2-propenylglucosinolate (sinigrin), indol-3-ylmethylglucosinolate (glucobrassicin), benzylisothiocyanate and benzylglucosinolate (glucotropaeolin) to their corresponding simple nitriles in the presence of myrosinase. Catalyzes mainly the conversion of benzylisothiocyanate when benzylglucosinolate is used as the initial substrate of myrosinase. Involved in the regulation of glucosinolate content in seeds, during stratification and germination.
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O49339
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PTI12_ARATH
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PTI1-like tyrosine-protein kinase 2 (PTI1-2) (EC 2.7.10.2)
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MRRWICCGDKKGDSDLSNEEVHLKSPWQNSEANQKNQKPQAVVKPEAQKEALPIEVPPLSVDEVKEKTDNFGSKSLIGEGSYGRVYYATLNDGKAVALKKLDVAPEAETNTEFLNQVSMVSRLKHENLIQLVGYCVDENLRVLAYEFATMGSLHDILHGRKGVQGAQPGPTLDWLTRVKIAVEAARGLEYLHEKVQPPVIHRDIRSSNVLLFEDYQAKVADFNLSNQAPDNAARLHSTRVLGTFGYHAPEYAMTGQLTQKSDVYSFGVVLLELLTGRKPVDHTMPRGQQSLVTWATPRLSEDKVKQCVDPKLKGEYPPKSVAKLAAVAALCVQYESEFRPNMSIVVKALQPLLKPPAPAPAPVPES
|
Probable tyrosine-protein kinase involved in oxidative burst-mediated signaling leading to specific genes expression.
|
O49354
|
COQ3_ARATH
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Ubiquinone biosynthesis O-methyltransferase, mitochondrial (3-demethylubiquinol 3-O-methyltransferase) (EC 2.1.1.64) (EMBRYO DEFECTIVE 3002) (Polyprenyldihydroxybenzoate methyltransferase) (EC 2.1.1.114)
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MLASVRVNQLQRLLLSARRLSSSPIIPPSRLLHQRLFSTSDTDASAASFSSSHPKIQTLEGKASNKSRSTSSTTSLNEDELAKFSAIADTWWHSEGPFKPLHQMNPTRLAFIRSTLCRHFSKDPSSAKPFEGLKFIDIGCGGGLLSEPLARMGATVTGVDAVDKNVKIARLHADMDPVTSTIEYLCTTAEKLADEGRKFDAVLSLEVIEHVANPAEFCKSLSALTIPNGATVLSTINRTMRAYASTIVGAEYILRWLPKGTHQWSSFVTPEEMSMILQRASVDVKEIAGFVYNPITGRWLLSDDISVNYIAYGTKRKDLGDI
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O-methyltransferase that catalyzes the 2 O-methylation steps in the ubiquinone biosynthetic pathway. {ECO:0000255|HAMAP-Rule:MF_03190}.
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O49394
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C82C2_ARATH
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Xanthotoxin 5-hydroxylase CYP82C2 (8-methoxypsoralen 5-hydroxylase CYP82C2) (EC 1.14.14.-) (Cytochrome P450 82C2) (Indole-3-carbonyl nitrile 4-hydroxylase CYP82C2) (EC 1.14.14.165)
|
MDTSLFSLFVPILVFVFIALFKKSKKPKHVKAPAPSGAWPIIGHLHLLSGKEQLLYRTLGKMADQYGPAMSLRLGSSETFVVSSFEVAKDCFTVNDKALASRPITAAAKHMGYDCAVFGFAPYSAFWREMRKIATLELLSNRRLQMLKHVRVSEISMVMQDLYSLWVKKGGSEPVMVDLKSWLEDMSLNMMVRMVAGKRYFGGGSLSPEDAEEARQCRKGVANFFHLVGIFTVSDAFPKLGWFDFQGHEKEMKQTGRELDVILERWIENHRQQRKVSGTKHNDSDFVDVMLSLAEQGKFSHLQHDAITSIKSTCLALILGGSETSPSTLTWAISLLLNNKDMLKKAQDEIDIHVGRDRNVEDSDIENLVYIQAIIKETLRLYPAGPLLGHREAIEDCTVAGYNVRRGTRMLVNVWKIQRDPRVYMEPNEFRPERFITGEAKEFDVRGQNFELMPFGSGRRSCPGSSLAMQVLHLGLARFLQSFDVKTVMDMPVDMTESPGLTIPKATPLEILISPRLKEGLYV
|
Involved in the biosynthetic pathway to 4-hydroxyindole-3-carbonyl nitrile (4-OH-ICN), a cyanogenic metabolite required for inducible pathogen defense. Converts indole-3-carbonyl nitrile (ICN) into 4-OH-ICN. Can hydroxylate xanthotoxin (8-methoxypsoralen) to form 5-hydroxyxanthotoxin (5-hydroxy-8-methoxypsoralen) in vivo and in vitro.
|
O49397
|
ARR10_ARATH
|
Two-component response regulator ARR10 (Receiver-like protein 4)
|
MTMEQEIEVLDQFPVGMRVLAVDDDQTCLRILQTLLQRCQYHVTTTNQAQTALELLRENKNKFDLVISDVDMPDMDGFKLLELVGLEMDLPVIMLSAHSDPKYVMKGVKHGACDYLLKPVRIEELKNIWQHVVRKSKLKKNKSNVSNGSGNCDKANRKRKEQYEEEEEEERGNDNDDPTAQKKPRVLWTHELHNKFLAAVDHLGVERAVPKKILDLMNVDKLTRENVASHLQKFRVALKKVSDDAIQQANRAAIDSHFMQMNSQKGLGGFYHHHRGIPVGSGQFHGGTTMMRHYSSNRNLGRLNSLGAGMFQPVSSSFPRNHNDGGNILQGLPLEELQINNNINRAFPSFTSQQNSPMVAPSNLLLLEGNPQSSSLPSNPGFSPHFEISKRLEHWSNAALSTNIPQSDVHSKPDTLEWNAFCDSASPLVNPNLDTNPASLCRNTGFGSTNAAQTDFFYPLQMNQQPANNSGPVTEAQLFRSSNPNEGLLMGQQKLQSGLMASDAGSLDDIVNSLMTQEQSQSDFSEGDWDLDGLAHSEHAYEKLHFPFSLSA
|
Transcriptional activator that binds specifically to the DNA sequence 5'-[AG]GATT-3'. Functions as a response regulator involved in His-to-Asp phosphorelay signal transduction system. Phosphorylation of the Asp residue in the receiver domain activates the ability of the protein to promote the transcription of target genes. Could directly activate some type-A response regulators in response to cytokinins.
|
O49403
|
HFA4A_ARATH
|
Heat stress transcription factor A-4a (AtHsfA4a) (AtHsf-15) (Heat shock factor protein 21) (HSF 21) (Heat shock transcription factor 21) (HSTF 21)
|
MDENNHGVSSSSLPPFLTKTYEMVDDSSSDSIVSWSQSNKSFIVWNPPEFSRDLLPRFFKHNNFSSFIRQLNTYGFRKADPEQWEFANDDFVRGQPHLMKNIHRRKPVHSHSLPNLQAQLNPLTDSERVRMNNQIERLTKEKEGLLEELHKQDEEREVFEMQVKELKERLQHMEKRQKTMVSFVSQVLEKPGLALNLSPCVPETNERKRRFPRIEFFPDEPMLEENKTCVVVREEGSTSPSSHTREHQVEQLESSIAIWENLVSDSCESMLQSRSMMTLDVDESSTFPESPPLSCIQLSVDSRLKSPPSPRIIDMNCEPDGSKEQNTVAAPPPPPVAGANDGFWQQFFSENPGSTEQREVQLERKDDKDKAGVRTEKCWWNSRNVNAITEQLGHLTSSERS
|
Transcriptional activator that specifically binds DNA sequence 5'-AGAAnnTTCT-3' known as heat shock promoter elements (HSE).
|
O49429
|
MORF1_ARATH
|
Multiple organellar RNA editing factor 1, mitochondrial (RNA editing-interacting protein 8)
|
MAMISHRLRRALLTATSYVNRSISSSITPASDFPSVSAAVLKRSVIGRSTEVATRAPARLFSTRQYKLYKEGDEITEDTVLFEGCDYNHWLITMDFSKEETPKSPEEMVAAYEETCAQGLGISVEEAKQRMYACSTTTYQGFQAIMTEQESEKFKDLPGVVFILPDSYIDPQNKEYGGDKYENGVITHRPPPIQSGRARPRPRFDRSGGGSGGPQNFQRNTQYGQQPPMQGGGGSYGPQQGYATPGQGQGTQAPPPFQGGYNQGPRSPPPPYQAGYNQGQGSPVPPYQAGYNQVQGSPVPPYQGTQSSYGQGGSGNYSQGPQGGYNQGGPRNYNPQGAGNFGPASGAGNLGPAPGAGNPGYGQGYSGPGQEQNQTFPQADQRNRDWNNNNPAGQPGSDQVRSRSIMNLASFFFDILIRH
|
Involved in organellar RNA editing. Required for the processing of numerous RNA editing sites in mitochondria. Binds to the mitochondrial MEF19 and MEF21 factors, two pentatricopeptide repeat-containing proteins involved in RNA editing.
|
O49432
|
QRT3_ARATH
|
Polygalacturonase QRT3 (AtQRT3) (PG QRT3) (EC 3.2.1.15) (Pectinase QRT3) (Protein QUARTET 3)
|
MELRKSQVAMPVFLAIMSLMVSQVVFAEKDSGSMSPHDRALAEMQALKASLVRRNLPALVSPPPTPPQAVPGPRVYQVISYGADPTGKLDSTDAILKAMEEAFDGPNHGVLMQGINDLGGARIDLQGGSYLISRPLRFPSAGAGNLLISGGTLRASNDFPVDRYLIELKDESSKLQYIFEYITLRDLLIDCNYRGGAIAVINSLRTSIDNCYITRFGDTNGILVKSGHETYIRNSFLGQHITAGGDRGERSFSGTAINLMGNDNAVTDTVIFSARIGVMVSGQANLLSGVHCYNKATGFGGTGIYLRLPGLTQNRIVNSYLDYTGIVAEDPVQLQISGTFFLGDAFILLKSIAGYIRGVSIVDNMFSGSGHGVQIVQLDQRNTAFDDVGQVVVDRNSVNGMVEKSTVARGSVDGNGTSWTVDFNPVLLFPDLINHVQYTLVASEAGVFPLHALRNVSDNRVVVETNAPVTGTVYVTVNQGV
|
Polygalacturonase required for degrading the pollen mother cell wall during microspore development.
|
O49434
|
AAH_ARATH
|
Allantoate deiminase (EC 3.5.3.9) (Allantoate amidohydrolase) (AtAAH)
|
MAVPHPSSSSSRSHPFLSHVYHTSFHHHHHHNHPSLVLFWCLVFSLLSPLALSSSSSSSSSSSDSSSSSSSHISLGIGETEGTKHDLHQAILRDEAVARLHELGQVSDAATHLERTFMSPASIRAIPLIRGWMEDAGLSTWVDYMGNVHGRVEPKNGSSQALLIGSHMDTVIDAGKYDGSLGIISAISALKVLKIDGRLGELKRPVEVIAFSDEEGVRFQSTFLGSAALAGIMPVSRLEVTDKSGISVQDALKENSIDITDENLMQLKYDPASVWGYVEVHIEQGPVLEWVGYPLGVVKGIAGQTRLKVTVKGSQGHAGTVPMSMRQDPMTGAAELIVLLESVCKNPKDYLSCNVQCNEDTVESLANSLVCTVGEISTWPSASNVIPGQVTFTVDLRTIDDVGRKAILHDLSTRMYQICDKRSLLCSIERKHDADAVMSDPQLSLQLKSAAQSALKKMTGEVQDEVPVLMSGAGHDAMAMAHLTKVGMLFVRCRGGISHSPAEHVLDDDVGAAGLAILEFLESQM
|
Involved in the catabolism of purine nucleotides. Can use allantoate as substrate, but not Nalpha-carbamoyl-L-Asp, Nalpha-carbamoyl-L-Ala or Nalpha-carbamoyl-Gly. The sequential activity of AAH, UGLYAH and UAH allows a complete purine breakdown without the intermediate generation of urea. Involved in the regulation of seed maturation and seed dormancy.
|
O49447
|
ADT3_ARATH
|
ADP,ATP carrier protein 3, mitochondrial (ADP/ATP translocase 3) (Adenine nucleotide translocator 3) (ANT 3)
|
MDGSKHPSVFQKLHGQSYLINRLSPSVQARGYCVSGAYVNGGLQSLLQPTSHGVGSSLIPHGSFPVLAHAPSEKTGTGFLIDFLMGGVSAAVSKTAAAPIERVKLLIQNQDEMIKAGRLSEPYKGISDCFARTVKDEGMLALWRGNTANVIRYFPTQALNFAFKDYFKRLFNFKKEKDGYWKWFAGNLASGGAAGASSLLFVYSLDYARTRLANDAKAAKKGGQRQFNGMVDVYKKTIASDGIVGLYRGFNISCVGIVVYRGLYFGLYDSLKPVVLVDGLQDSFLASFLLGWGITIGAGLASYPIDTVRRRMMMTSGEAVKYKSSLQAFSQIVKNEGAKSLFKGAGANILRAVAGAGVLAGYDKLQLIVLGKKYGSGGG
|
ADP:ATP antiporter that mediates import of ADP into the mitochondrial matrix for ATP synthesis, and export of ATP out to fuel the cell (By similarity). Cycles between the cytoplasmic-open state (c-state) and the matrix-open state (m-state): operates by the alternating access mechanism with a single substrate-binding site intermittently exposed to either the cytosolic (c-state) or matrix (m-state) side of the inner mitochondrial membrane (By similarity).
|
O49472
|
INDH_ARATH
|
Iron-sulfur protein required for NADH dehydrogenase, mitochondrial (IND1 homolog) (IND1-like protein) (Nucleotide-binding protein-like)
|
MATVALLRSLRRRELHAAHISAYKFSSASAGGRTTELRLHGVKDIIAVASGKGGVGKSSTAVNLAVALANKCELKIGLLDADVYGPSVPIMMNINQKPQVNQDMKMIPVENYGVKCMSMGLLVEKDAPLVWRGPMVMSALAKMTKGVDWGDLDILVVDMPPGTGDAQISISQNLKLSGAVIVSTPQDVALADANRGISMFDKVRVPILGLVENMSCFVCPHCNEPSFIFGKEGARRTAAKKGLKLIGEIPLEMSIREGSDEGVPVVVSSPGSIVSKAYQDLAQNVVKGLKELRENPDNEIQMKLNVPHSSHSS
|
Essential during early vegetative growth. Required for the assembly of the mitochondrial membrane respiratory chain NADH dehydrogenase (Complex I). Involved in mitochondrial translation activity. May deliver of one or more Fe-S clusters to complex I subunits (By similarity).
|
O49482
|
CADH5_ARATH
|
Cinnamyl alcohol dehydrogenase 5 (AtCAD5) (EC 1.1.1.195) (Cinnamyl alcohol dehydrogenase D)
|
MGIMEAERKTTGWAARDPSGILSPYTYTLRETGPEDVNIRIICCGICHTDLHQTKNDLGMSNYPMVPGHEVVGEVVEVGSDVSKFTVGDIVGVGCLVGCCGGCSPCERDLEQYCPKKIWSYNDVYINGQPTQGGFAKATVVHQKFVVKIPEGMAVEQAAPLLCAGVTVYSPLSHFGLKQPGLRGGILGLGGVGHMGVKIAKAMGHHVTVISSSNKKREEALQDLGADDYVIGSDQAKMSELADSLDYVIDTVPVHHALEPYLSLLKLDGKLILMGVINNPLQFLTPLLMLGRKVITGSFIGSMKETEEMLEFCKEKGLSSIIEVVKMDYVNTAFERLEKNDVRYRFVVDVEGSNLDA
|
Involved in lignin biosynthesis in the floral stem. Catalyzes the final step specific for the production of lignin monomers. Catalyzes the NADPH-dependent reduction of coniferaldehyde, 5-hydroxyconiferaldehyde, sinapaldehyde, 4-coumaraldehyde and caffeyl aldehyde to their respective alcohols.
|
O49484
|
ASK11_ARATH
|
SKP1-like protein 11 (AtSK11)
|
MSSKMIVLMSSDGQSFEVEEAVAIQSQTIAHMVEDDCVADGIPLANVESKILVKVIEYCKKHHVDEANPISEEDLNNWDEKFMDLEQSTIFELILAANYLNIKSLLDLTCQTVADMIKGKTPEEIRSTFNIENDFTPEEEEAVRKENQWAFE
|
Involved in ubiquitination and subsequent proteasomal degradation of target proteins. Together with CUL1, RBX1 and a F-box protein, it forms a SCF E3 ubiquitin ligase complex. The functional specificity of this complex depends on the type of F-box protein. In the SCF complex, it serves as an adapter that links the F-box protein to CUL1 (By similarity). Plays a role during early flowers reproductive development. {ECO:0000250, ECO:0000269|PubMed:12970487}.
|
O49485
|
SERA1_ARATH
|
D-3-phosphoglycerate dehydrogenase 1, chloroplastic (EC 1.1.1.95) (Protein EMBRYO SAC DEVELOPMENT ARREST 9)
|
MSATAAASSSIAVATNSLRNVTLSSRSPLPSAISVAFPSRGRNTLQRRLVLVSCSTGDGSKPTILVAEKLGDAGIKLLEDVANVDCSYNMTPEELNIKISLCDALIVRSGTKVGREVFESSHGRLKVVGRAGVGIDNVDLSAATEFGCLVVNAPTANTIAAAEHGIALMAAMARNVAQADASVKAGEWKRNKYVGVSLVGKTLAVLGFGKVGTEVARRAKGLGMRVIAHDPYAPADRAHAIGVDLVSFDEALATADFISLHMPLTPTTSKILNDETFAKMKKGVRIVNVARGGVIDEDALVRALDAGIVAQAALDVFTKEPPAKDSKLVQHERVTVTPHLGASTMEAQEGVAIEIAEAVVGALNGELAATAVNAPMVSAEVLTELKPYVVLAEKLGRLAVQLVAGGSGVKNAKITYASARATDDLDTRLLRAMITKGIIEPISDVYVNLVNADFTAKQRGLRLSEERVLLDGSPESPLETITVQLSNVESKFASSLSESGEVKVEGKVKDGVPHLTKVGSFEVDVTLEGSIILCRQVDQPGMIGTVGSILGESNVNVNFMSVGRIAPRKQAIMAIGVDDIPSKETLKKIGEIPAVEEFVFLKL
|
Involved in the plastidial phosphorylated pathway of serine biosynthesis (PPSB). Required for mature pollen development.
|
O49499
|
CAMT4_ARATH
|
Caffeoyl-CoA O-methyltransferase 1 (EC 2.1.1.104) (Trans-caffeoyl-CoA 3-O-methyltransferase) (CCoAMT) (CCoAOMT1)
|
MATTTTEATKTSSTNGEDQKQSQNLRHQEVGHKSLLQSDDLYQYILETSVYPREPESMKELREVTAKHPWNIMTTSADEGQFLNMLIKLVNAKNTMEIGVYTGYSLLATALALPEDGKILAMDVNRENYELGLPIIEKAGVAHKIDFREGPALPVLDEIVADEKNHGTYDFIFVDADKDNYINYHKRLIDLVKIGGVIGYDNTLWNGSVVAPPDAPMRKYVRYYRDFVLELNKALAADPRIEICMLPVGDGITICRRIS
|
Methylates caffeoyl-CoA to feruloyl-CoA. Has a very low activity with caffeic acid and esculetin. Involved in scopoletin biosynthesis in roots.
|
O49500
|
MBR2_ARATH
|
E3 ubiquitin-protein ligase MBR2 (EC 2.3.2.27) (HAL3-interacting protein 1 homolog) (AtHIP1) (MED25-binding RING-H2 protein 2) (RING-H2 finger MBR2) (RING-type E3 ubiquitin transferase MBR2)
|
MQGPRSTGDSSTGINYADGEPICSTNSETTSNNILNPVDVQFPNNTTGSGRPTYASSSSHVVQNHNWWSFGESSSRLGPSDHLNSNGSKTDRQLLSDGYGFEEGQSGMLLPGESFLRGSSSSHMLSHVNLGKDMDIGSGLQTSGVVIRHNNCETSLGSSSQTAEERSSGPGSSLGGLGSSCKRKALEGAPSHSFPGESHGCFFQTENGAWNEGLAQYDASSSLSLSMPSQNSPNVNNQSGLPEPRFGLGGGRAVTASAFPSTRSTETISRPGRRLNPGQPPESVAFSFTQSGSSVRQQQQLPATSPFVDPLDARAIPVTGSSSSGDGQPSMIHLPALTRNIHQFAWSASSSSRANSMPEEGLSPWDAPRINSEQPVFTTPANETRNPVQDQFCWSFTRGNPSTSGDSPFVPRAGSSSGIHGLQPNPTWVTPHNQSRISEVAPWSLFPSIESESATHGASLPLLPTGPSVSSNEAAAPSGSSSRSHRSRQRRSGLLLERQNDHLHLRHLGRSLAADNDGRNRLISEIRQVLSAMRRGENLRFEDYMVFDPLIYQGMAEMHDRHRDMRLDVDNMSYEELLALGERIGDVSTGLSEEVILKVMKQHKHTSSAAGSHQDMEPCCVCQEEYAEGDDLGTLGCGHEFHTACVKQWLMLKNLCPICKTVALST
|
E3 ubiquitin-protein ligase that functions as regulator of MED25 stability by targeting MED25 for degradation in a RING-H2-dependent way. Proteasome-dependent degradation of MED25 seems to activate its function as positive regulator of FLOWERING LOCUS T (FT) and is important to induce the expression of FT and consequently to promote flowering. May function downstream of HAL3 and be required for HAL3-regulated plant growth. Activation of MBR2 by HAL3 may lead to the degradation of cell cycle suppressors, resulting in enhancement of cell division and plant growth.
|
O49519
|
CLE2_ARATH
|
CLAVATA3/ESR (CLE)-related protein 2 [Cleaved into: CLE2p]
|
MAKLSFTFCFLLFLLLSSIAAGSRPLEGARVGVKVRGLSPSIEATSPTVEDDQAAGSHGKSPERLSPGGPDPQHH
|
[CLE2p]: Extracellular signal peptide that regulates cell fate. May act with CLV1 as a ligand-receptor pair in a signal transduction pathway, coordinating growth between adjacent meristematic regions.
|
O49523
|
DSEL_ARATH
|
Phospholipase A1-IIgamma (EC 3.1.1.-) (DAD1-like seedling establishment-related lipase) (AtDSEL) (Phospholipase DSEL)
|
MKRKKKEEEEEKLIVTREFAKRWRDLSGQNHWKGMLQPLDQDLREYIIHYGEMAQAGYDTFNINTESQFAGASIYSRKDFFAKVGLEIAHPYTKYKVTKFIYATSDIHVPESFLLFPISREGWSKESNWMGYVAVTDDQGTALLGRRDIVVSWRGSVQPLEWVEDFEFGLVNAIKIFGERNDQVQIHQGWYSIYMSQDERSPFTKTNARDQVLREVGRLLEKYKDEEVSITICGHSLGAALATLSATDIVANGYNRPKSRPDKSCPVTAFVFASPRVGDSDFRKLFSGLEDIRVLRTRNLPDVIPIYPPIGYSEVGDEFPIDTRKSPYMKSPGNLATFHCLEGYLHGVAGTQGTNKADLFRLDVERAIGLVNKSVDGLKDECMVPGKWRVLKNKGMAQQDDGSWELVDHEIDDNEDLDF
|
Acylhydrolase that catalyzes the hydrolysis of 1,3-diacylglycerol (1,3-DAG) and 1-monoacylglycerol (1-MAG) at the sn-1 position. High activity toward 1,3-DAG and 1-MAG, but low activity toward 1,2-diacylglycerol (1,2-DAG) and 1-lysophosphatidylcholine (1-LPC), and no activity toward phosphatidylcholine (PC), monogalactosyldiacylglycerol (MGDG), digalactosyldiacylglycerol (DGDG), triacylglycerol (TAG) and 2-monoacylglycerol (2-MAG). May be involved in the negative regulation of seedling establishment by inhibiting the breakdown, beta-oxidation and mobilization of seed storage oils.
|
O49543
|
MNIF1_ARATH
|
Cysteine desulfurase, mitochondrial (EC 2.8.1.7) (NIFS homolog 1) (AtNFS1) (AtNIFS1) (Protein AtMtNifS)
|
MASKVISATIRRTLTKPHGTFSRCRYLSTAAAATEVNYEDESIMMKGVRISGRPLYLDMQATTPIDPRVFDAMNASQIHEYGNPHSRTHLYGWEAENAVENARNQVAKLIEASPKEIVFVSGATEANNMAVKGVMHFYKDTKKHVITTQTEHKCVLDSCRHLQQEGFEVTYLPVKTDGLVDLEMLREAIRPDTGLVSIMAVNNEIGVVQPMEEIGMICKEHNVPFHTDAAQAIGKIPVDVKKWNVALMSMSAHKIYGPKGVGALYVRRRPRIRLEPLMNGGGQERGLRSGTGATQQIVGFGAACELAMKEMEYDEKWIKGLQERLLNGVREKLDGVVVNGSMDSRYVGNLNLSFAYVEGESLLMGLKEVAVSSGSACTSASLEPSYVLRALGVDEDMAHTSIRFGIGRFTTKEEIDKAVELTVKQVEKLREMSPLYEMVKEGIDIKNIQWSQH
|
Catalyzes the removal of elemental sulfur from cysteine to produce alanine. Supplies the inorganic sulfur for iron-sulfur (Fe-S) clusters.
|
O49545
|
BAME1_ARATH
|
Leucine-rich repeat receptor-like serine/threonine-protein kinase BAM1 (EC 2.7.11.1) (Protein BARELY ANY MERISTEM 1)
|
MKLFLLLLFLLHISHTFTASRPISEFRALLSLKTSLTGAGDDKNSPLSSWKVSTSFCTWIGVTCDVSRRHVTSLDLSGLNLSGTLSPDVSHLRLLQNLSLAENLISGPIPPEISSLSGLRHLNLSNNVFNGSFPDEISSGLVNLRVLDVYNNNLTGDLPVSVTNLTQLRHLHLGGNYFAGKIPPSYGSWPVIEYLAVSGNELVGKIPPEIGNLTTLRELYIGYYNAFEDGLPPEIGNLSELVRFDGANCGLTGEIPPEIGKLQKLDTLFLQVNVFSGPLTWELGTLSSLKSMDLSNNMFTGEIPASFAELKNLTLLNLFRNKLHGEIPEFIGDLPELEVLQLWENNFTGSIPQKLGENGKLNLVDLSSNKLTGTLPPNMCSGNKLETLITLGNFLFGSIPDSLGKCESLTRIRMGENFLNGSIPKGLFGLPKLTQVELQDNYLSGELPVAGGVSVNLGQISLSNNQLSGPLPPAIGNFTGVQKLLLDGNKFQGPIPSEVGKLQQLSKIDFSHNLFSGRIAPEISRCKLLTFVDLSRNELSGEIPNEITAMKILNYLNLSRNHLVGSIPGSISSMQSLTSLDFSYNNLSGLVPGTGQFSYFNYTSFLGNPDLCGPYLGPCKDGVAKGGHQSHSKGPLSASMKLLLVLGLLVCSIAFAVVAIIKARSLKKASESRAWRLTAFQRLDFTCDDVLDSLKEDNIIGKGGAGIVYKGVMPNGDLVAVKRLAAMSRGSSHDHGFNAEIQTLGRIRHRHIVRLLGFCSNHETNLLVYEYMPNGSLGEVLHGKKGGHLHWDTRYKIALEAAKGLCYLHHDCSPLIVHRDVKSNNILLDSNFEAHVADFGLAKFLQDSGTSECMSAIAGSYGYIAPEYAYTLKVDEKSDVYSFGVVLLELVTGRKPVGEFGDGVDIVQWVRKMTDSNKDSVLKVLDPRLSSIPIHEVTHVFYVAMLCVEEQAVERPTMREVVQILTEIPKLPPSKDQPMTESAPESELSPKSGVQSPPDLLNL
|
Necessary for male gametophyte development, as well as ovule specification and function. Involved in cell-cell communication process required during early anther development, and regulating cell division and differentiation to organize cell layers. Required for the development of high-ordered vascular strands within the leaf and a correlated control of leaf shape, size and symmetry. May regulate the CLV1-dependent CLV3-mediated signaling in meristems maintenance.
|
O49562
|
PDRP1_ARATH
|
Pyruvate, phosphate dikinase regulatory protein 1, chloroplastic (EC 2.7.11.32) (EC 2.7.4.27) (Bifunctional dikinase regulatory protein 1) (AtRP1) (BFRP1) (Pyruvate, Pi dikinase regulatory protein 1) (PPDK RP1) (PPDK regulatory protein 1)
|
MALLSAMKLQGRPPPISSNLNPNSKPAGSDSVSLNASEPGSERKPRKFSSQLNRWNRARTLRSGAKLDSTITNGSNNTTGPMRPIESSSRTDVSTLDSDVSSSSNGVSEADMTAAKSIYIVSDGTGWTAEHAVNAALGQFDYCLVDRGCPVNTHLFSGIEDGEKLMEIIKQAAREGAMVIYTLADPSMAEATMRACKLWKIPSLDILGPITESISSHLGTNPSGLSRGITNSSLNEDYFKRIEAIEFTIKHDDGALPENLEKADIVLVGVSRTGKTPLSTYLAQKGYKVSNVPIVNGVDLPKTLFEIDPRKVFGLMINPLVLQGIREARAKSLGLGSSFKTKYSELGSVKEELELAKKIFAENPTWPVIEVTESAIEETAAVVLRLYDERQSNRAMPRISKSY
|
Bifunctional serine/threonine kinase and phosphorylase involved in the dark/light-mediated regulation of PPDK by catalyzing its phosphorylation/dephosphorylation. Dark/light-induced changes in stromal concentrations of the competing ADP and Pi substrates govern the direction of the reaction. In the dark, phosphorylates the catalytic intermediate of PPDK (PPDK-HisP), inactivating it. Light exposure induces the phosphorolysis reaction that reactivates PPDK. Unlike the kinase function which can utilize either Thr or Ser as target, the phosphorylase function has a strict substrate requirement for threonyl phosphate.
|
O49595
|
HMGB1_ARATH
|
High mobility group B protein 1 (High mobility group protein A) (AtHMGalpha) (HMG alpha) (Nucleosome/chromatin assembly factor group D 01) (Nucleosome/chromatin assembly factor group D 1)
|
MKTAKGKDKVKTTKEALKPVDDRKVGKRKAPAEKPTKRETRKEKKAKKDPNKPKRAPSAFFVFLEDFRVTFKKENPNVKAVSAVGKAGGQKWKSMSQAEKAPYEEKAAKRKAEYEKQMDAYNKNLEEGSDESEKSRSEINDEDEASGEEELLEKEAAGDDEEEEEEEDDDDDDDEEED
|
Binds preferentially double-stranded DNA. Modulates general plant growth and stress tolerance. Confers sensitivity to salt and genotoxic (methyl methanesulfonate, MMS) stresses.
|
O49596
|
HMGB2_ARATH
|
High mobility group B protein 2 (High mobility group protein B 1) (AtHMGbeta1) (HMG beta 1) (Nucleosome/chromatin assembly factor group D 02) (Nucleosome/chromatin assembly factor group D 2)
|
MKGAKSKTETRSSKLSVTKKPAKGAGRGKAAAKDPNKPKRPASAFFVFMEDFRETFKKENPKNKSVATVGKAAGDKWKSLSDSEKAPYVAKAEKRKVEYEKNIKAYNKKLEEGPKEDEESDKSVSEVNDEDDAEDGSEEEEDDD
|
Binds preferentially double-stranded DNA. Confers sensitivity to salt and drought stresses.
|
O49597
|
HMGB5_ARATH
|
High mobility group B protein 5 (High mobility group protein D) (AtHMGdelta) (HMG delta) (Nucleosome/chromatin assembly factor group D 05) (Nucleosome/chromatin assembly factor group D 5)
|
MKDNQTEVESRSTDDRLKVRGNKVGKKTKDPNRPKKPPSPFFVFLDDFRKEFNLANPDNKSVGNVGRAAGKKWKTMTEEERAPFVAKSQSKKTEYAVTMQQYNMELANGNKTTGDDEKQEKAADD
|
Binds preferentially double-stranded DNA. Confers resistance to salt and drought stresses.
|
O49623
|
DPNP2_ARATH
|
SAL2 phosphatase (3'(2'),5'-bisphosphate nucleotidase 2) (EC 3.1.3.7) (3'(2'),5'-bisphosphonucleoside 3'(2')-phosphohydrolase 2) (DPNPase 2) (Inositol polyphosphate 1-phosphatase 2) (IPPase 2) (Inositol-1,4-bisphosphate 1-phosphatase 2) (EC 3.1.3.57)
|
MSYEKELAAAKKAVTLAARLSQEVQKTLLQSQVWKKSDRSPVTAADYGSQAVVSLVLERELQPDKLSLVAEEETGDLRKNGSEAFLEDIAKLVKDTLASEESYTSSPLSTDDVLNAIDCGKSEGGCKGSHWVLDPIDGTRGFVRGEQYAVGLALLVEGKVVLGVMACPNLPLASAVCATDNSSQEDVGCLFFATTGSGTYVQSLKGNSLPQKVQVSSNENLDEAKFLESYHKPIPIHGTIAKKLGIKALPVRIDSQAKYAALSRGDAEIYLRFTLNGYRECIWDHAPGSIITTEAGGVVCDATGKSLDFSKGKYLAHKTGIIVTTKKLKPWILKAVRESIEEENLYF
|
Converts adenosine 3'-phosphate 5'-phosphosulfate (PAPS) to adenosine 5'-phosphosulfate (APS) and 3'(2')-phosphoadenosine 5'- phosphate (PAP) to AMP. May regulate the flux of sulfur in the sulfur-activation pathway by converting PAPS to APS (By similarity). Prevents both the toxicity of PAP on RNA processing enzymes as well as the product inhibition by PAP of sulfate conjugation. Is also able to hydrolyze inositol 1,4-bisphosphate.
|
O49627
|
ISU1_ARATH
|
Iron-sulfur cluster assembly protein 1 (AtISU1) (AtIscU1) (Protein ISCU-LIKE 1) (NifU-like N-terminal domain-containing protein ISU1) (NifU-like protein ISU1)
|
MMLKQAAKKALGLTSRQSTPWSVGILRTYHENVIDHYDNPRNVGSFDKNDPNVGTGLVGAPACGDVMKLQIKVDEKTGQIVDARFKTFGCGSAIASSSVATEWVKGKAMEDVLTIKNTEIAKHLSLPPVKLHCSMLAEDAIKAAVKDYKEKRVKTNGAAAAGETTQA
|
Scaffold protein for the de novo synthesis of iron-sulfur (Fe-S) clusters within mitochondria, which is required for maturation of both mitochondrial and cytoplasmic [2Fe-2S] and [4Fe-4S] proteins. First, a [2Fe-2S] cluster is transiently assembled on the scaffold protein ISCU (ISU1, ISU2 or ISU3). In a second step, the cluster is released from ISCU, transferred to a glutaredoxin, followed by the formation of mitochondrial [2Fe-2S] proteins, the synthesis of [4Fe-4S] clusters and their target-specific insertion into the recipient apoproteins. Cluster assembly on ISCU depends on the function of the cysteine desulfurase complex NFS1-ISD11, which serves as the sulfur donor for cluster synthesis, the iron-binding protein frataxin as the putative iron donor, and the electron transfer chain comprised of ferredoxin reductase and ferredoxin, which receive their electrons from NADH (By similarity).
|
O49660
|
DTX56_ARATH
|
Protein DETOXIFICATION 56 (AtDTX56) (Multidrug and toxic compound extrusion protein 56) (MATE protein 56) (Protein RESISTANT TO HIGH CARBON DIOXIDE 1)
|
MSETSKSESLDPEVSEGLCSKTLMQSIVHELKLQMRIGLPLVVMNLLWFGKMTTTSVFLGRQGELNLAGGSLGFSFANVTGFSVLYGISAAMEPICGQAFGAKNFKLLHKTLFMAVLLLLLISVPISFLWLNVHKILTGFGQREDISFIAKKYLLYLLPELPILSFLCPLKAYLSSQGVTLPIMFTTAAATSLHIPINIVLSKARGIEGVAMAVWITDFIVVILLTGYVIVVERMKENKWKQGGWLNQSAQDWLTLIKLSGPCCLTVCLEWWCYEILVLLTGRLPNPVQAVSILIIVFNFDYLLYAVMLSLGTCVATRVSNELGANNPKGAYRAAYTTLIVGIISGCIGALVMIAFRGFWGSLYTHHDQLILNGVKKMMLIMAVIEVVNFPLMVCGEIVRGTAKPSLGMYANLSGFYLLALPLGATLAFKAKQGLQGFLIGLFVGISLCLSILLIFIARIDWEKEAGKAQILTCNTEDEQTSQGSGQDSHS
|
Could function as a HCO(3)(-) -sensing component in the CO(2) signaling pathway in guard cells. Acts as an upstream repressor of HT1. Plays a role in stomatal response to CO(2).
|
O49686
|
PYR1_ARATH
|
Abscisic acid receptor PYR1 (ABI1-binding protein 6) (Protein PYRABACTIN RESISTANCE 1) (Regulatory components of ABA receptor 11)
|
MPSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPEGNSEDDTRMFADTVVKLNLQKLATVAEAMARNSGDGSGSQVT
|
Receptor for abscisic acid (ABA) required for ABA-mediated responses such as stomatal closure and germination inhibition. Inhibits the activity of group-A protein phosphatases type 2C (PP2Cs) when activated by ABA. Can be activated by both (-)-ABA and (+)-ABA. Promotes drought tolerance.
|
O49687
|
MYC4_ARATH
|
Transcription factor MYC4 (AtMYC4) (Basic helix-loop-helix protein 4) (AtbHLH4) (bHLH 4) (Transcription factor EN 37) (bHLH transcription factor bHLH004)
|
MSPTNVQVTDYHLNQSKTDTTNLWSTDDDASVMEAFIGGGSDHSSLFPPLPPPPLPQVNEDNLQQRLQALIEGANENWTYAVFWQSSHGFAGEDNNNNNTVLLGWGDGYYKGEEEKSRKKKSNPASAAEQEHRKRVIRELNSLISGGVGGGDEAGDEEVTDTEWFFLVSMTQSFVKGTGLPGQAFSNSDTIWLSGSNALAGSSCERARQGQIYGLQTMVCVATENGVVELGSSEIIHQSSDLVDKVDTFFNFNNGGGEFGSWAFNLNPDQGENDPGLWISEPNGVDSGLVAAPVMNNGGNDSTSNSDSQPISKLCNGSSVENPNPKVLKSCEMVNFKNGIENGQEEDSSNKKRSPVSNNEEGMLSFTSVLPCDSNHSDLEASVAKEAESNRVVVEPEKKPRKRGRKPANGREEPLNHVEAERQRREKLNQRFYSLRAVVPNVSKMDKASLLGDAISYISELKSKLQKAESDKEELQKQIDVMNKEAGNAKSSVKDRKCLNQESSVLIEMEVDVKIIGWDAMIRIQCSKRNHPGAKFMEALKELDLEVNHASLSVVNDLMIQQATVKMGNQFFTQDQLKVALTEKVGECP
|
Transcription factor involved in jasmonic acid (JA) gene regulation. With MYC2 and MYC3, controls additively subsets of JA-dependent responses. Can form complexes with all known glucosinolate-related MYBs to regulate glucosinolate biosynthesis. Binds to the G-box (5'-CACGTG-3') of promoters. Activates multiple TIFY/JAZ promoters.
|
O49696
|
ALMTC_ARATH
|
Aluminum-activated malate transporter 12 (AtALMT12) (Quick anion channel 1)
|
MSNKVHVGSLEMEEGLSKTKWMVLEPSEKIKKIPKRLWNVGKEDPRRVIHALKVGLSLTLVSLLYLMEPLFKGIGSNAIWAVMTVVVVLEFSAGATLCKGLNRGLGTLIAGSLAFFIEFVANDSGKVLRAIFIGTAVFIIGAAATYIRFIPYIKKNYDYGVVIFLLTFNLITVSSYRVDSVINIAHDRFYTIAVGCGICLFMSLLVFPIWSGEDLHKTTVGKLQGLSRSIEACVDEYFEEKEKEKTDSKDRIYEGYQAVLDSKSTDETLALYANWEPRHTLRCHRFPCQQYVKVGAVLRQFGYTVVALHGCLQTEIQTPRSVRALFKDPCVRLAGEVCKALTELADSISNHRHCSPEILSDHLHVALQDLNSAIKSQPKLFLGSNLHRHNNKHQNGSISNNKHHQRNSSNSGKDLNGDVSLQNTETGTRKITETGSRQGQNGAVSLSSFRTDTSALMEYRRSFKNSNSEMSAAGERRMLRPQLSKIAVMTSLEFSEALPFAAFASLLVEMVARLDNVIEEVEELGRIASFKEYDNKRDQTADDVRCENPANVTISVGAAE
|
Malate-sensitive anion transporter permeable to chloride, nitrate, sulfate and malate. Involved in dark-, CO(2)-, abscisic acid- and water-deficient-induced stomatal closure. Belongs to the R-type anion channels.
|
O49717
|
CDPKF_ARATH
|
Calcium-dependent protein kinase 15 (EC 2.7.11.1)
|
MGCFSSKHRNTESDIINGSVQSSIPTNQPENHVSRDVLKPQKPPSPQIPTTTQSNHHHQQESKPVNQQIEKKHVLTQPLKPIVFRETETILGKPFEEIRKLYTLGKELGRGQFGITYTCKENSTGNTYACKSILKRKLTRKQDIDDVKREIQIMQYLSGQENIVEIKGAYEDRQSIHLVMELCGGSELFDRIIAQGHYSEKAAAGVIRSVLNVVQICHFMGVIHRDLKPENFLLASTDENAMLKATDFGLSVFIEEGKVYRDIVGSAYYVAPEVLRRSYGKEIDIWSAGIILYILLCGVPPFWSETEKGIFNEIIKGEIDFDSQPWPSISESAKDLVRKLLTKDPKQRISAAQALEHPWIRGGEAPDKPIDSAVLSRMKQFRAMNKLKKLALKVIAESLSEEEIKGLKTMFANMDTDKSGTITYEELKNGLAKLGSKLTEAEVKQLMEAADVDGNGTIDYIEFISATMHRYRFDRDEHVFKAFQYFDKDNSGFITMDELESAMKEYGMGDEASIKEVIAEVDTDNDGRINYEEFCAMMRSGITLPQQGKILPVQ
|
May play a role in signal transduction pathways that involve calcium as a second messenger.
|
O49782
|
MYB51_ARATH
|
Transcription factor MYB51 (Myb-related protein 51) (AtMYB51) (Protein HIGH INDOLIC GLUCOSINOLATE 1) (Transcription factor HIG1)
|
MVRTPCCKAELGLKKGAWTPEEDQKLLSYLNRHGEGGWRTLPEKAGLKRCGKSCRLRWANYLRPDIKRGEFTEDEERSIISLHALHGNKWSAIARGLPGRTDNEIKNYWNTHIKKRLIKKGIDPVTHKGITSGTDKSENLPEKQNVNLTTSDHDLDNDKAKKNNKNFGLSSASFLNKVANRFGKRINQSVLSEIIGSGGPLASTSHTTNTTTTSVSVDSESVKSTSSSFAPTSNLLCHGTVATTPVSSNFDVDGNVNLTCSSSTFSDSSVNNPLMYCDNFVGNNNVDDEDTIGFSTFLNDEDFMMLEESCVENTAFMKELTRFLHEDENDVVDVTPVYERQDLFDEIDNYFG
|
Transcription factor positively regulating indolic glucosinolate biosynthetic pathway genes.
|
O49815
|
BCH1_CAPAN
|
Beta-carotene hydroxylase 1, chloroplastic (EC 1.14.15.24)
|
MAAEISISASSRAICLQRNPFPAPKYFATAPPLLFFSPLTCNLDAILRSRRKPRLAACFVLKDDKLYTAQSGKQSDTEAIGDEIEVETNEEKSLAVRLAEKFARKKSERFTYLVAAVMSSLGITSMAVISVYYRFSWQMEGGEMPFSEMFCTFALAFGAAIGMEYWARWAHRALWHASLWHMHESHHRPREGPFELNDIFAIINAVPAIALLSFGFNHKGLIPGLCFGAGLGITVFGMAYMFVHDGLVHKRFPVGPIANVPYFQRVAAAHQLHHSDKFDGVPYGLFLGPKELEEVGVLEELEKEVNRRIKSSKRL
|
Nonheme diiron monooxygenase involved in the biosynthesis of xanthophylls. Specific for beta-ring hydroxylations of beta-carotene. Produces beta-cryptoxanthin and zeaxanthin. Uses ferredoxin as an electron donor.
|
O49839
|
PBL2_ARATH
|
Probable serine/threonine-protein kinase PBL2 (EC 2.7.11.1) (PBS1-like protein 2) (Protein kinase 2A)
|
MGNCLDSSAKVDNSNHSPHANSASSGSKVSSKTSRSTGPSGLSTTSYSTDSSFGPLPTLRTEGEILSSPNLKAFTFNELKNATKNFRQDNLLGEGGFGCVFKGWIDQTSLTASRPGSGIVVAVKQLKPEGFQGHKEWLTEVNYLGQLSHPNLVLLVGYCAEGENRLLVYEFMPKGSLENHLFRRGAQPLTWAIRMKVAVGAAKGLTFLHEAKSQVIYRDFKAANILLDADFNAKLSDFGLAKAGPTGDNTHVSTKVIGTHGYAAPEYVATGRLTAKSDVYSFGVVLLELISGRRAMDNSNGGNEYSLVDWATPYLGDKRKLFRIMDTKLGGQYPQKGAFTAANLALQCLNPDAKLRPKMSEVLVTLEQLESVAKPGTKHTQMESPRFHHSSVMQKSPVRYSHDRPLLHMTPGASPLPSYTQSPRVR
|
Involved in disease resistance signaling. Contributes to pathogen-associated molecular pattern (PAMP)-triggered immunity (PTI) signaling and defense responses downstream of FLS2. Acts as a BIK1 decoy and enables Xanthomonas campestris AvrAC/XopAC detection X.campestris effector AvrAC/XopAC-mediated uridylylation promotes the formation of a complex with RKS1 and RPP13L4/ZAR1 which, in turn, activates effector-triggered immunity (ETI) against X.campestris. Promotes, when uridylylated by AvrAC/XopAC, the release of ADP from the inactive RKS1-ZAR1 complex, thus activating the resistosome.
|
O49840
|
PBL3_ARATH
|
Probable serine/threonine-protein kinase PBL3 (EC 2.7.11.1) (PBS1-like protein 3) (Protein kinase 2B)
|
MGNCLDSSAKVDSSSHSPHANSASLSSRVSSKTSRSTVPSSLSINSYSSVESLPTPRTEGEILSSPNLKAFTFNELKNATRNFRPDSLLGEGGFGYVFKGWIDGTTLTASKPGSGIVVAVKKLKTEGYQGHKEWLTEVNYLGQLSHPNLVKLVGYCVEGENRLLVYEFMPKGSLENHLFRRGAQPLTWAIRMKVAIGAAKGLTFLHDAKSQVIYRDFKAANILLDAEFNSKLSDFGLAKAGPTGDKTHVSTQVMGTHGYAAPEYVATGRLTAKSDVYSFGVVLLELLSGRRAVDKSKVGMEQSLVDWATPYLGDKRKLFRIMDTRLGGQYPQKGAYTAASLALQCLNPDAKLRPKMSEVLAKLDQLESTKPGTGVGNRQAQIDSPRGSNGSIVQKSPRRYSYDRPLLHITPGASPLPTHNHSPRVR
|
May be involved in plant defense signaling.
|
O50008
|
METE1_ARATH
|
5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase 1 (EC 2.1.1.14) (Cobalamin-independent methionine synthase 1) (AtMS1) (Vitamin-B12-independent methionine synthase 1)
|
MASHIVGYPRMGPKRELKFALESFWDGKSTAEDLQKVSADLRSSIWKQMSAAGTKFIPSNTFAHYDQVLDTTAMLGAVPPRYGYTGGEIGLDVYFSMARGNASVPAMEMTKWFDTNYHYIVPELGPEVNFSYASHKAVNEYKEAKALGVDTVPVLVGPVSYLLLSKAAKGVDKSFELLSLLPKILPIYKEVITELKAAGATWIQLDEPVLVMDLEGQKLQAFTGAYAELESTLSGLNVLVETYFADIPAEAYKTLTSLKGVTAFGFDLVRGTKTLDLVKAGFPEGKYLFAGVVDGRNIWANDFAASLSTLQALEGIVGKDKLVVSTSCSLLHTAVDLINETKLDDEIKSWLAFAAQKVVEVNALAKALAGQKDEALFSANAAALASRRSSPRVTNEGVQKAAAALKGSDHRRATNVSARLDAQQKKLNLPILPTTTIGSFPQTVELRRVRREYKAKKVSEEDYVKAIKEEIKKVVDLQEELDIDVLVHGEPERNDMVEYFGEQLSGFAFTANGWVQSYGSRCVKPPVIYGDVSRPKAMTVFWSAMAQSMTSRPMKGMLTGPVTILNWSFVRNDQPRHETCYQIALAIKDEVEDLEKGGIGVIQIDEAALREGLPLRKSEHAFYLDWAVHSFRITNCGVQDSTQIHTHMCYSHFNDIIHSIIDMDADVITIENSRSDEKLLSVFREGVKYGAGIGPGVYDIHSPRIPSSEEIADRVNKMLAVLEQNILWVNPDCGLKTRKYTEVKPALKNMVDAAKLIRSQLASAK
|
Catalyzes the transfer of a methyl group from 5-methyltetrahydrofolate to homocysteine resulting in methionine formation.
|
O50055
|
COL1_ARATH
|
Zinc finger protein CONSTANS-LIKE 1
|
MLKVESNWAQACDTCRSAACTVYCRADSAYLCSSCDAQVHAANRLASRHERVRVCQSCERAPAAFFCKADAASLCTTCDSEIHSANPLARRHQRVPILPISEYSYSSTATNHSCETTVTDPENRLVLGQEEEDEDEAEAASWLLPNSGKNSGNNNGFSIGDEFLNLVDYSSSDKQFTDQSNQYQLDCNVPQRSYGEDGVVPLQIEVSKGMYQEQQNFQLSINCGSWGALRSSNGSLSHMVNVSSMDLGVVPESTTSDATVSNPRSPKAVTDQPPYPPAQMLSPRDREARVLRYREKKKMRKFEKTIRYASRKAYAEKRPRIKGRFAKKKDVDEEANQAFSTMITFDTGYGIVPSF
|
Putative transcription factor that may be involved in the light input to the circadian clock but does not affect flowering time.
|
O50061
|
RK4_ARATH
|
Large ribosomal subunit protein uL4c (50S ribosomal protein L4, chloroplastic) (CL4) (R-protein L4)
|
MASSATAPNSLSFFSSSLFLSSSHQIPKTYISVSKLGSGRVSKPLSVSSQLATLPILSFEGEKVGETYLDLKAAPEDTARAVVHRAIVTDLNNKRRGTASTLTRGEVRGGGIKPYSQKKTGHARRGSQRTPLRPGGGVVFGPRPKDWSIKINRKEKKLAISTALSSAASAEGGAIVVEEFGEKFEKPKTKDFLAAMQRWGLDPKEKAMFLMIDVDENVAKSSRNIGTLRMLTPRTLNLFDILNADKLVLTPAAVEFLNARYGVDAVEEEDDDEDETEGSEEA
|
This protein binds directly and specifically to 23S rRNA (By similarity). May play a role in plastid transcriptional regulation.
|
O50078
|
ACEA_HYPME
|
Isocitrate lyase (ICL) (EC 4.1.3.1) (Isocitrase) (Isocitratase)
|
MAHKKTYSQLRSELLARYPVGLTKGGVSIDDIVQLRLQSPYESHLDVARAMASVMRADMAAYDRDTGKFTQSLGCWSGFHAQQMIKAVKRLRGTTKGAYVYLSGWMVAGLRNRWGHLPDQSMHEKTSVVDLIEEIYVSLRQADEVALNDLFNELKDARAKGATNKACEEIISRIDGFESHVVPIIADIDAGFGNEHATYLLAKEMIKAGACCLQIENQVSDAKQCGHQDGKVTVPREDFIEKLRACRLAFEELGVDDGVIVARTDSLGASLTQKIPVSQQAGDFASSYIKWLKTEPITDANPLSEGELAIWQSGNFARPIRMPNGLFSFREGTGRARVIEDCIASLKDGDADLIWIETDTPNVDEIASMVAEIRKQVPDAKLVYNNSPSFNWTLNLRKQVRAQWISEGKIAEADYPDGTALMSAQYDTSELGREADDRLRQFQVDISARAGVFHNLITLPTFHLTAKSTDELSHGYFGEDRMLAYVATVQREEIRRSISAVRHQHEVGSDLGDTFKEMVSGDRALKAGGAHNTMNQFAAE
|
Involved in the metabolic adaptation in response to environmental changes. Catalyzes the reversible formation of succinate and glyoxylate from isocitrate, a key step of the glyoxylate cycle, which operates as an anaplerotic route for replenishing the tricarboxylic acid cycle during growth on fatty acid substrates. May be involved in the assimilation of one-carbon compounds via the isocitrate lyase-positive serine pathway.
|
O50083
|
RPIA_PYRHO
|
Ribose-5-phosphate isomerase A (EC 5.3.1.6) (Phosphoriboisomerase A) (PRI)
|
MNVEEMKKIAAKEALKFIEDDMVIGLGTGSTTAYFIKLLGEKLKRGEISDIVGVPTSYQAKLLAIEHDIPIASLDQVDAIDVAVDGADEVDPNLNLIKGRGAALTMEKIIEYRAGTFIVLVDERKLVDYLCQKMPVPIEVIPQAWKAIIEELSIFNAKAELRMGVNKDGPVITDNGNFIIDAKFPRIDDPLDMEIELNTIPGVIENGIFADIADIVIVGTREGVKKLER
|
Involved in the first step of the non-oxidative branch of the pentose phosphate pathway. It catalyzes the reversible conversion of ribose-5-phosphate to ribulose 5-phosphate.
|
O50131
|
ORNAT_PYRHO
|
Ornithine aminotransferase (Orn-AT) (EC 2.6.1.13) (Ornithine delta-aminotransferase)
|
MELKPNVKEIPGPKARKVIEEHHKYMATTTNDPNEYFLVIERAEGVYWIDVDGNVLLDFSSGIGVMNVGLRNPKVIEAIKKQLDLVLHAAGTDYYNPYQVELAKKLVEIAPGDIERKVFLSNSGTEANEAALKIAKWSTNRKMFIAFIGAFHGRTHGTMSLTASKPVQRSRMFPTMPGVVHVPYPNPYRNPWGIDGYENPDELINRVIDYIEEYLFEHYVPAEEVAGIFFEPIQGEGGYVVPPKNFFKELKKLADKHGILLIDDEVQMGMGRTGRMWAIEHFDIVPDIVTVAKALGGGIPIGATIFRADLDFGVSGVHSNTFGGNTVAAAAALAVIEELQNGLIENAQKLEPLFRERLEEMKEKYEIIGDVRGLGLAWGVEFVKDRKTKEYATKERGEIVVEALKRGLALLGCGKSAIRLIPPLIISEEEAKMGLDIFEEAIKVVSERHGYKIH
|
Catalyzes the conversion of L-ornithine and 2-oxoglutarate to L-glutamate semialdehyde and L-glutamate. L-ornithine is the best substrate, but the enzyme also shows good activity toward L-lysine, and low activity toward D-ornithine, D-lysine, 5-aminovalerate, 6-aminohexanoate and GABA. The enzyme activity is specific for 2-oxoglutarate.
|
O50146
|
LYSY_THET2
|
[LysW]-L-2-aminoadipate 6-phosphate reductase (EC 1.2.1.103)
|
MDKKTLSIVGASGYAGGEFLRLALSHPYLEVKQVTSRRFAGEPVHFVHPNLRGRTNLKFIPPEKLEPADILVLALPHGVFAREFDRYSALAPILIDLSADFRLKDPELYRRYYGEHPRPDLLGCFVYAVPELYREALKGADWIAGAGCNATATLLGLYPLLKAGVLKPTPIFVTLLISTSAAGAEASPASHHPERAGSIRVYKPTGHRHTAEVVENLPGRPEVHLTAIATDRVRGILMTAQCFVQDGWSERDVWQAYREAYAGEPFIRLVKQKKGVHRYPDPRFVQGTNYADIGFELEEDTGRLVVMTAIDNLVKGTAGHALQALNVRMGWPETLGLDFPGLHP
|
Catalyzes the NADPH-dependent reduction of [LysW]-aminoadipate 6-phosphate to yield [LysW]-aminoadipate 6-semialdehyde. {ECO:0000255|HAMAP-Rule:MF_02083, ECO:0000269|PubMed:26966182, ECO:0000305|PubMed:19620981}.
|
O50147
|
LYSZ_THET2
|
[LysW]-aminoadipate kinase (EC 2.7.2.17)
|
MIVVKVGGAEGINYEAVAKDAASLWKEGVKLLLVHGGSAETNKVAEALGHPPRFLTHPGGQVSRLTDRKTLEIFEMVYCGLVNKRLVELLQKEGANAIGLSGLDGRLFVGRRKTAVKYVENGKVKVHRGDYTGTVEEVNKALLDLLLQAGYLPVLTPPALSYENEAINTDGDQIAALLATLYGAEALVYLSNVPGLLARYPDEASLVREIPVERIEDPEYLALAQGRMKRKVMGAVEAVRGGVKRVVFADARVENPIRRALSGEGTVVR
|
Catalyzes the phosphorylation of LysW-gamma-alpha-aminoadipate. Does not phosphorylate N-acetyl-glutamate.
|
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