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PMC2397490_F9_23367.jpg | What stands out most in this visual? | Ultrastructural evidence of myelinopathy in 5-FU-treated animals. Electron micrographs were taken from the midline transverse sections of the CC (cross-sections of the axons). (a) A representative image from a sham-treated control animal, showing normal myelinated axons; (b-f) representative images from a 5-FU-treated ... |
PMC2397511_F3_23370.jpg | What is the main focus of this visual representation? | Use of dual-color FISH to validate a BT474 genomic breakpoint. End sequences from clone CHORI518_014-E04 were mapped to chromosomes 1 and 4. Clones RP11-692N22 and RP11-1095F2 were selected from the human RPCI11 library because their sequences map to just outside of tumor bacterial artificial chromosome (BAC) end seque... |
PMC2397521_F5_23373.jpg | Can you identify the primary element in this image? | Immunhistochemistry of tumour xenografts. (a-d) Brown precipitates indicate the presence of CD31, representing microvessel formation: panel a shows MDA-MB435 tissue, panel b HT1080, panel c MCF7, and panel d DU4475. Note the strong difference in tumour vascularization. Although the MDA-MB435 and the HT1080 tumours exhi... |
PMC2397521_F5_23375.jpg | What object or scene is depicted here? | Immunhistochemistry of tumour xenografts. (a-d) Brown precipitates indicate the presence of CD31, representing microvessel formation: panel a shows MDA-MB435 tissue, panel b HT1080, panel c MCF7, and panel d DU4475. Note the strong difference in tumour vascularization. Although the MDA-MB435 and the HT1080 tumours exhi... |
PMC2397521_F5_23372.jpg | What's the most prominent thing you notice in this picture? | Immunhistochemistry of tumour xenografts. (a-d) Brown precipitates indicate the presence of CD31, representing microvessel formation: panel a shows MDA-MB435 tissue, panel b HT1080, panel c MCF7, and panel d DU4475. Note the strong difference in tumour vascularization. Although the MDA-MB435 and the HT1080 tumours exhi... |
PMC2398773_pone-0002388-g007_23380.jpg | What's the most prominent thing you notice in this picture? | Lack of apical-basal polarity in mitotic basal progenitors.Confocal scanning photomicrographs of 20 µm-thick fixed cryosections through the dorsal telencephalon of heterozygous E10.5 (A–B'), E13.5 (C–D'), E10.5 (E–H) and E11.5 (I–L) Tis21-nucGFP knock-in mouse embryos. (A–D') Stack of 7–10 optical sections (1 µm each) ... |
PMC2398773_pone-0002388-g007_23378.jpg | What is the dominant medical problem in this image? | Lack of apical-basal polarity in mitotic basal progenitors.Confocal scanning photomicrographs of 20 µm-thick fixed cryosections through the dorsal telencephalon of heterozygous E10.5 (A–B'), E13.5 (C–D'), E10.5 (E–H) and E11.5 (I–L) Tis21-nucGFP knock-in mouse embryos. (A–D') Stack of 7–10 optical sections (1 µm each) ... |
PMC2398773_pone-0002388-g007_23377.jpg | What's the most prominent thing you notice in this picture? | Lack of apical-basal polarity in mitotic basal progenitors.Confocal scanning photomicrographs of 20 µm-thick fixed cryosections through the dorsal telencephalon of heterozygous E10.5 (A–B'), E13.5 (C–D'), E10.5 (E–H) and E11.5 (I–L) Tis21-nucGFP knock-in mouse embryos. (A–D') Stack of 7–10 optical sections (1 µm each) ... |
PMC2398773_pone-0002388-g007_23379.jpg | What does this image primarily show? | Lack of apical-basal polarity in mitotic basal progenitors.Confocal scanning photomicrographs of 20 µm-thick fixed cryosections through the dorsal telencephalon of heterozygous E10.5 (A–B'), E13.5 (C–D'), E10.5 (E–H) and E11.5 (I–L) Tis21-nucGFP knock-in mouse embryos. (A–D') Stack of 7–10 optical sections (1 µm each) ... |
PMC2398773_pone-0002388-g007_23383.jpg | What is the central feature of this picture? | Lack of apical-basal polarity in mitotic basal progenitors.Confocal scanning photomicrographs of 20 µm-thick fixed cryosections through the dorsal telencephalon of heterozygous E10.5 (A–B'), E13.5 (C–D'), E10.5 (E–H) and E11.5 (I–L) Tis21-nucGFP knock-in mouse embryos. (A–D') Stack of 7–10 optical sections (1 µm each) ... |
PMC2398773_pone-0002388-g007_23382.jpg | What key item or scene is captured in this photo? | Lack of apical-basal polarity in mitotic basal progenitors.Confocal scanning photomicrographs of 20 µm-thick fixed cryosections through the dorsal telencephalon of heterozygous E10.5 (A–B'), E13.5 (C–D'), E10.5 (E–H) and E11.5 (I–L) Tis21-nucGFP knock-in mouse embryos. (A–D') Stack of 7–10 optical sections (1 µm each) ... |
PMC2398773_pone-0002388-g007_23376.jpg | What is the dominant medical problem in this image? | Lack of apical-basal polarity in mitotic basal progenitors.Confocal scanning photomicrographs of 20 µm-thick fixed cryosections through the dorsal telencephalon of heterozygous E10.5 (A–B'), E13.5 (C–D'), E10.5 (E–H) and E11.5 (I–L) Tis21-nucGFP knock-in mouse embryos. (A–D') Stack of 7–10 optical sections (1 µm each) ... |
PMC2405772_F2_23388.jpg | What key item or scene is captured in this photo? | Macroscopic observation of in vitro constructs. Figure 2A represents PLGA scaffold which was designed in the shape of cylindrical disc. Fibrin/PLGA constructs (Figure 2B) and PLGA construct (Figure 2C) was morphologically similar after 7 days in culture. Fibrin/PLGA construct (Figure 2D) showed slightly smooth and glis... |
PMC2405772_F2_23393.jpg | Can you identify the primary element in this image? | Macroscopic observation of in vitro constructs. Figure 2A represents PLGA scaffold which was designed in the shape of cylindrical disc. Fibrin/PLGA constructs (Figure 2B) and PLGA construct (Figure 2C) was morphologically similar after 7 days in culture. Fibrin/PLGA construct (Figure 2D) showed slightly smooth and glis... |
PMC2405772_F2_23391.jpg | What's the most prominent thing you notice in this picture? | Macroscopic observation of in vitro constructs. Figure 2A represents PLGA scaffold which was designed in the shape of cylindrical disc. Fibrin/PLGA constructs (Figure 2B) and PLGA construct (Figure 2C) was morphologically similar after 7 days in culture. Fibrin/PLGA construct (Figure 2D) showed slightly smooth and glis... |
PMC2405772_F2_23389.jpg | What is shown in this image? | Macroscopic observation of in vitro constructs. Figure 2A represents PLGA scaffold which was designed in the shape of cylindrical disc. Fibrin/PLGA constructs (Figure 2B) and PLGA construct (Figure 2C) was morphologically similar after 7 days in culture. Fibrin/PLGA construct (Figure 2D) showed slightly smooth and glis... |
PMC2405772_F2_23392.jpg | What's the most prominent thing you notice in this picture? | Macroscopic observation of in vitro constructs. Figure 2A represents PLGA scaffold which was designed in the shape of cylindrical disc. Fibrin/PLGA constructs (Figure 2B) and PLGA construct (Figure 2C) was morphologically similar after 7 days in culture. Fibrin/PLGA construct (Figure 2D) showed slightly smooth and glis... |
PMC2405772_F2_23390.jpg | What is shown in this image? | Macroscopic observation of in vitro constructs. Figure 2A represents PLGA scaffold which was designed in the shape of cylindrical disc. Fibrin/PLGA constructs (Figure 2B) and PLGA construct (Figure 2C) was morphologically similar after 7 days in culture. Fibrin/PLGA construct (Figure 2D) showed slightly smooth and glis... |
PMC2405772_F2_23387.jpg | What is the principal component of this image? | Macroscopic observation of in vitro constructs. Figure 2A represents PLGA scaffold which was designed in the shape of cylindrical disc. Fibrin/PLGA constructs (Figure 2B) and PLGA construct (Figure 2C) was morphologically similar after 7 days in culture. Fibrin/PLGA construct (Figure 2D) showed slightly smooth and glis... |
PMC2405788_F2_23396.jpg | What is the main focus of this visual representation? | A-C) AtPIN1 anti sense oligonucleotide linked to QD. Specific signal observed in epidermal and meristematic cells. A) and B) display separated channels. D-F) AtPIN1 anti sense oligonucleotide linked to fluorescein. Fluorescence is observed in epidermal and meristematic cells. D) and E) depict separated channels. AtPIN1... |
PMC2405788_F2_23395.jpg | What is being portrayed in this visual content? | A-C) AtPIN1 anti sense oligonucleotide linked to QD. Specific signal observed in epidermal and meristematic cells. A) and B) display separated channels. D-F) AtPIN1 anti sense oligonucleotide linked to fluorescein. Fluorescence is observed in epidermal and meristematic cells. D) and E) depict separated channels. AtPIN1... |
PMC2405788_F2_23400.jpg | What's the most prominent thing you notice in this picture? | A-C) AtPIN1 anti sense oligonucleotide linked to QD. Specific signal observed in epidermal and meristematic cells. A) and B) display separated channels. D-F) AtPIN1 anti sense oligonucleotide linked to fluorescein. Fluorescence is observed in epidermal and meristematic cells. D) and E) depict separated channels. AtPIN1... |
PMC2405788_F2_23398.jpg | What is the main focus of this visual representation? | A-C) AtPIN1 anti sense oligonucleotide linked to QD. Specific signal observed in epidermal and meristematic cells. A) and B) display separated channels. D-F) AtPIN1 anti sense oligonucleotide linked to fluorescein. Fluorescence is observed in epidermal and meristematic cells. D) and E) depict separated channels. AtPIN1... |
PMC2405794_F2_23402.jpg | What's the most prominent thing you notice in this picture? | Dual-tagged wild type and mutant GLUT4 translocates to the plasma membrane in response to insulin stimulation in 3T3-L1 adipocytes. 3T3-L1 adipocytes were transiently transfected with (a) wild type or (b) 4A mutant GLUT4HA-GFP and serum starved for 4 hr, stimulated with 83 nM insulin for 10 min then fixed for confocal ... |
PMC2405801_F1_23405.jpg | What's the most prominent thing you notice in this picture? | Immunostaining. Immunoreactivity within the bronchial epithelium for EGFR after air and diesel exhaust exposure. Positive staining (brown) can be seen on the basolateral border of the columnar cells after exposure to air (panel A) and throughout the epithelium following exposure to diesel exhaust (panel B). Arrows show... |
PMC2405801_F1_23407.jpg | What is the principal component of this image? | Immunostaining. Immunoreactivity within the bronchial epithelium for EGFR after air and diesel exhaust exposure. Positive staining (brown) can be seen on the basolateral border of the columnar cells after exposure to air (panel A) and throughout the epithelium following exposure to diesel exhaust (panel B). Arrows show... |
PMC2405801_F1_23403.jpg | What is shown in this image? | Immunostaining. Immunoreactivity within the bronchial epithelium for EGFR after air and diesel exhaust exposure. Positive staining (brown) can be seen on the basolateral border of the columnar cells after exposure to air (panel A) and throughout the epithelium following exposure to diesel exhaust (panel B). Arrows show... |
PMC2405801_F1_23408.jpg | Can you identify the primary element in this image? | Immunostaining. Immunoreactivity within the bronchial epithelium for EGFR after air and diesel exhaust exposure. Positive staining (brown) can be seen on the basolateral border of the columnar cells after exposure to air (panel A) and throughout the epithelium following exposure to diesel exhaust (panel B). Arrows show... |
PMC2405801_F1_23406.jpg | What is the focal point of this photograph? | Immunostaining. Immunoreactivity within the bronchial epithelium for EGFR after air and diesel exhaust exposure. Positive staining (brown) can be seen on the basolateral border of the columnar cells after exposure to air (panel A) and throughout the epithelium following exposure to diesel exhaust (panel B). Arrows show... |
PMC2405801_F1_23404.jpg | What does this image primarily show? | Immunostaining. Immunoreactivity within the bronchial epithelium for EGFR after air and diesel exhaust exposure. Positive staining (brown) can be seen on the basolateral border of the columnar cells after exposure to air (panel A) and throughout the epithelium following exposure to diesel exhaust (panel B). Arrows show... |
PMC2405948_pone-0002395-g001_23432.jpg | What is the principal component of this image? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the proximal fork of the anterior wing margin of the adult fly: Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult ... |
PMC2405948_pone-0002395-g001_23433.jpg | What is being portrayed in this visual content? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the proximal fork of the anterior wing margin of the adult fly: Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult ... |
PMC2405948_pone-0002395-g001_23437.jpg | What's the most prominent thing you notice in this picture? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the proximal fork of the anterior wing margin of the adult fly: Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult ... |
PMC2405948_pone-0002395-g001_23435.jpg | What is the principal component of this image? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the proximal fork of the anterior wing margin of the adult fly: Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult ... |
PMC2405948_pone-0002395-g001_23434.jpg | What is the core subject represented in this visual? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the proximal fork of the anterior wing margin of the adult fly: Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult ... |
PMC2405948_pone-0002395-g001_23431.jpg | What's the most prominent thing you notice in this picture? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the proximal fork of the anterior wing margin of the adult fly: Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult ... |
PMC2405948_pone-0002395-g002_23427.jpg | Describe the main subject of this image. | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the anterior wing margin after emergence of the adult fly (1–6): Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult... |
PMC2405948_pone-0002395-g002_23424.jpg | What is shown in this image? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the anterior wing margin after emergence of the adult fly (1–6): Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult... |
PMC2405948_pone-0002395-g002_23423.jpg | What stands out most in this visual? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the anterior wing margin after emergence of the adult fly (1–6): Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult... |
PMC2405948_pone-0002395-g002_23430.jpg | What is the focal point of this photograph? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the anterior wing margin after emergence of the adult fly (1–6): Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult... |
PMC2405948_pone-0002395-g002_23425.jpg | What is being portrayed in this visual content? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the anterior wing margin after emergence of the adult fly (1–6): Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult... |
PMC2405948_pone-0002395-g002_23429.jpg | What key item or scene is captured in this photo? | Recombination induced at the early pupal stage: fluorescence analysis in the Drosophila wing after adult emergence.
Analysis of fluorescence in the anterior wing margin after emergence of the adult fly (1–6): Progenies of the A+B cross (see Materials and Methods) were heat-shocked at the early pupal stage and the adult... |
PMC2405948_pone-0002395-g003_23420.jpg | What is the principal component of this image? | Analysis of fluorescence in the anterior wing margin of the adult fly at 5 days after emergence from the pupa (mitotic recombination was induced at an early pupal stage).(1,2) Representative images of wings at 1 day after emergence for comparison. Labeled sensilla in the external branch (fork) of the wing margin and a ... |
PMC2405948_pone-0002395-g003_23416.jpg | What's the most prominent thing you notice in this picture? | Analysis of fluorescence in the anterior wing margin of the adult fly at 5 days after emergence from the pupa (mitotic recombination was induced at an early pupal stage).(1,2) Representative images of wings at 1 day after emergence for comparison. Labeled sensilla in the external branch (fork) of the wing margin and a ... |
PMC2405948_pone-0002395-g003_23418.jpg | What's the most prominent thing you notice in this picture? | Analysis of fluorescence in the anterior wing margin of the adult fly at 5 days after emergence from the pupa (mitotic recombination was induced at an early pupal stage).(1,2) Representative images of wings at 1 day after emergence for comparison. Labeled sensilla in the external branch (fork) of the wing margin and a ... |
PMC2405948_pone-0002395-g003_23415.jpg | What is the central feature of this picture? | Analysis of fluorescence in the anterior wing margin of the adult fly at 5 days after emergence from the pupa (mitotic recombination was induced at an early pupal stage).(1,2) Representative images of wings at 1 day after emergence for comparison. Labeled sensilla in the external branch (fork) of the wing margin and a ... |
PMC2405948_pone-0002395-g003_23419.jpg | What is the principal component of this image? | Analysis of fluorescence in the anterior wing margin of the adult fly at 5 days after emergence from the pupa (mitotic recombination was induced at an early pupal stage).(1,2) Representative images of wings at 1 day after emergence for comparison. Labeled sensilla in the external branch (fork) of the wing margin and a ... |
PMC2405948_pone-0002395-g003_23417.jpg | Can you identify the primary element in this image? | Analysis of fluorescence in the anterior wing margin of the adult fly at 5 days after emergence from the pupa (mitotic recombination was induced at an early pupal stage).(1,2) Representative images of wings at 1 day after emergence for comparison. Labeled sensilla in the external branch (fork) of the wing margin and a ... |
PMC2405948_pone-0002395-g003_23421.jpg | What is the core subject represented in this visual? | Analysis of fluorescence in the anterior wing margin of the adult fly at 5 days after emergence from the pupa (mitotic recombination was induced at an early pupal stage).(1,2) Representative images of wings at 1 day after emergence for comparison. Labeled sensilla in the external branch (fork) of the wing margin and a ... |
PMC2405948_pone-0002395-g004_23410.jpg | What can you see in this picture? | Recombination induced at the adult emergence stage: time course analysis of fluorescence in the corresponding wing.Progenies of the A+B cross (see Materials and Methods) were heat-shocked after adult emergence and wings were analyzed for GFP fluorescence at the indicated times. (1) Control heat shock at t = 0. (2,3) 5 ... |
PMC2405948_pone-0002395-g004_23414.jpg | What is being portrayed in this visual content? | Recombination induced at the adult emergence stage: time course analysis of fluorescence in the corresponding wing.Progenies of the A+B cross (see Materials and Methods) were heat-shocked after adult emergence and wings were analyzed for GFP fluorescence at the indicated times. (1) Control heat shock at t = 0. (2,3) 5 ... |
PMC2405948_pone-0002395-g004_23409.jpg | What object or scene is depicted here? | Recombination induced at the adult emergence stage: time course analysis of fluorescence in the corresponding wing.Progenies of the A+B cross (see Materials and Methods) were heat-shocked after adult emergence and wings were analyzed for GFP fluorescence at the indicated times. (1) Control heat shock at t = 0. (2,3) 5 ... |
PMC2405948_pone-0002395-g004_23413.jpg | What is the core subject represented in this visual? | Recombination induced at the adult emergence stage: time course analysis of fluorescence in the corresponding wing.Progenies of the A+B cross (see Materials and Methods) were heat-shocked after adult emergence and wings were analyzed for GFP fluorescence at the indicated times. (1) Control heat shock at t = 0. (2,3) 5 ... |
PMC2405948_pone-0002395-g004_23411.jpg | What is the principal component of this image? | Recombination induced at the adult emergence stage: time course analysis of fluorescence in the corresponding wing.Progenies of the A+B cross (see Materials and Methods) were heat-shocked after adult emergence and wings were analyzed for GFP fluorescence at the indicated times. (1) Control heat shock at t = 0. (2,3) 5 ... |
PMC2405948_pone-0002395-g004_23412.jpg | What is the core subject represented in this visual? | Recombination induced at the adult emergence stage: time course analysis of fluorescence in the corresponding wing.Progenies of the A+B cross (see Materials and Methods) were heat-shocked after adult emergence and wings were analyzed for GFP fluorescence at the indicated times. (1) Control heat shock at t = 0. (2,3) 5 ... |
PMC2405948_pone-0002395-g010_23441.jpg | What is the focal point of this photograph? | Analysis of neurogenesis in the adult wing from larvae subjected to starvation conditions.Larvae were subjected to starvation conditions (pupae were harvested from a 1 month old vial of stock or alternatively early third instar larvae were placed on agar/water medium) and the emerged adults were placed in optimal food ... |
PMC2405948_pone-0002395-g010_23443.jpg | Can you identify the primary element in this image? | Analysis of neurogenesis in the adult wing from larvae subjected to starvation conditions.Larvae were subjected to starvation conditions (pupae were harvested from a 1 month old vial of stock or alternatively early third instar larvae were placed on agar/water medium) and the emerged adults were placed in optimal food ... |
PMC2405948_pone-0002395-g010_23442.jpg | What is the dominant medical problem in this image? | Analysis of neurogenesis in the adult wing from larvae subjected to starvation conditions.Larvae were subjected to starvation conditions (pupae were harvested from a 1 month old vial of stock or alternatively early third instar larvae were placed on agar/water medium) and the emerged adults were placed in optimal food ... |
PMC2405952_pgen-1000097-g003_23448.jpg | What is the principal component of this image? | Abnormal Synapses and Rotarod Defect in Bcl-w−/− Mice.(A) Electromicrographs of synapses in wild type, Bcl-w−/−, and Bcl-w−/−Grid2ho−4J(−/−) mice. Red arrows indicate the normal synapses, light blue arrows the defective synapses with thick postsynaptic density, dark blue arrowheads the synapses with mismatched pre- and... |
PMC2405952_pgen-1000097-g003_23447.jpg | Can you identify the primary element in this image? | Abnormal Synapses and Rotarod Defect in Bcl-w−/− Mice.(A) Electromicrographs of synapses in wild type, Bcl-w−/−, and Bcl-w−/−Grid2ho−4J(−/−) mice. Red arrows indicate the normal synapses, light blue arrows the defective synapses with thick postsynaptic density, dark blue arrowheads the synapses with mismatched pre- and... |
PMC2405952_pgen-1000097-g003_23446.jpg | What is shown in this image? | Abnormal Synapses and Rotarod Defect in Bcl-w−/− Mice.(A) Electromicrographs of synapses in wild type, Bcl-w−/−, and Bcl-w−/−Grid2ho−4J(−/−) mice. Red arrows indicate the normal synapses, light blue arrows the defective synapses with thick postsynaptic density, dark blue arrowheads the synapses with mismatched pre- and... |
PMC2408554_pgen-1000088-g005_23452.jpg | What does this image primarily show? | CRA-1 is Required for SC Central Region Formation.(A–H) High magnification images of nuclei from the transition zone and late pachytene in wild type and cra-1 mutants. DAPI-stained chromosomes are immunostained with anti-HTP-3 to observe the lateral element (A–D) and anti-SYP-1 to visualize central region formation of ... |
PMC2408554_pgen-1000088-g005_23456.jpg | What is the dominant medical problem in this image? | CRA-1 is Required for SC Central Region Formation.(A–H) High magnification images of nuclei from the transition zone and late pachytene in wild type and cra-1 mutants. DAPI-stained chromosomes are immunostained with anti-HTP-3 to observe the lateral element (A–D) and anti-SYP-1 to visualize central region formation of ... |
PMC2408554_pgen-1000088-g005_23455.jpg | What is being portrayed in this visual content? | CRA-1 is Required for SC Central Region Formation.(A–H) High magnification images of nuclei from the transition zone and late pachytene in wild type and cra-1 mutants. DAPI-stained chromosomes are immunostained with anti-HTP-3 to observe the lateral element (A–D) and anti-SYP-1 to visualize central region formation of ... |
PMC2408554_pgen-1000088-g005_23449.jpg | What is the main focus of this visual representation? | CRA-1 is Required for SC Central Region Formation.(A–H) High magnification images of nuclei from the transition zone and late pachytene in wild type and cra-1 mutants. DAPI-stained chromosomes are immunostained with anti-HTP-3 to observe the lateral element (A–D) and anti-SYP-1 to visualize central region formation of ... |
PMC2408554_pgen-1000088-g005_23454.jpg | What is shown in this image? | CRA-1 is Required for SC Central Region Formation.(A–H) High magnification images of nuclei from the transition zone and late pachytene in wild type and cra-1 mutants. DAPI-stained chromosomes are immunostained with anti-HTP-3 to observe the lateral element (A–D) and anti-SYP-1 to visualize central region formation of ... |
PMC2408554_pgen-1000088-g005_23453.jpg | What is the dominant medical problem in this image? | CRA-1 is Required for SC Central Region Formation.(A–H) High magnification images of nuclei from the transition zone and late pachytene in wild type and cra-1 mutants. DAPI-stained chromosomes are immunostained with anti-HTP-3 to observe the lateral element (A–D) and anti-SYP-1 to visualize central region formation of ... |
PMC2408554_pgen-1000088-g005_23450.jpg | What can you see in this picture? | CRA-1 is Required for SC Central Region Formation.(A–H) High magnification images of nuclei from the transition zone and late pachytene in wild type and cra-1 mutants. DAPI-stained chromosomes are immunostained with anti-HTP-3 to observe the lateral element (A–D) and anti-SYP-1 to visualize central region formation of ... |
PMC2408554_pgen-1000088-g005_23451.jpg | What object or scene is depicted here? | CRA-1 is Required for SC Central Region Formation.(A–H) High magnification images of nuclei from the transition zone and late pachytene in wild type and cra-1 mutants. DAPI-stained chromosomes are immunostained with anti-HTP-3 to observe the lateral element (A–D) and anti-SYP-1 to visualize central region formation of ... |
PMC2408554_pgen-1000088-g006_23461.jpg | What is the central feature of this picture? | A Low Frequency of Synapsis in cra-1 Mutants.(A–E) TEM images of late pachytene nuclei in wild type and cra-1 germlines. (A) Equatorial section of a wild type late pachytene nucleus. The large dark body slightly off-center is the nucleolus surrounded by SC stretches. The SC stretches are visible as faint zipper-like tr... |
PMC2408554_pgen-1000088-g006_23459.jpg | What is the core subject represented in this visual? | A Low Frequency of Synapsis in cra-1 Mutants.(A–E) TEM images of late pachytene nuclei in wild type and cra-1 germlines. (A) Equatorial section of a wild type late pachytene nucleus. The large dark body slightly off-center is the nucleolus surrounded by SC stretches. The SC stretches are visible as faint zipper-like tr... |
PMC2408554_pgen-1000088-g006_23462.jpg | What stands out most in this visual? | A Low Frequency of Synapsis in cra-1 Mutants.(A–E) TEM images of late pachytene nuclei in wild type and cra-1 germlines. (A) Equatorial section of a wild type late pachytene nucleus. The large dark body slightly off-center is the nucleolus surrounded by SC stretches. The SC stretches are visible as faint zipper-like tr... |
PMC2408554_pgen-1000088-g006_23460.jpg | What is the focal point of this photograph? | A Low Frequency of Synapsis in cra-1 Mutants.(A–E) TEM images of late pachytene nuclei in wild type and cra-1 germlines. (A) Equatorial section of a wild type late pachytene nucleus. The large dark body slightly off-center is the nucleolus surrounded by SC stretches. The SC stretches are visible as faint zipper-like tr... |
PMC2408554_pgen-1000088-g006_23457.jpg | What's the most prominent thing you notice in this picture? | A Low Frequency of Synapsis in cra-1 Mutants.(A–E) TEM images of late pachytene nuclei in wild type and cra-1 germlines. (A) Equatorial section of a wild type late pachytene nucleus. The large dark body slightly off-center is the nucleolus surrounded by SC stretches. The SC stretches are visible as faint zipper-like tr... |
PMC2408572_F1_23465.jpg | What is the principal component of this image? | Images of a right superior pulmonary vein stenosis (Reproduced with permission from ref. [14]): (a) Angiographic view of the high grade stenosis (arrow). (b) Balloon dilatation (arrow). (c) Result after dilatation and stenting. (d) Pre-interventional computed tomographic scanning of the stenosis (arrow), including infi... |
PMC2408572_F1_23467.jpg | What does this image primarily show? | Images of a right superior pulmonary vein stenosis (Reproduced with permission from ref. [14]): (a) Angiographic view of the high grade stenosis (arrow). (b) Balloon dilatation (arrow). (c) Result after dilatation and stenting. (d) Pre-interventional computed tomographic scanning of the stenosis (arrow), including infi... |
PMC2408572_F1_23466.jpg | What is being portrayed in this visual content? | Images of a right superior pulmonary vein stenosis (Reproduced with permission from ref. [14]): (a) Angiographic view of the high grade stenosis (arrow). (b) Balloon dilatation (arrow). (c) Result after dilatation and stenting. (d) Pre-interventional computed tomographic scanning of the stenosis (arrow), including infi... |
PMC2408572_F1_23469.jpg | What is the dominant medical problem in this image? | Images of a right superior pulmonary vein stenosis (Reproduced with permission from ref. [14]): (a) Angiographic view of the high grade stenosis (arrow). (b) Balloon dilatation (arrow). (c) Result after dilatation and stenting. (d) Pre-interventional computed tomographic scanning of the stenosis (arrow), including infi... |
PMC2408600_F1_23472.jpg | Can you identify the primary element in this image? | High resolution computed tomography (HR-CT) of the lung showing characteristics of fibrosis. (a) HR-CT at the level of the main carina. (b) HR-CT at the basal parts of the lungs 1 cm above the diaphragm. Inter- and intralobular septal thickening (IST), traction bronchiectasis (TB), honeycombing cysts (HC) and ground gl... |
PMC2408600_F1_23471.jpg | What is the principal component of this image? | High resolution computed tomography (HR-CT) of the lung showing characteristics of fibrosis. (a) HR-CT at the level of the main carina. (b) HR-CT at the basal parts of the lungs 1 cm above the diaphragm. Inter- and intralobular septal thickening (IST), traction bronchiectasis (TB), honeycombing cysts (HC) and ground gl... |
PMC2408640_fig04_23477.jpg | What is the focal point of this photograph? | Expression of the Pvf2-lacZ reporter gene in the ISCs/or enteroblasts of the adult midgut. (A–D) Pvf2-lacZ expression was detected in the Prospero-negative small cells in the adult midgut including two copies in the Pvf2-lacZ flies. a, DAPI (blue). B, anti-β-gal (green). C, anti-Prospero and anti-Armadillo (red). D, Ov... |
PMC2408640_fig04_23479.jpg | What is the central feature of this picture? | Expression of the Pvf2-lacZ reporter gene in the ISCs/or enteroblasts of the adult midgut. (A–D) Pvf2-lacZ expression was detected in the Prospero-negative small cells in the adult midgut including two copies in the Pvf2-lacZ flies. a, DAPI (blue). B, anti-β-gal (green). C, anti-Prospero and anti-Armadillo (red). D, Ov... |
PMC2408640_fig04_23480.jpg | What does this image primarily show? | Expression of the Pvf2-lacZ reporter gene in the ISCs/or enteroblasts of the adult midgut. (A–D) Pvf2-lacZ expression was detected in the Prospero-negative small cells in the adult midgut including two copies in the Pvf2-lacZ flies. a, DAPI (blue). B, anti-β-gal (green). C, anti-Prospero and anti-Armadillo (red). D, Ov... |
PMC2408640_fig04_23481.jpg | What is the core subject represented in this visual? | Expression of the Pvf2-lacZ reporter gene in the ISCs/or enteroblasts of the adult midgut. (A–D) Pvf2-lacZ expression was detected in the Prospero-negative small cells in the adult midgut including two copies in the Pvf2-lacZ flies. a, DAPI (blue). B, anti-β-gal (green). C, anti-Prospero and anti-Armadillo (red). D, Ov... |
PMC2408640_fig04_23474.jpg | What is being portrayed in this visual content? | Expression of the Pvf2-lacZ reporter gene in the ISCs/or enteroblasts of the adult midgut. (A–D) Pvf2-lacZ expression was detected in the Prospero-negative small cells in the adult midgut including two copies in the Pvf2-lacZ flies. a, DAPI (blue). B, anti-β-gal (green). C, anti-Prospero and anti-Armadillo (red). D, Ov... |
PMC2408643_fig02_23483.jpg | What does this image primarily show? | Real-time US using 13-MHZ linear probe; sonographic longitudinal section of the distal interphalangeal joint showed well-defined thickness of the nail matrix and nail bed, with slight eye catching signal at power Doppler, together with superficial soft tissue thickening at the distal phalanx. |
PMC2408645_fig05_23484.jpg | What is the main focus of this visual representation? | Production of endo-N in uninduced and induced EV36 harbouring pRep4 and pEndo-N. Bacteria (20 ml) were grown to early stationary phase with appropriate drugs and pelleted by centrifugation. The pellets were washed in phosphate-buffered saline (PBS), re-suspended in PBS to final volume of 0.5 ml and disrupted by sonicat... |
PMC2408650_fig04_23487.jpg | What's the most prominent thing you notice in this picture? | Expression of Leishmania chitinase in sand flies causes pathology to the stomodeal valve. Electron micrographs of stomodeal valves from: (A) uninfected sand flies, (B) wild-type, (C) plasmid control and (D and E) chitinase-overexpressing L. mexicana- infected sand flies. The position of filamentous structures in the st... |
PMC2408650_fig04_23489.jpg | What is the dominant medical problem in this image? | Expression of Leishmania chitinase in sand flies causes pathology to the stomodeal valve. Electron micrographs of stomodeal valves from: (A) uninfected sand flies, (B) wild-type, (C) plasmid control and (D and E) chitinase-overexpressing L. mexicana- infected sand flies. The position of filamentous structures in the st... |
PMC2408650_fig04_23488.jpg | What is the dominant medical problem in this image? | Expression of Leishmania chitinase in sand flies causes pathology to the stomodeal valve. Electron micrographs of stomodeal valves from: (A) uninfected sand flies, (B) wild-type, (C) plasmid control and (D and E) chitinase-overexpressing L. mexicana- infected sand flies. The position of filamentous structures in the st... |
PMC2408650_fig04_23486.jpg | What can you see in this picture? | Expression of Leishmania chitinase in sand flies causes pathology to the stomodeal valve. Electron micrographs of stomodeal valves from: (A) uninfected sand flies, (B) wild-type, (C) plasmid control and (D and E) chitinase-overexpressing L. mexicana- infected sand flies. The position of filamentous structures in the st... |
PMC2408650_fig04_23485.jpg | What's the most prominent thing you notice in this picture? | Expression of Leishmania chitinase in sand flies causes pathology to the stomodeal valve. Electron micrographs of stomodeal valves from: (A) uninfected sand flies, (B) wild-type, (C) plasmid control and (D and E) chitinase-overexpressing L. mexicana- infected sand flies. The position of filamentous structures in the st... |
PMC2408660_fig02_23497.jpg | What is being portrayed in this visual content? | MinD spirals in B. subtilis. Visualization of GFP–MinD (green) signals in strain IB1060 (A) and MinD immunofluorescence (green) signals in strain IB1062 (B) by fluorescence microscopy. A shows the localization of GFP fused to MinD in strain IB1060 after gfp-minD induction with 0.1% xylose while C shows the GFP (green) ... |
PMC2408660_fig02_23498.jpg | What is shown in this image? | MinD spirals in B. subtilis. Visualization of GFP–MinD (green) signals in strain IB1060 (A) and MinD immunofluorescence (green) signals in strain IB1062 (B) by fluorescence microscopy. A shows the localization of GFP fused to MinD in strain IB1060 after gfp-minD induction with 0.1% xylose while C shows the GFP (green) ... |
PMC2408660_fig02_23495.jpg | What is being portrayed in this visual content? | MinD spirals in B. subtilis. Visualization of GFP–MinD (green) signals in strain IB1060 (A) and MinD immunofluorescence (green) signals in strain IB1062 (B) by fluorescence microscopy. A shows the localization of GFP fused to MinD in strain IB1060 after gfp-minD induction with 0.1% xylose while C shows the GFP (green) ... |
PMC2408660_fig02_23501.jpg | What is the principal component of this image? | MinD spirals in B. subtilis. Visualization of GFP–MinD (green) signals in strain IB1060 (A) and MinD immunofluorescence (green) signals in strain IB1062 (B) by fluorescence microscopy. A shows the localization of GFP fused to MinD in strain IB1060 after gfp-minD induction with 0.1% xylose while C shows the GFP (green) ... |
PMC2408660_fig02_23499.jpg | What is the main focus of this visual representation? | MinD spirals in B. subtilis. Visualization of GFP–MinD (green) signals in strain IB1060 (A) and MinD immunofluorescence (green) signals in strain IB1062 (B) by fluorescence microscopy. A shows the localization of GFP fused to MinD in strain IB1060 after gfp-minD induction with 0.1% xylose while C shows the GFP (green) ... |
PMC2408660_fig05_23490.jpg | Can you identify the primary element in this image? | Dependence of lipid and GFP–MinD spiral formation on the presence of negatively charged lipids. A and B show FM 4-64 fluorescence signals for BFA2809 cells grown in the presence (A) or absence (B) of 100 μM IPTG. Images C and D are visualizations of GFP–MinD in IB1061 cells after gfp–minD induction with 0.1% xylose and... |
PMC2408660_fig05_23493.jpg | What's the most prominent thing you notice in this picture? | Dependence of lipid and GFP–MinD spiral formation on the presence of negatively charged lipids. A and B show FM 4-64 fluorescence signals for BFA2809 cells grown in the presence (A) or absence (B) of 100 μM IPTG. Images C and D are visualizations of GFP–MinD in IB1061 cells after gfp–minD induction with 0.1% xylose and... |
PMC2408660_fig05_23491.jpg | Can you identify the primary element in this image? | Dependence of lipid and GFP–MinD spiral formation on the presence of negatively charged lipids. A and B show FM 4-64 fluorescence signals for BFA2809 cells grown in the presence (A) or absence (B) of 100 μM IPTG. Images C and D are visualizations of GFP–MinD in IB1061 cells after gfp–minD induction with 0.1% xylose and... |
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