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<Instruct>: Given the context 'ICSBP is essential for the development of mouse type I interferon-producing cells and for the generation and activation of CD8alpha(+) dendritic cells.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: ilbp (homo sapiens) (aka fatty acid binding protein 6)
B: ilbp (mus musculus) (aka fatty acid binding protein 6)
C: icsbp (homo sapiens) (aka interferon regulatory factor 8)
D: icsbp1 (mus musculus) (aka interferon regulatory factor 8)
E: icsbp (rattus norvegicus) (aka interferon regulatory factor 8)
F: None of the above. | D |
<Instruct>: Given the context 'ICSBP is essential for the development of mouse type I interferon-producing cells and for the generation and activation of CD8alpha(+) dendritic cells.', select the correct biomedical concept corresponding to 'type i interferon'. Answer using one of the provided options. | <Options>: A: interferon, type 1, cluster (homo sapiens) (aka interferon, type 1, cluster)
B: ifnb1 (mus musculus) (aka interferon beta 1, fibroblast)
C: ifnb1 (homo sapiens) (aka interferon beta 1)
D: ifna (mus musculus) (aka interferon alpha complex region)
E: interferon alpha 1 (homo sapiens) (aka interferon alpha 1)
F: None of the above. | B |
<Instruct>: Given the context 'ICSBP is essential for the development of mouse type I interferon-producing cells and for the generation and activation of CD8alpha(+) dendritic cells.', select the correct biomedical concept corresponding to 'cd8alpha'. Answer using one of the provided options. | <Options>: A: cd8 (homo sapiens) (aka cd8 subunit alpha)
B: cd8 subunit beta (homo sapiens) (aka cd8 subunit beta)
C: cd8a (rattus norvegicus) (aka cd8 subunit alpha)
D: cd8 subunit alpha (mus musculus) (aka cd8 subunit alpha)
E: cd8b1 (mus musculus) (aka cd8 subunit beta 1)
F: None of the above. | D |
<Instruct>: Given the context 'Interferon (IFN) consensus sequence-binding protein (ICSBP) is a transcription factor playing a critical role in the regulation of lineage commitment, especially in myeloid cell differentiation.', select the correct biomedical concept corresponding to 'interferon (ifn) consensus sequence-binding protein'. Answer using one of the provided options. | <Options>: A: icsbp1 (rattus norvegicus) (aka interferon regulatory factor 8)
B: sine oculis binding protein (mus musculus) (aka sine oculis binding protein)
C: ns1bp (homo sapiens) (aka influenza virus ns1a binding protein)
D: icsbp1 (mus musculus) (aka interferon regulatory factor 8)
E: cold inducible rna binding protein (mus musculus) (aka cold inducible rna binding protein)
F: None of the above. | D |
<Instruct>: Given the context 'Interferon (IFN) consensus sequence-binding protein (ICSBP) is a transcription factor playing a critical role in the regulation of lineage commitment, especially in myeloid cell differentiation.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: icsbp1 (homo sapiens) (aka interferon regulatory factor 8)
B: icsbp (rattus norvegicus) (aka interferon regulatory factor 8)
C: icsbp1 (mus musculus) (aka interferon regulatory factor 8)
D: illbp (mus musculus) (aka fatty acid binding protein 6)
E: ilbp (homo sapiens) (aka fatty acid binding protein 6)
F: None of the above. | C |
<Instruct>: Given the context 'Interferon (IFN) consensus sequence-binding protein (ICSBP) is a transcription factor playing a critical role in the regulation of lineage commitment, especially in myeloid cell differentiation.', select the correct biomedical concept corresponding to 'transcription factor'. Answer using one of the provided options. | <Options>: A: tcf1 (mus musculus) (hnf1 homeobox a (mus musculus)) (aka hnf1 homeobox a)
B: tcf1 (mus musculus) (transcription factor 7, t cell specific (mus musculus)) (aka transcription factor 7, t cell specific)
C: tcf2 (homo sapiens) (aka hnf1 homeobox b)
D: tcf-1 (homo sapiens) (transcription factor 7 (homo sapiens)) (aka transcription factor 7)
E: tcf (homo sapiens) (aka hepatocyte nuclear factor 4 alpha)
F: None of the above. | F |
<Instruct>: Given the context 'In this study, we have characterized the phenotype and activation pattern of subsets of dendritic cells (DCs) in ICSBP(-/-) mice.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: icsbp1 (mus musculus) (aka interferon regulatory factor 8)
B: icsbp (rattus norvegicus) (aka interferon regulatory factor 8)
C: illbp (mus musculus) (aka fatty acid binding protein 6)
D: ilbp (homo sapiens) (aka fatty acid binding protein 6)
E: h-icsbp (homo sapiens) (aka interferon regulatory factor 8)
F: None of the above. | A |
<Instruct>: Given the context 'Remarkably, the recently identified mouse IFN-producing cells (mIPCs) were absent in all lymphoid organs from ICSBP(-/-) mice, as revealed by lack of CD11c(low)B220(+)Ly6C(+)CD11b(-) cells.', select the correct biomedical concept corresponding to 'ifn'. Answer using one of the provided options. | <Options>: A: interferon kappa (homo sapiens) (aka interferon kappa)
B: ifna (mus musculus) (aka interferon alpha complex region)
C: ifng (mus musculus) (aka interferon gamma)
D: ifnaa (mus musculus) (aka interferon alpha 15)
E: ifn (homo sapiens) (aka interferon alpha 1)
F: None of the above. | C |
<Instruct>: Given the context 'Remarkably, the recently identified mouse IFN-producing cells (mIPCs) were absent in all lymphoid organs from ICSBP(-/-) mice, as revealed by lack of CD11c(low)B220(+)Ly6C(+)CD11b(-) cells.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: ilbp (mus musculus) (aka fatty acid binding protein 6)
B: ilbp (homo sapiens) (aka fatty acid binding protein 6)
C: icsbp1 (rattus norvegicus) (aka interferon regulatory factor 8)
D: icsbp (mus musculus) (aka interferon regulatory factor 8)
E: h-icsbp (homo sapiens) (aka interferon regulatory factor 8)
F: None of the above. | D |
<Instruct>: Given the context 'Remarkably, the recently identified mouse IFN-producing cells (mIPCs) were absent in all lymphoid organs from ICSBP(-/-) mice, as revealed by lack of CD11c(low)B220(+)Ly6C(+)CD11b(-) cells.', select the correct biomedical concept corresponding to 'cd11c'. Answer using one of the provided options. | <Options>: A: cd64 (mus musculus) (aka fc receptor, igg, high affinity i)
B: cd103 (homo sapiens) (aka integrin subunit alpha e)
C: cd103 (mus musculus) (aka integrin alpha e, epithelial-associated)
D: cd11c (mus musculus) (aka integrin alpha x)
E: cd14 (mus musculus) (aka cd14 antigen)
F: None of the above. | D |
<Instruct>: Given the context 'Remarkably, the recently identified mouse IFN-producing cells (mIPCs) were absent in all lymphoid organs from ICSBP(-/-) mice, as revealed by lack of CD11c(low)B220(+)Ly6C(+)CD11b(-) cells.', select the correct biomedical concept corresponding to 'cd11c'. Answer using one of the provided options. | <Options>: A: cd1 (mus musculus) (cd1 antigen complex (mus musculus)) (aka cd1 antigen complex)
B: cd11b (homo sapiens) (aka integrin subunit alpha m)
C: cd11c (homo sapiens) (aka integrin subunit alpha x)
D: cd103 (mus musculus) (aka integrin alpha e, epithelial-associated)
E: cd103 (homo sapiens) (aka integrin subunit alpha e)
F: None of the above. | F |
<Instruct>: Given the context 'Remarkably, the recently identified mouse IFN-producing cells (mIPCs) were absent in all lymphoid organs from ICSBP(-/-) mice, as revealed by lack of CD11c(low)B220(+)Ly6C(+)CD11b(-) cells.', select the correct biomedical concept corresponding to 'b220'. Answer using one of the provided options. | <Options>: A: cd20 (mus musculus) (aka membrane-spanning 4-domains, subfamily a, member 1)
B: cd79a (homo sapiens) (aka cd79a molecule)
C: cd79a antigen (immunoglobulin-associated alpha) (mus musculus) (aka cd79a antigen (immunoglobulin-associated alpha))
D: cd45r (homo sapiens) (aka protein tyrosine phosphatase receptor type c)
E: b220 (mus musculus) (aka protein tyrosine phosphatase receptor type c)
F: None of the above. | E |
<Instruct>: Given the context 'Remarkably, the recently identified mouse IFN-producing cells (mIPCs) were absent in all lymphoid organs from ICSBP(-/-) mice, as revealed by lack of CD11c(low)B220(+)Ly6C(+)CD11b(-) cells.', select the correct biomedical concept corresponding to 'ly6c'. Answer using one of the provided options. | <Options>: A: ly6c (mus musculus) (aka lymphocyte antigen 6 family member c1)
B: cd1c (homo sapiens) (aka cd1c molecule)
C: ly6 (mus musculus) (aka lymphocyte antigen 6 complex)
D: ly6c (rattus norvegicus) (aka ly6-c antigen)
E: ly67 (mus musculus) (aka lymphocyte antigen 6 family member e)
F: None of the above. | A |
<Instruct>: Given the context 'Remarkably, the recently identified mouse IFN-producing cells (mIPCs) were absent in all lymphoid organs from ICSBP(-/-) mice, as revealed by lack of CD11c(low)B220(+)Ly6C(+)CD11b(-) cells.', select the correct biomedical concept corresponding to 'cd11b'. Answer using one of the provided options. | <Options>: A: mac-1 (homo sapiens) (integrin subunit beta 2 (homo sapiens)) (aka integrin subunit beta 2)
B: cd11b (ovis aries) (aka integrin subunit alpha m)
C: cd11b/cd18 (mus musculus) (aka integrin alpha m)
D: cd11b (danio rerio) (aka integrin, alpha m (complement component 3 receptor 3 subunit), tandem duplicate 1)
E: cd11b (homo sapiens) (aka integrin subunit alpha m)
F: None of the above. | C |
<Instruct>: Given the context 'In parallel, CD11c(+) cells isolated from ICSBP(-/-) spleens were unable to produce type I IFNs in response to viral stimulation.', select the correct biomedical concept corresponding to 'cd11c'. Answer using one of the provided options. | <Options>: A: cd11c (mus musculus) (aka integrin alpha x)
B: cd1 (mus musculus) (cd1 antigen complex (mus musculus)) (aka cd1 antigen complex)
C: cd11b (homo sapiens) (aka integrin subunit alpha m)
D: cd103 (homo sapiens) (aka integrin subunit alpha e)
E: cd11b (mus musculus) (aka integrin alpha m)
F: None of the above. | A |
<Instruct>: Given the context 'In parallel, CD11c(+) cells isolated from ICSBP(-/-) spleens were unable to produce type I IFNs in response to viral stimulation.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: illbp (mus musculus) (aka fatty acid binding protein 6)
B: icsbp1 (rattus norvegicus) (aka interferon regulatory factor 8)
C: h-icsbp (homo sapiens) (aka interferon regulatory factor 8)
D: ilbp (homo sapiens) (aka fatty acid binding protein 6)
E: icsbp1 (mus musculus) (aka interferon regulatory factor 8)
F: None of the above. | E |
<Instruct>: Given the context 'In parallel, CD11c(+) cells isolated from ICSBP(-/-) spleens were unable to produce type I IFNs in response to viral stimulation.', select the correct biomedical concept corresponding to 'type i ifns'. Answer using one of the provided options. | <Options>: A: ifng (homo sapiens) (aka interferon gamma)
B: stat1 (mus musculus) (aka signal transducer and activator of transcription 1)
C: stat1 (homo sapiens) (aka signal transducer and activator of transcription 1)
D: ifnb1 (mus musculus) (aka interferon beta 1, fibroblast)
E: ifng (mus musculus) (aka interferon gamma)
F: None of the above. | D |
<Instruct>: Given the context 'ICSBP(-/-) mice also displayed a marked reduction of the DC subset expressing the CD8alpha marker (CD8alpha(+) DCs) in spleen, lymph nodes, and thymus.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: icsbp1 (mus musculus) (aka interferon regulatory factor 8)
B: icsbp1 (rattus norvegicus) (aka interferon regulatory factor 8)
C: ilbp (mus musculus) (aka fatty acid binding protein 6)
D: ilbp (homo sapiens) (aka fatty acid binding protein 6)
E: icsbp (homo sapiens) (aka interferon regulatory factor 8)
F: None of the above. | A |
<Instruct>: Given the context 'ICSBP(-/-) mice also displayed a marked reduction of the DC subset expressing the CD8alpha marker (CD8alpha(+) DCs) in spleen, lymph nodes, and thymus.', select the correct biomedical concept corresponding to 'cd8alpha'. Answer using one of the provided options. | <Options>: A: cd8 subunit beta (homo sapiens) (aka cd8 subunit beta)
B: cd8b1 (mus musculus) (aka cd8 subunit beta 1)
C: cd8 subunit alpha (homo sapiens) (aka cd8 subunit alpha)
D: cd8a (mus musculus) (aka cd8 subunit alpha)
E: cd8 subunit alpha (rattus norvegicus) (aka cd8 subunit alpha)
F: None of the above. | D |
<Instruct>: Given the context 'ICSBP(-/-) mice also displayed a marked reduction of the DC subset expressing the CD8alpha marker (CD8alpha(+) DCs) in spleen, lymph nodes, and thymus.', select the correct biomedical concept corresponding to 'cd8alpha'. Answer using one of the provided options. | <Options>: A: cd8 subunit beta (homo sapiens) (aka cd8 subunit beta)
B: cd8b1 (mus musculus) (aka cd8 subunit beta 1)
C: cd8a (rattus norvegicus) (aka cd8 subunit alpha)
D: cd8 subunit alpha (homo sapiens) (aka cd8 subunit alpha)
E: cd8 subunit alpha (mus musculus) (aka cd8 subunit alpha)
F: None of the above. | E |
<Instruct>: Given the context 'Moreover, ICSBP(-/-) CD8alpha(+) DCs exhibited a markedly impaired phenotype when compared with WT DCs.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: icsbp1 (mus musculus) (aka interferon regulatory factor 8)
B: ilbp (homo sapiens) (aka fatty acid binding protein 6)
C: icsbp1 (homo sapiens) (aka interferon regulatory factor 8)
D: ilbp (mus musculus) (aka fatty acid binding protein 6)
E: icsbp (rattus norvegicus) (aka interferon regulatory factor 8)
F: None of the above. | A |
<Instruct>: Given the context 'Moreover, ICSBP(-/-) CD8alpha(+) DCs exhibited a markedly impaired phenotype when compared with WT DCs.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: icsbp1 (rattus norvegicus) (aka interferon regulatory factor 8)
B: ilbp (homo sapiens) (aka fatty acid binding protein 6)
C: illbp (mus musculus) (aka fatty acid binding protein 6)
D: icsbp (homo sapiens) (aka interferon regulatory factor 8)
E: None of the above. | E |
<Instruct>: Given the context 'Moreover, ICSBP(-/-) CD8alpha(+) DCs exhibited a markedly impaired phenotype when compared with WT DCs.', select the correct biomedical concept corresponding to 'cd8alpha'. Answer using one of the provided options. | <Options>: A: cd8 subunit alpha (rattus norvegicus) (aka cd8 subunit alpha)
B: cd8b1 (mus musculus) (aka cd8 subunit beta 1)
C: cd8 subunit beta (homo sapiens) (aka cd8 subunit beta)
D: cd8 subunit alpha (homo sapiens) (aka cd8 subunit alpha)
E: cd8 subunit alpha (mus musculus) (aka cd8 subunit alpha)
F: None of the above. | E |
<Instruct>: Given the context 'They expressed very low levels of costimulatory molecules (intercellular adhesion molecule [ICAM]-1, CD40, CD80, CD86) and of the T cell area-homing chemokine receptor CCR7, whereas they showed higher levels of CCR2 and CCR6, as revealed by reverse transcription PCR.', select the correct biomedical concept corresponding to 'intercellular adhesion molecule [icam]-1'. Answer using one of the provided options. | <Options>: A: cd51 (mus musculus) (aka integrin alpha v)
B: icam1 (rattus norvegicus) (aka intercellular adhesion molecule 1)
C: cd51 (homo sapiens) (aka integrin subunit alpha v)
D: intercellular adhesion molecule 1 (mus musculus) (aka intercellular adhesion molecule 1)
E: icam1 (homo sapiens) (aka intercellular adhesion molecule 1)
F: None of the above. | D |
<Instruct>: Given the context 'They expressed very low levels of costimulatory molecules (intercellular adhesion molecule [ICAM]-1, CD40, CD80, CD86) and of the T cell area-homing chemokine receptor CCR7, whereas they showed higher levels of CCR2 and CCR6, as revealed by reverse transcription PCR.', select the correct biomedical concept corresponding to 'cd40'. Answer using one of the provided options. | <Options>: A: cd40 (rattus norvegicus) (aka cd40 molecule)
B: cd40 antigen (mus musculus) (aka cd40 antigen)
C: cd40l (homo sapiens) (aka cd40 ligand)
D: cd40l (mus musculus) (aka cd40 ligand)
E: cd40 molecule (homo sapiens) (aka cd40 molecule)
F: None of the above. | B |
<Instruct>: Given the context 'They expressed very low levels of costimulatory molecules (intercellular adhesion molecule [ICAM]-1, CD40, CD80, CD86) and of the T cell area-homing chemokine receptor CCR7, whereas they showed higher levels of CCR2 and CCR6, as revealed by reverse transcription PCR.', select the correct biomedical concept corresponding to 'cd80'. Answer using one of the provided options. | <Options>: A: cd80 (mus musculus) (aka cd80 antigen)
B: cd86 (homo sapiens) (aka cd86 molecule)
C: cd86 (mus musculus) (aka cd86 antigen)
D: cd80 (rattus norvegicus) (aka cd80 molecule)
E: cd80 (homo sapiens) (aka cd80 molecule)
F: None of the above. | A |
<Instruct>: Given the context 'They expressed very low levels of costimulatory molecules (intercellular adhesion molecule [ICAM]-1, CD40, CD80, CD86) and of the T cell area-homing chemokine receptor CCR7, whereas they showed higher levels of CCR2 and CCR6, as revealed by reverse transcription PCR.', select the correct biomedical concept corresponding to 'cd86'. Answer using one of the provided options. | <Options>: A: cd80 (mus musculus) (aka cd80 antigen)
B: cd86 (homo sapiens) (aka cd86 molecule)
C: cd86 expression in activated macrophages (mus musculus) (aka cd86 expression in activated macrophages)
D: cd86 (mus musculus) (aka cd86 antigen)
E: cd86 (rattus norvegicus) (aka cd86 molecule)
F: None of the above. | D |
<Instruct>: Given the context 'They expressed very low levels of costimulatory molecules (intercellular adhesion molecule [ICAM]-1, CD40, CD80, CD86) and of the T cell area-homing chemokine receptor CCR7, whereas they showed higher levels of CCR2 and CCR6, as revealed by reverse transcription PCR.', select the correct biomedical concept corresponding to 'ccr7'. Answer using one of the provided options. | <Options>: A: ccr2 (homo sapiens) (aka c-c motif chemokine receptor 2)
B: cxcr7 (mus musculus) (aka atypical chemokine receptor 3)
C: ccr7 (homo sapiens) (aka c-c motif chemokine receptor 7)
D: ccr7 (mus musculus) (aka c-c motif chemokine receptor 7)
E: cxcr7 (homo sapiens) (aka atypical chemokine receptor 3)
F: None of the above. | D |
<Instruct>: Given the context 'They expressed very low levels of costimulatory molecules (intercellular adhesion molecule [ICAM]-1, CD40, CD80, CD86) and of the T cell area-homing chemokine receptor CCR7, whereas they showed higher levels of CCR2 and CCR6, as revealed by reverse transcription PCR.', select the correct biomedical concept corresponding to 'ccr2'. Answer using one of the provided options. | <Options>: A: ccr5 (mus musculus) (aka c-c motif chemokine receptor 5)
B: ccr5 (homo sapiens) (aka c-c motif chemokine receptor 5)
C: ccr2 (mus musculus) (aka c-c motif chemokine receptor 2)
D: ccr2 (rattus norvegicus) (aka c-c motif chemokine receptor 2)
E: c-c motif chemokine receptor 2 (homo sapiens) (aka c-c motif chemokine receptor 2)
F: None of the above. | C |
<Instruct>: Given the context 'They expressed very low levels of costimulatory molecules (intercellular adhesion molecule [ICAM]-1, CD40, CD80, CD86) and of the T cell area-homing chemokine receptor CCR7, whereas they showed higher levels of CCR2 and CCR6, as revealed by reverse transcription PCR.', select the correct biomedical concept corresponding to 'ccr6'. Answer using one of the provided options. | <Options>: A: ccr-6 (homo sapiens) (aka c-c motif chemokine receptor 6)
B: c-c motif chemokine receptor 6 (mus musculus) (aka c-c motif chemokine receptor 6)
C: cxcr6 (homo sapiens) (aka c-x-c motif chemokine receptor 6)
D: c-c motif chemokine receptor 6 (rattus norvegicus) (aka c-c motif chemokine receptor 6)
E: c-x-c motif chemokine receptor 6 (mus musculus) (aka c-x-c motif chemokine receptor 6)
F: None of the above. | B |
<Instruct>: Given the context 'In addition, these cells were unable to undergo full phenotypic activation upon in vitro culture in presence of maturation stimuli such as lipopolysaccharide or poly (I:C), which paralleled with lack of Toll-like receptor (TLR)3 mRNA expression.', select the correct biomedical concept corresponding to 'toll-like receptor (tlr)3'. Answer using one of the provided options. | <Options>: A: toll3 (drosophila melanogaster) (aka mstprox)
B: toll-like receptor 3 (mus musculus) (aka toll-like receptor 3)
C: toll-like receptor 3 (rattus norvegicus) (aka toll-like receptor 3)
D: toll like receptor 3 (homo sapiens) (aka toll like receptor 3)
E: toll-like receptor 3 (danio rerio) (aka toll-like receptor 3)
F: None of the above. | B |
<Instruct>: Given the context 'Finally, cytokine expression pattern was also altered in ICSBP(-/-)', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: icsbp1 (rattus norvegicus) (aka interferon regulatory factor 8)
B: icsbp1 (homo sapiens) (aka interferon regulatory factor 8)
C: icsbp1 (mus musculus) (aka interferon regulatory factor 8)
D: ilbp (homo sapiens) (aka fatty acid binding protein 6)
E: illbp (mus musculus) (aka fatty acid binding protein 6)
F: None of the above. | C |
<Instruct>: Given the context 'Finally, cytokine expression pattern was also altered in ICSBP(-/-)', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: h-icsbp (homo sapiens) (aka interferon regulatory factor 8)
B: ilbp (mus musculus) (aka fatty acid binding protein 6)
C: icsbp1 (rattus norvegicus) (aka interferon regulatory factor 8)
D: ilbp (homo sapiens) (aka fatty acid binding protein 6)
E: None of the above. | E |
<Instruct>: Given the context 'DCs, as they did not express interleukin (IL)-12p40 or IL-15, but they displayed detectable IL-4 mRNA levels.', select the correct biomedical concept corresponding to 'interleukin (il)-12p40'. Answer using one of the provided options. | <Options>: A: interleukin 12b (homo sapiens) (aka interleukin 12b)
B: interleukin 12b (mus musculus) (aka interleukin 12b)
C: interleukin 12a (mus musculus) (aka interleukin 12a)
D: il-12a (homo sapiens) (aka interleukin 12a)
E: None of the above. | B |
<Instruct>: Given the context 'DCs, as they did not express interleukin (IL)-12p40 or IL-15, but they displayed detectable IL-4 mRNA levels.', select the correct biomedical concept corresponding to 'il-15'. Answer using one of the provided options. | <Options>: A: interleukin 15 (cricetulus griseus) (aka interleukin 15)
B: interleukin 15 (mus musculus) (aka interleukin 15)
C: interleukin 15 (ovis aries) (aka interleukin 15)
D: interleukin 15 (rattus norvegicus) (aka interleukin 15)
E: il5 (homo sapiens) (aka interleukin 5)
F: None of the above. | B |
<Instruct>: Given the context 'DCs, as they did not express interleukin (IL)-12p40 or IL-15, but they displayed detectable IL-4 mRNA levels.', select the correct biomedical concept corresponding to 'il-4'. Answer using one of the provided options. | <Options>: A: interleukin 4 (rattus norvegicus) (aka interleukin 4)
B: il-4 (homo sapiens) (aka interleukin 4)
C: interleukin 4 (mus musculus) (aka interleukin 4)
D: interleukin 4 (ovis aries) (aka interleukin 4)
E: None of the above. | C |
<Instruct>: Given the context 'On the whole, these results indicate that ICSBP is a crucial factor in the regulation of two possibly linked processes: (a) the development and activity of mIPCs, whose lack in ICSBP(-/-) mice may explain their high susceptibility to virus infections; (b) the generation and activation of CD8alpha(+) DCs, whose impairment in ICSBP(-/-) mice can be responsible for the defective generation of a Th1 type of immune response.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: illbp (mus musculus) (aka fatty acid binding protein 6)
B: icsbp (mus musculus) (aka interferon regulatory factor 8)
C: icsbp1 (rattus norvegicus) (aka interferon regulatory factor 8)
D: ilbp (homo sapiens) (aka fatty acid binding protein 6)
E: icsbp1 (homo sapiens) (aka interferon regulatory factor 8)
F: None of the above. | B |
<Instruct>: Given the context 'On the whole, these results indicate that ICSBP is a crucial factor in the regulation of two possibly linked processes: (a) the development and activity of mIPCs, whose lack in ICSBP(-/-) mice may explain their high susceptibility to virus infections; (b) the generation and activation of CD8alpha(+) DCs, whose impairment in ICSBP(-/-) mice can be responsible for the defective generation of a Th1 type of immune response.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: ilbp (homo sapiens) (aka fatty acid binding protein 6)
B: icsbp (rattus norvegicus) (aka interferon regulatory factor 8)
C: icsbp (mus musculus) (aka interferon regulatory factor 8)
D: h-icsbp (homo sapiens) (aka interferon regulatory factor 8)
E: illbp (mus musculus) (aka fatty acid binding protein 6)
F: None of the above. | C |
<Instruct>: Given the context 'On the whole, these results indicate that ICSBP is a crucial factor in the regulation of two possibly linked processes: (a) the development and activity of mIPCs, whose lack in ICSBP(-/-) mice may explain their high susceptibility to virus infections; (b) the generation and activation of CD8alpha(+) DCs, whose impairment in ICSBP(-/-) mice can be responsible for the defective generation of a Th1 type of immune response.', select the correct biomedical concept corresponding to 'cd8alpha'. Answer using one of the provided options. | <Options>: A: cd8 subunit alpha (mus musculus) (aka cd8 subunit alpha)
B: cd8 subunit beta (homo sapiens) (aka cd8 subunit beta)
C: cd8b1 (mus musculus) (aka cd8 subunit beta 1)
D: cd8a (rattus norvegicus) (aka cd8 subunit alpha)
E: cd8 (homo sapiens) (aka cd8 subunit alpha)
F: None of the above. | A |
<Instruct>: Given the context 'On the whole, these results indicate that ICSBP is a crucial factor in the regulation of two possibly linked processes: (a) the development and activity of mIPCs, whose lack in ICSBP(-/-) mice may explain their high susceptibility to virus infections; (b) the generation and activation of CD8alpha(+) DCs, whose impairment in ICSBP(-/-) mice can be responsible for the defective generation of a Th1 type of immune response.', select the correct biomedical concept corresponding to 'icsbp'. Answer using one of the provided options. | <Options>: A: h-icsbp (homo sapiens) (aka interferon regulatory factor 8)
B: icsbp (mus musculus) (aka interferon regulatory factor 8)
C: ilbp (homo sapiens) (aka fatty acid binding protein 6)
D: illbp (mus musculus) (aka fatty acid binding protein 6)
E: icsbp1 (rattus norvegicus) (aka interferon regulatory factor 8)
F: None of the above. | B |
<Instruct>: Given the context 'Sarco(endo)plasmic reticulum Ca2+-ATPase-2 gene: structure and transcriptional regulation of the human gene.', select the correct biomedical concept corresponding to 'sarco(endo)plasmic reticulum ca2+-atpase-2'. Answer using one of the provided options. | <Options>: A: atpase, ca++ transporting, plasma membrane 2 (mus musculus) (aka atpase, ca++ transporting, plasma membrane 2)
B: atpase secretory pathway ca2+ transporting 2 (rattus norvegicus) (aka atpase secretory pathway ca2+ transporting 2)
C: atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2 (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
D: serca2 (rattus norvegicus) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
E: serca2 (mus musculus) (aka atpase, ca++ transporting, cardiac muscle, slow twitch 2)
F: None of the above. | C |
<Instruct>: Given the context 'The sarco(endo)plasmic reticulum Ca2+-ATPases (SERCAs) belong to a family of active calcium transport enzymes encoded by the SERCA1, 2, and 3 genes.', select the correct biomedical concept corresponding to 'serca1, 2, and 3'. Answer using one of the provided options. | <Options>: A: atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 1 (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 1)
B: serca3 (mus musculus) (aka atpase, ca++ transporting, ubiquitous)
C: serca1 (mus musculus) (aka atpase, ca++ transporting, cardiac muscle, fast twitch 1)
D: serca2 (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
E: serca1 (rattus norvegicus) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 1)
F: None of the above. | A |
<Instruct>: Given the context 'In this study, we describe the complete structure of the human SERCA2 gene and its 5 -regulatory region.', select the correct biomedical concept corresponding to 'serca2'. Answer using one of the provided options. | <Options>: A: atp2a (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 1)
B: sercaii (rattus norvegicus) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
C: serca2 (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
D: serca2 (danio rerio) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2b)
E: serca2 (mus musculus) (aka atpase, ca++ transporting, cardiac muscle, slow twitch 2)
F: None of the above. | C |
<Instruct>: Given the context 'In this study, we describe the complete structure of the human SERCA2 gene and its 5 -regulatory region.', select the correct biomedical concept corresponding to 'serca2'. Answer using one of the provided options. | <Options>: A: serca2 (mus musculus) (aka atpase, ca++ transporting, cardiac muscle, slow twitch 2)
B: serca2 (danio rerio) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2b)
C: sercaii (rattus norvegicus) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
D: atp2a (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 1)
E: None of the above. | E |
<Instruct>: Given the context 'The hSERCA2 gene is located in chromosome 12 position q24.1 in Contig NT_009770.8, spans 70 kb, and is organized in 21 exons intervened by 20 introns.', select the correct biomedical concept corresponding to 'hserca2'. Answer using one of the provided options. | <Options>: A: smarca2 (homo sapiens) (aka swi/snf related baf chromatin remodeling complex subunit atpase 2)
B: smarca2 (rattus norvegicus) (aka swi/snf related baf chromatin remodeling complex subunit atpase 2)
C: ce-a2 (drosophila melanogaster) (aka cecropin a2)
D: smarca2 (mus musculus) (aka swi/snf related baf chromatin remodeling complex subunit atpase 2)
E: smarca2 (xenopus laevis) (aka swi/snf related baf chromatin remodeling complex subunit atpase 2 l homeolog)
F: None of the above. | F |
<Instruct>: Given the context 'The last two exons of the pre-mRNA produce by alternatively splicing the cardiac/slow-twitch muscle-specific SERCA2a isoform and the ubiquitous SERCA2b isoform.', select the correct biomedical concept corresponding to 'serca2a'. Answer using one of the provided options. | <Options>: A: serca2a (mus musculus) (aka atpase, ca++ transporting, cardiac muscle, slow twitch 2)
B: atp2a1 (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 1)
C: sercaii (rattus norvegicus) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
D: atp2a2 (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
E: None of the above. | D |
<Instruct>: Given the context 'The last two exons of the pre-mRNA produce by alternatively splicing the cardiac/slow-twitch muscle-specific SERCA2a isoform and the ubiquitous SERCA2b isoform.', select the correct biomedical concept corresponding to 'serca2b'. Answer using one of the provided options. | <Options>: A: serca3b (mus musculus) (aka atpase, ca++ transporting, ubiquitous)
B: serca2 (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
C: serca2 (mus musculus) (aka atpase, ca++ transporting, cardiac muscle, slow twitch 2)
D: atp2a (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 1)
E: sercaii (rattus norvegicus) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
F: None of the above. | B |
<Instruct>: Given the context 'The sequence of the proximal 225-bp regulatory region of the SERCA2 genes is 80% G+C-rich and is conserved among human, rabbit, rat, and mouse species.', select the correct biomedical concept corresponding to 'serca2'. Answer using one of the provided options. | <Options>: A: serca2 (mus musculus) (aka atpase, ca++ transporting, cardiac muscle, slow twitch 2)
B: atp2a (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 1)
C: serca2 (rattus norvegicus) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
D: atp2a2 (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
E: serca2 (danio rerio) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2b)
F: None of the above. | D |
<Instruct>: Given the context 'It contains a TATA-like-box, an E-box/USF sequence, a CAAT-box, four Sp1 binding sites, and a thyroid hormone responsive element (TRE).', select the correct biomedical concept corresponding to 'sp1'. Answer using one of the provided options. | <Options>: A: sp1 (cricetulus griseus) (aka sp1 transcription factor)
B: sp1 (arabidopsis thaliana) (aka e3 ubiquitin ligase family protein)
C: h-sp1 (homo sapiens) (aka synaptophysin like 1)
D: sp1 (homo sapiens) (sp1 transcription factor (homo sapiens)) (aka sp1 transcription factor)
E: sp1 (mus musculus) (aka trans-acting transcription factor 1)
F: None of the above. | D |
<Instruct>: Given the context 'Among the DNA cis-elements present in these two regulatory regions there are potential binding sites for: GATA-4, -5, -6, Nkx-2.5/Csx, OTF-1, USF, MEF-2, SRF, PPAR/RXR, AP-2, and TREs.', select the correct biomedical concept corresponding to 'gata-4, -5, -6'. Answer using one of the provided options. | <Options>: A: gata6 (mus musculus) (aka gata binding protein 6)
B: gata5 (mus musculus) (aka gata binding protein 5)
C: gata6 (homo sapiens) (aka gata binding protein 6)
D: gata binding protein 6 (rattus norvegicus) (aka gata binding protein 6)
E: gata5 (rattus norvegicus) (aka gata binding protein 5)
F: None of the above. | D |
<Instruct>: Given the context 'Among the DNA cis-elements present in these two regulatory regions there are potential binding sites for: GATA-4, -5, -6, Nkx-2.5/Csx, OTF-1, USF, MEF-2, SRF, PPAR/RXR, AP-2, and TREs.', select the correct biomedical concept corresponding to 'nkx-2.5'. Answer using one of the provided options. | <Options>: A: nkx-2.5 (mus musculus) (aka nk2 homeobox 5)
B: nkx-2.5 (xenopus laevis) (nk2 homeobox 5 s homeolog (xenopus laevis)) (aka nk2 homeobox 5 s homeolog)
C: nkx-5.1 (homo sapiens) (aka h6 family homeobox 3)
D: nkx-2.5 (xenopus laevis) (nk2 homeobox 5 l homeolog (xenopus laevis)) (aka nk2 homeobox 5 l homeolog)
E: nkx-2.3 (mus musculus) (aka nk2 homeobox 3)
F: None of the above. | A |
<Instruct>: Given the context 'Among the DNA cis-elements present in these two regulatory regions there are potential binding sites for: GATA-4, -5, -6, Nkx-2.5/Csx, OTF-1, USF, MEF-2, SRF, PPAR/RXR, AP-2, and TREs.', select the correct biomedical concept corresponding to 'csx'. Answer using one of the provided options. | <Options>: A: csx2 (homo sapiens) (aka nk2 homeobox 6)
B: csx (rattus norvegicus) (aka nk2 homeobox 5)
C: csx (mus musculus) (aka nk2 homeobox 5)
D: scx (cricetulus griseus) (aka scleraxis bhlh transcription factor)
E: scx (homo sapiens) (aka scleraxis bhlh transcription factor)
F: None of the above. | C |
<Instruct>: Given the context 'Among the DNA cis-elements present in these two regulatory regions there are potential binding sites for: GATA-4, -5, -6, Nkx-2.5/Csx, OTF-1, USF, MEF-2, SRF, PPAR/RXR, AP-2, and TREs.', select the correct biomedical concept corresponding to 'otf-1'. Answer using one of the provided options. | <Options>: A: pou1f1 (homo sapiens) (aka pou class 1 homeobox 1)
B: pou1f1 (rattus norvegicus) (aka pou class 1 homeobox 1)
C: otf1 (homo sapiens) (aka pou class 2 homeobox 1)
D: obf-1 (mus musculus) (aka pou domain, class 2, associating factor 1)
E: pou domain, class 1, transcription factor 1 (mus musculus) (aka pou domain, class 1, transcription factor 1)
F: None of the above. | C |
<Instruct>: Given the context 'Among the DNA cis-elements present in these two regulatory regions there are potential binding sites for: GATA-4, -5, -6, Nkx-2.5/Csx, OTF-1, USF, MEF-2, SRF, PPAR/RXR, AP-2, and TREs.', select the correct biomedical concept corresponding to 'srf'. Answer using one of the provided options. | <Options>: A: srf (danio rerio) (aka serum response factor a)
B: srf (homo sapiens) (aka serum response factor)
C: srf1 (homo sapiens) (aka spermatogenesis associated 6)
D: srf (xenopus laevis) (aka serum response factor l homeolog)
E: srf (mus musculus) (aka serum response factor)
F: None of the above. | B |
<Instruct>: Given the context 'Among the DNA cis-elements present in these two regulatory regions there are potential binding sites for: GATA-4, -5, -6, Nkx-2.5/Csx, OTF-1, USF, MEF-2, SRF, PPAR/RXR, AP-2, and TREs.', select the correct biomedical concept corresponding to 'srf'. Answer using one of the provided options. | <Options>: A: srf (danio rerio) (aka serum response factor a)
B: serum response factor (mus musculus) (aka serum response factor)
C: srf-1 (homo sapiens) (aka spermatogenesis associated 6)
D: srf (xenopus laevis) (aka serum response factor l homeolog)
E: serum response factor (rattus norvegicus) (aka serum response factor)
F: None of the above. | F |
<Instruct>: Given the context 'Among the DNA cis-elements present in these two regulatory regions there are potential binding sites for: GATA-4, -5, -6, Nkx-2.5/Csx, OTF-1, USF, MEF-2, SRF, PPAR/RXR, AP-2, and TREs.', select the correct biomedical concept corresponding to 'ap-2'. Answer using one of the provided options. | <Options>: A: ap-2 (homo sapiens) (aka transcription factor ap-2 alpha)
B: ap-2 (drosophila melanogaster) (transcription factor ap-2 (drosophila melanogaster)) (aka transcription factor ap-2)
C: transcription factor ap-2 alpha (rattus norvegicus) (aka transcription factor ap-2 alpha)
D: ap2 (mus musculus) (transcription factor ap-2, alpha (mus musculus)) (aka transcription factor ap-2, alpha)
E: ap-2(beta) (mus musculus) (aka transcription factor ap-2 beta)
F: None of the above. | A |
<Instruct>: Given the context 'Upstream from position -1.5 kb, there is no significant homology among the SERCA2 genes cloned.', select the correct biomedical concept corresponding to 'serca2'. Answer using one of the provided options. | <Options>: A: atp2a2 (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
B: atp2a (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 1)
C: serca2b (mus musculus) (aka atpase, ca++ transporting, cardiac muscle, slow twitch 2)
D: serca2 (danio rerio) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2b)
E: serca2 (rattus norvegicus) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
F: None of the above. | A |
<Instruct>: Given the context 'In this study, we report the cloning of 2.4 kb of 5-regulatory region and demonstrate that the proximal promoter region is sufficient for expression in cardiac myocytes, and the region from -225 to -1232 bp contains regulatory DNA elements which down-regulate the expression of the SERCA2 gene in neonatal cardiomyocytes.', select the correct biomedical concept corresponding to 'serca2'. Answer using one of the provided options. | <Options>: A: serca2 (danio rerio) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2b)
B: sercaii (rattus norvegicus) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
C: serca2 (mus musculus) (aka atpase, ca++ transporting, cardiac muscle, slow twitch 2)
D: serca2 (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 2)
E: atp2a (homo sapiens) (aka atpase sarcoplasmic/endoplasmic reticulum ca2+ transporting 1)
F: None of the above. | D |
<Instruct>: Given the context 'Atherosclerosis is an inflammatory disease in which a perpetuated activation of NFkappaB via the RAGE (receptor for advanced glycation end products)-MAPK signalling pathway may play an important pathogenetic role.', select the correct biomedical concept corresponding to 'nfkappab'. Answer using one of the provided options. | <Options>: A: nf-kappab (mus musculus) (aka nuclear factor of kappa light polypeptide gene enhancer in b cells 1, p105)
B: nfkb (rattus norvegicus) (aka rela proto-oncogene, nf-kb subunit)
C: nfkappab (homo sapiens) (aka nuclear factor kappa b subunit 1)
D: p65 nf-kappa b (mus musculus) (aka v-rel reticuloendotheliosis viral oncogene homolog a (avian))
E: rela proto-oncogene, nf-kb subunit (homo sapiens) (aka rela proto-oncogene, nf-kb subunit)
F: None of the above. | C |
<Instruct>: Given the context 'Atherosclerosis is an inflammatory disease in which a perpetuated activation of NFkappaB via the RAGE (receptor for advanced glycation end products)-MAPK signalling pathway may play an important pathogenetic role.', select the correct biomedical concept corresponding to 'rage'. Answer using one of the provided options. | <Options>: A: rage (mus musculus) (advanced glycosylation end product-specific receptor (mus musculus)) (aka advanced glycosylation end product-specific receptor)
B: rage1 (mus musculus) (aka mok protein kinase)
C: rage (homo sapiens) (mok protein kinase (homo sapiens)) (aka mok protein kinase)
D: gfr (homo sapiens) (aka rap guanine nucleotide exchange factor 5)
E: rage (homo sapiens) (advanced glycosylation end-product specific receptor (homo sapiens)) (aka advanced glycosylation end-product specific receptor)
F: None of the above. | E |
<Instruct>: Given the context 'Atherosclerosis is an inflammatory disease in which a perpetuated activation of NFkappaB via the RAGE (receptor for advanced glycation end products)-MAPK signalling pathway may play an important pathogenetic role.', select the correct biomedical concept corresponding to 'receptor for advanced glycation end products'. Answer using one of the provided options. | <Options>: A: rage (homo sapiens) (advanced glycosylation end-product specific receptor (homo sapiens)) (aka advanced glycosylation end-product specific receptor)
B: rage (rattus norvegicus) (advanced glycosylation end product-specific receptor (rattus norvegicus)) (aka advanced glycosylation end product-specific receptor)
C: rage1 (homo sapiens) (aka mok protein kinase)
D: ager (mus musculus) (aka advanced glycosylation end product-specific receptor)
E: rage1 (mus musculus) (aka mok protein kinase)
F: None of the above. | A |
<Instruct>: Given the context 'As recently S100 proteins have been identified as ligands of RAGE, we sought to determine the effects of the proinflammatory heterodimer of S100A8/S100A9 on the RAGE-NFkappaB mediated induction of proinflammatory gene expression.', select the correct biomedical concept corresponding to 'rage'. Answer using one of the provided options. | <Options>: A: rage (homo sapiens) (mok protein kinase (homo sapiens)) (aka mok protein kinase)
B: gfr (homo sapiens) (aka rap guanine nucleotide exchange factor 5)
C: rage (rattus norvegicus) (advanced glycosylation end product-specific receptor (rattus norvegicus)) (aka advanced glycosylation end product-specific receptor)
D: rage (homo sapiens) (advanced glycosylation end-product specific receptor (homo sapiens)) (aka advanced glycosylation end-product specific receptor)
E: rage (mus musculus) (mok protein kinase (mus musculus)) (aka mok protein kinase)
F: None of the above. | D |
<Instruct>: Given the context 'As recently S100 proteins have been identified as ligands of RAGE, we sought to determine the effects of the proinflammatory heterodimer of S100A8/S100A9 on the RAGE-NFkappaB mediated induction of proinflammatory gene expression.', select the correct biomedical concept corresponding to 's100a8'. Answer using one of the provided options. | <Options>: A: s100a8 (mus musculus) (aka s100 calcium binding protein a8 (calgranulin a))
B: s100a8 (homo sapiens) (aka s100 calcium binding protein a8)
C: s100 calcium binding protein a8 (rattus norvegicus) (aka s100 calcium binding protein a8)
D: None of the above. | B |
<Instruct>: Given the context 'As recently S100 proteins have been identified as ligands of RAGE, we sought to determine the effects of the proinflammatory heterodimer of S100A8/S100A9 on the RAGE-NFkappaB mediated induction of proinflammatory gene expression.', select the correct biomedical concept corresponding to 's100a9'. Answer using one of the provided options. | <Options>: A: s100 calcium binding protein a9 (rattus norvegicus) (aka s100 calcium binding protein a9)
B: p14 (homo sapiens) (s100 calcium binding protein a9 (homo sapiens)) (aka s100 calcium binding protein a9)
C: p14 (mus musculus) (s100 calcium binding protein a9 (calgranulin b) (mus musculus)) (aka s100 calcium binding protein a9 (calgranulin b))
D: None of the above. | B |
<Instruct>: Given the context 'As recently S100 proteins have been identified as ligands of RAGE, we sought to determine the effects of the proinflammatory heterodimer of S100A8/S100A9 on the RAGE-NFkappaB mediated induction of proinflammatory gene expression.', select the correct biomedical concept corresponding to 'rage'. Answer using one of the provided options. | <Options>: A: rage1 (mus musculus) (aka mok protein kinase)
B: rage (rattus norvegicus) (mok protein kinase (rattus norvegicus)) (aka mok protein kinase)
C: rage (homo sapiens) (advanced glycosylation end-product specific receptor (homo sapiens)) (aka advanced glycosylation end-product specific receptor)
D: rage (rattus norvegicus) (advanced glycosylation end product-specific receptor (rattus norvegicus)) (aka advanced glycosylation end product-specific receptor)
E: rage (mus musculus) (advanced glycosylation end product-specific receptor (mus musculus)) (aka advanced glycosylation end product-specific receptor)
F: None of the above. | C |
<Instruct>: Given the context 'As recently S100 proteins have been identified as ligands of RAGE, we sought to determine the effects of the proinflammatory heterodimer of S100A8/S100A9 on the RAGE-NFkappaB mediated induction of proinflammatory gene expression.', select the correct biomedical concept corresponding to 'rage'. Answer using one of the provided options. | <Options>: A: rage (mus musculus) (mok protein kinase (mus musculus)) (aka mok protein kinase)
B: rage (mus musculus) (advanced glycosylation end product-specific receptor (mus musculus)) (aka advanced glycosylation end product-specific receptor)
C: rage (homo sapiens) (mok protein kinase (homo sapiens)) (aka mok protein kinase)
D: rage (rattus norvegicus) (mok protein kinase (rattus norvegicus)) (aka mok protein kinase)
E: gfr (homo sapiens) (aka rap guanine nucleotide exchange factor 5)
F: None of the above. | F |
<Instruct>: Given the context 'As recently S100 proteins have been identified as ligands of RAGE, we sought to determine the effects of the proinflammatory heterodimer of S100A8/S100A9 on the RAGE-NFkappaB mediated induction of proinflammatory gene expression.', select the correct biomedical concept corresponding to 'nfkappab'. Answer using one of the provided options. | <Options>: A: p65 nfkb (mus musculus) (aka v-rel reticuloendotheliosis viral oncogene homolog a (avian))
B: nuclear factor kappa b subunit 1 (homo sapiens) (aka nuclear factor kappa b subunit 1)
C: nfkb (rattus norvegicus) (aka rela proto-oncogene, nf-kb subunit)
D: nf-kappab (mus musculus) (aka nuclear factor of kappa light polypeptide gene enhancer in b cells 1, p105)
E: rela proto-oncogene, nf-kb subunit (homo sapiens) (aka rela proto-oncogene, nf-kb subunit)
F: None of the above. | B |
<Instruct>: Given the context 'Human umbilical vein endothelial cells (HUVEC) were preincubated for 72 h with AGE-albumin or unmodified albumin for control, whereas AGE-albumin induction resulted in an upregulation of RAGE.', select the correct biomedical concept corresponding to 'rage'. Answer using one of the provided options. | <Options>: A: rage (rattus norvegicus) (advanced glycosylation end product-specific receptor (rattus norvegicus)) (aka advanced glycosylation end product-specific receptor)
B: rage (mus musculus) (mok protein kinase (mus musculus)) (aka mok protein kinase)
C: gfr (homo sapiens) (aka rap guanine nucleotide exchange factor 5)
D: rage (mus musculus) (advanced glycosylation end product-specific receptor (mus musculus)) (aka advanced glycosylation end product-specific receptor)
E: rage (homo sapiens) (advanced glycosylation end-product specific receptor (homo sapiens)) (aka advanced glycosylation end-product specific receptor)
F: None of the above. | E |
<Instruct>: Given the context 'Following this preactivation, cells were stimulated for 48 h with heterodimeric human recombinant S100A8/S100A9.', select the correct biomedical concept corresponding to 's100a8'. Answer using one of the provided options. | <Options>: A: s100 calcium binding protein a8 (rattus norvegicus) (aka s100 calcium binding protein a8)
B: s100a8 (homo sapiens) (aka s100 calcium binding protein a8)
C: p8 (mus musculus) (s100 calcium binding protein a8 (calgranulin a) (mus musculus)) (aka s100 calcium binding protein a8 (calgranulin a))
D: None of the above. | B |
<Instruct>: Given the context 'Following this preactivation, cells were stimulated for 48 h with heterodimeric human recombinant S100A8/S100A9.', select the correct biomedical concept corresponding to 's100a9'. Answer using one of the provided options. | <Options>: A: s100 calcium binding protein a9 (homo sapiens) (aka s100 calcium binding protein a9)
B: s100a9 (rattus norvegicus) (aka s100 calcium binding protein a9)
C: s100 calcium binding protein a9 (calgranulin b) (mus musculus) (aka s100 calcium binding protein a9 (calgranulin b))
D: None of the above. | A |
<Instruct>: Given the context 'Heterodimeric S100A8/S100A9 enhanced secretion of IL-6, ICAM-1, VCAM-1 and MCP1 in AGE-albumin pretreated HUVEC in a dose dependent manner.', select the correct biomedical concept corresponding to 's100a8'. Answer using one of the provided options. | <Options>: A: s100 calcium binding protein a8 (homo sapiens) (aka s100 calcium binding protein a8)
B: s100a8 (mus musculus) (aka s100 calcium binding protein a8 (calgranulin a))
C: s100 calcium binding protein a8 (rattus norvegicus) (aka s100 calcium binding protein a8)
D: None of the above. | A |
<Instruct>: Given the context 'Heterodimeric S100A8/S100A9 enhanced secretion of IL-6, ICAM-1, VCAM-1 and MCP1 in AGE-albumin pretreated HUVEC in a dose dependent manner.', select the correct biomedical concept corresponding to 's100a9'. Answer using one of the provided options. | <Options>: A: s100a9 (rattus norvegicus) (aka s100 calcium binding protein a9)
B: s100 calcium binding protein a9 (calgranulin b) (mus musculus) (aka s100 calcium binding protein a9 (calgranulin b))
C: p14 (homo sapiens) (s100 calcium binding protein a9 (homo sapiens)) (aka s100 calcium binding protein a9)
D: None of the above. | C |
<Instruct>: Given the context 'Heterodimeric S100A8/S100A9 enhanced secretion of IL-6, ICAM-1, VCAM-1 and MCP1 in AGE-albumin pretreated HUVEC in a dose dependent manner.', select the correct biomedical concept corresponding to 'il-6'. Answer using one of the provided options. | <Options>: A: nf-il6 (mus musculus) (aka ccaat/enhancer binding protein beta)
B: interleukin 6 (ovis aries) (aka interleukin 6)
C: il-6 (mus musculus) (aka interleukin 6)
D: interleukin 6 (rattus norvegicus) (aka interleukin 6)
E: il-6 (homo sapiens) (aka interleukin 6)
F: None of the above. | E |
<Instruct>: Given the context 'Heterodimeric S100A8/S100A9 enhanced secretion of IL-6, ICAM-1, VCAM-1 and MCP1 in AGE-albumin pretreated HUVEC in a dose dependent manner.', select the correct biomedical concept corresponding to 'icam-1'. Answer using one of the provided options. | <Options>: A: icam-1 (mus musculus) (aka intercellular adhesion molecule 1)
B: icam1 (rattus norvegicus) (aka intercellular adhesion molecule 1)
C: vcam-1 (mus musculus) (aka vascular cell adhesion molecule 1)
D: cd51 (mus musculus) (aka integrin alpha v)
E: intercellular adhesion molecule 1 (homo sapiens) (aka intercellular adhesion molecule 1)
F: None of the above. | E |
<Instruct>: Given the context 'Heterodimeric S100A8/S100A9 enhanced secretion of IL-6, ICAM-1, VCAM-1 and MCP1 in AGE-albumin pretreated HUVEC in a dose dependent manner.', select the correct biomedical concept corresponding to 'vcam-1'. Answer using one of the provided options. | <Options>: A: vcam1 (homo sapiens) (aka vascular cell adhesion molecule 1)
B: platelet and endothelial cell adhesion molecule 1 (homo sapiens) (aka platelet and endothelial cell adhesion molecule 1)
C: vcam1 (rattus norvegicus) (aka vascular cell adhesion molecule 1)
D: icam-1 (mus musculus) (aka intercellular adhesion molecule 1)
E: vcam-1 (ovis aries) (aka vascular cell adhesion protein 1)
F: None of the above. | A |
<Instruct>: Given the context 'Heterodimeric S100A8/S100A9 enhanced secretion of IL-6, ICAM-1, VCAM-1 and MCP1 in AGE-albumin pretreated HUVEC in a dose dependent manner.', select the correct biomedical concept corresponding to 'mcp1'. Answer using one of the provided options. | <Options>: A: ccl1 (homo sapiens) (aka c-c motif chemokine ligand 1)
B: mcp1 (homo sapiens) (aka c-c motif chemokine ligand 2)
C: mcp1 (mus musculus) (aka c-c motif chemokine ligand 2)
D: ccl1 (mus musculus) (aka c-c motif chemokine ligand 1)
E: mcp1 (saccharomyces cerevisiae s288c) (aka mcp1p)
F: None of the above. | B |
<Instruct>: Given the context 'Heterodimeric S100A8/S100A9 enhanced secretion of IL-6, ICAM-1, VCAM-1 and MCP1 in AGE-albumin pretreated HUVEC in a dose dependent manner.', select the correct biomedical concept corresponding to 'mcp1'. Answer using one of the provided options. | <Options>: A: mcp1 (saccharomyces cerevisiae s288c) (aka mcp1p)
B: mcp-1 (mus musculus) (mast cell protease 1 (mus musculus)) (aka mast cell protease 1)
C: mcp1 (ovis aries) (aka mast cell proteinase-1)
D: ccl1 (mus musculus) (aka c-c motif chemokine ligand 1)
E: mcp1 (mus musculus) (aka c-c motif chemokine ligand 2)
F: None of the above. | F |
<Instruct>: Given the context 'These effects could not be detected after stimulation with the homodimeric proteins S100A8, S100A9, S100A1 and S100B.', select the correct biomedical concept corresponding to 's100a8'. Answer using one of the provided options. | <Options>: A: p8 (mus musculus) (s100 calcium binding protein a8 (calgranulin a) (mus musculus)) (aka s100 calcium binding protein a8 (calgranulin a))
B: s100 calcium binding protein a8 (homo sapiens) (aka s100 calcium binding protein a8)
C: s100a8 (rattus norvegicus) (aka s100 calcium binding protein a8)
D: None of the above. | B |
<Instruct>: Given the context 'These effects could not be detected after stimulation with the homodimeric proteins S100A8, S100A9, S100A1 and S100B.', select the correct biomedical concept corresponding to 's100a9'. Answer using one of the provided options. | <Options>: A: s100 calcium binding protein a9 (homo sapiens) (aka s100 calcium binding protein a9)
B: s100a9 (mus musculus) (aka s100 calcium binding protein a9 (calgranulin b))
C: s100 calcium binding protein a9 (rattus norvegicus) (aka s100 calcium binding protein a9)
D: None of the above. | A |
<Instruct>: Given the context 'These effects could not be detected after stimulation with the homodimeric proteins S100A8, S100A9, S100A1 and S100B.', select the correct biomedical concept corresponding to 's100a1'. Answer using one of the provided options. | <Options>: A: s100a11 (homo sapiens) (aka s100 calcium binding protein a11)
B: s100a1 (rattus norvegicus) (s100 calcium binding protein a1 (rattus norvegicus)) (aka s100 calcium binding protein a1)
C: cal (mus musculus) (s100 calcium binding protein a11 (mus musculus)) (aka s100 calcium binding protein a11)
D: s100a (mus musculus) (aka s100 calcium binding protein a1)
E: s100 (homo sapiens) (s100 calcium binding protein a1 (homo sapiens)) (aka s100 calcium binding protein a1)
F: None of the above. | E |
<Instruct>: Given the context 'These effects could not be detected after stimulation with the homodimeric proteins S100A8, S100A9, S100A1 and S100B.', select the correct biomedical concept corresponding to 's100b'. Answer using one of the provided options. | <Options>: A: s100 calcium binding protein b (homo sapiens) (aka s100 calcium binding protein b)
B: s100 (mus musculus) (aka s100 calcium binding protein a1)
C: s100 calcium binding protein b (rattus norvegicus) (aka s100 calcium binding protein b)
D: s100b (mus musculus) (aka s100 protein, beta polypeptide, neural)
E: None of the above. | A |
<Instruct>: Given the context 'The effects of heterodimeric S100A8/S100A9 were reduced by inhibition of the MAP-kinase pathways ERK1/2 and p38 by PD 98059 and SB 203580, respectively.', select the correct biomedical concept corresponding to 's100a8'. Answer using one of the provided options. | <Options>: A: p8 (homo sapiens) (s100 calcium binding protein a8 (homo sapiens)) (aka s100 calcium binding protein a8)
B: s100a8 (rattus norvegicus) (aka s100 calcium binding protein a8)
C: s100 calcium binding protein a8 (calgranulin a) (mus musculus) (aka s100 calcium binding protein a8 (calgranulin a))
D: None of the above. | A |
<Instruct>: Given the context 'The effects of heterodimeric S100A8/S100A9 were reduced by inhibition of the MAP-kinase pathways ERK1/2 and p38 by PD 98059 and SB 203580, respectively.', select the correct biomedical concept corresponding to 's100a9'. Answer using one of the provided options. | <Options>: A: s100 calcium binding protein a9 (rattus norvegicus) (aka s100 calcium binding protein a9)
B: s100 calcium binding protein a9 (calgranulin b) (mus musculus) (aka s100 calcium binding protein a9 (calgranulin b))
C: s100-a9 (homo sapiens) (aka s100 calcium binding protein a9)
D: None of the above. | C |
<Instruct>: Given the context 'The effects of heterodimeric S100A8/S100A9 were reduced by inhibition of the MAP-kinase pathways ERK1/2 and p38 by PD 98059 and SB 203580, respectively.', select the correct biomedical concept corresponding to 'p38'. Answer using one of the provided options. | <Options>: A: p38alpha (rattus norvegicus) (aka mitogen activated protein kinase 14)
B: p38alpha (homo sapiens) (aka mitogen-activated protein kinase 14)
C: p38a (mus musculus) (aka mitogen-activated protein kinase 14)
D: p38 (homo sapiens) (mitogen-activated protein kinase 1 (homo sapiens)) (aka mitogen-activated protein kinase 1)
E: None of the above. | B |
<Instruct>: Given the context 'The heterodimeric S100A8/S100A9 might therefore play a hitherto unknown role in triggering atherosclerosis in diabetes and renal failure, pathophysiological entities associated with a high AGE burden.', select the correct biomedical concept corresponding to 's100a8'. Answer using one of the provided options. | <Options>: A: s100a8 (rattus norvegicus) (aka s100 calcium binding protein a8)
B: p8 (homo sapiens) (s100 calcium binding protein a8 (homo sapiens)) (aka s100 calcium binding protein a8)
C: s100a8 (mus musculus) (aka s100 calcium binding protein a8 (calgranulin a))
D: None of the above. | B |
<Instruct>: Given the context 'The heterodimeric S100A8/S100A9 might therefore play a hitherto unknown role in triggering atherosclerosis in diabetes and renal failure, pathophysiological entities associated with a high AGE burden.', select the correct biomedical concept corresponding to 's100a9'. Answer using one of the provided options. | <Options>: A: s100-a9 (homo sapiens) (aka s100 calcium binding protein a9)
B: s100 calcium binding protein a9 (rattus norvegicus) (aka s100 calcium binding protein a9)
C: s100 calcium binding protein a9 (calgranulin b) (mus musculus) (aka s100 calcium binding protein a9 (calgranulin b))
D: None of the above. | A |
<Instruct>: Given the context 'Thus, blocking heterodimeric S100A8/S100A9 might represent a novel therapeutic modality in treating atherosclerosis.', select the correct biomedical concept corresponding to 's100a8'. Answer using one of the provided options. | <Options>: A: s100-a8 (homo sapiens) (aka s100 calcium binding protein a8)
B: s100a8 (rattus norvegicus) (aka s100 calcium binding protein a8)
C: s100 calcium binding protein a8 (calgranulin a) (mus musculus) (aka s100 calcium binding protein a8 (calgranulin a))
D: None of the above. | A |
<Instruct>: Given the context 'Thus, blocking heterodimeric S100A8/S100A9 might represent a novel therapeutic modality in treating atherosclerosis.', select the correct biomedical concept corresponding to 's100a8'. Answer using one of the provided options. | <Options>: A: s100 calcium binding protein a8 (calgranulin a) (mus musculus) (aka s100 calcium binding protein a8 (calgranulin a))
B: s100a8 (rattus norvegicus) (aka s100 calcium binding protein a8)
C: None of the above. | C |
<Instruct>: Given the context 'Thus, blocking heterodimeric S100A8/S100A9 might represent a novel therapeutic modality in treating atherosclerosis.', select the correct biomedical concept corresponding to 's100a9'. Answer using one of the provided options. | <Options>: A: s100 calcium binding protein a9 (rattus norvegicus) (aka s100 calcium binding protein a9)
B: s100a9 (homo sapiens) (aka s100 calcium binding protein a9)
C: s100 calcium binding protein a9 (calgranulin b) (mus musculus) (aka s100 calcium binding protein a9 (calgranulin b))
D: None of the above. | B |
<Instruct>: Given the context 'Human growth hormone (GH1) gene polymorphism map in a normal-statured adult population.', select the correct biomedical concept corresponding to 'growth hormone'. Answer using one of the provided options. | <Options>: A: growth hormone 2 (homo sapiens) (aka growth hormone 2)
B: growth hormone 1 (rattus norvegicus) (aka growth hormone 1)
C: growth hormone (ovis aries) (aka growth hormone)
D: gh (mus musculus) (aka growth hormone)
E: growth hormone 1 (homo sapiens) (aka growth hormone 1)
F: None of the above. | E |
<Instruct>: Given the context 'Human growth hormone (GH1) gene polymorphism map in a normal-statured adult population.', select the correct biomedical concept corresponding to 'gh1'. Answer using one of the provided options. | <Options>: A: gh1 (danio rerio) (aka growth hormone 1)
B: gh (homo sapiens) (growth hormone 1 (homo sapiens)) (aka growth hormone 1)
C: gh (mus musculus) (aka growth hormone)
D: gh1 (rattus norvegicus) (growth hormone 1 (rattus norvegicus)) (aka growth hormone 1)
E: gh1 (rattus norvegicus) (gonadotropin releasing hormone receptor (rattus norvegicus)) (aka gonadotropin releasing hormone receptor)
F: None of the above. | B |
<Instruct>: Given the context 'OBJECTIVE: GH1 gene presents a complex map of single nucleotide polymorphisms (SNPs) in the entire promoter, coding and noncoding regions.', select the correct biomedical concept corresponding to 'gh1'. Answer using one of the provided options. | <Options>: A: gh1 (cricetulus griseus) (aka growth hormone 1)
B: gh1 (rattus norvegicus) (growth hormone 1 (rattus norvegicus)) (aka growth hormone 1)
C: gh (mus musculus) (aka growth hormone)
D: gh1 (ovis aries) (aka growth hormone)
E: growth hormone 1 (homo sapiens) (aka growth hormone 1)
F: None of the above. | E |
<Instruct>: Given the context 'The aim of the study was to establish the complete map of GH1 gene SNPs in our control normal population and to analyse its association with adult height.', select the correct biomedical concept corresponding to 'gh1'. Answer using one of the provided options. | <Options>: A: gh1 (rattus norvegicus) (growth hormone 1 (rattus norvegicus)) (aka growth hormone 1)
B: gh (homo sapiens) (growth hormone 1 (homo sapiens)) (aka growth hormone 1)
C: gh1 (cricetulus griseus) (aka growth hormone 1)
D: gh (mus musculus) (aka growth hormone)
E: gh1 (danio rerio) (aka growth hormone 1)
F: None of the above. | B |
<Instruct>: Given the context 'DESIGN, SUBJECTS AND MEASUREMENTS: A systematic GH1 gene analysis was designed in a control population of 307 adults of both sexes with height normally distributed within normal range for the same population: -2 standard deviation scores (SDS) to +2 SDS.', select the correct biomedical concept corresponding to 'gh1'. Answer using one of the provided options. | <Options>: A: gh1 (rattus norvegicus) (gonadotropin releasing hormone receptor (rattus norvegicus)) (aka gonadotropin releasing hormone receptor)
B: gh1 (danio rerio) (aka growth hormone 1)
C: gh1 (ovis aries) (aka growth hormone)
D: gh1 (rattus norvegicus) (growth hormone 1 (rattus norvegicus)) (aka growth hormone 1)
E: gh1 (homo sapiens) (aka growth hormone 1)
F: None of the above. | E |
<Instruct>: Given the context 'This study established the GH1 gene sequence variation map in a normal adult height control population confirming the high density of SNPs in a relatively small gene.', select the correct biomedical concept corresponding to 'gh1'. Answer using one of the provided options. | <Options>: A: gh (homo sapiens) (growth hormone 1 (homo sapiens)) (aka growth hormone 1)
B: gh1 (rattus norvegicus) (gonadotropin releasing hormone receptor (rattus norvegicus)) (aka gonadotropin releasing hormone receptor)
C: gh1 (danio rerio) (aka growth hormone 1)
D: gh1b1 (mus musculus) (aka growth hormone)
E: gh1 (rattus norvegicus) (growth hormone 1 (rattus norvegicus)) (aka growth hormone 1)
F: None of the above. | A |
<Instruct>: Given the context 'Systematic GH1 gene analysis in patients with growth delay and suspected GH deficiency/insufficiency will clarify whether different SNP frequencies and/or the presence of different sequence changes may be associated with phenotypes in them.', select the correct biomedical concept corresponding to 'gh1'. Answer using one of the provided options. | <Options>: A: gh1 (danio rerio) (aka growth hormone 1)
B: gh1 (ovis aries) (aka growth hormone)
C: gh1 (cricetulus griseus) (aka growth hormone 1)
D: gh1b1 (mus musculus) (aka growth hormone)
E: growth hormone 1 (homo sapiens) (aka growth hormone 1)
F: None of the above. | E |
<Instruct>: Given the context 'The genes in which SNPs were analyzed include CCR2, CCR5, COX1, COX2, CRP, CSF1, CSF2, IFNG, IL1A, IL1B, IL2, IL4, IL6, IL8, IL10, IL13, IL18, LTA, MPO, NOS2A, NOS3, PPARD, PPARG, PPARGC1 and TNF.', select the correct biomedical concept corresponding to 'ccr2'. Answer using one of the provided options. | <Options>: A: ccr2 (rattus norvegicus) (aka c-c motif chemokine receptor 2)
B: ccr2 (mus musculus) (aka c-c motif chemokine receptor 2)
C: ccr2 (danio rerio) (aka chemokine (c-c motif) receptor 2)
D: ccr5 (mus musculus) (aka c-c motif chemokine receptor 5)
E: c-c motif chemokine receptor 2 (homo sapiens) (aka c-c motif chemokine receptor 2)
F: None of the above. | E |
<Instruct>: Given the context 'The genes in which SNPs were analyzed include CCR2, CCR5, COX1, COX2, CRP, CSF1, CSF2, IFNG, IL1A, IL1B, IL2, IL4, IL6, IL8, IL10, IL13, IL18, LTA, MPO, NOS2A, NOS3, PPARD, PPARG, PPARGC1 and TNF.', select the correct biomedical concept corresponding to 'ccr5'. Answer using one of the provided options. | <Options>: A: ccr2 (mus musculus) (aka c-c motif chemokine receptor 2)
B: c-c motif chemokine receptor 5 (rattus norvegicus) (aka c-c motif chemokine receptor 5)
C: ccr5 (mus musculus) (aka c-c motif chemokine receptor 5)
D: ccr5 (homo sapiens) (aka c-c motif chemokine receptor 5)
E: ccr2 (rattus norvegicus) (aka c-c motif chemokine receptor 2)
F: None of the above. | D |
<Instruct>: Given the context 'The genes in which SNPs were analyzed include CCR2, CCR5, COX1, COX2, CRP, CSF1, CSF2, IFNG, IL1A, IL1B, IL2, IL4, IL6, IL8, IL10, IL13, IL18, LTA, MPO, NOS2A, NOS3, PPARD, PPARG, PPARGC1 and TNF.', select the correct biomedical concept corresponding to 'ccr5'. Answer using one of the provided options. | <Options>: A: c-c motif chemokine receptor 5 (rattus norvegicus) (aka c-c motif chemokine receptor 5)
B: ccr2 (rattus norvegicus) (aka c-c motif chemokine receptor 2)
C: ccr5 (ovis aries) (aka c-c motif chemokine receptor 5)
D: ccr5 (mus musculus) (aka c-c motif chemokine receptor 5)
E: ccr2 (mus musculus) (aka c-c motif chemokine receptor 2)
F: None of the above. | F |
<Instruct>: Given the context 'The genes in which SNPs were analyzed include CCR2, CCR5, COX1, COX2, CRP, CSF1, CSF2, IFNG, IL1A, IL1B, IL2, IL4, IL6, IL8, IL10, IL13, IL18, LTA, MPO, NOS2A, NOS3, PPARD, PPARG, PPARGC1 and TNF.', select the correct biomedical concept corresponding to 'cox1'. Answer using one of the provided options. | <Options>: A: cox (homo sapiens) (cytochrome c oxidase subunit 5a (homo sapiens)) (aka cytochrome c oxidase subunit 5a)
B: cox1 (rattus norvegicus) (cytochrome c oxidase i, mitochondrial (rattus norvegicus)) (aka cytochrome c oxidase i, mitochondrial)
C: cox1 (homo sapiens) (prostaglandin-endoperoxide synthase 1 (homo sapiens)) (aka prostaglandin-endoperoxide synthase 1)
D: cox1 (saccharomyces cerevisiae s288c) (aka cytochrome c oxidase subunit 1)
E: cox1 (rattus norvegicus) (prostaglandin-endoperoxide synthase 1 (rattus norvegicus)) (aka prostaglandin-endoperoxide synthase 1)
F: None of the above. | C |
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