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Ask your administrator if you think this is wrong. ======= BMP2 ======= == Gene Information == * **<color #00a2e8>Official Symbol</color>**: BMP2 * **<color #00a2e8>Official Name</color>**: bone morphogenetic protein 2 * **<color #00a2e8>Aliases and Previous Symbols</color>**: N/A * **<color #00a2e8>Entrez ID</color>**: [[https://www.ncbi.nlm.nih.gov/gene/?term=650|650]] * **<color #00a2e8>UniProt</color>**: [[https://www.uniprot.org/uniprot/P12643|P12643]] * **<color #00a2e8>Interactions</color>**: [[https://thebiogrid.org/search.php?search=BMP2&organism=9606|BioGRID]] * **<color #00a2e8>PubMed articles</color>**: [[https://www.ncbi.nlm.nih.gov/pubmed/?term=gene%20BMP2|Open PubMed]] * **<color #00a2e8>OMIM</color>**: [[https://omim.org/entry/112261|Open OMIM]] == Function Summary == * **<color #00a2e8>Entrez Summary</color>**: This gene encodes a secreted ligand of the TGF-beta (transforming growth factor-beta) superfamily of proteins. Ligands of this family bind various TGF-beta receptors leading to recruitment and activation of SMAD family transcription factors that regulate gene expression. The encoded preproprotein is proteolytically processed to generate each subunit of the disulfide-linked homodimer, which plays a role in bone and cartilage development. Duplication of a regulatory region downstream of this gene causes a form of brachydactyly characterized by a malformed index finger and second toe in human patients. [provided by RefSeq, Jul 2016]. * **<color #00a2e8>UniProt Summary</color>**: Induces cartilage and bone formation (PubMed:3201241). Stimulates the differentiation of myoblasts into osteoblasts via the EIF2AK3-EIF2A- ATF4 pathway. BMP2 activation of EIF2AK3 stimulates phosphorylation of EIF2A which leads to increased expression of ATF4 which plays a central role in osteoblast differentiation. In addition stimulates TMEM119, which upregulates the expression of ATF4 (PubMed:24362451). {ECO:0000269|PubMed:24362451, ECO:0000269|PubMed:3201241}. <button type='primary' size='sm' modal='Pfam_Domains'>Pfam Domains</button> <button type='primary' size='sm' modal='GO_terms'>GO Terms</button> <modal id='Pfam_Domains' size='lg' title='Pfam Domains'> |TGF beta| |TGFb propeptide| </modal> <modal id='GO_terms' size='lg' title='GO Terms'> |positive regulation of Wnt signaling pathway by BMP signaling pathway| |negative regulation of calcium-independent cell-cell adhesion| |endodermal-mesodermal cell signaling involved in heart induction| |BMP receptor complex| |regulation of calcium-independent cell-cell adhesion| |endodermal-mesodermal cell signaling| |heart induction| |corticotropin hormone secreting cell differentiation| |BMP signaling pathway involved in heart induction| |cell proliferation involved in mesonephros development| |thyroid-stimulating hormone-secreting cell differentiation| |embryonic heart tube anterior/posterior pattern specification| |phosphatase activator activity| |mesenchymal cell proliferation involved in ureteric bud development| |negative regulation of aldosterone biosynthetic process| |negative regulation of aldosterone metabolic process| |negative regulation of cortisol biosynthetic process| |negative regulation of steroid hormone biosynthetic process| |negative regulation of Wnt signaling pathway involved in heart development| |negative regulation of glucocorticoid biosynthetic process| |negative regulation of glucocorticoid metabolic process| |negative regulation of insulin-like growth factor receptor signaling pathway| |regulation of cortisol biosynthetic process| |regulation of Wnt signaling pathway involved in heart development| |bone mineralization involved in bone maturation| |regulation of aldosterone biosynthetic process| |regulation of aldosterone metabolic process| |neuroendocrine cell differentiation| |regulation of glucocorticoid biosynthetic process| |regulation of glucocorticoid metabolic process| |regulation of steroid hormone biosynthetic process| |negative regulation of hormone biosynthetic process| |cell proliferation involved in kidney development| |positive regulation of osteoblast proliferation| |positive regulation of odontogenesis| |negative regulation of hormone metabolic process| |BMP receptor binding| |positive regulation of astrocyte differentiation| |co-receptor binding| |adenohypophysis development| |telencephalon regionalization| |pathway-restricted SMAD protein phosphorylation| |negative regulation of alcohol biosynthetic process| |regulation of odontogenesis of dentin-containing tooth| |ossification involved in bone maturation| |organ induction| |mesenchymal cell proliferation| |regulation of ketone biosynthetic process| |bone maturation| |negative regulation of cardiac muscle cell differentiation| |pericardium development| |retinol dehydrogenase activity| |negative regulation of cardiocyte differentiation| |animal organ maturation| |positive regulation of transcription from RNA polymerase II promoter involved in cellular response to chemical stimulus| |regulation of osteoblast proliferation| |regulation of insulin-like growth factor receptor signaling pathway| |negative regulation of steroid biosynthetic process| |forebrain regionalization| |atrioventricular valve morphogenesis| |negative regulation of steroid metabolic process| |atrioventricular valve development| |regulation of odontogenesis| |regulation of hormone biosynthetic process| |regulation of astrocyte differentiation| |positive regulation of p38MAPK cascade| |developmental induction| |cardiac epithelial to mesenchymal transition| |positive regulation of pri-miRNA transcription by RNA polymerase II| |negative regulation of cardiac muscle tissue development| |positive regulation of cartilage development| |positive regulation of phosphatase activity| |endocardial cushion morphogenesis| |regulation of animal organ formation| |regulation of cardiac muscle cell differentiation| |glandular epithelial cell differentiation| |negative regulation of striated muscle cell differentiation| |regulation of hormone metabolic process| |positive regulation of bone mineralization| |regulation of heart morphogenesis| |regulation of p38MAPK cascade| |pituitary gland development| |regulation of pri-miRNA transcription by RNA polymerase II| |positive regulation of glial cell differentiation| |transforming growth factor beta receptor binding| |endocardial cushion development| |neuroepithelial cell differentiation| |branching involved in ureteric bud morphogenesis| |protein destabilization| |positive regulation of biomineral tissue development| |positive regulation of biomineralization| |positive regulation of epithelial to mesenchymal transition| |bone mineralization| |negative regulation of striated muscle tissue development| |positive regulation of pathway-restricted SMAD protein phosphorylation| |negative regulation of muscle organ development| |negative regulation of lipid biosynthetic process| |regulation of cardiocyte differentiation| |mesenchyme morphogenesis| |negative regulation of muscle tissue development| |heart valve morphogenesis| |SMAD binding| |ureteric bud morphogenesis| |mesonephric tubule morphogenesis| |negative regulation of muscle cell differentiation| |SMAD protein signal transduction| |positive regulation of dephosphorylation| |positive regulation of osteoblast differentiation| |regulation of pathway-restricted SMAD protein phosphorylation| |positive regulation of fat cell differentiation| |heart valve development| |nephron tubule morphogenesis| |nephron epithelium morphogenesis| |nephron morphogenesis| |cardiac muscle tissue morphogenesis| |renal tubule morphogenesis| |regulation of glial cell differentiation| |positive regulation of gliogenesis| |epithelial to mesenchymal transition| |regulation of cartilage development| |regulation of alcohol biosynthetic process| |regulation of bone mineralization| |diencephalon development| |nephron tubule development| |regulation of cardiac muscle tissue development| |renal tubule development| |muscle tissue morphogenesis| |positive regulation of animal organ morphogenesis| |chondrocyte differentiation| |odontogenesis of dentin-containing tooth| |negative regulation of lipid metabolic process| |regulation of epithelial to mesenchymal transition| |kidney morphogenesis| |positive regulation of ossification| |ureteric bud development| |mesonephric epithelium development| |muscle organ morphogenesis| |mesonephric tubule development| |cardiac muscle cell differentiation| |regulation of steroid biosynthetic process| |BMP signaling pathway| |negative regulation of small molecule metabolic process| |mesonephros development| |proteoglycan metabolic process| |biomineralization| |regulation of biomineral tissue development| |biomineral tissue development| |regulation of biomineralization| |positive regulation of protein binding| |positive regulation of endothelial cell proliferation| |columnar/cuboidal epithelial cell differentiation| |nephron epithelium development| |regulation of striated muscle cell differentiation| |positive regulation of transmembrane receptor protein serine/threonine kinase signaling pathway| |response to BMP| |cellular response to BMP stimulus| |regulation of osteoblast differentiation| |regulation of steroid metabolic process| |regulation of gliogenesis| |cardiocyte differentiation| |odontogenesis| |endocrine system development| |regulation of fat cell differentiation| |nephron development| |Notch signaling pathway| |osteoblast differentiation| |regulation of endothelial cell proliferation| |kidney epithelium development| |branching morphogenesis of an epithelial tube| |regulation of striated muscle tissue development| |anatomical structure maturation| |regulation of muscle tissue development| |regulation of muscle organ development| |regulation of muscle cell differentiation| |activation of MAPK activity| |mesenchymal cell differentiation| |morphogenesis of a branching epithelium| |cardiac muscle tissue development| |growth factor activity| |positive regulation of stress-activated MAPK cascade| |positive regulation of stress-activated protein kinase signaling cascade| |morphogenesis of a branching structure| |regulation of cellular ketone metabolic process| |cartilage development| |cytokine activity| |negative regulation of cell-cell adhesion| |negative regulation of canonical Wnt signaling pathway| |regulation of phosphatase activity| |positive regulation of Wnt signaling pathway| |positive regulation of binding| |regulation of lipid biosynthetic process| |positive regulation of epithelial cell proliferation| |regulation of ossification| |inner ear development| |transmembrane receptor protein serine/threonine kinase signaling pathway| |bone development| |striated muscle cell differentiation| |negative regulation of Wnt signaling pathway| |regulation of dephosphorylation| |positive regulation of ERK1 and ERK2 cascade| |anterior/posterior pattern specification| |regulation of protein binding| |mesenchyme development| |ear development| |connective tissue development| |regulation of stress-activated MAPK cascade| |regulation of transmembrane receptor protein serine/threonine kinase signaling pathway| |regulation of stress-activated protein kinase signaling cascade| |developmental maturation| |muscle cell differentiation| |cell fate commitment| |heart morphogenesis| |telencephalon development| |regulation of animal organ morphogenesis| |positive regulation of MAP kinase activity| |ossification| |kidney development| |negative regulation of cell adhesion| |regulation of canonical Wnt signaling pathway| |striated muscle tissue development| |renal system development| |regulation of protein stability| |regulation of ERK1 and ERK2 cascade| |muscle organ development| |muscle tissue development| |epithelial tube morphogenesis| |urogenital system development| |activation of protein kinase activity| |regionalization| |regulation of epithelial cell proliferation| |signaling receptor binding| |positive regulation of protein serine/threonine kinase activity| |regulation of MAP kinase activity| |response to hypoxia| |response to decreased oxygen levels| |regulation of Wnt signaling pathway| |positive regulation of neuron differentiation| |regulation of binding| |in utero embryonic development| |response to oxygen levels| |forebrain development| |glycoprotein metabolic process| |regulation of lipid metabolic process| |regulation of cell-cell adhesion| |gland development| |regulation of small molecule metabolic process| |cell surface receptor signaling pathway involved in cell-cell signaling| |morphogenesis of an epithelium| |pattern specification process| |positive regulation of neurogenesis| |muscle structure development| |protein heterodimerization activity| |skeletal system development| |inflammatory response| |cellular response to growth factor stimulus| |positive regulation of cell migration| |regulation of protein serine/threonine kinase activity| |positive regulation of cell motility| |heart development| |response to growth factor| |positive regulation of protein kinase activity| |regulation of hormone levels| |positive regulation of nervous system development| |positive regulation of cellular component movement| |cellular response to organic cyclic compound| |positive regulation of cell development| |positive regulation of MAPK cascade| |sensory organ development| |positive regulation of locomotion| |cell population proliferation| |tissue morphogenesis| |negative regulation of cell cycle| |positive regulation of kinase activity| |cell surface| |chordate embryonic development| |positive regulation of apoptotic process| |positive regulation of programmed cell death| |embryo development ending in birth or egg hatching| |tube morphogenesis| |positive regulation of transferase activity| |regulation of neuron differentiation| |negative regulation of cell population proliferation| |epithelial cell differentiation| |regulation of cell adhesion| |intracellular membrane-bounded organelle| |response to bacterium| |positive regulation of cell death| |negative regulation of cell differentiation| |enzyme linked receptor protein signaling pathway| |regulation of cellular response to stress| |brain development| |regulation of MAPK cascade| |positive regulation of hydrolase activity| |head development| |regulation of protein kinase activity| |regulation of neurogenesis| |tube development| |regulation of cell migration| |negative regulation of transcription by RNA polymerase II| |circulatory system development| |regulation of kinase activity| |regulation of cell motility| |positive regulation of cell population proliferation| |response to organic cyclic compound| |regulation of nervous system development| |regulation of cell development| |negative regulation of developmental process| |animal organ morphogenesis| |oxidation-reduction process| |positive regulation of cell differentiation| |protein phosphorylation| |embryo development| |regulation of transferase activity| |central nervous system development| |regulation of locomotion| |regulation of cellular component movement| |positive regulation of protein phosphorylation| |positive regulation of intracellular signal transduction| |carbohydrate derivative metabolic process| |positive regulation of phosphorylation| |regulation of anatomical structure morphogenesis| |epithelium development| |cell-cell signaling| |positive regulation of phosphorus metabolic process| |positive regulation of phosphate metabolic process| |response to abiotic stimulus| |regulation of cell cycle| |negative regulation of transcription, DNA-templated| |negative regulation of multicellular organismal process| |positive regulation of transcription by RNA polymerase II| |cellular response to endogenous stimulus| |positive regulation of protein modification process| |negative regulation of nucleic acid-templated transcription| |negative regulation of RNA biosynthetic process| |negative regulation of signal transduction| |regulation of hydrolase activity| |phosphorylation| |response to other organism| |response to external biotic stimulus| |response to biotic stimulus| |negative regulation of RNA metabolic process| |defense response| |negative regulation of cell communication| |negative regulation of signaling| |positive regulation of developmental process| |negative regulation of cellular macromolecule biosynthetic process| |positive regulation of catalytic activity| |negative regulation of nucleobase-containing compound metabolic process| |regulation of protein phosphorylation| |negative regulation of macromolecule biosynthetic process| |response to endogenous stimulus| |regulation of response to stress| |negative regulation of cellular biosynthetic process| |generation of neurons| |regulation of apoptotic process| |positive regulation of transcription, DNA-templated| |negative regulation of biosynthetic process| |regulation of programmed cell death| |regulation of phosphorylation| |extracellular space| |positive regulation of cellular protein metabolic process| |regulation of cell population proliferation| |negative regulation of response to stimulus| |neurogenesis| |positive regulation of nucleic acid-templated transcription| |positive regulation of RNA biosynthetic process| |cell development| |positive regulation of signal transduction| |regulation of cell death| |positive regulation of protein metabolic process| |negative regulation of gene expression| |positive regulation of RNA metabolic process| |positive regulation of multicellular organismal process| |tissue development| |positive regulation of molecular function| |regulation of phosphate metabolic process| |regulation of phosphorus metabolic process| |regulation of cell differentiation| |positive regulation of cell communication| |positive regulation of signaling| |regulation of intracellular signal transduction| |regulation of protein modification process| |positive regulation of nucleobase-containing compound metabolic process| |positive regulation of macromolecule biosynthetic process| |extracellular region| |positive regulation of cellular biosynthetic process| |positive regulation of gene expression| |positive regulation of biosynthetic process| </modal> \\ === CRISPR Data === <button type='default' size='small' modal='Compound_Hit'>Compound Hit</button> <button type='default' size='small' modal='Most_Correlated_Genes'>Most Correlated Genes in Chemogenomics</button> <button type='primary' size='small' modal='Essential_Avana'>Tissues where Essential in the Avana Dataset (DepMap 20Q1)</button> <modal id='Compound_Hit' size='lg' title='Compound Hit'> No hits were found. </modal> <modal id='Most_Correlated_Genes' size='lg' title='Most Correlated Genes in Chemogenomics'> No correlation found to any other genes in chemogenomics. </modal> <modal id='Essential_Avana' size='lg' title='Tissues where Essential in the Avana Dataset (DepMap 20Q1)'> Global Fraction of Cell Lines Where Essential: 0/739 ^Tissue^Fraction Of Cell Lines Where Essential^ |1290807.0|0/1| |909776.0|0/1| |bile duct|0/28| |blood|0/28| |bone|0/26| |breast|0/33| |central nervous system|0/56| |cervix|0/4| |colorectal|0/17| |esophagus|0/13| |fibroblast|0/1| |gastric|0/16| |kidney|0/21| |liver|0/20| |lung|0/75| |lymphocyte|0/16| |ovary|0/26| |pancreas|0/24| |peripheral nervous system|0/16| |plasma cell|0/15| |prostate|0/1| |skin|0/24| |soft tissue|0/9| |thyroid|0/2| |upper aerodigestive|0/22| |urinary tract|0/29| |uterus|0/5| </modal> == Essentiality in NALM6 == * **<color #00a2e8>Essentiality Rank</color>**: 8319 * **<color #00a2e8>Expression level (log2 read counts)</color>**: -1.43 <button type='primary' size='small' modal='Dist_expr'>Expression Distribution</button> <modal id='Dist_expr' size='lg' title='BMP2 Expression in NALM6 Cells: -1.43'> {{:chemogenomics:nalm6 dist.png?nolink |}} </modal> Last modified: 2026/01/07 22:36by 127.0.0.1