Keyword Search: Gene Ontology, PubMed or Web (Google)
PDB Keywords for 2GL7
(Keywords from the PDB file are used here. They may or may not correspond to GO term names).
GO Keywords for 2GL7
(Here all GO term names are given that map directly to this particular structure).
- negative regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
- embryonic axis specification [GO] [PubMed] [Google]
- cell morphogenesis involved in differentiation [GO] [PubMed] [Google]
- spindle pole [GO] [PubMed] [Google]
- RNA polymerase II transcription factor binding [GO] [PubMed] [Google]
- RNA polymerase II activating transcription factor binding [GO] [PubMed] [Google]
- skeletal system development [GO] [PubMed] [Google]
- branching involved in blood vessel morphogenesis [GO] [PubMed] [Google]
- vasculogenesis [GO] [PubMed] [Google]
- branching involved in ureteric bud morphogenesis [GO] [PubMed] [Google]
- in utero embryonic development [GO] [PubMed] [Google]
- gastrulation with mouth forming second [GO] [PubMed] [Google]
- endoderm formation [GO] [PubMed] [Google]
- cell fate specification [GO] [PubMed] [Google]
- cell fate determination [GO] [PubMed] [Google]
- endodermal cell fate commitment [GO] [PubMed] [Google]
- neuron migration [GO] [PubMed] [Google]
- kidney development [GO] [PubMed] [Google]
- epithelial to mesenchymal transition [GO] [PubMed] [Google]
- neural plate development [GO] [PubMed] [Google]
- liver development [GO] [PubMed] [Google]
- vasculature development [GO] [PubMed] [Google]
- positive regulation of neuroblast proliferation [GO] [PubMed] [Google]
- positive regulation of mesenchymal cell proliferation [GO] [PubMed] [Google]
- lens morphogenesis in camera-type eye [GO] [PubMed] [Google]
- regulation of secondary heart field cardioblast proliferation [GO] [PubMed] [Google]
- metanephros morphogenesis [GO] [PubMed] [Google]
- negative regulation of mesenchymal to epithelial transition involved in metanephros morphogenesis [GO] [PubMed] [Google]
- DNA binding [GO] [PubMed] [Google]
- chromatin binding [GO] [PubMed] [Google]
- double-stranded DNA binding [GO] [PubMed] [Google]
- DNA-binding transcription factor activity [GO] [PubMed] [Google]
- transcription coactivator activity [GO] [PubMed] [Google]
- obsolete signal transducer activity [GO] [PubMed] [Google]
- protein binding [GO] [PubMed] [Google]
- nucleus [GO] [PubMed] [Google]
- nucleoplasm [GO] [PubMed] [Google]
- transcription factor complex [GO] [PubMed] [Google]
- nuclear euchromatin [GO] [PubMed] [Google]
- cytoplasm [GO] [PubMed] [Google]
- centrosome [GO] [PubMed] [Google]
- microtubule organizing center [GO] [PubMed] [Google]
- cytosol [GO] [PubMed] [Google]
- cytoskeleton [GO] [PubMed] [Google]
- plasma membrane [GO] [PubMed] [Google]
- cell-cell junction [GO] [PubMed] [Google]
- adherens junction [GO] [PubMed] [Google]
- cell-cell adherens junction [GO] [PubMed] [Google]
- fascia adherens [GO] [PubMed] [Google]
- bicellular tight junction [GO] [PubMed] [Google]
- focal adhesion [GO] [PubMed] [Google]
- cell cortex [GO] [PubMed] [Google]
- transcription, DNA-templated [GO] [PubMed] [Google]
- regulation of transcription, DNA-templated [GO] [PubMed] [Google]
- regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
- cell adhesion [GO] [PubMed] [Google]
- cell-matrix adhesion [GO] [PubMed] [Google]
- Wnt signaling pathway, calcium modulating pathway [GO] [PubMed] [Google]
- chemical synaptic transmission [GO] [PubMed] [Google]
- ectoderm development [GO] [PubMed] [Google]
- nervous system development [GO] [PubMed] [Google]
- glial cell fate determination [GO] [PubMed] [Google]
- midgut development [GO] [PubMed] [Google]
- heart development [GO] [PubMed] [Google]
- protein C-terminus binding [GO] [PubMed] [Google]
- transcription factor binding [GO] [PubMed] [Google]
- cell proliferation [GO] [PubMed] [Google]
- positive regulation of cell proliferation [GO] [PubMed] [Google]
- negative regulation of cell proliferation [GO] [PubMed] [Google]
- response to hormone [GO] [PubMed] [Google]
- anterior/posterior axis specification [GO] [PubMed] [Google]
- dorsal/ventral axis specification [GO] [PubMed] [Google]
- dorsal/ventral pattern formation [GO] [PubMed] [Google]
- proximal/distal pattern formation [GO] [PubMed] [Google]
- cellular process [GO] [PubMed] [Google]
- regulation of gene expression [GO] [PubMed] [Google]
- positive regulation of gene expression [GO] [PubMed] [Google]
- negative regulation of gene expression [GO] [PubMed] [Google]
- positive regulation of epithelial to mesenchymal transition [GO] [PubMed] [Google]
- positive regulation of heparan sulfate proteoglycan biosynthetic process [GO] [PubMed] [Google]
- Schwann cell proliferation [GO] [PubMed] [Google]
- response to organic cyclic compound [GO] [PubMed] [Google]
- intercalated disc [GO] [PubMed] [Google]
- response to activity [GO] [PubMed] [Google]
- membrane [GO] [PubMed] [Google]
- Wnt signaling pathway [GO] [PubMed] [Google]
- basolateral plasma membrane [GO] [PubMed] [Google]
- lateral plasma membrane [GO] [PubMed] [Google]
- morphogenesis of embryonic epithelium [GO] [PubMed] [Google]
- catenin complex [GO] [PubMed] [Google]
- flotillin complex [GO] [PubMed] [Google]
- stem cell population maintenance [GO] [PubMed] [Google]
- enzyme binding [GO] [PubMed] [Google]
- kinase binding [GO] [PubMed] [Google]
- protein kinase binding [GO] [PubMed] [Google]
- protein phosphatase binding [GO] [PubMed] [Google]
- layer formation in cerebral cortex [GO] [PubMed] [Google]
- central nervous system vasculogenesis [GO] [PubMed] [Google]
- hair cycle process [GO] [PubMed] [Google]
- Z disc [GO] [PubMed] [Google]
- lamellipodium [GO] [PubMed] [Google]
- cell junction [GO] [PubMed] [Google]
- hemopoiesis [GO] [PubMed] [Google]
- cell differentiation [GO] [PubMed] [Google]
- neuron differentiation [GO] [PubMed] [Google]
- T cell differentiation [GO] [PubMed] [Google]
- osteoclast differentiation [GO] [PubMed] [Google]
- lung development [GO] [PubMed] [Google]
- estrogen receptor binding [GO] [PubMed] [Google]
- androgen receptor signaling pathway [GO] [PubMed] [Google]
- male genitalia development [GO] [PubMed] [Google]
- regulation of epithelial cell differentiation [GO] [PubMed] [Google]
- positive regulation of epithelial cell differentiation [GO] [PubMed] [Google]
- beta-catenin destruction complex [GO] [PubMed] [Google]
- forebrain development [GO] [PubMed] [Google]
- midbrain development [GO] [PubMed] [Google]
- hindbrain development [GO] [PubMed] [Google]
- regulation of centriole-centriole cohesion [GO] [PubMed] [Google]
- pancreas development [GO] [PubMed] [Google]
- hair follicle morphogenesis [GO] [PubMed] [Google]
- cell projection membrane [GO] [PubMed] [Google]
- microvillus membrane [GO] [PubMed] [Google]
- regulation of myelination [GO] [PubMed] [Google]
- positive regulation of telomere maintenance via telomerase [GO] [PubMed] [Google]
- negative regulation of chondrocyte differentiation [GO] [PubMed] [Google]
- response to estradiol [GO] [PubMed] [Google]
- positive regulation of type I interferon production [GO] [PubMed] [Google]
- protein-DNA complex [GO] [PubMed] [Google]
- T cell differentiation in thymus [GO] [PubMed] [Google]
- negative regulation of protein sumoylation [GO] [PubMed] [Google]
- response to cytokine [GO] [PubMed] [Google]
- adherens junction organization [GO] [PubMed] [Google]
- adherens junction assembly [GO] [PubMed] [Google]
- protein localization to cell surface [GO] [PubMed] [Google]
- cellular protein localization [GO] [PubMed] [Google]
- Scrib-APC-beta-catenin complex [GO] [PubMed] [Google]
- embryonic heart tube development [GO] [PubMed] [Google]
- genitalia morphogenesis [GO] [PubMed] [Google]
- embryonic forelimb morphogenesis [GO] [PubMed] [Google]
- embryonic hindlimb morphogenesis [GO] [PubMed] [Google]
- ionotropic glutamate receptor binding [GO] [PubMed] [Google]
- nuclear hormone receptor binding [GO] [PubMed] [Google]
- hair cell differentiation [GO] [PubMed] [Google]
- embryonic skeletal limb joint morphogenesis [GO] [PubMed] [Google]
- regulation of cell proliferation [GO] [PubMed] [Google]
- regulation of T cell proliferation [GO] [PubMed] [Google]
- odontogenesis of dentin-containing tooth [GO] [PubMed] [Google]
- response to drug [GO] [PubMed] [Google]
- embryonic digit morphogenesis [GO] [PubMed] [Google]
- regulation of apoptotic process [GO] [PubMed] [Google]
- neuron projection [GO] [PubMed] [Google]
- positive regulation of apoptotic process [GO] [PubMed] [Google]
- positive regulation of I-kappaB kinase/NF-kappaB signaling [GO] [PubMed] [Google]
- proteasome-mediated ubiquitin-dependent protein catabolic process [GO] [PubMed] [Google]
- dendritic shaft [GO] [PubMed] [Google]
- apical junction complex [GO] [PubMed] [Google]
- positive regulation of MAPK cascade [GO] [PubMed] [Google]
- positive regulation of neuron apoptotic process [GO] [PubMed] [Google]
- skin development [GO] [PubMed] [Google]
- response to estrogen [GO] [PubMed] [Google]
- transcription regulatory region DNA binding [GO] [PubMed] [Google]
- ion channel binding [GO] [PubMed] [Google]
- canonical Wnt signaling pathway involved in positive regulation of epithelial to mesenchymal transition [GO] [PubMed] [Google]
- canonical Wnt signaling pathway involved in negative regulation of apoptotic process [GO] [PubMed] [Google]
- cellular response to fibroblast growth factor stimulus [GO] [PubMed] [Google]
- nuclear transcription factor complex [GO] [PubMed] [Google]
- apical part of cell [GO] [PubMed] [Google]
- synapse [GO] [PubMed] [Google]
- alpha-catenin binding [GO] [PubMed] [Google]
- cadherin binding [GO] [PubMed] [Google]
- myoblast differentiation [GO] [PubMed] [Google]
- bone resorption [GO] [PubMed] [Google]
- regulation of cell differentiation [GO] [PubMed] [Google]
- negative regulation of cell differentiation [GO] [PubMed] [Google]
- positive regulation of endothelial cell differentiation [GO] [PubMed] [Google]
- regulation of osteoblast differentiation [GO] [PubMed] [Google]
- positive regulation of osteoblast differentiation [GO] [PubMed] [Google]
- regulation of osteoclast differentiation [GO] [PubMed] [Google]
- negative regulation of osteoclast differentiation [GO] [PubMed] [Google]
- positive regulation of fibroblast growth factor receptor signaling pathway [GO] [PubMed] [Google]
- regulation of angiogenesis [GO] [PubMed] [Google]
- negative regulation of transcription, DNA-templated [GO] [PubMed] [Google]
- positive regulation of transcription, DNA-templated [GO] [PubMed] [Google]
- positive regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
- negative regulation of mitotic cell cycle, embryonic [GO] [PubMed] [Google]
- SMAD binding [GO] [PubMed] [Google]
- response to cadmium ion [GO] [PubMed] [Google]
- chromatin-mediated maintenance of transcription [GO] [PubMed] [Google]
- regulation of fibroblast proliferation [GO] [PubMed] [Google]
- cell maturation [GO] [PubMed] [Google]
- perinuclear region of cytoplasm [GO] [PubMed] [Google]
- synaptic vesicle transport [GO] [PubMed] [Google]
- animal organ development [GO] [PubMed] [Google]
- thymus development [GO] [PubMed] [Google]
- oocyte development [GO] [PubMed] [Google]
- embryonic foregut morphogenesis [GO] [PubMed] [Google]
- positive regulation of skeletal muscle tissue development [GO] [PubMed] [Google]
- regulation of smooth muscle cell proliferation [GO] [PubMed] [Google]
- embryonic cranial skeleton morphogenesis [GO] [PubMed] [Google]
- negative regulation of oligodendrocyte differentiation [GO] [PubMed] [Google]
- androgen receptor binding [GO] [PubMed] [Google]
- regulation of neurogenesis [GO] [PubMed] [Google]
- synapse organization [GO] [PubMed] [Google]
- nitric-oxide synthase binding [GO] [PubMed] [Google]
- positive regulation of DNA-binding transcription factor activity [GO] [PubMed] [Google]
- smooth muscle cell differentiation [GO] [PubMed] [Google]
- positive regulation of muscle cell differentiation [GO] [PubMed] [Google]
- protein heterooligomerization [GO] [PubMed] [Google]
- positive regulation of histone H3-K4 methylation [GO] [PubMed] [Google]
- positive regulation of telomerase activity [GO] [PubMed] [Google]
- oviduct development [GO] [PubMed] [Google]
- canonical Wnt signaling pathway [GO] [PubMed] [Google]
- limb development [GO] [PubMed] [Google]
- trachea morphogenesis [GO] [PubMed] [Google]
- trachea formation [GO] [PubMed] [Google]
- epithelial tube branching involved in lung morphogenesis [GO] [PubMed] [Google]
- lung cell differentiation [GO] [PubMed] [Google]
- lung-associated mesenchyme development [GO] [PubMed] [Google]
- lung induction [GO] [PubMed] [Google]
- epithelial cell differentiation involved in prostate gland development [GO] [PubMed] [Google]
- positive regulation of epithelial cell proliferation involved in prostate gland development [GO] [PubMed] [Google]
- hair follicle placode formation [GO] [PubMed] [Google]
- mesenchymal cell proliferation involved in lung development [GO] [PubMed] [Google]
- positive regulation of branching involved in lung morphogenesis [GO] [PubMed] [Google]
- endothelial tube morphogenesis [GO] [PubMed] [Google]
- fungiform papilla formation [GO] [PubMed] [Google]
- canonical Wnt signaling pathway involved in positive regulation of cardiac outflow tract cell proliferation [GO] [PubMed] [Google]
- sympathetic ganglion development [GO] [PubMed] [Google]
- cranial ganglion development [GO] [PubMed] [Google]
- extracellular exosome [GO] [PubMed] [Google]
- beta-catenin-TCF7L2 complex [GO] [PubMed] [Google]
- I-SMAD binding [GO] [PubMed] [Google]
- repressing transcription factor binding [GO] [PubMed] [Google]
- regulation of centromeric sister chromatid cohesion [GO] [PubMed] [Google]
- cellular response to mechanical stimulus [GO] [PubMed] [Google]
- cellular response to lithium ion [GO] [PubMed] [Google]
- cellular response to growth factor stimulus [GO] [PubMed] [Google]
- dopaminergic neuron differentiation [GO] [PubMed] [Google]
- catenin-TCF7L2 complex [GO] [PubMed] [Google]
- cellular response to indole-3-methanol [GO] [PubMed] [Google]
- cell periphery [GO] [PubMed] [Google]
- renal system development [GO] [PubMed] [Google]
- renal vesicle formation [GO] [PubMed] [Google]
- renal inner medulla development [GO] [PubMed] [Google]
- renal outer medulla development [GO] [PubMed] [Google]
- nephron tubule formation [GO] [PubMed] [Google]
- regulation of nephron tubule epithelial cell differentiation [GO] [PubMed] [Google]
- regulation of calcium ion import [GO] [PubMed] [Google]
- negative regulation of neuron death [GO] [PubMed] [Google]
- positive regulation of chromatin-mediated maintenance of transcription [GO] [PubMed] [Google]
- regulation of euchromatin binding [GO] [PubMed] [Google]
- regulation of core promoter binding [GO] [PubMed] [Google]
- beta-catenin-TCF complex assembly [GO] [PubMed] [Google]
- beta-catenin destruction complex disassembly [GO] [PubMed] [Google]
- euchromatin binding [GO] [PubMed] [Google]
- cellular response to insulin-like growth factor stimulus [GO] [PubMed] [Google]
- embryonic brain development [GO] [PubMed] [Google]
- dorsal root ganglion development [GO] [PubMed] [Google]
- beta-catenin-TCF complex [GO] [PubMed] [Google]
- Wnt signalosome [GO] [PubMed] [Google]
- regulation of protein localization to cell surface [GO] [PubMed] [Google]
- positive regulation of determination of dorsal identity [GO] [PubMed] [Google]
- positive regulation of DNA-templated transcription, initiation [GO] [PubMed] [Google]
- negative regulation of apoptotic signaling pathway [GO] [PubMed] [Google]
- protein binding [GO] [PubMed] [Google]
- nucleus [GO] [PubMed] [Google]
- nucleoplasm [GO] [PubMed] [Google]
- cytoplasm [GO] [PubMed] [Google]
- Golgi apparatus [GO] [PubMed] [Google]
- cis-Golgi network [GO] [PubMed] [Google]
- beta-catenin binding [GO] [PubMed] [Google]
- myotube differentiation involved in skeletal muscle regeneration [GO] [PubMed] [Google]
- Wnt signaling pathway [GO] [PubMed] [Google]
- somatic stem cell population maintenance [GO] [PubMed] [Google]
- skeletal muscle cell differentiation [GO] [PubMed] [Google]
- positive regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
- canonical Wnt signaling pathway [GO] [PubMed] [Google]
- beta-catenin-TCF complex assembly [GO] [PubMed] [Google]
- regulation of transforming growth factor beta receptor signaling pathway [GO] [PubMed] [Google]
- negative regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
- nuclear chromatin [GO] [PubMed] [Google]
- RNA polymerase II proximal promoter sequence-specific DNA binding [GO] [PubMed] [Google]
- RNA polymerase II repressing transcription factor binding [GO] [PubMed] [Google]
- blood vessel development [GO] [PubMed] [Google]
- DNA binding [GO] [PubMed] [Google]
- DNA-binding transcription factor activity [GO] [PubMed] [Google]
- protein binding [GO] [PubMed] [Google]
- nucleus [GO] [PubMed] [Google]
- nucleoplasm [GO] [PubMed] [Google]
- cytoplasm [GO] [PubMed] [Google]
- transcription, DNA-templated [GO] [PubMed] [Google]
- regulation of transcription, DNA-templated [GO] [PubMed] [Google]
- regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
- cell cycle arrest [GO] [PubMed] [Google]
- Wnt signaling pathway, calcium modulating pathway [GO] [PubMed] [Google]
- beta-catenin binding [GO] [PubMed] [Google]
- transcription factor binding [GO] [PubMed] [Google]
- cell proliferation [GO] [PubMed] [Google]
- response to glucose [GO] [PubMed] [Google]
- positive regulation of heparan sulfate proteoglycan biosynthetic process [GO] [PubMed] [Google]
- Wnt signaling pathway [GO] [PubMed] [Google]
- PML body [GO] [PubMed] [Google]
- protein kinase binding [GO] [PubMed] [Google]
- pancreas development [GO] [PubMed] [Google]
- positive regulation of insulin secretion [GO] [PubMed] [Google]
- positive regulation of protein binding [GO] [PubMed] [Google]
- regulation of hormone metabolic process [GO] [PubMed] [Google]
- protein-DNA complex [GO] [PubMed] [Google]
- nuclear hormone receptor binding [GO] [PubMed] [Google]
- glucose homeostasis [GO] [PubMed] [Google]
- negative regulation of DNA-binding transcription factor activity [GO] [PubMed] [Google]
- sequence-specific DNA binding [GO] [PubMed] [Google]
- maintenance of DNA repeat elements [GO] [PubMed] [Google]
- transcription regulatory region DNA binding [GO] [PubMed] [Google]
- canonical Wnt signaling pathway involved in positive regulation of epithelial to mesenchymal transition [GO] [PubMed] [Google]
- gamma-catenin binding [GO] [PubMed] [Google]
- fat cell differentiation [GO] [PubMed] [Google]
- negative regulation of transcription, DNA-templated [GO] [PubMed] [Google]
- positive regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
- positive regulation of protein export from nucleus [GO] [PubMed] [Google]
- myoblast fate commitment [GO] [PubMed] [Google]
- regulation of smooth muscle cell proliferation [GO] [PubMed] [Google]
- positive regulation of protein kinase B signaling [GO] [PubMed] [Google]
- canonical Wnt signaling pathway [GO] [PubMed] [Google]
- armadillo repeat domain binding [GO] [PubMed] [Google]
- beta-catenin-TCF7L2 complex [GO] [PubMed] [Google]
- negative regulation of canonical Wnt signaling pathway [GO] [PubMed] [Google]
- beta-catenin-TCF complex assembly [GO] [PubMed] [Google]
- negative regulation of type B pancreatic cell apoptotic process [GO] [PubMed] [Google]
- negative regulation of extrinsic apoptotic signaling pathway [GO] [PubMed] [Google]