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PDB Keywords for 1L3E

(Keywords from the PDB file are used here. They may or may not correspond to GO term names).

Protein-Protein Complex|Transcription [GO] [PubMed] [Google]

GO Keywords for 1L3E

(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]
histone acetyltransferase complex [GO] [PubMed] [Google]
chromatin [GO] [PubMed] [Google]
RNA polymerase II proximal promoter sequence-specific DNA binding [GO] [PubMed] [Google]
RNA polymerase II core promoter sequence-specific DNA binding [GO] [PubMed] [Google]
core promoter binding [GO] [PubMed] [Google]
RNA polymerase II transcription factor binding [GO] [PubMed] [Google]
RNA polymerase II activating transcription factor binding [GO] [PubMed] [Google]
DNA-binding transcription activator activity, RNA polymerase II-specific [GO] [PubMed] [Google]
response to hypoxia [GO] [PubMed] [Google]
somitogenesis [GO] [PubMed] [Google]
liver development [GO] [PubMed] [Google]
positive regulation of protein phosphorylation [GO] [PubMed] [Google]
p53 binding [GO] [PubMed] [Google]
stimulatory C-type lectin receptor signaling pathway [GO] [PubMed] [Google]
DNA binding [GO] [PubMed] [Google]
chromatin binding [GO] [PubMed] [Google]
damaged DNA binding [GO] [PubMed] [Google]
DNA-binding transcription factor activity [GO] [PubMed] [Google]
transcription coregulator activity [GO] [PubMed] [Google]
transcription coactivator activity [GO] [PubMed] [Google]
antigen binding [GO] [PubMed] [Google]
histone acetyltransferase activity [GO] [PubMed] [Google]
lysine N-acetyltransferase activity, acting on acetyl phosphate as donor [GO] [PubMed] [Google]
protein binding [GO] [PubMed] [Google]
nucleus [GO] [PubMed] [Google]
nucleoplasm [GO] [PubMed] [Google]
transcription factor complex [GO] [PubMed] [Google]
cytoplasm [GO] [PubMed] [Google]
transcription-coupled nucleotide-excision repair [GO] [PubMed] [Google]
transcription, DNA-templated [GO] [PubMed] [Google]
regulation of transcription, DNA-templated [GO] [PubMed] [Google]
transcription by RNA polymerase II [GO] [PubMed] [Google]
protein acetylation [GO] [PubMed] [Google]
internal protein amino acid acetylation [GO] [PubMed] [Google]
apoptotic process [GO] [PubMed] [Google]
DNA damage response, signal transduction by p53 class mediator resulting in cell cycle arrest [GO] [PubMed] [Google]
positive regulation of transcription from RNA polymerase II promoter involved in unfolded protein response [GO] [PubMed] [Google]
cell cycle [GO] [PubMed] [Google]
Notch signaling pathway [GO] [PubMed] [Google]
nervous system development [GO] [PubMed] [Google]
heart development [GO] [PubMed] [Google]
skeletal muscle tissue development [GO] [PubMed] [Google]
memory [GO] [PubMed] [Google]
circadian rhythm [GO] [PubMed] [Google]
beta-catenin binding [GO] [PubMed] [Google]
protein C-terminus binding [GO] [PubMed] [Google]
transcription factor binding [GO] [PubMed] [Google]
zinc ion binding [GO] [PubMed] [Google]
response to glucose [GO] [PubMed] [Google]
animal organ morphogenesis [GO] [PubMed] [Google]
regulation of autophagy [GO] [PubMed] [Google]
positive regulation of glycoprotein biosynthetic process [GO] [PubMed] [Google]
positive regulation of gene expression [GO] [PubMed] [Google]
positive regulation of cell death [GO] [PubMed] [Google]
response to organic cyclic compound [GO] [PubMed] [Google]
positive regulation of muscle atrophy [GO] [PubMed] [Google]
viral process [GO] [PubMed] [Google]
acetyltransferase activity [GO] [PubMed] [Google]
histone acetylation [GO] [PubMed] [Google]
transferase activity [GO] [PubMed] [Google]
transferase activity, transferring acyl groups [GO] [PubMed] [Google]
N-terminal peptidyl-lysine acetylation [GO] [PubMed] [Google]
internal peptidyl-lysine acetylation [GO] [PubMed] [Google]
protein kinase binding [GO] [PubMed] [Google]
B cell differentiation [GO] [PubMed] [Google]
platelet formation [GO] [PubMed] [Google]
positive regulation of cell growth [GO] [PubMed] [Google]
lung development [GO] [PubMed] [Google]
negative regulation of cellular metabolic process [GO] [PubMed] [Google]
positive regulation of cellular metabolic process [GO] [PubMed] [Google]
chromatin DNA binding [GO] [PubMed] [Google]
response to cobalt ion [GO] [PubMed] [Google]
positive regulation of protein binding [GO] [PubMed] [Google]
positive regulation of type I interferon production [GO] [PubMed] [Google]
response to retinoic acid [GO] [PubMed] [Google]
positive regulation of collagen biosynthetic process [GO] [PubMed] [Google]
protein-DNA complex [GO] [PubMed] [Google]
positive regulation of protein import into nucleus, translocation [GO] [PubMed] [Google]
activating transcription factor binding [GO] [PubMed] [Google]
peptide N-acetyltransferase activity [GO] [PubMed] [Google]
response to tumor necrosis factor [GO] [PubMed] [Google]
cellular response to UV [GO] [PubMed] [Google]
positive regulation of histone acetylation [GO] [PubMed] [Google]
nuclear hormone receptor binding [GO] [PubMed] [Google]
glucocorticoid receptor binding [GO] [PubMed] [Google]
cellular response to drug [GO] [PubMed] [Google]
megakaryocyte development [GO] [PubMed] [Google]
cellular response to trichostatin A [GO] [PubMed] [Google]
response to drug [GO] [PubMed] [Google]
response to hydrogen peroxide [GO] [PubMed] [Google]
intrinsic apoptotic signaling pathway in response to DNA damage by p53 class mediator [GO] [PubMed] [Google]
peroxisome proliferator activated receptor binding [GO] [PubMed] [Google]
negative regulation of cysteine-type endopeptidase activity involved in apoptotic process [GO] [PubMed] [Google]
positive regulation of DNA binding [GO] [PubMed] [Google]
bHLH transcription factor binding [GO] [PubMed] [Google]
protein kinase B signaling [GO] [PubMed] [Google]
response to estrogen [GO] [PubMed] [Google]
positive regulation by host of viral transcription [GO] [PubMed] [Google]
histone H3 acetylation [GO] [PubMed] [Google]
histone H4 acetylation [GO] [PubMed] [Google]
histone H2B acetylation [GO] [PubMed] [Google]
fat cell differentiation [GO] [PubMed] [Google]
response to ethanol [GO] [PubMed] [Google]
positive regulation of translation [GO] [PubMed] [Google]
positive regulation of axon extension [GO] [PubMed] [Google]
positive regulation of cell size [GO] [PubMed] [Google]
positive regulation of gene expression, epigenetic [GO] [PubMed] [Google]
positive regulation of proteolysis [GO] [PubMed] [Google]
positive regulation of transcription, DNA-templated [GO] [PubMed] [Google]
positive regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
SMAD binding [GO] [PubMed] [Google]
metal ion binding [GO] [PubMed] [Google]
rhythmic process [GO] [PubMed] [Google]
digestive tract development [GO] [PubMed] [Google]
androgen receptor binding [GO] [PubMed] [Google]
positive regulation of protein secretion [GO] [PubMed] [Google]
protein stabilization [GO] [PubMed] [Google]
mitogen-activated protein kinase binding [GO] [PubMed] [Google]
NF-kappaB binding [GO] [PubMed] [Google]
positive regulation of DNA-binding transcription factor activity [GO] [PubMed] [Google]
response to calcium ion [GO] [PubMed] [Google]
regulation of cell cycle [GO] [PubMed] [Google]
regulation of angiotensin metabolic process [GO] [PubMed] [Google]
positive regulation of sarcomere organization [GO] [PubMed] [Google]
negative regulation of cell death [GO] [PubMed] [Google]
regulation of androgen receptor signaling pathway [GO] [PubMed] [Google]
regulation of transcription from RNA polymerase II promoter in response to hypoxia [GO] [PubMed] [Google]
protein-DNA complex assembly [GO] [PubMed] [Google]
cellular response to hydrogen peroxide [GO] [PubMed] [Google]
response to fatty acid [GO] [PubMed] [Google]
cellular response to antibiotic [GO] [PubMed] [Google]
cellular response to retinoic acid [GO] [PubMed] [Google]
cellular response to cAMP [GO] [PubMed] [Google]
cellular response to glucose stimulus [GO] [PubMed] [Google]
cellular response to mineralocorticoid stimulus [GO] [PubMed] [Google]
cellular response to organic cyclic compound [GO] [PubMed] [Google]
response to dexamethasone [GO] [PubMed] [Google]
cellular response to dexamethasone stimulus [GO] [PubMed] [Google]
regulation of tubulin deacetylation [GO] [PubMed] [Google]
pre-mRNA intronic binding [GO] [PubMed] [Google]
regulation of cellular response to heat [GO] [PubMed] [Google]
regulation of signal transduction by p53 class mediator [GO] [PubMed] [Google]
positive regulation of protein acetylation [GO] [PubMed] [Google]
beta-catenin-TCF complex assembly [GO] [PubMed] [Google]
cellular response to nerve growth factor stimulus [GO] [PubMed] [Google]
protein antigen binding [GO] [PubMed] [Google]
negative regulation of miRNA metabolic process [GO] [PubMed] [Google]
negative regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
DNA-binding transcription factor activity, RNA polymerase II-specific [GO] [PubMed] [Google]
obsolete transcription factor activity, transcription factor binding [GO] [PubMed] [Google]
obsolete transcription factor activity, RNA polymerase II transcription factor binding [GO] [PubMed] [Google]
proximal promoter DNA-binding transcription activator activity, RNA polymerase II-specific [GO] [PubMed] [Google]
DNA-binding transcription activator activity, RNA polymerase II-specific [GO] [PubMed] [Google]
angiogenesis [GO] [PubMed] [Google]
blood vessel development [GO] [PubMed] [Google]
response to hypoxia [GO] [PubMed] [Google]
neural crest cell migration [GO] [PubMed] [Google]
epithelial to mesenchymal transition [GO] [PubMed] [Google]
embryonic placenta development [GO] [PubMed] [Google]
B-1 B cell homeostasis [GO] [PubMed] [Google]
positive regulation of endothelial cell proliferation [GO] [PubMed] [Google]
vasculature development [GO] [PubMed] [Google]
heart looping [GO] [PubMed] [Google]
positive regulation of neuroblast proliferation [GO] [PubMed] [Google]
connective tissue replacement involved in inflammatory response wound healing [GO] [PubMed] [Google]
outflow tract morphogenesis [GO] [PubMed] [Google]
cardiac ventricle morphogenesis [GO] [PubMed] [Google]
DNA binding [GO] [PubMed] [Google]
DNA-binding transcription factor activity [GO] [PubMed] [Google]
transcription factor activity, RNA polymerase II distal enhancer sequence-specific binding [GO] [PubMed] [Google]
protein binding [GO] [PubMed] [Google]
nucleus [GO] [PubMed] [Google]
nucleoplasm [GO] [PubMed] [Google]
transcription factor complex [GO] [PubMed] [Google]
cytoplasm [GO] [PubMed] [Google]
cytosol [GO] [PubMed] [Google]
lactate metabolic process [GO] [PubMed] [Google]
regulation of glycolytic process [GO] [PubMed] [Google]
transcription, DNA-templated [GO] [PubMed] [Google]
regulation of transcription, DNA-templated [GO] [PubMed] [Google]
transcription by RNA polymerase II [GO] [PubMed] [Google]
cellular iron ion homeostasis [GO] [PubMed] [Google]
acute-phase response [GO] [PubMed] [Google]
signal transduction [GO] [PubMed] [Google]
lactation [GO] [PubMed] [Google]
transcription factor binding [GO] [PubMed] [Google]
positive regulation of cell proliferation [GO] [PubMed] [Google]
visual learning [GO] [PubMed] [Google]
response to mechanical stimulus [GO] [PubMed] [Google]
response to salt stress [GO] [PubMed] [Google]
response to glucose [GO] [PubMed] [Google]
response to X-ray [GO] [PubMed] [Google]
regulation of gene expression [GO] [PubMed] [Google]
positive regulation of autophagy [GO] [PubMed] [Google]
vascular endothelial growth factor production [GO] [PubMed] [Google]
positive regulation of vascular endothelial growth factor production [GO] [PubMed] [Google]
positive regulation of gene expression [GO] [PubMed] [Google]
positive regulation of epithelial cell migration [GO] [PubMed] [Google]
positive regulation of receptor biosynthetic process [GO] [PubMed] [Google]
response to auditory stimulus [GO] [PubMed] [Google]
response to purine-containing compound [GO] [PubMed] [Google]
response to activity [GO] [PubMed] [Google]
response to muscle activity [GO] [PubMed] [Google]
positive regulation of macroautophagy [GO] [PubMed] [Google]
nuclear speck [GO] [PubMed] [Google]
axonal transport of mitochondrion [GO] [PubMed] [Google]
enzyme binding [GO] [PubMed] [Google]
protein kinase binding [GO] [PubMed] [Google]
neural fold elevation formation [GO] [PubMed] [Google]
cerebral cortex development [GO] [PubMed] [Google]
cell differentiation [GO] [PubMed] [Google]
negative regulation of ossification [GO] [PubMed] [Google]
negative regulation of bone mineralization [GO] [PubMed] [Google]
positive regulation of vascular endothelial growth factor receptor signaling pathway [GO] [PubMed] [Google]
motile cilium [GO] [PubMed] [Google]
ubiquitin protein ligase binding [GO] [PubMed] [Google]
negative regulation of TOR signaling [GO] [PubMed] [Google]
response to cobalt ion [GO] [PubMed] [Google]
response to estradiol [GO] [PubMed] [Google]
oxygen homeostasis [GO] [PubMed] [Google]
positive regulation of chemokine production [GO] [PubMed] [Google]
cellular response to insulin stimulus [GO] [PubMed] [Google]
regulation of transforming growth factor beta2 production [GO] [PubMed] [Google]
collagen metabolic process [GO] [PubMed] [Google]
histone acetyltransferase binding [GO] [PubMed] [Google]
embryonic hemopoiesis [GO] [PubMed] [Google]
nuclear hormone receptor binding [GO] [PubMed] [Google]
cellular response to drug [GO] [PubMed] [Google]
positive regulation of insulin secretion involved in cellular response to glucose stimulus [GO] [PubMed] [Google]
regulation of cell proliferation [GO] [PubMed] [Google]
response to drug [GO] [PubMed] [Google]
hemoglobin biosynthetic process [GO] [PubMed] [Google]
glucose homeostasis [GO] [PubMed] [Google]
mRNA transcription by RNA polymerase II [GO] [PubMed] [Google]
histone deacetylase binding [GO] [PubMed] [Google]
positive regulation of apoptotic process [GO] [PubMed] [Google]
negative regulation of apoptotic process [GO] [PubMed] [Google]
response to alkaloid [GO] [PubMed] [Google]
negative regulation of neuron apoptotic process [GO] [PubMed] [Google]
sequence-specific DNA binding [GO] [PubMed] [Google]
regulation of transcription from RNA polymerase II promoter in response to oxidative stress [GO] [PubMed] [Google]
response to estrogen [GO] [PubMed] [Google]
positive regulation of erythrocyte differentiation [GO] [PubMed] [Google]
positive regulation of angiogenesis [GO] [PubMed] [Google]
positive regulation of cell size [GO] [PubMed] [Google]
positive regulation of glycolytic process [GO] [PubMed] [Google]
positive regulation of transcription, DNA-templated [GO] [PubMed] [Google]
negative regulation of vasoconstriction [GO] [PubMed] [Google]
negative regulation of growth [GO] [PubMed] [Google]
positive regulation of transcription by RNA polymerase II [GO] [PubMed] [Google]
muscle cell cellular homeostasis [GO] [PubMed] [Google]
positive regulation of hormone biosynthetic process [GO] [PubMed] [Google]
protein heterodimerization activity [GO] [PubMed] [Google]
protein dimerization activity [GO] [PubMed] [Google]
blood vessel morphogenesis [GO] [PubMed] [Google]
digestive tract morphogenesis [GO] [PubMed] [Google]
camera-type eye morphogenesis [GO] [PubMed] [Google]
positive regulation of smooth muscle cell proliferation [GO] [PubMed] [Google]
regulation of catalytic activity [GO] [PubMed] [Google]
positive regulation of nitric-oxide synthase activity [GO] [PubMed] [Google]
cartilage development [GO] [PubMed] [Google]
response to glucocorticoid [GO] [PubMed] [Google]
elastin metabolic process [GO] [PubMed] [Google]
Hsp90 protein binding [GO] [PubMed] [Google]
maternal process involved in female pregnancy [GO] [PubMed] [Google]
intestinal epithelial cell maturation [GO] [PubMed] [Google]
response to fungicide [GO] [PubMed] [Google]
epithelial cell differentiation involved in mammary gland alveolus development [GO] [PubMed] [Google]
iris morphogenesis [GO] [PubMed] [Google]
retina vasculature development in camera-type eye [GO] [PubMed] [Google]
regulation of transcription from RNA polymerase II promoter in response to hypoxia [GO] [PubMed] [Google]
positive regulation of transcription from RNA polymerase II promoter in response to hypoxia [GO] [PubMed] [Google]
positive regulation of chemokine-mediated signaling pathway [GO] [PubMed] [Google]
regulation of thymocyte apoptotic process [GO] [PubMed] [Google]
negative regulation of thymocyte apoptotic process [GO] [PubMed] [Google]
cellular response to hydrogen peroxide [GO] [PubMed] [Google]
cellular response to lipopolysaccharide [GO] [PubMed] [Google]
cellular response to carbon monoxide [GO] [PubMed] [Google]
cellular response to nitrite [GO] [PubMed] [Google]
cellular response to electrical stimulus [GO] [PubMed] [Google]
cellular response to mechanical stimulus [GO] [PubMed] [Google]
cellular response to cobalt ion [GO] [PubMed] [Google]
cellular response to glucose stimulus [GO] [PubMed] [Google]
cellular response to interleukin-1 [GO] [PubMed] [Google]
cellular response to lipid [GO] [PubMed] [Google]
cellular response to organic cyclic compound [GO] [PubMed] [Google]
cellular response to hypoxia [GO] [PubMed] [Google]
cellular response to light stimulus [GO] [PubMed] [Google]
dopaminergic neuron differentiation [GO] [PubMed] [Google]
response to anesthetic [GO] [PubMed] [Google]
RNA polymerase II transcription factor complex [GO] [PubMed] [Google]
cellular response to toxic substance [GO] [PubMed] [Google]
hypoxia-inducible factor-1alpha signaling pathway [GO] [PubMed] [Google]
regulation of cellular response to hypoxia [GO] [PubMed] [Google]
positive regulation of pri-miRNA transcription by RNA polymerase II [GO] [PubMed] [Google]
negative regulation of oxidative stress-induced neuron intrinsic apoptotic signaling pathway [GO] [PubMed] [Google]
positive regulation of autophagy of mitochondrion [GO] [PubMed] [Google]
regulation of aerobic respiration [GO] [PubMed] [Google]
cellular response to cyanide [GO] [PubMed] [Google]
axon cytoplasm [GO] [PubMed] [Google]
negative regulation of reactive oxygen species metabolic process [GO] [PubMed] [Google]
negative regulation of mesenchymal cell apoptotic process [GO] [PubMed] [Google]