Field Data
UniProt Accession: Q92974
Gene Name: ARHGEF2
Gene Synonim: KIAA0651, LFP40
GAP/GEF: GEF
Description: Rho guanine nucleotide exchange factor 2 (Guanine nucleotide exchange factor H1) (GEF-H1) (Microtubule-regulated Rho-GEF) (Proliferating cell nucleolar antigen p40)
Keywords: 3D-structure;Acetylation;Alternative splicing;Cell cycle;Cell division;Cell junction;Cell membrane;Cell projection;Coiled coil;Complete proteome;Cytoplasm;Cytoplasmic vesicle;Cytoskeleton;Developmental protein;Differentiation;Golgi apparatus;Guanine-nucleotide releasing factor;Immunity;Innate immunity;Membrane;Mental retardation;Metal-binding;Microtubule;Mitosis;Neurogenesis;Phosphoprotein;Reference proteome;Tight junction;Zinc;Zinc-finger
Entrez ID: 9181
Ensembl Gene ID: ENSG00000116584
Ensembl Protein ID: ENSP00000354837
Our Specificity RhoA
Literature Specificity RhoA
Literature reference
Domain Composition:

Cellular Component

GO ID Description
GO:0005737cytoplasm
GO:0005794Golgi apparatus
GO:0042995cell projection
GO:0002102podosome
GO:0031982vesicle
GO:0031410cytoplasmic vesicle
GO:0005829cytosol
GO:0005856cytoskeleton
GO:0032587ruffle membrane
GO:0043234protein complex
GO:0043198dendritic shaft
GO:0005819spindle
GO:0014069postsynaptic density
GO:0005886plasma membrane
GO:0043025neuronal cell body
GO:0016020membrane
GO:0005925focal adhesion
GO:0005874microtubule
GO:0005923bicellular tight junction
GO:0030054cell junction

Molecular Function

GO ID Description
GO:0005089Rho guanyl-nucleotide exchange factor activity
GO:0030676Rac guanyl-nucleotide exchange factor activity
GO:0008017microtubule binding
GO:0005085guanyl-nucleotide exchange factor activity
GO:0017048Rho GTPase binding
GO:0048365Rac GTPase binding
GO:0008270zinc ion binding
GO:0005515protein binding
GO:0046872metal ion binding
GO:0008134transcription factor binding

Biological Process

GO ID Description
GO:1902042negative regulation of extrinsic apoptotic signaling pathway via death domain receptors
GO:0043547positive regulation of GTPase activity
GO:0071225cellular response to muramyl dipeptide
GO:1902219negative regulation of intrinsic apoptotic signaling pathway in response to osmotic stress
GO:0035023regulation of Rho protein signal transduction
GO:0035556intracellular signal transduction
GO:0051301cell division
GO:0071802negative regulation of podosome assembly
GO:0000902cell morphogenesis
GO:0007026negative regulation of microtubule depolymerization
GO:0071356cellular response to tumor necrosis factor
GO:0006886intracellular protein transport
GO:0050768negative regulation of neurogenesis
GO:0071474cellular hyperosmotic response
GO:0043065positive regulation of apoptotic process
GO:0007049cell cycle
GO:0042127regulation of cell proliferation
GO:0051056regulation of small GTPase mediated signal transduction
GO:0032760positive regulation of tumor necrosis factor production
GO:0060546negative regulation of necroptotic process
GO:0045087innate immune response
GO:0051092positive regulation of NF-kappaB transcription factor activity
GO:0007015actin filament organization
GO:0000132establishment of mitotic spindle orientation
GO:0050731positive regulation of peptidyl-tyrosine phosphorylation
GO:0002376immune system process
GO:0045944positive regulation of transcription from RNA polymerase II promoter
GO:0032755positive regulation of interleukin-6 production

Reactome

Reactome ID Description
R-HSA-416482G alpha (12/13) signalling events
R-HSA-194840Rho GTPase cycle
R-HSA-193648NRAGE signals death through JNK

KEGG

Kegg ID Description
hsa04530Tight junction
hsa05418Fluid shear stress and atherosclerosis
hsa05130Pathogenic Escherichia coli infection
Field Data
Localization in this study: tubulin
Localization in the literature: tubulin plasma membrane (junctions)

Confocal Images

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Cytochalasin D Screen Positive

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Cytochalasin D Screen Negative

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organism orgs
Organism: Mus musculus

Nucleotide Sequence

>ARHGEF2
atgtctcggatcgaatccctcactcgcgcgcggatcgaccggagcaaggagcaggcaacc
aagacccgggaaaaggagaagatgaaggaagctaaagatgcccgctataccaacggccac
ctcttcaccaccatctccgtctccggcatgaccatgtgctatgcctgtaacaagagcatc
acagccaaggaagccctcatttgtcctacatgtaacgtgaccatccacaaccgctgtaaa
gacaccctggccaactgtaccaaggtcaagcagaagcaacagaaagctgcactgctgagg
aacaacactgctttgcagtctgtctcccttcgaagtaagacgaccaccagagagcggcca
acgtctgccatttacccttccgacagcttccggcagtccctcctgggttctcggcggggc
ctctcctccttatctttggccaaaagtgtttccactaccaacattgctggacatttcaat
gatgagtctcctctggggctgcgtcagatcctctcccagtccacagactccctcaacatg
cggaaccgaaccctgtccgtggaatcccttattgatgaaggtgtagaagtgttctacaat
gagctgatgagcgactttgagatggatgagaaggactttgaggcggattcttggagcctt
gccgtggacagcagcttcctgcagcagcacaaaaaggaagtgatgaagaagcaagatgtc
atctatgagctgatccagacagagctgcaccacgtgagaaccttgaagattatgacccgc
ctctttcgcactgggatgctggaagagttgcagatggagccagaagtggtccagggcctg
ttcccctgcgtggatgaactcagtgacattcacacacgtttccttaatcagcttctggaa
cggcggcgccaggctctatgtccaggcagcacccggaactttgtcatccatcgtttgggt
gacttgctcatcagtcagttctcaggttccaatgctgagcagatgcgcaagacctactca
gagttctgcagccgccacaccaaggccttaaagctctataaggagctgtatgctcgagac
aaacgcttccaacagttcatccggaaaatgacccgctcagctgtgttgaagcggcatgga
gttcaggaatgcattctcctggtgactcagcggatcaccaaataccctgtgctcatcaac
cgaatcctgcagaattcccacggggttgaagaagagtaccaagacttggcgtcagcccta
ggactagtgaaggagttgttgtccaatgtggaccaggatgtgcacgagctggagaaagag
gcccgcctgcaggagatttacaaccgaatggatccccgggctcagacccccgtacctggc
aagggccccttcggccgagatgaacttttacggagaaaacttatccatgaaggctgcctg
ctctggaagacagccacaggccgcttcaaagatgtcctgttgctgctgatgacagacgtg
ctcgtgtttctccaggaaaaggaccagaaatacattttcacatccctggacaagccctca
gtggtgtccttgcagaacctcatcgtaagagacatagccaaccaggcgaaagggatgttt
ctgattagttctggaccgcctgagatgtatgaggtgcatgcggcgtcccgagacgaccgg
actacctggatccgtgtcatccagcagagtgtgcgcctgtgcccgtccagggaggacttt
cctctgatcgagacagaggataaggcgtatctccggaggatcaagacgaaactgcagcag
aaaaaccaggcgctagtggagctgctacagaagaatgttgagctgtttgccgagatggtc
cacttccaggccttaaaggctggcttcgttggaatgcccccacccgccctgcccaggggc
cttttccgtcttgagtcctttgagtccctccgaggcgagcgcctgctaaaggatgccctc
cgtgaagtggaaggcctgaaagacctgctgttgggcccatgtgtggacctgccaacgaca
tcccgagaaccagccttacccttggactctgacagcggtagctgtcctggggtcactgcc
aatggagaggccagaaccttcaatggctccattgaactctgtagagcagactcagattcc
agccagaaggatcggaatggaaatcagttgaggtcaccacaggaggaggtgttacagcca
ttgatcaatctttatggacttctacatggcctgcaggctgttgtggtccagcaggaaaga
ctgatggaagccctgttccctgagggccctgaacggtgggaaaagctatcccgagccaac
tctcgggatggtgaagctggccgggctgcggttgcttctgtaactcctgagaagcaggcc
acggagctggcactactgcagaggcaacacaccctgttgcaggaagagctgcggcgctgc
cagcggctcggggaagagcgggcaactgaagctggcagcctggaagccaggctccgagag
agcgagcaagcccgggccctgctggagcgggaggctgaagagatccgccggcagcttgca
gccttgggccaaaacgagccactcccggcagaagcgccctgggctcgcaggcctctggac
ccacggcgccgcagccttccagcgggcgacgctttatacttgagcttcaatcccccccag
cccagtcgaggccatgaccgcctggatttgcctgtgactgttcgttccctccaccgaccc
tttgatgaccgagaggcgcaagaacttggtagccccgaggatcgactgcaggacagcagt
gaccctgatactggtagtgaggaggaagtcagtagccgcctgtctccacctcacagtcct
cgagacttcacccgaatgcaggacattcctgaagagacagaaagccgagatggggagccc
acagcttcagagagcttaatta

Protein Sequence

>ARHGEF2
MSRIESLTRARIDRSKEQATKTREKEKMKEAKDARYTNGHLFTTISVSGMTMCYACNKSI
TAKEALICPTCNVTIHNRCKDTLANCTKVKQKQQKAALLRNNTALQSVSLRSKTTTRERP
TSAIYPSDSFRQSLLGSRRGLSSLSLAKSVSTTNIAGHFNDESPLGLRQILSQSTDSLNM
RNRTLSVESLIDEGVEVFYNELMSDFEMDEKDFEADSWSLAVDSSFLQQHKKEVMKKQDV
IYELIQTELHHVRTLKIMTRLFRTGMLEELQMEPEVVQGLFPCVDELSDIHTRFLNQLLE
RRRQALCPGSTRNFVIHRLGDLLISQFSGSNAEQMRKTYSEFCSRHTKALKLYKELYARD
KRFQQFIRKMTRSAVLKRHGVQECILLVTQRITKYPVLINRILQNSHGVEEEYQDLASAL
GLVKELLSNVDQDVHELEKEARLQEIYNRMDPRAQTPVPGKGPFGRDELLRRKLIHEGCL
LWKTATGRFKDVLLLLMTDVLVFLQEKDQKYIFTSLDKPSVVSLQNLIVRDIANQAKGMF
LISSGPPEMYEVHAASRDDRTTWIRVIQQSVRLCPSREDFPLIETEDKAYLRRIKTKLQQ
KNQALVELLQKNVELFAEMVHFQALKAGFVGMPPPALPRGLFRLESFESLRGERLLKDAL
REVEGLKDLLLGPCVDLPTTSREPALPLDSDSGSCPGVTANGEARTFNGSIELCRADSDS
SQKDRNGNQLRSPQEEVLQPLINLYGLLHGLQAVVVQQERLMEALFPEGPERWEKLSRAN
SRDGEAGRAAVASVTPEKQATELALLQRQHTLLQEELRRCQRLGEERATEAGSLEARLRE
SEQARALLEREAEEIRRQLAALGQNEPLPAEAPWARRPLDPRRRSLPAGDALYLSFNPPQ
PSRGHDRLDLPVTVRSLHRPFDDREAQELGSPEDRLQDSSDPDTGSEEEVSSRLSPPHSP
RDFTRMQDIPEETESRDGEPTASESLI

  • Gold
  • Silver
  • Bronze
  • IntAct