Identification
HMDB Protein ID CDBP03185
Secondary Accession Numbers Not Available
Name Rho GTPase-activating protein 32
Description Not Available
Synonyms
  1. Brain-specific Rho GTPase-activating protein
  2. GAB-associated Cdc42/Rac GTPase-activating protein
  3. GC-GAP
  4. GTPase regulator interacting with TrkA
  5. Rho-type GTPase-activating protein 32
  6. Rho/Cdc42/Rac GTPase-activating protein RICS
  7. RhoGAP involved in the beta-catenin-N-cadherin and NMDA receptor signaling
  8. p200RhoGAP
  9. p250GAP
Gene Name ARHGAP32
Protein Type Enzyme
Biological Properties
General Function Involved in protein binding
Specific Function GTPase-activating protein (GAP) promoting GTP hydrolysis on RHOA, CDC42 and RAC1 small GTPases. May be involved in the differentiation of neuronal cells during the formation of neurite extensions. Involved in NMDA receptor activity-dependent actin reorganization in dendritic spines. May mediate cross-talks between Ras- and Rho-regulated signaling pathways in cell growth regulation. Isoform 2 has higher GAP activity
GO Classification
Component
cell part
intracellular
Function
phospholipid binding
phosphoinositide binding
binding
protein binding
lipid binding
Process
cellular process
biological regulation
regulation of biological process
regulation of cellular process
signal transduction
cell communication
Cellular Location
  1. Cytoplasm
  2. Golgi apparatus membrane
  3. Endosome membrane
  4. Membrane
  5. Endoplasmic reticulum membrane
  6. Cell junction
  7. synapse
  8. Cell projection
  9. dendritic spine
  10. postsynaptic cell membrane
  11. postsynaptic density
  12. cell cortex
Pathways
Gene Properties
Chromosome Location Chromosome:1
Locus 11q24.3
SNPs ARHGAP32
Gene Sequence
>6264 bp
ATGGAGACTGAAAGTGAGAGTAGCACTTTAGGGGATGACAGTGTCTTCTGGTTGGAGTCT
GAAGTTATAATCCAGGTGACTGACTGTGAAGAGGAAGAAAGGGAAGAGAAGTTCAGGAAG
ATGAAGTCCTCAGTACATTCTGAAGAAGATGATTTTGTTCCAGAGCTACATAGAAATGTA
CACCCTCGAGAGCGGCCTGATTGGGAAGAAACTCTTAGCGCAATGGCAAGAGGCGCAGAT
GTTCCAGAGATTCCTGGAGATCTTACTCTTAAGACGTGTGGCAGTACAGCCAGTATGAAG
GTTAAGCATGTGAAAAAGTTACCCTTCACTAAAGGTCACTTTCCGAAGATGGCTGAATGT
GCGCATTTCCATTATGAGAATGTTGAGTTCGGCAGCATACAGCTTTCACTTTCAGAAGAA
CAGAATGAAGTAATGAAAAATGGCTGTGAATCTAAAGAGCTGGTCTACCTCGTGCAGATT
GCTTGTCAGGGAAAAAGTTGGATTGTTAAAAGAAGTTATGAAGATTTTCGGGTACTTGAT
AAACATCTTCATCTGTGTATTTATGACCGAAGATTTTCCCAGCTCTCAGAACTTCCCCGT
TCTGACACCCTGAAGGACAGTCCAGAGTCGGTCACTCAGATGCTTATGGCTTACCTGTCA
CGCCTTTCAGCTATCGCTGGCAACAAGATCAACTGTGGGCCCGCCCTTACCTGGATGGAG
ATTGATAATAAGGGAAATCACCTTTTGGTTCATGAGGAGTCATCCATCAACACTCCTGCT
GTCGGTGCTGCCCATGTTATCAAGAGGTACACTGCTCGGGCCCCTGACGAACTGACCTTA
GAGGTGGGAGACATTGTTTCTGTTATTGACATGCCCCCGAAAGTGTTAAGCACATGGTGG
AGAGGCAAGCACGGATTCCAGGTGGGACTCTTCCCTGGACACTGTGTTGAGTTAATTAAC
CAAAAAGTTCCCCAGTCAGTGACCAACTCAGTGCCAAAACCAGTGTCTAAAAAGCACGGC
AAGCTCATTACGTTCTTACGAACATTCATGAAGTCTCGTCCAACAAAACAGAAGCTGAAG
CAGCGGGGAATCTTGAAAGAGAGGGTGTTTGGTTGTGACCTGGGGGAACACCTTCTAAAT
TCTGGTTTTGAAGTGCCGCAGGTTCTTCAAAGCTGCACAGCATTCATTGAGAGATATGGC
ATCGTGGATGGAATCTATCGCCTTTCTGGTGTTGCCTCCAATATCCAGAGACTACGCCAT
GAATTTGACTCTGAGCACGTCCCCGACCTGACGAAAGAACCGTATGTTCAGGACATCCAT
TCTGTGGGTTCCCTATGTAAGCTGTACTTCCGGGAACTCCCAAACCCTCTGCTTACCTAC
CAGCTGTATGAGAAATTTTCTGATGCAGTTTCAGCAGCAACAGATGAAGAAAGGCTGATA
AAAATCCACGATGTCATCCAGCAGCTCCCCCCACCACACTACAGAACACTGGAGTTCCTG
ATGAGACACTTGTCTCTTCTAGCTGACTATTGTTCCATCACAAATATGCATGCAAAAAAT
CTAGCAATTGTTTGGGCTCCAAACCTGTTAAGATCAAAACAGATAGAATCTGCCTGCTTC
AGTGGAACAGCAGCTTTCATGGAAGTGAGGATTCAGTCTGTGGTTGTTGAGTTCATCCTG
AATCACGTTGATGTGCTGTTCAGCGGCAGAATCAGCATGGCCATGCAAGAGGGGGCAGCT
TCTCTATCAAGGCCCAAGTCCCTCCTGGTATCCTCTCCATCCACCAAACTGCTGACATTG
GAAGAGGCCCAGGCACGAACACAAGCTCAGGTCAATTCTCCAATTGTGACGGAAAATAAA
TATATCGAAGTAGGAGAAGGACCTGCTGCACTTCAGGGGAAATTTCATACCATAATTGAG
TTCCCACTTGAAAGAAAGAGGCCTCAAAATAAGATGAAAAAGTCTCCTGTGGGTAGCTGG
CGTTCCTTTTTCAACTTGGGGAAATCATCATCTGTTTCTAAACGAAAGCTGCAGCGGAAT
GAGAGTGAGCCTTCAGAGATGAAAGCCATGGCTCTGAAAGGTGGCAGGGCAGAAGGAACC
CTCCGTTCAGCTAAAAGTGAGGAGTCTCTTACATCTCTCCATGCAGTTGATGGTGATTCT
AAGCTCTTCCGACCCAGAAGACCCAGATCTTCCAGTGATGCACTGTCTGCCTCTTTTAAT
GGAGAAATGCTGGGGAACCGCTGTAACTCCTATGATAATCTGCCTCATGACAATGAGAGT
GAGGAGGAAGGAGGGCTGCTTCATATCCCAGCCCTTATGTCTCCTCATTCAGCTGAGGAT
GTTGACTTGAGCCCACCAGACATTGGAGTAGCCAGCCTGGATTTTGATCCAATGTCATTT
CAATGTAGTCCTCCTAAGGCCGAATCAGAATGTCTGGAGAGTGGTGCTTCCTTTTTAGAT
TCACCAGGATACTCCAAGGATAAACCAAGTGCCAATAAAAAGGATGCAGAAACAGGTAGT
AGCCAATGTCAGACTCCAGGAAGCACAGCAAGCTCTGAACCTGTCTCTCCTCTTCAGGAG
AAACTGAGTCCATTCTTTACCCTGGACTTGAGCCCAACTGAAGATAAATCATCTAAGCCA
TCCTCCTTTACTGAAAAGGTCGTCTATGCTTTCTCTCCGAAGATAGGACGGAAATTAAGC
AAATCACCTTCTATGAGCATATCTGAGCCAATTTCAGTGACCCTACCACCACGGGTGTCA
GAAGTCATTGGTACAGTCTCAAATACCACAGCTCAGAATGCATCATCTTCAACCTGGGAC
AAATGCGTTGAAGAAAGGGATGCCACAAATAGATCCCCCACCCAGATAGTAAAGATGAAA
ACAAATGAGACAGTTGCCCAAGAAGCATATGAATCTGAAGTCCAGCCCCTGGACCAGGTG
GCTGCTGAAGAAGTAGAATTGCCAGGGAAAGAGGATCAGTCTGTCTCAAGCAGTCAGAGT
AAGGCTGTAGCTTCTGGACAGACTCAGACAGGAGCAGTTACCCATGACCCCCCTCAGGAT
TCCGTTCCTGTCAGTTCAGTCTCTCTTATCCCACCACCACCGCCTCCGAAAAATGTTGCC
CGAATGTTGGCGCTAGCATTAGCTGAGTCCGCACAGCAAGCCTCAACTCAGTCATTGAAG
AGACCAGGGACCTCTCAGGCTGGGTATACAAATTATGGAGACATAGCGGTGGCTACAACT
GAAGATAATCTGTCCAGTTCTTACTCTGCAGTTGCTCTAGATAAGGCCTATTTCCAAACC
GATCGACCAGCAGAGCAGTTCCACCTCCAGAATAATGCACCAGGAAACTGTGACCATCCT
CTACCAGAGACAACAGCTACTGGGGATCCTACCCATTCCAACACAACTGAATCTGGGGAG
CAACATCACCAAGTAGACTTAACAGGGAATCAGCCACATCAAGCATATTTATCTGGGGAC
CCAGAAAAGGCCAGAATTACTTCAGTTCCCTTAGACTCAGAGAAGTCTGATGATCATGTA
AGTTTCCCTGAAGACCAGTCTGGGAAGAACAGTATGCCAACTGTCTCCTTCTTGGATCAG
GACCAGTCTCCACCCCGTTTCTACAGTGGAGATCAGCCTCCTTCTTATCTTGGTGCAAGT
GTGGATAAACTCCATCACCCTTTAGAATTTGCAGACAAATCTCCCACACCTCCTAATTTA
CCTAGCGATAAAATCTACCCTCCTTCTGGGTCCCCCGAAGAGAATACCAGCACAGCCACC
ATGACTTACATGACAACTACTCCAGCAACAGCCCAAATGAGCACCAAGGAAGCCAGCTGG
GATGTGGCTGAACAACCCACCACTGCTGATTTTGCTGCTGCCACACTTCAGCGCACGCAC
AGAACTAATCGTCCCCTTCCCCCTCCGCCTTCCCAGAGATCTGCAGAGCAGCCACCAGTT
GTGGGGCAGGTACAAGCAGCAACCAATATAGGATTAAATAATTCCCACAAGGTTCAAGGA
GTAGTTCCAGTTCCAGAGAGGCCACCTGAACCTCGAGCCATGGATGACCCTGCGTCTGCC
TTCATCAGTGACAGTGGTGCTGCTGCTGCTCAGTGTCCCATGGCTACAGCTGTCCAGCCA
GGCCTGCCTGAGAAAGTGCGGGACGGTGCCCGGGTCCCGCTGCTGCACCTGCGCGCCGAG
TCTGTCCCTGCGCATCCCTGTGGCTTTCCTGCACCACTGCCCCCCACCAGGATGATGGAG
AGTAAGATGATTGCTGCCATACACTCCAGCAGTGCAGATGCCACCAGCAGTTCAAATTAT
CATTCCTTTGTCACTGCTTCATCCACCTCTGTGGACGATGCATTGCCTTTACCACTTCCT
GTCCCACAACCTAAGCATGCTTCTCAGAAAACAGTTTACTCCTCCTTTGCTAGGCCCGAT
GTCACCACTGAACCCTTTGGTCCAGATAACTGTTTGCATTTCAATATGACTCCAAACTGC
CAGTACCGTCCCCAGAGTGTACCTCCCCATCACAATAAATTGGAGCAGCACCAAGTGTAT
GGTGCCAGGTCAGAGCCACCAGCCTCCATGGGTCTTCGTTATAACACATATGTGGCCCCA
GGAAGAAACGCATCTGGACACCACTCCAAGCCATGCAGCCGGGTCGAGTATGTGTCTTCT
TTGAGCTCCTCTGTCAGGAATACCTGTTACCCCGAAGACATTCCACCGTACCCTACCATC
CGGAGAGTGCAGTCTCTCCATGCTCCGCCGTCTTCCATGATTCGCTCTGTTCCCATTTCA
CGGACAGAAGTTCCCCCAGATGATGAGCCAGCCTACTGCCCAAGACCTCTGTACCAATAT
AAGCCATATCAGTCCTCCCAGGCCCGCTCAGATTATCATGTCACTCAGCTTCAGCCTTAC
TTTGAGAATGGCCGGGTCCACTACAGGTATAGCCCATATTCCAGTTCTTCTAGTTCCTAT
TACAGTCCAGATGGGGCCCTGTGTGATGTGGATGCCTATGGCACAGTCCAGTTGAGACCC
CTTCACCGCCTTCCCAATCGAGACTTTGCTTTCTACAATCCTAGGCTGCAAGGAAAGAGC
TTGTACAGTTATGCTGGTTTGGCTCCACGTCCCCGGGCCAACGTGACTGGCTATTTCTCT
CCCAACGACCATAATGTAGTCAGCATGCCTCCGGCTGCTGATGTGAAGCACACCTACACC
TCATGGGATCTTGAGGACATGGAAAAATACCGCATGCAGTCCATCCGGAGAGAGAGCCGT
GCTCGGCAGAAGGTGAAAGGGCCTGTCATGTCCCAATATGATAACATGACCCCGGCGGTG
CAGGACGACTTGGGTGGGATCTATGTCATCCATCTGCGTAGTAAATCAGATCCTGGGAAA
ACTGGACTTCTCTCAGTGGCAGAAGGAAAGGAGAGCCGCCATGCAGCCAAGGCCATCAGT
CCCGAGGGAGAGGACCGCTTCTATAGGAGGCATCCCGAGGCAGAGATGGACAGAGCCCAC
CATCACGGAGGCCATGGTAGCACGCAGCCGGAGAAGCCATCCCTGCCTCAGAAGCAGAGC
AGCCTGAGGAGCAGGAAGCTTCCTGACATGGGCTGCAGTCTTCCTGAGCACAGGGCACAC
CAAGAAGCAAGCCATAGGCAGTTCTGTGAGTCAAAGAATGGGCCCCCTTATCCCCAGGGA
GCTGGCCAGTTAGATTATGGGTCCAAAGGGATTCCAGACACTTCTGAGCCAGTCAGCTAC
CACAACTCTGGAGTAAAATATGCTGCATCCGGGCAAGAATCTTTAAGACTGAACCACAAA
GAGGTAAGGCTCTCCAAAGAGATGGAGCGACCCTGGGTTAGGCAGCCTTCTGCCCCAGAG
AAACACTCCAGAGACTGCTACAAGGAGGAAGAACACCTCACTCAGTCAATCGTCCCACCC
CCTAAACCAGAGAGGAGTCATAGCCTCAAACTCCATCATACCCAGAACGTGGAGAGGGAC
CCCAGTGTGCTGTACCAGTACCAACCACACGGCAAGCGCCAGAGCAGTGTGACTGTTGTG
TCCCAGTATGATAACCTGGAAGATTACCACTCCCTGCCTCAGCACCAGCGAGGAGTCTTT
GGAGGGGGCGGCATGGGGACGTATGTGCCCCCTGGCTTTCCCCATCCACAGAGCAGGACC
TATGCTACAGCGTTGGGTCAAGGGGCCTTCCTGCCCGCAGAGTTGTCCTTGCAGCATCCT
GAAACACAGATCCATGCAGAATGA
Protein Properties
Number of Residues 2087
Molecular Weight 230527.1
Theoretical pI 6.73
Pfam Domain Function
Signals
  • ["None"]
Transmembrane Regions
  • ["None"]
Protein Sequence
>Rho GTPase-activating protein 32
METESESSTLGDDSVFWLESEVIIQVTDCEEEEREEKFRKMKSSVHSEEDDFVPELHRNV
HPRERPDWEETLSAMARGADVPEIPGDLTLKTCGSTASMKVKHVKKLPFTKGHFPKMAEC
AHFHYENVEFGSIQLSLSEEQNEVMKNGCESKELVYLVQIACQGKSWIVKRSYEDFRVLD
KHLHLCIYDRRFSQLSELPRSDTLKDSPESVTQMLMAYLSRLSAIAGNKINCGPALTWME
IDNKGNHLLVHEESSINTPAVGAAHVIKRYTARAPDELTLEVGDIVSVIDMPPKVLSTWW
RGKHGFQVGLFPGHCVELINQKVPQSVTNSVPKPVSKKHGKLITFLRTFMKSRPTKQKLK
QRGILKERVFGCDLGEHLLNSGFEVPQVLQSCTAFIERYGIVDGIYRLSGVASNIQRLRH
EFDSEHVPDLTKEPYVQDIHSVGSLCKLYFRELPNPLLTYQLYEKFSDAVSAATDEERLI
KIHDVIQQLPPPHYRTLEFLMRHLSLLADYCSITNMHAKNLAIVWAPNLLRSKQIESACF
SGTAAFMEVRIQSVVVEFILNHVDVLFSGRISMAMQEGAASLSRPKSLLVSSPSTKLLTL
EEAQARTQAQVNSPIVTENKYIEVGEGPAALQGKFHTIIEFPLERKRPQNKMKKSPVGSW
RSFFNLGKSSSVSKRKLQRNESEPSEMKAMALKGGRAEGTLRSAKSEESLTSLHAVDGDS
KLFRPRRPRSSSDALSASFNGEMLGNRCNSYDNLPHDNESEEEGGLLHIPALMSPHSAED
VDLSPPDIGVASLDFDPMSFQCSPPKAESECLESGASFLDSPGYSKDKPSANKKDAETGS
SQCQTPGSTASSEPVSPLQEKLSPFFTLDLSPTEDKSSKPSSFTEKVVYAFSPKIGRKLS
KSPSMSISEPISVTLPPRVSEVIGTVSNTTAQNASSSTWDKCVEERDATNRSPTQIVKMK
TNETVAQEAYESEVQPLDQVAAEEVELPGKEDQSVSSSQSKAVASGQTQTGAVTHDPPQD
SVPVSSVSLIPPPPPPKNVARMLALALAESAQQASTQSLKRPGTSQAGYTNYGDIAVATT
EDNLSSSYSAVALDKAYFQTDRPAEQFHLQNNAPGNCDHPLPETTATGDPTHSNTTESGE
QHHQVDLTGNQPHQAYLSGDPEKARITSVPLDSEKSDDHVSFPEDQSGKNSMPTVSFLDQ
DQSPPRFYSGDQPPSYLGASVDKLHHPLEFADKSPTPPNLPSDKIYPPSGSPEENTSTAT
MTYMTTTPATAQMSTKEASWDVAEQPTTADFAAATLQRTHRTNRPLPPPPSQRSAEQPPV
VGQVQAATNIGLNNSHKVQGVVPVPERPPEPRAMDDPASAFISDSGAAAAQCPMATAVQP
GLPEKVRDGARVPLLHLRAESVPAHPCGFPAPLPPTRMMESKMIAAIHSSSADATSSSNY
HSFVTASSTSVDDALPLPLPVPQPKHASQKTVYSSFARPDVTTEPFGPDNCLHFNMTPNC
QYRPQSVPPHHNKLEQHQVYGARSEPPASMGLRYNTYVAPGRNASGHHSKPCSRVEYVSS
LSSSVRNTCYPEDIPPYPTIRRVQSLHAPPSSMIRSVPISRTEVPPDDEPAYCPRPLYQY
KPYQSSQARSDYHVTQLQPYFENGRVHYRYSPYSSSSSSYYSPDGALCDVDAYGTVQLRP
LHRLPNRDFAFYNPRLQGKSLYSYAGLAPRPRANVTGYFSPNDHNVVSMPPAADVKHTYT
SWDLEDMEKYRMQSIRRESRARQKVKGPVMSQYDNMTPAVQDDLGGIYVIHLRSKSDPGK
TGLLSVAEGKESRHAAKAISPEGEDRFYRRHPEAEMDRAHHHGGHGSTQPEKPSLPQKQS
SLRSRKLPDMGCSLPEHRAHQEASHRQFCESKNGPPYPQGAGQLDYGSKGIPDTSEPVSY
HNSGVKYAASGQESLRLNHKEVRLSKEMERPWVRQPSAPEKHSRDCYKEEEHLTQSIVPP
PKPERSHSLKLHHTQNVERDPSVLYQYQPHGKRQSSVTVVSQYDNLEDYHSLPQHQRGVF
GGGGMGTYVPPGFPHPQSRTYATALGQGAFLPAELSLQHPETQIHAE
GenBank ID Protein 218083800
UniProtKB/Swiss-Prot ID A7KAX9
UniProtKB/Swiss-Prot Entry Name RHG32_HUMAN
PDB IDs Not Available
GenBank Gene ID NM_001142685.1
GeneCard ID ARHGAP32
GenAtlas ID ARHGAP32
HGNC ID HGNC:17399
References
General References Not Available