Hmdb loader
Identification
HMDB Protein ID HMDBP10091
Secondary Accession Numbers
  • 16039
Name Protein tyrosine phosphatase receptor type D
Synonyms Not Available
Gene Name PTPRD
Protein Type Enzyme
Biological Properties
General Function Involved in phosphatase activity
Specific Function Protein tyrosine phosphate + H(2)O = protein tyrosine + phosphate
Pathways Not Available
Reactions Not Available
GO Classification
Function
phosphoprotein phosphatase activity
protein tyrosine phosphatase activity
hydrolase activity, acting on ester bonds
catalytic activity
hydrolase activity
phosphoric ester hydrolase activity
phosphatase activity
Process
phosphorus metabolic process
phosphate metabolic process
dephosphorylation
protein amino acid dephosphorylation
metabolic process
cellular metabolic process
Cellular Location
  1. Cytoplasmic
Gene Properties
Chromosome Location Chromosome:9
Locus 9p23-p24.3
SNPs PTPRD
Gene Sequence
>5739 bp
ATGGTGCACGTAGCCAGGCTGCTGCTGCTGCTCCTCACTTTCTTCCTCCGCACGGATGCT
GAGACACCTCCAAGGTTTACACGAACACCCGTTGATCAGACAGGGGTCTCTGGCGGAGTT
GCCTCTTTCATCTGCCAAGCTACGGGAGACCCAAGACCTAAAATTGTCTGGAACAAAAAA
GGAAAGAAAGTCAGCAATCAGAGATTTGAGGTAATAGAGTTTGACGATGGGTCTGGATCA
GTTCTCAGAATACAACCCTTACGGACTCCGAGGGATGAGGCCATTTATGAATGTGTGGCC
TCAAATAATGTGGGAGAAATAAGTGTATCCACCAGACTCACAGTTTTGCGGGAAGATCAA
ATTCCCAGGGGCTTCCCTACCATTGACATGGGCCCACAGTTGAAGGTGGTTGAGCGTACT
CGCACGGCCACCATGCTTTGTGCAGCCAGTGGTAATCCGGATCCAGAAATCACTTGGTTT
AAAGATTTCTTACCTGTGGACACAAGCAACAACAATGGTCGTATTAAGCAGTTACGATCA
GAATCTATTGGTGGTACACCAATAAGAGGAGCCCTTCAGATTGAGCAGAGTGAAGAGTCT
GACCAAGGAAAATATGAGTGTGTTGCCACCAACAGCGCGGGCACTCGCTATTCCGCTCCT
GCCAATTTATATGTCAGAGAGCTGCGAGAAGTTCGCCGTGTCCCACCAAGATTCTCTATC
CCACCCACTAATCATGAAATCATGCCAGGCGGAAGCGTTAATATCACCTGTGTGGCCGTG
GGGTCACCAATGCCTTATGTAAAGTGGATGTTGGGGGCAGAAGATCTGACACCTGAAGAT
GATATGCCAATAGGAAGAAATGTGCTAGAACTGAATGATGTAAGACAGTCAGCAAATTAC
ACCTGTGTTGCTATGTCAACACTGGGTGTCATTGAAGCAATAGCACAGATCACTGTCAAA
CCCTTACCCAAACCTCCAGGAACTCCTGTAGTGACCGAGAGCACAGCTACAAGCATCACA
CTGACGTGGGACTCTGGGAACCCTGAGCCTGTTTCTTATTACATAATTCAGCATAAACCT
AAAAACTCTGAGGAACTTTACAAAGAAATTGATGGGGTGGCGACCACACGCTACAGTGTC
GCTGGACTAAGTCCCTACTCGGATTATGAATTCAGGGTTGTTGCTGTCAATAACATTGGG
CGGGGGCCTCCCAGCGAACCTGTGCTAACACAAACCTCAGAGCAAGCACCATCCAGTGCC
CCGAGGGATGTCCAGGCACGAATGTTGAGTTCGACCACCATTTTGGTACAGTGGAAGGAA
CCTGAAGAGCCAAATGGACAGATCCAAGGATATAGAGTTTATTATACAATGGATCCCACT
CAACATGTCAACAACTGGATGAAACACAATGTAGCTGACAGCCAAATCACTACTATTGGC
AACTTAGTGCCCCAGAAAACATATTCTGTCAAAGTCCTGGCTTTTACCTCAATTGGAGAT
GGTCCCCTTTCAAGTGACATACAAGTCATCACTCAGACAGGAGTACCAGGGCAGCCACTA
AACTTCAAAGCAGAACCTGAGTCTGAAACAAGTATTTTGCTCTCTTGGACACCTCCACGT
TCAGATACCATTGCCAACTATGAACTGGTCTACAAAGATGGGGAGCATGGAGAGGAGCAA
CGAATTACCATTGAGCCAGGGACATCATATAGGCTGCAAGGACTGAAACCAAACAGCTTA
TACTATTTCCGTCTGGCTGCACGCTCCCCTCAAGGCCTGGGTGCTTCTACTGCAGAAATA
TCAGCTAGAACCATGCAGTCAAAGCCGTCAGCTCCTCCTCAAGACATTAGTTGCACCAGC
CCAAGTTCCACTAGTATTTTGGTAAGTTGGCAACCTCCACCAGTGGAAAAACAGAATGGC
ATTATCACTGAATACTCCATCAAGTACACTGCAGTGGATGGGGAAGATGACAAGCCTCAC
GAGATTTTGGGAATTCCTTCGGACACTACCAAATACCTTTTGGAACAGCTGGAAAAATGG
ACTGAATACCGGATCACTGTGACAGCCCATACAGATGTCGGCCCTGGCCCTGAGAGCTTG
TCCGTGTTGATTCGAACCAATGAAGATGTTCCTAGTGGTCCTCCTCGCAAAGTCGAGGTA
GAGGCTGTCAACTCAACATCTGTTAAAGTCTCATGGCGCTCACCCGTGCCCAATAAACAG
CATGGCCAGATAAGAGGATATCAGGTGCATTATGTGAGGATGGAAAATGGTGAGCCCAAG
GGCCAGCCCATGCTGAAAGATGTCATGCTGGCTGATGCACAGTGGGAATTTGATGATACT
ACTGAACATGACATGATCATTTCTGGGCTCCAGCCTGAAACTTCCTACTCCCTCACCGTC
ACAGCCTACACAACCAAAGGAGATGGTGCTCGCAGCAAGCCCAAACTGGTGTCCACCACT
GGGGCAGTTCCAGGGAAACCTCGGCTTGTGATTAACCACACTCAGATGAATACTGCTCTT
ATTCAGTGGCACCCTCCGGTGGACACATTTGGACCTCTTCAGGGCTACCGTCTAAAATTT
GGCCGCAAGGATATGGAGCCACTTACTACTCTTGAGTTCTCTGAAAAAGAAGATCACTTT
ACAGCTACAGACATCCACAAGGGAGCATCATACGTCTTCAGGCTCTCAGCCAGAAACAAA
GTGGGCTTTGGGGAGGAGATGGTGAAGGAGATTTCCATTCCAGAAGAAGTACCAACTGGA
TTCCCTCAAAACCTTCACTCAGAAGGCACCACTTCAACCTCCGTCCAGTTATCTTGGCAA
CCACCTGTCCTGGCAGAGAGAAATGGCATTATCACCAAGTATACCCTTCTTTATAGGGAT
ATCAACATCCCCCTTCTCCCGATGGAGCAGCTTATTGTTCCAGCTGACACCACTATGACA
CTCACTGGCTTAAAACCAGATACCACATACGATGTAAAAGTACGTGCTCATACGAGCAAA
GGGCCCGGGCCATATAGTCCCAGTGTCCAGTTCAGGACACTGCCTGTGGATCAAGTGTTT
GCAAAAAATTTTCATGTCAAAGCAGTAATGAAGACTTCCGTGTTGCTGTCTTGGGAGATT
CCAGAGAATTATAACTCCGCCATGCCTTTCAAAATTCTTTATGATGATGGGAAAATGGTA
GAAGAAGTGGATGGCCGAGCCACACAGAAGTTAATTGTCAACCTGAAGCCTGAGAAATCA
TATTCATTTGTGCTGACAAATCGTGGAAACAGTGCTGGTGGGCTGCAGCACAGGGTCACG
GCAAAGACTGCACCAGATGTATTACGTACCAAGCCTGCCTTCATTGGGAAGACCAACTTG
GATGGCATGATTACTGTGCAACTGCCTGAAGTACCTGCAAATGAGAATATAAAAGGTTAC
TACATAATAATTGTGCCTTTGAAGAAATCTCGCGGGAAATTTATCAAGCCATGGGAGAGT
CCAGATGAAATGGAATTAGATGAGCTGCTTAAGGAGATATCTAGGAAGCGCAGAAGCATC
CGTTATGGGAGAGAAGTTGAATTAAAGCCATATATTGCCGCTCACTTTGATGTCCTTCCC
ACTGAGTTCACCCTGGGGGATGACAAGCATTATGGTGGATTTACAAACAAGCAACTCCAA
AGTGGTCAAGAATATGTCTTCTTTGTGTTAGCAGTAATGGAACATGCAGAGTCTAAGATG
TATGCAACCAGCCCTTACTCCGACCCCGTGGTGTCAATGGATCTGGATCCGCAGCCAATC
ACGGATGAAGAAGAAGGCTTGATCTGGGTTGTAGGTCCTGTCCTTGCAGTGGTCTTTATC
ATCTGCATTGTCATTGCTATTCTTCTTTATAAAAGGAAGAGGGCAGAGTCCGACTCTAGA
AAAAGCAGCATACCGAACAATAAGGAGATCCCTTCACACCACCCAACAGACCCTGTAGAA
CTGAGGCGCCTTAACTTTCAAACACCGGGTATGGCTAGCCATCCTCCAATACCCATCTTG
GAACTTGCAGACCACATTGAAAGATTGAAAGCAAATGACAACTTGAAGTTTTCCCAGGAA
TATGAGTCAATTGACCCTGGCCAGCAGTTCACTTGGGAACATTCAAACTTGGAAGTAAAC
AAACCAAAGAATAGATACGCGAATGTAATCGCATATGATCATTCCCGGGTTCTCCTATCA
GCTATAGAAGGGATCCCAGGAAGTGACTATGTGAATGCCAACTACATAGATGGGTATAGG
AAGCAAAATGCCTATATTGCAACACAGGGATCTCTCCCCGAAACATTTGGGGACTTTTGG
AGAATGATATGGGAACAACGGAGTGCCACAGTTGTCATGATGACAAAACTAGAAGAAAGA
TCAAGGGTGAAGTGTGACCAGTATTGGCCTAGCAGAGGCACAGAAACCCACGGACTCGTT
CAAGTAACGCTGCTTGATACTGTGGAGCTGGCCACATATTGTGTTCGAACATTTGCACTT
TACAAGAATGGTTCAAGTGAGAAGAGAGAAGTGAGACAATTCCAGTTCACCGCCTGGCCT
GATCATGGTGTTCCAGAACACCCTACACCTTTTCTAGCTTTCTTACGTAGAGTCAAAACC
TGTAACCCTCCCGATGCTGGTCCGATGGTTGTGCACTGCAGTGCGGGAGTTGGCCGGACT
GGTTGCTTCATCGTCATAGATGCCATGTTAGAAAGAATAAAGCATGAAAAAACTGTAGAT
ATTTATGGCCATGTAACTTTAATGAGAGCCCAGAGGAACTATATGGTTCAAACAGAAGAC
CAATACATCTTTATCCATGATGCACTGTTAGAAGCAGTGACTTGTGGAAATACCGAAGTG
CCAGCTAGAAACTTGTATGCCTACATTCAGAAGCTGACACAAATAGAAACGGGAGAGAAT
GTCACAGGAATGGAGCTCGAATTTAAGCGTCTAGCCAGCTCAAAAGCTCACACCTCAAGG
TTTATCAGTGCCAATCTTCCATGTAATAAATTCAAAAATCGCCTTGTTAATATTATGCCA
TATGAATCCACAAGGGTATGCCTGCAGCCTATCCGTGGAGTAGAAGGATCTGATTACATC
AATGCCAGTTTTATTGATGGATACAGACAACAGAAAGCCTACATCGCTACCCAGGGGCCC
TTGGCAGAGACCACTGAAGACTTCTGGCGGATGCTCTGGGAACACAATTCCACCATAGTT
GTGATGCTCACCAAGCTGCGTGAAATGGGCAGAGAGAAATGTCACCAATACTGGCCAGCA
GAACGGTCTGCAAGATACCAGTACTTTGTTGTAGATCCCATGGCTGAGTACAACATGCCA
CAGTATATCCTAAGGGAATTCAAGGTCACAGATGCCAGGGACGGCCAGTCCCGAACAGTA
AGGCAGTTCCAGTTCACTGACTGGCCAGAGCAAGGAGTGCCAAAGTCCGGAGAAGGATTT
ATTGACTTCATCGGCCAAGTCCATAAAACAAAAGAACAGTTTGGCCAAGATGGACCCATT
TCAGTCCATTGCAGCGCGGGCGTTGGAAGAACTGGAGTCTTCATAACGCTAAGCATTGTT
TTGGAAAGAATGAGATATGAAGGAGTTGTAGATATCTTCCAGACTGTCAAAATGTTAAGA
ACACAACGACCAGCTATGGTACAGACAGAGGATCAATATCAGTTTTCCTATCGTGCCGCA
CTAGAGTACCTGGGCAGCTTTGACCACTATGCAACGTAG
Protein Properties
Number of Residues 1912
Molecular Weight 214784.5
Theoretical pI 6.54
Pfam Domain Function
Signals
  • None
Transmembrane Regions
  • None
Protein Sequence
>Protein tyrosine phosphatase receptor type D
MVHVARLLLLLLTFFLRTDAETPPRFTRTPVDQTGVSGGVASFICQATGDPRPKIVWNKK
GKKVSNQRFEVIEFDDGSGSVLRIQPLRTPRDEAIYECVASNNVGEISVSTRLTVLREDQ
IPRGFPTIDMGPQLKVVERTRTATMLCAASGNPDPEITWFKDFLPVDTSNNNGRIKQLRS
ESIGGTPIRGALQIEQSEESDQGKYECVATNSAGTRYSAPANLYVRELREVRRVPPRFSI
PPTNHEIMPGGSVNITCVAVGSPMPYVKWMLGAEDLTPEDDMPIGRNVLELNDVRQSANY
TCVAMSTLGVIEAIAQITVKPLPKPPGTPVVTESTATSITLTWDSGNPEPVSYYIIQHKP
KNSEELYKEIDGVATTRYSVAGLSPYSDYEFRVVAVNNIGRGPPSEPVLTQTSEQAPSSA
PRDVQARMLSSTTILVQWKEPEEPNGQIQGYRVYYTMDPTQHVNNWMKHNVADSQITTIG
NLVPQKTYSVKVLAFTSIGDGPLSSDIQVITQTGVPGQPLNFKAEPESETSILLSWTPPR
SDTIANYELVYKDGEHGEEQRITIEPGTSYRLQGLKPNSLYYFRLAARSPQGLGASTAEI
SARTMQSKPSAPPQDISCTSPSSTSILVSWQPPPVEKQNGIITEYSIKYTAVDGEDDKPH
EILGIPSDTTKYLLEQLEKWTEYRITVTAHTDVGPGPESLSVLIRTNEDVPSGPPRKVEV
EAVNSTSVKVSWRSPVPNKQHGQIRGYQVHYVRMENGEPKGQPMLKDVMLADAQWEFDDT
TEHDMIISGLQPETSYSLTVTAYTTKGDGARSKPKLVSTTGAVPGKPRLVINHTQMNTAL
IQWHPPVDTFGPLQGYRLKFGRKDMEPLTTLEFSEKEDHFTATDIHKGASYVFRLSARNK
VGFGEEMVKEISIPEEVPTGFPQNLHSEGTTSTSVQLSWQPPVLAERNGIITKYTLLYRD
INIPLLPMEQLIVPADTTMTLTGLKPDTTYDVKVRAHTSKGPGPYSPSVQFRTLPVDQVF
AKNFHVKAVMKTSVLLSWEIPENYNSAMPFKILYDDGKMVEEVDGRATQKLIVNLKPEKS
YSFVLTNRGNSAGGLQHRVTAKTAPDVLRTKPAFIGKTNLDGMITVQLPEVPANENIKGY
YIIIVPLKKSRGKFIKPWESPDEMELDELLKEISRKRRSIRYGREVELKPYIAAHFDVLP
TEFTLGDDKHYGGFTNKQLQSGQEYVFFVLAVMEHAESKMYATSPYSDPVVSMDLDPQPI
TDEEEGLIWVVGPVLAVVFIICIVIAILLYKRKRAESDSRKSSIPNNKEIPSHHPTDPVE
LRRLNFQTPGMASHPPIPILELADHIERLKANDNLKFSQEYESIDPGQQFTWEHSNLEVN
KPKNRYANVIAYDHSRVLLSAIEGIPGSDYVNANYIDGYRKQNAYIATQGSLPETFGDFW
RMIWEQRSATVVMMTKLEERSRVKCDQYWPSRGTETHGLVQVTLLDTVELATYCVRTFAL
YKNGSSEKREVRQFQFTAWPDHGVPEHPTPFLAFLRRVKTCNPPDAGPMVVHCSAGVGRT
GCFIVIDAMLERIKHEKTVDIYGHVTLMRAQRNYMVQTEDQYIFIHDALLEAVTCGNTEV
PARNLYAYIQKLTQIETGENVTGMELEFKRLASSKAHTSRFISANLPCNKFKNRLVNIMP
YESTRVCLQPIRGVEGSDYINASFIDGYRQQKAYIATQGPLAETTEDFWRMLWEHNSTIV
VMLTKLREMGREKCHQYWPAERSARYQYFVVDPMAEYNMPQYILREFKVTDARDGQSRTV
RQFQFTDWPEQGVPKSGEGFIDFIGQVHKTKEQFGQDGPISVHCSAGVGRTGVFITLSIV
LERMRYEGVVDIFQTVKMLRTQRPAMVQTEDQYQFSYRAALEYLGSFDHYAT
GenBank ID Protein 88687760
UniProtKB/Swiss-Prot ID Q2HXI4
UniProtKB/Swiss-Prot Entry Name Q2HXI4_HUMAN
PDB IDs
GenBank Gene ID AB211400
GeneCard ID PTPRD
GenAtlas ID PTPRD
HGNC ID HGNC:9668
References
General References Not Available