Showing Protein Copper-transporting ATPase 1 (CDBP02034)

IdentificationBiological propertiesGene propertiesProtein propertiesExternal linksReferencesXMLShow 4 compounds
Identification
HMDB Protein ID CDBP02034
Secondary Accession Numbers Not Available
Name Copper-transporting ATPase 1
Description Not Available
Synonyms
  1. Copper pump 1
  2. Menkes disease-associated protein
Gene Name ATP7A
Protein Type Transporter
Biological Properties
General Function Involved in ATP binding
Specific Function May supply copper to copper-requiring proteins within the secretory pathway, when localized in the trans-Golgi network. Under conditions of elevated extracellular copper, it relocalized to the plasma membrane where it functions in the efflux of copper from cells.
GO Classification
Biological Process
pyramidal neuron development
elastic fiber assembly
regulation of gene expression
blood vessel development
regulation of oxidative phosphorylation
elastin biosynthetic process
release of cytochrome c from mitochondria
epinephrine metabolic process
locomotory behavior
response to zinc ion
removal of superoxide radicals
hair follicle morphogenesis
ATP biosynthetic process
response to iron(III) ion
mitochondrion organization
in utero embryonic development
skin development
serotonin metabolic process
cerebellar Purkinje cell differentiation
T-helper cell differentiation
negative regulation of metalloenzyme activity
dopamine metabolic process
tryptophan metabolic process
neuron projection morphogenesis
cellular copper ion homeostasis
tyrosine metabolic process
norepinephrine biosynthetic process
blood vessel remodeling
norepinephrine metabolic process
cartilage development
peptidyl-lysine modification
collagen fibril organization
pigmentation
copper ion import
positive regulation of metalloenzyme activity
dendrite morphogenesis
lung alveolus development
detoxification of copper ion
positive regulation of oxidoreductase activity
Cellular Component
trans-Golgi network
brush border membrane
late endosome
trans-Golgi network transport vesicle
neuron projection
integral to membrane
cytosol
endoplasmic reticulum
perinuclear region of cytoplasm
basolateral plasma membrane
secretory granule
neuronal cell body
Component
membrane
cell part
membrane part
intrinsic to membrane
integral to membrane
Function
metal ion binding
ion transmembrane transporter activity
binding
cation transmembrane transporter activity
catalytic activity
inorganic cation transmembrane transporter activity
transporter activity
hydrolase activity
copper ion binding
metal ion transmembrane transporter activity
atpase activity, coupled to transmembrane movement of ions
copper ion transmembrane transporter activity
atpase activity, coupled to transmembrane movement of ions, phosphorylative mechanism
copper-transporting atpase activity
hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances
copper-exporting atpase activity
hydrolase activity, acting on acid anhydrides
transition metal ion binding
nucleoside binding
purine nucleoside binding
adenyl nucleotide binding
adenyl ribonucleotide binding
ion binding
atp binding
cation binding
transmembrane transporter activity
di-, tri-valent inorganic cation transmembrane transporter activity
substrate-specific transmembrane transporter activity
Molecular Function
ATP binding
copper-exporting ATPase activity
superoxide dismutase copper chaperone activity
Process
metabolic process
nitrogen compound metabolic process
cellular nitrogen compound metabolic process
nucleobase, nucleoside, nucleotide and nucleic acid metabolic process
nucleobase, nucleoside and nucleotide metabolic process
copper ion transport
nucleoside phosphate metabolic process
nucleotide metabolic process
establishment of localization
transport
ion transport
atp biosynthetic process
purine nucleotide metabolic process
cation transport
purine nucleotide biosynthetic process
metal ion transport
purine nucleoside triphosphate biosynthetic process
transition metal ion transport
purine ribonucleoside triphosphate biosynthetic process
Cellular Location
  1. Isoform 5:Endoplasmic reticulum
Pathways
Gene Properties
Chromosome Location X
Locus Xq21.1
SNPs ATP7A
Gene Sequence 
>4503 bp
ATGGATCCAAGTATGGGTGTGAATTCTGTTACCATTTCTGTTGAGGGTATGACTTGCAAT
TCCTGTGTTTGGACCATTGAGCAGCAGATTGGAAAAGTGAATGGTGTGCATCACATTAAG
GTATCACTGGAAGAAAAAAATGCAACTATTATTTATGACCCTAAACTACAGACTCCAAAG
ACCCTACAGGAAGCTATTGATGACATGGGCTTTGATGCTGTTATCCATAATCCTGACCCT
CTCCCTGTTTTAACTGACACCTTGTTTCTGACTGTTACGGCGTCACTGACTTTGCCATGG
GACCATATCCAAAGCACATTGCTGAAGACCAAGGGTGTGACAGACATTAAAATTTACCCT
CAGAAAAGAACTGTAGCAGTGACAATAATCCCTTCTATAGTGAATGCCAATCAGATAAAA
GAGCTGGTTCCAGAACTCAGTTTAGATACTGGGACACTGGAGAAAAAGTCAGGAGCTTGT
GAAGATCATAGTATGGCTCAAGCTGGTGAAGTCGTGCTGAAGATGAAAGTGGAAGGGATG
ACCTGCCATTCATGTACTAGCACTATTGAAGGAAAAATTGGGAAACTGCAAGGTGTTCAG
CGAATTAAAGTCTCCCTGGACAATCAAGAAGCTACTATTGTTTATCAACCTCATCTTATC
TCAGTAGAGGAAATGAAAAAGCAGATTGAAGCTATGGGCTTTCCAGCATTTGTCAAAAAG
CAGCCCAAGTACCTCAAATTGGGAGCTATTGATGTAGAACGTCTAAAGAACACACCAGTT
AAATCCTCAGAAGGGTCACAGCAAAGGAGTCCATCATATACCAATGATTCAACAGCCACT
TTCATCATTGATGGCATGCATTGTAAATCATGTGTGTCAAATATTGAAAGTACTTTATCT
GCACTCCAATATGTAAGCAGCATAGTAGTTTCTTTAGAGAATAGGTCTGCCATTGTGAAG
TATAATGCAAGCTCAGTCACTCCAGAATCCCTGAGAAAAGCAATAGAGGCTGTATCACCG
GGGCTATATAGAGTTAGTATCACAAGTGAAGTTGAGAGTACCTCAAACTCTCCCTCCAGC
TCATCTCTTCAGAAGATTCCTTTGAATGTAGTTAGCCAGCCTCTGACACAAGAAACTGTG
ATAAACATTGATGGCATGACTTGTAATTCCTGTGTGCAGTCTATTGAGGGTGTCATATCA
AAAAAGCCAGGTGTAAAATCCATACGAGTCTCCCTTGCAAATAGCAATGGGACTGTTGAG
TATGATCCTCTACTAACCTCTCCAGAAACGTTGAGAGGAGCAATAGAAGACATGGGATTT
GATGCTACCTTGTCAGACACGAATGAGCCGTTGGTAGTAATAGCTCAGCCTTCATCGGAA
ATGCCGCTTTTGACTTCAACTAATGAATTTTATACTAAAGGGATGACACCAGTTCAAGAC
AAGGAGGAAGGAAAGAATTCATCTAAGTGTTACATACAGGTCACTGGCATGACTTGCGCT
TCCTGTGTAGCAAACATTGAACGGAATTTAAGGCGGGAAGAAGGAATATATTCTATACTT
GTGGCCCTGATGGCTGGCAAGGCAGAAGTAAGGTATAATCCTGCTGTTATACAACCCCCA
ATGATAGCAGAGTTCATCCGAGAACTTGGATTTGGAGCCACTGTGATAGAAAATGCTGAT
GAAGGAGATGGTGTTTTGGAACTTGTTGTGAGGGGAATGACGTGTGCCTCCTGCGTACAT
AAAATAGAGTCTAGTCTCACAAAACACAGAGGGATCCTATACTGCTCCGTGGCCCTGGCA
ACCAACAAAGCACATATTAAATATGACCCAGAAATTATTGGTCCTAGAGATATTATCCAT
ACAATTGAAAGCTTAGGTTTTGAAGCTTCTTTGGTCAAGAAGGATCGGTCAGCAAGTCAC
TTAGATCATAAACGAGAAATAAGACAATGGAGACGGTCTTTTCTTGTGAGTCTGTTTTTC
TGTATTCCTGTAATGGGGCTGATGATATATATGATGGTTATGGACCACCACTTTGCAACT
CTTCACCATAATCAAAACATGAGTAAAGAAGAAATGATCAACCTTCATTCTTCTATGTTC
CTGGAGCGCCAGATTCTTCCAGGATTGTCTGTTATGAATTTGCTGTCCTTTTTATTGTGT
GTACCTGTACAGTTTTTCGGAGGCTGGTACTTCTACATTCAGGCTTATAAAGCACTGAAG
CATAAGACAGCAAATATGGACGTACTGATTGTGCTGGCAACCACCATTGCATTTGCCTAC
TCTTTGATTATTCTTCTAGTTGCAATGTATGAGAGAGCCAAAGTGAACCCTATTACTTTC
TTTGACACACCCCCTATGCTGTTTGTGTTTATTGCACTAGGCCGATGGCTGGAACATATA
GCAAAGGGCAAAACATCAGAGGCTCTTGCAAAGTTAATTTCACTACAAGCTACAGAAGCA
ACTATTGTAACTCTTGATTCTGATAATATCCTCCTCAGTGAAGAACAAGTGGATGTGGAA
CTTGTACAACGTGGAGATATCATTAAAGTAGTTCCAGGAGGCAAATTTCCAGTGGATGGT
CGTGTTATTGAAGGACATTCTATGGTAGATGAGTCCCTCATCACAGGGGAGGCAATGCCT
GTGGCTAAGAAACCTGGCAGCACAGTGATTGCTGGTTCCATTAACCAGAACGGGTCACTG
CTTATCTGCGCAACACATGTTGGAGCAGACACAACCCTTTCTCAAATTGTCAAACTTGTG
GAAGAGGCACAAACATCAAAGGCTCCTATCCAGCAGTTTGCAGACAAACTCAGTGGCTAT
TTTGTTCCTTTTATTGTTTTTGTTTCCATTGCCACCCTCTTGGTATGGATTGTAATTGGA
TTTCTGAATTTTGAAATTGTGGAAACCTACTTTCCTGGCTACAATAGAAGTATCTCCCGA
ACAGAAACGATAATACGATTTGCTTTCCAAGCCTCTATCACAGTTCTGTGTATTGCATGT
CCCTGTTCACTGGGACTGGCCACTCCAACTGCTGTGATGGTGGGTACAGGAGTAGGTGCT
CAAAATGGCATACTAATAAAAGGTGGAGAGCCATTGGAGATGGCTCATAAGGTAAAGGTA
GTGGTATTTGATAAGACTGGAACCATTACTCACGGAACCCCAGTGGTGAATCAAGTAAAG
GTTCTAACTGAAAGTAACAGAATATCACACCATAAAATCTTGGCCATTGTGGGAACTGCT
GAAAGTAACAGTGAACACCCTCTAGGAACAGCCATAACCAAATATTGCAAACAGGAGCTG
GACACTGAAACCTTGGGTACCTGCATAGATTTCCAGGTTGTGCCAGGCTGTGGTATTAGC
TGTAAAGTCACCAATATTGAAGGCTTGCTACATAAGAATAACTGGAATATAGAGGACAAT
AATATTAAAAATGCATCCCTGGTTCAAATTGATGCCAGTAATGAACAGTCATCAACTTCG
TCTTCCATGATTATTGATGCCCAGATCTCAAATGCTCTTAATGCTCAGCAGTATAAAGTC
CTCATTGGTAACCGGGAGTGGATGATTAGAAATGGTCTTGTCATTAATAACGATGTAAAT
GATTTCATGACTGAACATGAGAGAAAAGGTCGGACTGCTGTATTAGTAGCAGTTGATGAT
GAGCTGTGTGGCTTGATAGCCATTGCAGACACAGTGAAGCCTGAAGCAGAACTGGCTATC
CATATTCTGAAATCTATGGGCTTAGAAGTAGTTCTGATGACTGGAGACAACAGTAAAACA
GCTAGATCTATTGCTTCTCAGGTTGGCATTACTAAGGTGTTTGCTGAAGTTCTACCTTCT
CACAAGGTTGCTAAAGTGAAGCAACTTCAAGAGGAGGGGAAACGGGTAGCAATGGTGGGA
GATGGAATCAATGACTCCCCAGCTCTGGCAATGGCTAATGTGGGAATTGCTATTGGCACA
GGCACAGATGTAGCCATTGAAGCAGCTGATGTGGTTTTGATAAGGAATGATCTTCTGGAT
GTAGTGGCAAGTATTGACTTATCAAGAGAGACAGTCAAGAGGATTCGGATAAATTTTGTC
TTTGCTCTAATTTATAATCTGGTTGGAATTCCCATAGCTGCTGGAGTTTTTATGCCCATT
GGTTTGGTTTTGCAGCCCTGGATGGGATCTGCAGCAATGGCTGCTTCATCTGTTTCTGTA
GTACTTTCTTCTCTCTTCCTTAAACTTTACAGGAAACCAACTTACGAGAGTTATGAACTG
CCTGCCCGGAGCCAGATAGGACAGAAGAGTCCTTCAGAAATCAGCGTTCATGTTGGAATA
GATGATACCTCAAGGAATTCTCCTAAACTGGGTTTGCTGGACCGGATTGTTAATTATAGC
AGAGCCTCTATAAACTCACTACTGTCTGATAAACGCTCCCTAAACAGTGTTGTTACCAGT
GAACCTGACAAGCACTCACTCCTGGTGGGAGACTTCAGGGAAGATGATGACACTGCATTA
TAA
Protein Properties
Number of Residues 1500
Molecular Weight 163372.275
Theoretical pI 6.241
Pfam Domain Function
Signals Not Available
Transmembrane Regions Not Available
Protein Sequence 
>Copper-transporting ATPase 1
MDPSMGVNSVTISVEGMTCNSCVWTIEQQIGKVNGVHHIKVSLEEKNATIIYDPKLQTPK
TLQEAIDDMGFDAVIHNPDPLPVLTDTLFLTVTASLTLPWDHIQSTLLKTKGVTDIKIYP
QKRTVAVTIIPSIVNANQIKELVPELSLDTGTLEKKSGACEDHSMAQAGEVVLKMKVEGM
TCHSCTSTIEGKIGKLQGVQRIKVSLDNQEATIVYQPHLISVEEMKKQIEAMGFPAFVKK
QPKYLKLGAIDVERLKNTPVKSSEGSQQRSPSYTNDSTATFIIDGMHCKSCVSNIESTLS
ALQYVSSIVVSLENRSAIVKYNASSVTPESLRKAIEAVSPGLYRVSITSEVESTSNSPSS
SSLQKIPLNVVSQPLTQETVINIDGMTCNSCVQSIEGVISKKPGVKSIRVSLANSNGTVE
YDPLLTSPETLRGAIEDMGFDATLSDTNEPLVVIAQPSSEMPLLTSTNEFYTKGMTPVQD
KEEGKNSSKCYIQVTGMTCASCVANIERNLRREEGIYSILVALMAGKAEVRYNPAVIQPP
MIAEFIRELGFGATVIENADEGDGVLELVVRGMTCASCVHKIESSLTKHRGILYCSVALA
TNKAHIKYDPEIIGPRDIIHTIESLGFEASLVKKDRSASHLDHKREIRQWRRSFLVSLFF
CIPVMGLMIYMMVMDHHFATLHHNQNMSKEEMINLHSSMFLERQILPGLSVMNLLSFLLC
VPVQFFGGWYFYIQAYKALKHKTANMDVLIVLATTIAFAYSLIILLVAMYERAKVNPITF
FDTPPMLFVFIALGRWLEHIAKGKTSEALAKLISLQATEATIVTLDSDNILLSEEQVDVE
LVQRGDIIKVVPGGKFPVDGRVIEGHSMVDESLITGEAMPVAKKPGSTVIAGSINQNGSL
LICATHVGADTTLSQIVKLVEEAQTSKAPIQQFADKLSGYFVPFIVFVSIATLLVWIVIG
FLNFEIVETYFPGYNRSISRTETIIRFAFQASITVLCIACPCSLGLATPTAVMVGTGVGA
QNGILIKGGEPLEMAHKVKVVVFDKTGTITHGTPVVNQVKVLTESNRISHHKILAIVGTA
ESNSEHPLGTAITKYCKQELDTETLGTCIDFQVVPGCGISCKVTNIEGLLHKNNWNIEDN
NIKNASLVQIDASNEQSSTSSSMIIDAQISNALNAQQYKVLIGNREWMIRNGLVINNDVN
DFMTEHERKGRTAVLVAVDDELCGLIAIADTVKPEAELAIHILKSMGLEVVLMTGDNSKT
ARSIASQVGITKVFAEVLPSHKVAKVKQLQEEGKRVAMVGDGINDSPALAMANVGIAIGT
GTDVAIEAADVVLIRNDLLDVVASIDLSRETVKRIRINFVFALIYNLVGIPIAAGVFMPI
GLVLQPWMGSAAMAASSVSVVLSSLFLKLYRKPTYESYELPARSQIGQKSPSEISVHVGI
DDTSRNSPKLGLLDRIVNYSRASINSLLSDKRSLNSVVTSEPDKHSLLVGDFREDDDTAL
GenBank ID Protein 57209396
UniProtKB/Swiss-Prot ID Q04656
UniProtKB/Swiss-Prot Entry Name ATP7A_HUMAN
PDB IDs
GenBank Gene ID AL645821
GeneCard ID ATP7A
GenAtlas ID ATP7A
HGNC ID HGNC:869
References
General References Not Available