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AMP deaminase 1

ID 388
Name AMP deaminase 1
Synonyms
  • EC 3.5.4.6
  • Myoadenylate deaminase
  • AMP deaminase isoform M
Gene Name AMPD1
Protein Sequence 
>AMP deaminase 1
MPLFKLPAEEKQIDDAMRNFAEKVFASEVKDEGGRQEISPFDVDEICPISHHEMQAHIFH
LETLSTSTEARRKKRFQGRKTVNLSIPLSETSSTKLSHIDEYISSSPTYQTVPDFQRVQI
TGDYASGVTVEDFEIVCKGLYRALCIREKYMQKSFQRFPKTPSKYLRNIDGEAWVANESF
YPVFTPPVKKGEDPFRTDNLPENLGYHLKMKDGVVYVYPNEAAVSKDEPKPLPYPNLDTF
LDDMNFLLALIAQGPVKTYTHRRLKFLSSKFQVHQMLNEMDELKELKNNPHRDFYNCRKV
DTHIHAAACMNQKHLLRFIKKSYQIDADRVVYSTKEKNLTLKELFAKLKMHPYDLTVDSL
DVHAGRQTFQRFDKFNDKYNPVGASELRDLYLKTDNYINGEYFATIIKEVGADLVEAKYQ
HAEPRLSIYGRSPDEWSKLSSWFVCNRIHCPNMTWMIQVPRIYDVFRSKNFLPHFGKMLE
NIFMPVFEATINPQADPELSVFLKHITGFDSVDDESKHSGHMFSSKSPKPQEWTLEKNPS
YTYYAYYMYANIMVLNSLRKERGMNTFLFRPHCGEAGALTHLMTAFMIADDISHGLNLKK
SPVLQYLFFLAQIPIAMSPLSNNSLFLEYAKNPFLDFLQKGLMISLSTDDPMQFHFTKEP
LMEEYAIAAQVFKLSTCDMCEVARNSVLQCGISHEEKVKFLGDNYLEEGPAGNDIRRTNV
AQIRMAYRYETWCYELNLIAEGLKSTE
Number of Residues 747
Molecular Weight 86491
Theoretical pI 6.89
GO Classification
Function
hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in cyclic amidines
AMP deaminase activity
catalytic activity
deaminase activity
hydrolase activity
hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds
Process
physiological process
metabolism
cellular metabolism
nucleobase, nucleoside, nucleotide and nucleic acid metabolism
nucleotide metabolism
purine nucleoside monophosphate biosynthesis
purine ribonucleoside monophosphate biosynthesis
purine nucleotide metabolism
purine nucleotide biosynthesis
General Function Involved in deaminase activity
Specific Function AMP deaminase plays a critical role in energy metabolism
Pathways Not Available
Reactions
  • AMP + H2O = IMP + NH3
Pfam Domain Function
Signals None
Transmembrane Regions None
Essentiality Non-Essential
GenBank Protein ID 10864686 Link_out
UniProtKB ID P23109 Link_out
UniProtKB Entry Name AMPD1_HUMAN Link_out
PDB ID Not Available
Cellular Location Cytoplasmic
Gene Sequence 
>2244 bp
ATGCCTCTGTTCAAACTCCCAGCTGAAGAGAAACAAATTGATGATGCAATGCGCAACTTT
GCTGAAAAAGTGTTTGCCTCTGAAGTCAAAGATGAAGGAGGTCGTCAGGAGATTTCCCCC
TTTGATGTGGATGAGATCTGTCCGATTTCTCATCATGAGATGCAAGCACACATATTCCAT
CTGGAGACTCTGTCCACCTCCACAGAAGCCAGGAGAAAAAAGCGTTTCCAAGGACGGAAG
ACTGTTAATTTGTCCATTCCACTAAGTGAAACATCTTCCACCAAACTGTCCCACATTGAT
GAATACATTTCCTCATCTCCAACCTACCAGACCGTGCCTGATTTTCAGAGAGTGCAGATT
ACTGGTGACTATGCCTCTGGGGTTACAGTTGAAGATTTTGAAATTGTTTGCAAAGGTCTG
TATCGGGCACTATGCATACGTGAGAAATACATGCAGAAGTCGTTTCAGAGGTTCCCTAAA
ACCCCTTCCAAATACTTGCGGAACATTGATGGTGAGGCTTGGGTAGCAAATGAGAGCTTC
TATCCAGTCTTTACTCCTCCTGTGAAGAAGGGAGAGGACCCCTTCCGAACAGACAACCTT
CCTGAAAACCTGGGCTATCACCTCAAAATGAAGGACGGTGTAGTTTACGTCTATCCTAAT
GAAGCAGCAGTCAGCAAAGATGAGCCTAAGCCACTTCCTTACCCAAATCTGGACACCTTC
TTAGACGATATGAATTTTTTACTTGCTTTAATTGCTCAAGGACCTGTTAAGACCTATACC
CACCGGCGCCTGAAGTTCCTCTCCTCGAAGTTCCAGGTCCATCAGATGCTTAACGAGATG
GACGAGTTAAAGGAGCTGAAAAACAACCCCCACCGAGATTTTTATAACTGCAGGAAGGTG
GACACCCATATCCATGCAGCCGCTTGCATGAACCAGAAACATCTGCTGCGTTTTATTAAG
AAATCTTACCAAATTGATGCTGACAGAGTGGTCTATAGCACCAAAGAGAAGAATCTGACC
CTAAAGGAACTTTTTGCTAAATTAAAAATGCATCCTTATGACCTGACTGTTGATTCTCTG
GATGTTCATGCTGGACGCCAGACCTTCCAGCGTTTTGATAAGTTCAATGACAAATATAAT
CCTGTAGGAGCAAGTGAGCTACGGGACCTCTACTTGAAGACAGACAATTACATTAATGGG
GAATATTTTGCCACTATCATCAAGGAGGTAGGTGCGGACCTGGTGGAGGCCAAGTACCAG
CATGCTGAGCCCCGCCTGTCCATCTATGGCCGCAGTCCTGATGAGTGGAGCAAACTCTCC
TCCTGGTTCGTCTGCAATCGCATCCACTGCCCCAACATGACATGGATGATCCAGGTTCCC
AGGATCTATGATGTGTTCCGTTCCAAGAATTTCCTTCCACATTTTGGAAAAATGCTGGAG
AATATTTTCATGCCAGTGTTTGAGGCCACCATCAACCCCCAGGCTGACCCAGAACTCAGT
GTCTTCCTCAAGCATATCACTGGCTTTGACAGTGTGGATGATGAGTCCAAACACAGTGGC
CACATGTTCTCCTCCAAGAGTCCCAAGCCCCAGGAGTGGACATTGGAAAAGAATCCATCT
TACACTTACTATGCCTACTACATGTATGCAAACATCATGGTGCTCAACAGCCTGAGAAAG
GAACGAGGCATGAATACGTTTCTGTTCCGACCTCACTGTGGAGAAGCTGGAGCCCTCACC
CATCTCATGACAGCATTCATGATAGCAGATGATATCTCTCATGGCCTAAATTTAAAAAAG
AGTCCCGTGCTACAGTACTTGTTTTTCTTAGCCCAAATTCCCATCGCCATGTCACCACTA
AGTAACAATAGCCTATTTCTAGAGTATGCCAAAAATCCTTTTTTGGATTTCCTTCAGAAA
GGGCTAATGATCTCACTGTCTACAGATGACCCAATGCAATTCCACTTTACCAAGGAGCCC
CTAATGGAAGAATATGCTATTGCTGCACAAGTCTTCAAGCTGAGCACCTGTGATATGTGC
GAAGTGGCAAGGAACAGTGTCTTGCAGTGTGGAATTTCTCATGAGGAGAAAGTAAAGTTT
CTGGGCGACAATTACCTTGAGGAAGGCCCTGCTGGAAATGATATCCGGAGGACAAATGTA
GCCCAAATCCGCATGGCCTATCGCTATGAAACCTGGTGTTATGAACTCAATTTAATTGCT
GAGGGTCTTAAATCAACAGAATAA
GenBank Gene ID M37931 Link_out
GeneCard ID AMPD1 Link_out
GenAtlas ID AMPD1 Link_out
HGNC ID HGNC:468 Link_out
HPRD ID 00040
IUPHAR ID Not Available
Guide to Pharmacology ID Not Available
Chromosome Location Not Available
Locus 1p13
SNPs AMPD1 Link_out
General References
  1. Sabina RL, Morisaki T, Clarke P, Eddy R, Shows TB, Morton CC, Holmes EW: Characterization of the human and rat myoadenylate deaminase genes. J Biol Chem. 1990 Jun 5;265(16):9423-33. Pubmed
  2. Sabina RL, Fishbein WN, Pezeshkpour G, Clarke PR, Holmes EW: Molecular analysis of the myoadenylate deaminase deficiencies. Neurology. 1992 Jan;42(1):170-9. Pubmed
  3. Morisaki T, Gross M, Morisaki H, Pongratz D, Zollner N, Holmes EW: Molecular basis of AMP deaminase deficiency in skeletal muscle. Proc Natl Acad Sci U S A. 1992 Jul 15;89(14):6457-61. Pubmed
  4. Morisaki H, Higuchi I, Abe M, Osame M, Morisaki T: First missense mutations (R388W and R425H) of AMPD1 accompanied with myopathy found in a Japanese patient. Hum Mutat. 2000 Dec;16(6):467-72. Pubmed
Drugs
# DrugBank ID Drug Name Drug Type Drug Groups
1 DB00131 Adenosine monophosphate small molecule approved, nutraceutical