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ARMT1

Gene
armt1
Protein
Damage-control phosphatase ARMT1
Organism
Danio rerio
Length
448 amino acids
Function
Metal-dependent phosphatase that shows phosphatase activity against several substrates, including fructose-1-phosphate and fructose-6-phosphate (By similarity). Its preference for fructose-1-phosphate, a strong glycating agent that causes DNA damage rather than a canonical yeast metabolite, suggests a damage-control function in hexose phosphate metabolism (By similarity). Has also been shown to have O-methyltransferase activity that methylates glutamate residues of target proteins to form gamma-glutamyl methyl ester residues (By similarity). Possibly methylates PCNA, suggesting it is involved in the DNA damage response (By similarity).
Similarity
Belongs to the damage-control phosphatase family. Sugar phosphate phosphatase III subfamily.
Mass
51.776 kDa
Sequence
MEAEGMLPPQSLSAKFEGSFAYLTVRDRLPTILTKVVDTLHRNKDNFYKEYGEEGTEAEKRAISFLSRLRNELQTDKPVLALTDNAEDTQAWNEYMERQQDLMENGQLVSWFKSPWLYVECYMYRRIQEALYMNPPMHNFDPFKEGKTQSYFESQQAIKYLCTYLQELITNMENMTEIQLRENFLKLIQVSLWGNKCDLSISAGQDNSQKLSPIDSLPDLQRFILVDDSSMVWSTLVASQGSRSSGMKHARVDIILDNAGFELVTDLVLADFLISSGLAKQIRFHGKSIPWFVSDVTKQDFEWTIKQTMAANHKWMSASGVQWKHFMKEGTWSYHDHPFWTLPHEFCDMTVDAANLYSTLQTSDLILFKGDLNYRKLTGDRKWEHTVRFDQALRGFQPAPLCSLRTLKADVQVGLQAGHAEKLSTQDPDWMTNGKYAVVQFSSPHREQ

Gene
ARMT1
Protein
Damage-control phosphatase ARMT1
Organism
Homo sapiens
Length
441 amino acids
Function
Metal-dependent phosphatase that shows phosphatase activity against several substrates, including fructose-1-phosphate and fructose-6-phosphate (By similarity). Its preference for fructose-1-phosphate, a strong glycating agent that causes DNA damage rather than a canonical yeast metabolite, suggests a damage-control function in hexose phosphate metabolism (By similarity). Has also been shown to have O-methyltransferase activity that methylates glutamate residues of target proteins to form gamma-glutamyl methyl ester residues (PubMed:25732820). Possibly methylates PCNA, suggesting it is involved in the DNA damage response (PubMed:25732820).
Similarity
Belongs to the damage-control phosphatase family. Sugar phosphate phosphatase III subfamily.
Mass
51.172 kDa
Sequence
MAVVPASLSGQDVGSFAYLTIKDRIPQILTKVIDTLHRHKSEFFEKHGEEGVEAEKKAISLLSKLRNELQTDKPFIPLVEKFVDTDIWNQYLEYQQSLLNESDGKSRWFYSPWLLVECYMYRRIHEAIIQSPPIDYFDVFKESKEQNFYGSQESIIALCTHLQQLIRTIEDLDENQLKDEFFKLLQISLWGNKCDLSLSGGESSSQNTNVLNSLEDLKPFILLNDMEHLWSLLSNCKKTREKASATRVYIVLDNSGFELVTDLILADFLLSSELATEVHFYGKTIPWFVSDTTIHDFNWLIEQVKHSNHKWMSKCGADWEEYIKMGKWVYHNHIFWTLPHEYCAMPQVAPDLYAELQKAHLILFKGDLNYRKLTGDRKWEFSVPFHQALNGFHPAPLCTIRTLKAEIQVGLQPGQGEQLLASEPSWWTTGKYGIFQYDGPL

Gene
ARMT1
Protein
Damage-control phosphatase ARMT1
Organism
Macaca fascicularis
Length
441 amino acids
Function
Metal-dependent phosphatase that shows phosphatase activity against several substrates, including fructose-1-phosphate and fructose-6-phosphate (By similarity). Its preference for fructose-1-phosphate, a strong glycating agent that causes DNA damage rather than a canonical yeast metabolite, suggests a damage-control function in hexose phosphate metabolism (By similarity). Has also been shown to have O-methyltransferase activity that methylates glutamate residues of target proteins to form gamma-glutamyl methyl ester residues (By similarity). Possibly methylates PCNA, suggesting it is involved in the DNA damage response (By similarity).
Similarity
Belongs to the damage-control phosphatase family. Sugar phosphate phosphatase III subfamily.
Mass
51.207 kDa
Sequence
MAVVPASLSGQDVGSFAYLTIKDRIPQILTKVIDTLHRHKSEFFENHGEEGVEAEKKAISLLSKLRNELQTDKPIIPLVEKFVDTDIWNQYLEYQQSLLNESDGKSRWFYSPWLFVECYMYRRIHEAIIQSPPIDYFDVFKESKEQNFYESQESVIALCTHLQQLIKTIEDLDENQLKDEFFKLLQISLWGNKCDLSLSGGESSSQKTDVLNSLEDLKPFILLNDMEHLWSLLSNCKKTREKASVTRVYIVLDNSGFELVTDLILANFLLSSELATEVHFYGKTIPWFVSDTTIHDFNWLIEQVKHGNHKWMSKCGADWEEYVKMGKWVYHDHIFWTLPHEYCAMPQVAPDLYAELQKAHLILFKGDLNYRKLTGDRKWEFSVPFHQALNGFHPAPLCTIRTLKAEIQVGLKPGQGEQLMASEPCWWTSGKYGIFQYDGPL

Gene
ARMT1
Protein
Damage-control phosphatase ARMT1
Organism
Bos taurus
Length
441 amino acids
Function
Metal-dependent phosphatase that shows phosphatase activity against several substrates, including fructose-1-phosphate and fructose-6-phosphate (By similarity). Its preference for fructose-1-phosphate, a strong glycating agent that causes DNA damage rather than a canonical yeast metabolite, suggests a damage-control function in hexose phosphate metabolism (By similarity). Has also been shown to have O-methyltransferase activity that methylates glutamate residues of target proteins to form gamma-glutamyl methyl ester residues (By similarity). Possibly methylates PCNA, suggesting it is involved in the DNA damage response (By similarity).
Similarity
Belongs to the damage-control phosphatase family. Sugar phosphate phosphatase III subfamily.
Mass
50.964 kDa
Sequence
MAGPPASLSARDVGSFAYLSVKDRSPQILTKAIDTLHRHKSEFFEKHGEKGLEAEKKAISLLSKLRNELQTDKPIVPLVEKFVDTDIWNQYLEYQQSLLNESDGKPRWFLSPWLFVECYMYRRIHEAIIQSPPIDDFDIFKEFKDQNFFESQESIIALCTHLQELRKTIEDLDENQLKNEFFKVLQISLWGNKCDLSLSGGEHISQKTNIMNSLEDLKPFILVNDMDRLWSLLSNCKKTREKESVTRVDIVLDNSGFELITDLVLADFLLSSKLATKIHFYGKTIPWFVSDTTLHDFNWIIKQLKHSNNKWVSQCGVDWEDHVKTGRWVYLDHIFWTLPHEFSAMSQVAPDLHAALQKAHLIFFKGDLNYRKLTGDRRWEFTVPFHEALSGFHPAPLCSIRTLKAEVQVGLQPGQGEQLTASEPNWLTAGKYGVFQFDGPL

Gene
armt1
Protein
Damage-control phosphatase ARMT1
Organism
Xenopus laevis
Length
440 amino acids
Function
Metal-dependent phosphatase that shows phosphatase activity against several substrates, including fructose-1-phosphate and fructose-6-phosphate (By similarity). Its preference for fructose-1-phosphate, a strong glycating agent that causes DNA damage rather than a canonical yeast metabolite, suggests a damage-control function in hexose phosphate metabolism (By similarity). Has also been shown to have O-methyltransferase activity that methylates glutamate residues of target proteins to form gamma-glutamyl methyl ester residues (By similarity). Possibly methylates PCNA, suggesting it is involved in the DNA damage response (By similarity).
Similarity
Belongs to the damage-control phosphatase family. Sugar phosphate phosphatase III subfamily.
Mass
50.68 kDa
Sequence
MDPPCSLSASFEGSFAYLTVRDRLPQILTKVIDTVHRNKHKFFEDHGEEGVEAEKRALSFFSKLRNEMQTNKPVLPLTDNQLDTELWNQYLDYQKSLLNEGETPSWFKSPWLYVECYMYRRIQEGIVLSPPISKYDVFREGKIESFFQSQPAIIALCTYLQELKKNMAALSENQKQEELYKLLQVCLWGNKCDLSISGGLDNSQKFSILSSLESFRPFILVNDMESVLSVLLESKNPESGKELMKRVDIVLDNAGFELITDFVLADALLSFRLASEVHFHGKCMPWFVSDTTKHDFNWTIKQLQAANHKWMSKCGGNWKENLKKSHWIYHEHPFWTLPHEFCMMAQTAPDLYSELQKSDLVIFKGDLNYRKLTGDRKWDFTVPFSEALTTFHPAPLCSIRTLKADVQVGLKAGIGEQLFSTEPDWMISGKYGVVQLSTSV

Gene
armt1
Protein
Damage-control phosphatase ARMT1
Organism
Xenopus tropicalis
Length
440 amino acids
Function
Metal-dependent phosphatase that shows phosphatase activity against several substrates, including fructose-1-phosphate and fructose-6-phosphate (By similarity). Its preference for fructose-1-phosphate, a strong glycating agent that causes DNA damage rather than a canonical yeast metabolite, suggests a damage-control function in hexose phosphate metabolism (By similarity). Has also been shown to have O-methyltransferase activity that methylates glutamate residues of target proteins to form gamma-glutamyl methyl ester residues (By similarity). Possibly methylates PCNA, suggesting it is involved in the DNA damage response (By similarity).
Similarity
Belongs to the damage-control phosphatase family. Sugar phosphate phosphatase III subfamily.
Mass
50.598 kDa
Sequence
MDPPCSLSARFEGSFAYLTIRDRLPQILTKVIDTVHRNKNKFFEDNGEEGVEAEKKALSFFSKLRNEIQTDKPVLPLTDNQSDTELWNQYLDYQKTLLNKGETPSWFKSPWLYVECYMYRRIQEGLVLSPPISEYDVFREGKTESFFQSQPAIIALCTYLQELKNNVANLSENQKKEELSKLLQVCLWGNKCDLSISGGLDNSQKFSILSSLESFMPFILVNDMESVWAVLSGSKNLESGKELMKRVDIVLDNAGFELITDFVLADALLSLRLASEVHFHAKCMPWFVSDTTKHDFNWTIKHLQAANHKWMSKCGVNWKENLQRSCWIYHEHLFWTLPHEFCMMAQTAPDLYSELQKSDLVIFKGDLNYRKLTGDRKWEFTVPFFQALTTFHPAPLCSIRTLKADVQVGLKPGVGEQLSSNEPDWMISGKYGVVQLSTSV

Gene
Armt1
Protein
Damage-control phosphatase ARMT1
Organism
Mus musculus
Length
439 amino acids
Function
Metal-dependent phosphatase that shows phosphatase activity against several substrates, including fructose-1-phosphate and fructose-6-phosphate (By similarity). Its preference for fructose-1-phosphate, a strong glycating agent that causes DNA damage rather than a canonical yeast metabolite, suggests a damage-control function in hexose phosphate metabolism (By similarity). Has also been shown to have O-methyltransferase activity that methylates glutamate residues of target proteins to form gamma-glutamyl methyl ester residues (By similarity). Possibly methylates PCNA, suggesting it is involved in the DNA damage response (By similarity).
Similarity
Belongs to the damage-control phosphatase family. Sugar phosphate phosphatase III subfamily.
Mass
50.549 kDa
Sequence
MAESPAFLSAKDEGSFAYLTIKDRTPQILTKVIDTLHRHKSEFFEKHGEEGIEAEKKAISLLSKLRNELQTDKPITPLVDKCVDTHIWNQYLEYQRSLLNEGDGEPRWFFSPWLFVECYMYRRIHEAIMQSPPIHDFDVFKESKEENFFESQGSIDALCSHLLQLKPVKGLREEQIQDEFFKLLQISLWGNKCDLSLSGGESSSQKANIINCLQDLKPFILINDTESLWALLSKLKKTVETPVVRVDIVLDNSGFELITDLVLADFLFSSELATEIHFHGKSIPWFVSDVTEHDFNWIVEHMKSSNLESMSTCGACWEAYARMGRWAYHDHAFWTLPHPYCVMPQVAPDLYAELQKAHLILFKGDLNYRKLMGDRKWKFTFPFHQALSGFHPAPLCSIRTLKCELQVGLQPGQAEQLTASDPHWLTTGRYGILQFDGPL

Gene
Armt1
Protein
Damage-control phosphatase ARMT1
Organism
Rattus norvegicus
Length
439 amino acids
Function
Metal-dependent phosphatase that shows phosphatase activity against several substrates, including fructose-1-phosphate and fructose-6-phosphate (By similarity). Its preference for fructose-1-phosphate, a strong glycating agent that causes DNA damage rather than a canonical yeast metabolite, suggests a damage-control function in hexose phosphate metabolism (By similarity). Has also been shown to have O-methyltransferase activity that methylates glutamate residues of target proteins to form gamma-glutamyl methyl ester residues (By similarity). Possibly methylates PCNA, suggesting it is involved in the DNA damage response (By similarity).
Similarity
Belongs to the damage-control phosphatase family. Sugar phosphate phosphatase III subfamily.
Mass
50.184 kDa
Sequence
MAESPAFLSAQDVGSFAYLTIKDRTPQILTKVIDTLHRHKSEFFEKHGEEGVEAEKKAISLLSKLRNELQTDKPIIPLVDKCVDTDIWNQYLEYQRSLLNEGDGEPRWFFSPWLFVECYMYRRIHEAIMQSPPIHDFDVFKESKDENFFESQDSINALCTHLLQLKPITDLGEKQIQDEFFKLLQISLWGNKCDLSLSGGESSSQKADIINSLKDLKPFILVNETESLWALLSKLKKTAEPPAVRVDIVLDNSGFELVTDLVFADFLLSSELATEIHFHGKIIPWFVSDVTVRDFEWIVEHMKGSHLESMSACGAAWEAYVGMKKWVYHDHAFWTLPHPFCAMPQVAPDLYAELQKAGVVLFKGDLNYRKLMGDRKWKFTVPFHQALSGFHPAPLCSIRTLKCELQVGLQPGQAEHLTASDPHWLTTGKYGIFQFDGPL