Gene
KWMTBOMO01991
Annotation
PREDICTED:_serine-protein_kinase_ATM_isoform_X1_[Amyelois_transitella]
Full name
Non-specific serine/threonine protein kinase
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Serine-protein kinase ATM
Serine-protein kinase ATM
Alternative Name
Ataxia telangiectasia mutated homolog
Location in the cell
Nuclear Reliability : 3.202
Sequence
CDS
ATGGATTTAGAAACTACCTTTAAAGAAGTTTGTGACGGATTAAAACTGACTAGAAACACTGACCGCAAAAAAAACGCTGAAAATTTAAAAGAATATCTCACAAGAAATGCTGTTCCTTGCATGTTGACACATAATGCACTTCGTAAAACCGGGTACTGCTGGAGCAATGTTTTTGATGATATAAACGAATATTTTTTAAAGGAATGTGAAAAATTTGAAACCTCAAAAACATTCGATACAATTACTGTACCCCTTTGTACGTCACTGCTTCATCTATGTGTTGCTGGTTCCAATAAAGGTAGAGCATATGTAAGATGTGAAAAGATACTAGAAGCTTGCTATACTATCTTGAAAGATCCACGCCTTGCTACTGCTGTTGGCGATGCATATTTAACTTTATTATATAAATATGTTTTGCCTCTCGATCATTACCTTGGATTTATCAAACCATCTGATTGGGAAGATCTATTAAATATCGGTACTGCAACATGTTTAAAGTCTTACTCAAAATTGGATGATTTTACTAAGTTGAGATTCATTCTCATTGTTCTGAAAAATGGAAGTGAATACTGTCAATTTGCAGTTTCACTTAAAGAATCACTCTCACAAATAAAAAGATGCTTTTTGAGACTAGGACATGACAAAAAACTACAATCGGTCATCGTGGATATAACAATAGTATTAATAAAAACGTTATCCATGGAATGTCGCTTGACCATGTGCCAATTTACTGAGAGTATTTTGTCATCAATACTGAAATTTTACGACCCAAATCAGGATGTTTCCAAAAAGTCATCACTATTTCAATTGTTAAATTACACAATGGTGGTTCATCATCCACATGGAAGAAAACAAAATCAAGAATGCAGTCTGGCTTCTGATTGGATTCTATGGAATAAGCATCTTCACAACATATTAGAAATCATATGTTTAGAAGTGACTTATTTGCAGAAAAACCCGAAACACAGTACTATAAAACAATTTGAATATTTCTTTAGTTTAGCTGCTGCAGTGTATTTTCAAATTTTCGAAGGAATACAATCACTAGACGATGAGCCTGGACCATCGAACAAAAGGCAAAAAATAAGTTTTAACAAAATAAAAACTTTTCGGGATCTTTTAGACGAATTGCGAATTAATAGTGTTCCTTGGTTGGGAATCATACAAGTGTTCGTAAGAAAGTATGGCGACGAAATCGCCCCCCTTGATTACTTAACGTTGATAAATGTATTGGAGTCACTAATAACCAATGATAAAGCTAACGTGAACTGGGATATCTACGAGGAGTTAGCCTGTGACGTTCTAAAGAAGCTAACAGATGCCACATCCGGACAAGAAGATTCTAGTGCCGCGTCGCTGTTACTTTGGAATTCTTGTGTACGAAACTCGTCGTCTAATAGTTCGTCACATAAAGCGATGCATAGAATAATTCAGAGTTTATTGAATTTAAATATTTTGTCATTCAACAATATACAGACGCTAGTTAAATTTTACACCGAGAAAAGTATGCCGGTAACAAATTCTAGTGTGGCGACCGTCAATAGTATCTCGAAGAGGTTTTTCACCAAATTCAACAACCTGGAAACGAAAATAAGTTTATACTATTGGTTTGTTAATGGAGACAATCATTCCGTTGATATATCGGAAACTGAAGAATTTTTTTCGAGATTACTGGCACACGAGAATGTGAATGTTTACAGAAAAAAAATCGTTTCTGAAGACGGCCACTTCGATTTGTTATTTAATTCTATCGAGGATTGTATCTTGTTTAGCGAGTTTGATATTGATCTGCCCGAAATTGTAGAATACGGTGAGCTTAATATTGACCGGTTTGAACTACAGAGAGGCGTACTGAATCACATGACTAACGATTTTATCACAACTCTGAGGGAACATATCGAAAGATTGAAGAGAAAAGAAATCGATATTTTACGGTACATTGAATACACAACTATTGTTGTTGTGGCTATGGAATGCATGATAAAAAATAGCACGAACAAATGCGATTTTAAACAAGAGCTGCGGGAATCGATCGAATTGGCCGCGACGCAGATGTTCAAACGTTCACAAGATGTTTTAGTCAGTAACACACAAATTCCAGTCAAAATAAAATTATTGCAGCGCCTCGAAGACATTATGGCGGCTGACTTGAGTCCCGCTCTCGGCTCGCTAATTCGTAATTGTATTAATGAAGATTTCTTTCGTTGCATTAGTAATATATTGCACGTTGATACTAAGGATGAAAATGACGACATAGTTTGTGCCGAAGAGGACGACCTAGACATTGATGCTCTCAGACATCACTGCGTATACGTATTGGCTTCGTTTTGCAGAATTCCAGGGCCTTATAGAGATGAGCTGTTAGAATTGATTTTAGATTCCAAATGTTATACGTACAGCAAGGACACTCACTGTGCTCTTAGATGTATTGAAATCTTAAGTGATGGTCGTGTGGAGCAACCTCCTATAGGCTTAATGTTTCAGTTGATCGCAAACATTTGCAAGGAAATGTACAGAAATCCAAAAGCTTCGTTGGGAATTTTAAAAACGCTTTACAAAATGATCGAAAGTATTTGGTCTGAGAATGAAATTATGAAACAAAATTGTTGCATAATGATAAAGAGATATCTGCAGCGTTGCGAGAAGTCGTACTACCCTCCCGCGGTAGCCGCTGCGGTTTACAAATGTGCAGCCAAAATAGTTTCCTTGAATAACCGTCGGTATTTTTCTGACGAAACTATGTTTGAGGAATCTATAACGAATCAAATCCGAGGAGACATTCACAGCGTTCGCCTTTACTGTTGTTACTTGCTTCAATACGTCTTTACAAATTTTACGAATGACCACGTGTCTTCATACTTGGCTGGTTTATTAAATATGTTTCTGATAAACGTTCTGCACAAGAAGGACATTCTATTGAAAGACGAAGCCACTAACAGAACGCACACAATTTTGCGAGCGTATATATCTTTAGTGGAAATAAATAAATCGCTAGTTCATCAAGTGATAATGGAGGTGTTGCGATTCCAAAAGGAGAAAACTTTAAACATGCATTTAACAGAGAAGATTCTTAAAAGAATATGTCATATTTCAAACGTAAAGGAGATATCTGTTTATCTGGACGATAACGTTCTTTCGGTTTTGCATTTTTGGTTCACGAATAATTTAACGATTGAGACGTTGCCTCTTAATCTCTTTAAGTGCGATGATATTAACGTATTCCTTGAACGGTATAAGAGCTGGTTGATCCCAGCGGACGCACTGTGGAACAGCGGAGGCAACATCAAGGAAAGCTCTCTATTGCATTTAATAAAACAAAATAATAAGAAACAATCACTAGAAGAAATCATCGAGGACAGTTTTCCACACTTCGTAGCCCTGTCGTTACCTTACGTAGTGATCGACAAGTACAAACTTCATTGTTTGTCCGAACTGCCGGCCAGTTTTAAAGAGTCATTGGAAAACGGCCAGAAGATGTTTCATCAAACGGGACAAATGCTGACGCGCGACAAGTGGACCAATCTCTTCGTCGAAAACGTTGGAGAGATATTGATGTTGACCGCCGTGCACCTGTGCGATCACAGTGATGCTAACCGCTTGTTCGGAATCGATATACAGAATAAAAACCGAAGCTTTTATTATTCGAAACGAGTATACTTGTCTGTTTTGGATTTCATCGGGGAACTCTCCGATTGTAGCATAATGCAGTATCTCTGTGGAAATCAACCATTAGCAATATTCAACATATTATTCAAAGTATGGAGCCGCGTAATAAATGAAAATTGTCCAGAATCGAGAATTTCAGCGTTGCACGCCTACATTACAATTTTGGAAAGTATTCCGCAAGAACAATCTTCAGATGCATTCGTATGTAATTTTGCTTGCAAGAGCTTCGCCCATGCGATCAACGACAGTGATAATAGTAAAAATGTTGAAATTTACGTAAAGAGTTTAAAAATAATATTTGAAAGAATATTAATAAATAAAGCTGATCTGATTAAAACGTCAGTGTCTCAGCTGTTACCGATTTTGATGATAAAACAAGAAGAAGGTTTTGTAAAAGAATGCGAACCTTTGATACATTATTTGACAGTGGAAATGAAAGATTGCTTGAACGGTAGCGAAGACGTTCTAGACTTTATGAGTTCGGTTTCTCAAGGGTTTGTAGATGACATGGAATGCTCTACCGTGAGATCGTTCACTGAGAAGCTTAGGACGTACAAACTGAGCTTGGTGTATCCTAGTTACGAAACGCTTTTAAATTTACGAAAGTGTTTGATCACCAATAAACACTTCATCGATCGGTGCTTGAACGATTTGAACTCGAAAGGATTCTCAGAGGACTGCGGAACGAGCATTATACATCAAATTATAAATTCATTGAACGACATCTTGAAGTCAACAAGAGATAATAAGACGATTGTGGAAACGTGTAATTGCTTGGCAGAAATCGGTATTTACGATTTGAAAACTTTAGTGACCGTACCTCCACGCGACACGCACAAAGTCGTCAGCGTGACCCCTACCAAGTGTTTTGTAACGATTGTCGTAAAGTCTCTCTCTGAAACACTAATGGACGACAATCCCACCGTGACATCTAAAGCAGCCGAAACATTAAGCAACATTTTGAAATGCTTCGAGGATATCGATACAATTGATATAGATAGACAGTGCAAGCAGATACTGAAGCCCTTGGTGTCGGTCAATACGTTTCCCGTCACTATTAAACTTAACATACACGCATATACCGACTACAGCATTGAATATGTGGATGGAATTTTCTTGAGGGCTTTGATTTCTAATTGGAATAACAACAGCAAAGATGTAGGCCATGATTGGTTGCAACGAGTCACTTGCACTCTGCTGAAGCTCATAAAACCGACCTGTCCGTATTTGGATACGTTGTATGAAGTCTGCCAATTAAAGCCTCACGTCTGTAGAGATATTCTAGCGCCTTTGGTAGGTGTCCTGCTTTTTTCTAGTTCGACTGAAGGTAAAATCGAAATGCTCGGGACACAAATTAACGCAGTTTTTAATTATATTTGGGAACAAACTTTCGAGGATAAAGTCGACAGCAGTAGTAACAGTCGCGTGAGCTCCGCGTCGGGCCATGGTTTAGATTATGGACAAAAACAGATGATTCAATATATGTTGGATATTGTTGAATTCGTCCGCTTACAAAGAGCTTACTATTTGAGAATAAATACCGAAGTTGATTCATTAAACTATTTGAATCTAGAATATGACAAAGTTGCTTGGGCTGCAACGATTTCGGATCAAAATCTGATCGCAGTTTATTACGGCGAGCTCTGGGCGTTCGCTAAGAACGGCGGTGTTCCTCCGGCATCACCCGAAAAAGCTGCAAGCTTAGAAGGAGGGGAAAATATGCAACGGATATTAAGAAAGTGCTACGTGTCGATCGGCGACACGGACGCGGTGGAGGGCTGCGGCACGGCGCACCTCACCGTGGAGAGCGAGAAGCGCAAGTACCTAATCCACACGGGGCAGTTCGCGGACGCGCTGCTGCTGCACGACGCGGCGCTGTCCCGGGGCGCGCGCGCAGACCGCCCCCTGCACGCCGGCGTCGCGCGCTCGCTACACAAGTCGGGAATGCATCACCTCGCCTTGCAATACATTAAATCGTTGCCCGACAACGACTACTTAAACGAGATAAAGTACGAATGCATGTCGTTTTTGGGTGACTGGAGTGAATTTGTTGACACGCAGGAGTTAGACGAGAATTCGAGGAATGGTAATTTCAATCCGAATTCCATATTGAGAGCATTTCAATATGCCTGCCTCAGAGCGTGTGTTGGAGAGGAAACGACGCAAATTGATCTAGACAGAATAGTGCCCTTGAACAGAGCCAAAATAGCCGTAGCCACGCTTTGCCAGAACCTCAACATGGAGACCAGTCAGAGCGTATACAAAATCGTTCGAGAATTACACATATTCAAAGACATCGAAGATTACTATTCGGTTAGATCGGCCGATATATCGATAAACGATTTGCTCAAACGTTGGCGAACCGATAACCTACCTCGGTTTAACGACTTCAAGTACGTCGAGGCTCTGATTTCGCAACGCGTGATGATGCTGGAGCACGCCGCGGGCCGCTACCACGACTTGCTGAAAGATATCGTTTCGCTGCAGATACAATATGCCGAACTATCTCTCGCTCACGGCAGAATACAGATGTCTCAACGGCTAATTGCGACAGTAAAGGACCTGCAGGTGCCGGACGAGGTGACCTTAGCGGAAAGCGAAATATCTTGGGCGAAAGGACACAGAGAGATCGCTATTTCCTTGCTAAAGAATGTCGTTACCAATCCGACTGTAGATGCTACGACCAGTGCGGCTGCTCTAAGGCAGTACGGGTTGTGGATGGCAGAGTCGAAACGAGAGAACGTCAGAGACATCATTGAAAAGTACCTGTTGAAAAGTCTGGACGTCATGAATGCTACCGATCATAAACAGACGAGATTCAAAGTCTACTATGACATCGCCAAATTTGCTGACGCGGAGTACAAACAAGTCGAGGCGTACATGAACTCATCCGTTTTCGAGAACAAAGTGAAATGTTTAGAGAACATCAAGGACACCACATCATCATTACGTTCAACGCAACAATCACTGACCAGGGACGAGCAGAGAGCCCTAATTGTAAACGATCGATTTAGGAAGCTGGATGAAACCGAAATTGCTAATACTAAAGCCGTGAAGGAAAATTTTCTGAGTTTGGCCATGAGGTACTACTTACGTTCGTTGAAGCAATGCGAGCTGAACAATTTGTGTGTTTTTCGTGTCATTTCATTATGGCTCGACAATCCAAGTTTTGATTTCGAAGAGTCGAACGGCGAAAAGTTCACTGATTTGCTACACGCCATACCGTCGAGGAAGTTTATTACGGTACTGCCTCAGTTGGTGCCCAGATTGAATACTGAACGAACAGCGTTTGCAGAAAACTTGAAGAAGATCATAAAGAGATGTGCCATCGATCATCCCCACCACACACTTCCCATTCTGTTTAGTTTGAAGAATTCAGACAAAGACAAAACGATTACACTAAACTTAAAACCAGGAAATACACAGTCCAGAGCCCAAGAGCCCAGAGTCGTTGCCGCTCAGGCATTAAGTGTTGAAATAAGTAAAGAAAACGAATCTATGGCATCGATTATGTCCCAAATGGAAAGAATGTGCGATGCAATGATAGCTTTCGCTAACCTCGAACCTTCGTCGAAAGAAGTGAAACAAGCCATCCCGGCAACTGAACGAATACTGAGGCTTGGTCATTTGGACGCTATACCCGTGCCGACCGCGACGATACCTATTAGAGATGACTGCACGTACTCTGATTTTCCAGCTTTAAAATCATTCGACAACTACTTCGAATTGGTTGGAGGGATTAACTTCCCGAAAAAAGTGACATGCCTTGATTCGACGGGACAAAATAGGATACTGTTGATTAAGGGTAAAGATGATTTGAGGCAGGACGCGGTAATGCAACAAGTCTTCAACATAGTCAACGCTCTACTAGAAAACAATCCGGTCACTAGTCGAATCAAGCTGCTAATCCGAACATACAAGGTGGTGCCTCTGTCCCGCCAGTCGGGTGTACTGGAGTGGTGCGTGGGAACGATACCGCTGGGAGGATATTTGGTGGGCACAAAAAAATCACCCGGTGCGCATGCGCGTTATCGACCTAAGGACCTATCGTGCATGGATGCTCGAAAAAAGATGGAAATGAATCGCGAATCAAGGCAGAGTAACAATGAGAAGTTGACAGTTTTCTTGAACATTTTGAGAGACTTTAAACCGGTGTTTCATTACTTTTTCACTGAACATTATCACAATCCGGTGTCTTGGTACGAACGAAGACTGGCGTATACAAAAAGTGTGGCGGCGTCTTCCATGGTGGGATATATACTGGGCTTGGGCGATCGACACGTTCAGAACATATTGATCGATAAACATACTGCTGAAGTTATTCACATCGATTTTGGTATAGCGTTTGATCAAGGCAAGGCGCTGACAACACCCGAGACTGTTCCTTTTCGGCTAACCCAAGACCTGGTTTCTGGGTTCGGATCCAGCGGCGTTGAAGGAATATTTAGGAGGTCTTGTGAGAAAACAATGCAACTCCTCAGAGACAATCAGGAAACCTTATTGACGATATTGGAAGTGCTTCTATGTGATCCTTTGTACACTTGGATTATATCCCCTAAACAACAAAATACTCGTGGCAGTAAAGTCGATAACCTTAATTGTGGCAGTAGTTCGAAAAGTGGTCTCGCCCAGAGAGCTTTGCTAACTGTAAACAGTAAATTAAGCGGCACCGAAGGCGGTGTGGCGGGAGGCGTTGCAGTTCCTGGTCAAGTAGCACGTCTAATTCATACAGCAATGGACCCAAATAACTTGTGCCGGCTTTTCCCGGGGTGGCAACCCTATTTATAG
Protein
MDLETTFKEVCDGLKLTRNTDRKKNAENLKEYLTRNAVPCMLTHNALRKTGYCWSNVFDDINEYFLKECEKFETSKTFDTITVPLCTSLLHLCVAGSNKGRAYVRCEKILEACYTILKDPRLATAVGDAYLTLLYKYVLPLDHYLGFIKPSDWEDLLNIGTATCLKSYSKLDDFTKLRFILIVLKNGSEYCQFAVSLKESLSQIKRCFLRLGHDKKLQSVIVDITIVLIKTLSMECRLTMCQFTESILSSILKFYDPNQDVSKKSSLFQLLNYTMVVHHPHGRKQNQECSLASDWILWNKHLHNILEIICLEVTYLQKNPKHSTIKQFEYFFSLAAAVYFQIFEGIQSLDDEPGPSNKRQKISFNKIKTFRDLLDELRINSVPWLGIIQVFVRKYGDEIAPLDYLTLINVLESLITNDKANVNWDIYEELACDVLKKLTDATSGQEDSSAASLLLWNSCVRNSSSNSSSHKAMHRIIQSLLNLNILSFNNIQTLVKFYTEKSMPVTNSSVATVNSISKRFFTKFNNLETKISLYYWFVNGDNHSVDISETEEFFSRLLAHENVNVYRKKIVSEDGHFDLLFNSIEDCILFSEFDIDLPEIVEYGELNIDRFELQRGVLNHMTNDFITTLREHIERLKRKEIDILRYIEYTTIVVVAMECMIKNSTNKCDFKQELRESIELAATQMFKRSQDVLVSNTQIPVKIKLLQRLEDIMAADLSPALGSLIRNCINEDFFRCISNILHVDTKDENDDIVCAEEDDLDIDALRHHCVYVLASFCRIPGPYRDELLELILDSKCYTYSKDTHCALRCIEILSDGRVEQPPIGLMFQLIANICKEMYRNPKASLGILKTLYKMIESIWSENEIMKQNCCIMIKRYLQRCEKSYYPPAVAAAVYKCAAKIVSLNNRRYFSDETMFEESITNQIRGDIHSVRLYCCYLLQYVFTNFTNDHVSSYLAGLLNMFLINVLHKKDILLKDEATNRTHTILRAYISLVEINKSLVHQVIMEVLRFQKEKTLNMHLTEKILKRICHISNVKEISVYLDDNVLSVLHFWFTNNLTIETLPLNLFKCDDINVFLERYKSWLIPADALWNSGGNIKESSLLHLIKQNNKKQSLEEIIEDSFPHFVALSLPYVVIDKYKLHCLSELPASFKESLENGQKMFHQTGQMLTRDKWTNLFVENVGEILMLTAVHLCDHSDANRLFGIDIQNKNRSFYYSKRVYLSVLDFIGELSDCSIMQYLCGNQPLAIFNILFKVWSRVINENCPESRISALHAYITILESIPQEQSSDAFVCNFACKSFAHAINDSDNSKNVEIYVKSLKIIFERILINKADLIKTSVSQLLPILMIKQEEGFVKECEPLIHYLTVEMKDCLNGSEDVLDFMSSVSQGFVDDMECSTVRSFTEKLRTYKLSLVYPSYETLLNLRKCLITNKHFIDRCLNDLNSKGFSEDCGTSIIHQIINSLNDILKSTRDNKTIVETCNCLAEIGIYDLKTLVTVPPRDTHKVVSVTPTKCFVTIVVKSLSETLMDDNPTVTSKAAETLSNILKCFEDIDTIDIDRQCKQILKPLVSVNTFPVTIKLNIHAYTDYSIEYVDGIFLRALISNWNNNSKDVGHDWLQRVTCTLLKLIKPTCPYLDTLYEVCQLKPHVCRDILAPLVGVLLFSSSTEGKIEMLGTQINAVFNYIWEQTFEDKVDSSSNSRVSSASGHGLDYGQKQMIQYMLDIVEFVRLQRAYYLRINTEVDSLNYLNLEYDKVAWAATISDQNLIAVYYGELWAFAKNGGVPPASPEKAASLEGGENMQRILRKCYVSIGDTDAVEGCGTAHLTVESEKRKYLIHTGQFADALLLHDAALSRGARADRPLHAGVARSLHKSGMHHLALQYIKSLPDNDYLNEIKYECMSFLGDWSEFVDTQELDENSRNGNFNPNSILRAFQYACLRACVGEETTQIDLDRIVPLNRAKIAVATLCQNLNMETSQSVYKIVRELHIFKDIEDYYSVRSADISINDLLKRWRTDNLPRFNDFKYVEALISQRVMMLEHAAGRYHDLLKDIVSLQIQYAELSLAHGRIQMSQRLIATVKDLQVPDEVTLAESEISWAKGHREIAISLLKNVVTNPTVDATTSAAALRQYGLWMAESKRENVRDIIEKYLLKSLDVMNATDHKQTRFKVYYDIAKFADAEYKQVEAYMNSSVFENKVKCLENIKDTTSSLRSTQQSLTRDEQRALIVNDRFRKLDETEIANTKAVKENFLSLAMRYYLRSLKQCELNNLCVFRVISLWLDNPSFDFEESNGEKFTDLLHAIPSRKFITVLPQLVPRLNTERTAFAENLKKIIKRCAIDHPHHTLPILFSLKNSDKDKTITLNLKPGNTQSRAQEPRVVAAQALSVEISKENESMASIMSQMERMCDAMIAFANLEPSSKEVKQAIPATERILRLGHLDAIPVPTATIPIRDDCTYSDFPALKSFDNYFELVGGINFPKKVTCLDSTGQNRILLIKGKDDLRQDAVMQQVFNIVNALLENNPVTSRIKLLIRTYKVVPLSRQSGVLEWCVGTIPLGGYLVGTKKSPGAHARYRPKDLSCMDARKKMEMNRESRQSNNEKLTVFLNILRDFKPVFHYFFTEHYHNPVSWYERRLAYTKSVAASSMVGYILGLGDRHVQNILIDKHTAEVIHIDFGIAFDQGKALTTPETVPFRLTQDLVSGFGSSGVEGIFRRSCEKTMQLLRDNQETLLTILEVLLCDPLYTWIISPKQQNTRGSKVDNLNCGSSSKSGLAQRALLTVNSKLSGTEGGVAGGVAVPGQVARLIHTAMDPNNLCRLFPGWQPYL
Summary
Description
Serine/threonine protein kinase which activates checkpoint signaling upon double strand breaks (DSBs), apoptosis and genotoxic stresses such as ionizing ultraviolet A light (UVA), thereby acting as a DNA damage sensor. Recognizes the substrate consensus sequence [ST]-Q. Phosphorylates 'Ser-139' of histone variant H2AX/H2AFX at double strand breaks (DSBs), thereby regulating DNA damage response mechanism. Also plays a role in pre-B cell allelic exclusion, a process leading to expression of a single immunoglobulin heavy chain allele to enforce clonality and monospecific recognition by the B-cell antigen receptor (BCR) expressed on individual B-lymphocytes. After the introduction of DNA breaks by the RAG complex on one immunoglobulin allele, acts by mediating a repositioning of the second allele to pericentromeric heterochromatin, preventing accessibility to the RAG complex and recombination of the second allele. Also involved in signal transduction and cell cycle control. May function as a tumor suppressor. Necessary for activation of ABL1 and SAPK. Phosphorylates DYRK2, CHEK2, p53/TP53, FANCD2, NFKBIA, BRCA1, CTIP, nibrin (NBN), TERF1, RAD9, UBQLN4 and DCLRE1C. May play a role in vesicle and/or protein transport. Could play a role in T-cell development, gonad and neurological function. Binds DNA ends. Plays a role in replication-dependent histone mRNA degradation. Phosphorylation of DYRK2 in nucleus in response to genotoxic stress prevents its MDM2-mediated ubiquitination and subsequent proteasome degradation. Phosphorylates ATF2 which stimulates its function in DNA damage response.
Serine/threonine protein kinase which activates checkpoint signaling upon double strand breaks (DSBs), apoptosis and genotoxic stresses such as ionizing ultraviolet A light (UVA), thereby acting as a DNA damage sensor. Recognizes the substrate consensus sequence [ST]-Q. Phosphorylates 'Ser-139' of histone variant H2AX/H2AFX at double strand breaks (DSBs), thereby regulating DNA damage response mechanism. Also plays a role in pre-B cell allelic exclusion, a process leading to expression of a single immunoglobulin heavy chain allele to enforce clonality and monospecific recognition by the B-cell antigen receptor (BCR) expressed on individual B-lymphocytes. After the introduction of DNA breaks by the RAG complex on one immunoglobulin allele, acts by mediating a repositioning of the second allele to pericentromeric heterochromatin, preventing accessibility to the RAG complex and recombination of the second allele. Also involved in signal transduction and cell cycle control. May function as a tumor suppressor. Necessary for activation of ABL1 and SAPK. Phosphorylates DYRK2, CHEK2, p53/TP53, FANCD2, NFKBIA, BRCA1, CTIP, nibrin (NBN), TERF1, RAD9 and DCLRE1C. May play a role in vesicle and/or protein transport. Could play a role in T-cell development, gonad and neurological function. Plays a role in replication-dependent histone mRNA degradation. Binds DNA ends. Phosphorylation of DYRK2 in nucleus in response to genotoxic stress prevents its MDM2-mediated ubiquitination and subsequent proteasome degradation. Phosphorylates ATF2 which stimulates its function in DNA damage response.
Serine/threonine protein kinase which activates checkpoint signaling upon double strand breaks (DSBs), apoptosis and genotoxic stresses such as ionizing ultraviolet A light (UVA), thereby acting as a DNA damage sensor. Recognizes the substrate consensus sequence [ST]-Q. Phosphorylates 'Ser-139' of histone variant H2AX/H2AFX at double strand breaks (DSBs), thereby regulating DNA damage response mechanism. Also plays a role in pre-B cell allelic exclusion, a process leading to expression of a single immunoglobulin heavy chain allele to enforce clonality and monospecific recognition by the B-cell antigen receptor (BCR) expressed on individual B-lymphocytes. After the introduction of DNA breaks by the RAG complex on one immunoglobulin allele, acts by mediating a repositioning of the second allele to pericentromeric heterochromatin, preventing accessibility to the RAG complex and recombination of the second allele. Also involved in signal transduction and cell cycle control. May function as a tumor suppressor. Necessary for activation of ABL1 and SAPK. Phosphorylates DYRK2, CHEK2, p53/TP53, FANCD2, NFKBIA, BRCA1, CTIP, nibrin (NBN), TERF1, RAD9 and DCLRE1C. May play a role in vesicle and/or protein transport. Could play a role in T-cell development, gonad and neurological function. Plays a role in replication-dependent histone mRNA degradation. Binds DNA ends. Phosphorylation of DYRK2 in nucleus in response to genotoxic stress prevents its MDM2-mediated ubiquitination and subsequent proteasome degradation. Phosphorylates ATF2 which stimulates its function in DNA damage response.
Catalytic Activity
ATP + L-seryl-[protein] = ADP + H(+) + O-phospho-L-seryl-[protein]
ATP + L-threonyl-[protein] = ADP + H(+) + O-phospho-L-threonyl-[protein]
ATP + L-threonyl-[protein] = ADP + H(+) + O-phospho-L-threonyl-[protein]
Subunit
Homodimer (By similarity). Dimers or tetramers in inactive state. On DNA damage, autophosphorylation dissociates ATM into monomers rendering them catalytically active. Binds p53/TP53, ABL1, BRCA1, NBN/nibrin and TERF1. Part of the BRCA1-associated genome surveillance complex (BASC), which contains BRCA1, MSH2, MSH6, MLH1, ATM, BLM, PMS2 and the RAD50-MRE11-NBN protein complex. This association could be a dynamic process changing throughout the cell cycle and within subnuclear domains. Interacts with RAD17; DNA damage promotes the association. Interacts with EEF1E1; the interaction, induced on DNA damage, up-regulates TP53. Interacts with DCLRE1C, KAT8, KAT5, NABP2, ATMIN and CEP164. Interacts with AP2B1 and AP3B2; the interaction occurs in cytoplasmic vesicles (By similarity). Interacts with TELO2 and TTI1. Interacts with DDX1. Interacts with BRAT1 (By similarity).
Homodimer (By similarity). Dimers or tetramers in inactive state. On DNA damage, autophosphorylation dissociates ATM into monomers rendering them catalytically active. Binds DNA ends, p53/TP53, ABL1, BRCA1, NBN/nibrin and TERF1. Part of the BRCA1-associated genome surveillance complex (BASC), which contains BRCA1, MSH2, MSH6, MLH1, ATM, BLM, PMS2 and the RAD50-MRE11-NBN protein complex. This association could be a dynamic process changing throughout the cell cycle and within subnuclear domains. DNA damage promotes association with RAD17. Interacts with EEF1E1; the interaction, induced on DNA damage, up-regulates TP53. Interacts with DCLRE1C, MYST1, KAT5, NABP2, ATMIN and CEP164 (By similarity). Interacts with AP2B1 AND AP3B2; the interaction occurs in cytoplasmic vesicles (PubMed:9707615). Interacts with TELO2 AND TTI1. Interacts with DDX1 (By similarity). Interacts with BRAT1 (By similarity).
Homodimer (By similarity). Dimers or tetramers in inactive state. On DNA damage, autophosphorylation dissociates ATM into monomers rendering them catalytically active. Binds DNA ends, p53/TP53, ABL1, BRCA1, NBN/nibrin and TERF1. Part of the BRCA1-associated genome surveillance complex (BASC), which contains BRCA1, MSH2, MSH6, MLH1, ATM, BLM, PMS2 and the RAD50-MRE11-NBN protein complex. This association could be a dynamic process changing throughout the cell cycle and within subnuclear domains. DNA damage promotes association with RAD17. Interacts with EEF1E1; the interaction, induced on DNA damage, up-regulates TP53. Interacts with DCLRE1C, MYST1, KAT5, NABP2, ATMIN and CEP164 (By similarity). Interacts with AP2B1 AND AP3B2; the interaction occurs in cytoplasmic vesicles (PubMed:9707615). Interacts with TELO2 AND TTI1. Interacts with DDX1 (By similarity). Interacts with BRAT1 (By similarity).
Similarity
Belongs to the PI3/PI4-kinase family.
Belongs to the PI3/PI4-kinase family. ATM subfamily.
Belongs to the PI3/PI4-kinase family. ATM subfamily.
Keywords
Acetylation
ATP-binding
Cell cycle
Complete proteome
Cytoplasmic vesicle
DNA damage
DNA-binding
Kinase
Nucleotide-binding
Nucleus
Phosphoprotein
Reference proteome
Transferase
Tumor suppressor
Feature
chain Serine-protein kinase ATM
Uniprot
A0A2H1X1L0
A0A2A4J584
A0A212ESY2
A0A194PM36
A0A194RGR1
A0A067R4Q0
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D7EIC9 A0A226EXP6 A0A0C9QFQ2 A0A0C9R2P1 A0A232F3D5 K7J932 A0A1D2NG62 A0A146SAH4 Q6PQD5 G3WB56 A0A287A9E0 F1SV20 A0A2Y9EZ30 A0A2Y9M8A0 G5BXR2 H0VI73 A0A3Q0CP75 A0A2Y9M6F8 A0A091CT98 Q62388 M3Y3L9 G1T7X7 A0A3Q0HD24 A0A146ZU23 A0A087XK65 G3T1D5 B9EHX4 A0A0G2K3I0 A0A2K6L9Z6 A0A2K6QRY5 D4ACL8 A0A3P9PRP7 F6XCB4 A0A146VQM9
D7EIC9 A0A226EXP6 A0A0C9QFQ2 A0A0C9R2P1 A0A232F3D5 K7J932 A0A1D2NG62 A0A146SAH4 Q6PQD5 G3WB56 A0A287A9E0 F1SV20 A0A2Y9EZ30 A0A2Y9M8A0 G5BXR2 H0VI73 A0A3Q0CP75 A0A2Y9M6F8 A0A091CT98 Q62388 M3Y3L9 G1T7X7 A0A3Q0HD24 A0A146ZU23 A0A087XK65 G3T1D5 B9EHX4 A0A0G2K3I0 A0A2K6L9Z6 A0A2K6QRY5 D4ACL8 A0A3P9PRP7 F6XCB4 A0A146VQM9
EC Number
2.7.11.1
Pubmed
EMBL
ODYU01012768
SOQ59240.1
NWSH01002987
PCG67141.1
AGBW02012699
OWR44587.1
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KQ459601 KPI93799.1 KQ460398 KPJ15116.1 KK852699 KDR18216.1 KQ971310 EFA11787.2 LNIX01000001 OXA61844.1 GBYB01002229 GBYB01013363 JAG71996.1 JAG83130.1 GBYB01002230 JAG71997.1 NNAY01001115 OXU25092.1 AAZX01005394 LJIJ01000050 ODN04229.1 GCES01108620 JAQ77702.1 AY587061 AEFK01115011 AEFK01115012 AEFK01115013 AEFK01115014 AEFK01115015 AEFK01115016 AEMK02000070 JH172395 GEBF01006111 EHB14073.1 JAN97521.1 AAKN02053834 AAKN02053835 AAKN02053836 AAKN02053837 AAKN02053838 AAKN02053839 KN124601 KFO20710.1 U43678 AC079869 AC156640 AEYP01061336 AEYP01061337 AEYP01061338 AEYP01061339 AEYP01061340 AEYP01061341 AAGW02009206 AAGW02009207 AAGW02009208 AAGW02009209 AAGW02009210 AAGW02009211 GCES01016513 JAR69810.1 AYCK01016490 BC138525 CH466522 AAI38526.1 EDL25796.1 AABR07073407 AC133262 CH473975 EDL95516.1 JSUE03013373 JSUE03013374 GCES01066540 JAR19783.1
KQ459601 KPI93799.1 KQ460398 KPJ15116.1 KK852699 KDR18216.1 KQ971310 EFA11787.2 LNIX01000001 OXA61844.1 GBYB01002229 GBYB01013363 JAG71996.1 JAG83130.1 GBYB01002230 JAG71997.1 NNAY01001115 OXU25092.1 AAZX01005394 LJIJ01000050 ODN04229.1 GCES01108620 JAQ77702.1 AY587061 AEFK01115011 AEFK01115012 AEFK01115013 AEFK01115014 AEFK01115015 AEFK01115016 AEMK02000070 JH172395 GEBF01006111 EHB14073.1 JAN97521.1 AAKN02053834 AAKN02053835 AAKN02053836 AAKN02053837 AAKN02053838 AAKN02053839 KN124601 KFO20710.1 U43678 AC079869 AC156640 AEYP01061336 AEYP01061337 AEYP01061338 AEYP01061339 AEYP01061340 AEYP01061341 AAGW02009206 AAGW02009207 AAGW02009208 AAGW02009209 AAGW02009210 AAGW02009211 GCES01016513 JAR69810.1 AYCK01016490 BC138525 CH466522 AAI38526.1 EDL25796.1 AABR07073407 AC133262 CH473975 EDL95516.1 JSUE03013373 JSUE03013374 GCES01066540 JAR19783.1
Proteomes
UP000218220
UP000007151
UP000053268
UP000053240
UP000027135
UP000007266
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UP000198287 UP000215335 UP000002358 UP000094527 UP000008227 UP000007648 UP000248484 UP000248483 UP000006813 UP000005447 UP000189706 UP000028990 UP000000589 UP000000715 UP000001811 UP000189705 UP000028760 UP000007646 UP000002494 UP000233180 UP000233200 UP000242638 UP000006718
UP000198287 UP000215335 UP000002358 UP000094527 UP000008227 UP000007648 UP000248484 UP000248483 UP000006813 UP000005447 UP000189706 UP000028990 UP000000589 UP000000715 UP000001811 UP000189705 UP000028760 UP000007646 UP000002494 UP000233180 UP000233200 UP000242638 UP000006718
Interpro
Gene 3D
ProteinModelPortal
A0A2H1X1L0
A0A2A4J584
A0A212ESY2
A0A194PM36
A0A194RGR1
A0A067R4Q0
+ More
D7EIC9 A0A226EXP6 A0A0C9QFQ2 A0A0C9R2P1 A0A232F3D5 K7J932 A0A1D2NG62 A0A146SAH4 Q6PQD5 G3WB56 A0A287A9E0 F1SV20 A0A2Y9EZ30 A0A2Y9M8A0 G5BXR2 H0VI73 A0A3Q0CP75 A0A2Y9M6F8 A0A091CT98 Q62388 M3Y3L9 G1T7X7 A0A3Q0HD24 A0A146ZU23 A0A087XK65 G3T1D5 B9EHX4 A0A0G2K3I0 A0A2K6L9Z6 A0A2K6QRY5 D4ACL8 A0A3P9PRP7 F6XCB4 A0A146VQM9
D7EIC9 A0A226EXP6 A0A0C9QFQ2 A0A0C9R2P1 A0A232F3D5 K7J932 A0A1D2NG62 A0A146SAH4 Q6PQD5 G3WB56 A0A287A9E0 F1SV20 A0A2Y9EZ30 A0A2Y9M8A0 G5BXR2 H0VI73 A0A3Q0CP75 A0A2Y9M6F8 A0A091CT98 Q62388 M3Y3L9 G1T7X7 A0A3Q0HD24 A0A146ZU23 A0A087XK65 G3T1D5 B9EHX4 A0A0G2K3I0 A0A2K6L9Z6 A0A2K6QRY5 D4ACL8 A0A3P9PRP7 F6XCB4 A0A146VQM9
PDB
5NP1
E-value=1.59671e-167,
Score=1521
Ontologies
PATHWAY
GO
GO:0016301
GO:0004674
GO:0005524
GO:0006974
GO:0005634
GO:0000077
GO:0000723
GO:0008630
GO:1904262
GO:0010212
GO:0090399
GO:0016572
GO:0006281
GO:0003677
GO:0046777
GO:0007094
GO:0006412
GO:0003735
GO:0031410
GO:0006975
GO:0071044
GO:0047485
GO:0005840
GO:0002331
GO:0016303
GO:0035264
GO:0045944
GO:0048538
GO:0030889
GO:0051402
GO:0008340
GO:0009791
GO:0044877
GO:0000724
GO:0045785
GO:0042159
GO:0043517
GO:0071480
GO:1904354
GO:0071481
GO:0045141
GO:0071500
GO:0002377
GO:0030335
GO:0048599
GO:0033151
GO:0032212
GO:0004677
GO:0007143
GO:0097694
GO:0007140
GO:0005730
GO:1990391
GO:0007050
GO:0046983
GO:0000781
GO:0001756
GO:1904884
GO:0007420
GO:0072434
GO:0036289
GO:0001541
GO:0043525
GO:0005819
GO:0007507
GO:0071300
GO:0010506
GO:1905843
GO:0070192
GO:2001022
GO:0043065
GO:1904358
GO:0006468
GO:0005737
GO:0005654
GO:0033129
GO:0002376
GO:0004672
GO:1901216
GO:0051726
GO:0032210
GO:0010628
GO:0007292
GO:0018105
GO:0001666
GO:1903626
GO:0008585
GO:1903978
GO:0010389
GO:0006915
GO:0005515
GO:0005488
GO:0008168
GO:0016876
GO:0043039
GO:0004651
PANTHER
Topology
Subcellular location
Nucleus
Cytoplasmic vesicle Primarily nuclear. Found also in endocytic vesicles in association with beta-adaptin. With evidence from 2 publications.
Cytoplasmic vesicle Primarily nuclear. Found also in endocytic vesicles in association with beta-adaptin. With evidence from 2 publications.
Length:
2817
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
0.14038
Exp number, first 60 AAs:
0.00016
Total prob of N-in:
0.00156
outside
1 - 2817
Population Genetic Test Statistics
Pi
208.03364
Theta
168.222243
Tajima's D
0.795458
CLR
0.237608
CSRT
0.598970051497425
Interpretation
Uncertain
