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Atm (NM_007499) Mouse Tagged ORF Clone

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SKU
MR226850
Atm (Myc-DDK-tagged) - Mouse ataxia telangiectasia mutated homolog (human) (Atm)
  • TrueORF®
    TrueORF®

    Expression-ready ORF plasmid with C-terminal tag(s)

    Click here to learn more.

ORF Plasmid: DDK tGFP
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Datasheet SDS Plasmid Map
NM_007499 in other vectors (2)
Reconstitution Protocol
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$3,726.00
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Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Atm
Synonyms AI256621; C030026E19Rik
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MR226850 representing NM_007499
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGAGTCTAGCACTCAATGATCTGCTCATTTGCTGCCGGCAGTTAGAGCATGACAGAGCTACAGAAAGAA
GGAAAGAAGTGGATAAATTTAAGCGCCTGATTCAGGATCCTGAAACAGTTCAACATTTAGATAGGCATTC
TGATTCCAAACAAGGAAAATATCTGAATTGGGATGCTGTTTTCAGGTTTTTACAGAAGTACATTCAAAAA
GAAATGGAAAGTCTGAGAACAGCAAAATCAAATGTATCAGCCACCACACAGAGCTCCAGACAGAAGAAGA
TGCAAGAGATCAGCAGTTTGGTCAGATACTTCATCAAATGTGCAAACAAAAGAGCACCCAGGCTAAAATG
TCAAGACCTCTTGAATTATGTCATGGATACAGTGAAAGACTCATCTAATGGTCTAACGTATGGAGCTGAC
TGTAGCAACATACTACTCAAAGACATTCTTTCTGTGAGAAAATACTGGTGTGAAGTATCTCAGCAACAGT
GGCTAGAATTGTTTTCACTGTACTTCAGGCTGTATCTCAAGCCATCACAGGACATTAATAGAGTTTTAGT
GGCTAGAATAATTCATGCTGTCACCAGAGGATGCTGTTCACAGACTGATGGATTACCTTCAAAGTTTTTA
GATCTTTTTTCCAAGGCTATTCAGTATGCCAGACAAGAAAAGAGCTCTCCTGGCTTAAGTCACATCTTAG
CAGCCCTTAACATTTTCCTCAAGTCTCTGGCTGTCAACTTCCGAAAACGGGTGTGTGAAGCAGGAGATGA
AATTCTTCCTACCTTACTATATATTTGGACTCAACATAGACTTAATGATTCTTTAAAAGAAGTAATTATT
GAACTAATTCAACTGCAGATTTATATCCATCATCCACAAGGAGCCAGAGCTCCTGAAGAAGGTGCTTATG
AATCCATGAAATGGAAAAGTATCTTGTACAACTTATATGACTTGCTAGTGAATGAGATAAGTCATATAGG
AAGCCGAGGGAAATATTCCTCAGGATCTCGTAATATTGCTGTCAAGGAAAATCTGATTGACCTGATGGCA
GATATCTGTTACCAGCTTTTTGATGCAGATACCAGATCCGTGGAGATTTCTCAATCTTATGTGACACAAA
GGGAATCCACTGATTACAGTGTACCTTGCAAAAGAAGGAAAATAGACGTAGGCTGGGAAGTGATAAAAGA
TTATCTTCAGAAGTCACAGAGTGATTTTGATCTCGTGCCTTGGCTACAGATTACAACCCGATTAATATCA
AAATATCCTTCCAGTTTACCTAACTGTGAGCTGTCTCCATTAATACTGATACTGTACCAGCTTCTGCCTC
AACAGCGACGTGGAGAACGCATCCCATATGTGTTACGATGCCTTAAGGAAGTTGCCTTATGTCAAGGCAA
GAAATCAAACCTGGAAAGCTCTCAGAAGTCAGATTTATTGAAACTATGGATCAAAATTTGGTCTATTACC
TTTCGTGGTATAAGTTCTGGACAAACACAAACTGAAAACTTTGGTTTACTTGAGGCCATCATTCAAGGTA
GTTTAGTTGAACTTGACAGAGAATTCTGGAAGTTATTTACTGGCTCAGCCTGTAAACCTTCTAGTCCTTC
AGTATGCTGCTTGACTTTGGCACTTAGCATCTGTGTAGTTCCAGATGCAATAAAAATGGGAACAGAACAA
AGTGTGTGTGAAGCAAATAGAAGTTTTTCTGTAAAGGAGTCAATAATGAGGTGGCTCTTATTCTACCAGT
TAGAGGATGACTTAGAAGACAGCACAGAGCTGCCTCCAATTCTTCAGAGTAATTTTCCTCATCTTGTAGT
CGAAAAAATTCTTGTAAGTCTCACTATGAAAAACTCAAAAGCTGCAATGAAGTTTTTTCAAAGTGTGCCA
GAATGTGAACAACACTGCGAAGATAAAGAAGAGCCTTCATTTTCAGAAGTAGAAGAACTGTTTCTTCAGA
CTACTTTTGACAAGATGGATTTTTTAACTACTGTCAAAGAGTATGCTGTAGAAAAATTTCAGTCTAGTGT
TGGCTTCTCTGTCCAGCAAAATCTCAAGGAATCATTGGATCACTATCTTCTGGGATTATCAGAACAGCTT
TTAAGTAATTACTCTTCTGAGATTACAAGTTCTGAAACCCTTGTCCGGTGTTCAAGTCTTTTGGTGGGTG
TTCTTGGCTGCTATTGTTACATGGGTATAATAACTGAAGACGAAGCCCATAAATCAGAATTATTCCAGAA
AGCCAAGTCTCTGATGCAATGTGCAGGAGAAAGTATCTCTCTGTTTAAAAATAAAACAAATGAGGAATCA
AGAATTGGTTCATTGAGAAATGTGATGCATCTGTGTACAAGTTGCTTGTGTATACATACCAAGCATACGC
CAAACAAGATTGCCTCTGGCTTTTTCCTACGATTATTAACATCAAAGCTTATGAATGACATTGCAGATAT
TTGTAAAAGTTTAGCATCCTGTACGAAAAAGCCATTGGATCACGGAGTACATCCAGGGGAAGATGATGAA
GATGGTGGTGGTTGTGACAGTCTGATGGAGGCAGAGGGTCCATCGTCCACTGGTCTTTCTACTGCTTACC
CCGCTAGTTCTGTGAGCGATGCAAATGATTATGGAGAGAACCAGAATGCTGTTGGTGCCATGAGTCCTTT
AGCTGCCGACTACCTGTCCAAACAAGATCATCTTCTCTTAGACATGCTCAGGTTCTTAGGCCGATCTGTA
ACTGCATCTCAGAGCCATACTGTGTCGTTTAGAGGAGCTGACATTAGAAGAAAATTGTTACTGTTGCTTG
ATTCTAGCATACTCGATCTCATGAAGCCCCTCCACCTGCATATGTACTTAGTGCTCCTGAAGGATCTCCC
TGGAAACGAGCACTCATTGCCAATGGAAGATGTTGTTGAACTTCTGCAACCATTATCCCTTGTGTGTTCT
CTGCACCGACGTGACCAAGATGTCTGTAAAACGATTCTAAGCAATGTCCTTCATATAGTGACAAACCTAG
GCCAGGGCAGTGTGGACATGGAGAGCACACGGATTGCTCAAGGACACTTCCTGACAGTGATGGGAGCATT
TTGGCATTTGACAAAGGAAAAGAAATGTGTATTCTCTGTAAGAATGGCATTAGTAAAGTGTCTTCAAACA
TTGCTTGAGGCTGATCCATATTCCGAATGGGCAATTCTTAATGTAAAAGGACAAGACTTTCCTGTAAATG
AAGCTTTTTCACAATTTCTTGCTGACGATCATCATCAAGTTCGGATGTTGGCTGCAGGGTCAGTCAACAG
ATTATTTCAGGATATGAGACAAGGCGATTTCTCCAGAAGCTTGAAAGCACTCCCTCTGAAGTTTCAGCAG
ACATCTTTTAACAATGCATACACGACAGCAGAGGCGGGGATCAGAGGACTGTTATGTGATTCTCAGAACC
CTGATCTGCTGGATGAGATCTATAACAGAAAATCTGTACTACTGATGATGATAGCTGTGGTCTTGCACTG
TAGCCCAGTCTGTGAAAAGCAGGCTTTGTTTGCTTTATGCAAGTCTGTGAAGGAAAACAGACTAGAACCT
CATCTTGTGAAAAAGGTTTTAGAGAAAGTCTCCGAATCGTTTGGATGTAGAAGTTTAGAAGACTTCATGA
TTTCTCACCTAGACTACCTGGTTTTGGAATGGCTGAACCTTCAAGATACTGAATATAGCTTATCTTCTTT
TCCTTTTATGTTATTAAACTACACAAGCATTGAGGATTTCTATCGGTCTTGTTACAAGATTTTGATCCCA
CATTTGGTAATCAGAAGCCATTTTGATGAGGTGAAGTCCATTGCTAATCAGATTCAAAAGTGCTGGAAAA
GCCTGTTGGTAGATTGCTTTCCGAAGATTCTTGTGCACATCCTTCCTTACTTTGCCTACGAGGGCACGAG
AGACAGCTACGTGTCACAGAAAAGAGAGACTGCTACCAAGGTCTACGATACTCTTAAAGGGGAAGACTTC
CTAGGAAAACAGATTGACCAAGTATTCATTAGTAATTTGCCAGAGATTGTGGTGGAGTTGCTGATGACAT
TGCATGAGACAGCTGACTCGGCTGACTCGGACGCCAGTCAAAGCGCCACCGCCTTGTGTGATTTTTCAGG
GGATTTGGATCCTGCCCCCAACCCGCCATATTTCCCCTCACATGTCATTCAGGCAACGTTTGCTTACATC
AGCAACTGTCATAAAACCAAGTTTAAAAGCATTCTAGAAATTCTTTCTAAAATCCCCGATTCCTATCAGA
AAATACTTCTGGCCATTTGTGAACAAGCAGCTGAGACAAATAATGTCTTTAAAAAGCACAGAATTCTTAA
AATATATCACCTGTTTGTTAGTTTATTACTGAAAGATATACAGAGTGGCCTGGGAGGGGCTTGGGCCTTT
GTCCTTCGCGATGTTATTTATACTCTGATTCACTACATCAACAAAAGGTCTTCTCATTTCACAGATGTGT
CGTTGCGTAGCTTTTCCCTTTGCTGTGACCTATTAAGTCGAGTTTGTCATACAGCTGTAACTCAATGTAA
GGATGCTCTAGAAAGCCATCTTCACGTTATCGTTGGCACACTTATTCCCCTTGTGGATTATCAGGAAGTT
CAAGAACAGGTATTGGACCTGTTGAAGTACTTAGTGATAGATAACAAAGACAATAAAAACCTCTCTGTCA
CAATTAAGCTTTTGGATCCCTTTCCTGACCATGTTATTTTTAAGGACTTGCGTCTTACTCAACAGAAAAT
CAAATATAGTGGAGGACCTTTTTCACTCTTAGAGGAAATAAACCATTTTCTCTCAGTAAGTGCTTACAAT
CCACTTCCGCTGACCAGGCTTGAAGGACTGAAGGATCTTCGAAGACAACTGGAGCAACATAAAGATCAGA
TGCTAGATCTTCTGAGAGCGTCTCAAGATAACCCACAAGATGGCATTGTGGTGAAGCTAGTTGTCAGCTT
GTTGCAGTTATCCAAGATGGCAGTGAACCAGACTGGTGAAAGAGAAGTTTTAGAGGCTGTCGGAAGGTGT
TTGGGAGAAATAGGTCCTCTGGATTTCTCCACCATAGCTGTCCAGCATAACAAAGATGTGTCCTATACCA
AAGCCTACGGGTTACCTGAAGACAGAGAACTTCAGTGGACCTTGATAATGCTGACTGCCCTCAACAATAC
CCTGGTAGAGGACAGTGTCAAAATTCGATCTGCTGCTGCTACCTGTTTGAAAAACATTTTGGCTACAAAG
ATTGGACATATTTTCTGGGAGAATTATAAGACATCAGCGGATCCAATGCTGACCTATCTACAACCTTTTA
GAACATCGAGGAAAAAGTTTTTAGAAGTGCCCCGATCTGTTAAAGAAGATGTTTTAGAAGGCCTGGATGC
TGTGAATCTGTGGGTTCCTCAAAGTGAAAGTCATGACATTTGGATAAAGACACTGACGTGTGCCTTTCTG
GACAGTGGAGGCATAAACAGTGAAATTCTCCAGTTATTAAAGCCAATGTGTGAAGTGAAAACCGACTTCT
GTCAGATGTTGCTGCCATACTTGATCCATGATGTTTTACTGCAAGATACACATGAATCGTGGAGAACTCT
GCTGTCTGCGCACGTCCGAGGATTTTTCACTAGTTGTTTTAAGCATTCCTCCCAAGCAAGCCGCTCAGCA
ACTCCTGCAAATTCGGATTCAGAGTCAGAGAACTTTCTCCGATGCTGTTTGGATAAAAAGTCACAAAGAA
CCATGCTTGCTGTTGTCGACTATCTGAGAAGGCAAAAGAGACCTTCCTCGGGAACAGCTTTTGATGACGC
TTTCTGGCTGGATTTGAATTATCTTGAGGTTGCGAAGGTGGCTCAGTCCTGCTCTGCTCACTTCACGGCC
TTGCTCTACGCAGAGATCTATTCAGATAAGAAAAGCACAGACGAGCAAGAGAAAAGAAGTCCAACATTTG
AAGAAGGAAGTCAAGGAACAACTATTTCTAGTTTGAGTGAAAAAAGTAAAGAAGAAACTGGAATAAGCTT
ACAGGATCTTCTCTTAGAGATCTACAGAAGTATAGGAGAGCCGGACAGCCTGTATGGCTGTGGAGGAGGG
AAAATGTTACAACCCCTTACTAGAATACGGACATATGAACATGAAGCTACGTGGGAGAAAGCCTTAGTAA
CTTACGACCTGGAGACCAGCATCTCCTCCTCCACCCGCCAGTCAGGAATCATCCAGGCCCTGCAGAATTT
GGGGCTCTCCCATATCCTGTCTGTCTATCTGAAAGGATTAGACTATGAAAGACGAGAGTGGTGCGCTGAG
CTGCAGGAGCTGCGTTACCAGGCGGCGTGGAGGAACATGCAGTGGGGCCTCTGCGCTTCTGCCGGCCAAG
AAGTAGAAGGAACCAGTTACCATGAATCGTTGTATAATGCTCTGCAGTGTCTAAGAAACAGAGAATTCTC
CACATTTTATGAAAGTCTCCGATATGCCAGTCTTTTCAGGGTGAAAGAAGTTGAAGAGTTGAGTAAGGGC
AGCCTTGAGTCTGTATATTCGCTGTATCCCACACTTAGTAGATTGCAGGCAATTGGAGAACTGGAAAACA
GTGGCGAGCTTTTCTCAAGGTCAGTCACAGACAGAGAGCGCTCTGAAGCATACTGGAAGTGGCAGAAGCA
CTCCCAGCTTCTGAAAGACAGCGACTTCAGCTTTCAGGAGCCTCTCATGGCTCTGCGCACAGTCATTCTG
GAGACCCTGGTACAGAAGGAAATGGAGCGCTCTCAAGGAGCATGCTCTAAGGACATTCTCACCAAACACC
TCGTTGAATTCTCTGTTCTGGCTCGAACCTTCAAGAACACACAGCTCCCTGAAAGAGCAATATTCAAAAT
TAAGCAATATAATTCAGCTATTTGTGGAATTTCTGAGTGGCATTTGGAAGAAGCACAAGTATTCTGGGCA
AAAAAGGAGCAGAGTCTTGCTCTGAGTATTCTCAAGCAGATGATCAAGAAGTTGGACTCCAGCTTTAAAG
ATAAAGAGAATGATGCAGGTCTCAAAGTCATATACGCAGAGTGTCTGAGGGTTTGTGGCAGCTGGCTGGC
AGAAACTTGCTTAGAAAACCCTGCAGTCATCATGCAGACCTATCTAGAAAAGGCGGTGAAGGTTGCTGGA
AGTTACGATGGCAACAGCAGAGAGCTCAGAAATGGACAGATGAAGGCCTTTCTCTCGTTGGCAAGGTTCT
CTGATACTCAGTACCAGAGAATTGAAAACTACATGAAGTCATCAGAATTTGAAAACAAGCAAACTCTCTT
AAAAAGAGCCAAAGAGGAAGTGGGCCTTCTAAGGGAACATAAAATTCAGACCAACAGATACACAGTAAAG
GTTCAGCGAGAACTGGAGCTGGACGAATGTGCTCTCCGTGCACTGAGAGAGGATCGCAAGCGCTTCCTGT
GTAAAGCAGTGGAGAACTACATCAACTGCTTACTAAGCGGGGAAGAACATGATCTGTGGGTGTTCCGGCT
TTGCTCCCTCTGGCTTGAAAATTCTGGAGTTTCTGAAGTCAATGGCATGATGAAGAAAGATGGAATGAAG
ATTTCATCCTATAAGTTTTTGCCTCTCATGTATCAATTGGCTGCTCGAATGGGGACCAAAATGACGGGAG
GCCTAGGATTTCACGAAGTCCTCAATAATCTAATCTCTAGGATTTCACTGGATCACCCCCATCATACTTT
GTTCATTATACTGGCCTTAGCAAATGCGAACAAAGATGAATTTTTGAGCAAACCAGAGACAACAAGAAGG
AGTCGAATAACCAAAAGTACATCTAAAGAAAACTCTCACCTTGATGAGGATCGAACAGAGGCTGCAACCA
GAATCATCCACTCCATCAGAAGTAAGCGATGTAAGATGGTGAAGGACATGGAGGCGCTCTGCGATGCCTA
CATCATCTTGGCAAACATGGACGCCTCTCAGTGGAGGGCTCAGAGAAAAGGCATCAATATTCCAGCCAAC
CAGCCAATCACTAAACTGAAGAATTTAGAAGATGTTGTTGTTCCCACTATGGAAATTAAGGTTGATCCCA
CAGGAGAGTATGAAAATCTGGTGACTATAAAATCATTTAAAACAGAATTTCGCTTAGCTGGAGGCTTAAA
TTTACCCAAAATAATAGATTGTGTGGGTTCTGATGGCAAGGAAAGGAGACAGCTTGTGAAGGGCCGTGAT
GACCTGAGGCAAGATGCTGTCATGCAGCAGGTCTTCCAGATGTGCAATACACTACTGCAGAGAAACACTG
AGACTAGAAAGAGGAAACTGACTATCTGCACATACAAGGTGGTTCCCCTTTCTCAGCGAAGCGGTGTTCT
CGAGTGGTGCACAGGAACCGTTCCTATTGGTGAATATCTTGTTAACAGCGAAGACGGTGCACATAGAAGA
TACAGGCCAAATGATTTCAGTGCCAATCAGTGCCAAAAGAAAATGATGGAAGTGCAGAAGAAGTCTTTTG
AAGAGAAATATGATACCTTCATGACGATTTGCCAAAACTTTGAACCAGTTTTCCGTTACTTCTGCATGGA
AAAATTCTTGGACCCAGCTGTTTGGTTTGAGAAACGATTGGCATATACACGCAGTGTGGCCACATCTTCT
ATCGTCGGTTACATCCTTGGACTTGGCGACAGGCACGTACAGAATATCTTGATAAACGAGCAGTCGGCAG
AGCTTGTGCACATAGACCTGGGAGTGGCTTTTGAACAGGGGAAGATCCTTCCCACTCCAGAAACAGTTCC
TTTTAGACTCAGCAGAGATATTGTGGACGGGATGGGCATCACCGGTGTGGAAGGTGTCTTCAGAAGGTGC
TGTGAAAAAACGATGGAAGTTATGCGGAGTTCTCAGGAAACCCTGCTGACCATTGTAGAGGTTCTTTTGT
ACGATCCACTCTTTGATTGGACTATGAATCCTTTAAAAGCTCTGTATCTACAGCAGAGACCAGAAGATGA
GTCCGACCTCCATTCCACCCCCAATGCAGATGATCAAGAATGCAAACAAAGTCTTAGTGATACTGACCAG
AGTTTCAACAAAGTAGCTGAGCGTGTCTTGATGAGACTGCAAGAGAAACTGAAAGGCGTGGAGGAAGGCA
CTGTGCTCAGTGTGGGTGGACAGGTGAACTTGCTTATCCAGCAGGCCATGGATCCCAAAAATCTCAGCCG
ACTCTTCCCAGGATGGAAAGCTTGGGTG

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Protein Sequence
>MR226850 representing NM_007499
Red=Cloning site Green=Tags(s)

MSLALNDLLICCRQLEHDRATERRKEVDKFKRLIQDPETVQHLDRHSDSKQGKYLNWDAVFRFLQKYIQK
EMESLRTAKSNVSATTQSSRQKKMQEISSLVRYFIKCANKRAPRLKCQDLLNYVMDTVKDSSNGLTYGAD
CSNILLKDILSVRKYWCEVSQQQWLELFSLYFRLYLKPSQDINRVLVARIIHAVTRGCCSQTDGLPSKFL
DLFSKAIQYARQEKSSPGLSHILAALNIFLKSLAVNFRKRVCEAGDEILPTLLYIWTQHRLNDSLKEVII
ELIQLQIYIHHPQGARAPEEGAYESMKWKSILYNLYDLLVNEISHIGSRGKYSSGSRNIAVKENLIDLMA
DICYQLFDADTRSVEISQSYVTQRESTDYSVPCKRRKIDVGWEVIKDYLQKSQSDFDLVPWLQITTRLIS
KYPSSLPNCELSPLILILYQLLPQQRRGERIPYVLRCLKEVALCQGKKSNLESSQKSDLLKLWIKIWSIT
FRGISSGQTQTENFGLLEAIIQGSLVELDREFWKLFTGSACKPSSPSVCCLTLALSICVVPDAIKMGTEQ
SVCEANRSFSVKESIMRWLLFYQLEDDLEDSTELPPILQSNFPHLVVEKILVSLTMKNSKAAMKFFQSVP
ECEQHCEDKEEPSFSEVEELFLQTTFDKMDFLTTVKEYAVEKFQSSVGFSVQQNLKESLDHYLLGLSEQL
LSNYSSEITSSETLVRCSSLLVGVLGCYCYMGIITEDEAHKSELFQKAKSLMQCAGESISLFKNKTNEES
RIGSLRNVMHLCTSCLCIHTKHTPNKIASGFFLRLLTSKLMNDIADICKSLASCTKKPLDHGVHPGEDDE
DGGGCDSLMEAEGPSSTGLSTAYPASSVSDANDYGENQNAVGAMSPLAADYLSKQDHLLLDMLRFLGRSV
TASQSHTVSFRGADIRRKLLLLLDSSILDLMKPLHLHMYLVLLKDLPGNEHSLPMEDVVELLQPLSLVCS
LHRRDQDVCKTILSNVLHIVTNLGQGSVDMESTRIAQGHFLTVMGAFWHLTKEKKCVFSVRMALVKCLQT
LLEADPYSEWAILNVKGQDFPVNEAFSQFLADDHHQVRMLAAGSVNRLFQDMRQGDFSRSLKALPLKFQQ
TSFNNAYTTAEAGIRGLLCDSQNPDLLDEIYNRKSVLLMMIAVVLHCSPVCEKQALFALCKSVKENRLEP
HLVKKVLEKVSESFGCRSLEDFMISHLDYLVLEWLNLQDTEYSLSSFPFMLLNYTSIEDFYRSCYKILIP
HLVIRSHFDEVKSIANQIQKCWKSLLVDCFPKILVHILPYFAYEGTRDSYVSQKRETATKVYDTLKGEDF
LGKQIDQVFISNLPEIVVELLMTLHETADSADSDASQSATALCDFSGDLDPAPNPPYFPSHVIQATFAYI
SNCHKTKFKSILEILSKIPDSYQKILLAICEQAAETNNVFKKHRILKIYHLFVSLLLKDIQSGLGGAWAF
VLRDVIYTLIHYINKRSSHFTDVSLRSFSLCCDLLSRVCHTAVTQCKDALESHLHVIVGTLIPLVDYQEV
QEQVLDLLKYLVIDNKDNKNLSVTIKLLDPFPDHVIFKDLRLTQQKIKYSGGPFSLLEEINHFLSVSAYN
PLPLTRLEGLKDLRRQLEQHKDQMLDLLRASQDNPQDGIVVKLVVSLLQLSKMAVNQTGEREVLEAVGRC
LGEIGPLDFSTIAVQHNKDVSYTKAYGLPEDRELQWTLIMLTALNNTLVEDSVKIRSAAATCLKNILATK
IGHIFWENYKTSADPMLTYLQPFRTSRKKFLEVPRSVKEDVLEGLDAVNLWVPQSESHDIWIKTLTCAFL
DSGGINSEILQLLKPMCEVKTDFCQMLLPYLIHDVLLQDTHESWRTLLSAHVRGFFTSCFKHSSQASRSA
TPANSDSESENFLRCCLDKKSQRTMLAVVDYLRRQKRPSSGTAFDDAFWLDLNYLEVAKVAQSCSAHFTA
LLYAEIYSDKKSTDEQEKRSPTFEEGSQGTTISSLSEKSKEETGISLQDLLLEIYRSIGEPDSLYGCGGG
KMLQPLTRIRTYEHEATWEKALVTYDLETSISSSTRQSGIIQALQNLGLSHILSVYLKGLDYERREWCAE
LQELRYQAAWRNMQWGLCASAGQEVEGTSYHESLYNALQCLRNREFSTFYESLRYASLFRVKEVEELSKG
SLESVYSLYPTLSRLQAIGELENSGELFSRSVTDRERSEAYWKWQKHSQLLKDSDFSFQEPLMALRTVIL
ETLVQKEMERSQGACSKDILTKHLVEFSVLARTFKNTQLPERAIFKIKQYNSAICGISEWHLEEAQVFWA
KKEQSLALSILKQMIKKLDSSFKDKENDAGLKVIYAECLRVCGSWLAETCLENPAVIMQTYLEKAVKVAG
SYDGNSRELRNGQMKAFLSLARFSDTQYQRIENYMKSSEFENKQTLLKRAKEEVGLLREHKIQTNRYTVK
VQRELELDECALRALREDRKRFLCKAVENYINCLLSGEEHDLWVFRLCSLWLENSGVSEVNGMMKKDGMK
ISSYKFLPLMYQLAARMGTKMTGGLGFHEVLNNLISRISLDHPHHTLFIILALANANKDEFLSKPETTRR
SRITKSTSKENSHLDEDRTEAATRIIHSIRSKRCKMVKDMEALCDAYIILANMDASQWRAQRKGINIPAN
QPITKLKNLEDVVVPTMEIKVDPTGEYENLVTIKSFKTEFRLAGGLNLPKIIDCVGSDGKERRQLVKGRD
DLRQDAVMQQVFQMCNTLLQRNTETRKRKLTICTYKVVPLSQRSGVLEWCTGTVPIGEYLVNSEDGAHRR
YRPNDFSANQCQKKMMEVQKKSFEEKYDTFMTICQNFEPVFRYFCMEKFLDPAVWFEKRLAYTRSVATSS
IVGYILGLGDRHVQNILINEQSAELVHIDLGVAFEQGKILPTPETVPFRLSRDIVDGMGITGVEGVFRRC
CEKTMEVMRSSQETLLTIVEVLLYDPLFDWTMNPLKALYLQQRPEDESDLHSTPNADDQECKQSLSDTDQ
SFNKVAERVLMRLQEKLKGVEEGTVLSVGGQVNLLIQQAMDPKNLSRLFPGWKAWV

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Chromatograms Chromatograms
Sequencher program is needed, download here
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_007499
ORF Size 9198 bp
OTI Disclaimer Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.

The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info
OTI Annotation This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
Components The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water).
Reconstitution Method 1. Centrifuge at 5,000xg for 5min.
2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA.
3. Close the tube and incubate for 10 minutes at room temperature.
4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom.
5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Shipping Ambient
Reference Data
RefSeq NM_007499.2, NP_031525.2
RefSeq Size 11964 bp
RefSeq ORF 9192 bp
Locus ID 11920
UniProt ID Q62388
Cytogenetics 9 29.12 cM
MW 349.9 kDa
Summary 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.[UniProtKB/Swiss-Prot Function]
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"NM_007499" in other vectors (2)
SKU Description Size Price
MC225456 Atm (untagged) - Mouse ataxia telangiectasia mutated homolog (human) (Atm), (10ug) 10 ug
$2,733.00
MG226850 Atm (tGFP-tagged) - Mouse ataxia telangiectasia mutated homolog (human) (Atm), (10ug) 10 ug
$3,926.00
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Citations

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