Alms1 (NM_145223) Mouse Tagged ORF Clone
CAT#: MR222816
- TrueORF®
Alms1 (Myc-DDK-tagged) - Mouse Alstrom syndrome 1 homolog (human) (Alms1). Note: ORF is codon optimized
ORF Plasmid: tGFP
"NM_145223" in other vectors (2)
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CNY 21,072.00
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | bbb |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MR222816 representing NM_145223, codon optimized.
Due to the complexity of NM_145223, the ORF clone is codon optimized for mammalian Expression. The nucleotide sequence differs from the reference sequence, yet the amino acid sequence remains identical. Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGAGCCTGAAGACCTGCCCTGGCCTGACGAGCTTGAAGAAGAGGAGGAGGAGGAGGAGGAGGAGGGAG AGGAAGAAGAGGGGAAGAAGGAAGTAGAGAATGCCTCAGCAGCAGCCACCGAAGAAGCACTCACGAGCGA GGAGTCAGGCCGGCTTGAGGAATTTGAGGAAGCTGGCCCTGACTTGGACTTCAATTACGAGTCCCAGCGG CAGGAGAGTTCAGACGAGGAAGAGGACGAGCTCGCAAAGGCCTGGTTGCAAGCCCACCCTGACAGGCCAG GCTCTGCCTTTAGTCTGCCACCACCTACACCTCCACCGCCTCCACCTCCACTGTCCCCACGATTGCGCTA TACACCCGTAGAGCACCTGGGCAAAACCGAGGTCGTACCCCTGACTTGCAGGGTCTGGCAGCAGTCATCC TACCAGGATAACTCAAGAGCACAGTTCAGTAACAGCAGCACCATGCTCCTGGAGACAGGTGTACGCTGGG GGAGTGAAGAAGACCAGAGGACCGAATCCTGGCACTGCCTTCCTCAGGAAAGGGACAGCAGCCAGACCCT CGCTATGAGTCAGACCGAGATCGGAAGGGTCGAGGGCACAGAAGTTCCCGACCTGCCCTCTCAGGAAGGT GGCCTTCCTGCCCAGTCCCAGTGCCCCGGAAAAAAGCCTAAACTGAATGTGCTGTGCTCCCCCTTGCTTG TGATCCAAGATAACTTTGCCGCCCCCGACCTGCCACTGCTCACATGCCTGATACAAGATCAGGAGGAGGT GGAACCAGACTCTCTGTTCCAGCAGTCAGAGCTTGAGTTTGCGCCCCTGCGAGGAATTCCCGATAAGAGC GAGGACAGCGAGTGGCTCGCCCGGCCCAGCGAGGTGTCTGAGGCGCTCATCCAGGCTACCTCAGAAACCT CCTCTGATCTCGCCAATTCCTGTTTCTCCATATCCCAGCACCCTCTGACAGAAGGTCTGCAGGGCAAAGC AGAGTCCGGCGTGCTTACACGGTGCGGCGACGCCAAATATAGCTCCCTGTACGAAAATCTGGGCGCCCAA AGTGAACGCATCGCTGTGCTCCAAAGAGAAGTGGGGTGTAGTAACCTGGGCATCAGTCAGGCTTCTCCAA GTAGCCTGCCATCCTTTGTCCCCCAGGAGCCCACTAGTGAGCCTGAATATCACTCTTCCAATCTGCGGAT GCTTCGAGTTAGTCCCGACACACTGTTGACCACACACACGCACAGCGCAGGAAGCGCGGATCAGAAGATC GGCGCGGCCGTGGTGTCCAGCGCCTACTCCCAGGAAATTAAACCAGGGAGCTTTCACCAAGAAGAGCTGC CAGACCGGCACCTCAACGAAGAGATCCGGAAGGTGAGTCCAGCTCTGCGAACCGCTGGACAGAAGCCAGA AATGCTGCCTGTACAAAGCAGCTCTTATAGCAAGGGTATGAAATCTATTTTCTACCAGCACCCTGTGTCC CATGGTCACCAAGGAAAGGAGCCCCTGAGCGTGAGCGCTGTGTGCGGATCTGCCGGAAATAAGGCATTCC ACCAGCTGAGCACCTTGTCTGATAGTCTTCTTACAGAAGAAACCTGGCCTGTCAGCGTAATCCCAGGTCT GGGGAACCAGAAGACACCGCTGCCAAGTGAGTTTAGCCTGTCTTATTCTCACCGAGGAAAGAACCTGCCA GAGGATGTTGTGAAGGTTTCCACTGATAGTGGCAGCGCGCATAAGAAGGCTGACATTCTGACAGCATCAA GCAGGACCTATCAACACAAGATGAAGCCCGCGAACATCTACCATCAGGAACTTCCTGATAGCCGGGTTCC AATCGGCACTAGGAAGGTGGCTTTTGAGTCAGGGCCAGCCGGACAGAAATCCGGGGTGTCTCACCCATAT GGTGAAATGCCAAGTGTCTTCTATCAGCAGGGGCTCCCTGACCGCCACTCTGCTAAGTCTCCCACCAAAA CGTTTATCCCAGGACCAGCTGACCAGAAGACCGACCTCTCACCTGTGCCTCCAACCTCTTCCAGTCACGC TGAGAAGCCAGTTTCCCCTTACCAGCTTACACTTCCTGGAAGTCATCTGCCGGAGGATGTGTTCAAAGCT TCAAGCGTATGCAAGTCAAGCGACGAACTCTCTGGCATCACAGCCCTCACGTCTGCTTCATATTCATACA AGGGTAGGCCAAACTCCTCATACCAGCAGAAATTTCCTGATAGCCACCTCAATGAGGAAGCGCAAAAAAT TCTGGGAACAACCGGCACTGTGGATCAGAAGACTGTTACCCCCACCATGAGCTCCTCCTTTTTGCAAAAG GAAAAACCCTCTATCTTCTACCAGCAGACATTGCCTGACGGCGGCCTTTCAGAGGAGGATCTGCAGGTGT CCGCCGTGCCGTGGCCGGCTGACCAGAACATCGCCATTCCCACAGTCACAAGCGCTGCCTTCAGCCAACG GGAGAAGCCTAGGATTTTTTACCAGCAGACGCTGTCTGTTGACAGACTGCCTGGCGAACCACTTAACGTG CTCGGAACTAGCGGACCCCCAGACCAGAATACAGGCGCTCCCACCGTTACGCCTTCCAGTTACTTCCCAG GAGAAGAGAGCATCATATTCTACCAGGCCGGATTTCCTGGTAATACCCTCTCTGCGATGAGCTTTAAGGT CCCTAGGATTTCCGGTTCAACAGAGCAGACCAATGTAACTACTGGAAGCTCTTCCAGCTATTCCGTGGGC GAGAAAAGCATTATCTTCTACCACCAAGCTCTCCCCGATGGGCGCTTGCCTCAGGAAGCCTCCCCTGCAC CAGCAGATCTGAACACAGGAGAGCCACCTATGTATTTGGCCTCATGTTCAGTGGGTGTGAAACCTATAAT ATTTTACCAGCAGCCCATGTCCGATTCACAGCGCACAAAGGGGCATAAGGAGAGTGATGTCCCTGGTCCT ACCGATCAAAAGACTGGCATTGCTACGGTTCACAGCACTTCACAGTCCTACATTGGCAGACGGACTGTAT CCTATCAGAAGGAGTTCCCCGATCTGTCCGAGAAAGCCCTCAAAGTCCTTGGCGATGTGGGTAGTACTGA GCAAAAGACGCAGATCCCGGTTGTGTCTTCTGCCCTTCTCCACAAGGAAGGTCCCAGCGCCTATCAGGAA GACCTTCCGGATCTCACCGAGGAGCCATTGCAGATACTCGGAGTGTCCGAGGAGGTAAGCTCTTCATCTT ACCAACGAAAACTGCCCGATCACATCGAAGTGTTTCTTAAGTCTGTTGGGAGTGGGTCCGCAGACAGAAA GACCGGCGCGCAAATCGTAAGCTCCTCACGGGAAAAGAGTTCAGGATTTCATCAGCAGGAACTGCCCAAT ACCGGGGGCGATGCAGTTGACGCTTTTCATCCTGAACCAGTGGTGCAGGAGGTAAGGAAGGTACAGACAC CCGGCGCCCCTGCCGGGCCCTCTTCCTCACACTTTCACAAAGAAAAGCTCAGTGACTACCAAAAGGCCTC CCCTCATAGGGACCTGACAGAATCAAGCCTGAAGGCCTCCACCGTGCCTGGGCTGTCTGACCAGAAAAAG AAGCCAGCGGTTAGCTCTGGTTTCTGCCTGCACAAAGAAAAGCACGAGATCAGCGCGTCCGCCCTCCTCA ACTGCCAGACAGCCGAGCTTCTCACTGTTACACAGCGCAGCTGTCTGCACCGAGAAGACCCCGCAATCTC AACAGTGATCAAACCCGATGACCAGAAGATTCCGCTGCCAACCACTTTCCACGGCTCCAGCGACCAGAAA GTGAAACCTGTAATCTTTGTGCAGAAACAGCTGCGGGACCGAGATCAGAGCGAGGATATTCCTAAGATCT CCACAGTTTCTGAGCCTACTGTGGTGAACACCGTCCTCCCTGTGCTTCTGCCAGGTAGCTATAGTCACAG AGAGAAGTCTGACTCATTCTATCCCCAGGAATTGCCCGATGGGCATTTGACTGAGGTGGACCTGAAAGTG TCCTCTGGGCTGGGTCAGGCTGATCAGATCTCCGGCTTGCCCACTGGGATTCCCGGAACCTACTCTCATT CAGAGAAACACCAACTCATTTCCGAGCACGTCCAGGAACTCATGGATAATCTGAATTCCTCTGAATCCTC TTGTCTGTCCGTGGATTCCATGCCGTTGAATAGTCAAATCGATGACGGAGTTATCATCTGTAAGCCTGAA TCCTTGGGATTTGCCAACGCCGGATGTGAGGAGATGCAAAACATCGACCGGGGGTCCAAGACGCTTAAGG AGATACAGACTCTTCTCATGGAAGCCGAGAACATGGCTCTGAAGAGATGCAACTTTTCCGTGCCACTGGT GCCCTTCAGAGACGTAAACGATGTAAGCTTTATTCGCAGCAAAAAAGTCGTTTGTTTTAAAGAGAGCTCA ACAACAGACGTGTGTACTCAACGGGAAAGTTTTGTGGAGGAAGTGCCCCACATCGAGTACGTCCAGAAAG ATATTGGAACCCAGACGAATCTGAAATATCAGCGAGGCGTCGGCAATTGGGAGTTTATCTCATCCGCCAC CTTCCGGTCCCCATTGCAGGAAGCGGAGGGGACCGCCAGAATGGCTTATGACGAAACATTCAGGCAGTAT AAAGCTGCTCGAAGCGTGATGAGATCAGAACCAGAAGGTTGTTCAACCGGTATCGGAAACAAGATGATAA TTCCCATGATGACGATTATCAAGTCAGACAGCTCTTCTGATGTGAGTGACGGATGCTGCTCCTGGGACAA TAACCTTCCTGAGAGCCTGGAGTCCGTGTCCGACGTGTTTTTGAATTTCTTCCCATACACCAGCCCTAAG ACCTCTATCACCGACTCTCGCGAGGAGGAGTGGCTCAGCGAGTCTGAAGACGGCTATGGGAGCACAGACT CACTGGCCGCCCATGTGAAATATCTCCTTCAGTGTGAGACTAGTCTGAATCAGGCTAAACAAATACTCAA AAACGCCGAGGAAGAAGAGTATAGAGTCCGGACCCAAGCCTGGAATTTGAAGTTCAACCTGGGACGCGAC CGCGGCTATAGTATTTCCGAGCTGAATGAGGATGATAGGCGGAAGGTCGAGGAAATAAAGGCAAAACTGT TCGGACATGGCCGGGCCACCCACATGAGTGAGGGCCTGCGCTCCCCACAGGGGATCGGGTGTCTGCCTGA GGCCGTGTGTAGTCGCATCATCATTGAGTCACACGAAAAGGGGTGTTTTAGGACGCTGACGGCTGAGCAG CCAAGACCCGATAGCTGCCACTGTGCGTTCCGAAGCGTAGAACCTAGCGATCTTATTAGGGGGCACAGGA GTCCTTCTTCATGGAGAGGCAGACACATCAACCTGTCTCGGTCCATCGAACAGTCAAACCCTTGCTTTAA AGTGGGAAGTAGTTTCCAGCTGCAGTCTCACCCCCCCTTCCAGAAGCTTCTCCCAGATGATATCAAGATT TCTAAAGGAGTCGGCATGCCCGTTCACGCATATATGGACCCCCAGCCGAGCGAACTTGTCGAACCCACCT GTGTTCCCGCCAAGGAGATGGATTTTCCTTCTTCATCTCAGATCCTTCCGCCCGAACCCAAGAAGCAATT TACTACTGCCATCACATTCAGTAGCCATGAGCACTCCGAGTGTATCAGCGATTCTAGCGGCTGTAAAGTT GGCGTGACAGCCGACAGCCAGTGTAGTGGCCCTAGCCTTGGAGTTTTCAAGCCCCATATCCCAGAGGAGC AGATATCTCCTCGGGACCTGAAGCAGAAAACCTCCTTTCAAAGCTCACTTGAACGCCACGGCTCCACGCC CGTCACCATCCTGGCGGATGGTTCACGCCAAAGGCAAAAGCTGCCGGTTGATTTTGAACATAGCCATCAG AAGGAGAAGCTGTTGCAGCGGCTCGGATTCAAAGTGTCCCATTCCGAACCAAACGTCTCTACCAATGTCT CAAATTTCAAGGGGGTCCAGTTTTCTGGCAAGGATACCATCGTCTCCCAGGACAAGCTGACCAGCACCGT AGAGGTAAAGGAAAAGAACGTGACAGTAACGCCTGACCTGCCCTCTTGTATTTTCCTGGAGCAACCGGAG CTGTTCGAAGAGAGTCACACTCCTCATACCGATCTTCAAATGAGGAAATACCCGAGCCCTTCCTGTCCTG AAATTGCATCCCGCATCTTTCTGGAACAGCCGAAGCTGAGCGAGCAGTCAAAAGCTCCCCACGTCGATAG AGAAATCAGAGAGGATCATTCTTTTTTCCCAAAATGCCAGGATTATATCGTGGCTGACCCCTCCCCAGAT TTCCCAGACCAGCAGCAGTGCAAACCACCAGACGTGGTCGGACACACTAGAAAGCAAAACTCACTGCTCA GCGAAGGCCAAGATTACGAGCTGGAGGAAGTCCAACACATTCCGCAGAGCTACTTCAGTAACATGGTCAA CGTAGAGGCTAAAGTGAGCGACGCTATCAGTCAGTCTGCACCCGACCACTGTACTGCTGCCAGCACTCCT CCAAGCAACAGAAAAGCTCTCTCCTGCGTCCGGATCACCCTGTGTCCAAAAACCTCCTCAAAACTGGACA GCGGGACATTGGGCGAAAGGTTCCATTCTCTTGATCCCGCTAGTAAGACCCGGATCAATAGCGAGTTCAA TAGCGACCTCAGAATCATTAGTAGCCGCTCACTCGAGCCAACCAGCAAGTTGCTGACCTGCAAGCCAGTC GCTCAGGACCAGGAGAGCCTGGTTTTTCTGGGACCCAAGTCACCTTTGGACCTCCAAGTCGCGCAATCCT CCCTGCCTGACTCCAAAACAATCTTTCAGGACCTGAAGACCAAGCCCCCTCAAAATTCCCAAATTGTGAC CAGCCGCCAGACCCAAGTAAACATCAGCCACCTGGAGGGCTACTCTAAGCCAGAAGGGACACCAGTGAGC GCCGATGGCAGCCAAGAACAGTCTAAAGTGTCATTCACCACAAGCTTCGGTAAACTGTCTTCCGATGCGA TCACCCAGATTACCACAGAATCCCCTGAAAAGACCACGTTTTCTAGTGAAATCTTTATCCATGCAGACGA TCGAGGCCAAGGAATCCTGGATCCCATGGCTCAGAAGCCAAGCAGATTCGCATCCAGCTCCAGCGTCCAG CAAATACCTGCAAGTCATGGGAAGGATGCACAGCCGGTCCTCTTGCCATATAAACCCTCCGGCAGCTCAA AAATGTATTATGTCCCGCTCCTCAAAAGAGTGCCCTCATATCTCGATAGTAAAAGTGATACTACCGTGGA GAGTAGCCATAGTGGATCCAACGACGCAATCGCTCCGGACTTCCCGCCTCAGATGTTGGGCACTCGGGAC GATGATCTCTCTAACACTGTCAACATTAAGCACAAGGAGGGAATCTACTCAAAGAGGGCTGCAACAAAGG GCAAGAACCCCTCTCAGAAAGGGGATGCTGCAGCTCCCGTCCAGATGCCCATCACTTGGGACGAGAACGT CCTGGATGAAAACCAAGAGGAGGTAATTAGCCGCGGAGTAGTTATTAAGATGGCGGGCCCAGAGGAGATG TCTTCACTTGAAAAGGACCTGGCTGGCCCCTCAGACATCACTGTTCAGGACAGGAAAACAGAGAACCTTC CCGACACGAAATCAATCAAACAGAAGGAGGGCAGCCTGGAGATAGAGAGTGAATGTCACAGCGCATTCGA AAACACCGCCCACAGCGTTTTCAGATCCGCCAAGTTCTACTTTCATCACCCAGTCCACCTGCCACATGAA CAGGACTTCTGTCATGAGTCCCTTGGTCGGAGTGTGTTCATGCAACACTCTTGGAAGGATTTTTTCCACC ATCACTCCGGACATAGCTGCCTGCCTCCCCCTGGCCCCTCATCCGACAAGTTGGATAAGACCAAGATGGA TTACACCCGAATCAAGTCACTGAGCATTAATTTGAATTTGGGCGAGCACGAGAAGATTCATACTATAAAG AACCAGGCGCGGGACCCCAAAGGCAAACGGCAGGCCAACGAGCAGAAGAAGGATCAAAAGGTGACCCCAG AGTTGACTACAGAATGCCCTGTCAGCCTGAACGAACTGTGGAACCGCTACCAGGAAAGACAGAAACAGCA GAATCCGAGCGGGGCTTGCGATACAAAGGAGCTGTCATTGGTTGAACGGTTGGACAGGCTGGCCAAGCTT CTGCAGAACCCTATAACCCACAGCCTTCGCGCGTCCGAGAGTGCCCAGGATGATTCTAGAGGGGGTCATA GAGCCAGAGAATGGACGGGGCGCCGCCAGCAGAAGCAGAAAGGGAAGCAACATCGGAAGTGGTCCAAGAG TCTGGAGAGGGGACAGTCTACAGGGGACTTCAGAAAGTCAAAAGTGTTTTCCCCACACCAGGGTGGCAAG TCCAGTCAGTTTAAGATCGAGCAGATTAAGCTGGATAAGTACATTCTGAGGAAAGAACCTGGGTTTAACA ATGTATCTAATACGAGCCTTGATAGTAGACCCAGTGAGGAATCTGTGAGTTTGACAGATTCTCCTAATAT CTTCTCCAGTACCGACAGTCCGGTGGATTCAGACGTCTTGACCCCTACTGACCGAGATATGCCCCTTAAC GAGAGGTCCTCCTCCATCTCTACTATCGATACAGTCAGGCTCATCCAAGCCTTCGGGCAGGACAGGCTGT CTCTGAGTCCCAGAAGAATTAAACTCTACTCCACCGTCACTAGCCAGCGAAGGCGCTATCTTGAACAGCC TTGTAAACACAACCGGAAGGCCCTGAATACTGCTTGTCCACAGATGACCTCTGAGCATAGTAGGCGACGG CACATTCAGGTCGCAAACCACATGACCTCCTCCGATTCCGTTTCCTCACCCGGCTCTTTGCTGTCCCTCG ACTCTGCCCTGTCTAACGAAGAGACTGTCAGGATGGTATCCAAGGGTGTCCAGGCCGGTAATCTGGAGAT TGTCGCCGGCGTGAAAAAGTATACCCAAGACGTAGGCGTCACCTTTCCAACTCCATCTAGCAGTGAAGCC AGGCTGGAGGAGGACAGTGATGTCACGTCAAGCTCTGAAGAAAAGGCCAAGGAAAAAAAGTTCCTGTCCA ACTACCTCCAGACCAAAAACCTCAGAAAGAACAAGCCCAATCCTTGCGCTGGAGTGTCTTGGTTTGTCCC AGTGGAGTCTGGACAAAGTGGGTCTAAGAAGGAAAACCTGCCAAAAATTTACCGGCCTGTTATAAGCTGG TTTGAGCCTGTTACCAAAACCAAGCCCTGGAGGGAACCGCTGCGGGAACAGAACTGGCAGGCACAGTGCA TGAACTCAAGGGGCAGTCTCGGAGGTCCCGGCAGAGATTCCGGTCAGGTTTCACTGAGGCCCTTCGTCCG CGCCACACTTCAAGAGTCACTGCAGCTTCATAGACCAGACTTTATCTCTCACAGCGGGGAACGAATAAAA CGCCTGAAACTTCTGGTGCAGGAAAGAAAGCTGCAGAGCCTGTTTCAAAGTGAGAGGGAAGCCCTGTTTC ATTCCGCCCGCCCACTGCCCCGGCGGGTCCTGCTTGCAGTCCAGAAAAATAAGCCAATCGGTAAGAAAGA GATGATTCAGCGGACTAGAAGGATTTATGAACAACTCCCCGAGGTAAAAAAGAAGAGGGAGGAGGAAAAG AGAAAATCTGAATACAAGTCTTACTGGCTTCGCGCACAGCACTATAAGATGAAGGTGACAAATCACCTGC TCGGCAGAAAGGTACCGTGGGAT ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >MR222816 representing NM_145223
Red=Cloning site Green=Tags(s) MEPEDLPWPDELEEEEEEEEEEGEEEEGKKEVENASAAATEEALTSEESGRLEEFEEAGPDLDFNYESQR QESSDEEEDELAKAWLQAHPDRPGSAFSLPPPTPPPPPPPLSPRLRYTPVEHLGKTEVVPLTCRVWQQSS YQDNSRAQFSNSSTMLLETGVRWGSEEDQRTESWHCLPQERDSSQTLAMSQTEIGRVEGTEVPDLPSQEG GLPAQSQCPGKKPKLNVLCSPLLVIQDNFAAPDLPLLTCLIQDQEEVEPDSLFQQSELEFAPLRGIPDKS EDSEWLARPSEVSEALIQATSETSSDLANSCFSISQHPLTEGLQGKAESGVLTRCGDAKYSSLYENLGAQ SERIAVLQREVGCSNLGISQASPSSLPSFVPQEPTSEPEYHSSNLRMLRVSPDTLLTTHTHSAGSADQKI GAAVVSSAYSQEIKPGSFHQEELPDRHLNEEIRKVSPALRTAGQKPEMLPVQSSSYSKGMKSIFYQHPVS HGHQGKEPLSVSAVCGSAGNKAFHQLSTLSDSLLTEETWPVSVIPGLGNQKTPLPSEFSLSYSHRGKNLP EDVVKVSTDSGSAHKKADILTASSRTYQHKMKPANIYHQELPDSRVPIGTRKVAFESGPAGQKSGVSHPY GEMPSVFYQQGLPDRHSAKSPTKTFIPGPADQKTDLSPVPPTSSSHAEKPVSPYQLTLPGSHLPEDVFKA SSVCKSSDELSGITALTSASYSYKGRPNSSYQQKFPDSHLNEEAQKILGTTGTVDQKTVTPTMSSSFLQK EKPSIFYQQTLPDGGLSEEDLQVSAVPWPADQNIAIPTVTSAAFSQREKPRIFYQQTLSVDRLPGEPLNV LGTSGPPDQNTGAPTVTPSSYFPGEESIIFYQAGFPGNTLSAMSFKVPRISGSTEQTNVTTGSSSSYSVG EKSIIFYHQALPDGRLPQEASPAPADLNTGEPPMYLASCSVGVKPIIFYQQPMSDSQRTKGHKESDVPGP TDQKTGIATVHSTSQSYIGRRTVSYQKEFPDLSEKALKVLGDVGSTEQKTQIPVVSSALLHKEGPSAYQE DLPDLTEEPLQILGVSEEVSSSSYQRKLPDHIEVFLKSVGSGSADRKTGAQIVSSSREKSSGFHQQELPN TGGDAVDAFHPEPVVQEVRKVQTPGAPAGPSSSHFHKEKLSDYQKASPHRDLTESSLKASTVPGLSDQKK KPAVSSGFCLHKEKHEISASALLNCQTAELLTVTQRSCLHREDPAISTVIKPDDQKIPLPTTFHGSSDQK VKPVIFVQKQLRDRDQSEDIPKISTVSEPTVVNTVLPVLLPGSYSHREKSDSFYPQELPDGHLTEVDLKV SSGLGQADQISGLPTGIPGTYSHSEKHQLISEHVQELMDNLNSSESSCLSVDSMPLNSQIDDGVIICKPE SLGFANAGCEEMQNIDRGSKTLKEIQTLLMEAENMALKRCNFSVPLVPFRDVNDVSFIRSKKVVCFKESS TTDVCTQRESFVEEVPHIEYVQKDIGTQTNLKYQRGVGNWEFISSATFRSPLQEAEGTARMAYDETFRQY KAARSVMRSEPEGCSTGIGNKMIIPMMTIIKSDSSSDVSDGCCSWDNNLPESLESVSDVFLNFFPYTSPK TSITDSREEEWLSESEDGYGSTDSLAAHVKYLLQCETSLNQAKQILKNAEEEEYRVRTQAWNLKFNLGRD RGYSISELNEDDRRKVEEIKAKLFGHGRATHMSEGLRSPQGIGCLPEAVCSRIIIESHEKGCFRTLTAEQ PRPDSCHCAFRSVEPSDLIRGHRSPSSWRGRHINLSRSIEQSNPCFKVGSSFQLQSHPPFQKLLPDDIKI SKGVGMPVHAYMDPQPSELVEPTCVPAKEMDFPSSSQILPPEPKKQFTTAITFSSHEHSECISDSSGCKV GVTADSQCSGPSLGVFKPHIPEEQISPRDLKQKTSFQSSLERHGSTPVTILADGSRQRQKLPVDFEHSHQ KEKLLQRLGFKVSHSEPNVSTNVSNFKGVQFSGKDTIVSQDKLTSTVEVKEKNVTVTPDLPSCIFLEQPE LFEESHTPHTDLQMRKYPSPSCPEIASRIFLEQPKLSEQSKAPHVDREIREDHSFFPKCQDYIVADPSPD FPDQQQCKPPDVVGHTRKQNSLLSEGQDYELEEVQHIPQSYFSNMVNVEAKVSDAISQSAPDHCTAASTP PSNRKALSCVRITLCPKTSSKLDSGTLGERFHSLDPASKTRINSEFNSDLRIISSRSLEPTSKLLTCKPV AQDQESLVFLGPKSPLDLQVAQSSLPDSKTIFQDLKTKPPQNSQIVTSRQTQVNISHLEGYSKPEGTPVS ADGSQEQSKVSFTTSFGKLSSDAITQITTESPEKTTFSSEIFIHADDRGQGILDPMAQKPSRFASSSSVQ QIPASHGKDAQPVLLPYKPSGSSKMYYVPLLKRVPSYLDSKSDTTVESSHSGSNDAIAPDFPPQMLGTRD DDLSNTVNIKHKEGIYSKRAATKGKNPSQKGDAAAPVQMPITWDENVLDENQEEVISRGVVIKMAGPEEM SSLEKDLAGPSDITVQDRKTENLPDTKSIKQKEGSLEIESECHSAFENTAHSVFRSAKFYFHHPVHLPHE QDFCHESLGRSVFMQHSWKDFFHHHSGHSCLPPPGPSSDKLDKTKMDYTRIKSLSINLNLGEHEKIHTIK NQARDPKGKRQANEQKKDQKVTPELTTECPVSLNELWNRYQERQKQQNPSGACDTKELSLVERLDRLAKL LQNPITHSLRASESAQDDSRGGHRAREWTGRRQQKQKGKQHRKWSKSLERGQSTGDFRKSKVFSPHQGGK SSQFKIEQIKLDKYILRKEPGFNNVSNTSLDSRPSEESVSLTDSPNIFSSTDSPVDSDVLTPTDRDMPLN ERSSSISTIDTVRLIQAFGQDRLSLSPRRIKLYSTVTSQRRRYLEQPCKHNRKALNTACPQMTSEHSRRR HIQVANHMTSSDSVSSPGSLLSLDSALSNEETVRMVSKGVQAGNLEIVAGVKKYTQDVGVTFPTPSSSEA RLEEDSDVTSSSEEKAKEKKFLSNYLQTKNLRKNKPNPCAGVSWFVPVESGQSGSKKENLPKIYRPVISW FEPVTKTKPWREPLREQNWQAQCMNSRGSLGGPGRDSGQVSLRPFVRATLQESLQLHRPDFISHSGERIK RLKLLVQERKLQSLFQSEREALFHSARPLPRRVLLAVQKNKPIGKKEMIQRTRRIYEQLPEVKKKREEEK RKSEYKSYWLRAQHYKMKVTNHLLGRKVPWD TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_145223 |
ORF Size | 9753 bp |
OTI Disclaimer | 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. |
Product 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 | 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. |
Reference Data | |
RefSeq | NM_145223.1, NM_145223.2, NP_660258.2 |
RefSeq Size | 10005 bp |
RefSeq ORF | 9756 bp |
Locus ID | 236266 |
UniProt ID | Q8K4E0 |
MW | 360.2 kDa |
Gene Summary | Involved in PCM1-dependent intracellular transport. Required, directly or indirectly, for the localization of NCAPD2 to the proximal ends of centrioles. Required for proper formation and/or maintenance of primary cilia (PC), microtubule-based structures that protrude from the surface of epithelial cells (By similarity).[UniProtKB/Swiss-Prot Function] |
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