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: DDK tGFP

Datasheet
SDS
Plasmid Map

  "NM_145223" in other vectors (2)

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Mouse Protein / Lysate Request

CNY 21,072.00

货期*
现货
规格
    • 10 ug

Product images

经常一起买 (4)
PS100001
pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug
    • 10 ug

CNY 5,420.00

添加到购物车
CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00

暂停销售
PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

添加到购物车
TA592569S
DDK Rabbit monoclonal antibody, recognizing both N- and C-terminal tags
    • 30 ul

CNY 300.00

添加到购物车

【特别福利】购一抗正装产品,免费领10ul抗体试用装

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]
*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

Other Versions

SKU Description Size Price
MC225471 Alms1 (untagged) - Mouse Alstrom syndrome 1 homolog (human) (Alms1), (10ug)
    • 10 ug

CNY 52,250.00

MG222816 Alms1 (tGFP-tagged) - Mouse Alstrom syndrome 1 homolog (human) (Alms1), (10ug). Note: ORF is codon optimized
    • 10 ug

CNY 22,672.00

You may also need
plasmid icon Empty Vector
protein iconDDK/Flag Antibody

其它Alms1产品

Expression Plasmids
Lentiviral Particles
CRISPR
RNAi
Proteins
Antibodies
相关产品 (5)

PS100001

pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug

    • 10 ug

CNY 5,420.00

TF81001

TurboFectin Transfection Reagent (1 mL in 1 vial)

    • 1 ml in 1 vial

CNY 4,090.00

TA50011-100

Clone OTI4C5, Anti-DDK (FLAG) monoclonal antibody

【特别福利】购一抗正装产品,免费领10ul抗体试用装

    • 100 ul

CNY 1,050.00

MC225471

Alms1 (untagged) - Mouse Alstrom syndrome 1 homolog (human) (Alms1), (10ug)

    • 10 ug

CNY 52,250.00

MG222816

Alms1 (tGFP-tagged) - Mouse Alstrom syndrome 1 homolog (human) (Alms1), (10ug). Note: ORF is codon optimized

    • 10 ug

CNY 22,672.00

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