MUC17 (NM_001040105) Human Untagged Clone

CAT#: SC310926

MUC17 (untagged)-Human mucin 17, cell surface associated (MUC17)

Datasheet
SDS

  "NM_001040105" in other vectors (2)

CN¥ 86,550.00

货期*
14周
规格
    • 10 ug

Product images

经常一起买 (3)
TF81001
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CN¥ 4,090.00

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

CN¥ 1,280.00

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

CN¥ 480.00

添加到购物车

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Synonyms MUC-3; MUC-17; MUC3
Vector pCMV6 series
Sequence Data
>NCBI ORF sequence for NM_001040105, the custom clone sequence may differ by one or more nucleotides
ATGCCAAGGCCAGGGACCATGGCGCTGTGTCTGCTGACCTTGGTCCTCTCGCTCTTGCCC
CCACAAGCTGCTGCAGAACAGGACCTCAGTGTGAACAGGGCTGTGTGGGATGGAGGAGGG
TGCATCTCCCAAGGGGACGTCTTGAACCGTCAGTGCCAGCAGCTGTCTCAGCACGTTAGG
ACAGGTTCTGCGGCAAACACCGCCACAGGTACAACATCTACAAATGTCGTGGAGCCAAGA
ATGTATTTGAGTTGCAGCACCAACCCTGAGATGACCTCGATTGAGTCCAGTGTGACTTCA
GACACTCCTGGTGTCTCCAGTACCAGGATGACACCAACAGAATCCAGAACAACTTCAGAA
TCTACCAGTGACAGCACCACACTTTTCCCCAGTTCTACTGAAGACACTTCATCTCCTACA
ACTCCTGAAGGCACCGACGTGCCCATGTCAACACCAAGTGAAGAAAGCATTTCATCAACA
ATGGCTTTTGTCAGCACTGCACCTCTTCCCAGTTTTGAGGCCTACACATCTTTAACATAT
AAGGTTGATATGAGCACACCTCTGACCACTTCTACTCAGGCAAGTTCATCTCCTACTACT
CCTGAAAGCACCACCATACCCAAATCAACTAACAGTGAAGGAAGCACTCCATTAACAAGT
ATGCCTGCCAGCACCATGAAGGTGGCCAGTTCAGAGGCTATCACCCTTTTGACAACTCCT
GTTGAAATCAGCACACCTGTGACCATTTCTGCTCAAGCCAGTTCATCTCCTACAACTGCT
GAAGGTCCCAGCCTGTCAAACTCAGCTCCTAGTGGAGGAAGCACTCCATTAACAAGAATG
CCTCTCAGCGTGATGCTGGTGGTCAGTTCTGAGGCTAGCACCCTTTCAACAACTCCTGCT
GCCACCAACATTCCTGTGATCACTTCTACTGAAGCCAGTTCATCTCCTACAACGGCTGAA
GGCACCAGCATACCAACCTCAACTTATACTGAAGGAAGCACTCCATTAACAAGTACGCCT
GCCAGCACCATGCCGGTTGCCACTTCTGAAATGAGCACACTTTCAATAACTCCTGTTGAC
ACCAGCACACTTGTGACCACTTCTACTGAACCCAGTTCACTTCCTACAACTGCTGAAGCT
ACCAGCATGCTAACCTCAACTCTTAGTGAAGGAAGCACTCCATTAACAAATATGCCTGTC
AGCACCATATTGGTGGCCAGTTCTGAGGCTAGCACCACTTCAACAATTCCTGTTGACTCC
AAAACTTTTGTGACCACTGCTAGTGAAGCCAGCTCATCTCCCACAACTGCTGAAGATACC
AGCATTGCAACCTCAACTCCTAGTGAAGGAAGCACTCCATTAACAAGTATGCCTGTCAGC
ACCACTCCAGTGGCCAGTTCTGAGGCTAGCAACCTTTCAACAACTCCTGTTGACTCCAAA
ACTCAGGTGACCACTTCTACTGAAGCCAGTTCATCTCCTCCAACTGCTGAAGTTAACAGC
ATGCCAACCTCAACTCCTAGTGAAGGAAGCACTCCATTAACAAGTATGTCTGTCAGCACC
ATGCCGGTGGCCAGTTCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGACACCAGCACA
CCTGTGACCACTTCTAGTGAAGCCAGTTCATCTTCTACAACTCCTGAAGGTACCAGCATA
CCAACCTCAACTCCTAGTGAAGGAAGCACTCCATTAACAAACATGCCTGTCAGCACCAGG
CTGGTGGTCAGTTCTGAGGCTAGCACCACTTCAACAACTCCTGCTGACTCCAACACTTTT
GTGACCACTTCTAGTGAAGCTAGTTCATCTTCTACAACTGCTGAAGGTACCAGCATGCCA
ACCTCAACTTACAGTGAAAGAGGCACTACAATAACAAGTATGTCTGTCAGCACCACACTG
GTGGCCAGTTCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGACTCCAACACTCCTGTG
ACCACTTCAACTGAAGCCACTTCATCTTCTACAACTGCGGAAGGTACCAGCATGCCAACC
TCAACTTATACTGAAGGAAGCACTCCATTAACAAGTATGCCTGTCAACACCACACTGGTG
GCCAGTTCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGACACCAGCACACCTGTGACC
ACTTCAACTGAAGCCAGTTCCTCTCCTACAACTGCTGATGGTGCCAGTATGCCAACCTCA
ACTCCTAGTGAAGGAAGCACTCCATTAACAAGTATGCCTGTCAGCAAAACGCTGTTGACC
AGTTCTGAGGCTAGCACCCTTTCAACAACTCCTCTTGACACAAGCACACATATCACCACT
TCTACTGAAGCCAGTTGCTCTCCTACAACCACTGAAGGTACCAGCATGCCAATCTCAACT
CCTAGTGAAGGAAGTCCTTTATTAACAAGTATACCTGTCAGCATCACACCGGTGACCAGT
CCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGACTCCAACAGTCCTGTGACCACTTCT
ACTGAAGTCAGTTCATCTCCTACACCTGCTGAAGGTACCAGCATGCCAACCTCAACTTAT
AGTGAAGGAAGAACTCCTTTAACAAGTATGCCTGTCAGCACCACACTGGTGGCCACTTCT
GCAATCAGCACCCTTTCAACAACTCCTGTTGACACCAGCACACCTGTGACCAATTCTACT
GAAGCCCGTTCGTCTCCTACAACTTCTGAAGGTACCAGCATGCCAACCTCAACTCCTGGG
GAAGGAAGCACTCCATTAACAAGTATGCCTGACAGCACCACGCCGGTAGTCAGTTCTGAG
GCTAGAACACTTTCAGCAACTCCTGTTGACACCAGCACACCTGTGACCACTTCTACTGAA
GCCACTTCATCTCCTACAACTGCTGAAGGTACCAGCATACCAACCTCGACTCCTAGTGAA
GGAACGACTCCATTAACAAGCACACCTGTCAGCCACACGCTGGTGGCCAATTCTGAGGCT
AGCACCCTTTCAACAACTCCTGTTGACTCCAACACTCCTTTGACCACTTCTACTGAAGCC
AGTTCACCTCCTCCCACTGCTGAAGGTACCAGCATGCCAACCTCAACTCCTAGTGAAGGA
AGCACTCCATTAACACGTATGCCTGTCAGCACCACAATGGTGGCCAGTTCTGAAACGAGC
ACACTTTCAACAACTCCTGCTGACACCAGCACACCTGTGACCACTTATTCTCAAGCCAGT
TCATCTTCTACAACTGCTGACGGTACCAGCATGCCAACCTCAACTTATAGTGAAGGAAGC
ACTCCACTAACAAGTGTGCCTGTCAGCACCAGGCTGGTGGTCAGTTCTGAGGCTAGCACC
CTTTCCACAACTCCTGTCGACACCAGCATACCTGTCACCACTTCTACTGAAGCCAGTTCA
TCTCCTACAACTGCTGAAGGTACCAGCATACCAACCTCACCTCCCAGTGAAGGAACCACT
CCGTTAGCAAGTATGCCTGTCAGCACCACGCTGGTGGTCAGTTCTGAGGCTAACACCCTT
TCAACAACTCCTGTGGACTCCAAAACTCAGGTGGCCACTTCTACTGAAGCCAGTTCACCT
CCTCCAACTGCTGAAGTTACCAGCATGCCAACCTCAACTCCTGGAGAAAGAAGCACTCCA
TTAACAAGTATGCCTGTCAGACACACGCCAGTGGCCAGTTCTGAGGCTAGCACCCTTTCA
ACATCTCCCGTTGACACCAGCACACCTGTGACCACTTCTGCTGAAACCAGTTCCTCTCCT
ACAACCGCTGAAGGTACCAGCTTGCCAACCTCAACTACTAGTGAAGGAAGTACTCTATTA
ACAAGTATACCTGTCAGCACCACGCTGGTGACCAGTCCTGAGGCTAGCACCCTTTTAACA
ACTCCTGTTGACACTAAAGGTCCTGTGGTCACTTCTAATGAAGTCAGTTCATCTCCTACA
CCTGCTGAAGGTACCAGCATGCCAACCTCAACTTATAGTGAAGGAAGAACTCCTTTAACA
AGTATACCTGTCAACACCACACTGGTGGCCAGTTCTGCAATCAGCATCCTTTCAACAACT
CCTGTTGACAACAGCACACCTGTGACCACTTCTACTGAAGCCTGTTCATCTCCTACAACT
TCTGAAGGTACCAGCATGCCAAACTCAAATCCTAGTGAAGGAACCACTCCGTTAACAAGT
ATACCTGTCAGCACCACGCCGGTAGTCAGTTCTGAGGCTAGCACCCTTTCAGCAACTCCT
GTTGACACCAGCACCCCTGGGACCACTTCTGCTGAAGCCACTTCATCTCCTACAACTGCT
GAAGGTATCAGCATACCAACCTCAACTCCTAGTGAAGGAAAGACTCCATTAAAAAGTATA
CCTGTCAGCAACACGCCGGTGGCCAATTCTGAGGCTAGCACCCTTTCAACAACTCCTGTT
GACTCTAACAGTCCTGTGGTCACTTCTACAGCAGTCAGTTCATCTCCTACACCTGCTGAA
GGTACCAGCATAGCAATCTCAACGCCTAGTGAAGGAAGCACTGCATTAACAAGTATACCT
GTCAGCACCACAACAGTGGCCAGTTCTGAAATCAACAGCCTTTCAACAACTCCTGCTGTC
ACCAGCACACCTGTGACCACTTATTCTCAAGCCAGTTCATCTCCTACAACTGCTGACGGT
ACCAGCATGCAAACCTCAACTTATAGTGAAGGAAGCACTCCACTAACAAGTTTGCCTGTC
AGCACCATGCTGGTGGTCAGTTCTGAGGCTAACACCCTTTCAACAACCCCTATTGACTCC
AAAACTCAGGTGACCGCTTCTACTGAAGCCAGTTCATCTACAACCGCTGAAGGTAGCAGC
ATGACAATCTCAACTCCTAGTGAAGGAAGTCCTCTATTAACAAGTATACCTGTCAGCACC
ACGCCGGTGGCCAGTCCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGACTCCAACAGT
CCTGTGATCACTTCTACTGAAGTCAGTTCATCTCCTACACCTGCTGAAGGTACCAGCATG
CCAACCTCAACTTATACTGAAGGAAGAACTCCTTTAACAAGTATAACTGTCAGAACAACA
CCGGTGGCCAGCTCTGCAATCAGCACCCTTTCAACAACTCCCGTTGACAACAGCACACCT
GTGACCACTTCTACTGAAGCCCGTTCATCTCCTACAACTTCTGAAGGTACCAGCATGCCA
AACTCAACTCCTAGTGAAGGAACCACTCCATTAACAAGTATACCTGTCAGCACCACGCCG
GTACTCAGTTCTGAGGCTAGCACCCTTTCAGCAACTCCTATTGACACCAGCACCCCTGTG
ACCACTTCTACTGAAGCCACTTCGTCTCCTACAACTGCTGAAGGTACCAGCATACCAACC
TCGACTCTTAGTGAAGGAATGACTCCATTAACAAGCACACCTGTCAGCCACACGCTGGTG
GCCAATTCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGACTCTAACAGTCCTGTGGTC
ACTTCTACAGCAGTCAGTTCATCTCCTACACCTGCTGAAGGTACCAGCATAGCAACCTCA
ACGCCTAGTGAAGGAAGCACTGCATTAACAAGTATACCTGTCAGCACCACAACAGTGGCC
AGTTCTGAAACCAACACCCTTTCAACAACTCCCGCTGTCACCAGCACACCTGTGACCACT
TATGCTCAAGTCAGTTCATCTCCTACAACTGCTGACGGTAGCAGCATGCCAACCTCAACT
CCTAGGGAAGGAAGGCCTCCATTAACAAGTATACCTGTCAGCACCACAACAGTGGCCAGT
TCTGAAATCAACACCCTTTCAACAACTCTTGCTGACACCAGGACACCTGTGACCACTTAT
TCTCAAGCCAGTTCATCTCCTACAACTGCTGATGGTACCAGCATGCCAACCCCAGCTTAT
AGTGAAGGAAGCACTCCACTAACAAGTATGCCTCTCAGCACCACGCTGGTGGTCAGTTCT
GAGGCTAGCACTCTTTCCACAACTCCTGTTGACACCAGCACTCCTGCCACCACTTCTACT
GAAGGCAGTTCATCTCCTACAACTGCAGGAGGTACCAGCATACAAACCTCAACTCCTAGT
GAACGGACCACTCCATTAGCAGGTATGCCTGTCAGCACTACGCTTGTGGTCAGTTCTGAG
GGTAACACCCTTTCAACAACTCCTGTTGACTCCAAAACTCAGGTGACCAATTCTACTGAA
GCCAGTTCATCTGCAACCGCTGAAGGTAGCAGCATGACAATCTCAGCTCCTAGTGAAGGA
AGTCCTCTACTAACAAGTATACCTCTCAGCACCACGCCGGTGGCCAGTCCTGAGGCTAGC
ACCCTTTCAACAACTCCTGTTGACTCCAACAGTCCTGTGATCACTTCTACTGAAGTCAGT
TCATCTCCTATACCTACTGAAGGTACCAGCATGCAAACCTCAACTTATAGTGACAGAAGA
ACTCCTTTAACAAGTATGCCTGTCAGCACCACAGTGGTGGCCAGTTCTGCAATCAGCACC
CTTTCAACAACTCCTGTTGACACCAGCACACCTGTGACCAATTCTACTGAAGCCCGTTCA
TCTCCTACAACTTCTGAAGGTACCAGCATGCCAACCTCAACTCCTAGTGAAGGAAGCACT
CCATTCACAAGTATGCCTGTCAGCACCATGCCGGTAGTTACTTCTGAGGCTAGCACCCTT
TCAGCAACTCCTGTTGACACCAGCACACCTGTGACCACTTCTACTGAAGCCACTTCATCT
CCTACAACTGCTGAAGGTACCAGCATACCAACTTCAACTCTTAGTGAAGGAACGACTCCA
TTAACAAGTATACCTGTCAGCCACACGCTGGTGGCCAATTCTGAGGTTAGCACCCTTTCA
ACAACTCCTGTTGACTCCAACACTCCTTTCACTACTTCTACTGAAGCCAGTTCACCTCCT
CCCACTGCTGAAGGTACCAGCATGCCAACCTCAACTTCTAGTGAAGGAAACACTCCATTA
ACACGTATGCCTGTCAGCACCACAATGGTGGCCAGTTTTGAAACAAGCACACTTTCTACA
ACTCCTGCTGACACCAGCACACCTGTGACTACTTATTCTCAAGCCGGTTCATCTCCTACA
ACTGCTGACGATACTAGCATGCCAACCTCAACTTATAGTGAAGGAAGCACTCCACTAACA
AGTGTGCCTGTCAGCACCATGCCGGTGGTCAGTTCTGAGGCTAGCACCCATTCCACAACT
CCTGTTGACACCAGCACACCTGTCACCACTTCTACTGAAGCCAGTTCATCTCCTACAACT
GCTGAAGGTACCAGCATACCAACCTCACCTCCTAGTGAAGGAACCACTCCGTTAGCAAGT
ATGCCTGTCAGCACCACGCCGGTGGTCAGTTCTGAGGCTGGCACCCTTTCCACAACTCCT
GTTGACACCAGCACACCTATGACCACTTCTACTGAAGCCAGTTCATCTCCTACAACTGCT
GAAGATATCGTCGTGCCAATCTCAACTGCTAGTGAAGGAAGTACTCTATTAACAAGTATA
CCTGTCAGCACCACGCCAGTGGCCAGTCCTGAGGCTAGCACCCTTTCAACAACTCCTGTT
GACTCCAACAGTCCTGTGGTCACTTCTACTGAAATCAGTTCATCTGCTACATCCGCTGAA
GGTACCAGCATGCCTACCTCAACTTATAGTGAAGGAAGCACTCCATTAAGAAGTATGCCT
GTCAGCACCAAGCCGTTGGCCAGTTCTGAGGCTAGCACTCTTTCAACAACTCCTGTTGAC
ACCAGCATACCTGTCACCACTTCTACTGAAACCAGTTCATCTCCTACAACTGCAAAAGAT
ACCAGCATGCCAATCTCAACTCCTAGTGAAGTAAGTACTTCATTAACAAGTATACTTGTC
AGCACCATGCCAGTGGCCAGTTCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGACACC
AGGACACTTGTGACCACTTCCACTGGAACCAGTTCATCTCCTACAACTGCTGAAGGTAGC
AGCATGCCAACCTCAACTCCTGGTGAAAGAAGCACTCCATTAACAAATATACTTGTCAGC
ACCACGCTGTTGGCCAATTCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGACACCAGC
ACACCTGTCACCACTTCTGCTGAAGCCAGTTCTTCTCCTACAACTGCTGAAGGTACCAGC
ATGCGAATCTCAACTCCTAGTGATGGAAGTACTCCATTAACAAGTATACTTGTCAGCACC
CTGCCAGTGGCCAGTTCTGAGGCTAGCACCGTTTCAACAACTGCTGTTGACACCAGCATA
CCTGTCACCACTTCTACTGAAGCCAGTTCCTCTCCTACAACTGCTGAAGTTACCAGCATG
CCAACCTCAACTCCTAGTGAAACAAGTACTCCATTAACTAGTATGCCTGTCAACCACACG
CCAGTGGCCAGTTCTGAGGCTGGCACCCTTTCAACAACTCCTGTTGACACCAGCACACCT
GTGACCACTTCTACTAAAGCCAGTTCATCTCCTACAACTGCTGAAGGTATCGTCGTGCCA
ATCTCAACTGCTAGTGAAGGAAGTACTCTATTAACAAGTATACCTGTCAGCACCACGCCG
GTGGCCAGTTCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGATACCAGCATACCTGTC
ACCACTTCTACTGAAGGCAGTTCTTCTCCTACAACTGCTGAAGGTACCAGCATGCCAATC
TCAACTCCTAGTGAAGTAAGTACTCCATTAACAAGTATACTTGTCAGCACCGTGCCAGTG
GCCGGTTCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGACACCAGGACACCTGTCACC
ACTTCTGCTGAAGCTAGTTCTTCTCCTACAACTGCTGAAGGTACCAGCATGCCAATCTCA
ACTCCTGGCGAAAGAAGAACTCCATTAACAAGTATGTCTGTCAGCACCATGCCGGTGGCC
AGTTCTGAGGCTAGCACCCTTTCAAGAACTCCTGCTGACACCAGCACACCTGTGACCACT
TCTACTGAAGCCAGTTCCTCTCCTACAACTGCTGAAGGTACCGGCATACCAATCTCAACT
CCTAGTGAAGGAAGTACTCCATTAACAAGTATACCTGTCAGCACCACGCCAGTGGCCATT
CCTGAGGCTAGCACCCTTTCAACAACTCCTGTTGACTCCAACAGTCCTGTGGTCACTTCT
ACTGAAGTCAGTTCATCTCCTACACCTGCTGAAGGTACCAGCATGCCAATCTCAACTTAT
AGTGAAGGAAGCACTCCATTAACAGGTGTGCCTGTCAGCACCACACCGGTGACCAGTTCT
GCAATCAGCACCCTTTCAACAACTCCTGTTGACACCAGCACACCTGTGACCACTTCTACT
GAAGCCCATTCATCTCCTACAACTTCTGAAGGTACCAGCATGCCAACCTCAACTCCTAGT
GAAGGAAGTACTCCATTAACATATATGCCTGTCAGCACCATGCTGGTAGTCAGTTCTGAG
GATAGCACCCTTTCAGCAACTCCTGTTGACACCAGCACACCTGTGACCACTTCTACTGAA
GCCACTTCATCTACAACTGCTGAAGGTACCAGCATTCCAACCTCAACTCCTAGTGAAGGA
ATGACTCCATTAACTAGTGTACCTGTCAGCAACACGCCGGTGGCCAGTTCTGAGGCTAGC
ATCCTTTCAACAACTCCTGTTGACTCCAACACTCCTTTGACCACTTCTACTGAAGCCAGT
TCATCTCCTCCCACTGCTGAAGGTACCAGCATGCCAACCTCAACTCCTAGTGAAGGAAGC
ACTCCATTAACAAGTATGCCTGTCAGCACCACAACGGTGGCCAGTTCTGAAACGAGCACC
CTTTCAACAACTCCTGCTGACACCAGCACACCTGTGACCACTTATTCTCAAGCCAGTTCA
TCTCCTCCAATTGCTGACGGTACTAGCATGCCAACCTCAACTTATAGTGAAGGAAGCACT
CCACTAACAAATATGTCTTTCAGCACCACGCCAGTGGTCAGTTCTGAGGCTAGCACCCTT
TCCACAACTCCTGTTGACACCAGCACACCTGTCACCACTTCTACTGAAGCCAGTTTATCT
CCTACAACTGCTGAAGGTACCAGCATACCAACCTCAAGTCCTAGTGAAGGAACCACTCCA
TTAGCAAGTATGCCTGTCAGCACCACGCCGGTGGTCAGTTCTGAGGTTAACACCCTTTCA
ACAACTCCTGTGGACTCCAACACTCTGGTGACCACTTCTACTGAAGCCAGTTCATCTCCT
ACAATCGCTGAAGGTACCAGCTTGCCAACCTCAACTACTAGTGAAGGAAGCACTCCATTA
TCAATTATGCCTCTCAGTACCACGCCGGTGGCCAGTTCTGAGGCTAGCACCCTTTCAACA
ACTCCTGTTGACACCAGCACACCTGTGACCACTTCTTCTCCAACCAATTCATCTCCTACA
ACTGCTGAAGTTACCAGCATGCCAACATCAACTGCTGGTGAAGGAAGCACTCCATTAACA
AATATGCCTGTCAGCACCACACCGGTGGCCAGTTCTGAGGCTAGCACCCTTTCAACAACT
CCTGTTGACTCCAACACTTTTGTTACCAGTTCTAGTCAAGCCAGTTCATCTCCAGCAACT
CTTCAGGTCACCACTATGCGTATGTCTACTCCAAGTGAAGGAAGCTCTTCATTAACAACT
ATGCTCCTCAGCAGCACATATGTGACCAGTTCTGAGGCTAGCACACCTTCCACTCCTTCT
GTTGACAGAAGCACACCTGTGACCACTTCTACTCAGAGCAATTCTACTCCTACACCTCCT
GAAGTTATCACCCTGCCAATGTCAACTCCTAGTGAAGTAAGCACTCCATTAACCATTATG
CCTGTCAGCACCACATCGGTGACCATTTCTGAGGCTGGCACAGCTTCAACACTTCCTGTT
GACACCAGCACACCTGTGATCACTTCTACCCAAGTCAGTTCATCTCCTGTGACTCCTGAA
GGTACCACCATGCCAATCTGGACGCCTAGTGAAGGAAGCACTCCATTAACAACTATGCCT
GTCAGCACCACACGTGTGACCAGCTCTGAGGGTAGCACCCTTTCAACACCTTCTGTTGTC
ACCAGCACACCTGTGACCACTTCTACTGAAGCCATTTCATCTTCTGCAACTCTTGACAGC
ACCACCATGTCTGTGTCAATGCCCATGGAAATAAGCACCCTTGGGACCACTATTCTTGTC
AGTACCACACCTGTTACGAGGTTTCCTGAGAGTAGCACCCCTTCCATACCATCTGTTTAC
ACCAGCATGTCTATGACCACTGCCTCTGAAGGCAGTTCATCTCCTACAACTCTTGAAGGC
ACCACCACCATGCCTATGTCAACTACGAGTGAAAGAAGCACTTTATTGACAACTGTCCTC
ATCAGCCCTATATCTGTGATGAGTCCTTCTGAGGCCAGCACACTTTCAACACCTCCTGGT
GATACCAGCACACCTTTGCTCACCTCTACCAAAGCCGGTTCATTCTCCATACCTGCTGAA
GTCACTACCATACGTATTTCAATTACCAGTGAAAGAAGCACTCCATTAACAACTCTCCTT
GTCAGCACCACACTTCCAACTAGCTTTCCTGGGGCCAGCATAGCTTCGACACCTCCTCTT
GACACAAGCACAACTTTTACCCCTTCTACTGACACTGCCTCAACTCCCACAATTCCTGTA
GCCACCACCATATCTGTATCAGTGATCACAGAAGGAAGCACACCTGGGACAACCATTTTT
ATTCCCAGCACTCCTGTCACCAGTTCTACTGCTGATGTCTTTCCTGCAACAACTGGTGCT
GTATCTACCCCTGTGATAACTTCCACTGAACTAAACACACCATCAACCTCCAGTAGTAGT
ACCACCACATCTTTTTCAACTACTAAGGAATTTACAACACCCGCAATGACTACTGCAGCT
CCCCTCACATATGTGACCATGTCTACTGCCCCCAGCACACCCAGAACAACCAGCAGAGGC
TGCACTACTTCTGCATCAACGCTTTCTGCAACCAGTACACCTCACACCTCTACTTCTGTC
ACCACCCGTCCTGTGACCCCTTCATCAGAATCCAGCAGGCCGTCAACAATTACTTCTCAC
ACCATCCCACCTACATTTCCTCCTGCTCACTCCAGTACACCTCCAACAACCTCTGCCTCC
TCCACGACTGTGAACCCTGAGGCTGTCACCACCATGACCACCAGGACAAAACCCAGCACA
CGGACCACTTCCTTCCCCACGGTGACCACCACCGCTGTCCCCACGAATACTACAATTAAG
AGCAACCCCACCTCAACTCCTACTGTGCCAAGAACCACAACATGCTTTGGAGATGGGTGC
CAGAATACGGCCTCTCGCTGCAAGAATGGAGGCACCTGGGATGGGCTCAAGTGCCAGTGT
CCCAACCTCTATTATGGGGAGTTGTGTGAGGAGGTGGTCAGCAGCATTGACATAGGGCCA
CCGGAGACTATCTCTGCCCAAATGGAACTGACTGTGACAGTGACCAGTGTGAAGTTCACC
GAAGAGCTAAAAAACCACTCTTCCCAGGAATTCCAGGAGTTCAAACAGACATTCACGGAA
CAGATGAATATTGTGTATTCCGGGATCCCTGAGTATGTCGGGGTGAACATCACAAAGCTA
CGTCTTGGCAGTGTGGTGGTGGAGCATGACGTCCTCCTAAGAACCAAGTACACACCAGAA
TACAAGACAGTATTGGACAATGCCACCGAAGTAGTGAAAGAGAAAATCACAAAAGTGACC
ACACAGCAAATAATGATTAATGATATTTGCTCAGACATGATGTGTTTCAACACCACTGGC
ACCCAAGTGCAAAACATTACGGTGACCCAGTACGACCCTGAAGAGGACTGCCGGAAGATG
GCCAAGGAATATGGAGACTACTTCGTAGTGGAGTACCGGGACCAGAAGCCATACTGCATC
AGCCCCTGTGAGCCTGGCTTCAGTGTCTCCAAGAACTGTAACCTCGGCAAGTGCCAGATG
TCTCTAAGTGGACCTCAGTGCCTCTGCGTGACCACGGAAACTCACTGGTACAGTGGGGAG
ACCTGTAACCAGGGCACCCAGAAGAGTCTGGTGTACGGCCTCGTGGGGGCAGGGGTCGTG
CTGATGCTGATCATCCTGGTAGCTCTCCTGATGCTCGTTTTCCGCTCCAAGAGAGAGGTG
AAACGGCAAAAGTACAGATTGTCTCAGTTATACAAGTGGCAAGAAGAGGACAGTGGACCA
GCTCCTGGGACCTTCCAAAACATTGGCTTTGACATCTGCCAAGATGATGATTCCATCCAC
CTGGAGTCCATCTATAGTAATTTCCAGCCCTCCTTGAGACACATAGACCCTGAAACAAAG
ATCCGAATTCAGAGGCCTCAGGTAATGACGACATCATTTTAA
Restriction Sites Please inquire     
ACCN NM_001040105
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.

Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
OTI Annotation This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA.
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.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Reference Data
RefSeq NM_001040105.1, NP_001035194.1
RefSeq Size 14360 bp
RefSeq ORF 13482 bp
Locus ID 140453
UniProt ID Q685J3
Protein Families Druggable Genome, Transmembrane
Gene Summary The protein encoded by this gene is a membrane-bound mucin that provides protection to gut epithelial cells. The encoded protein contains about 60 tandem repeats, with each repeat being around 60 aa. N-glycosylation enables the encoded protein to localize on the cell surface, while the C-terminus interacts with the scaffold protein PDZ domain containing 1 (PDZK1). Two transcript variants, one protein-coding and the other non-protein coding, have been found for this gene. [provided by RefSeq, Nov 2015]
Transcript Variant: This variant (1) represents the longer transcript and is the protein-coding variant.
*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
RC221218 MUC17 (Myc-DDK-tagged)-Human mucin 17, cell surface associated (MUC17)
    • 10 ug

CN¥ 42,864.00

RG221218 MUC17 (tGFP-tagged) - Human mucin 17, cell surface associated (MUC17)
    • 10 ug

CN¥ 70,400.00

其它MUC17产品

Expression Plasmids
Lentiviral Particles
CRISPR
RNAi
Proteins
Antibodies
相关产品 (3)

TF81001

TurboFectin Transfection Reagent (1 mL in 1 vial)

    • 1 ml in 1 vial

CN¥ 4,090.00

RG221218

MUC17 (tGFP-tagged) - Human mucin 17, cell surface associated (MUC17)

    • 10 ug

CN¥ 70,400.00

RC221218

MUC17 (Myc-DDK-tagged)-Human mucin 17, cell surface associated (MUC17)

    • 10 ug

CN¥ 42,864.00

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