VPS13D (NM_018156) Human Untagged Clone

CAT#: SC304563

VPS13D (untagged)-Human vacuolar protein sorting 13 homolog D (S. cerevisiae) (VPS13D), transcript variant 2

Datasheet
SDS

  "NM_018156" in other vectors (3)

CNY 84,080.00

货期*
5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

CNY 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

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

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Synonyms SCAR4
Vector pCMV6 series
Sequence Data
>NCBI ORF sequence for NM_018156, the custom clone sequence may differ by one or more nucleotides
ATGTTGGAAGGCCTTGTAGCCTGGGTTCTCAATACCTATTTGGGAAAATATGTCAATAAC
CTGAACACTGACCAGCTCTCAGTTGCACTTCTCAAAGGTGCTGTTGAATTAGAAAACTTG
CCATTAAAGAAAGATGCCTTGAAAGAATTGGAATTACCATTTGAAGTCAAAGCTGGCTTC
ATTGGGAAAGTAACCCTTCAGATTCCCTTTTATCGCCCCCATGTGGACCCTTGGGTGATC
TCCATCTCCAGCCTTCACTTAATTGGAGCCCCAGAGAAAATACAGGATTTCAATGATGAA
AAGGAGAAGCTGTTGGAAAGGGAACGTAAGAAAGCACTACTTCAAGCCCTGGAGGAGAAA
TGGAAGAATGACCGCCAGCAGAAAGGGGAGTCCTATTGGTATTCAGTTACCGCCTCCGTA
GTTACAAGGATTGTGGAGAATATTGAATTAAAAATTCAAGATGTCCATTTACGCTTTGAA
GATGGTGTCACCAATCCCTCCCATCCTTTTGCTTTTGGCATCTGCATTAAGAATGTGTCC
ATGCAAAATGCTGTGAATGAGCCTGTACAGAAACTAATGCGGAAAAAGCAATTAGACGTA
GCAGAATTTAGCATCTATTGGGATGTCGATTGCACTTTACTGGGGGATTTGCCTCAGATG
GAGTTACAGGAGGCCATGGCCAGGAGCATGGAGAGTCGCAGCCATCACTACGTCCTGGAG
CCTGTGTTTGCATCTGCTCTTTTGAAGAGAAACTGCTCCAAGAAGCCCCTGCGGTCTCGG
CACAGTCCCCGTATTGATTGTGATATTCAGCTGGAGACCATTCCCTTGAAACTCTCTCAG
CTGCAATACCGGCAAATCATGGAATTCCTCAAGGAGCTGGAACGAAAGGAGAGGCAGGTG
AAGTTCCGAAGGTGGAAACCCAAGGTGGCGATATCTAAGAACTGCCGAGAATGGTGGTAT
TTTGCTTTGAATGCTAACTTGTATGAGATCAGAGAGCAGAGGAAACGTTGCACCTGGGAC
TTTATGTTGCACCGCGCTCGTGATGCTGTATCTTACACTGACAAATATTTCAACAAGTTA
AAAGGAGGCCTGCTGTCCACAGATGACAAGGAGGAAATGTGTCGGATTGAAGAGGAACAG
AGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCATGATCGATTTCACAAACAGGAA
GAACTAGCAGAGAGTCTGCGGGAGCCTCAGTTTGATTCTCCAGGAGCCTGTCCGGGAGCC
CCAGAACCCGGTGGAGGCAGTGGGATGCTGCAGTATCTCCAGTCCTGGTTTCCTGGATGG
GGTGGCTGGTACGGGCAGCAGACCCCAGAAGGGAATGTGGTTGAGGGACTGTCAGCAGAG
CAACAGGAGCAGTGGATTCCTGAAGAGATCCTGGGCACTGAGGAGTTTTTTGACCCCACT
GCAGATGCCTCGTGTATGAACACGTATACAAAGCGAGATCATGTCTTTGCCAAACTGAAT
TTGCAGTTGCAGCGAGGTACAGTGACTCTGTTACACAAGGAGCAAGGAACTCCTCAAATG
AATGAAAGTGCTTTCATGCAGCTCGAGTTTTCAGATGTAAAACTTCTAGCAGAGTCTCTT
CCTCGAAGAAATTCCTCGTTGCTTTCAGTCCGGTTGGGTGGACTGTTTCTTCGAGACCTG
GCTACAGAAGGAACTATGTTTCCTCTTCTAGTCTTCCCTAATCCACAAAAAGAAGTTGGC
AGAGTCTCACAATCTTTTGGTCTACAAACTACATCTGCAGACAGAAGTGATCATTACCCA
GCTGCAGATCCAGATGGCCCCGTTTTTGAGATGCTGTATGAGAGAAATCCGGCGCACAGC
CACTTTGAGAGGCGGCTCAATGTCAGCACAAGGCCCTTGAACATCATATACAATCCGCAG
GCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGTTTTGGT
TATCAGTCTGAACTTGAGCTGAGAGTGGCTGAAGCTGCCCGAAGACAATATAACAAGCTG
AAGATGCAGACCAAGGCAGAAATCCGGCAAACTCTTGATCGTTTGCTAGTGGGTGATTTC
ATTGAGGAGAGTAAACGATGGACCGTGCGGCTGGATATTTCTGCCCCTCAGGTGATATTT
CCTGATGATTTCAAATTCAAGAATCCTGTGTTAGTTGTCGTGGATCTAGGAAGAATGCTT
TTGACGAACACCCAAGATAACTCCAGGAGGAAAAGTAGGGATGGGTCAGCATCTGAAGAG
ACCCAGTTTAGTGATGATGAATATAAGACCCCCCTGGCCACACCTCCTAACACCCCACCT
CCCGAGTCAAGCAGCAGCAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAGTTCAGT
GAAGAACAGCTTCAAGCACATTTAATGAGCACAAAGATGTATGAGAGGTACTCGCTGTCA
TTTATGGACCTCCAGATCATGGTTGGACGAGTGAAAGACAATTGGAAGCATGTCCAGGAT
ATTGACGTGGGACCAACACATGTGGTAGAGAAGTTCAACGTTCACCTACAGTTAGAGCGT
CGATTGATTTATACTTCAGATCCCAAATATCCAGGAGCCGTGCTCTCAGGCAACTTACCA
GACTTAAAAATCCACATTAATGAAGATAAAATATCTGCACTAAAGAATTGCTTTGCTCTC
CTCACCACCCCAGAAATGAAAACTTCTGACACTCAGATTAAAGAAAAGATTTTTCCCCAG
GAGGAGCAGCGGGGAAGTTTGCAAGACTCCGTAATGAATTTAACCCAGAGCATTGTGTTG
TTGGAGCAGCATACCCGCGAGGTTCTGGTGGAGTCGCAGCTCCTCCTGGCGGAATTTAAA
GTGAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTG
TTTGGTACCAATGCTCACTTTGTGAAGAGGCCTTATGATGCTGAAGTCTCCCTAACTGTT
CATGGTTTGCTCCTGGTGGATACCATGCAGACATATGGTGCTGATTTTGACCTTTTGATG
GCTTCACATAAGAACTTGAGCTTTGATATTCCAACGGGAAGCCTTCGGGATAGCAGGGCC
CAGTCTCCTGTCTCTGGACCGAATGTGGCCCACTTAACTGATGGAGCTACACTGAACGAC
CGATCAGCTACTAGTGTTTCACTTGACAAAATTCTTACCAAAGAGCAAGAGTCCCTTATT
AAGTTGGAATATCAGTTTGTGAGTTCAGAGTGCCCATCGATGAATTTAGACAGTACTCTT
CAGGTGATTTCCCTACAGGTGAATAATTTAGATATTATCCTCAATCCAGAGACGATTGTG
GAGCTAATTGGTTTTCTTCAAAAATCCTTTCCCAAGGAAAAAGATGATTTAAGTCCTCAA
CCTTTAATGACTGATTTTGAAAGAAGCTTCAGAGAACAAGGAACTTACCAGTCTACATAT
GAACAAAACACTGAGGTTGCAGTGGAAATCCATAGGCTGAACTTACTGCTTCTTCGGACA
GTGGGCATGGCAAATAGAGAGAAATATGGCAGAAAAATTGCAACTGCAAGTATAGGTGGC
ACCAAAGTTAATGTCTCAATGGGTAGCACGTTTGACATGAATGGTTCTCTTGGCTGTTTA
CAGCTTATGGATTTGACACAAGATAACGTTAAAAACCAGTATGTTGTCAGCATTGGGAAT
TCTGTAGGCTATGAAAATATCATCAGTGATATTGGCTACTTTGAATCTGTGTTTGTCAGA
ATGGAAGATGCAGCCCTCACTGAAGCTTTGAGTTTCACGTTTGTTGAGAGATCTAAACAG
GAGTGTTTTCTCAACCTGAAGATGGCTTCTTTACATTATAACCACTCTGCTAAGTTTTTG
AAGGAGTTGACGTTATCCATGGATGAACTGGAAGAAAATTTTCGAGGTATGCTGAAAAGC
GCAGCCACCAAAGTCACCACAGTACTAGCTACCAAGACTGCCGAGTATAGCGAGATGGTA
TCGCTCTTTGAAACTCCAAGGAAGACTCGGGAACCCTTTATCTTAGAGGAAAATGAAATA
TATGGGTTTGACCTAGCTTCGTCTCATTTGGACACTGTAAAGCTAATCTTGAACATAAAC
ATTGAATCACCAGTTGTTTCTATCCCTCGGAAGCCGGGGAGTCCTGAGTTGTTGGTGGGA
CACTTGGGACAGATATTCATCCAGAATTTTGTGGCGGGAGATGATGAATCCAGAAGTGAC
CGTCTGCAGGTGGAAATCAAGGACATTAAACTGTATTCTTTGAATTGCACCCAGTTGGCA
GGTAGAGAAGCTGTTGGGTCTGAAGGAAGCCGGATGTTTTGCCCACCTTCCGGGTCTGGC
AGTGCCAACAGTCAGGAGGAAGCTCATTTCACACGACATGATTTCTTTGAATCTTTGCAT
AGAGGTCAAGCTTTTCACATCCTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATC
CCTATAGAGAGAGAATCTGAATTGACTTTTTCTCTTAGCCCAGATGACCTGGGAACTTCT
AGCATCATGAAGATTGAAGGAAAATTTGTCAATCCAGTTCAGGTGGTGTTAGCAAAGCAT
GTATATGAGCAGGTTTTACAAACCCTGGACAATCTCGTGTACAGTGAAGATCTGAATAAG
TATCCAGCCAGTGCTACCTCCTCCCCTTGCCCTGATTCTCCTCTGCCTCCCCTCAGTACC
TGTGGAGAATCTTCTGTTGAAAGGAAGGAGAATGGATTGTTCAGCCACTCCAGCCTTTCT
AACACCTCTCAGAAGTCATTGTCAGTGAAGGAAGTCAAATCCTTTACTCAGATTCAAGCC
ACCTTTTGTATATCAGAGCTTCAGGTTCAGCTAAGTGGAGATCTGACTTTGGGGGCCCAA
GGTCTTGTGAGCTTAAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAAGACCATCCCCAG
ACTTTATCTATTCAGATTGCCCTGCATTCTCTGCTGATGGAGGACTTATTGGAGAAGAAT
CCAGATTCTAAATATAAGAACCTGATGGTGTCTCGAGGAGCCCCTAAGCCATCTAGTTTA
GCACAAAAAGAATACCTTTCTCAGTCTTGCCCCTCAGTGTCCAATGTGGAATATCCTGAT
ATGCCTCGGTCTCTCCCTTCCCACATGGAAGAAGCTCCTAATGTCTTCCAGTTGTATCAA
AGGCCCACCTCTGCGTCCCGGAAAAAGCAAAAGGAAGTCCAAGACAAGGACTATCCCTTG
ACCCCACCTCCTTCTCCAACAGTGGATGAGCCCAAGATACTTGTTGGAAAGAGTAAATTT
GATGATTCCTTAGTCCACATCAACATATTCTTGGTAGATAAGAAACATCCAGAATTCTCT
TCCAGTTACAATCGAGTTAACCGGAGCATTGATGTTGATTTTAATTGCTTGGATGTGCTG
ATCACACTGCAAACCTGGGTTGTGATATTAGACTTTTTTGGAATCGGCTCCACTGCAGAC
AACCACGCAATGAGGCTGCCTCCTGAGGGCATTCTGCACAACGTGAAGTTGGAGCCACAT
GCCTCCATGGAGTCTGGACTTCAGGATCCAGTGAACACCAAACTGGATCTCAAGGTTCAT
TCACTTTCTCTAGTGCTGAATAAGACCACCAGTGAGCTTGCCAAAGCAAATGTGTCCAAA
TTAGTAGCACACCTGGAAATGATTGAGGGAGACCTGGCCTTACAGGGCAGCATTGGGAGT
CTGTCTCTAAGTGACCTCACATGCCATGGAGAGTTCTACAGAGAACGGTTCACTACCAGT
GGTGAAGAAGCACTCATCTTCCAGACTTTTAAATACGGACGGCCTGACCCTCTGCTCCGG
AGAGAACACGACATTCGCGTGAGCCTCCGGATGGCCTCTGTGCAGTATGTGCATACTCAG
CGTTTCCAGGCAGAGGTGGTGGCCTTCATTCAGCATTTCACTCAGCTGCAGGATGTCTTA
GGGCGCCAGCGAGCTGCTATTGAGGGGCAGACGGTGAGAGATCAAGCCCAGCGCTGTTCA
CGGGTTCTCCTGGATATTGAGGCTGGTGCTCCCGTTCTCTTGATCCCAGAAAGTTCCAGA
TCAAATAATCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAAAATAAGTTTCTGTTT
GCTGGTTTTCCTGGCACCTTTTCCCTACAAGATAAGGAATCTGTGCCTTCAGCTTCCCCA
ACGGGTATTCCCAAACACAGTCTGAGGAAAACGACAAGCACGGAGGAGCCCAGGGGAACC
CATTCCCAGGGGCAGTTCACGATGCCTCTTGCTGGAATGAGCCTAGGAAGCCTGAAGAGT
GAGTTTGTGCCCAGTACCTCCACCAAGCAGCAAGGGCCGCAACCCACACTGTCTGTTGGC
CAAGAGTCCAGTAGTCCAGAAGACCATGTCTGCCTGCTGGATTGCGTTGTCGTGGATCTC
CAGGACATGGACATCTTTGCTGCAGAGAGACATCCGAGAGAATACTCGAAGGCACCAGAG
GATAGTAGTGGAGATCTGATCTTCCCTTCCTATTTTGTGCGACAGACAGGAGGAAGCCTC
TTAACCGAGCCTTGTAGGCTGAAATTGCAGGTGGAAAGGAATTTGGACAAAGAAATAAGT
CATACTGTGCCAGACATATCTATCCATGGCAATCTCTCCTCAGTCCACTGCTCTCTGGAT
CTGTATAAATACAAGCTGATCCGCGGCTTATTAGAGAACAACCTGGGAGAACCCATAGAG
GAATTTATGCGGCCTTATGATTTACAAGATCCAAGAATTCATACTGTCCTGAGTGGAGAA
GTGTACACCTGTATGTGCTTCCTCATTGATATGGTGAATGTAAGTCTGGAGCTTAAAGAT
CCAAAAAGAAAAGAAGGTGCTGGGTCCCTAGCCAGATTTGACTTCAAGAAATGCAAACTG
CTCTATGAAAGTTTTTCCAACCAAACCAAGTCCATTAACTTGGTTTCCCATTCCATGATG
GCTTTTGACACCCGTTATGCTGGGCAGAAGACCAGCCCTGGCATGACGAATGTGTTCAGC
TGTATCTTTCAGCCCGCTAAGAACAGCAGCACCACCCAAGGGTCCATTCAGATTGAACTA
CATTTCAGATCTACCAAGGATTCCTCCTGCTTTACAGTAGTTCTCAACAATCTCCGTGTG
TTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACTCCCAGTGATATT
AAGAAACAAAATCATGTTACTCCTTCTCGCCACCGTAACTCTAGCAGCGAATCTGCTATA
GTTCCCAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCCCTTCCTGTGTCCAAT
GAAAGGCACCTGGAGGTCAAGGTCAATGTAACAGGTACGGAGTTTGTGGTCATTGAAGAT
GTGTCCTGCTTCGACACCAATGCCATTATTCTGAAAGGCACCACAGTGCTCACCTATAAG
CCCCGGTTTGTTGATCGCCCCTTTTCAGGAAGTTTGTTTGGCATTGAGGTGTTTTCATGC
CGACTAGGGAATGAGCATGATACAGCTCTTTCAATTGTGGATCCCGTACAAATTCAAATG
GAGTTGGTGGGGAATTCTTCTTATCAAAATAGTTCAGGATTGATGGATGCATTCAATAGT
GAAGATTTCCCACCTGTCCTGGAGATTCAGTTACAAGCCCTGGATATCAGACTCTCCTAT
AATGATGTTCAGCTGTTTCTTGCCATTGCAAAATCCATCCCAGAGCAAGCTAATGCTGCA
GTGCCAGACTCAGTGGCCCTGGAGTCAGACTCCGTTGGCACTTACCTTCCAGGTGCATCT
CGCGTTGGAGAGGAAATCAGAGAAGGGACAAGACACACCTTAGATCCTGTCTTGGAGTTA
CAGCTGGCTAGGCTGCAGGAGCTGGGATTCAGCATGGATGATTGTCGCAAAGCTCTTTTG
GCGTGTCAAGGCCAATTGAAAAAGGCAGCAAGTTGGTTGTTTAAGAATGCGGAACCTCTG
AAGTCTCTTTCCTTGGCCTCCACCAGCCGAGATAGCCCAGGGGCTGTGGCAGCGCCATTG
ATCTCTGGCGTGGAGATCAAAGCTGAGAGTGTGTGCATCTGTTTCATCGATGACTGCATG
GATTGTGATGTTCCTCTCGCTGAACTCACCTTTTCCCGTCTGAATTTTCTTCAGCGTGTA
AGAACTAGCCCTGAAGGCTATGCCCACTTCACCCTTTCTGGAGATTATTATAACCGTGCT
CTTTCAGGCTGGGAGCCATTTATTGAGCCTTGGCCATGCTCTGTATCCTGGCAACAGCAG
GCAGCTAGTCGTCTCCATCCTCCTCGACTGAAGCTAGAAGCCAAGGCCAAACCTCGTTTG
GATATCAATATCACTTCTGTGCTAATTGACCAGTATGTAAGTACCAAGGAATCGTGGATG
GCAGATTACTGTAAAGATGACAAGGACATAGAGTCAGCTAAATCAGAAGACTGGATGGGC
TCTTCGGTGGATCCTCCATGTTTTGGACAAACAGAGGTGAAAACCCCCAAGCGCCGGCAG
CCCTTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTG
ACCACCACACCCACCAGAGCTGCACTCTCTCACAGTGGGAGTCCAGGGGTAGTTCCAGAA
GGGAACGGAACATTTCTCGATGATACTCACAATGTTAGTGAATGGCGAGAAGTCCTTACA
GGTGAAGAGATTCCCTTTGAATTTGAAGCAAGAGGAAAGTTAAGACACAGACACACCCAT
GACCTCCGGATTCATCAACTGCAAGTGAGAGTAAATGGCTGGGAGCAAGTGAGCCCAGTG
TCTGTGGACAAAGTCGGGACCTTTTTTCGATATGCAGCACCAGATAAAAATTCATCTTCC
TCTACGATTGGCAGCCCAAGCAGCAGAACAAATATTATACATCCCCAGGTTTATTTCTCT
TCACTCCCACCAGTGCGGGTGGTCTTTGCAGTGACTATGGAAGGCAGTGCACGGAAAGTC
ATCACTGTCCGGTCAGCCCTCATTGTGAGGAACAGACTTGAGACACCAATGGAACTAAGA
CTGGATAGCCCATCAGCTCCAGACAAGCCAGTGGTGCTTCCTGCTATCATGCCAGGGGAT
TCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGGCTACAGGCCCGGCCCAAAGGATTG
GGTGTATTTTTCTGTAAGGCTCCCATTCATTGGACCAATGTAGTGAAGACTGCAGAAATT
AGTAGCAGTAAACGAGAGTGCCACTCTATGGACACAGAAAAAAGCCGATTTTTCAGGTTT
TGTGTGGCTATAAAGAAAGAGAATTATCCAGATTATATGCCCTCAAACATATTTTCTGAC
AGTGCAAAACAGATTTTCAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTA
ATCTGCAACTTGCTACCCTGTGAACTTGATTTTTATGTTAAAGGAATGCCAATTAATGGG
ACGCTGAAACCTGGCAAGGAGGCAGCTCTCCATACAGCTGATACATCCCAGAACATTGAG
CTGGGGGTATCACTGGAGAATTTCCCCCTCTGTAAAGAATTGCTCATTCCACCTGGAACC
CAAAACTATATGGTGAGAATGCGACTCTATGACGTCAACCGTCGGCAGCTGAACCTCACC
ATCCGGATTGTGTGTCGAGCAGAAGGATCCTTAAAGATCTTCATTTCTGCTCCATATTGG
CTGATTAACAAAACAGGGTTGCCACTGATCTTCAGACAGGACAATGCCAAGACAGATGCT
GCAGGCCAGTTTGAGGAGCATGAGCTGGCCCGTAGCCTGAGTCCTCTCTTATTCTGCTAT
GCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAATCGGAAGGGGGATTCATCCAGAA
GGCATGCCGGGCTGGTGTCAGGGCTTCTCCCTGGATGGTGGTAGTGGTGTCCGAGCTTTG
AAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAG
AAAGGCCGAGGTCGATACATTGATACCTGCATGGTCATCTTTGCCCCCCGTTACCTGTTA
GATAATAAATCATCTCACAAGCTTGCATTTGCACAGAGGGAATTTGCCAGGGGACAGGGA
ACAGCCAATCCCGAAGGTTACATTTCCACCCTTCCTGGTTCCAGTGTGGTGTTCCACTGG
CCTCGGAATGACTATGATCAGCTATTGTGTGTCAGACTGATGGACGTTCCCAATTGTATT
TGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAACATGAGGGATACC
TTGGGAAAATGCTTCTTCCTACGAGTGGAAATTACTCTCCGAGGAGCTACGTATAGGATC
TCATTTAGTGACACAGATCAGTTACCTCCTCCTTTCCGAATTGACAACTTTTCTAAGGTC
CCGGTTGTCTTTACTCAGCATGGCGTAGCTGAACCCAGGCTCCGGACTGAAGTGAAGCCC
ATGACTTCATTGGATTATGCCTGGGACGAACCCACCTTGCCACCTTTTATCACTCTGACT
GTTAAAGGGGCAGGGTCCTCTGAGATCAACTGCAACATGAATGATTTCCAGGATAATCGG
CAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGCTTGCAG
GAGGGAACAGGCAGGCCTGTGGCTTCCAACAAGGCCATTACCTGTGCGGAGCTCGTTTTG
GATGTCTCACCCAAGACACAAAGAGTCATTTTAAAAAAGAAGGAACCAGGAAAGCGTTCT
CAGCTGTGGAGGATGACAGGAACAGGAATGCTGGCCCATGAGGGCTCCTCAGTTCCTCAC
AATCCCAATAAGCCCTCAGCCGCCCGCTCCACCGAGGGGTCTGCCATCTTAGATATTGCT
GGTCTCGCTGCAGTGACTGACAACAGATACGAGCCACTGATGCTGAGAAAGCCTGACCGC
AGGCGAAGCACAACTCAGACGTGGAGTTTCCGAGAAGGAAAACTGACCTGTGGGTTACAT
GGGTTGGTCGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTT
CTTGGTCCTGACACTTCCATGGAGCTTTTGGGGCCAGTTCCACCTGAACAACAATTTATT
AATCAAAAAATGAGACCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCA
ACTAGAGCACTCCAGATAACAGATTTCTGCCACCGGAAAAGCAGCCGTTCATATGAAGTG
GATGAACTTCCTGTCACCGAACAAGAGCTGCAGAAATTAAAGAATCCAGATACAGAGCAG
GAATTGGAAGTGCTTGTGAGGTTAGAAGGTGGAATTGGGTTGTCCTTAATTAATAAAGTC
CCAGAAGAACTGGTCTTTGCAAGTCTTACAGGAATCAATGTGCACTATACACAGCTGGCA
ACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATTGGT
ACCACGCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAATGAGGTCATCGAG
ACCGGCCCAGCTGTGCAAGTCAACGCAGTGAAGTTCCCCAGTAAGAGTGCACTGACCAAC
ATCTACAAGCATCTGATGATCACAGCTCAGAGATTCACAGTGCAAATTGAGGAGAAACTG
CTCCTCAAGCTGCTAAGTTTCTTTGGCTACGATCAAGCAGAATCAGAGGTGGAAAAATAT
GATGAAAACCTCCATGAAAAGACAGCTGAGCAAGGTGGAACACCAATTCGATACTACTTT
GAAAATCTCAAAATCAGCATTCCTCAGATCAAGCTAAGTGTGTTCACCTCCAACAAGCTC
CCATTGGATCTTAAGGCCCTAAAAAGCACCTTGGGGTTTCCTTTGATACGGTTTGAAGAC
GCTGTGATTAATCTAGATCCATTCACTCGGGTACATCCCTATGAGACCAAGGAGTTCATC
ATCAATGATATCCTCAAACATTTCCAGGAGGAACTCCTCAGCCAGGCAGCTCGAATCCTG
GGATCAGTGGATTTTCTTGGCAATCCTATGGGGCTTTTGAATGATGTTTCTGAAGGGGTT
ACTGGACTGATAAAATATGGAAATGTCGGGGGCCTCATCAGAAATGTTACACACGGAGTA
TCAAACTCTGCTGCCAAGTTTGCTGGAACATTATCAGATGGCTTAGGGAAGACGATGGAC
AATCGGCATCAGTCAGAGCGGGAGTACATCAGGTACCATGCAGCCACAAGTGGTGAACAC
CTTGTAGCCGGCATCCATGGCCTGGCTCATGGTATCATTGGTGGACTGACCAGTGTTATA
ACTTCGACAGTGGAAGGTGTGAAAACAGAAGGGGGTGTCAGCGGTTTCATATCTGGCCTT
GGAAAAGGGCTTGTTGGCACTGTAACCAAGCCAGTGGCAGGCGCCCTGGATTTTGCATCA
GAAACAGCCCAGGCGGTGAGAGACACAGCCACACTCAGCGGCCCCAGGACTCAAGCACAG
AGGGTTCGGAAACCGCGTTGCTGCACGGGGCCCCAGGGGCTGCTTCCCCGATATTCTGAG
AGCCAGGCGGAAGGACAGGAGCAGCTCTTCAAACTCACAGACAACATACAGGACGAATTC
TTCATCGCTGTGGAGAACATTGACAGCTACTGCGTGCTCATCTCCTCCAAAGCTGTTTAC
TTCCTGAAAAGTGGAGACTACGTGGATCGAGAAGCCATTTTCCTAGAAGTCAAATACGAT
GACCTCTACCACTGCCTTGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAG
AAAGCCGTGAGCACGAGCAGTGGAGTGTCCATCCCCGGCCCCTCCCACCAGAAGCCCATG
GTCCATGTGAAATCTGAGGTCCTTGCTGTCAAGTTGTCACAAGAAATAAACTACGCAAAG
AGCCTCTACTATGAACAGCAGCTTATGTTAAGACTCAGCGAAAACCGAGAGCAGCTGGAG
CTGGACTCCTGA
Restriction Sites Please inquire     
ACCN NM_018156
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_018156.2, NP_060626.2
RefSeq Size 16266 bp
RefSeq ORF 13092 bp
Locus ID 55187
UniProt ID Q5THJ4
Gene Summary This gene encodes a protein belonging to the vacuolar-protein-sorting-13 gene family. In yeast, vacuolar-protein-sorting-13 proteins are involved in trafficking of membrane proteins between the trans-Golgi network and the prevacuolar compartment. While several transcript variants may exist for this gene, the full-length natures of only two have been described to date. These two represent the major variants of this gene and encode distinct isoforms. [provided by RefSeq, Jul 2008]
Transcript Variant: This variant (2) lacks an alternate in-frame exon, compared to variant 1, resulting in a shorter protein (isoform 2), compared to isoform 1.
*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
RC224473 VPS13D (Myc-DDK-tagged)-Human vacuolar protein sorting 13 homolog D (S. cerevisiae) (VPS13D), transcript variant 2
    • 10 ug

CNY 62,130.00

RC224473L1 Lenti ORF clone of Human vacuolar protein sorting 13 homolog D (S. cerevisiae) (VPS13D), transcript variant 2, Myc-DDK-tagged
    • 10 ug

CNY 64,030.00

RG224473 VPS13D (tGFP-tagged) - Human vacuolar protein sorting 13 homolog D (S. cerevisiae) (VPS13D), transcript variant 2
    • 10 ug

CNY 68,310.00

其它VPS13D产品

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

TF81001

TurboFectin Transfection Reagent (1 mL in 1 vial)

    • 1 ml in 1 vial

CNY 4,090.00

RG224473

VPS13D (tGFP-tagged) - Human vacuolar protein sorting 13 homolog D (S. cerevisiae) (VPS13D), transcript variant 2

    • 10 ug

CNY 68,310.00

RC224473L1

Lenti ORF clone of Human vacuolar protein sorting 13 homolog D (S. cerevisiae) (VPS13D), transcript variant 2, Myc-DDK-tagged

    • 10 ug

CNY 64,030.00

RC224473L1V

Lenti ORF particles, VPS13D (Myc-DDK tagged) - Human vacuolar protein sorting 13 homolog D (S. cerevisiae) (VPS13D), transcript variant 2, 200ul, >10^7 TU/mL

    • 200 ul

CNY 21,660.00 暂停销售

RC224473

VPS13D (Myc-DDK-tagged)-Human vacuolar protein sorting 13 homolog D (S. cerevisiae) (VPS13D), transcript variant 2

    • 10 ug

CNY 62,130.00

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