Giantin (GOLGB1) (NM_001256487) Human Untagged Clone

CAT#: SC332396

GOLGB1 (untagged) - Homo sapiens golgin B1 (GOLGB1), transcript variant 3



  "NM_001256487" in other vectors (2)

CNY 41,420.00


货期*
14周

规格
    • 10 ug

Product images

经常一起买 (4)
GOLGB1 Rabbit polyclonal Antibody
    • 100 ul

CNY 1,999.00
CNY 3,280.00


TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Synonyms GCP; GCP372; GOLIM1
Vector pCMV6-Entry
Sequence Data
>SC332396 representing NM_001256487.
Blue=Insert sequence Red=Cloning site Green=Tag(s)

ATGGAATTTAATAATACTACACAAGAAGATGTTCAGGAGCGCCTGGCTTATGCAGAGCAATTGGTGGTG
GAGCTAAAAGATATTATTAGACAGAAGGATGTTCAACTGCAGCAGAAAGATGAAGCTCTACAGGAAGAG
AGAAAAGCTGCTGATAACAAAATTAAAAAACTAAAACTTCATGCGAAGGCCAAATTAACTTCTTTGAAT
AAATACATAGAAGAAATGAAAGCACAAGGAGGGACTGTTCTGCCTACAGAACCTCAGTCAGAGGAGCAA
CTTTCCAAGCATGACAAGAGTTCTACAGAGGAAGAGATGGAAATAGAAAAGATAAAACATAAGCTCCAG
GAGAAGGAGGAACTAATCAGCACTTTGCAAGCCCAGCTTACTCAGGCACAGGCAGAACAACCTGCACAG
AGTTCTACAGAGATGGAAGAATTTGTAATGATGAAGCAACAGCTCCAGGAGAAGGAAGAATTCATTAGC
ACTTTACAAGCCCAGCTCAGCCAGACACAGGCAGAGCAAGCTGCACAGTTGAGTTCCATGCAGCAGGTG
GTCCGAGAGAAAGATGCCCGCTTTGAAACACAAGTTCGTCTTCATGAAGATGAGCTTCTTCAGTTAGTA
ACCCAGGCAGATGTGGAAACAGAGATGCAACAGAAATTGAGGGTGCTGCAAAGGAAGCTTGAGGAACAC
GAAGAATCCTTGGTGGGCCGTGCTCAGGTCGTTGACTTGCTGCAACAGGAGCTGACTGCTGCTGAGCAG
AGAAACCAGATTCTCTCTCAGCAGTTACAGCAGATGGAAGCTGAGCATAATACTTTGAGGAACACTGTG
GAAACAGAAAGAGAGGAGTCCAAGATTCTACTGGAAAAGATGGAACTTGAAGTGGCAGAGAGAAAATTA
TCCTTCCATAATCTGCAGGAAGAAATGCATCATCTTTTAGAACAGTTTGAGCAAGCAGGCCAAGCCCAG
GCTGAACTAGAGTCTCGGTATAGTGCTTTGGAGCAGAAGCACAAAGCAGAAATGGAAGAGAAGACCTCT
CATATTTTGAGTCTTCAAAAGACTGGACAAGAGCTGCAGTCTGCCTGTGATGCTCTAAAGGATCAAAAT
TCAAAGCTTCTCCAAGATAAGAATGAGCAAGCAGTTCAGTCAGCCCAGACCATTCAGCAACTGGAAGAT
CAGCTCCAGCAAAAATCCAAAGAAATTAGCCAATTTCTAAATAGACTGCCCTTGCAACAACATGAAACA
GCATCTCAGACTTCTTTCCCAGATGTTTATAATGAGGGCACACAGGCAGTCACTGAGGAGAATATTGCT
TCTTTGCAGAAGAGAGTGGTAGAACTAGAGAATGAAAAGGGAGCCTTGCTCCTTAGTTCTATAGAGCTG
GAGGAGCTGAAAGCTGAGAATGAAAAACTGTCTTCTCAGATTACTCTCCTAGAGGCTCAGAATAGAACT
GGGGAGGCAGACAGAGAAGTCAGTGAGATCAGCATTGTTGATATTGCCAACAAGAGGAGCTCTTCTGCT
GAGGAAAGTGGACAAGATGTTCTAGAAAACACATTTTCTCAGAAACATAAAGAATTATCAGTTTTATTG
TTGGAAATGAAAGAAGCTCAAGAGGAAATTGCATTTCTTAAATTACAGCTCCAGGGAAAAAGGGCTGAG
GAAGCAGATCATGAGGTCCTTGACCAGAAAGAAATGAAACAGATGGAGGGTGAGGGAATAGCTCCAATT
AAAATGAAAGTATTTCTTGAAGATACAGGGCAAGATTTTCCCTTAATGCCAAATGAAGAGAGCAGTCTT
CCAGCAGTTGAAAAAGAACAGGCGAGCACTGAACATCAAAGTAGAACATCTGAGGAAATATCTTTAAAT
GATGCTGGAGTAGAATTGAAATCAACAAAGCAGGATGGTGATAAATCCCTTTCTGCTGTACCAGATATT
GGTCAGTGTCATCAGGATGAGTTGGAAAGGTTAAAAAGTCAAATTTTGGAGCTCGAGCTAAACTTTCAT
AAAGCACAAGAAATCTATGAGAAAAATTTAGATGAGAAAGCTAAGGAAATTAGCAACCTAAACCAGTTG
ATTGAGGAGTTTAAGAAAAATGCTGACAACAACAGCAGTGCATTCACTGCTTTGTCTGAAGAAAGAGAC
CAGCTTCTCTCTCAGGTGAAGGAACTTAGCATGGTAACAGAATTGAGGGCTCAGGTAAAGCAACTGGAA
ATGAACCTTGCAGAAGCAGAAAGGCAAAGAAGACTTGATTATGAAAGCCAAACTGCCCATGACAACCTG
CTCACTGAACAGATCCATAGTCTCAGCATAGAAGCCAAATCTAAAGATGTGAAAATTGAAGTTTTACAG
AATGAACTGGATGATGTGCAGCTTCAGTTTTCTGAGCAGAGTACCCTGATAAGAAGCCTGCAAAGCCAG
CTGCAAAATAAGGAAAGTGAAGTGCTTGAGGGGGCAGAACGTGTAAGGCATATCTCAAGTAAAGTGGAA
GAACTGTCCCAGGCTCTTTCACAGAAGGAACTTGAAATAACAAAAATGGATCAGCTCTTACTAGAGAAA
AAGAGAGATGTGGAAACCCTCCAACAAACCATCGAGGAGAAGGATCAACAAGTGACAGAAATCAGCTTT
AGTATGACTGAGAAAATGGTTCAGCTTAATGAAGAGAAGTTTTCTCTTGGGGTTGAAATTAAGACTCTT
AAAGAACAGCTAAATTTATTATCCAGAGCTGAGGAAGCAAAAAAAGAGCAGGTGGAAGAAGATAATGAA
GTTTCTTCTGGCCTTAAACAAAATTATGATGAGATGAGCCCAGCAGGACAAATAAGTAAGGAAGAACTT
CAGCATGAATTTGACCTTCTGAAGAAAGAAAATGAGCAGAGAAAGAGAAAGCTCCAGGCAGCTCTTATT
AACAGAAAGGAGCTTCTGCAAAGAGTCAGTAGATTGGAAGAAGAATTAGCCAACTTGAAAGATGAATCT
AAGAAAGAAATCCCACTCAGTGAGACTGAGAGGGGAGAAGTGGAAGAAGATAAAGAAAACAAAGAATAC
TCAGAAAAATGTGTGACTTCTAAGTGCCAAGAAATAGAAATTTATTTAAAACAGACAATATCTGAGAAA
GAAGTGGAACTACAGCATATAAGGAAGGATTTGGAAGAAAAGCTGGCAGCTGAAGAGCAATTCCAGGCT
CTGGTCAAACAGATGAATCAGACCTTGCAAGATAAAACAAACCAAATAGATTTGCTCCAAGCAGAAATC
AGTGAAAACCAAGCAATTATCCAGAAGTTAATCACAAGTAACACGGATGCAAGTGATGGGGACTCCGTA
GCACTTGTAAAGGAAACAGTGGTGATAAGTCCACCTTGTACAGGTAGTAGTGAACACTGGAAACCAGAA
CTAGAAGAAAAGATACTGGCCCTTGAAAAAGAAAAGGAGCAACTTCAAAAGAAGCTACAGGAAGCCTTA
ACCTCCCGCAAGGCAATTCTTAAAAAGGCACAGGAGAAAGAAAGACATCTCAGGGAGGAGCTAAAGCAA
CAGAAAGATGACTATAATCGCTTGCAAGAACAGTTTGATGAGCAAAGCAAGGAAAATGAGAATATTGGA
GACCAGCTAAGGCAACTCCAGATTCAAGTAAGGGAATCCATAGACGGAAAACTCCCAAGCACAGACCAG
CAGGAATCGTGTTCTTCCACTCCAGGTTTAGAAGAACCTTTATTCAAAGCCACAGAACAGCATCACACT
CAACCTGTTTTAGAGTCCAACTTGTGCCCAGACTGGCCTTCTCATTCTGAAGATGCGAGTGCTCTGCAG
GGCGGAACTTCTGTTGCCCAGATTAAGGCCCAGCTGAAGGAAATAGAGGCTGAGAAAGTAGAGTTAGAA
TTGAAAGTTAGTTCTACAACAAGTGAGCTTACTAAAAAATCAGAAGAGGTATTTCAGTTACAAGAGCAG
ATAAATAAACAGGGTTTAGAAATCGAGAGTCTAAAGACAGTATCCCATGAAGCTGAAGTCCATGCCGAA
AGCCTGCAGCAGAAATTGGAAAGCAGCCAACTACAAATTGCTGGCCTAGAACATCTAAGAGAATTGCAA
CCTAAACTGGATGAACTGCAAAAACTCATAAGCAAAAAGGAAGAAGACGTTAGCTACCTTTCTGGACAA
CTTAGTGAGAAAGAAGCAGCTCTCACTAAAATACAGACAGAGATAATAGAACAAGAAGATTTAATTAAG
GCTCTGCATACACAGCTAGAAATGCAAGCCAAAGAGCATGATGAGAGGATAAAGCAGCTACAGGTGGAA
CTTTGTGAAATGAAGCAAAAACCAGAAGAGATTGGAGAAGAAAGTAGAGCAAAGCAACAAATACAAAGG
AAACTGCAAGCTGCCCTTATTTCCCGAAAAGAAGCACTAAAAGAAAACAAAAGTCTCCAAGAGGAATTG
TCTTTGGCCAGAGGTACCATTGAACGTCTCACCAAGTCTCTGGCAGATGTGGAAAGCCAAGTTTCTGCT
CAAAATAAAGAAAAAGATACGGTCTTAGGAAGGTTAGCTCTTCTTCAAGAAGAAAGAGACAAACTCATT
ACAGAAATGGACAGGTCTTTATTGGAAAATCAGAGTCTCAGCAGCTCCTGTGAAAGTCTAAAACTAGCT
CTAGAGGGTCTTACTGAAGACAAGGAAAAGTTAGTGAAGGAAATTGAATCTTTGAAATCTTCTAAGATT
GCAGAAAGTACTGAGTGGCAAGAGAAACACAAGGAGCTACAAAAAGAGTATGAAATTCTTCTGCAGTCC
TATGAGAATGTTAGTAATGAAGCAGAAAGGATTCAGCATGTGGTGGAAGCTGTGAGGCAAGAGAAACAA
GAACTGTATGGCAAGTTAAGAAGCACAGAGGCAAACAAGAAGGAGACAGAAAAGCAGTTGCAGGAAGCT
GAGCAAGAAATGGAGGAAATGAAAGAAAAGATGAGAAAGTTTGCTAAATCTAAACAGCAGAAAATCCTA
GAGCTGGAAGAAGAGAATGACCGGCTTAGGGCAGAGGTGCACCCTGCAGGAGATACAGCTAAAGAGTGT
ATGGAAACACTTCTTTCTTCCAATGCCAGCATGAAGGAAGAACTTGAAAGGGTCAAAATGGAGTATGAA
ACCCTTTCTAAGAAGTTTCAGTCTTTAATGTCTGAGAAAGACTCTCTAAGTGAAGAGGTTCAAGATTTA
AAGCATCAGATAGAAGGTAATGTATCTAAACAAGCTAACCTAGAGGCCACCGAGAAACATGATAACCAA
ACGAATGTCACTGAAGAGGGAACACAGTCTATACCAGGTGAGACTGAAGAGCAAGACTCTCTGAGTATG
AGCACAAGACCTACATGTTCAGAATCGGTTCCATCAGCGAAGAGTGCCAACCCTGCTGTAAGTAAGGAT
TTCAGCTCACATGATGAAATTAATAACTACCTACAGCAGATTGATCAGCTCAAAGAAAGAATTGCTGGA
TTAGAGGAGGAGAAGCAGAAAAACAAGGAATTTAGCCAGACTTTAGAAAATGAGAAAAATACCTTACTG
AGTCAGATATCAACAAAGGATGGTGAACTAAAAATGCTTCAGGAGGAAGTAACCAAAATGAACCTGTTA
AATCAGCAAATCCAAGAAGAACTCTCCAGAGTTACCAAACTAAAGGAGACAGCAGAAGAAGAGAAAGAT
GATTTGGAAGAGAGGCTTATGAATCAATTAGCAGAACTTAATGGAAGCATTGGGAATTACTGTCAGGAT
GTTACAGATGCCCAAATAAAAAATGAGCTATTGGAATCTGAAATGAAGAACCTTAAAAAGTGTGTGAGT
GAATTGGAAGAAGAAAAGCAGCAGTTAGTCAAGGAAAAAACTAAGGTGGAATCAGAAATACGAAAGGAA
TATTTGGAGAAAATACAAGGTGCTCAGAAAGAACCCGGAAATAAAAGCCATGCAAAGGAACTTCAGGAA
CTGTTAAAAGAAAAACAACAAGAAGTAAAGCAGCTACAGAAGGACTGCATCAGGTATCAAGAGAAAATT
AGTGCTCTGGAGAGAACTGTTAAAGCTCTAGAATTTGTTCAAACTGAATCTCAAAAAGATTTGGAAATA
ACCAAAGAAAATCTGGCTCAAGCAGTTGAACACCGCAAAAAGGCACAAGCAGAATTAGCTAGCTTCAAA
GTCCTGCTAGATGACACTCAAAGTGAAGCAGCAAGGGTCCTAGCAGACAATCTCAAGTTGAAAAAGGAA
CTTCAGTCAAATAAAGAATCAGTTAAAAGCCAGATGAAACAAAAGGATGAAGATCTTGAGCGAAGACTG
GAACAGGCAGAAGAGAAGCACCTGAAAGAGAAGAAGAATATGCAAGAGAAACTGGATGCTTTGCGCAGA
GAAAAAGTCCACTTGGAAGAGACAATTGGAGAGATTCAGGTTACTTTGAACAAGAAAGACAAGGAAGTT
CAGCAACTTCAGGAAAACTTGGACAGTACTGTGACCCAGCTTGCAGCCTTTACTAAGAGCATGTCTTCC
CTCCAGGATGATCGTGACAGGGTGATAGATGAAGCTAAGAAATGGGAGAGGAAGTTTAGTGATGCGATT
CAAAGCAAAGAAGAAGAAATTAGACTCAAAGAAGATAATTGCAGTGTTCTAAAGGATCAACTTAGACAG
ATGTCCATCCATATGGAAGAATTAAAGATTAACATTTCCAGGCTTGAACATGACAAGCAGATTTGGGAG
TCCAAGGCCCAGACAGAGGTCCAGCTTCAGCAGAAGGTCTGTGATACTCTACAGGGGGAAAACAAAGAA
CTTTTGTCCCAGCTAGAAGAGACACGCCACCTATACCACAGTTCTCAGAATGAATTAGCTAAGTTGGAA
TCAGAACTTAAGAGTCTCAAAGACCAGTTGACTGATTTAAGTAACTCTTTAGAAAAATGTAAGGAACAA
AAAGGAAACTTGGAAGGGATCATAAGGCAGCAAGAGGCTGATATTCAAAATTCTAAGTTCAGTTATGAA
CAACTGGAGACTGATCTTCAGGCCTCCAGAGAACTGACCAGTAGGCTGCATGAAGAAATAAATATGAAA
GAGCAAAAGATTATAAGCCTGCTTTCTGGCAAGGAAGAGGCAATCCAAGTAGCTATTGCTGAACTGCGT
CAGCAACATGATAAAGAAATTAAAGAGCTGGAAAACCTGCTGTCCCAGGAGGAAGAGGAGAATATTGTT
TTAGAAGAGGAGAACAAAAAGGCTGTTGATAAAACCAATCAGCTTATGGAAACACTGAAAACCATCAAA
AAGGAAAACATTCAGCAAAAGGCACAGTTGGATTCCTTTGTTAAATCCATGTCTTCTCTCCAAAATGAT
CGAGACCGCATAGTGGGTGACTATCAACAGCTGGAAGAGCGACATCTCTCTATAATCTTGGAAAAAGAC
CAACTCATCCAAGAGGCTGCTGCAGAGAATAATAAGCTTAAAGAAGAAATACGAGGCTTGAGAAGTCAT
ATGGATGATCTCAATTCTGAGAATGCCAAGCTAGATGCAGAACTGATCCAATATAGAGAAGACCTGAAC
CAAGTGATAACAATAAAGGACAGCCAACAAAAGCAGCTTCTTGAAGTTCAACTTCAGCAAAATAAGGAG
CTGGAAAATAAATATGCTAAATTAGAAGAAAAGCTGAAGGAATCTGAGGAAGCAAATGAGGATCTGCGG
AGGTCCTTTAATGCCCTACAAGAAGAGAAACAAGATTTATCTAAAGAGATTGAGAGTTTGAAAGTATCT
ATATCCCAGCTAACAAGACAAGTAACAGCCTTGCAAGAAGAAGGTACTTTAGGACTCTATCATGCCCAG
TTAAAAGTAAAAGAAGAAGAGGTACACAGGTTAAGTGCTTTGTTTTCCTCCTCTCAAAAGAGAATTGCA
GAACTGGAAGAAGAATTGGTTTGTGTTCAAAAGGAAGCTGCCAAGAAGGTAGGTGAAATTGAAGATAAA
CTGAAGAAAGAATTAAAGCATCTTCATCATGATGCAGGGATAATGAGAAATGAAACTGAAACAGCAGAA
GAGAGAGTGGCAGAGCTAGCAAGAGATTTGGTGGAGATGGAACAGAAATTACTCATGGTCACCAAAGAA
AATAAAGGTCTCACAGCACAAATTCAGTCTTTTGGAAGGTCTATGAGTTCCTTGCAAAATAGTAGAGAT
CATGCCAATGAGGAACTTGATGAACTGAAAAGGAAATATGATGCCAGTCTGAAGGAATTGGCACAGTTG
AAAGAACAGGGACTCTTAAACAGAGAGAGAGATGCTCTTCTTTCTGAAACCGCCTTTTCAATGAACTCC
ACTGAGGAGAATAGCTTGTCTCACCTTGAGAAACTTAACCAACAGCTCCTATCCAAAGATGAGCAATTG
CTTCACTTGTCCTCACAACTAGAAGATTCTTATAACCAAGTGCAGTCCTTTTCCAAGGCTATGGCCAGT
CTGCAGAATGAGAGAGATCACCTGTGGAATGAGCTGGAGAAATTTCGAAAGTCAGAGGAAGGGAAGCAG
AGGTCTGCAGCTCAGCCTTCCACCAGCCCAGCTGAAGTACAGAGTTTAAAAAAAGCTATGTCTTCACTC
CAAAATGACAGAGACAGACTACTGAAGGAATTGAAGAATCTGCAGCAGCAATACTTACAGATTAATCAA
GAGATCACTGAGTTACATCCACTGAAGGCTCAACTTCAGGAGTATCAAGATAAGACAAAAGCATTTCAG
ATTATGCAAGAAGAGCTCAGGCAGGAAAACCTCTCCTGGCAGCATGAGCTGCATCAGCTCAGGATGGAG
AAGAGTTCCTGGGAAATACATGAGAGGAGAATGAAGGAACAGTACCTTATGGCTATCTCAGATAAAGAT
CAGCAGCTCAGTCATCTGCAGAATCTTATAAGGGAATTGAGGTCTTCTTCCTCCCAGACTCAGCCTCTC
AAAGTGCAATACCAAAGACAGGCATCCCCAGAGACATCAGCTTCCCCAGATGGGTCACAAAATCTGGTT
TATGAGACAGAACTTCTCAGGACCCAGCTCAATGACAGCTTAAAGGAAATTCACCAAAAGGAGTTAAGA
ATTCAGCAACTGAACAGCAACTTCTCTCAGCTACTGGAAGAGAAAAACACCCTTTCCATTCAGCTCTGC
GATACCAGTCAGAGTCTTCGTGAGAACCAGCAGCACTATGGTGACCTTTTAAATCACTGTGCAGTCTTG
GAGAAGCAGGTTCAAGAGCTGCAGGCGGGGCCACTAAATATAGATGTTGCTCCAGGAGCTCCCCAGGAA
AAGAATGGAGTTCACAGAAAGAGTGACCCTGAGGAACTAAGGGAACCGCAGCAAAGCTTTTCTGAAGCT
CAGCAGCAGCTATGCAACACCAGACAGGAAGTGAATGAATTAAGGAAGCTGCTGGAAGAAGAACGAGAC
CAAAGAGTGGCTGCTGAGAATGCTCTCTCTGTGGCCGAGGAGCAGATCAGACGGTTAGAGCACAGTGAA
TGGGACTCTTCCCGGACTCCTATCATTGGCTCCTGTGGCACTCAGGAGCAGGCACTGTTAATAGATCTT
ACAAGCAACAGTTGTCGAAGGACCCGGAGTGGCGTTGGATGGAAGCGAGTCCTGCGTTCACTCTGTCAT
TCACGGACCCGAGTGCCACTTCTAGCAGCCATCTACTTTCTAATGATTCATGTCCTGCTCATTCTGTGT
TTTACGGGCCATCTATAG

Restriction Sites SgfI-MluI     
ACCN NM_001256487
Insert Size 9678 bp
OTI Disclaimer 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).
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_001256487.1
RefSeq Size 11256 bp
RefSeq ORF 9678 bp
Locus ID 2804
UniProt ID Q14789
Protein Families Transcription Factors, Transmembrane
MW 372.3 kDa
Gene Summary May participate in forming intercisternal cross-bridges of the Golgi complex.[UniProtKB/Swiss-Prot Function]
Transcript Variant: This variant (3) uses an alternate splice site at its 5' end and initiates translation at a downstream start codon, compared to variant 1. It also uses an alternate in-frame splice site in the 3' coding region compared to variant 1. The encoded isoform (3) is shorter than 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.

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