MUC3 (MUC3A) (NM_005960) Human Untagged Clone

CAT#: SC338161

MUC3A (untagged) - Human mucin 3A, cell surface associated (MUC3A)

Datasheet
SDS

  "NM_005960" in other vectors (2)

CNY 32020.00

货期*
12周
规格
    • 10 ug

Product images

推荐一起购买 (4)
TA350828
Rabbit Polyclonal Anti-MUC3A Antibody
    • 100 ul

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暂停销售
TF81001
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

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CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
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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 MUC-3A; MUC3
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>NCBI ORF sequence for NM_005960, the custom clone sequence may differ by one or more nucleotides


ATGCAGCTGTTGGGGCTCCTCGGCCTCCTCTGGATGCTCAAGGCCTCCCCGTGGGCCACAGGAACTTTAT
CCACGGCCACATCCATCTCTCAAGTGCCTTTCCCCAGAGCAGAAGCAGCCAGCGCTGTGCTCAGCAATTC
TCCACACTCCAGAGACCTGGCTGGGTGGCCACTTGGTGTCCCCCAGCTCGCCTCTCCTGCTCCTGGCCAC
AGGGAAAATGCACCTATGACACTCACTACCTCCCCCCATGACACACTCATCTCTGAAACATTGCTCAACT
CTCCAGTCAGTTCCAACACCTCAACCACCCCGACGTCCAAGTTTGCCTTCAAGGTTGAAACCACTCCACC
CACCGTGTTGGTCTATTCAGCCACCACTGAGTGCGTGTATCCAACGAGCTTTATAATCACCATCTCCCAC
CCCACCTCCATCTGTGTGACCACGACGCAGGTGGCCTTCACCAGCTCTTACACCTCGACTCCCGTGACAC
AGAAGCCAGTGACCACCGTCACCAGTACTTACTCTATGACCACTACTGAGAAAGGAACGTCAGCCATGAC
ATCTTCTCCCTCTACCACCACTGCAAGGGAAACTCCCATAGTGACAGTGACACCCTCCTCTGTGTCAGCC
ACAGACACAACCTTCCACACTACAATCTCGTCTACAACTAGAACCACAGAAAGGACTCCCCTGCCCACTG
GAAGCATCCATACAACCACGTCCCCAACCCCAGTATTTACTACTCTCAAAACAGCAGTGACTTCCACTTC
CCCCATCACTTCTTCAATCACTTCCACAAATACAGTGACTTCTATGACAACGACCGCCTCCCAGCCCACA
GCCACTAATACATTGTCATCACCCACTAGGACCATTTTATCTTCCACACCTGTCCTGAGCACAGAAACAA
TCACCAGTGGTATCACAAACACCACCCCCCTATCCACCTTGGTGACCACACTCCCCACTACCATCAGCAG
GTCTACACCTACATCTGAGACCACCTACACTACTTCTCCCACCAGCACTGTCACAGACTCCACTACCAAA
ATCGCCTACTCCACAAGTATGACAGGTACATTGTCCACAGAGACTTCTCTCCCACCCACCTCTTCCTCTC
TCCCAACCACAGAAACAGCCACGACTCCTATGACAAACTTGGTAACCACCACCACTGAGATCTCCTCCCA
CAGTACTCCCAGCTTCTCTTCATCAACCATCTACTCCACAGTCAGCACATCCACAACTGCCATCTCCTCA
CTTCCCCCTACCTCAGGTACTATGGTGACTTCCACAACCATGACCCCATCTTCTCTGAGTACAGACATCC
CTTTCACAACACCAACAACTATCACCCACCATTCTGTGGGCTCTACCGGTTTCCTGACTACAGCAACAGA
CCTCACATCAACATTCACGGTTTCCAGTTCCTCAGCAATGTCCACGAGTGTCATTCCATCTTCCCCCAGC
ATTCAGAATACAGAAACCTCATCCCTTGTCAGCATGACCTCTGCCACTACTCCCAATGTGAGACCAACTT
TTGTAAGTACACTCAGCACTCCTACAAGTTCCCTCCTGACGACCTTCCCAGCAACATATTCATTTTCATC
TTCCATGTCTGCCAGCAGTGCTGGGACCACTCACACAGAGAGTATCTCCTCACCTCCAGCCAGCACCAGT
ACACTCCACACAACAGCTGAATCCACCCTGGCACCCACTACCACCACCTCATTCACAACTTCCACAACTA
TGGAACCACCTTCAACCACTGCAGCAACTACAGGAACAGGTCAGACCACCTTCACCAGCTCTACAGCCAC
ATTTCCTGAGACCACCACACCGACTCCTACAACTGACATGTCCACAGAATCTCTCACAACAGCCATGACT
TCTCCTCCCATCACTTCATCAGTCACTTCCACAAATACAGTGACTTCTATGACAACTACGACCTCTCCTC
CCACAACCACCAATTCTTTTACATCACTGACCAGTATGCCTCTGTCTTCTACACCTGTCCCAAGCACAGA
AGTAGTCACCAGTGGCACCATAAACACAATCCCTCCATCTATCTTGGTGACCACACTCCCCACTCCAAAT
GCTTCATCTATGACTACATCTGAGACCACCTATCCTAATTCTCCGACTGGTCCTGGTACAAACTCCACGA
CGGAAATCACCTATCCCACCACTATGACAGAGACATCATCCACTGCCACCTCTCTTCCACCCACCTCTCC
CTTGGTCTCAACTGCAAAAACAGCCAAAACTCCTACCACAAACTTGGTAACCACCACCACCAAGACCACC
TCACATAGTACCACCAGCTTCACTTCTTCAACCGTCTACTCCACAGCCAGCACATACACAACTGCCATCA
CCTCAGTTCCCACTACGTTGGGTACCATGGTAACTTCTACATCCATGATCTCATCTACTGTGAGTACAGG
TATCCCTACCTCACAACCAACAACCATCACTCCCTCATCCGTGGGCATCAGTGGTTCATTACCTATGATG
ACAGACCTCACCTCAGTGTACACAGTCTCTAACATGTCTGCAAGGCCAACAACTGTCATTCCCTCATCTC
CCACTGTCCAGAATACAGAAATCTCAATCTCTGTTAGCATGACGTCTGCTACCACTCCCAGTGGAGGACC
AACTTTCACAAGTACTGAGAACACTCCAACAAGGTCCCTCCTGACAAGCTTTCCAATGACACATTCATTC
TCTTCTTCTATGTCTGAAAGTAGTGCTGGGACCACTCACACAGAGAGTATCTCCTCACCTCGAGGCACCA
CCAGTACACTCCACACAACAGTTGAATCCACCCCATCACCCACTACCACCACCTCATTTACCACATCCAC
AATGATGGAACCACCTTCATCCACTGTATCAACTACAGGCAGAGGTCAGACCACCTTTCCCAGCTCTACA
GCCACATTCCCTGAGACCACTACACTGACTCCTACAACTGACATTTCTACAGTATCTCTCACAACAGCCA
TGACTTCTCCTCCCCCCGTCAGTTCTTCAATCACTCCCACCAATACAATGACTTCTATGAGAACTACAAC
CTATTGGCCCACAGCCACTAATACATTATCACCACTCACCAGTAGCATTTTATCTTCTACACCTGTCCCA
AGCACAGAAATGATCACCAGTCATACCACAAACACCACCCCTCTATCCACCTTGGTGACTACACTCCTCA
CTACCATCACCAGATCTACACCTACATCTGAGACCACCTACCCTACTTCTCCCACCAGCATTGTCTCAGA
CTCCACGACTGAAATCACCTATTCCACAAGTATAACAGGTACATTGTCCACTGCCACTACTCTCCCACCC
ACCTCTTCCTCTCTCCCAACCACAGAAACAGCCACGATGACTCCTACCACAACCTTGATAACCACCACCC
CTAATACCACCTCCCTTAGTACCCCCAGCTTCACTTCTTCAACCATCTACTCCACAGTCAGCACATCCAC
AACTGCCATCTCCTCAGCTTCCCCTACCTCAGGTACCATGGTAACTTCCACAACCATGACCCCATCTTCT
CTGAGTACAGACACCCCTTCCACAACACCAACAACTATCACCTACCCTTCTGTGGGCTCTACCGGTTTCC
TGACTACAGCAACAGACCTCACATCAACATTCACTGTTTCCAGTTCCTCAGCAATGTCCACAAGTGTCAT
TCCATCTTCCCCCAGCATCCAGAATACAGAAACCTCATCCCTTGTCAGCATGACCTCTGCCACCACTCCC
AGTTTGAGACCAACTATCACAAGTACTGACAGCACTCTAACAAGTTCCCTCCTGACGACCTTCCCAAGTA
CATATTCATTTTCATCTTCCATGTCTGCCAGCAGTGCAGGGACCACTCACACAGAGACTATTTCCTCACT
TCCAGCCAGCACCAATACAATCCACACAACAGCTGAATCCGCCCTGGCACCCACTACCACCACCTCATTC
ACCACATCCCCAACGATGGAACCACCTTCAACCACTGTAGCGACTACAGGCACAGGTCAGACCACCTTCC
CCAGCTCTACAGCCACATTCCTTGAGACCACCACACTGACTCCTACAACTGACTTTTCTACAGAATCTCT
CACAACAGCCATGACTTCTACTCCCCCCATCACTTCTTCAATCACTCCCACCGATACAATGACTTCTATG
AGAACTACGACCTCTTGGCCCACAGCCACTAATACGTTATCACCACTCACCAGTAGCATTTTATCTTCTA
CACCTGTCCCAAGCACAGAGGTGACCACCAGTCATACCACAAACACCAATCCTGTATCCACGTTGGTGAC
TACACTCCCCATTACCATCACCAGGTCTACACTTACATCTGAGACCGCCTACCCTAGTTCTCCCACAAGC
ACTGTCACAGAGTCCACAACTGAAATCACCTATCCCACCACTATGACAGAGACATCATCTACTGCCACCT
CTCTTCCACCCACCTCTTCCTTGGTCTCAACCGCAGAAACAGCCAAAACTCCTACCACAAACTTGGTAAC
CACCACCACCAAGACCACCTCACATAGTACCACCAGCTTCACTTCTTCAACCATCTACTCCACAGCCAGC
ACACCCACCACTGCCATCACCTCAGTTCCCACTACCTTGGGTACCATGGTGACTTCTACATCCATGATCC
CATCTACTGTGAGTACAGGTATCCCTACCTCACAACCAACAACTATTACTCCCTCATCCGTGGGCATCAG
TGGTTCATTACCTATGATGACAGACCTCACCTCAGTGTACACAGTCTCCAGCATGTCTGCAAGGCCAACA
AGTGTCATTCCTTCATCTCCCACTGTCCAGAATACAGAAACCTCAATCTTTGTTAGCATGATGTCTGCTA
CCACTCCCAGTGGAGGACCAACTTTCACAAGTACTGAGAACACTCCAACAAGGTCCCTCCTGACAAGCTT
TCCAGTGACACATTCATTTTCCTCTTCCATGTCTGCCAGCAGTGTAGGGACCACTCACACCCAGAGTATC
TCCTCACCCCCAGCCATCACCAGTACACTCCACACAACAGCTGAATCCACCCCATCACCTACAACCACCA
TGTCATTCACAACATTTACAAAGATGGAAACACCTTCATCCACTGTAGCAACTACAGGCACAGGTCAGAC
TACATTCACCAGTTCAACAGCCACATCCCCTAAGACCACCACACTGACTCCTACCTCTGACATTTCCACA
GGATCTTTCAAAACAGCCGTGAGTTCTACTCCCCCCATCACTTCTTCAATCACCTCCACATATACGGTGA
CTTCGATGACAACTACCACCCCTCTAGGGCCCACAGCCACTAATACGTTACCATCATTTACCAGTAGCGT
TTCATCTTCTACGCCTGTCCCAAGTACAGAAGCGATCACCAGTGGTACCACAAACACCACCCCTCTATCT
ACATTGGTGACCACATTCTCCAATTCCGACACCAGTTCTACACCTACATCTGAGACCACCTACCCTACTT
CTCTTACTAGTGCTCTCACAGATTCCACGACCAGAACCACCTATTCCACCAATATGACAGGTACATTGTC
CACTGTGACCTCTCTTCGACCCACCTCTTCCTCTCTCCTCACCACAGTAACAGCCACAGTTCCAACAACA
AACTTGGTAACCACGACCACCAAGATCACCTCACACAGTACTCCTAGCTTCACTTCTTCAATCGCAACCA
CCGAGACCCCCTCACACAGTACTCCCAGATTCACTTCTTCAATCACCACTACCGAGACCCCCTCACACAG
TACTCCCAGATTCACTTCTTCAATCACCAATACCAAGACCACCTCACACAGCTCTCCCAGCTTCACTTCT
TCGATCACCACCACCGAGACCACATCCCACAATACTCCCAGCCTCACTTCTTCAATCACCACCACCAAGA
CCACCTCACACAGTACTCCCAGCTACACTTCTTTGATCACCACAACCACCACCACCTCACACAGTACTCC
CAGCTTCACTTCTTCCATCACCACCACTGAGACCACATCCCACAATACTCCCAGCTTGACTTCTTCGATC
ACAACCACCGAGACCACATCCCATAGTACTCCCAGCTTCACTTCTTCGATCACCACCGAGACCACATCCC
ACAGTACTCCCAGCTTCACTTCATTGATCACCATCACCGAGATCACCTCACACAGTACTCTCAGCTACAC
TACCTCAATCACCACCACCGAGACCCCCTCACACAGTACTCTCAGCTTCACTTCTTCAATCACCACCACT
GAGACCACCTCACACAGTACTCCCAGCTTCACTTCCTCAATCACCACCTCTGAGATGCCCTCACACAGTA
CTCCCAGCTTCACTTCTTCGATCACCACCACTGAGAACGCCACACACAGTACTCCCAACTTCACTTCTTC
AATCACCACCACCGAGACCACATCCCACAGTACTCCCAGCTTCACTTCTTTGATCACCACCACGGAGACC
ACCTCACACAGGTGGGGGACCACCGAGACCACATCCTACAGTACTCCCAGCTTCACTTCTTCAAATACCA
TCACTGAGACCACCTCACACAGTACTCCCAGCTACATTACCTCAATCACCACCACCGAGACCCCCTCAAG
CAGTACTCCCAGCTTCAGTTCTTCGATCACCACCACTGAGACCACATCCCACAGTACTCCCGGCTTCACT
TCTTCAATCACCACCACTGAGACTACATCCCACAGTACTCCCAGCTTCACTTCTTCGATCACCACCACTG
AGACCACCTCACATGATACTCCCAGCTTCACTTCTTCAATCACCACCAGTGAGACCCCCTCACACAGTAC
TCCCAGCTCCACTTCTTTAATCACCACCACCAAGACCACCTCACACAGTACTCCCAGCTTCACTTCTTCG
ATCACCACCACGGAGACCACCTCACACAGTGCTCACAGCTTCACTTCTTCGATCACCACCACCGAGACCA
CCTCACACAATACTCGCAGCTTCACTTCTTCGATCACCACCACCGAGACCAACTCTCACAGTACTACCAG
CTTCACTTCTTCGATCACCACCACCGAGACCACCTCACACAGTACTCCCAGCTTCAGTTCTTCAATCACC
ACCACTGAGACCCCCTTACACAGTACTCCTGGCCTCACTTCGTGGGTCACCACCACCAAGACCACCTCAC
ACATTACTCCTGGCCTCACTTCTTCAATCACCACCACTGAGACTACCTCACACAGTACTCCTGGCTTCAC
TTCTTCAATCACCACCACTGAGACCACCTCAGAGAGTACTCCCAGCCTCAGTTCTTCAACCATCTACTCC
ACAGTCAGCACATCCACAACTGCCATCACCTCACATTTTACTACCTCAGAGACTGCGGTGACTCCCACAC
CTGTAACCCCATCTTCTCTGAGTACAGACATCCCGACCACAAGCCTACGAACTCTCACCCCTTCGTCTGT
GGGCACCAGCACTTCATTGACTACAACCACAGACTTTCCCTCTATACCCACTGATATCAGTACCTTACCA
ACTCGAACACACATCATTTCATCTTCTCCCTCCATCCAAAGTACAGAAACCTCATCCCTTGTGGGCACCA
CCTCTCCCACCATGTCCACTGTGAGAATGACCCTCAGAATTACTGAGAACACCCCAATCAGTTCCTTTAG
CACAAGTATTGTTGTTATACCTGAAACCCCAACACAGACCCCTCCTGTACTGACGTCAGCCACTGGGACC
CAAACATCTCCTGCACCTACTACTGTCACCTTTGGAAGTACGGATTCCTCCACGTCCACTCTTCATACTC
TTACTCCATCAACAGCCTTGAGCACGATCGTGTCAACATCACAGGTTCCTATTCCTAGCACACATTCCTC
CACCCTTCAAACAACTCCTTCTACTCCCTCATTGCAAACTTCACTCACATCTACAAGTGAGTTCACTACA
GAATCTTTCACTAGGGGAAGTACGTCTACAAATGCAATCTTGACTTCTTTTAGTACCATCATCTGGTCCT
CAACACCCACTATTATCATGTCCTCTTCTCCATCTTCTGCCAGCATAACTCCAGTGTTTTCCACTACCAT
TCATTCTGTTCCTTCTTCACCATACATTTTCAGTACAGAAAATGTGGGCTCCGCTTCTATCACAGGCTTT
CCTAGTCTCTCTTCCTCTGCAACTACCAGCACTTCTTCAACCAGCTCCTCTCTGACCACAGCTCTCACTG
AAATAACCCCCTTTTCTTATATTTCCCTTCCCTCCACCACACCCTGTCCAGGAACTATAACAATTACCAT
AGTCCCTGCCTCCCCCACTGATCCATGTGTTGAAATGGATCCCAGCACTGAAGCTACTTCTCCTCCCACC
ACCCCATTAACAGTCTTTCCCTTTACTACCGAAATGGTCACCTGTCCTACCTCCATCAGTATCCAAACTA
CTCTTACTACATATATGGACACTTCTTCCATGATGCCAGAAAGTGAGTCCAGCATCTCACCCAATGCTTC
CAGTTCCACTGGCACTGGGACTGTACCCACAAACACAGTTTTCACAAGTACTCGACTGCCCACCAGTGAG
ACCTGGCTGAGCAACAGTTCTGTGATCCCCCTACCTCTTCCTGGCGTCTCTACCATCCCGCTCACCATGA
AACCAAGCAGTAGCCTCCCGACCATCCTGAGGACTTCAAGCAAGTCAACACACCCCTCCCCACCCACCAC
TAGGACTTCAGAGACACCAGTGGCCACTACCCAGACTCCTACCACCCTTACATCACGCAGGACAACTCGC
ATCACTTCTCAGATGACCACACAGTCCACGTTGACCACCACTGCAGGCACCTGTGACAATGGTGGCACCT
GGGAACAGGGCCAGTGTGCTTGCCTTCCGGGGTTTTCTGGGGACCGCTGTCAGCTCCAGACCAGATGCCA
GAATGGGGGTCAGTGGGATGGCCTCAAATGCCAGTGCCCCAGCACCTTCTATGGTTCCAGTTGTGAGTTT
GCTGTGGAACAGGTGGATCTAGATGTAGTGGAGACCGAGGTGGGCATGGAAGTGTCTGTGGATCAGCAGT
TCTCGCCGGACCTCAATGACAACACTTCCCAGGCCTACAGGGATTTCAACAAGACCTTCTGGAATCAGAT
GCAGAAGATTTTTGCAGACATGCAGGGCTTCACCTTCAAGGGTGTGGAGATCCTGTCCCTGAGGAATGGC
AGCATCGTGGTGGACTACCTGGTCCTGCTGGAGATGCCCTTCAGCCCCCAGCTGGAGAGCGAGTATGAGC
AGGTGAAGACCACGCTGAAGGAGGGGCTGCAGAACGCCAGCCAGGATGTGAACAGCTGCCAGGACTCCCA
GACCCTGTGTTTTAAGCCTGACTCCATCAAGGTGAACAACAACAGCAAGACAGAGCTGACCCCGGCAGCC
ATCTGCCGCCGCGCCGCTCCCACGGGCTATGAAGAGTTCTACTTCCCCTTGGTGGAGGCCACCCGGCTCC
GCTGTGTCACCAAATGCACGTCGGGGGTGGACAACGCCATCGACTGTCACCAGGGCCAGTGCGTTCTGGA
GACGAGCGGTCCCACGTGTCGCTGCTACTCCACCGACACGCACTGGTTCTCTGGCCCGCGCTGCGAGGTG
GCCGTCCACTGGAGGGCGCTGGTCGGGGGCCTGACGGCCGGCGCCGCGCTGCTGGTGCTGCTGCTGCTGG
CGCTGGGCGTCCGGGCGGTGCGCTCCGGATGGTGGGGCGGCCAGCGCCGAGGCCGGTCCTGGGACCAGGA
CAGGAAATGGTTCGAGACCTGGGATGAGGAAGTCGTGGGCACTTTTTCAAACTGGGGTTTCGAGGACGAC
GGAACAGACAAGGATACAAATTTCTATGTGGCCTTGGAGAACGTGGACACCACTATGAAGGTGCACATCA
AGAGACCCGAGATGACCTCGTCCTCAGTGTGA
Restriction Sites SgfI-MluI     
ACCN NM_005960
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_005960.1, NP_005951.1
RefSeq Size 11361 bp
RefSeq ORF 9972 bp
Locus ID 4584
UniProt ID Q02505
Gene Summary The mucin genes encode epithelial glycoproteins, some of which are secreted and some membrane bound. Each of the genes contains at least one large domain of tandemly repeated sequence that encodes the peptide sequence rich in serine and/or threonine residues, which carries most of the O-linked glycosylation (Gendler and Spicer, 1995 [PubMed 7778880]).[supplied by OMIM, Aug 2008]
*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
RC240267 MUC3A (myc-DDK-tagged) - Human mucin 3A, cell surface associated (MUC3A)
    • 10 ug

CNY 37910.00

RG240267 MUC3A (tGFP-tagged) - Human mucin 3A, cell surface associated (MUC3A)
    • 10 ug

CNY 38290.00

其它MUC3产品

Expression Plasmids
Lentiviral Particles
CRISPR
RNAi
Proteins
Antibodies
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RC240267

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