FREM2 (NM_207361) Human Untagged Clone

CAT#: SC308479

FREM2 (untagged)-Human FRAS1 related extracellular matrix protein 2 (FREM2)

Datasheet
SDS

  "NM_207361" in other vectors (2)

CNY 20544.00

货期*
现货
规格
    • 10 ug

Product images

推荐一起购买 (4)
TA320171
Rabbit Polyclonal FREM2 Antibody
    • 100 ug

CNY 5808.00

添加到购物车
TF81001
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4090.00

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

CNY 1280.00

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 CRYPTOP; FRASRS2
Vector PCMV6-Neo
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>SC308479 representing NM_207361.
Blue=Insert sequence Red=Cloning site Green=Tag(s)

ATGCACTCAGCCGGGACTCCCGGGTTATCCTCGCGCCGGACAGGCAACTCCACCAGCTTTCAACCAGGA
CCGCCACCGCCGCCCCGGCTGCTGCTGCTGCTGCTGCTTCTCCTGTCACTGGTAAGCCGCGTCCCGGCA
CAGCCCGCTGCCTTCGGCAGGGCGTTGCTGTCCCCTGGTCTCGCGGGGGCTGCAGGGGTCCCTGCTGAG
GAGGCCATAGTGCTGGCGAACCGCGGACTCCGGGTGCCTTTCGGCCGTGAAGTCTGGCTGGATCCCCTG
CATGACCTGGTGTTGCAGGTGCAGCCCGGGGACCGCTGCGCGGTTTCGGTACTAGACAACGACGCACTG
GCCCAGCGACCGGGCCGCCTGAGTCCCAAGCGCTTCCCGTGCGACTTTGGCCCTGGCGAGGTGCGCTAC
TCTCACCTGGGCGCGCGCAGCCCGTCTCGGGACCGCGTCCGGCTGCAGCTGCGCTATGACGCGCCCGGA
GGGGCAGTAGTGCTACCACTGGTACTGGAGGTGGAGGTGGTCTTCACCCAGCTGGAGGTTGTGACTCGG
AACTTGCCTCTGGTCGTGGAAGAACTGCTGGGGACCAGCAATGCCCTGGACGCGCGGAGCCTGGAGTTC
GCCTTCCAGCCCGAGACAGAGGAGTGCCGCGTGGGCATCCTGTCCGGCTTGGGCGCGCTGCCTCGCTAT
GGAGAACTCCTCCACTACCCGCAGGTCCCTGGAGGAGCCAGAGAGGGAGGCGCCCCGGAGACTCTCCTG
ATGGACTGCAAAGCTTTCCAGGAACTAGGCGTGCGCTATCGCCACACAGCCGCCAGTCGCTCACCAAAC
AGGGACTGGATACCCATGGTGGTGGAGCTGCGTTCACGAGGGGCTCCTGTGGGCAGCCCTGCTTTGAAA
CGCGAGCACTTCCAGGTTCTGGTGAGGATCCGAGGAGGGGCCGAGAACACTGCACCCAAGCCCAGTTTC
GTGGCCATGATGATGATGGAGGTGGACCAGTTTGTACTGACGGCCCTGACCCCAGACATGCTGGCAGCC
GAGGATGCTGAGTCTCCCTCTGACCTGTTGATCTTCAACCTTACTTCTCCATTCCAGCCTGGCCAGGGC
TACTTGGTGAGCACCGATGATCGCAGCCTGCCCCTTTCCTCCTTCACTCAGAGGGATCTGCGGCTCCTG
AAGATTGCCTACCAGCCCCCTTCTGAAGACTCTGACCAGGAGCGCCTCTTTGAACTGGAATTGGAGGTA
GTGGATCTAGAAGGAGCAGCTTCAGACCCTTTTGCCTTCATGGTAGTGGTGAAGCCCATGAACACAATG
GCTCCGGTGGTCACCCGGAATACCGGTCTTATTCTCTATGAGGGTCAGTCTCGGCCCCTCACAGGCCCT
GCAGGCAGTGGTCCGCAAAACTTGGTCATCAGCGATGAGGATGACCTAGAAGCAGTGCGGCTAGAGGTG
GTGGCTGGGCTCCGGCATGGTCACCTTGTCATTCTGGGTGCTTCCAGTGGCAGCTCTGCTCCCAAGAGC
TTTACAGTGGCTGAGCTGGCAGCTGGCCAGGTGGTCTACCAGCATGATGACAGAGACGGCTCGCTGAGC
GACAACCTGGTGCTTCGCATGGTGGATGGAGGAGGCAGGCACCAGGTACAGTTTCTGTTCCCCATCACC
TTAGTGCCTGTGGATGACCAGCCACCTGTTCTCAATGCCAACACGGGGCTGACACTGGCAGAGGGTGAA
ACAGTGCCCATCCTGCCCCTTTCCCTGAGTGCAACTGACATGGATTCAGATGATTCTCTGCTGCTTTTT
GTGCTGGAGTCACCCTTCTTAACTACGGGGCATCTGCTTCTCCGCCAAACTCACCCTCCCCATGAGAAG
CAGGAACTTCTCAGAGGCCTTTGGAGGAAGGAGGGGGCATTTTATGAGCGAACAGTGACAGAGTGGCAG
CAGCAGGACATAACAGAGGGCAGGCTGTTCTATAGACACTCTGGGCCCCATAGTCCTGGGCCAGTCACA
GACCAGTTCACATTTAGAGTCCAGGATAACCATGACCCTCCTAATCAGTCCGGGCTACAGCGGTTTGTG
ATTCGTATCCATCCTGTGGATCGCCTCCCTCCGGAGCTGGGCAGTGGCTGTCCCCTTCGTATGGTGGTA
CAGGAATCCCAGCTCACACCACTGAGGAAGAAGTGGCTGCGCTACACTGACCTGGACACAGATGACCGA
GAACTACGTTACACAGTGACTCAGCCCCCCACAGACACAGACGAAAATCACCTGCCAGCCCCACTGGGT
ACCTTGGTCTTGACTGACAACCCCTCAGTCGTGGTGACCCATTTTACCCAAGCCCAGATCAACCATCAT
AAAATTGCTTACAGACCCCCGGGTCAAGAACTGGGCGTGGCTACTCGAGTGGCCCAGTTCCAGTTCCAG
GTGGAAGACCGAGCTGGGAATGTGGCTCCAGGTACCTTTACCCTTTACTTGCATCCCGTGGACAACCAG
CCACCTGAGATCCTCAACACCGGCTTCACTATTCAGGAGAAGGGTCACCACATCCTGAGTGAGACAGAG
TTGCACGTGAATGATGTAGACACTGATGTTGCCCATATCTCTTTCACTCTCACTCAGGCACCCAAACAT
GGCCACATGAGAGTGTCTGGACAGATCCTGCATGTAGGGGGTCTCTTCCACTTGGAGGACATAAAACAG
GGCCGAGTTTCCTATGCCCATAATGGGGACAAGTCCCTGACTGATAGCTGCTCCTTGGAAGTCAGTGAC
AGACATCATGTGGTGCCCATCACTCTCAGAGTAAATGTCCGGCCAGTGGATGATGAAGTGCCCATACTG
AGCCATCCTACTGGCACTCTGGAGTCCTATCTAGATGTCTTAGAAAATGGGGCTACTGAAATCACTGCC
AATGTTATTAAGGGGACCAATGAGGAAACTGATGACTTGATGTTGACTTTCCTCTTGGAAGATCCACCT
TTGTATGGGGAAATCTTGGTCAATGGCATTCCAGCAGAGCAGTTTACTCAAAGGGACATCTTGGAGGGC
TCTGTTGTATATACCCACACCAGTGGTGAGATAGGCCTATTGCCTAAAGCGGATTCTTTTAACCTGAGT
CTGTCAGATATGTCTCAAGAATGGAGAATTGGTGGCAATACTATCCAAGGAGTTACTATATGGGTGACC
ATCCTGCCTGTTGATAGCCAGGCCCCAGAAATCTTTGTAGGTGAACAGTTGATAGTAATGGAAGGTGAT
AAAAGTGTTATAACATCAGTGCATATAAGTGCTGAAGATGTCGACTCCCTGAATGATGACATCTTGTGC
ACTATAGTTATTCAGCCTACTTCAGGTTATGTTGAAAACATTTCTCCAGCACCAGGCTCTGAGAAATCA
AGAGCAGGGATTGCCATAAGTGCTTTCAACTTGAAAGATCTCAGGCAGGGCCACATAAACTATGTCCAG
AGTGTCCATAAAGGGGTGGAACCTGTGGAGGACCGATTTGTATTTCGTTGTTCTGATGGCATTAACTTT
TCAGAGAGACAGTTCTTCCCCATTGTAATCATTCCCACCAATGATGAACAGCCAGAGATGTTTATGAGA
GAATTTATGGTGATGGAAGGCATGAGTCTGGTAATTGATACACCCATTCTCAATGCTGCTGATGCTGAT
GTTCCCCTGGATGATTTAACTTTCACTATTACCCAATTCCCCACTCATGGTCACATCATGAATCAGCTG
ATAAATGGCACGGTTTTGGTCGAAAGCTTCACCTTGGATCAGATCATAGAGAGTTCCAGCATTATTTAT
GAGCATGATGACTCCGAGACCCAGGAAGACAGTTTTGTGATTAAACTAACAGATGGGAAGCACTCTGTG
GAAAAGACGGTCCTCATTATAGTTATCCCTGTTGATGATGAGACGCCCAGAATGACTATCAATAATGGA
CTAGAAATAGAAATTGGGGATACCAAGATTATCAACAACAAAATATTAATGGCAACAGATTTAGATTCA
GAAGACAAATCTTTGGTTTATATTATTCGTTATGGGCCAGGACATGGCTTATTACAGAGACGAAAACCT
ACTGGTGCCTTTGAAAATATCACACTGGGCATGAATTTTACCCAGGATGAAGTAGACAGAAACTTAATT
CAGTATGTCCATTTGGGGCAAGAGGGCATTCGGGACCTAATTAAATTTGATGTGACTGATGGAATAAAT
CCCCTCATAGATCGTTACTTTTATGTGTCCATCGGGAGCATTGACATTGTCTTCCCTGATGTGATAAGT
AAGGGAGTGTCCTTGAAAGAAGGTGGCAAAGTCACTCTTACAACAGACCTACTAAGCACTAGTGACTTG
AACAGTCCTGATGAAAACTTGGTTTTTACCATCACCAGGGCTCCCATGCGAGGTCACCTGGAATGCACG
GATCAGCCTGGTGTGTCCATCACGTCTTTCACTCAGCTGCAACTGGCTGGAAACAAAATCTACTACATC
CACACAGCTGATGATGAAGTGAAAATGGACAGTTTTGAGTTTCAAGTCACCGATGGACGTAACCCTGTC
TTTCGGACATTCCGTATCTCCATTAGCGATGTGGACAATAAAAAGCCAGTGGTCACCATCCACAAGCTG
GTTGTCAGTGAAAGTGAAAACAAGCTGATTACTCCTTTTGAGCTCACTGTCGAAGACAGAGATACTCCT
GACAAGCTCCTGAAATTCACTATCACCCAGGTGCCTATTCATGGCCATCTCCTATTCAACAATACCAGA
CCTGTCATGGTTTTTACCAAGCAAGACTTGAATGAAAACTTAATCAGCTACAAACATGATGGCACTGAG
TCAAGTGAAGATAGCTTCTCCTTCACAGTGACTGATGGCACCCATACAGACTTCTATGTTTTTCCTGAT
ACGGTGTTTGAAACAAGGAGACCCCAAGTGATGAAGATCCAGGTCTTGGCTGTTGACAACAGTGTCCCC
CAAATCGCAGTGAATAAGGGGGCCTCTACACTTCGCACTCTAGCCACTGGCCACTTGGGGTTCATGATC
ACAAGCAAAATATTGAAAGTGGAGGACAGAGACAGCTTACACATTTCTCTTAGATTTATCGTGACAGAG
GCCCCTCAACATGGATATCTTCTCAACCTGGACAAAGGCAACCACAGCATCACTCAGTTCACACAAGCT
GACATTGATGACATGAAAATATGCTATGTCTTAAGAGAAGGGGCTAATGCCACAAGTGATATGTTCTAT
TTTGCAGTTGAAGATGGTGGTGGAAACAAGTTAACGTACCAGAATTTTCGTCTGAATTGGGCATGGATC
TCCTTTGAAAAGGAATATTACCTGGTCAATGAGGACTCCAAATTTCTAGATGTTGTTCTTAAACGTAGA
GGTTACTTGGGAGAAACTTCTTTTATAAGTATTGGCACAAGAGACAGAACTGCAGAAAAAGACAAAGAC
TTCAAGGGCAAAGCACAGAAACAAGTGCAGTTCAACCCAGGCCAGACCAGGGCCACATGGCGAGTGCGG
ATCCTGAGTGATGGGGAGCATGAGCAGTCTGAAACCTTTCAGGTGGTACTCTCAGAGCCCGTGCTGGCT
GCCTTGGAATTCCCCACAGTCGCCACTGTTGAGATCGTTGATCCAGGAGATGAGCCAACTGTGTTTATT
CCCCAGTCCAAATACTCCGTTGAAGAAGATGTTGGTGAGCTGTTCATTCCCATCAGGAGGAGCGGAGAT
GTGAGCCAGGAGTTGATGGTGGTCTGTTATACCCAACAAGGAACAGCAACTGGAACTGTGCCGACTTCC
GTGTTGTCTTACTCTGATTACATATCCAGGCCTGAGGACCACACCAGTGTTGTCCGCTTTGACAAAGAT
GAACGGGAGAAACTGTGTCGGATAGTCATAATTGATGACTCTTTGTACGAGGAGGAGGAAACCTTCCAT
GTCCTTCTGAGCATGCCCATGGGGGGAAGAATCGGATCAGAGTTCCCAGGGGCTCAAGTTACAATCGTT
CCTGACAAAGATGATGAACCCATCTTTTACTTCGGTGATGTGGAATACTCTGTGGATGAGAGTGCTGGC
TATGTGGAAGTGCAGGTGTGGAGAACGGGCACTGACCTGTCCAAGTCTTCTAGTGTCACAGTGAGGTCT
CGGAAAACAGATCCTCCCTCTGCAGATGCTGGAACAGACTATGTGGGCATCAGCCGTAATTTAGATTTT
GCACCTGGAGTCAACATGCAGCCTGTTCGTGTTGTCATTCTGGATGACCTTGGACAACCAGCGCTGGAG
GGAATTGAGAAATTTGAACTGGTGCTTCGCATGCCTATGAACGCAGCCCTTGGCGAGCCCAGCAAAGCC
ACAGTGTCCATAAATGACTCTGTCTCCGATTTGCCTAAGATGCAATTCAAAGAACGAATATATACTGGC
AGCGAAAGTGATGGGCAGATAGTTACAATGATCCATAGGACTGGGGATGTCCAGTACAGATCTTCAGTG
AGATGCTACACCCGGCAGGGGTCTGCACAGGTGATGATGGACTTTGAAGAACGCCCAAACACTGATACC
TCCATCATCACATTCCTCCCTGGTGAGACAGAAAAGCCCTGCATTCTTGAGCTGATGGACGATGTGCTC
TATGAGGAGGTAGAGGAGCTCCGCCTGGTACTCGGCACTCCACAAAGCAACTCTCCCTTTGGGGCTGCA
GTTGGTGAACAAAATGAAACTCTCATAAGGATCCGAGATGATGCTGATAAGACTGTTATTAAATTTGGA
GAAACCAAATTTAGTGTCACTGAACCCAAAGAACCTGGAGAGTCGGTGGTTATAAGAATTCCAGTGATT
CGCCAAGGAGACACTTCAAAGGTTTCCATTGTGAGAGTCCACACCAAGGATGGCTCGGCCACCTCTGGA
GAAGACTACCACCCTGTGTCAGAAGAAATTGAGTTTAAGGAAGGGGAAACCCAGCACGTGGTTGAAATC
GAAGTTACCTTTGACGGGGTGAGAGAGATGAGAGAGGCCTTCACTGTTCACCTAAAACCTGATGAAAAT
ATGATAGCAGAGATGCAGTTGACGAAAGCCATTGTGTACATAGAAGAAATGAGCAGCATGGCAGATGTC
ACTTTTCCTTCTGTCCCTCAAATTGTATCCCTGTTGATGTATGACGACACTTCCAAAGCTAAGGAGAGT
GCTGAACCCATGTCTGGCTATCCTGTCATCTGTATCACAGCTTGCAACCCCAAATATTCAGACTACGAT
AAAACAGGCTCTATCTGTGCAAGTGAGAACATCAATGACACTTTGACGCGGTACCGGTGGCTGATTAGT
GCACCTGCGGGCCCTGACGGTGTGACCAGCCCTATGAGAGAAGTGGACTTCGACACCTTTTTTACGTCA
TCCAAGATGGTCACACTGGACTCCATATACTTTCAGCCTGGCTCCCGGGTACAGTGCGCAGCTCGTGCT
GTGAACACCAATGGGGATGAAGGCCTGGAGCTCATGAGCCCTATTGTAACCATCAGCAGAGAAGAAGGT
CTTTGTCAGCCCCGTGTACCTGGGGTTGTTGGAGCAGAGCCGTTCTCAGCTAAATTGCGCTACACAGGC
CCTGAGGATGCAGACTACACAAACCTTATCAAGCTCACTGTCACAATGCCACACATAGATGGCATGCTC
CCCGTGATCTCCACTAGAGAGCTTTCCAACTTTGAGCTCACCCTCAGCCCTGATGGCACAAGAGTTGGA
AACCACAAGTGCTCCAACCTCCTGGATTATACTGAAGTGAAGACTCATTATGGTTTCTTGACTGATGCT
ACCAAAAATCCAGAAATAATTGGAGAGACATATCCTTACCAGTACAGCTTGTCCATCAGAGGTTCCACT
ACCTTGCGCTTCTACCGGAACCTGAACCTAGAGGCCTGTTTATGGGAGTTCGTTAGCTACTATGACATG
TCAGAACTCCTTGCTGACTGTGGTGGCACCATTGGAACAGATGGACAGGTCCTAAACCTAGTGCAGTCC
TATGTGACCCTTCGAGTCCCTCTGTATGTTTCCTACGTGTTCCATTCCCCCGTGGGGGTAGGAGGCTGG
CAGCATTTTGACTTGAAGTCAGAGCTTCGTCTAACTTTTGTGTACGACACCGCCATCTTGTGGAATGAT
GGAATTGGCAGCCCCCCAGAGGCTGAACTTCAAGGTTCTCTCTATCCAACCAGCATGCGCATCGGTGAT
GAGGGGCGCTTGGCCGTGCACTTCAAGACAGAGGCTCAGTTCCATGGCTTATTTGTGCTGTCACATCCC
GCATCCTTTACAAGCTCAGTGATCATGTCAGCTGATCATCCAGGCCTGACATTTTCCCTCCGCCTCATA
AGGAGTGAACCAACCTATAACCAGCCAGTACAGCAGTGGAGCTTTGTCTCTGACTTTGCCGTACGTGAC
TACTCAGGGACCTATACTGTGAAGCTGGTGCCATGCACTGCCCCATCACATCAGGAATACCGCCTGCCA
GTCACCTGCAACCCCAGAGAACCTGTCACCTTTGACCTTGACATCCGATTCCAACAGGTCAGTGATCCA
GTGGCTGCTGAGTTTAGCTTGAACACCCAAATGTACCTGCTCTCTAAGAAGAGTCTCTGGTTGTCTGAT
GGATCCATGGGATTCGGGCAAGAGAGTGATGTTGCTTTTGCAGAAGGTGATATAATTTATGGTCGTGTC
ATGGTGGATCCTGTCCAGAATCTGGGTGACTCCTTTTACTGCAGCATTGAGAAGGTGTTTCTATGCACT
GGAGCTGATGGCTATGTTCCCAAGTATAGTCCAATGAATGCAGAATATGGCTGCTTAGCCGACTCTCCT
TCACTCTTATATAGATTTAAAATTGTGGACAAAGCTCAGCCAGAGACACAAGCGACCAGTTTTGGAAAT
GTCCTATTTAATGCCAAACTAGCAGTGGATGACCCTGAAGCCATTCTCTTAGTGAATCAGCCTGGATCT
GATGGATTTAAAGTCGACTCAACACCACTCTTTCAGGTCGCTCTAGGCCGAGAATGGTATATACATACG
ATCTATACAGTGAGATCGAAAGACAATGCCAATCGAGGTATTGGCAAAAGAAGTGTGGAGTACCATTCT
CTGGTGAGTCAAGGAAAGCCCCAATCCACCACCAAGAGCCGGAAGAAGAGAGAGATCAGGAGCACACCC
TCACTGGCATGGGAGATTGGTGCTGAAAACAGTCGAGGAACAAACATCCAGCACATTGCCCTGGACCGC
ACCAAGAGGCAGATCCCCCATGGGAGAGCACCTCCAGATGGCATCCTCCCCTGGGAGCTCAACAGCCCC
AGCTCTGCAGTCAGCCTGGTCACTGTGGTGGGAGGCACCACGGTAGGGTTACTCACCATCTGCCTCACT
GTCATTGCAGTGCTGATGTGCAGGGGCAAGGAAAGTTTCAGGGGGAAGGATGCCCCGAAAGGCTCCAGC
AGCAGTGAGCCCATGGTGCCCCCACAGAGCCATCACAATGACAGCTCAGAAGTTTGA
Restriction Sites SgfI-MluI     
ACCN NM_207361
Insert Size 9510 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).
OTI Annotation This clone has been fully sequenced and found three SNPs within the protein associated with this reference, NM_207361.3, and only one SNP changes amino acid.
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_207361.3
RefSeq Size 9510 bp
RefSeq ORF 9510 bp
Locus ID 341640
UniProt ID Q5SZK8
Protein Families Transmembrane
MW 351.2 kDa
Gene Summary This gene encodes an integral membrane protein containing numerous CSPG (chondroitin sulfate proteoglycan element) repeats and Calx-beta domains. The encoded protein localizes to the basement membrane, forming a ternary complex that plays a role in epidermal-dermal interactions. This protein is important for the integrity of skin and renal epithelia. Mutations in this gene are associated with Fraser syndrome. [provided by RefSeq, Apr 2014]
*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
RC212797 FREM2 (Myc-DDK-tagged)-Human FRAS1 related extracellular matrix protein 2 (FREM2)
    • 10 ug

CNY 30808.00

RG212797 FREM2 (tGFP-tagged) - Human FRAS1 related extracellular matrix protein 2 (FREM2)
    • 10 ug

CNY 32408.00

其它FREM2产品

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

PCMV6NEO

Cloning vector pCMV6-Neo, 10 ug circular

    • 10 ug

CNY 3330.00

TF81001

TurboFectin Transfection Reagent (1 mL in 1 vial)

    • 1 ml in 1 vial

CNY 4090.00

CC100003

DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)

    • 5 x 200 ul

CNY 1280.00 暂停销售

RC212797

FREM2 (Myc-DDK-tagged)-Human FRAS1 related extracellular matrix protein 2 (FREM2)

    • 10 ug

CNY 30808.00

RG212797

FREM2 (tGFP-tagged) - Human FRAS1 related extracellular matrix protein 2 (FREM2)

    • 10 ug

CNY 32408.00

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