COL6A6 (NM_001102608) Human Tagged ORF Clone

CAT#: RC222036

  • TrueORF®

COL6A6 (Myc-DDK-tagged)-Human collagen, type VI, alpha 6 (COL6A6). Note: ORF is codon optimized

ORF Plasmid: DDK tGFP

Datasheet
SDS
Plasmid Map

  "NM_001102608" in other vectors (2)

Reconstitution Protocol

USD 1,867.00

Please Inquire*

Size
    • 10 ug
Bulk Requests & Clone Modifications

Product Images

Frequently bought together (4)
PS100001
pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug
    • 10 ug

USD 650.00

Add To Cart
CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

USD 160.00

Add To Cart
PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

USD 59.00

Add To Cart
TA592569S
DDK Rabbit monoclonal antibody, recognizing both N- and C-terminal tags
    • 30 ul

USD 198.00

Add To Cart

Special Offer: Get this product for $99/€99. Use code: "Truesample".

Other products for "COL6A6"

Specifications

Product Data
Type Human Tagged ORF Clone
Tag Myc-DDK
Symbol COL6A6
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>RC222036 ORF sequence, codon optimized.
Due to the complexity of NM_001102608, the ORF clone is codon optimized for mammalian Expression.
The nucleotide sequence differs from the reference sequence, yet the amino acid sequence remains identical.

Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGATGCTGCTGATCCTGTTCCTGGTCATCATCTGCAGCCACATTTCCGTCAACCAGGATAGCGGCCCAG
AGTATGCCGACGTCGTTTTTTTGGTGGACTCCAGTGATAGATTGGGAAGCAAAAGCTTTCCATTTGTCAA
GATGTTCATTACTAAGATGATCTCTAGTCTCCCCATTGAGGCCGACAAATACAGAGTTGCCTTGGCGCAG
TACTCCGACAAACTTCATTCTGAGTTCCACCTGTCCACATTTAAGGGACGATCTCCTATGCTGAACCACC
TCAGGAAAAACTTTGGTTTCATCGGAGGGTCACTGCAGATAGGAAAAGCACTTCAGGAGGCACATCGGAC
CTATTTCTCCGCACCTGCCAACGGGCGCGATAAGAAGCAGTTCCCTCCAATCCTGGTAGTGCTGGCCAGC
AGTGAGAGTGAGGATAATGTTGAGGAGGCTTCAAAGGCCCTGAGGAAGGACGGTGTAAAAATCATCTCCG
TAGGAGTTCAGAAGGCCTCCGAGGAGAATCTGAAGGCTATGGCCACTAGCCAGTTCCACTTCAATCTGAG
GACAGTCAGAGATCTGTCCATGTTTAGCCAAAATATGACACATATAATTAAGGATGTCATCAAATACAAG
GAGGGAGCCGTGGACGATATTTTTGTCGAAGCTTGTCAGGGGCCCAGCATGGCTGACGTGGTGTTTCTCC
TCGACATGAGTATCAACGGAAGTGAAGAAAATTTCGACTATCTGAAGGGTTTCTTGGAGGAAAGTGTCAG
TGCTTTGGACATTAAAGAGAACTGTATGAGAGTGGGCCTCGTAGCTTATTCAAATGAGACTAAGGTGATC
AACAGCTTGTCCATGGGAATCAACAAGTCAGAAGTGCTGCAGCATATCCAGAACCTGTCACCCAGGACCG
GAAAGGCTTACACTGGTGCCGCCATTAAAAAGCTGCGGAAGGAAGTGTTCTCTGCAAGGAACGGGAGCCG
GAAGAATCAGGGCGTTCCACAGATCGCCGTGTTGGTTACCCACAGGGATTCTGAAGATAACGTGACCAAG
GCCGCTGTCAACCTCCGGCGAGAGGGAGTCACGATCTTCACGCTGGGAATCGAAGGAGCCTCTGATACAC
AGCTGGAAAAAATAGCTAGCCATCCTGCCGAACAATATGTGAGTAAGCTCAAGACTTTTGCCGATCTCGC
TGCTCATAACCAAACCTTTCTGAAAAAACTGCGAAATCAAATAACTCACACGGTGTCCGTGTTCTCAGAA
CGCACAGAGACACTGAAGTCCGGGTGCGTGGATACAGAGGAAGCTGATATCTATCTGCTTATCGACGGTA
GCGGTTCCACCCAGGCCACAGACTTCCACGAGATGAAGACCTTCCTTTCCGAGGTCGTCGGAATGTTCAA
CATCGCACCACATAAGGTCCGGGTTGGCGCGGTCCAATATGCAGACTCCTGGGATCTGGAGTTTGAGATT
AACAAGTACAGCAACAAGCAGGACCTGGGCAAGGCTATTGAGAATATTAGGCAGATGGGTGGAAACACAA
ATACTGGAGCGGCTTTGAATTTTACCCTCTCCCTTCTCCAGAAGGCGAAAAAGCAGCGCGGCAACAAAGT
TCCCTGTCACCTTGTGGTCCTCACCAACGGCATGTCCAAGGATAGCATCCTGGAGCCCGCAAACCGCTTG
AGGGAGGAGCACATCAGAGTGTATGCCATAGGCATTAAAGAGGCGAACCAGACTCAGCTTAGAGAGATTG
CCGGAGAAGAGAAACGGGTGTACTATGTACACGACTTCGATGCACTGAAAGATATCAGGAACCAGGTGGT
GCAGGAAATTTGTACGGAAGAGGCATGCAAAGAAATGAAAGCCGACATCATGTTCCTGGTCGACTCTTCC
GGGTCTATCGGACCAGAGAACTTCAGCAAGATGAAGACTTTCATGAAAAATCTCGTGTCCAAGTCCCAGA
TTGGACCAGACCGAGTTCAGATCGGTGTTGTGCAGTTCTCCGACATTAATAAGGAAGAGTTTCAGCTGAA
TAGGTTCATGTCTCAGAGTGACATTTCTAACGCTATTGACCAGATGGCCCATATAGGACAAACCACCCTG
ACCGGTTCTGCCCTGTCTTTCGTGTCCCAGTATTTTTCCCCAACCAAGGGCGCCCGCCCAAATATTCGCA
AGTTCCTGATACTGATCACTGATGGCGAAGCACAGGACATTGTGAAAGAGCCTGCCGTGGTTCTGAGACA
AGAGGGAGTCATTATCTACTCTGTGGGAGTTTTTGGAAGTAACGTGACACAACTGGAGGAGATCTCAGGA
CGGCCGGAGATGGTCTTCTACGTCGAGAACTTTGACATCCTCCAGCGGATCGAGGACGATCTGGTCTTCG
GAATCTGCAGCCCACGAGAAGAATGTAAGCGAATAGAGGTGTTGGATGTCGTTTTTGTGATAGATTCTAG
CGGATCAATTGACTATGACGAATATAACATAATGAAGGATTTTATGATTGGCCTCGTGAAGAAAGCCGAT
GTGGGAAAGAACCAGGTCAGATTTGGTGCCCTGAAATATGCTGACGACCCCGAAGTCCTGTTCTACCTCG
ATGACTTCGGGACTAAGCTGGAAGTGATCAGCGTACTCCAGAACGATCAGGCAATGGGGGGGAGTACCTA
CACTGCGGAGGCCCTTGGCTTTTCTGATCACATGTTTACAGAAGCACGAGGCTCACGCTTGAACAAGGGG
GTACCACAGGTGCTGATCGTTATTACTGACGGAGAATCTCATGATGCCGATAAGCTTAACGCAACTGCCA
AGGCCCTGAGGGACAAGGGCATCCTGGTGCTGGCAGTAGGAATAGACGGCGCCAACCCAGTGGAATTGCT
GGCTATGGCCGGCTCTTCCGACAAATATTTCTTTGTGGAGACATTCGGTGGCTTGAAGGGGATATTTTCA
GACGTTACCGCATCCGTGTGTAACAGTTCCAAGGTCGACTGTGAGATTGACAAGGTCGATCTGGTCTTCC
TTATGGATGGGAGTACAAGCATCCAGCCCAACGATTTCAAGAAGATGAAGGAGTTCCTTGCCTCTGTAGT
ACAGGACTTTGACGTGTCTCTGAACAGAGTCAGGATTGGAGCTGCCCAGTTCTCCGACACCTATCATCCT
GAGTTTCCACTGGGGACATTCATCGGTGAAAAGGAGATCTCTTTCCAGATTGAGAACATCAAGCAGATCT
TTGGCAACACACATATCGGAGCTGCATTGCGCGAGGTGGAGCACTACTTCAGGCCCGACATGGGTTCCCG
AATAAACACTGGGACTCCACAGGTCCTCCTTGTCCTGACTGATGGGCAGTCCCAAGACGAGGTGGCCCAG
GCAGCGGAAGCTCTTCGACACCGGGGTATAGACATTTACTCTGTGGGTATTGGCGATGTCGACGACCAAC
AGCTGATCCAGATCACAGGGACCGCGGAGAAAAAGTTGACCGTTCATAACTTCGATGAACTGAAGAAGGT
GAATAAGCGGATAGTTAGAAACATATGTACCACCGCGGGCGAAAGTAATTGCTTCGTGGACGTCGTCGTT
GGGTTCGACGTATCCACTCAGGAAAAGGGGCAGACACTTCTTGAGGGACAACCTTGGATGGAAACCTACC
TCCAGGACATTCTGAGGGCTATTAGTTCACTGAATGGCGTCTCTTGCGAGGTAGGAACCGAGACGCAAGT
CAGTGTGGCTTTTCAGGTGACAAATGCTATGGAAAAGTATAGCCCGAAATTTGAGATTTACAGCGAGAAC
ATTCTCAATAGCCTGAAGGATATCACAGTTAAGGGGCCCTCACTCTTGAATGCTAACCTGCTGGATTCCT
TGTGGGATACCTTTCAGAATAAGTCCGCCGCTAGGGGAAAGGTAGTGCTCCTGTTCTCAGACGGCCTGGA
CGACGACGTTGAGAAACTTGAGCAGAAAAGTGACGAATTGCGGAAAGAGGGTCTGAACGCACTGATCACC
GTGGCCCTTGATGGACCTGCCGATAGCTCCGATCTGGCCGATCTCCCCTACATAGAGTTCGGAAAGGGTT
TCGAGTACCGCACCCAACTGTCTATTGGCATGAGAGAACTCGGAAGTCGGTTGAGCAAGCAGCTGGTCAA
CGTTGCCGAAAGAACTTGCTGTTGTCTGTTTTGTAAGTGTATCGGCGGAGATGGAACTATGGGGGACCCT
GGGCCACCTGGCAAGAGGGGACCCCCCGGCTTTAAGGGTAGCGAGGGCTACCTGGGTGAGGAGGGCATTG
CGGGAGAACGAGGCGCACCCGGCCCTGTCGGCGAGCAGGGGACCAAAGGGTGCTACGGCACCAAAGGGCC
CAAGGGAAATAGGGGACTCAATGGACAAGAGGGGGAAGTGGGGGAAAACGGAATCGATGGACTGAACGGC
GAACAGGGCGACAACGGTCTGCCCGGGCGCAAGGGCGAGAAGGGCGATGAGGGGAGTCAGGGGAGTCCTG
GGAAAAGAGGCACTCCAGGAGATAGAGGGGCCAAAGGCCTGCGAGGCGATCCTGGCGCTCCTGGCGTGGA
TTCCTCTATCGAAGGACCAACAGGCCTGAAAGGAGAGCGGGGCAGACAGGGACGGAGAGGATGGCCAGGC
CCCCCAGGCACCCCGGGCTCACGCAGAAAGACCGCAGCACACGGAAGAAGAGGGCACACAGGTCCACAGG
GCACGGCCGGCATCCCTGGTCCTGATGGGCTGGAAGGGAGTCTGGGATTGAAAGGACCTCAGGGTCCTCG
CGGGGAGGCAGGCGTCAAAGGCGAAAAAGGCGGAGTGGGTAGCAAAGGGCCCCAAGGACCCCCCGGTCCC
GGCGGCGAAGCAGGAAACCAGGGGAGGCTCGGCTCTCAGGGCAACAAGGGTGAACCCGGTGATCTGGGGG
AAAAGGGTGCCGTCGGATTTCCTGGGCCACGGGGTCTGCAGGGGAACGATGGTAGCCCTGGATATGGCAG
TGTCGGCAGGAAAGGTGCCAAGGGTCAGGAGGGCTTCCCCGGAGAAAGTGGTCCCAAGGGTGAGATTGGA
GATCCAGGGGGACCCGGTGAAACTGGCTTGAAAGGCGCCCGGGGTAAAATGATCTCTGCTGGATTGCCAG
GTGAAATGGGCTCCCCTGGCGAGCCCGGTCCACCCGGAAGGAAAGGCGTGAAGGGAGCAAAAGGACTCGC
GTCCTTCAGCACCTGTGAGCTGATTCAGTATGTGAGGGACCGAAGCCCTGGACGCCATGGAAAGCCCGAG
TGCCCGGTCCATCCCACGGAACTGGTTTTCGCACTTGACCATAGTAGGGATGTTACAGAACAGGAGTTTG
AACGCATGAAGGAGATGATGGCTTTTCTGGTCAGAGACATTAAGGTCCGGGAGAATAGCTGTCCCGTGGG
AGCCCATATCGCTATCCTGAGCTACAATTCTCATGCTAGACACTTGGTTCGATTTTCAGATGCCTATAAA
AAGAGTCAGCTGCTGAGAGAGATCGAGACAATCCCGTATGAGAGATCATCCGCGTCTCGCGAGATCGGGA
GGGCCATGCGATTCATCTCTAGGAATGTCTTTAAAAGGACTCTCCCAGGTGCTCACACACGCAAAATAGC
AACATTCTTTAGCAGCGGACAGAGCGCCGATGCCCACAGTATCACTACTGCCGCCATGGAGTTCGGCGCC
CTGGAGATAATCCCGGTGGTCATAACTTTTAGCAATGTCCCTAGTGTGAGGCGGGCCTTCGCTATTGATG
ATACAGGCACGTTTCAGGTGATTGTGGTGCCTAGCGGAGCCGATTACATTCCTGCACTGGAGCGGCTGCA
GCGATGTACCTTTTGCTACGACGTATGTAAACCCGATGCATCTTGCGATCAGGCACGGCCCCCTCCCGTA
CAAAGCTACATGGATGCGGCCTTCCTGCTTGACGCCAGTAGGAATATGGGAAGCGCCGAATTTGAGGACA
TTCGCGCCTTCCTGGGCGCTCTGCTGGATCACTTCGAAATTACTCCAGAACCAGAGACATCAGTCACCGG
GGACCGGGTCGCTCTTTTGAGTCACGCCCCACCCGATTTCCTGCCGAACACTCAAAAGAGCCCCGTGAGA
GCCGAATTTAACCTTACCACGTATAGATCTAAAAGGTTGATGAAGAGGCACGTGCACGAGTCCGTCAAAC
AGCTCAACGGGGACGCATTCATCGGTCACGCATTGCAATGGACTCTCGACAATGTCTTTCTGAGCACTCC
TAATTTGCGAAGGAACAAGGTGATTTTCGTTATCAGTGCAGGGGAAACGAGCCACCTGGATGGTGAAATT
CTTAAAAAGGAGTCTCTGCGCGCCAAGTGCCAGGGGTACGCACTGTTTGTCTTTTCTCTTGGCCCTATTT
GGGATGACAAAGAGCTGGAGGATTTGGCCTCACATCCGCTTGACCACCATCTCGTGCAGCTGGGTCGGAT
TCACAAACCCGATCACTCATACGGCGTAAAGTTTGTAAAGAGTTTCATTAATAGCATAAGACGAGCCATT
AACAAATACCCTCCTATAAATCTCAAAATTAAATGCAATCGACTGAACAGCATAGACCCTAAGCAGCCTC
CGAGGCCGTTTCGAAGCTTCGTGCCAGGCCCACTGAAAGCCACCCTGAAAGAGGATGTACTTCAGAAAGC
GAAGTTCTTCCAAGATAAAAAGTACCTCTCCCGCGTTGCCAGGAGCGGCAGGGACGACGCCATTCAGAAC
TTTATGCGGTCTACCTCACACACCTTCAAGAATGGCAGAATGATTGAGTCCGCTCCCAAACAGCACGAC

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
>RC222036 representing NM_001102608
Red=Cloning site Green=Tags(s)

MMLLILFLVIICSHISVNQDSGPEYADVVFLVDSSDRLGSKSFPFVKMFITKMISSLPIEADKYRVALAQ
YSDKLHSEFHLSTFKGRSPMLNHLRKNFGFIGGSLQIGKALQEAHRTYFSAPANGRDKKQFPPILVVLAS
SESEDNVEEASKALRKDGVKIISVGVQKASEENLKAMATSQFHFNLRTVRDLSMFSQNMTHIIKDVIKYK
EGAVDDIFVEACQGPSMADVVFLLDMSINGSEENFDYLKGFLEESVSALDIKENCMRVGLVAYSNETKVI
NSLSMGINKSEVLQHIQNLSPRTGKAYTGAAIKKLRKEVFSARNGSRKNQGVPQIAVLVTHRDSEDNVTK
AAVNLRREGVTIFTLGIEGASDTQLEKIASHPAEQYVSKLKTFADLAAHNQTFLKKLRNQITHTVSVFSE
RTETLKSGCVDTEEADIYLLIDGSGSTQATDFHEMKTFLSEVVGMFNIAPHKVRVGAVQYADSWDLEFEI
NKYSNKQDLGKAIENIRQMGGNTNTGAALNFTLSLLQKAKKQRGNKVPCHLVVLTNGMSKDSILEPANRL
REEHIRVYAIGIKEANQTQLREIAGEEKRVYYVHDFDALKDIRNQVVQEICTEEACKEMKADIMFLVDSS
GSIGPENFSKMKTFMKNLVSKSQIGPDRVQIGVVQFSDINKEEFQLNRFMSQSDISNAIDQMAHIGQTTL
TGSALSFVSQYFSPTKGARPNIRKFLILITDGEAQDIVKEPAVVLRQEGVIIYSVGVFGSNVTQLEEISG
RPEMVFYVENFDILQRIEDDLVFGICSPREECKRIEVLDVVFVIDSSGSIDYDEYNIMKDFMIGLVKKAD
VGKNQVRFGALKYADDPEVLFYLDDFGTKLEVISVLQNDQAMGGSTYTAEALGFSDHMFTEARGSRLNKG
VPQVLIVITDGESHDADKLNATAKALRDKGILVLAVGIDGANPVELLAMAGSSDKYFFVETFGGLKGIFS
DVTASVCNSSKVDCEIDKVDLVFLMDGSTSIQPNDFKKMKEFLASVVQDFDVSLNRVRIGAAQFSDTYHP
EFPLGTFIGEKEISFQIENIKQIFGNTHIGAALREVEHYFRPDMGSRINTGTPQVLLVLTDGQSQDEVAQ
AAEALRHRGIDIYSVGIGDVDDQQLIQITGTAEKKLTVHNFDELKKVNKRIVRNICTTAGESNCFVDVVV
GFDVSTQEKGQTLLEGQPWMETYLQDILRAISSLNGVSCEVGTETQVSVAFQVTNAMEKYSPKFEIYSEN
ILNSLKDITVKGPSLLNANLLDSLWDTFQNKSAARGKVVLLFSDGLDDDVEKLEQKSDELRKEGLNALIT
VALDGPADSSDLADLPYIEFGKGFEYRTQLSIGMRELGSRLSKQLVNVAERTCCCLFCKCIGGDGTMGDP
GPPGKRGPPGFKGSEGYLGEEGIAGERGAPGPVGEQGTKGCYGTKGPKGNRGLNGQEGEVGENGIDGLNG
EQGDNGLPGRKGEKGDEGSQGSPGKRGTPGDRGAKGLRGDPGAPGVDSSIEGPTGLKGERGRQGRRGWPG
PPGTPGSRRKTAAHGRRGHTGPQGTAGIPGPDGLEGSLGLKGPQGPRGEAGVKGEKGGVGSKGPQGPPGP
GGEAGNQGRLGSQGNKGEPGDLGEKGAVGFPGPRGLQGNDGSPGYGSVGRKGAKGQEGFPGESGPKGEIG
DPGGPGETGLKGARGKMISAGLPGEMGSPGEPGPPGRKGVKGAKGLASFSTCELIQYVRDRSPGRHGKPE
CPVHPTELVFALDHSRDVTEQEFERMKEMMAFLVRDIKVRENSCPVGAHIAILSYNSHARHLVRFSDAYK
KSQLLREIETIPYERSSASREIGRAMRFISRNVFKRTLPGAHTRKIATFFSSGQSADAHSITTAAMEFGA
LEIIPVVITFSNVPSVRRAFAIDDTGTFQVIVVPSGADYIPALERLQRCTFCYDVCKPDASCDQARPPPV
QSYMDAAFLLDASRNMGSAEFEDIRAFLGALLDHFEITPEPETSVTGDRVALLSHAPPDFLPNTQKSPVR
AEFNLTTYRSKRLMKRHVHESVKQLNGDAFIGHALQWTLDNVFLSTPNLRRNKVIFVISAGETSHLDGEI
LKKESLRAKCQGYALFVFSLGPIWDDKELEDLASHPLDHHLVQLGRIHKPDHSYGVKFVKSFINSIRRAI
NKYPPINLKIKCNRLNSIDPKQPPRPFRSFVPGPLKATLKEDVLQKAKFFQDKKYLSRVARSGRDDAIQN
FMRSTSHTFKNGRMIESAPKQHD

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Restriction Sites SgfI-MluI      Cloning Scheme for this gene      Plasmid Map     
ACCN NM_001102608
ORF Size 6789 bp
OTI Disclaimer The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info
OTI Annotation This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
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.
Reference Data
RefSeq NM_001102608.1, NP_001096078.1
RefSeq Size 9572 bp
RefSeq ORF 6792 bp
Locus ID 131873
UniProt ID A6NMZ7
Cytogenetics 3q22.1
Protein Pathways ECM-receptor interaction, Focal adhesion
MW 247.2 kDa
Gene Summary This gene encodes a large protein that contains multiple von Willebrand factor domains and forms a component of the basal lamina of epithelial cells. This protein may regulate epithelial cell-fibronectin interactions. Variation in this gene may be implicated in skin diseases. [provided by RefSeq, May 2017]

Other Versions

SKU Description Size Price
RG222036 COL6A6 (tGFP-tagged) - Human collagen, type VI, alpha 6 (COL6A6). Note: ORF is codon optimized
    • 10 ug

USD 2,067.00

SC316987 COL6A6 (untagged)-Human collagen, type VI, alpha 6 (COL6A6)
    • 10 ug

USD 2,055.00

{0} Product Review(s)

0 Product Review(s) Submit review

Be the first one to submit a review

Product Citations

Related Products (5)

PS100001

pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug

    • 10 ug

USD 650.00

TF81001

TurboFectin Transfection Reagent (1 mL in 1 vial)

    • 1 ml in 1 vial

USD 507.00

TA50011-100

Clone OTI4C5, Anti-DDK (FLAG) monoclonal antibody

    • 100 ul

USD 412.00

SC316987

COL6A6 (untagged)-Human collagen, type VI, alpha 6 (COL6A6)

    • 10 ug

USD 2,055.00

RG222036

COL6A6 (tGFP-tagged) - Human collagen, type VI, alpha 6 (COL6A6). Note: ORF is codon optimized

    • 10 ug

USD 2,067.00

Previous
Next
*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.