Lama3 (NM_010680) Mouse Untagged Clone

CAT#: MC225478

Lama3 (untagged) - Mouse laminin, alpha 3 (Lama3), (10ug)

Datasheet
SDS

  "NM_010680" in other vectors (2)

Reconstitution Protocol

USD 2,968.00

11 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

Product Images

Frequently bought together (3)
TF81001
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

USD 507.00

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
Other products for "Lama3"

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Lama3
Synonyms Lama3B; [a]3B
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225478 representing NM_010680
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCGGTGGCTCTGGGCAGGGCACCGCGATCCTTACCGCTGCTGCTCACTCTATTGCTGCTGCTGTTGC
TGAGGATGTCGCCCAGCTGGAGCGTGGTGGGTCAGGACCATCCCATGTCCTCGCGCAGCCTGCACCCGCC
CTACTTCAACCTGGCCCAGGCGGCGAGAATCTGGGCCACCGCCACCTGCGGGGAGCGGGACCCAGAGGTC
TCAAGGCCCCGGCCTGAGCTTTTCTGCAAATTGGTGGGCGGCCCCGCTGCACAGGGCAGCGGCCACACCA
TCCAGGGCCAGTTCTGTGACTACTGCAATTCTGAGGATTCCAGGAAGGCACATCCAGCCAGCCATGCAAT
TGATGGATCGGAACGGTGGTGGCAAAGCCCACCTCTCTCCTCCGGCACACAGTACAATCAAGTCAACCTC
ACCTTGGATCTGGGTCAGCTCTTCCATGTGGCTTATATCTTAATCAAATTTGCAAACTCTCCCCGCCCTG
ATCTTTGGATCCTGGAAAGATCTGTAGACTTTGGAAGCACCTACTCACCATGGCAGTATTTTGCTCATTC
TAGAAGAGATTGTGTAGAACAGTTTGGGCAAGAAGCAAACATGGCAATTACCCAGGACGACCAGATGCTC
TGTGTCACGGAGTATTCCCGTATCGTGCCTCTGGAAAATGGCGAGATTGTTGTATCCTTGATAAATGGTC
GTCCAGGTGCAAAAAAGTTTGCTTTCTCTGACACTCTGAGGGAGTTTACTAAGGCAACAAACATCCGCTT
GCGGTTTCTGCGAACCAACACCCTCCTCGGGCATCTTATTTCCAAGGCAGAGCGAGACCCCACTGTCACG
CGCCGGTATTATTACAGCATAAAGGATATCAGTGTTGGTGGGCGGTGTGTTTGCAACGGCCATGCGGAGG
CGTGCAGTGCTGACAACCCTGAAAAGCAGTTCCGATGCGAATGCCAGCACCATACCTGTGGAGACACGTG
TAACCGCTGCTGTGCAGGTTACAATCAGAGGCGCTGGCAGCCTGCTGGTCAGGAGCAGCACAATGAGTGT
GAAGCCTGCAACTGCCATGGGCATGCTGTGGACTGCTACTATGACCCAGACGTGGAGCACCAGCAGGCGA
GCTTGAACAGCAAAGGCGTCTACGCAGGTGGAGGGGTCTGCATCAACTGTCAGCACAACACTGCAGGCGT
GAACTGTGAAAAGTGTGCGAAGGGTTACTTCCGGCCCCATGGAGTTCCGGTGGATGCACTGCATGGATGC
ATCCCTTGCAGCTGTGACCCAGAACGCGCAGATGACTGTGACCAGGGCTCAGGCCACTGCCATTGTAAGC
CAAATTTCTCCGGAGACTACTGTGAGACGTGTGCAGATGGGTACTATAATTTTCCATTTTGCTTGAGAAT
TCCAGTCTTTCCCAACTACACTCCAAGTCCAGAAGATCCAGTGGCTGGCAATATAAAAGGGTGTGACTGT
AACTTGGAAGGTGTTCTCCCAGAGATATGTGACGATCGTGGCAGGTGCCTGTGCCGCCCTGGGGTTGAGG
GTCCCCAGTGTGACTCCTGCCGCTCGGGCTCCTATTCATTTCCCATATGCCAAGCTTGCCAGTGTTCGAC
GATTGGATCCTATCCAGTGCCCTGTGACCCGGGGAATGGCCAGTGTGACTGCCTGCCTGGAATTACCGGG
AGGCAGTGTGACAGGTGTCTCTCGGGAGCCTATGACTTTCCATACTGCCAAGGGTCCGGCAGTGTTTGCC
ATCCAGCTGGGACCCTTGACTCCAGCCTGGGTTATTGTCAGTGCAAGCAGCATGTTGCAAGTCCTACATG
TAGTGTCTGCAAACCATTATATTGGAATCTGGCCAAAGAAAACCCCCGTGGATGCTCAGAGTGCCAGTGC
CATGAAGCAGGGACATTGAGTGGAATTGGAGAGTGTGGGCAGGAGGACGGTGACTGTAGCTGCAAAGCCC
ATGTAACTGGTGATGCCTGCGACACCTGTGAAGATGGGTTTTTCTCTTTGGAGAAGAGCAATTACTTTGG
CTGTCAAGGGTGTCAGTGTGACATTGGTGGAGCACTCACCACCATGTGTAGTGGGCCCTCGGGAGTATGC
CAGTGCAGAGAGCACGTGGAGGGGAAACAGTGCCAGAGGCCTGAAAATAACTACTACTTCCCGGATTTGC
ACCACATGAAGTATGAGGTCGAAGATGGCACTGGACCTAATGGAAGAAACCTGCGGTTTGGATTTGATCC
CCTGGTATTCCCTGAGTTTAGCTGGAGAGGATATGCTCCAATGACCTCAGTCCAGAATGAAGTAAGGGTG
AGATTGTCTGTGAGGCAGTCCAGCCTCTCCTTGTTCCGCATCGTTCTGAGATACATCAGTCCTGGAACGG
AAGCCATATCCGGCCGAATCACTCTTTACTCATCGCAGGGAGATTCGGATGCTTTGCAAAGCAGAAAAAT
CACCTTTCCCCCGAGTAAAGAGCCAGCCTTTGTCACAGTCCCTGGGAATGGCTTTGCAGGCCCATTCTCC
ATCACACCTGGGACGTGGATTGCTTGCATCCAGGTGGAAGGAGTCCTTCTGGACTACCTGGTGCTGCTTC
CCAGGGACTACTATGAAGCATTCACCCTGCAAGTGCCAGTCACAGAGCCATGTGCCCACACAGGATCTCC
CCAGGACAACTGTTTGCTTTACCAGCATTTACCACTGACTGCATTCTCCTGTACCCTGGCTTGTGAGGCC
AGACACTTCCTGCTGGATGGAGAGCTGAGACCCTTGGCAATGAGGCAGCCCACACCCACACACCCAGCCA
TGGTGGACCTCAGCGGGAGAGAGGTAGAACTGCAGCTTCGTCTGCGGGTCCCACAGGTTGGCCACTACGT
GGTCCTGCTGGAGTATGCCACGGAGGTGGAGCAGCTTTTTGTGGTGGACGTGAATCTGAAGAGCTCAGGG
TCTGCCTTGGCAGGCCAGGTGAACATATACAGCTGCAAGTACAGCATCCCGTGCAGGAGTGTGGTGATTG
ACAGCCTGAGTCGCACGGCTGTACATGAGCTGTTGGCAGATGCAGACATTCAGCTCAAGGCGCACATGGC
CCATTTCCTTTTGTATCACATTTGTATTATACCAGCTGAAGAATTCTCAACTGAATATTTGAGACCTCAA
GTCCACTGCATTGCCAGCTACAGGCAGCATGCTAATCCAAGTGCTTCCTGTGTCTCCCTGGCCCATGAAA
CTCCTCCAACAGCCTCAATTTTGGATGCTACAAGTAGGGGCCTTTTCTCTGCCCTACCTCATGAGCCTTC
CTCTCCTGCAGATGGAGTTACTCTGAAGGCACCACAGAGTCAAGTGACCCTGAAAGGACTCATACCACAC
CTGGGCCGACACGTCTTTGTCATCCATTTTTATCAAGCAGAGCACCCAGGGTTTCCCACTGAGGTGATTG
TGAATGGAGGAAGACAGTGGTCAGGTTCCTTCCTTGCCTCCTTCTGTCCCCACTTACTTGGCTGCCGGGA
CCAGGTGATCTCTGATGGCCAAGTGGAGTTTGACATCTCTGAAGCAGAGGTAGCTGTGACAGTGAAGATT
CCAGATGGAAAGTCCTTAACATTGGTCCGGGTTCTAGTGGTACCTGCAGAGAATTACGACTACCAAATTC
TTCACAAAACAACAGTGGACAAGTCCTCCGAGTTCATCAGCAGTTGTGGAGGAGACAGCTTTTATATTGA
TCCCCAGGCAGCCTCTGGATTCTGTAAGAATTCTGCAAGGTCCCTGGTAGCCTTTTACCATAACGGTGCC
ATACCCTGTGAGTGCGACCCTGCTGGGACTGCCGGCCACCACTGTAGTCCTGAGGGTGGGCAGTGCCCTT
GCCGGCCCAATGTCATCGGGAGGCAGTGCAGCCGCTGTGCGACAGGCTACTATGGATTCCCATACTGCAA
GCCTTGTAATTGTGGCAGACGCCTTTGTGAAGAGGTGACAGGGAAGTGTCTCTGCCCACCCCACACAGTC
AGGCCTCAGTGTGAGGTCTGTGAGATGAATTCCTTCAACTTTCACCCTGTGGCTGGCTGTGACGTCTGCA
ACTGCTCCAGGAAGGGCACCATTGAGGCGGCCGTCTCTGAGTGTGACAGGGACAGCGGGCAGTGCAGGTG
CAAGCCTAGAGTCACAGGGCAGCAGTGTGACAAGTGTGCTCCTGGCTTCTACCAGTTCCCTGAGTGTGTC
CCCTGCAGCTGTAACAGAGATGGGACTGAGCCCAGCGTATGTGACCCAGAGACTGGGGCTTGCATGTGCA
AGGAAAATGTAGAGGGCCCCCAATGTCAACTGTGTCGAGAAGGATCATTCTACCTGGACCCAACAAACCC
AAAGGGTTGTACCAAGTGCTTCTGTTTTGGAGTGAATACTGACTGTCAGAGTTCGCATAAGCAACGAGCT
AAGTTTGTAGACATGATGGGCTGGCGTCTGGAGACAGCAGATGGAGTTGATGTCCCTGTGTCCTTCAACC
CTGGCAGCAACAGCATGGTGGCAGATCTGCAGGAGCTGCCACCCTCAGTTCACAGTGCATCCTGGGTGGC
ACCTCCATCCTACCTAGGTGATAAGGTATCATCGTACGGCGGCTACCTCACCTACCACGCCAAGTCCTTT
GGCTTACCTGGAGATATGGTTCTTCTGGGAAAGCAGCCAGATGTGCAGCTCACTGGTCAACACATGTCCC
TCATCCATAAGGAACCCAGCGACCCACGGCCAGACAGGCTGCATCACGGAAGAGTGCAAGTGATTGAGGG
AAACTTCAGACACGAAGGCAGCAGTGCCCCAGTGTCCCGGGAGGAGCTGATGACTGTGCTGTCCAGACTG
GAAAGACTCCACATCCGGGGCCTCCATTTCACCGAGACACAGCGGCTCACCTTGGGTGAGGTAGGGCTGG
AGGAGGCCTCTGACACGGGAAGCGGACCCAGGGCTCATCTTGTGGAGATGTGTGCCTGCCCCCCTGACTA
CACAGGTGACTCATGCCAGGGTTGTCGCCCTGGATACTATTGGGACAACAAAAGCTTACCTGTAGGAAGG
TGTGTTCCCTGCAATTGCAACGGACATTCAAATAGATGCCAGGATGGCTCCGGGATATGCATTAACTGTC
AGCACAACACAGCTGGGGAGCACTGTGAGCGTTGCCAAGCAGGTCACTATGGAAATGCCATCCACGGATC
TTGTAGGGTCTGCCCCTGCCCTCATACCAACAGTTTTGCCACCGGCTGTGCTGTGGATGGTGGAGCTGTG
AGGTGTGCCTGCAAACCCGGATACACAGGAACACAGTGTGAGAGGTGTGCACCAGGATATTTTGGGAACC
CCCAGAAATTTGGAGGTAGCTGCCAGCCATGCAATTGTAACAGCAATGGCCAGTTAGGTCCTTGCGACCC
CCTAACTGGAGACTGTGTAAACCAAGAACCCAAAGATGGCAGCCCTGCAGAAGAATGTGATGACTGCGAC
AGCTGTGTGATGACGCTCTTAAATGACTTGGCCTCCATGGGTGAGGAACTCCGCCTGGTGAAGTCAAAGC
TGCAGGGGCTGAGTGTGAGCACGGGTGCTCTGGAACAGATCCGGCACATGGAGACGCAGGCCAAGGACCT
GAGGAACCAGCTGCTTGGCTTCCGTTCTGCCACCTCAAGTCATGGGTCCAAAATGGATGACCTGGAAAAA
GAGCTGAGTCATTTGAACCGGGAATTTGAAACTCTGCAAGAAAAGGCACAGGTCAATTCCAGAAAAGCAC
AAACATTATATAACAACATTGATCAGACAATCCAAAGTGCCAAAGAACTGGACATGAAGATTAAAAACAT
CGTTCAGAATGTGCACATTCTCCTGAAGCAGATGGCGAGGCCAGGTGGAGAAGGCACGGACTTGCCAGTG
GGTGACTGGTCCAGGGAGCTGGCCGAAGCTCAACGCATGATGCGAGACCTGCGAAGCCGAGACTTTAAAA
AGCACCTCCAAGAAGCAGAGGCCGAGAAAATGGAAGCCCAGCTCTTACTGCACCGGATCAGGACCTGGCT
GGAATCCCACCAGGTGGAGAACAACGGACTGCTAAAGAATATTCGGGACTCCTTAAATGATTATGAAGAC
AAACTTCAGGACCTACGTTCCATCCTCCAGGAGGCAGCTGCCCAGGCAAAGCAGGCCACTGGCATCAACC
ATGAAAATGAGGGGGTTCTCGGAGCCATCCAGAGACAAATGAAAGAAATGGATTCCCTGAAGAATGACTT
CACCAAGTACCTGGCCACAGCCGACTCTTCCCTGCTGCAGACCAACAATCTACTGCAGCAGATGGACAAA
AGCCAGAAGGAATATGAAAGCTTAGCTGCTGCTTTAAATGGAGCAAGACAGGAACTGAGTGACAGAGTGC
GAGAACTGTCCAGATCGGGTGGCAAAGCACCGCTGGTGGTGGAGGCAGAGAAGCATGCACAGTCTTTACA
GGAGCTGGCAAAGCAGCTGGAAGAGATAAAGAGAAACACCAGCGGGGATGAGCTGGTGCGTTGTGCTGTG
GATGCTGCCACGGCCTATGAGAACATCCTCAATGCCATCAGAGCAGCAGAGGATGCAGCCAGCAAGGCCA
CCAGTGCCTCCAAGTCTGCCTTCCAAACAGTGATAAAGGAAGACCTTCCAAAAAGAGCTAAGACCCTGAG
TTCTGACAGCGAGGAACTGTTAAATGAAGCCAAGATGACACAGAAAAGGCTACAGCAAGTCAGTCCAGCT
CTCAACAGCCTACAACAAACCCTGAAGACTGTATCAGTTCAGAAGGACCTGCTAGATGCCAACCTCACTG
TTGCCCGTGATGATCTTCATGGGATACAGAGAGGTGATATCGACAGTGTGGTGATCGGTGCAAAGAGCAT
GGTCAGGGAAGCCAACGGAATAACAAGCGAGGTCCTGGACGGGCTCAACCCCATCCAGACAGATTTGGGA
AGGATTAAGGACAGCTATGAGAGCGCACGGCGTGAAGACTTCAGCAAGGCTCTGGTCGATGCCAATAACT
CAGTAAAGAAATTAACCAGGAAGTTGCCTGATCTTTTTATCAAGATTGAAAGTATCAACCAACAGTTGCT
GCCCCTGGGGAACATCTCTGACAATGTGGACCGAATCCGAGAACTCATTCAGCAGGCCAGAGATGCTGCA
AACAAGGTTGCAATTCCCATGAGGTTCAATGGTAAATCTGGTGTCGAAGTCCGACTGCCGAATGACCTAG
AAGATTTAAAAGGATACACATCTCTGTCTTTGTTTCTCCAAAGACCTGACTTGCGAGAGAACGGAGGCAC
TGAGGATATGTTTGTAATGTACCTTGGGAATAAGGATGCCTCCAAGGACTACATTGGCATGGCGGTTGTA
GATGGCCAGCTGACATGTGTGTACAACCTGGGGGACCGAGAGGCTGAAGTTCAGATAGACCAGGTCCTGA
CGGAGAGTGAGTCTCAGGAGGCAGTTATGGACCGGGTGAAGTTCCAGAGGATATATCAATTTGCCAAGCT
TAATTACACCAAAGAAGCCACATCTACTAAACCCAAAGCCCCTGGGGTCTATGACATGGAGAGCGCCAGT
AGCAACACACTCCTTAATTTGGATCCTGAGAATGCAGTATTTTACGTCGGCGGTTATCCACCTGGTTTTG
AGCTTCCACGCAGACTGCGGTTCCCTCCATACAAAGGCTGTATCGAACTAGATGACCTCAACGAAAACGT
TCTAAGCTTGTACAATTTCAAGACAACTTTCAATCTCAATACCACTGAAGTAGAGCCTTGTAGGAGGAGA
AAGGAAGAGTCGGACAAAAATTACTTTGAAGGCACAGGCTATGCTCGAATTCCTACCCAGCCAAATGCTC
CCTTCCCAAACTTCATGCAGACCATCCAAACTACTGTGGACAGAGGTCTACTGTTCTTCGCAGAAAACCA
GGATAACTTCATATCTCTGAATATAGAAGACGGCAATCTCATGGTAAAATACAAACTAAATTCAGAGCCA
CCCAAAGAGAAAGGAATTCGAGACACCATCAACAACGGGAGAGATCACATGATTTTAATCTCAATTGGAA
AATCACAAAAGCGGATGTTGATAAATATGAATAAACATAGTATAATAATTGAAGGGGAAATATTTGATTT
CAGCACATATTACTTGGGAGGAATTCCAATTGCAATCAGAGAAAGGTTTAACATCTCAACGCCTGCTTTC
CAAGGCTGCATGAAGAATCTGAAGAAAACCAGTGGGGTTGTCAGGTTGAACGATACAGTGGGTGTGACCA
AAAAGTGCTCAGAAGACTGGAAGCTTGTGCGAACCGCCTCGTTCTCCAGAGGAGGACAGATGAGTTTCAC
AAACTTGGATGTGCCCTCACTTGACCGCTTCCAGCTCTCCTTTGGGTTCCAGACCTTTCAACCCAGCGGT
ACACTACTAAACCATCAGACACGGACAAGTAGCCTACTGGTCACCCTGGAAGATGGTCATATTGCGTTGA
GCACCAGGGACAGCAGCAGCCCGATTTTCAAGTCTCCAGGGACCTACATGGATGGTTTACTGCATCATGT
ATCTGTAATAAGCGACACCTCAGGCCTGCGCCTTCTCATCGATGACCAGGTTCTGAGAAGAAACCAAAGG
CTCGCTAGCTTCTCTAATGCCCAGCAGTCGCTCAGCATGGGAGGCGGTTATTTCGAGGGTTGTATCAGCA
ACGTTTTTGTCCAAAGGATGTCACAGAGTCCAGAAGTCCTGGATATGGCCAGCAAGTCTACTAAGAGGGA
TGCATTCCTAGGAGGCTGCAGTTTAAACAAGCCACCTTTTCTTATGTTGTTTAAGAGTCCCAAGGGATTT
AACAAGGCCCGGAGTTTCAATGTCAATCAGCTGTTGCAAGATGCACCTCAGGCTGCAAGGAGCATAGAGG
CTTGGCAAGATGGGAAGTCCTGCCTACCACCTCTGAACACCAAGGCCACTCACAGAGCCCTGCAGTTTGG
GGACAGTCCTACCAGCCACTTGCTATTCAAGCTTCCCCAGGAGCTGCTGAAACCCAGGTTACAGTTTTCT
TTGGACATACAGACAACTTCCTCCAGAGGGCTAGTGTTTCACACAGGCACCAGGGACTCCTTTGTGGCTC
TCTATCTCTCAGAAGGCCATGTCATCTTTGCCTTGGGGGCAGGAGGGAAGAAACTGAGACTCAGAAGCAA
AGAGAGATACCACGATGGGAAGTGGCACTCGGTGGTGTTTGGACTGAGTGGAAGAAAGGTGCACCTGGTG
GTGGATGGGCTGAGGGCCCAGGAAGGCAGTTTGCCTGGAAACTCTACCATCAGCCCCAGAGAACAGGTTT
ACCTGGGGTTGTCACCATCAAGAAAGTCAAAGAGCCTCCCCCAGCACAGTTTTGTGGGGTGTCTGAGGAA
CTTCCAGTTGGACTCAAAACCCCTGGATTCCCCCTCTGCGAGGTCTGGGGTATCTCCCTGCTTAGGTGGC
TCTTTGGAGAAAGGCATTTATTTCTCCCAAGGAGGAGGTCACGTGGTCCTAGCCAATTCCGTGTCCTTGG
AGCCAGCACTTACGCTCACTCTCAGCATTCGCCCACGAAGTCTCACCGGGGTCTTGATCCACATCGCAAG
TCAATCTGGAGAGCACTTAAGTGTCTACATGGAGGCAGGGAAGGTCACGACCTCTATGAACAGTGAGGCA
GGTGGGACCGTGACATCAATTACACCGAAGAGATCTCTGTGTGATGGACAATGGCACTCGGTGACAGTCT
CCATTAAACAGCACACTCTGCATCTGGAACTGGATACAGACAATAGCTACACAGCTGGGCAGCTTTCCTT
CCCACCGAACAGCACCCGAGGGTCACTACACATTGGAGGCGTCCCAGACAAATTGAAAATGCTTACACTC
CCTGTGTGGAACTCATTTTTTGGCTGTCTGAAGAATATTCAAGTAAACCACATCCCTGTCCCCATCACAG
AAGCCACCGATGTCCAAGGTTCTGTCAGCCTGAATGGCTGCCCTGACCACTAA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_010680
Insert Size 9993 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.
Reference Data
RefSeq NM_010680.1, NP_034810.1
RefSeq Size 10343 bp
RefSeq ORF 9993 bp
Locus ID 16774
UniProt ID Q61789
Cytogenetics 18 6.2 cM
Gene Summary Binding to cells via a high affinity receptor, laminin is thought to mediate the attachment, migration and organization of cells into tissues during embryonic development by interacting with other extracellular matrix components.[UniProtKB/Swiss-Prot Function]
Transcript Variant: This variant (1) encodes the longer isoform (3B). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments.

Other Versions

SKU Description Size Price
MG216474 Lama3 (tGFP-tagged) - Mouse laminin alpha 3 (Lama3), (10ug)
    • 10 ug

USD 2,890.00

MR216474 Lama3 (Myc-DDK-tagged) - Mouse laminin, alpha 3 (Lama3)
    • 10 ug

USD 2,690.00

{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

CC100003

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

    • 5 x 200 ul

USD 160.00

MG216474

Lama3 (tGFP-tagged) - Mouse laminin alpha 3 (Lama3), (10ug)

    • 10 ug

USD 2,890.00

MR216474

Lama3 (Myc-DDK-tagged) - Mouse laminin, alpha 3 (Lama3)

    • 10 ug

USD 2,690.00

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.