Lama1 (NM_008480) Mouse Untagged Clone

CAT#: MC225457

Lama1 (untagged) - Mouse laminin, alpha 1 (Lama1), (10ug)

Datasheet
SDS

  "NM_008480" in other vectors (2)

Reconstitution Protocol

USD 2,748.00

13 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

Product Images

Frequently bought together (3)
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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
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Other products for "Lama1"

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Lama1
Synonyms AA408497; Lama
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225457 representing NM_008480
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGCGCGGCAGCGGCACGGGAGCCGCGCTCCTGGTGCTCCTGGCCTCGGTGCTCTGGGTCACCGTGCGGA
GCCAGCAGAGAGGCTTGTTCCCTGCCATTCTCAACCTGGCCACCAATGCCCACATCAGCGCCAATGCTAC
CTGTGGAGAGAAGGGGCCTGAGATGTTCTGCAAACTCGTGGAGCACGTGCCGGGCCGGCCTGTTCGACAC
GCCCAATGCCGGGTCTGTGACGGTAACAGTACGAATCCTAGAGAGCGCCATCCGATATCACACGCAATCG
ATGGCACCAACAACTGGTGGCAGAGCCCCAGTATTCAGAATGGGAGAGAGTATCACTGGGTCACTGTCAC
CCTGGACTTACGGCAGGTCTTTCAAGTTGCATACATCATCATTAAAGCTGCCAATGCCCCTCGGCCTGGA
AACTGGATTTTGGAGCGCTCCGTGGATGGCGTCAAGTTCAAACCCTGGCAGTACTATGCCGTCAGCGATA
CAGAGTGTTTGACCCGCTACAAAATAACTCCACGGCGGGGACCTCCCACTTACAGAGCAGACAACGAAGT
CATCTGCACCTCGTATTATTCAAAGCTGGTGCCACTTGAACATGGAGAGATTCACACATCACTCATCAAT
GGCAGACCCAGCGCTGACGACCCCTCACCCCAGTTGCTGGAATTCACCTCAGCACGGTACATTCGCCTTC
GTCTGCAGCGCATCAGAACACTCAACGCAGACCTCATGACCCTTAGCCATCGGGACCTCAGAGACCTTGA
CCCCATTGTCACAAGACGTTATTACTATTCGATAAAAGACATTTCCGTTGGAGGCATGTGCATTTGCTAC
GGCCATGCCAGCAGCTGCCCGTGGGATGAAGAAGCAAAGCAACTACAGTGTCAGTGTGAACACAATACGT
GTGGCGAGAGCTGCGACAGGTGCTGTCCTGGCTACCATCAGCAGCCCTGGAGGCCCGGAACCATTTCCTC
CGGCAACGAGTGTGAGGAATGCAACTGTCACAACAAAGCCAAAGATTGTTACTATGACAGCAGTGTTGCA
AAGGAGAGGAGAAGCCTGAACACTGCCGGGCAGTACAGTGGAGGAGGGGTTTGTGTCAACTGCTCGCAGA
ATACCACAGGGATCAACTGTGAAACCTGTATCGACCAGTATTACAGACCTCACAAGGTATCTCCTTATGA
TGACCACCCTTGCCGTCCCTGTAACTGTGACCCTGTGGGGTCTCTGAGTTCTGTCTGTATCAAGGATGAC
CGCCATGCCGATTTAGCCAATGGAAAGTGGCCAGGTCAGTGTCCATGTAGGAAAGGTTATGCTGGAGATA
AATGTGACCGCTGCCAGTTTGGCTACCGGGGTTTCCCAAATTGCATCCCCTGTGACTGCAGGACTGTCGG
CAGCCTGAATGAGGATCCATGCATAGAGCCGTGTCTTTGTAAGAAAAATGTTGAGGGTAAGAACTGTGAT
CGCTGCAAGCCAGGATTCTACAACTTGAAGGAACGAAACCCCGAGGGCTGCTCCGAGTGCTTCTGCTTCG
GTGTCTCTGGTGTCTGTGACAGCCTCACGTGGTCCATTAGTCAGGTGACCAATATGTCAGGGTGGCTGGT
CACTGACTTGATGAGCACAAATAAGATCCGGTCCCAGCAAGATGTCCTGGGTGGGCACCGTCAGATCAGC
ATCAACAACACGGCGGTCATGCAGAGGCTGACTTCCACTTACTACTGGGCAGCTCCTGAGGCCTACCTCG
GAAACAAGCTGACAGCATTTGGCGGTTTCCTGAAATACACTGTGTCTTACGACATTCCAGTGGAGACGGT
GGACAGTGACCTCATGTCTCATGCTGACATCATCATCAAGGGGAATGGGCTCACCATAAGCACAAGAGCT
GAGGGCCTGTCCTTGCAACCCTATGAGGAATACTTCAACGTGGTTAGACTTGTGCCTGAGAACTTCCGGG
ACTTTGATACCAGAAGGGAGATTGACCGTGACCAGCTGATGACTGTCCTGGCCAATGTGACACATCTCTT
GATCAGAGCCAATTATAATTCTGCTAAAATGGCGCTCTATAGGCTGGATTCTGTCTCTCTGGACATAGCA
AGCCCTAATGCTATAGACTTGGCAGTGGCTGCTGATGTGGAACACTGTGAATGTCCCCAAGGCTACACGG
GGACCTCCTGTGAGGCCTGCCTCCCTGGCTATTATCGAGTAGACGGGATACTCTTTGGAGGAATCTGTCA
GCCCTGCGAGTGCCACGGGCATGCATCCGAGTGTGACATTCATGGAATTTGCTCTGTGTGTACACACAAC
ACCACGGGGGATCACTGTGAGCAGTGCCTGCCTGGCTTCTATGGGACACCTTCACGTGGGACCCCAGGAG
ACTGCCAGCCTTGTGCCTGCCCTCTCTCCATTGACTCTAACAATTTCAGCCCTACCTGCCACCTCACTGA
TGGAGAGGAAGTGGTTTGTGACCAGTGTGCCCCGGGTTACTCAGGATCCTGGTGTGAGAGATGTGCAGAT
GGTTACTATGGAAACCCAACCGTGCCAGGGGGAACCTGTGTACCATGCAACTGCAGTGGCAATGTTGATC
CCTTGGAGGCTGGCCACTGTGACTCTGTCACAGGGGAATGCCTGAAGTGCTTATGGAACACAGACGGTGC
CCATTGTGAGAGGTGTGCAGATGGCTTCTATGGAGATGCCGTGACTGCCAAAAACTGCCGAGCCTGTGAC
TGCCACGAGAATGGCTCCCTTTCTGGCATCTGCCATCTGGAGACTGGACTGTGTGACTGCAAACCTCACG
TGACAGGACAGCAGTGTGACCAGTGCCTGTCTGGCTACTACGGGTTGGACACGGGGCTTGGCTGTGTGCC
CTGTAACTGCAGTGTGGAAGGCTCTGTATCTGACAACTGCACGGAGGAAGGACAGTGTCACTGTGGACCA
GGTGTCTCTGGGAAACAGTGTGACAGGTGTTCACACGGTTTCTATGCATTCCAGGATGGCGGCTGCACAC
CCTGTGACTGTGCTCATACCCAGAATAACTGTGACCCCGCCTCTGGAGAGTGTCTCTGCCCGCCTCACAC
GCAGGGGCTGAAGTGTGAGGAGTGTGAAGAGGCATACTGGGGTCTGGACCCGGAGCAGGGGTGCCAGGCT
TGCAATTGCAGTGCTGTGGGCTCCACGAGTGCCCAGTGTGATGTTCTCTCTGGCCACTGCCCCTGCAAAA
AAGGGTTTGGTGGGCAGAGCTGCCATCAGTGTTCCCTAGGCTACAGAAGTTTTCCTGACTGTGTCCCCTG
TGGCTGTGACCTGAGGGGGACACTGCCTGACACCTGCGACCTGGAACAGGGTCTCTGCAGCTGCTCAGAG
GACGGTGGTACCTGCTCCTGCAAGGAGAATGCCGTGGGCCCCCAGTGCAGTAAGTGCCAAGCCGGCACCT
TTGCCTTGCGAGGGGACAACCCTCAAGGCTGCAGCCCCTGCTTCTGCTTCGGTCTGTCGCAGCTCTGCTC
AGAGTTGGAGGGTTACGTGAGGACTCTGATAACTCTAGCCTCCGATCAGCCCCTCCTGCATGTGGTTTCA
CAGAGCAACCTCAAGGGCACAATCGAAGGCGTGCATTTCCAGCCTCCTGACACCTTGCTGGACGCAGAGG
CTGTCCGCCAGCATATCTATGCAGAGCCATTTTACTGGCGGCTACCAAAGCAGTTCCAGGGAGACCAGCT
CTTGGCTTATGGTGGGAAACTCCAGTACAGTGTGGCTTTCTACTCTACACTTGGCACCGGAACATCCAAT
TATGAGCCTCAAGTCCTCATCAAAGGAGGTCGGGCCAGGAAGCACGTCATTTATATGGATGCCCCAGCGC
CTGAGAATGGAGTGAGACAGGATTACGAAGTGCGGATGAAAGAGGAATTCTGGAAATATTTTAACTCCGT
GTCTGAGAAACATGTCACACACTCTGATTTTATGTCTGTTCTCAGCAATATTGACTACATCCTCATCAAA
GCATCATACGGCCAGGGACTGCAGCAGAGCAGAATTGCCAACATTTCCATGGAGGTTGGCCGGAAAGCTG
TCGAGCTGCCCGCTGAGGGCGAGGCGGCATTGCTGTTGGAGCTCTGTGTCTGTCCTCCTGGCACCGCAGG
ACACTCCTGTCAGGACTGTGCTCCTGGGTACTACAGAGAAAAGCTCCCAGAAAGTGGTGGCAGGGGACCC
CGCCCTCTGCTGGCTCCTTGTGTGCCCTGCAATTGCAACAACCACAGTGATGTCTGTGACCCCGAAACTG
GAAAGTGCCTGAGCTGCAGGGACCACACATCCGGGGACCACTGTGAGCTGTGTGCTTCTGGCTACTATGG
GAAGGTGACTGGACTGCCTGGAGACTGTACCCCGTGCACCTGTCCTCATCACCCTCCTTTCAGTTTCAGC
CCCACTTGTGTCGTGGAAGGTGACAGTGATTTCCGGTGCAATGCCTGCCTCCCCGGCTATGAAGGACAGT
ACTGTGAAAGGTGCTCTGCAGGCTATCACGGCAACCCTCGAGCAGCAGGTGGTAGCTGCCAAACGTGTGA
TTGCAACCCCCAAGGCTCTGTCCACAGTGACTGTGACCGTGCATCCGGGCAGTGTGTCTGCAAGCCAGGA
GCTACAGGGCTCCACTGTGAGAAATGCCTGCCGAGACACATCCTGATGGAGAGCGACTGTGTTTCCTGTG
ATGATGACTGTGTGGGTCCTTTGCTGAACGACCTGGATTCTGTTGGTGATGCCGTTCTGTCTCTGAACCT
CACGGGCGTTTCCCCTGCTCCCTATGGAATCCTGGAAAATCTGGAAAATACAACTAAATATTTCCAGAGG
TATTTAATAAAGGAAAATGCCAAGAAGATTCGAGCAGAGATCCAGCTCGAAGGGATTGCAGAGCAAACAG
AAAATCTGCAAAAGGAGCTCACCAGAGTGTTAGCACGCCATCAGAAGGTGAACGCTGAAATGGAAAGAAC
TTCCAATGGGACTCAAGCCCTGGCCACGTTCATTGAGCAGCTACATGCAAACATCAAAGAAATCACAGAA
AAGGTGGCAACGTTGAACCAGACGGCGCGTAAAGATTTCCAGCCACCCGTGTCTGCCCTTCAGAGCATGC
ACCAGAACATTTCGTCTCTGCTGGGACTCATCAAGGAAAGGAATTTCACAGAGATGCAGCAGAATGCTAC
CCTTGAGCTCAAGGCTGCTAAAGACTTATTGTCACGGATTCAGAAAAGGTTTCAGAAGCCTCAGGAAAAG
TTGAAGGCATTGAAGGAGGCCAACAGCCTCCTTTCCAACCACAGTGAAAAACTGCAGGCTGCTGAGGAGC
TCCTTAAGGAAGCTGGAAGCAAGACCCAGGAGAGCAACCTCCTGCTGCTCCTTGTCAAGGCCAACCTGAA
AGAATTCCAGGAGAAAAAGCTGCGTGTTCAAGAAGAACAAAATGTGACCTCAGAGCTCATTGCCAAGGGT
AGAGAATGGGTGGATGCTGCCGGGACTCACACAGCTGCTGCACAAGACACCCTAACACAGCTGGAGCATC
ACCGAGATGAACTCCTTCTGTGGGCCAGAAAAATCAGGAGCCACGTAGATGACCTCGTCATGCAGATGTC
CAAACGAAGAGCCCGTGACCTGGTCCACAGGGCAGAGCAGCATGCCTCTGAGCTGCAGAGCAGGGCAGGA
GCTTTGGACAGAGACCTTGAAAATGTTAGAAACGTGTCTTTGAATGCCACCAGTGCGGCACACGTCCACA
GCAACATCCAGACACTGACAGAGGAAGCTGAGATGCTGGCTGCTGATGCTCACAAGACGGCGAATAAGAC
AGACTTGATCTCCGAATCCCTGGCTTCTCGGGGGAAAGCAGTCCTTCAGCGCTCGTCCCGGTTTCTAAAG
GAAAGTGTCAGTACCAGGAGGAAGCAGCAAGGCATTACGATGAAGCTGGATGAGTTGAAAAACTTAACAA
GTCAATTTCAGGAGAGCATGGATAACATTATGAAGCAGGCCAACGACTCCCTTGCGATGCTTAGAGAAAG
CCCTGGAGGTATGAGAGAGAAGGGCAGGAAAGCCAGAGAGCTGGCGGCAGCAGCCAACGAGAGTGCGGTG
AAGACACTGGAGGATGTGCTGGCTTTGAGCCTGAGGGTCTTCAATACATCAGAGGACCTGTCCAGAGTGA
ATGCCACAGTCCAGGAGACAAACGACCTTCTGCATAACTCCACGATGACCACTCTGTTGGCTGGAAGAAA
AATGAAAGACATGGAAATGCAAGCCAACCTTTTATTGGATCGATTGAAACCTTTGAAAACCCTGGAGGAG
AACCTGAGCAGAAACCTGTCGGAGATCAAGCTGCTGATCAGCCGGGCCCGGAAACAAGTGGCGTCGATCA
AAGTCGCCGTGTCTGCAGACAGAGACTGCATCCGCGCCTATCAGCCTCAGACTTCATCTACCAATTACAA
CACCTTGATCCTGAACGTGAAGACGCAGGAGCCCGACAACCTCCTCTTCTACCTCGGCAGCAGCAGCAGT
TCTGACTTTCTCGCAGTGGAGATGCGGCGGGGGAAGGTCGCCTTTCTCTGGGACCTGGGCTCCGGGTCCA
CAAGGTTGGAATTCCCAGAGGTCTCCATCAATAACAACAGATGGCACAGCATCTACATAACCAGGTTTGG
AAACATGGGGTCCCTGAGTGTAAAGGAAGCAAGCGCTGCCGAGAACCCACCGGTCAGGACAAGCAAATCT
CCTGGACCGTCGAAGGTTCTGGACATAAACAATTCAACGCTGATGTTTGTTGGAGGGCTCGGAGGTCAGA
TCAAGAAATCCCCGGCTGTGAAGGTTACTCATTTTAAGGGCTGCATGGGAGAGGCCTTCTTGAATGGCAA
ATCGATTGGCCTGTGGAATTACATCGAGAGAGAGGGGAAGTGCAATGGCTGCTTTGGAAGCTCCCAGAAC
GAAGATTCCTCCTTCCATTTCGATGGAAGCGGGTACGCCATGGTGGAGAAGACGCTCCGGCCCACCGTGA
CGCAGATAGTAATTCTCTTCAGCACCTTCTCCCCGAATGGCCTTCTTTTCTACCTGGCTTCAAACGGCAC
CAAGGACTTCCTATCCATCGAGCTGGTCCGTGGCAGGGTCAAAGTGATGGTGGACCTAGGGTCAGGACCC
CTCACTCTTATGACAGACAGGCGGTATAACAACGGAACCTGGTATAAAATCGCCTTCCAGCGGAACCGGA
AGCAAGGACTGCTAGCTGTCTTCGATGCATATGACACCAGTGACAAGGAGACAAAGCAAGGAGAGACTCC
AGGAGCCGCTTCCGACCTCAATCGGCTGGAGAAAGACCTGATTTACGTGGGTGGATTGCCTCATTCTAAG
GCTGTGAGGAAAGGGGTCAGCAGCAGAAGCTATGTGGGCTGTATCAAGAACCTAGAGATATCCAGGTCCA
CCTTTGATTTGCTGAGAAATTCCTACGGAGTGAGAAAAGGCTGCGCACTGGAGCCTATCCAGAGTGTGAG
TTTCCTGAGAGGCGGCTATGTGGAGATGCCACCCAAGTCTCTCTCACCTGAGTCATCCCTGCTGGCCACA
TTCGCCACCAAGAACAGCAGCGGAATCCTCCTGGTTGCCCTGGGCAAGGATGCGGAGGAGGCTGGTGGGG
CTCAGGCACATGTGCCCTTCTTTTCCATCATGCTGCTTGAGGGACGAATTGAAGTGCATGTCAACTCTGG
GGACGGGACCAGTCTGAGGAAGGCCCTCCTGCATGCCCCCACCGGCTCCTACAGTGATGGACAGGAACAC
TCCATCTCCCTGGTTAGGAATCGGAGAGTTATCACCATACAAGTGGATGAGAACAGTCCCGTAGAAATGA
AGTTGGGTCCATTAACAGAAGGAAAGACGATCGACATATCCAACCTGTACATAGGGGGACTTCCGGAGGA
CAAGGCGACCCCGATGCTCAAGATGCGGACTTCGTTCCATGGGTGTATTAAAAACGTGGTCCTTGACGCT
CAACTTTTGGACTTCACCCATGCGACTGGCTCTGAGCAAGTAGAGCTGGACACATGCTTGCTGGCAGAAG
AGCCCATGCAGAGTCTGCACAGAGAACACGGGGAACTCCCTCCGGAGCCCCCAACTCTACCACAGCCTGA
ACTGTGCGCAGTAGACACGGCTCCGGGGTATGTGGCAGGTGCTCACCAGTTTGGCCTCTCGCAGAACAGC
CACTTGGTGCTCCCTCTGAATCAGTCTGATGTCCGGAAGAGGCTCCAGGTGCAGCTGAGCATTCGGACAT
TTGCCTCCAGTGGCCTCATTTACTATGTGGCTCATCAGAACCAAATGGACTACGCCACGCTCCAGCTCCA
AGAGGGCCGCCTGCACTTCATGTTTGATCTCGGCAAGGGCCGGACCAAGGTCTCCCACCCTGCCCTGCTC
AGTGATGGCAAGTGGCACACAGTCAAGACAGAATACATTAAAAGGAAGGCGTTCATGACTGTTGACGGCC
AAGAGTCCCCCAGTGTGACTGTGGTGGGCAATGCAACCACGCTGGATGTGGAAAGGAAACTGTACCTCGG
AGGCCTTCCCAGCCACTACAGGGCCAGGAACATCGGGACTATCACCCACAGCATCCCTGCCTGCATTGGG
GAAATCATGGTTAATGGCCAACAGCTGGATAAAGACAGGCCCTTGTCTGCCTCTGCTGTGGACAGGTGCT
ATGTCGTGGCTCAGGAAGGAACTTTCTTTGAAGGAAGCGGATATGCAGCTCTTGTCAAGGAAGGTTACAA
AGTTCGATTGGATTTAAATATCACACTGGAGTTCCGTACTACCTCTAAGAATGGCGTCCTCCTGGGAATC
AGCAGTGCCAAAGTGGATGCCATTGGCCTAGAGATTGTAGATGGCAAGGTCTTATTTCACGTCAACAACG
GTGCCGGAAGGATAACAGCCACCTACCAGCCCAGAGCCGCCAGAGCTCTCTGTGATGGCAAGTGGCACAC
ACTCCAAGCCCACAAAAGCAAGCACCGCATCGTCCTGACTGTGGACGGGAATTCCGTTAGGGCTGAAAGC
CCCCACACCCATTCCACCTCGGCAGACACCAACGATCCCATTTATGTGGGTGGCTATCCTGCCCACATCA
AACAGAACTGCCTGAGCAGCCGGGCCTCATTCCGGGGCTGTGTGAGGAACCTCAGGCTGAGCAGGGGCTC
ACAAGTGCAGTCCTTGGACCTGAGCCGAGCCTTTGACCTACAAGGAGTCTTCCCTCATTCCTGCCCCGGG
CCTGAGCCCTAA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_008480
Insert Size 9252 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_008480.2, NP_032506.2
RefSeq Size 9518 bp
RefSeq ORF 9252 bp
Locus ID 16772
UniProt ID P19137
Cytogenetics 17 38.8 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]

Other Versions

SKU Description Size Price
MG227157 Lama1 (tGFP-tagged) - Mouse laminin alpha 1 (Lama1), (10ug)
    • 10 ug

USD 2,947.00

MR227157 Lama1 (Myc-DDK-tagged) - Mouse laminin, alpha 1 (Lama1)
    • 10 ug

USD 2,747.00

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Product Citations

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CC100003

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    • 10 ug

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