LOC397459 cDNA ORF clone, Sus scrofa(Pig)

  • Gene

  • Clones

  • gRNAs

The following LOC397459 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC397459 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OSe245648 XM_021086380.1
Latest version!
Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OSe245649 XM_003124492.6
Latest version!
Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OSe245650 XM_021086381.1
Latest version!
Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OSe245651 XM_021086382.1
Latest version!
Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OSe245651 XM_021086383.1
Latest version!
Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OSe245652 XM_021086384.1
Latest version!
Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OSe33686 XM_003124492.5
Latest version!
Sus scrofa integrin alpha-M (LOC397459), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OSe245648
    Clone ID Related Accession (Same CDS sequence) XM_021086380.1
    Accession Version XM_021086380.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3960bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-12
    Organism Sus scrofa(pig)
    Product integrin alpha-M isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010445.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGTTCTGGA GGCAGGTCCT AGGTCTAGTC CTTGCCTTTC CTGGGGTTTT GGCCGACTCT 
    AGAAGCAGGT GGGCAAACAA AGACACCTTT GGGATGGCGA CCTTGATGGT TGGGGTGGGG
    AAGCCAGGGA GGCAGGGAGG GAGGCCAGGC TGTGTGCAGC CCCGGGGGAG GACGGTCCAG
    CAGGGCTGTG GGCTCCCTGA GCCTCCGCCC TCTTCCTCTG AATATCTGAC AGACTTTGTG
    CCTCCTACTT CTCTTTTTAG GGTCCTTCCT GCGTTTGGTG GCTTCCTTGA AGTGGCTCAG
    TGGGCGCCTG CAGCCTCACG GTTCCTGCTC CCTCCAGCCA TGACTCACAG AATCCTTCTG
    CTGACAGCCT TGGCCTTAAG TCATGGGTTC AACCTGGACA CGGAAAATGC AGTCGTCTTC
    CAGGAAAATG CAAATGGCTT CGGGCAGAGC GTGGTCCAGC TGGAGGGGTC GAGGCTGGTG
    GTTGGAGCCC CCCAGGAGGT AAGGGCTGCC AACCAAACAG GTGGCCTCTA CCAGTGTGAC
    TACAGCACAG GCACATGTGA GCCTATCCGC CTGCAGGTGC CCCCAGAGGC TGTGAACATG
    TCCCTGGGCC TGTCTCTGAC GTTTGCCACT AATCCGTCCC GGCTGCTGGC CTGCGGCCCT
    ACTGTGCACC AAATTTGCAA GGAGAACACC TATGTGAACG GCCTCTGCTT CCTGTTTGGA
    TCCAACCTAC ATCAGCAGCC CCAGAGGGTC CCAGAGACCC TCAGAGGGTG CCCTCAGCAA
    GAGAGTGACA TTGCCTTTTT GATTGATGGT TCCGGTAGCA TCAACCGGTT AGACTTTCAG
    CGGATGAAGG AGTTTGTCTC CACTGTGATG GGTCAATTCC AAAAGTCCAA AACCTTGTTT
    GCTCTGATGC AGTACTCTGA AGACTTCTAC ACTCATTTCA CCTTCAATGA TTTCAAGAGA
    AACCCTTCCC CAGAATTGCT GGTGAGGCCA ATAAGACAGC TGCTGGGGAG GACTCACACC
    GCCACGGGAA TCCGCAAAGT AGTAAGAGAA CTGTTTCACA GCAAGAGTGG AGCCCGGGAG
    AATGCCCTTA AGATCCTAGT TGTCATCACG GACGGAGAAA AGTTCGGCGA TCCTTTGGGG
    TATGAGGATG TCATCCCTGA AGCGGATAGA AAGGGCGTCA TTCGCTACGT CATCGGGGTG
    GGAGATGCCT TCAACAGTTG GAAATCTCGT GAGGAGCTTA ATACCATTGC ATCCAAGCCG
    TCTGGTGATC ACGTGTTCCA GGTGACTAAC TTTGAAGCTC TGAAGACCAT TCAGAACCAG
    CTTCAGGAAA AGATCTTTGC GATTGAGGGT ACACAGACAG GAAGTACCAG CTCCTTTGAG
    TATGAGATGT CTCAGGAAGG CTTCAGTGCA GCCATCACCT CTAATGGTCC CTTGCTGGGC
    GCTGTGGGGA GCTTTGACTG GGCTGGCGGA GCCTTTCTGC ATATGCCAAA GGACAGAGTC
    ATTTTCATCA ACACCACTAG GGTGGATTCA GACATGAACG ATGCTTACTT GGGTTATGCT
    GTCGAAGTCA TCTTGCGGAA CCAGGCGCAA AGCCTGGTCC TGGGGGCGCC TCGATATCAG
    CACACTGGCC TGGTGGTGAT GTTCAAACAG AATTCAGGTG CCTGGGAGAA AAATGCCGAC
    ATCAAGGGCA GCCAGATCGG CTCCTACTTT GGGGCCTCTC TCTGCTCCGT GGACGTGAAC
    AGAGATGGCA GCTCCGACCT GGTCCTCATC GGGGCCCCCC ATTACTATGA GCAGACCCGG
    GGGGGCCAGG TGTCTGTGTG TCCCTTGCCC CAGGGGAGGG CTAAGTGGCA GTGCCGGGTC
    ATTCTCCGCG GGGAGCAAGG CCACCCCTGG AGCCGCTTTG GGGCAGCCCT GACAGCGCTG
    GGGGATGTGA ATGGGGACAA GCTGACGGAC GTGGCCATTG GGGCCCCGGG GGAGCAGGAC
    AACCGGGGTG CTGTCTACCT GTTTCACGGA ACCTCGGAGC TGGGCATCAG CCCCTCCCAC
    AGCCAGCGGA TTGCAGGCTC CCAGCTCTCC CCAAGGCTCC AGTATTTTGG GCAGTCCCTG
    AGCGGGGGCC AGGACCTCAC GATGGATGGA CTGATGGACT TGGCTGTAGG GGCCCAAGGC
    CATGTGTTCC TGCTCAGGTC CCAGCCTGTG CTGAGAGTTG AGGCATCGAT GGTGTTCAAA
    CCCAGGGAAG TGGCGAGGAA TGTGTATGAG TGTCGTCAAC AGGCGGCGAA AACCCAGATT
    GCTGGCGAGG TCCAAGTCTG CCTCCAAGTT CGCAAGAGCA CATGGGACCG GCTGAGAGAA
    GGAGACACCC AGAGCATCAT CACATATGAC CTGGCTCTGG ACCCGGGGCG CCCCCATCCC
    CGGGCCGTCT TTGAGGAGAC AAAGAACAAT ACACGCAGAC AGACCCAGAC GCTGGGGCTG
    AGCCGGAAAT GTGAGCACCT GACGCTGTGG TTACCGGATT GCGTGGAGGA CTCAGTGACG
    CCCATTGTCC TACGCCTCAA CTTCTCTCTG GTGGGAAAGC CTGCATCCTC TTTTGGGAAC
    CTCCGGCCAG TGCTGGCTGT TGATGCTCAA AGACTCTTCA CAGCCTTGTT TCCCTTCGAG
    AAGAATTGCG GCAATGACAG CATCTGCCAG GATGACCTGA GCATCACCTT CAGTTTTATG
    AGCCTGGACA CCCTGGTGGT GGGTGGTCCT CGGGACTTAA AAGTGACCCT GACCGTGAGA
    AACCAGGGCG AGGACTCCTA CAGAACTCAG GTCACCTTCT TCTACCCGTC TGGCTTGTCC
    TATCGGAAGG TGTCAACCTC CCAGAACCAA CGCTCCCAGA GATCCTGGCG CCTGGCCTGT
    GAGTCTGATG TCTCCACTGA AGAGTCTACG GCCTTGAAGA GCACGAGCTG TAGCATAAAC
    CACCCCATCT TCCCGGACAA CTCAGAGGTC ACCTTTAATG TCACATTTGA TGTGAATCCT
    GATGCTTTTT TTGGATACAA ACTCCTTCTC AAGGCCAACG TGACCAGTGA GAACAACATG
    CCCAGCAGCA ACAAAACCGA ATTCCAGCTG GAGCTGCCTG TGAAATACGC TGTCTACGTG
    GTGGTTACCA GCCTTGAGGT TTCCACCAAA TATTTCAACT TCACAGCCTC GGAGAAGACC
    CGCCACGTCA TAGAGCATCA GTATCAGTTC AACAACCTGG GTCAGAGGAA GCTCCCCATC
    AGTGTGGTCT TCTGGGTCCC CGTTCGGCTG AACCGAGTGA CCGTGTGGGA CCAGCCCCAG
    GTCACCTTCT CCCAGAACCT TTCCAGGAGC TGCTCTACCG AGGAGATCGG CCCCCGTCAC
    TCTGATTTCC TGGAGAAGCT TCAGAAGACT CCAGTGCTGG TGGGAATAAG CCTAACCCCA
    GCCGGGGGGC TGCACGCAGC CTCCACATTG GCCCCTCACC GGTGCCCAGT ACCGCGGGGT
    GGGGGTGGGG AAGATGCATG CACGGGGCGT TTCCTGCGTC CAGCTCTCTT GGTCACCCGT
    CTCCTGTCTT GCCTTTCTCA GAACTGCTCC ATCGCTGTCT GCCAGAAAAT CCAGTGTGAC
    ATCCCATCCT TCGGCATCCA GGAAGAACTC AAGGTCACCC TCAAGGGCAA TCTCTCATTT
    GACTGGTACA TCAAGACCTC GCATAACCAC CTTCAAGTGG TGAGCACCGC GGAGGTCTTG
    TTTAATGATT CGCAGTTTGC CCTGCTCCCA GGACAGGAGG CCTTTGTGAG GGCCCAGACA
    GAGACCAAAG TGGAGCCGTA CGAAGTGCAT AACCCTCTCC CACTCATCGT GGGCAGCTCG
    ATAGGGGGGC TGGTGCTCCT GGCCCTTATC ACTGCCGGAC TGTACAAGCT CGGCTTCTTC
    AAACGCCAGT ACAAGGACAT GATGAGTGAA CCTGTTCCTG AACCTGCTGT GCCTCAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_020942039.1
    CDS51..4010
    Translation

    Target ORF information:

    RefSeq Version XM_021086380.1
    Organism Sus scrofa(pig)
    Definition Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021086380.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGTTCTGGA GGCAGGTCCT AGGTCTAGTC CTTGCCTTTC CTGGGGTTTT GGCCGACTCT 
    AGAAGCAGGT GGGCAAACAA AGACACCTTT GGGATGGCGA CCTTGATGGT TGGGGTGGGG
    AAGCCAGGGA GGCAGGGAGG GAGGCCAGGC TGTGTGCAGC CCCGGGGGAG GACGGTCCAG
    CAGGGCTGTG GGCTCCCTGA GCCTCCGCCC TCTTCCTCTG AATATCTGAC AGACTTTGTG
    CCTCCTACTT CTCTTTTTAG GGTCCTTCCT GCGTTTGGTG GCTTCCTTGA AGTGGCTCAG
    TGGGCGCCTG CAGCCTCACG GTTCCTGCTC CCTCCAGCCA TGACTCACAG AATCCTTCTG
    CTGACAGCCT TGGCCTTAAG TCATGGGTTC AACCTGGACA CGGAAAATGC AGTCGTCTTC
    CAGGAAAATG CAAATGGCTT CGGGCAGAGC GTGGTCCAGC TGGAGGGGTC GAGGCTGGTG
    GTTGGAGCCC CCCAGGAGGT AAGGGCTGCC AACCAAACAG GTGGCCTCTA CCAGTGTGAC
    TACAGCACAG GCACATGTGA GCCTATCCGC CTGCAGGTGC CCCCAGAGGC TGTGAACATG
    TCCCTGGGCC TGTCTCTGAC GTTTGCCACT AATCCGTCCC GGCTGCTGGC CTGCGGCCCT
    ACTGTGCACC AAATTTGCAA GGAGAACACC TATGTGAACG GCCTCTGCTT CCTGTTTGGA
    TCCAACCTAC ATCAGCAGCC CCAGAGGGTC CCAGAGACCC TCAGAGGGTG CCCTCAGCAA
    GAGAGTGACA TTGCCTTTTT GATTGATGGT TCCGGTAGCA TCAACCGGTT AGACTTTCAG
    CGGATGAAGG AGTTTGTCTC CACTGTGATG GGTCAATTCC AAAAGTCCAA AACCTTGTTT
    GCTCTGATGC AGTACTCTGA AGACTTCTAC ACTCATTTCA CCTTCAATGA TTTCAAGAGA
    AACCCTTCCC CAGAATTGCT GGTGAGGCCA ATAAGACAGC TGCTGGGGAG GACTCACACC
    GCCACGGGAA TCCGCAAAGT AGTAAGAGAA CTGTTTCACA GCAAGAGTGG AGCCCGGGAG
    AATGCCCTTA AGATCCTAGT TGTCATCACG GACGGAGAAA AGTTCGGCGA TCCTTTGGGG
    TATGAGGATG TCATCCCTGA AGCGGATAGA AAGGGCGTCA TTCGCTACGT CATCGGGGTG
    GGAGATGCCT TCAACAGTTG GAAATCTCGT GAGGAGCTTA ATACCATTGC ATCCAAGCCG
    TCTGGTGATC ACGTGTTCCA GGTGACTAAC TTTGAAGCTC TGAAGACCAT TCAGAACCAG
    CTTCAGGAAA AGATCTTTGC GATTGAGGGT ACACAGACAG GAAGTACCAG CTCCTTTGAG
    TATGAGATGT CTCAGGAAGG CTTCAGTGCA GCCATCACCT CTAATGGTCC CTTGCTGGGC
    GCTGTGGGGA GCTTTGACTG GGCTGGCGGA GCCTTTCTGC ATATGCCAAA GGACAGAGTC
    ATTTTCATCA ACACCACTAG GGTGGATTCA GACATGAACG ATGCTTACTT GGGTTATGCT
    GTCGAAGTCA TCTTGCGGAA CCAGGCGCAA AGCCTGGTCC TGGGGGCGCC TCGATATCAG
    CACACTGGCC TGGTGGTGAT GTTCAAACAG AATTCAGGTG CCTGGGAGAA AAATGCCGAC
    ATCAAGGGCA GCCAGATCGG CTCCTACTTT GGGGCCTCTC TCTGCTCCGT GGACGTGAAC
    AGAGATGGCA GCTCCGACCT GGTCCTCATC GGGGCCCCCC ATTACTATGA GCAGACCCGG
    GGGGGCCAGG TGTCTGTGTG TCCCTTGCCC CAGGGGAGGG CTAAGTGGCA GTGCCGGGTC
    ATTCTCCGCG GGGAGCAAGG CCACCCCTGG AGCCGCTTTG GGGCAGCCCT GACAGCGCTG
    GGGGATGTGA ATGGGGACAA GCTGACGGAC GTGGCCATTG GGGCCCCGGG GGAGCAGGAC
    AACCGGGGTG CTGTCTACCT GTTTCACGGA ACCTCGGAGC TGGGCATCAG CCCCTCCCAC
    AGCCAGCGGA TTGCAGGCTC CCAGCTCTCC CCAAGGCTCC AGTATTTTGG GCAGTCCCTG
    AGCGGGGGCC AGGACCTCAC GATGGATGGA CTGATGGACT TGGCTGTAGG GGCCCAAGGC
    CATGTGTTCC TGCTCAGGTC CCAGCCTGTG CTGAGAGTTG AGGCATCGAT GGTGTTCAAA
    CCCAGGGAAG TGGCGAGGAA TGTGTATGAG TGTCGTCAAC AGGCGGCGAA AACCCAGATT
    GCTGGCGAGG TCCAAGTCTG CCTCCAAGTT CGCAAGAGCA CATGGGACCG GCTGAGAGAA
    GGAGACACCC AGAGCATCAT CACATATGAC CTGGCTCTGG ACCCGGGGCG CCCCCATCCC
    CGGGCCGTCT TTGAGGAGAC AAAGAACAAT ACACGCAGAC AGACCCAGAC GCTGGGGCTG
    AGCCGGAAAT GTGAGCACCT GACGCTGTGG TTACCGGATT GCGTGGAGGA CTCAGTGACG
    CCCATTGTCC TACGCCTCAA CTTCTCTCTG GTGGGAAAGC CTGCATCCTC TTTTGGGAAC
    CTCCGGCCAG TGCTGGCTGT TGATGCTCAA AGACTCTTCA CAGCCTTGTT TCCCTTCGAG
    AAGAATTGCG GCAATGACAG CATCTGCCAG GATGACCTGA GCATCACCTT CAGTTTTATG
    AGCCTGGACA CCCTGGTGGT GGGTGGTCCT CGGGACTTAA AAGTGACCCT GACCGTGAGA
    AACCAGGGCG AGGACTCCTA CAGAACTCAG GTCACCTTCT TCTACCCGTC TGGCTTGTCC
    TATCGGAAGG TGTCAACCTC CCAGAACCAA CGCTCCCAGA GATCCTGGCG CCTGGCCTGT
    GAGTCTGATG TCTCCACTGA AGAGTCTACG GCCTTGAAGA GCACGAGCTG TAGCATAAAC
    CACCCCATCT TCCCGGACAA CTCAGAGGTC ACCTTTAATG TCACATTTGA TGTGAATCCT
    GATGCTTTTT TTGGATACAA ACTCCTTCTC AAGGCCAACG TGACCAGTGA GAACAACATG
    CCCAGCAGCA ACAAAACCGA ATTCCAGCTG GAGCTGCCTG TGAAATACGC TGTCTACGTG
    GTGGTTACCA GCCTTGAGGT TTCCACCAAA TATTTCAACT TCACAGCCTC GGAGAAGACC
    CGCCACGTCA TAGAGCATCA GTATCAGTTC AACAACCTGG GTCAGAGGAA GCTCCCCATC
    AGTGTGGTCT TCTGGGTCCC CGTTCGGCTG AACCGAGTGA CCGTGTGGGA CCAGCCCCAG
    GTCACCTTCT CCCAGAACCT TTCCAGGAGC TGCTCTACCG AGGAGATCGG CCCCCGTCAC
    TCTGATTTCC TGGAGAAGCT TCAGAAGACT CCAGTGCTGG TGGGAATAAG CCTAACCCCA
    GCCGGGGGGC TGCACGCAGC CTCCACATTG GCCCCTCACC GGTGCCCAGT ACCGCGGGGT
    GGGGGTGGGG AAGATGCATG CACGGGGCGT TTCCTGCGTC CAGCTCTCTT GGTCACCCGT
    CTCCTGTCTT GCCTTTCTCA GAACTGCTCC ATCGCTGTCT GCCAGAAAAT CCAGTGTGAC
    ATCCCATCCT TCGGCATCCA GGAAGAACTC AAGGTCACCC TCAAGGGCAA TCTCTCATTT
    GACTGGTACA TCAAGACCTC GCATAACCAC CTTCAAGTGG TGAGCACCGC GGAGGTCTTG
    TTTAATGATT CGCAGTTTGC CCTGCTCCCA GGACAGGAGG CCTTTGTGAG GGCCCAGACA
    GAGACCAAAG TGGAGCCGTA CGAAGTGCAT AACCCTCTCC CACTCATCGT GGGCAGCTCG
    ATAGGGGGGC TGGTGCTCCT GGCCCTTATC ACTGCCGGAC TGTACAAGCT CGGCTTCTTC
    AAACGCCAGT ACAAGGACAT GATGAGTGAA CCTGTTCCTG AACCTGCTGT GCCTCAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OSe245649
    Clone ID Related Accession (Same CDS sequence) XM_003124492.6
    Accession Version XM_003124492.6 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3798bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-12
    Organism Sus scrofa(pig)
    Product integrin alpha-M isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010445.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 13, 2017 this sequence version replaced XM_003124492.5. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGTTCTGGA GGCAGGTCCT AGGTCTAGTC CTTGCCTTTC CTGGGGTTTT GGCCGACTCT 
    AGAAGCAGGT GGGCAAACAA AGACACCTTT GGGATGGCGA CCTTGATGGT TGGGGTGGGG
    AAGCCAGGGA GGCAGGGAGG GAGGCCAGGC TGTGTGCAGC CCCGGGGGAG GACGGTCCAG
    CAGGGCTGTG GGCTCCCTGA GCCTCCGCCC TCTTCCTCTG AATATCTGAC AGACTTTGTG
    CCTCCTACTT CTCTTTTTAG GGTCCTTCCT GCGTTTGGTG GCTTCCTTGA AGTGGCTCAG
    TGGGCGCCTG CAGCCTCACG GTTCCTGCTC CCTCCAGCCA TGACTCACAG AATCCTTCTG
    CTGACAGCCT TGGCCTTAAG TCATGGGTTC AACCTGGACA CGGAAAATGC AGTCGTCTTC
    CAGGAAAATG CAAATGGCTT CGGGCAGAGC GTGGTCCAGC TGGAGGGGTC GAGGCTGGTG
    GTTGGAGCCC CCCAGGAGGT AAGGGCTGCC AACCAAACAG GTGGCCTCTA CCAGTGTGAC
    TACAGCACAG GCACATGTGA GCCTATCCGC CTGCAGGTGC CCCCAGAGGC TGTGAACATG
    TCCCTGGGCC TGTCTCTGAC GTTTGCCACT AATCCGTCCC GGCTGCTGGC CTGCGGCCCT
    ACTGTGCACC AAATTTGCAA GGAGAACACC TATGTGAACG GCCTCTGCTT CCTGTTTGGA
    TCCAACCTAC ATCAGCAGCC CCAGAGGGTC CCAGAGACCC TCAGAGGGTG CCCTCAGCAA
    GAGAGTGACA TTGCCTTTTT GATTGATGGT TCCGGTAGCA TCAACCGGTT AGACTTTCAG
    CGGATGAAGG AGTTTGTCTC CACTGTGATG GGTCAATTCC AAAAGTCCAA AACCTTGTTT
    GCTCTGATGC AGTACTCTGA AGACTTCTAC ACTCATTTCA CCTTCAATGA TTTCAAGAGA
    AACCCTTCCC CAGAATTGCT GGTGAGGCCA ATAAGACAGC TGCTGGGGAG GACTCACACC
    GCCACGGGAA TCCGCAAAGT AGTAAGAGAA CTGTTTCACA GCAAGAGTGG AGCCCGGGAG
    AATGCCCTTA AGATCCTAGT TGTCATCACG GACGGAGAAA AGTTCGGCGA TCCTTTGGGG
    TATGAGGATG TCATCCCTGA AGCGGATAGA AAGGGCGTCA TTCGCTACGT CATCGGGGTG
    GGAGATGCCT TCAACAGTTG GAAATCTCGT GAGGAGCTTA ATACCATTGC ATCCAAGCCG
    TCTGGTGATC ACGTGTTCCA GGTGACTAAC TTTGAAGCTC TGAAGACCAT TCAGAACCAG
    CTTCAGGAAA AGATCTTTGC GATTGAGGGT ACACAGACAG GAAGTACCAG CTCCTTTGAG
    TATGAGATGT CTCAGGAAGG CTTCAGTGCA GCCATCACCT CTAATGGTCC CTTGCTGGGC
    GCTGTGGGGA GCTTTGACTG GGCTGGCGGA GCCTTTCTGC ATATGCCAAA GGACAGAGTC
    ATTTTCATCA ACACCACTAG GGTGGATTCA GACATGAACG ATGCTTACTT GGGTTATGCT
    GTCGAAGTCA TCTTGCGGAA CCAGGCGCAA AGCCTGGTCC TGGGGGCGCC TCGATATCAG
    CACACTGGCC TGGTGGTGAT GTTCAAACAG AATTCAGGTG CCTGGGAGAA AAATGCCGAC
    ATCAAGGGCA GCCAGATCGG CTCCTACTTT GGGGCCTCTC TCTGCTCCGT GGACGTGAAC
    AGAGATGGCA GCTCCGACCT GGTCCTCATC GGGGCCCCCC ATTACTATGA GCAGACCCGG
    GGGGGCCAGG TGTCTGTGTG TCCCTTGCCC CAGGGGAGGG CTAAGTGGCA GTGCCGGGTC
    ATTCTCCGCG GGGAGCAAGG CCACCCCTGG AGCCGCTTTG GGGCAGCCCT GACAGCGCTG
    GGGGATGTGA ATGGGGACAA GCTGACGGAC GTGGCCATTG GGGCCCCGGG GGAGCAGGAC
    AACCGGGGTG CTGTCTACCT GTTTCACGGA ACCTCGGAGC TGGGCATCAG CCCCTCCCAC
    AGCCAGCGGA TTGCAGGCTC CCAGCTCTCC CCAAGGCTCC AGTATTTTGG GCAGTCCCTG
    AGCGGGGGCC AGGACCTCAC GATGGATGGA CTGATGGACT TGGCTGTAGG GGCCCAAGGC
    CATGTGTTCC TGCTCAGGTC CCAGCCTGTG CTGAGAGTTG AGGCATCGAT GGTGTTCAAA
    CCCAGGGAAG TGGCGAGGAA TGTGTATGAG TGTCGTCAAC AGGCGGCGAA AACCCAGATT
    GCTGGCGAGG TCCAAGTCTG CCTCCAAGTT CGCAAGAGCA CATGGGACCG GCTGAGAGAA
    GGAGACACCC AGAGCATCAT CACATATGAC CTGGCTCTGG ACCCGGGGCG CCCCCATCCC
    CGGGCCGTCT TTGAGGAGAC AAAGAACAAT ACACGCAGAC AGACCCAGAC GCTGGGGCTG
    AGCCGGAAAT GTGAGCACCT GACGCTGTGG TTACCGGATT GCGTGGAGGA CTCAGTGACG
    CCCATTGTCC TACGCCTCAA CTTCTCTCTG GTGGGAAAGC CTGCATCCTC TTTTGGGAAC
    CTCCGGCCAG TGCTGGCTGT TGATGCTCAA AGACTCTTCA CAGCCTTGTT TCCCTTCGAG
    AAGAATTGCG GCAATGACAG CATCTGCCAG GATGACCTGA GCATCACCTT CAGTTTTATG
    AGCCTGGACA CCCTGGTGGT GGGTGGTCCT CGGGACTTAA AAGTGACCCT GACCGTGAGA
    AACCAGGGCG AGGACTCCTA CAGAACTCAG GTCACCTTCT TCTACCCGTC TGGCTTGTCC
    TATCGGAAGG TGTCAACCTC CCAGAACCAA CGCTCCCAGA GATCCTGGCG CCTGGCCTGT
    GAGTCTGATG TCTCCACTGA AGAGTCTACG GCCTTGAAGA GCACGAGCTG TAGCATAAAC
    CACCCCATCT TCCCGGACAA CTCAGAGGTC ACCTTTAATG TCACATTTGA TGTGAATCCT
    GATGCTTTTT TTGGATACAA ACTCCTTCTC AAGGCCAACG TGACCAGTGA GAACAACATG
    CCCAGCAGCA ACAAAACCGA ATTCCAGCTG GAGCTGCCTG TGAAATACGC TGTCTACGTG
    GTGGTTACCA GCCTTGAGGT TTCCACCAAA TATTTCAACT TCACAGCCTC GGAGAAGACC
    CGCCACGTCA TAGAGCATCA GTATCAGTTC AACAACCTGG GTCAGAGGAA GCTCCCCATC
    AGTGTGGTCT TCTGGGTCCC CGTTCGGCTG AACCGAGTGA CCGTGTGGGA CCAGCCCCAG
    GTCACCTTCT CCCAGAACCT TTCCAGGAGC TGCTCTACCG AGGAGATCGG CCCCCGTCAC
    TCTGATTTCC TGGAGAAGCT TCAGAAGACT CCAGTGCTGA ACTGCTCCAT CGCTGTCTGC
    CAGAAAATCC AGTGTGACAT CCCATCCTTC GGCATCCAGG AAGAACTCAA GGTCACCCTC
    AAGGGCAATC TCTCATTTGA CTGGTACATC AAGACCTCGC ATAACCACCT TCAAGTGGTG
    AGCACCGCGG AGGTCTTGTT TAATGATTCG CAGTTTGCCC TGCTCCCAGG ACAGGAGGCC
    TTTGTGAGGG CCCAGACAGA GACCAAAGTG GAGCCGTACG AAGTGCATAA CCCTCTCCCA
    CTCATCGTGG GCAGCTCGAT AGGGGGGCTG GTGCTCCTGG CCCTTATCAC TGCCGGACTG
    TACAAGCTCG GCTTCTTCAA ACGCCAGTAC AAGGACATGA TGAGTGAACC TGTTCCTGAA
    CCTGCTGTGC CTCAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_003124540.5
    CDS47..3844
    Translation

    Target ORF information:

    RefSeq Version XM_003124492.6
    Organism Sus scrofa(pig)
    Definition Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003124492.6

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGTTCTGGA GGCAGGTCCT AGGTCTAGTC CTTGCCTTTC CTGGGGTTTT GGCCGACTCT 
    AGAAGCAGGT GGGCAAACAA AGACACCTTT GGGATGGCGA CCTTGATGGT TGGGGTGGGG
    AAGCCAGGGA GGCAGGGAGG GAGGCCAGGC TGTGTGCAGC CCCGGGGGAG GACGGTCCAG
    CAGGGCTGTG GGCTCCCTGA GCCTCCGCCC TCTTCCTCTG AATATCTGAC AGACTTTGTG
    CCTCCTACTT CTCTTTTTAG GGTCCTTCCT GCGTTTGGTG GCTTCCTTGA AGTGGCTCAG
    TGGGCGCCTG CAGCCTCACG GTTCCTGCTC CCTCCAGCCA TGACTCACAG AATCCTTCTG
    CTGACAGCCT TGGCCTTAAG TCATGGGTTC AACCTGGACA CGGAAAATGC AGTCGTCTTC
    CAGGAAAATG CAAATGGCTT CGGGCAGAGC GTGGTCCAGC TGGAGGGGTC GAGGCTGGTG
    GTTGGAGCCC CCCAGGAGGT AAGGGCTGCC AACCAAACAG GTGGCCTCTA CCAGTGTGAC
    TACAGCACAG GCACATGTGA GCCTATCCGC CTGCAGGTGC CCCCAGAGGC TGTGAACATG
    TCCCTGGGCC TGTCTCTGAC GTTTGCCACT AATCCGTCCC GGCTGCTGGC CTGCGGCCCT
    ACTGTGCACC AAATTTGCAA GGAGAACACC TATGTGAACG GCCTCTGCTT CCTGTTTGGA
    TCCAACCTAC ATCAGCAGCC CCAGAGGGTC CCAGAGACCC TCAGAGGGTG CCCTCAGCAA
    GAGAGTGACA TTGCCTTTTT GATTGATGGT TCCGGTAGCA TCAACCGGTT AGACTTTCAG
    CGGATGAAGG AGTTTGTCTC CACTGTGATG GGTCAATTCC AAAAGTCCAA AACCTTGTTT
    GCTCTGATGC AGTACTCTGA AGACTTCTAC ACTCATTTCA CCTTCAATGA TTTCAAGAGA
    AACCCTTCCC CAGAATTGCT GGTGAGGCCA ATAAGACAGC TGCTGGGGAG GACTCACACC
    GCCACGGGAA TCCGCAAAGT AGTAAGAGAA CTGTTTCACA GCAAGAGTGG AGCCCGGGAG
    AATGCCCTTA AGATCCTAGT TGTCATCACG GACGGAGAAA AGTTCGGCGA TCCTTTGGGG
    TATGAGGATG TCATCCCTGA AGCGGATAGA AAGGGCGTCA TTCGCTACGT CATCGGGGTG
    GGAGATGCCT TCAACAGTTG GAAATCTCGT GAGGAGCTTA ATACCATTGC ATCCAAGCCG
    TCTGGTGATC ACGTGTTCCA GGTGACTAAC TTTGAAGCTC TGAAGACCAT TCAGAACCAG
    CTTCAGGAAA AGATCTTTGC GATTGAGGGT ACACAGACAG GAAGTACCAG CTCCTTTGAG
    TATGAGATGT CTCAGGAAGG CTTCAGTGCA GCCATCACCT CTAATGGTCC CTTGCTGGGC
    GCTGTGGGGA GCTTTGACTG GGCTGGCGGA GCCTTTCTGC ATATGCCAAA GGACAGAGTC
    ATTTTCATCA ACACCACTAG GGTGGATTCA GACATGAACG ATGCTTACTT GGGTTATGCT
    GTCGAAGTCA TCTTGCGGAA CCAGGCGCAA AGCCTGGTCC TGGGGGCGCC TCGATATCAG
    CACACTGGCC TGGTGGTGAT GTTCAAACAG AATTCAGGTG CCTGGGAGAA AAATGCCGAC
    ATCAAGGGCA GCCAGATCGG CTCCTACTTT GGGGCCTCTC TCTGCTCCGT GGACGTGAAC
    AGAGATGGCA GCTCCGACCT GGTCCTCATC GGGGCCCCCC ATTACTATGA GCAGACCCGG
    GGGGGCCAGG TGTCTGTGTG TCCCTTGCCC CAGGGGAGGG CTAAGTGGCA GTGCCGGGTC
    ATTCTCCGCG GGGAGCAAGG CCACCCCTGG AGCCGCTTTG GGGCAGCCCT GACAGCGCTG
    GGGGATGTGA ATGGGGACAA GCTGACGGAC GTGGCCATTG GGGCCCCGGG GGAGCAGGAC
    AACCGGGGTG CTGTCTACCT GTTTCACGGA ACCTCGGAGC TGGGCATCAG CCCCTCCCAC
    AGCCAGCGGA TTGCAGGCTC CCAGCTCTCC CCAAGGCTCC AGTATTTTGG GCAGTCCCTG
    AGCGGGGGCC AGGACCTCAC GATGGATGGA CTGATGGACT TGGCTGTAGG GGCCCAAGGC
    CATGTGTTCC TGCTCAGGTC CCAGCCTGTG CTGAGAGTTG AGGCATCGAT GGTGTTCAAA
    CCCAGGGAAG TGGCGAGGAA TGTGTATGAG TGTCGTCAAC AGGCGGCGAA AACCCAGATT
    GCTGGCGAGG TCCAAGTCTG CCTCCAAGTT CGCAAGAGCA CATGGGACCG GCTGAGAGAA
    GGAGACACCC AGAGCATCAT CACATATGAC CTGGCTCTGG ACCCGGGGCG CCCCCATCCC
    CGGGCCGTCT TTGAGGAGAC AAAGAACAAT ACACGCAGAC AGACCCAGAC GCTGGGGCTG
    AGCCGGAAAT GTGAGCACCT GACGCTGTGG TTACCGGATT GCGTGGAGGA CTCAGTGACG
    CCCATTGTCC TACGCCTCAA CTTCTCTCTG GTGGGAAAGC CTGCATCCTC TTTTGGGAAC
    CTCCGGCCAG TGCTGGCTGT TGATGCTCAA AGACTCTTCA CAGCCTTGTT TCCCTTCGAG
    AAGAATTGCG GCAATGACAG CATCTGCCAG GATGACCTGA GCATCACCTT CAGTTTTATG
    AGCCTGGACA CCCTGGTGGT GGGTGGTCCT CGGGACTTAA AAGTGACCCT GACCGTGAGA
    AACCAGGGCG AGGACTCCTA CAGAACTCAG GTCACCTTCT TCTACCCGTC TGGCTTGTCC
    TATCGGAAGG TGTCAACCTC CCAGAACCAA CGCTCCCAGA GATCCTGGCG CCTGGCCTGT
    GAGTCTGATG TCTCCACTGA AGAGTCTACG GCCTTGAAGA GCACGAGCTG TAGCATAAAC
    CACCCCATCT TCCCGGACAA CTCAGAGGTC ACCTTTAATG TCACATTTGA TGTGAATCCT
    GATGCTTTTT TTGGATACAA ACTCCTTCTC AAGGCCAACG TGACCAGTGA GAACAACATG
    CCCAGCAGCA ACAAAACCGA ATTCCAGCTG GAGCTGCCTG TGAAATACGC TGTCTACGTG
    GTGGTTACCA GCCTTGAGGT TTCCACCAAA TATTTCAACT TCACAGCCTC GGAGAAGACC
    CGCCACGTCA TAGAGCATCA GTATCAGTTC AACAACCTGG GTCAGAGGAA GCTCCCCATC
    AGTGTGGTCT TCTGGGTCCC CGTTCGGCTG AACCGAGTGA CCGTGTGGGA CCAGCCCCAG
    GTCACCTTCT CCCAGAACCT TTCCAGGAGC TGCTCTACCG AGGAGATCGG CCCCCGTCAC
    TCTGATTTCC TGGAGAAGCT TCAGAAGACT CCAGTGCTGA ACTGCTCCAT CGCTGTCTGC
    CAGAAAATCC AGTGTGACAT CCCATCCTTC GGCATCCAGG AAGAACTCAA GGTCACCCTC
    AAGGGCAATC TCTCATTTGA CTGGTACATC AAGACCTCGC ATAACCACCT TCAAGTGGTG
    AGCACCGCGG AGGTCTTGTT TAATGATTCG CAGTTTGCCC TGCTCCCAGG ACAGGAGGCC
    TTTGTGAGGG CCCAGACAGA GACCAAAGTG GAGCCGTACG AAGTGCATAA CCCTCTCCCA
    CTCATCGTGG GCAGCTCGAT AGGGGGGCTG GTGCTCCTGG CCCTTATCAC TGCCGGACTG
    TACAAGCTCG GCTTCTTCAA ACGCCAGTAC AAGGACATGA TGAGTGAACC TGTTCCTGAA
    CCTGCTGTGC CTCAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OSe245650
    Clone ID Related Accession (Same CDS sequence) XM_021086381.1
    Accession Version XM_021086381.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3723bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-12
    Organism Sus scrofa(pig)
    Product integrin alpha-M isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010445.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGAATGGA GTTTTGTGGT AAGGGTCCTT CCTGCGTTTG GTGGCTTCCT TGAAGTGGCT 
    CAGTGGGCGC CTGCAGCCTC ACGGTTCCTG CTCCCTCCAG CCATGACTCA CAGAATCCTT
    CTGCTGACAG CCTTGGCCTT AAGTCATGGG TTCAACCTGG ACACGGAAAA TGCAGTCGTC
    TTCCAGGAAA ATGCAAATGG CTTCGGGCAG AGCGTGGTCC AGCTGGAGGG GTCGAGGCTG
    GTGGTTGGAG CCCCCCAGGA GGTAAGGGCT GCCAACCAAA CAGGTGGCCT CTACCAGTGT
    GACTACAGCA CAGGCACATG TGAGCCTATC CGCCTGCAGG TGCCCCCAGA GGCTGTGAAC
    ATGTCCCTGG GCCTGTCTCT GACGTTTGCC ACTAATCCGT CCCGGCTGCT GGCCTGCGGC
    CCTACTGTGC ACCAAATTTG CAAGGAGAAC ACCTATGTGA ACGGCCTCTG CTTCCTGTTT
    GGATCCAACC TACATCAGCA GCCCCAGAGG GTCCCAGAGA CCCTCAGAGG GTGCCCTCAG
    CAAGAGAGTG ACATTGCCTT TTTGATTGAT GGTTCCGGTA GCATCAACCG GTTAGACTTT
    CAGCGGATGA AGGAGTTTGT CTCCACTGTG ATGGGTCAAT TCCAAAAGTC CAAAACCTTG
    TTTGCTCTGA TGCAGTACTC TGAAGACTTC TACACTCATT TCACCTTCAA TGATTTCAAG
    AGAAACCCTT CCCCAGAATT GCTGGTGAGG CCAATAAGAC AGCTGCTGGG GAGGACTCAC
    ACCGCCACGG GAATCCGCAA AGTAGTAAGA GAACTGTTTC ACAGCAAGAG TGGAGCCCGG
    GAGAATGCCC TTAAGATCCT AGTTGTCATC ACGGACGGAG AAAAGTTCGG CGATCCTTTG
    GGGTATGAGG ATGTCATCCC TGAAGCGGAT AGAAAGGGCG TCATTCGCTA CGTCATCGGG
    GTGGGAGATG CCTTCAACAG TTGGAAATCT CGTGAGGAGC TTAATACCAT TGCATCCAAG
    CCGTCTGGTG ATCACGTGTT CCAGGTGACT AACTTTGAAG CTCTGAAGAC CATTCAGAAC
    CAGCTTCAGG AAAAGATCTT TGCGATTGAG GGTACACAGA CAGGAAGTAC CAGCTCCTTT
    GAGTATGAGA TGTCTCAGGA AGGCTTCAGT GCAGCCATCA CCTCTAATGG TCCCTTGCTG
    GGCGCTGTGG GGAGCTTTGA CTGGGCTGGC GGAGCCTTTC TGCATATGCC AAAGGACAGA
    GTCATTTTCA TCAACACCAC TAGGGTGGAT TCAGACATGA ACGATGCTTA CTTGGGTTAT
    GCTGTCGAAG TCATCTTGCG GAACCAGGCG CAAAGCCTGG TCCTGGGGGC GCCTCGATAT
    CAGCACACTG GCCTGGTGGT GATGTTCAAA CAGAATTCAG GTGCCTGGGA GAAAAATGCC
    GACATCAAGG GCAGCCAGAT CGGCTCCTAC TTTGGGGCCT CTCTCTGCTC CGTGGACGTG
    AACAGAGATG GCAGCTCCGA CCTGGTCCTC ATCGGGGCCC CCCATTACTA TGAGCAGACC
    CGGGGGGGCC AGGTGTCTGT GTGTCCCTTG CCCCAGGGGA GGGCTAAGTG GCAGTGCCGG
    GTCATTCTCC GCGGGGAGCA AGGCCACCCC TGGAGCCGCT TTGGGGCAGC CCTGACAGCG
    CTGGGGGATG TGAATGGGGA CAAGCTGACG GACGTGGCCA TTGGGGCCCC GGGGGAGCAG
    GACAACCGGG GTGCTGTCTA CCTGTTTCAC GGAACCTCGG AGCTGGGCAT CAGCCCCTCC
    CACAGCCAGC GGATTGCAGG CTCCCAGCTC TCCCCAAGGC TCCAGTATTT TGGGCAGTCC
    CTGAGCGGGG GCCAGGACCT CACGATGGAT GGACTGATGG ACTTGGCTGT AGGGGCCCAA
    GGCCATGTGT TCCTGCTCAG GTCCCAGCCT GTGCTGAGAG TTGAGGCATC GATGGTGTTC
    AAACCCAGGG AAGTGGCGAG GAATGTGTAT GAGTGTCGTC AACAGGCGGC GAAAACCCAG
    ATTGCTGGCG AGGTCCAAGT CTGCCTCCAA GTTCGCAAGA GCACATGGGA CCGGCTGAGA
    GAAGGAGACA CCCAGAGCAT CATCACATAT GACCTGGCTC TGGACCCGGG GCGCCCCCAT
    CCCCGGGCCG TCTTTGAGGA GACAAAGAAC AATACACGCA GACAGACCCA GACGCTGGGG
    CTGAGCCGGA AATGTGAGCA CCTGACGCTG TGGTTACCGG ATTGCGTGGA GGACTCAGTG
    ACGCCCATTG TCCTACGCCT CAACTTCTCT CTGGTGGGAA AGCCTGCATC CTCTTTTGGG
    AACCTCCGGC CAGTGCTGGC TGTTGATGCT CAAAGACTCT TCACAGCCTT GTTTCCCTTC
    GAGAAGAATT GCGGCAATGA CAGCATCTGC CAGGATGACC TGAGCATCAC CTTCAGTTTT
    ATGAGCCTGG ACACCCTGGT GGTGGGTGGT CCTCGGGACT TAAAAGTGAC CCTGACCGTG
    AGAAACCAGG GCGAGGACTC CTACAGAACT CAGGTCACCT TCTTCTACCC GTCTGGCTTG
    TCCTATCGGA AGGTGTCAAC CTCCCAGAAC CAACGCTCCC AGAGATCCTG GCGCCTGGCC
    TGTGAGTCTG ATGTCTCCAC TGAAGAGTCT ACGGCCTTGA AGAGCACGAG CTGTAGCATA
    AACCACCCCA TCTTCCCGGA CAACTCAGAG GTCACCTTTA ATGTCACATT TGATGTGAAT
    CCTGATGCTT TTTTTGGATA CAAACTCCTT CTCAAGGCCA ACGTGACCAG TGAGAACAAC
    ATGCCCAGCA GCAACAAAAC CGAATTCCAG CTGGAGCTGC CTGTGAAATA CGCTGTCTAC
    GTGGTGGTTA CCAGCCTTGA GGTTTCCACC AAATATTTCA ACTTCACAGC CTCGGAGAAG
    ACCCGCCACG TCATAGAGCA TCAGTATCAG TTCAACAACC TGGGTCAGAG GAAGCTCCCC
    ATCAGTGTGG TCTTCTGGGT CCCCGTTCGG CTGAACCGAG TGACCGTGTG GGACCAGCCC
    CAGGTCACCT TCTCCCAGAA CCTTTCCAGG AGCTGCTCTA CCGAGGAGAT CGGCCCCCGT
    CACTCTGATT TCCTGGAGAA GCTTCAGAAG ACTCCAGTGC TGGTGGGAAT AAGCCTAACC
    CCAGCCGGGG GGCTGCACGC AGCCTCCACA TTGGCCCCTC ACCGGTGCCC AGTACCGCGG
    GGTGGGGGTG GGGAAGATGC ATGCACGGGG CGTTTCCTGC GTCCAGCTCT CTTGGTCACC
    CGTCTCCTGT CTTGCCTTTC TCAGAACTGC TCCATCGCTG TCTGCCAGAA AATCCAGTGT
    GACATCCCAT CCTTCGGCAT CCAGGAAGAA CTCAAGGTCA CCCTCAAGGG CAATCTCTCA
    TTTGACTGGT ACATCAAGAC CTCGCATAAC CACCTTCAAG TGGTGAGCAC CGCGGAGGTC
    TTGTTTAATG ATTCGCAGTT TGCCCTGCTC CCAGGACAGG AGGCCTTTGT GAGGGCCCAG
    ACAGAGACCA AAGTGGAGCC GTACGAAGTG CATAACCCTC TCCCACTCAT CGTGGGCAGC
    TCGATAGGGG GGCTGGTGCT CCTGGCCCTT ATCACTGCCG GACTGTACAA GCTCGGCTTC
    TTCAAACGCC AGTACAAGGA CATGATGAGT GAACCTGTTC CTGAACCTGC TGTGCCTCAG
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_020942040.1
    CDS586..4308
    Translation

    Target ORF information:

    RefSeq Version XM_021086381.1
    Organism Sus scrofa(pig)
    Definition Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021086381.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGAATGGA GTTTTGTGGT AAGGGTCCTT CCTGCGTTTG GTGGCTTCCT TGAAGTGGCT 
    CAGTGGGCGC CTGCAGCCTC ACGGTTCCTG CTCCCTCCAG CCATGACTCA CAGAATCCTT
    CTGCTGACAG CCTTGGCCTT AAGTCATGGG TTCAACCTGG ACACGGAAAA TGCAGTCGTC
    TTCCAGGAAA ATGCAAATGG CTTCGGGCAG AGCGTGGTCC AGCTGGAGGG GTCGAGGCTG
    GTGGTTGGAG CCCCCCAGGA GGTAAGGGCT GCCAACCAAA CAGGTGGCCT CTACCAGTGT
    GACTACAGCA CAGGCACATG TGAGCCTATC CGCCTGCAGG TGCCCCCAGA GGCTGTGAAC
    ATGTCCCTGG GCCTGTCTCT GACGTTTGCC ACTAATCCGT CCCGGCTGCT GGCCTGCGGC
    CCTACTGTGC ACCAAATTTG CAAGGAGAAC ACCTATGTGA ACGGCCTCTG CTTCCTGTTT
    GGATCCAACC TACATCAGCA GCCCCAGAGG GTCCCAGAGA CCCTCAGAGG GTGCCCTCAG
    CAAGAGAGTG ACATTGCCTT TTTGATTGAT GGTTCCGGTA GCATCAACCG GTTAGACTTT
    CAGCGGATGA AGGAGTTTGT CTCCACTGTG ATGGGTCAAT TCCAAAAGTC CAAAACCTTG
    TTTGCTCTGA TGCAGTACTC TGAAGACTTC TACACTCATT TCACCTTCAA TGATTTCAAG
    AGAAACCCTT CCCCAGAATT GCTGGTGAGG CCAATAAGAC AGCTGCTGGG GAGGACTCAC
    ACCGCCACGG GAATCCGCAA AGTAGTAAGA GAACTGTTTC ACAGCAAGAG TGGAGCCCGG
    GAGAATGCCC TTAAGATCCT AGTTGTCATC ACGGACGGAG AAAAGTTCGG CGATCCTTTG
    GGGTATGAGG ATGTCATCCC TGAAGCGGAT AGAAAGGGCG TCATTCGCTA CGTCATCGGG
    GTGGGAGATG CCTTCAACAG TTGGAAATCT CGTGAGGAGC TTAATACCAT TGCATCCAAG
    CCGTCTGGTG ATCACGTGTT CCAGGTGACT AACTTTGAAG CTCTGAAGAC CATTCAGAAC
    CAGCTTCAGG AAAAGATCTT TGCGATTGAG GGTACACAGA CAGGAAGTAC CAGCTCCTTT
    GAGTATGAGA TGTCTCAGGA AGGCTTCAGT GCAGCCATCA CCTCTAATGG TCCCTTGCTG
    GGCGCTGTGG GGAGCTTTGA CTGGGCTGGC GGAGCCTTTC TGCATATGCC AAAGGACAGA
    GTCATTTTCA TCAACACCAC TAGGGTGGAT TCAGACATGA ACGATGCTTA CTTGGGTTAT
    GCTGTCGAAG TCATCTTGCG GAACCAGGCG CAAAGCCTGG TCCTGGGGGC GCCTCGATAT
    CAGCACACTG GCCTGGTGGT GATGTTCAAA CAGAATTCAG GTGCCTGGGA GAAAAATGCC
    GACATCAAGG GCAGCCAGAT CGGCTCCTAC TTTGGGGCCT CTCTCTGCTC CGTGGACGTG
    AACAGAGATG GCAGCTCCGA CCTGGTCCTC ATCGGGGCCC CCCATTACTA TGAGCAGACC
    CGGGGGGGCC AGGTGTCTGT GTGTCCCTTG CCCCAGGGGA GGGCTAAGTG GCAGTGCCGG
    GTCATTCTCC GCGGGGAGCA AGGCCACCCC TGGAGCCGCT TTGGGGCAGC CCTGACAGCG
    CTGGGGGATG TGAATGGGGA CAAGCTGACG GACGTGGCCA TTGGGGCCCC GGGGGAGCAG
    GACAACCGGG GTGCTGTCTA CCTGTTTCAC GGAACCTCGG AGCTGGGCAT CAGCCCCTCC
    CACAGCCAGC GGATTGCAGG CTCCCAGCTC TCCCCAAGGC TCCAGTATTT TGGGCAGTCC
    CTGAGCGGGG GCCAGGACCT CACGATGGAT GGACTGATGG ACTTGGCTGT AGGGGCCCAA
    GGCCATGTGT TCCTGCTCAG GTCCCAGCCT GTGCTGAGAG TTGAGGCATC GATGGTGTTC
    AAACCCAGGG AAGTGGCGAG GAATGTGTAT GAGTGTCGTC AACAGGCGGC GAAAACCCAG
    ATTGCTGGCG AGGTCCAAGT CTGCCTCCAA GTTCGCAAGA GCACATGGGA CCGGCTGAGA
    GAAGGAGACA CCCAGAGCAT CATCACATAT GACCTGGCTC TGGACCCGGG GCGCCCCCAT
    CCCCGGGCCG TCTTTGAGGA GACAAAGAAC AATACACGCA GACAGACCCA GACGCTGGGG
    CTGAGCCGGA AATGTGAGCA CCTGACGCTG TGGTTACCGG ATTGCGTGGA GGACTCAGTG
    ACGCCCATTG TCCTACGCCT CAACTTCTCT CTGGTGGGAA AGCCTGCATC CTCTTTTGGG
    AACCTCCGGC CAGTGCTGGC TGTTGATGCT CAAAGACTCT TCACAGCCTT GTTTCCCTTC
    GAGAAGAATT GCGGCAATGA CAGCATCTGC CAGGATGACC TGAGCATCAC CTTCAGTTTT
    ATGAGCCTGG ACACCCTGGT GGTGGGTGGT CCTCGGGACT TAAAAGTGAC CCTGACCGTG
    AGAAACCAGG GCGAGGACTC CTACAGAACT CAGGTCACCT TCTTCTACCC GTCTGGCTTG
    TCCTATCGGA AGGTGTCAAC CTCCCAGAAC CAACGCTCCC AGAGATCCTG GCGCCTGGCC
    TGTGAGTCTG ATGTCTCCAC TGAAGAGTCT ACGGCCTTGA AGAGCACGAG CTGTAGCATA
    AACCACCCCA TCTTCCCGGA CAACTCAGAG GTCACCTTTA ATGTCACATT TGATGTGAAT
    CCTGATGCTT TTTTTGGATA CAAACTCCTT CTCAAGGCCA ACGTGACCAG TGAGAACAAC
    ATGCCCAGCA GCAACAAAAC CGAATTCCAG CTGGAGCTGC CTGTGAAATA CGCTGTCTAC
    GTGGTGGTTA CCAGCCTTGA GGTTTCCACC AAATATTTCA ACTTCACAGC CTCGGAGAAG
    ACCCGCCACG TCATAGAGCA TCAGTATCAG TTCAACAACC TGGGTCAGAG GAAGCTCCCC
    ATCAGTGTGG TCTTCTGGGT CCCCGTTCGG CTGAACCGAG TGACCGTGTG GGACCAGCCC
    CAGGTCACCT TCTCCCAGAA CCTTTCCAGG AGCTGCTCTA CCGAGGAGAT CGGCCCCCGT
    CACTCTGATT TCCTGGAGAA GCTTCAGAAG ACTCCAGTGC TGGTGGGAAT AAGCCTAACC
    CCAGCCGGGG GGCTGCACGC AGCCTCCACA TTGGCCCCTC ACCGGTGCCC AGTACCGCGG
    GGTGGGGGTG GGGAAGATGC ATGCACGGGG CGTTTCCTGC GTCCAGCTCT CTTGGTCACC
    CGTCTCCTGT CTTGCCTTTC TCAGAACTGC TCCATCGCTG TCTGCCAGAA AATCCAGTGT
    GACATCCCAT CCTTCGGCAT CCAGGAAGAA CTCAAGGTCA CCCTCAAGGG CAATCTCTCA
    TTTGACTGGT ACATCAAGAC CTCGCATAAC CACCTTCAAG TGGTGAGCAC CGCGGAGGTC
    TTGTTTAATG ATTCGCAGTT TGCCCTGCTC CCAGGACAGG AGGCCTTTGT GAGGGCCCAG
    ACAGAGACCA AAGTGGAGCC GTACGAAGTG CATAACCCTC TCCCACTCAT CGTGGGCAGC
    TCGATAGGGG GGCTGGTGCT CCTGGCCCTT ATCACTGCCG GACTGTACAA GCTCGGCTTC
    TTCAAACGCC AGTACAAGGA CATGATGAGT GAACCTGTTC CTGAACCTGC TGTGCCTCAG
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OSe245651
    Clone ID Related Accession (Same CDS sequence) XM_021086382.1 , XM_021086383.1
    Accession Version XM_021086382.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3621bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-12
    Organism Sus scrofa(pig)
    Product integrin alpha-M isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010445.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGACTCACA GAATCCTTCT GCTGACAGCC TTGGCCTTAA GTCATGGGTT CAACCTGGAC 
    ACGGAAAATG CAGTCGTCTT CCAGGAAAAT GCAAATGGCT TCGGGCAGAG CGTGGTCCAG
    CTGGAGGGGT CGAGGCTGGT GGTTGGAGCC CCCCAGGAGG TAAGGGCTGC CAACCAAACA
    GGTGGCCTCT ACCAGTGTGA CTACAGCACA GGCACATGTG AGCCTATCCG CCTGCAGGTG
    CCCCCAGAGG CTGTGAACAT GTCCCTGGGC CTGTCTCTGA CGTTTGCCAC TAATCCGTCC
    CGGCTGCTGG CCTGCGGCCC TACTGTGCAC CAAATTTGCA AGGAGAACAC CTATGTGAAC
    GGCCTCTGCT TCCTGTTTGG ATCCAACCTA CATCAGCAGC CCCAGAGGGT CCCAGAGACC
    CTCAGAGGGT GCCCTCAGCA AGAGAGTGAC ATTGCCTTTT TGATTGATGG TTCCGGTAGC
    ATCAACCGGT TAGACTTTCA GCGGATGAAG GAGTTTGTCT CCACTGTGAT GGGTCAATTC
    CAAAAGTCCA AAACCTTGTT TGCTCTGATG CAGTACTCTG AAGACTTCTA CACTCATTTC
    ACCTTCAATG ATTTCAAGAG AAACCCTTCC CCAGAATTGC TGGTGAGGCC AATAAGACAG
    CTGCTGGGGA GGACTCACAC CGCCACGGGA ATCCGCAAAG TAGTAAGAGA ACTGTTTCAC
    AGCAAGAGTG GAGCCCGGGA GAATGCCCTT AAGATCCTAG TTGTCATCAC GGACGGAGAA
    AAGTTCGGCG ATCCTTTGGG GTATGAGGAT GTCATCCCTG AAGCGGATAG AAAGGGCGTC
    ATTCGCTACG TCATCGGGGT GGGAGATGCC TTCAACAGTT GGAAATCTCG TGAGGAGCTT
    AATACCATTG CATCCAAGCC GTCTGGTGAT CACGTGTTCC AGGTGACTAA CTTTGAAGCT
    CTGAAGACCA TTCAGAACCA GCTTCAGGAA AAGATCTTTG CGATTGAGGG TACACAGACA
    GGAAGTACCA GCTCCTTTGA GTATGAGATG TCTCAGGAAG GCTTCAGTGC AGCCATCACC
    TCTAATGGTC CCTTGCTGGG CGCTGTGGGG AGCTTTGACT GGGCTGGCGG AGCCTTTCTG
    CATATGCCAA AGGACAGAGT CATTTTCATC AACACCACTA GGGTGGATTC AGACATGAAC
    GATGCTTACT TGGGTTATGC TGTCGAAGTC ATCTTGCGGA ACCAGGCGCA AAGCCTGGTC
    CTGGGGGCGC CTCGATATCA GCACACTGGC CTGGTGGTGA TGTTCAAACA GAATTCAGGT
    GCCTGGGAGA AAAATGCCGA CATCAAGGGC AGCCAGATCG GCTCCTACTT TGGGGCCTCT
    CTCTGCTCCG TGGACGTGAA CAGAGATGGC AGCTCCGACC TGGTCCTCAT CGGGGCCCCC
    CATTACTATG AGCAGACCCG GGGGGGCCAG GTGTCTGTGT GTCCCTTGCC CCAGGGGAGG
    GCTAAGTGGC AGTGCCGGGT CATTCTCCGC GGGGAGCAAG GCCACCCCTG GAGCCGCTTT
    GGGGCAGCCC TGACAGCGCT GGGGGATGTG AATGGGGACA AGCTGACGGA CGTGGCCATT
    GGGGCCCCGG GGGAGCAGGA CAACCGGGGT GCTGTCTACC TGTTTCACGG AACCTCGGAG
    CTGGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCAGGCT CCCAGCTCTC CCCAAGGCTC
    CAGTATTTTG GGCAGTCCCT GAGCGGGGGC CAGGACCTCA CGATGGATGG ACTGATGGAC
    TTGGCTGTAG GGGCCCAAGG CCATGTGTTC CTGCTCAGGT CCCAGCCTGT GCTGAGAGTT
    GAGGCATCGA TGGTGTTCAA ACCCAGGGAA GTGGCGAGGA ATGTGTATGA GTGTCGTCAA
    CAGGCGGCGA AAACCCAGAT TGCTGGCGAG GTCCAAGTCT GCCTCCAAGT TCGCAAGAGC
    ACATGGGACC GGCTGAGAGA AGGAGACACC CAGAGCATCA TCACATATGA CCTGGCTCTG
    GACCCGGGGC GCCCCCATCC CCGGGCCGTC TTTGAGGAGA CAAAGAACAA TACACGCAGA
    CAGACCCAGA CGCTGGGGCT GAGCCGGAAA TGTGAGCACC TGACGCTGTG GTTACCGGAT
    TGCGTGGAGG ACTCAGTGAC GCCCATTGTC CTACGCCTCA ACTTCTCTCT GGTGGGAAAG
    CCTGCATCCT CTTTTGGGAA CCTCCGGCCA GTGCTGGCTG TTGATGCTCA AAGACTCTTC
    ACAGCCTTGT TTCCCTTCGA GAAGAATTGC GGCAATGACA GCATCTGCCA GGATGACCTG
    AGCATCACCT TCAGTTTTAT GAGCCTGGAC ACCCTGGTGG TGGGTGGTCC TCGGGACTTA
    AAAGTGACCC TGACCGTGAG AAACCAGGGC GAGGACTCCT ACAGAACTCA GGTCACCTTC
    TTCTACCCGT CTGGCTTGTC CTATCGGAAG GTGTCAACCT CCCAGAACCA ACGCTCCCAG
    AGATCCTGGC GCCTGGCCTG TGAGTCTGAT GTCTCCACTG AAGAGTCTAC GGCCTTGAAG
    AGCACGAGCT GTAGCATAAA CCACCCCATC TTCCCGGACA ACTCAGAGGT CACCTTTAAT
    GTCACATTTG ATGTGAATCC TGATGCTTTT TTTGGATACA AACTCCTTCT CAAGGCCAAC
    GTGACCAGTG AGAACAACAT GCCCAGCAGC AACAAAACCG AATTCCAGCT GGAGCTGCCT
    GTGAAATACG CTGTCTACGT GGTGGTTACC AGCCTTGAGG TTTCCACCAA ATATTTCAAC
    TTCACAGCCT CGGAGAAGAC CCGCCACGTC ATAGAGCATC AGTATCAGTT CAACAACCTG
    GGTCAGAGGA AGCTCCCCAT CAGTGTGGTC TTCTGGGTCC CCGTTCGGCT GAACCGAGTG
    ACCGTGTGGG ACCAGCCCCA GGTCACCTTC TCCCAGAACC TTTCCAGGAG CTGCTCTACC
    GAGGAGATCG GCCCCCGTCA CTCTGATTTC CTGGAGAAGC TTCAGAAGAC TCCAGTGCTG
    GTGGGAATAA GCCTAACCCC AGCCGGGGGG CTGCACGCAG CCTCCACATT GGCCCCTCAC
    CGGTGCCCAG TACCGCGGGG TGGGGGTGGG GAAGATGCAT GCACGGGGCG TTTCCTGCGT
    CCAGCTCTCT TGGTCACCCG TCTCCTGTCT TGCCTTTCTC AGAACTGCTC CATCGCTGTC
    TGCCAGAAAA TCCAGTGTGA CATCCCATCC TTCGGCATCC AGGAAGAACT CAAGGTCACC
    CTCAAGGGCA ATCTCTCATT TGACTGGTAC ATCAAGACCT CGCATAACCA CCTTCAAGTG
    GTGAGCACCG CGGAGGTCTT GTTTAATGAT TCGCAGTTTG CCCTGCTCCC AGGACAGGAG
    GCCTTTGTGA GGGCCCAGAC AGAGACCAAA GTGGAGCCGT ACGAAGTGCA TAACCCTCTC
    CCACTCATCG TGGGCAGCTC GATAGGGGGG CTGGTGCTCC TGGCCCTTAT CACTGCCGGA
    CTGTACAAGC TCGGCTTCTT CAAACGCCAG TACAAGGACA TGATGAGTGA ACCTGTTCCT
    GAACCTGCTG TGCCTCAGTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_020942041.1
    CDS602..4222
    Translation

    Target ORF information:

    RefSeq Version XM_021086382.1
    Organism Sus scrofa(pig)
    Definition Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021086382.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGACTCACA GAATCCTTCT GCTGACAGCC TTGGCCTTAA GTCATGGGTT CAACCTGGAC 
    ACGGAAAATG CAGTCGTCTT CCAGGAAAAT GCAAATGGCT TCGGGCAGAG CGTGGTCCAG
    CTGGAGGGGT CGAGGCTGGT GGTTGGAGCC CCCCAGGAGG TAAGGGCTGC CAACCAAACA
    GGTGGCCTCT ACCAGTGTGA CTACAGCACA GGCACATGTG AGCCTATCCG CCTGCAGGTG
    CCCCCAGAGG CTGTGAACAT GTCCCTGGGC CTGTCTCTGA CGTTTGCCAC TAATCCGTCC
    CGGCTGCTGG CCTGCGGCCC TACTGTGCAC CAAATTTGCA AGGAGAACAC CTATGTGAAC
    GGCCTCTGCT TCCTGTTTGG ATCCAACCTA CATCAGCAGC CCCAGAGGGT CCCAGAGACC
    CTCAGAGGGT GCCCTCAGCA AGAGAGTGAC ATTGCCTTTT TGATTGATGG TTCCGGTAGC
    ATCAACCGGT TAGACTTTCA GCGGATGAAG GAGTTTGTCT CCACTGTGAT GGGTCAATTC
    CAAAAGTCCA AAACCTTGTT TGCTCTGATG CAGTACTCTG AAGACTTCTA CACTCATTTC
    ACCTTCAATG ATTTCAAGAG AAACCCTTCC CCAGAATTGC TGGTGAGGCC AATAAGACAG
    CTGCTGGGGA GGACTCACAC CGCCACGGGA ATCCGCAAAG TAGTAAGAGA ACTGTTTCAC
    AGCAAGAGTG GAGCCCGGGA GAATGCCCTT AAGATCCTAG TTGTCATCAC GGACGGAGAA
    AAGTTCGGCG ATCCTTTGGG GTATGAGGAT GTCATCCCTG AAGCGGATAG AAAGGGCGTC
    ATTCGCTACG TCATCGGGGT GGGAGATGCC TTCAACAGTT GGAAATCTCG TGAGGAGCTT
    AATACCATTG CATCCAAGCC GTCTGGTGAT CACGTGTTCC AGGTGACTAA CTTTGAAGCT
    CTGAAGACCA TTCAGAACCA GCTTCAGGAA AAGATCTTTG CGATTGAGGG TACACAGACA
    GGAAGTACCA GCTCCTTTGA GTATGAGATG TCTCAGGAAG GCTTCAGTGC AGCCATCACC
    TCTAATGGTC CCTTGCTGGG CGCTGTGGGG AGCTTTGACT GGGCTGGCGG AGCCTTTCTG
    CATATGCCAA AGGACAGAGT CATTTTCATC AACACCACTA GGGTGGATTC AGACATGAAC
    GATGCTTACT TGGGTTATGC TGTCGAAGTC ATCTTGCGGA ACCAGGCGCA AAGCCTGGTC
    CTGGGGGCGC CTCGATATCA GCACACTGGC CTGGTGGTGA TGTTCAAACA GAATTCAGGT
    GCCTGGGAGA AAAATGCCGA CATCAAGGGC AGCCAGATCG GCTCCTACTT TGGGGCCTCT
    CTCTGCTCCG TGGACGTGAA CAGAGATGGC AGCTCCGACC TGGTCCTCAT CGGGGCCCCC
    CATTACTATG AGCAGACCCG GGGGGGCCAG GTGTCTGTGT GTCCCTTGCC CCAGGGGAGG
    GCTAAGTGGC AGTGCCGGGT CATTCTCCGC GGGGAGCAAG GCCACCCCTG GAGCCGCTTT
    GGGGCAGCCC TGACAGCGCT GGGGGATGTG AATGGGGACA AGCTGACGGA CGTGGCCATT
    GGGGCCCCGG GGGAGCAGGA CAACCGGGGT GCTGTCTACC TGTTTCACGG AACCTCGGAG
    CTGGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCAGGCT CCCAGCTCTC CCCAAGGCTC
    CAGTATTTTG GGCAGTCCCT GAGCGGGGGC CAGGACCTCA CGATGGATGG ACTGATGGAC
    TTGGCTGTAG GGGCCCAAGG CCATGTGTTC CTGCTCAGGT CCCAGCCTGT GCTGAGAGTT
    GAGGCATCGA TGGTGTTCAA ACCCAGGGAA GTGGCGAGGA ATGTGTATGA GTGTCGTCAA
    CAGGCGGCGA AAACCCAGAT TGCTGGCGAG GTCCAAGTCT GCCTCCAAGT TCGCAAGAGC
    ACATGGGACC GGCTGAGAGA AGGAGACACC CAGAGCATCA TCACATATGA CCTGGCTCTG
    GACCCGGGGC GCCCCCATCC CCGGGCCGTC TTTGAGGAGA CAAAGAACAA TACACGCAGA
    CAGACCCAGA CGCTGGGGCT GAGCCGGAAA TGTGAGCACC TGACGCTGTG GTTACCGGAT
    TGCGTGGAGG ACTCAGTGAC GCCCATTGTC CTACGCCTCA ACTTCTCTCT GGTGGGAAAG
    CCTGCATCCT CTTTTGGGAA CCTCCGGCCA GTGCTGGCTG TTGATGCTCA AAGACTCTTC
    ACAGCCTTGT TTCCCTTCGA GAAGAATTGC GGCAATGACA GCATCTGCCA GGATGACCTG
    AGCATCACCT TCAGTTTTAT GAGCCTGGAC ACCCTGGTGG TGGGTGGTCC TCGGGACTTA
    AAAGTGACCC TGACCGTGAG AAACCAGGGC GAGGACTCCT ACAGAACTCA GGTCACCTTC
    TTCTACCCGT CTGGCTTGTC CTATCGGAAG GTGTCAACCT CCCAGAACCA ACGCTCCCAG
    AGATCCTGGC GCCTGGCCTG TGAGTCTGAT GTCTCCACTG AAGAGTCTAC GGCCTTGAAG
    AGCACGAGCT GTAGCATAAA CCACCCCATC TTCCCGGACA ACTCAGAGGT CACCTTTAAT
    GTCACATTTG ATGTGAATCC TGATGCTTTT TTTGGATACA AACTCCTTCT CAAGGCCAAC
    GTGACCAGTG AGAACAACAT GCCCAGCAGC AACAAAACCG AATTCCAGCT GGAGCTGCCT
    GTGAAATACG CTGTCTACGT GGTGGTTACC AGCCTTGAGG TTTCCACCAA ATATTTCAAC
    TTCACAGCCT CGGAGAAGAC CCGCCACGTC ATAGAGCATC AGTATCAGTT CAACAACCTG
    GGTCAGAGGA AGCTCCCCAT CAGTGTGGTC TTCTGGGTCC CCGTTCGGCT GAACCGAGTG
    ACCGTGTGGG ACCAGCCCCA GGTCACCTTC TCCCAGAACC TTTCCAGGAG CTGCTCTACC
    GAGGAGATCG GCCCCCGTCA CTCTGATTTC CTGGAGAAGC TTCAGAAGAC TCCAGTGCTG
    GTGGGAATAA GCCTAACCCC AGCCGGGGGG CTGCACGCAG CCTCCACATT GGCCCCTCAC
    CGGTGCCCAG TACCGCGGGG TGGGGGTGGG GAAGATGCAT GCACGGGGCG TTTCCTGCGT
    CCAGCTCTCT TGGTCACCCG TCTCCTGTCT TGCCTTTCTC AGAACTGCTC CATCGCTGTC
    TGCCAGAAAA TCCAGTGTGA CATCCCATCC TTCGGCATCC AGGAAGAACT CAAGGTCACC
    CTCAAGGGCA ATCTCTCATT TGACTGGTAC ATCAAGACCT CGCATAACCA CCTTCAAGTG
    GTGAGCACCG CGGAGGTCTT GTTTAATGAT TCGCAGTTTG CCCTGCTCCC AGGACAGGAG
    GCCTTTGTGA GGGCCCAGAC AGAGACCAAA GTGGAGCCGT ACGAAGTGCA TAACCCTCTC
    CCACTCATCG TGGGCAGCTC GATAGGGGGG CTGGTGCTCC TGGCCCTTAT CACTGCCGGA
    CTGTACAAGC TCGGCTTCTT CAAACGCCAG TACAAGGACA TGATGAGTGA ACCTGTTCCT
    GAACCTGCTG TGCCTCAGTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OSe245651
    Clone ID Related Accession (Same CDS sequence) XM_021086382.1 , XM_021086383.1
    Accession Version XM_021086383.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3621bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-12
    Organism Sus scrofa(pig)
    Product integrin alpha-M isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010445.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGACTCACA GAATCCTTCT GCTGACAGCC TTGGCCTTAA GTCATGGGTT CAACCTGGAC 
    ACGGAAAATG CAGTCGTCTT CCAGGAAAAT GCAAATGGCT TCGGGCAGAG CGTGGTCCAG
    CTGGAGGGGT CGAGGCTGGT GGTTGGAGCC CCCCAGGAGG TAAGGGCTGC CAACCAAACA
    GGTGGCCTCT ACCAGTGTGA CTACAGCACA GGCACATGTG AGCCTATCCG CCTGCAGGTG
    CCCCCAGAGG CTGTGAACAT GTCCCTGGGC CTGTCTCTGA CGTTTGCCAC TAATCCGTCC
    CGGCTGCTGG CCTGCGGCCC TACTGTGCAC CAAATTTGCA AGGAGAACAC CTATGTGAAC
    GGCCTCTGCT TCCTGTTTGG ATCCAACCTA CATCAGCAGC CCCAGAGGGT CCCAGAGACC
    CTCAGAGGGT GCCCTCAGCA AGAGAGTGAC ATTGCCTTTT TGATTGATGG TTCCGGTAGC
    ATCAACCGGT TAGACTTTCA GCGGATGAAG GAGTTTGTCT CCACTGTGAT GGGTCAATTC
    CAAAAGTCCA AAACCTTGTT TGCTCTGATG CAGTACTCTG AAGACTTCTA CACTCATTTC
    ACCTTCAATG ATTTCAAGAG AAACCCTTCC CCAGAATTGC TGGTGAGGCC AATAAGACAG
    CTGCTGGGGA GGACTCACAC CGCCACGGGA ATCCGCAAAG TAGTAAGAGA ACTGTTTCAC
    AGCAAGAGTG GAGCCCGGGA GAATGCCCTT AAGATCCTAG TTGTCATCAC GGACGGAGAA
    AAGTTCGGCG ATCCTTTGGG GTATGAGGAT GTCATCCCTG AAGCGGATAG AAAGGGCGTC
    ATTCGCTACG TCATCGGGGT GGGAGATGCC TTCAACAGTT GGAAATCTCG TGAGGAGCTT
    AATACCATTG CATCCAAGCC GTCTGGTGAT CACGTGTTCC AGGTGACTAA CTTTGAAGCT
    CTGAAGACCA TTCAGAACCA GCTTCAGGAA AAGATCTTTG CGATTGAGGG TACACAGACA
    GGAAGTACCA GCTCCTTTGA GTATGAGATG TCTCAGGAAG GCTTCAGTGC AGCCATCACC
    TCTAATGGTC CCTTGCTGGG CGCTGTGGGG AGCTTTGACT GGGCTGGCGG AGCCTTTCTG
    CATATGCCAA AGGACAGAGT CATTTTCATC AACACCACTA GGGTGGATTC AGACATGAAC
    GATGCTTACT TGGGTTATGC TGTCGAAGTC ATCTTGCGGA ACCAGGCGCA AAGCCTGGTC
    CTGGGGGCGC CTCGATATCA GCACACTGGC CTGGTGGTGA TGTTCAAACA GAATTCAGGT
    GCCTGGGAGA AAAATGCCGA CATCAAGGGC AGCCAGATCG GCTCCTACTT TGGGGCCTCT
    CTCTGCTCCG TGGACGTGAA CAGAGATGGC AGCTCCGACC TGGTCCTCAT CGGGGCCCCC
    CATTACTATG AGCAGACCCG GGGGGGCCAG GTGTCTGTGT GTCCCTTGCC CCAGGGGAGG
    GCTAAGTGGC AGTGCCGGGT CATTCTCCGC GGGGAGCAAG GCCACCCCTG GAGCCGCTTT
    GGGGCAGCCC TGACAGCGCT GGGGGATGTG AATGGGGACA AGCTGACGGA CGTGGCCATT
    GGGGCCCCGG GGGAGCAGGA CAACCGGGGT GCTGTCTACC TGTTTCACGG AACCTCGGAG
    CTGGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCAGGCT CCCAGCTCTC CCCAAGGCTC
    CAGTATTTTG GGCAGTCCCT GAGCGGGGGC CAGGACCTCA CGATGGATGG ACTGATGGAC
    TTGGCTGTAG GGGCCCAAGG CCATGTGTTC CTGCTCAGGT CCCAGCCTGT GCTGAGAGTT
    GAGGCATCGA TGGTGTTCAA ACCCAGGGAA GTGGCGAGGA ATGTGTATGA GTGTCGTCAA
    CAGGCGGCGA AAACCCAGAT TGCTGGCGAG GTCCAAGTCT GCCTCCAAGT TCGCAAGAGC
    ACATGGGACC GGCTGAGAGA AGGAGACACC CAGAGCATCA TCACATATGA CCTGGCTCTG
    GACCCGGGGC GCCCCCATCC CCGGGCCGTC TTTGAGGAGA CAAAGAACAA TACACGCAGA
    CAGACCCAGA CGCTGGGGCT GAGCCGGAAA TGTGAGCACC TGACGCTGTG GTTACCGGAT
    TGCGTGGAGG ACTCAGTGAC GCCCATTGTC CTACGCCTCA ACTTCTCTCT GGTGGGAAAG
    CCTGCATCCT CTTTTGGGAA CCTCCGGCCA GTGCTGGCTG TTGATGCTCA AAGACTCTTC
    ACAGCCTTGT TTCCCTTCGA GAAGAATTGC GGCAATGACA GCATCTGCCA GGATGACCTG
    AGCATCACCT TCAGTTTTAT GAGCCTGGAC ACCCTGGTGG TGGGTGGTCC TCGGGACTTA
    AAAGTGACCC TGACCGTGAG AAACCAGGGC GAGGACTCCT ACAGAACTCA GGTCACCTTC
    TTCTACCCGT CTGGCTTGTC CTATCGGAAG GTGTCAACCT CCCAGAACCA ACGCTCCCAG
    AGATCCTGGC GCCTGGCCTG TGAGTCTGAT GTCTCCACTG AAGAGTCTAC GGCCTTGAAG
    AGCACGAGCT GTAGCATAAA CCACCCCATC TTCCCGGACA ACTCAGAGGT CACCTTTAAT
    GTCACATTTG ATGTGAATCC TGATGCTTTT TTTGGATACA AACTCCTTCT CAAGGCCAAC
    GTGACCAGTG AGAACAACAT GCCCAGCAGC AACAAAACCG AATTCCAGCT GGAGCTGCCT
    GTGAAATACG CTGTCTACGT GGTGGTTACC AGCCTTGAGG TTTCCACCAA ATATTTCAAC
    TTCACAGCCT CGGAGAAGAC CCGCCACGTC ATAGAGCATC AGTATCAGTT CAACAACCTG
    GGTCAGAGGA AGCTCCCCAT CAGTGTGGTC TTCTGGGTCC CCGTTCGGCT GAACCGAGTG
    ACCGTGTGGG ACCAGCCCCA GGTCACCTTC TCCCAGAACC TTTCCAGGAG CTGCTCTACC
    GAGGAGATCG GCCCCCGTCA CTCTGATTTC CTGGAGAAGC TTCAGAAGAC TCCAGTGCTG
    GTGGGAATAA GCCTAACCCC AGCCGGGGGG CTGCACGCAG CCTCCACATT GGCCCCTCAC
    CGGTGCCCAG TACCGCGGGG TGGGGGTGGG GAAGATGCAT GCACGGGGCG TTTCCTGCGT
    CCAGCTCTCT TGGTCACCCG TCTCCTGTCT TGCCTTTCTC AGAACTGCTC CATCGCTGTC
    TGCCAGAAAA TCCAGTGTGA CATCCCATCC TTCGGCATCC AGGAAGAACT CAAGGTCACC
    CTCAAGGGCA ATCTCTCATT TGACTGGTAC ATCAAGACCT CGCATAACCA CCTTCAAGTG
    GTGAGCACCG CGGAGGTCTT GTTTAATGAT TCGCAGTTTG CCCTGCTCCC AGGACAGGAG
    GCCTTTGTGA GGGCCCAGAC AGAGACCAAA GTGGAGCCGT ACGAAGTGCA TAACCCTCTC
    CCACTCATCG TGGGCAGCTC GATAGGGGGG CTGGTGCTCC TGGCCCTTAT CACTGCCGGA
    CTGTACAAGC TCGGCTTCTT CAAACGCCAG TACAAGGACA TGATGAGTGA ACCTGTTCCT
    GAACCTGCTG TGCCTCAGTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_020942042.1
    CDS166..3786
    Translation

    Target ORF information:

    RefSeq Version XM_021086383.1
    Organism Sus scrofa(pig)
    Definition Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021086383.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGACTCACA GAATCCTTCT GCTGACAGCC TTGGCCTTAA GTCATGGGTT CAACCTGGAC 
    ACGGAAAATG CAGTCGTCTT CCAGGAAAAT GCAAATGGCT TCGGGCAGAG CGTGGTCCAG
    CTGGAGGGGT CGAGGCTGGT GGTTGGAGCC CCCCAGGAGG TAAGGGCTGC CAACCAAACA
    GGTGGCCTCT ACCAGTGTGA CTACAGCACA GGCACATGTG AGCCTATCCG CCTGCAGGTG
    CCCCCAGAGG CTGTGAACAT GTCCCTGGGC CTGTCTCTGA CGTTTGCCAC TAATCCGTCC
    CGGCTGCTGG CCTGCGGCCC TACTGTGCAC CAAATTTGCA AGGAGAACAC CTATGTGAAC
    GGCCTCTGCT TCCTGTTTGG ATCCAACCTA CATCAGCAGC CCCAGAGGGT CCCAGAGACC
    CTCAGAGGGT GCCCTCAGCA AGAGAGTGAC ATTGCCTTTT TGATTGATGG TTCCGGTAGC
    ATCAACCGGT TAGACTTTCA GCGGATGAAG GAGTTTGTCT CCACTGTGAT GGGTCAATTC
    CAAAAGTCCA AAACCTTGTT TGCTCTGATG CAGTACTCTG AAGACTTCTA CACTCATTTC
    ACCTTCAATG ATTTCAAGAG AAACCCTTCC CCAGAATTGC TGGTGAGGCC AATAAGACAG
    CTGCTGGGGA GGACTCACAC CGCCACGGGA ATCCGCAAAG TAGTAAGAGA ACTGTTTCAC
    AGCAAGAGTG GAGCCCGGGA GAATGCCCTT AAGATCCTAG TTGTCATCAC GGACGGAGAA
    AAGTTCGGCG ATCCTTTGGG GTATGAGGAT GTCATCCCTG AAGCGGATAG AAAGGGCGTC
    ATTCGCTACG TCATCGGGGT GGGAGATGCC TTCAACAGTT GGAAATCTCG TGAGGAGCTT
    AATACCATTG CATCCAAGCC GTCTGGTGAT CACGTGTTCC AGGTGACTAA CTTTGAAGCT
    CTGAAGACCA TTCAGAACCA GCTTCAGGAA AAGATCTTTG CGATTGAGGG TACACAGACA
    GGAAGTACCA GCTCCTTTGA GTATGAGATG TCTCAGGAAG GCTTCAGTGC AGCCATCACC
    TCTAATGGTC CCTTGCTGGG CGCTGTGGGG AGCTTTGACT GGGCTGGCGG AGCCTTTCTG
    CATATGCCAA AGGACAGAGT CATTTTCATC AACACCACTA GGGTGGATTC AGACATGAAC
    GATGCTTACT TGGGTTATGC TGTCGAAGTC ATCTTGCGGA ACCAGGCGCA AAGCCTGGTC
    CTGGGGGCGC CTCGATATCA GCACACTGGC CTGGTGGTGA TGTTCAAACA GAATTCAGGT
    GCCTGGGAGA AAAATGCCGA CATCAAGGGC AGCCAGATCG GCTCCTACTT TGGGGCCTCT
    CTCTGCTCCG TGGACGTGAA CAGAGATGGC AGCTCCGACC TGGTCCTCAT CGGGGCCCCC
    CATTACTATG AGCAGACCCG GGGGGGCCAG GTGTCTGTGT GTCCCTTGCC CCAGGGGAGG
    GCTAAGTGGC AGTGCCGGGT CATTCTCCGC GGGGAGCAAG GCCACCCCTG GAGCCGCTTT
    GGGGCAGCCC TGACAGCGCT GGGGGATGTG AATGGGGACA AGCTGACGGA CGTGGCCATT
    GGGGCCCCGG GGGAGCAGGA CAACCGGGGT GCTGTCTACC TGTTTCACGG AACCTCGGAG
    CTGGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCAGGCT CCCAGCTCTC CCCAAGGCTC
    CAGTATTTTG GGCAGTCCCT GAGCGGGGGC CAGGACCTCA CGATGGATGG ACTGATGGAC
    TTGGCTGTAG GGGCCCAAGG CCATGTGTTC CTGCTCAGGT CCCAGCCTGT GCTGAGAGTT
    GAGGCATCGA TGGTGTTCAA ACCCAGGGAA GTGGCGAGGA ATGTGTATGA GTGTCGTCAA
    CAGGCGGCGA AAACCCAGAT TGCTGGCGAG GTCCAAGTCT GCCTCCAAGT TCGCAAGAGC
    ACATGGGACC GGCTGAGAGA AGGAGACACC CAGAGCATCA TCACATATGA CCTGGCTCTG
    GACCCGGGGC GCCCCCATCC CCGGGCCGTC TTTGAGGAGA CAAAGAACAA TACACGCAGA
    CAGACCCAGA CGCTGGGGCT GAGCCGGAAA TGTGAGCACC TGACGCTGTG GTTACCGGAT
    TGCGTGGAGG ACTCAGTGAC GCCCATTGTC CTACGCCTCA ACTTCTCTCT GGTGGGAAAG
    CCTGCATCCT CTTTTGGGAA CCTCCGGCCA GTGCTGGCTG TTGATGCTCA AAGACTCTTC
    ACAGCCTTGT TTCCCTTCGA GAAGAATTGC GGCAATGACA GCATCTGCCA GGATGACCTG
    AGCATCACCT TCAGTTTTAT GAGCCTGGAC ACCCTGGTGG TGGGTGGTCC TCGGGACTTA
    AAAGTGACCC TGACCGTGAG AAACCAGGGC GAGGACTCCT ACAGAACTCA GGTCACCTTC
    TTCTACCCGT CTGGCTTGTC CTATCGGAAG GTGTCAACCT CCCAGAACCA ACGCTCCCAG
    AGATCCTGGC GCCTGGCCTG TGAGTCTGAT GTCTCCACTG AAGAGTCTAC GGCCTTGAAG
    AGCACGAGCT GTAGCATAAA CCACCCCATC TTCCCGGACA ACTCAGAGGT CACCTTTAAT
    GTCACATTTG ATGTGAATCC TGATGCTTTT TTTGGATACA AACTCCTTCT CAAGGCCAAC
    GTGACCAGTG AGAACAACAT GCCCAGCAGC AACAAAACCG AATTCCAGCT GGAGCTGCCT
    GTGAAATACG CTGTCTACGT GGTGGTTACC AGCCTTGAGG TTTCCACCAA ATATTTCAAC
    TTCACAGCCT CGGAGAAGAC CCGCCACGTC ATAGAGCATC AGTATCAGTT CAACAACCTG
    GGTCAGAGGA AGCTCCCCAT CAGTGTGGTC TTCTGGGTCC CCGTTCGGCT GAACCGAGTG
    ACCGTGTGGG ACCAGCCCCA GGTCACCTTC TCCCAGAACC TTTCCAGGAG CTGCTCTACC
    GAGGAGATCG GCCCCCGTCA CTCTGATTTC CTGGAGAAGC TTCAGAAGAC TCCAGTGCTG
    GTGGGAATAA GCCTAACCCC AGCCGGGGGG CTGCACGCAG CCTCCACATT GGCCCCTCAC
    CGGTGCCCAG TACCGCGGGG TGGGGGTGGG GAAGATGCAT GCACGGGGCG TTTCCTGCGT
    CCAGCTCTCT TGGTCACCCG TCTCCTGTCT TGCCTTTCTC AGAACTGCTC CATCGCTGTC
    TGCCAGAAAA TCCAGTGTGA CATCCCATCC TTCGGCATCC AGGAAGAACT CAAGGTCACC
    CTCAAGGGCA ATCTCTCATT TGACTGGTAC ATCAAGACCT CGCATAACCA CCTTCAAGTG
    GTGAGCACCG CGGAGGTCTT GTTTAATGAT TCGCAGTTTG CCCTGCTCCC AGGACAGGAG
    GCCTTTGTGA GGGCCCAGAC AGAGACCAAA GTGGAGCCGT ACGAAGTGCA TAACCCTCTC
    CCACTCATCG TGGGCAGCTC GATAGGGGGG CTGGTGCTCC TGGCCCTTAT CACTGCCGGA
    CTGTACAAGC TCGGCTTCTT CAAACGCCAG TACAAGGACA TGATGAGTGA ACCTGTTCCT
    GAACCTGCTG TGCCTCAGTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OSe245652
    Clone ID Related Accession (Same CDS sequence) XM_021086384.1
    Accession Version XM_021086384.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3459bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-12
    Organism Sus scrofa(pig)
    Product integrin alpha-M isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010445.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGACTCACA GAATCCTTCT GCTGACAGCC TTGGCCTTAA GTCATGGGTT CAACCTGGAC 
    ACGGAAAATG CAGTCGTCTT CCAGGAAAAT GCAAATGGCT TCGGGCAGAG CGTGGTCCAG
    CTGGAGGGGT CGAGGCTGGT GGTTGGAGCC CCCCAGGAGG TAAGGGCTGC CAACCAAACA
    GGTGGCCTCT ACCAGTGTGA CTACAGCACA GGCACATGTG AGCCTATCCG CCTGCAGGTG
    CCCCCAGAGG CTGTGAACAT GTCCCTGGGC CTGTCTCTGA CGTTTGCCAC TAATCCGTCC
    CGGCTGCTGG CCTGCGGCCC TACTGTGCAC CAAATTTGCA AGGAGAACAC CTATGTGAAC
    GGCCTCTGCT TCCTGTTTGG ATCCAACCTA CATCAGCAGC CCCAGAGGGT CCCAGAGACC
    CTCAGAGGGT GCCCTCAGCA AGAGAGTGAC ATTGCCTTTT TGATTGATGG TTCCGGTAGC
    ATCAACCGGT TAGACTTTCA GCGGATGAAG GAGTTTGTCT CCACTGTGAT GGGTCAATTC
    CAAAAGTCCA AAACCTTGTT TGCTCTGATG CAGTACTCTG AAGACTTCTA CACTCATTTC
    ACCTTCAATG ATTTCAAGAG AAACCCTTCC CCAGAATTGC TGGTGAGGCC AATAAGACAG
    CTGCTGGGGA GGACTCACAC CGCCACGGGA ATCCGCAAAG TAGTAAGAGA ACTGTTTCAC
    AGCAAGAGTG GAGCCCGGGA GAATGCCCTT AAGATCCTAG TTGTCATCAC GGACGGAGAA
    AAGTTCGGCG ATCCTTTGGG GTATGAGGAT GTCATCCCTG AAGCGGATAG AAAGGGCGTC
    ATTCGCTACG TCATCGGGGT GGGAGATGCC TTCAACAGTT GGAAATCTCG TGAGGAGCTT
    AATACCATTG CATCCAAGCC GTCTGGTGAT CACGTGTTCC AGGTGACTAA CTTTGAAGCT
    CTGAAGACCA TTCAGAACCA GCTTCAGGAA AAGATCTTTG CGATTGAGGG TACACAGACA
    GGAAGTACCA GCTCCTTTGA GTATGAGATG TCTCAGGAAG GCTTCAGTGC AGCCATCACC
    TCTAATGGTC CCTTGCTGGG CGCTGTGGGG AGCTTTGACT GGGCTGGCGG AGCCTTTCTG
    CATATGCCAA AGGACAGAGT CATTTTCATC AACACCACTA GGGTGGATTC AGACATGAAC
    GATGCTTACT TGGGTTATGC TGTCGAAGTC ATCTTGCGGA ACCAGGCGCA AAGCCTGGTC
    CTGGGGGCGC CTCGATATCA GCACACTGGC CTGGTGGTGA TGTTCAAACA GAATTCAGGT
    GCCTGGGAGA AAAATGCCGA CATCAAGGGC AGCCAGATCG GCTCCTACTT TGGGGCCTCT
    CTCTGCTCCG TGGACGTGAA CAGAGATGGC AGCTCCGACC TGGTCCTCAT CGGGGCCCCC
    CATTACTATG AGCAGACCCG GGGGGGCCAG GTGTCTGTGT GTCCCTTGCC CCAGGGGAGG
    GCTAAGTGGC AGTGCCGGGT CATTCTCCGC GGGGAGCAAG GCCACCCCTG GAGCCGCTTT
    GGGGCAGCCC TGACAGCGCT GGGGGATGTG AATGGGGACA AGCTGACGGA CGTGGCCATT
    GGGGCCCCGG GGGAGCAGGA CAACCGGGGT GCTGTCTACC TGTTTCACGG AACCTCGGAG
    CTGGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCAGGCT CCCAGCTCTC CCCAAGGCTC
    CAGTATTTTG GGCAGTCCCT GAGCGGGGGC CAGGACCTCA CGATGGATGG ACTGATGGAC
    TTGGCTGTAG GGGCCCAAGG CCATGTGTTC CTGCTCAGGT CCCAGCCTGT GCTGAGAGTT
    GAGGCATCGA TGGTGTTCAA ACCCAGGGAA GTGGCGAGGA ATGTGTATGA GTGTCGTCAA
    CAGGCGGCGA AAACCCAGAT TGCTGGCGAG GTCCAAGTCT GCCTCCAAGT TCGCAAGAGC
    ACATGGGACC GGCTGAGAGA AGGAGACACC CAGAGCATCA TCACATATGA CCTGGCTCTG
    GACCCGGGGC GCCCCCATCC CCGGGCCGTC TTTGAGGAGA CAAAGAACAA TACACGCAGA
    CAGACCCAGA CGCTGGGGCT GAGCCGGAAA TGTGAGCACC TGACGCTGTG GTTACCGGAT
    TGCGTGGAGG ACTCAGTGAC GCCCATTGTC CTACGCCTCA ACTTCTCTCT GGTGGGAAAG
    CCTGCATCCT CTTTTGGGAA CCTCCGGCCA GTGCTGGCTG TTGATGCTCA AAGACTCTTC
    ACAGCCTTGT TTCCCTTCGA GAAGAATTGC GGCAATGACA GCATCTGCCA GGATGACCTG
    AGCATCACCT TCAGTTTTAT GAGCCTGGAC ACCCTGGTGG TGGGTGGTCC TCGGGACTTA
    AAAGTGACCC TGACCGTGAG AAACCAGGGC GAGGACTCCT ACAGAACTCA GGTCACCTTC
    TTCTACCCGT CTGGCTTGTC CTATCGGAAG GTGTCAACCT CCCAGAACCA ACGCTCCCAG
    AGATCCTGGC GCCTGGCCTG TGAGTCTGAT GTCTCCACTG AAGAGTCTAC GGCCTTGAAG
    AGCACGAGCT GTAGCATAAA CCACCCCATC TTCCCGGACA ACTCAGAGGT CACCTTTAAT
    GTCACATTTG ATGTGAATCC TGATGCTTTT TTTGGATACA AACTCCTTCT CAAGGCCAAC
    GTGACCAGTG AGAACAACAT GCCCAGCAGC AACAAAACCG AATTCCAGCT GGAGCTGCCT
    GTGAAATACG CTGTCTACGT GGTGGTTACC AGCCTTGAGG TTTCCACCAA ATATTTCAAC
    TTCACAGCCT CGGAGAAGAC CCGCCACGTC ATAGAGCATC AGTATCAGTT CAACAACCTG
    GGTCAGAGGA AGCTCCCCAT CAGTGTGGTC TTCTGGGTCC CCGTTCGGCT GAACCGAGTG
    ACCGTGTGGG ACCAGCCCCA GGTCACCTTC TCCCAGAACC TTTCCAGGAG CTGCTCTACC
    GAGGAGATCG GCCCCCGTCA CTCTGATTTC CTGGAGAAGC TTCAGAAGAC TCCAGTGCTG
    AACTGCTCCA TCGCTGTCTG CCAGAAAATC CAGTGTGACA TCCCATCCTT CGGCATCCAG
    GAAGAACTCA AGGTCACCCT CAAGGGCAAT CTCTCATTTG ACTGGTACAT CAAGACCTCG
    CATAACCACC TTCAAGTGGT GAGCACCGCG GAGGTCTTGT TTAATGATTC GCAGTTTGCC
    CTGCTCCCAG GACAGGAGGC CTTTGTGAGG GCCCAGACAG AGACCAAAGT GGAGCCGTAC
    GAAGTGCATA ACCCTCTCCC ACTCATCGTG GGCAGCTCGA TAGGGGGGCT GGTGCTCCTG
    GCCCTTATCA CTGCCGGACT GTACAAGCTC GGCTTCTTCA AACGCCAGTA CAAGGACATG
    ATGAGTGAAC CTGTTCCTGA ACCTGCTGTG CCTCAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_020942043.1
    CDS599..4057
    Translation

    Target ORF information:

    RefSeq Version XM_021086384.1
    Organism Sus scrofa(pig)
    Definition Sus scrofa integrin subunit alpha M (ITGAM), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021086384.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGACTCACA GAATCCTTCT GCTGACAGCC TTGGCCTTAA GTCATGGGTT CAACCTGGAC 
    ACGGAAAATG CAGTCGTCTT CCAGGAAAAT GCAAATGGCT TCGGGCAGAG CGTGGTCCAG
    CTGGAGGGGT CGAGGCTGGT GGTTGGAGCC CCCCAGGAGG TAAGGGCTGC CAACCAAACA
    GGTGGCCTCT ACCAGTGTGA CTACAGCACA GGCACATGTG AGCCTATCCG CCTGCAGGTG
    CCCCCAGAGG CTGTGAACAT GTCCCTGGGC CTGTCTCTGA CGTTTGCCAC TAATCCGTCC
    CGGCTGCTGG CCTGCGGCCC TACTGTGCAC CAAATTTGCA AGGAGAACAC CTATGTGAAC
    GGCCTCTGCT TCCTGTTTGG ATCCAACCTA CATCAGCAGC CCCAGAGGGT CCCAGAGACC
    CTCAGAGGGT GCCCTCAGCA AGAGAGTGAC ATTGCCTTTT TGATTGATGG TTCCGGTAGC
    ATCAACCGGT TAGACTTTCA GCGGATGAAG GAGTTTGTCT CCACTGTGAT GGGTCAATTC
    CAAAAGTCCA AAACCTTGTT TGCTCTGATG CAGTACTCTG AAGACTTCTA CACTCATTTC
    ACCTTCAATG ATTTCAAGAG AAACCCTTCC CCAGAATTGC TGGTGAGGCC AATAAGACAG
    CTGCTGGGGA GGACTCACAC CGCCACGGGA ATCCGCAAAG TAGTAAGAGA ACTGTTTCAC
    AGCAAGAGTG GAGCCCGGGA GAATGCCCTT AAGATCCTAG TTGTCATCAC GGACGGAGAA
    AAGTTCGGCG ATCCTTTGGG GTATGAGGAT GTCATCCCTG AAGCGGATAG AAAGGGCGTC
    ATTCGCTACG TCATCGGGGT GGGAGATGCC TTCAACAGTT GGAAATCTCG TGAGGAGCTT
    AATACCATTG CATCCAAGCC GTCTGGTGAT CACGTGTTCC AGGTGACTAA CTTTGAAGCT
    CTGAAGACCA TTCAGAACCA GCTTCAGGAA AAGATCTTTG CGATTGAGGG TACACAGACA
    GGAAGTACCA GCTCCTTTGA GTATGAGATG TCTCAGGAAG GCTTCAGTGC AGCCATCACC
    TCTAATGGTC CCTTGCTGGG CGCTGTGGGG AGCTTTGACT GGGCTGGCGG AGCCTTTCTG
    CATATGCCAA AGGACAGAGT CATTTTCATC AACACCACTA GGGTGGATTC AGACATGAAC
    GATGCTTACT TGGGTTATGC TGTCGAAGTC ATCTTGCGGA ACCAGGCGCA AAGCCTGGTC
    CTGGGGGCGC CTCGATATCA GCACACTGGC CTGGTGGTGA TGTTCAAACA GAATTCAGGT
    GCCTGGGAGA AAAATGCCGA CATCAAGGGC AGCCAGATCG GCTCCTACTT TGGGGCCTCT
    CTCTGCTCCG TGGACGTGAA CAGAGATGGC AGCTCCGACC TGGTCCTCAT CGGGGCCCCC
    CATTACTATG AGCAGACCCG GGGGGGCCAG GTGTCTGTGT GTCCCTTGCC CCAGGGGAGG
    GCTAAGTGGC AGTGCCGGGT CATTCTCCGC GGGGAGCAAG GCCACCCCTG GAGCCGCTTT
    GGGGCAGCCC TGACAGCGCT GGGGGATGTG AATGGGGACA AGCTGACGGA CGTGGCCATT
    GGGGCCCCGG GGGAGCAGGA CAACCGGGGT GCTGTCTACC TGTTTCACGG AACCTCGGAG
    CTGGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCAGGCT CCCAGCTCTC CCCAAGGCTC
    CAGTATTTTG GGCAGTCCCT GAGCGGGGGC CAGGACCTCA CGATGGATGG ACTGATGGAC
    TTGGCTGTAG GGGCCCAAGG CCATGTGTTC CTGCTCAGGT CCCAGCCTGT GCTGAGAGTT
    GAGGCATCGA TGGTGTTCAA ACCCAGGGAA GTGGCGAGGA ATGTGTATGA GTGTCGTCAA
    CAGGCGGCGA AAACCCAGAT TGCTGGCGAG GTCCAAGTCT GCCTCCAAGT TCGCAAGAGC
    ACATGGGACC GGCTGAGAGA AGGAGACACC CAGAGCATCA TCACATATGA CCTGGCTCTG
    GACCCGGGGC GCCCCCATCC CCGGGCCGTC TTTGAGGAGA CAAAGAACAA TACACGCAGA
    CAGACCCAGA CGCTGGGGCT GAGCCGGAAA TGTGAGCACC TGACGCTGTG GTTACCGGAT
    TGCGTGGAGG ACTCAGTGAC GCCCATTGTC CTACGCCTCA ACTTCTCTCT GGTGGGAAAG
    CCTGCATCCT CTTTTGGGAA CCTCCGGCCA GTGCTGGCTG TTGATGCTCA AAGACTCTTC
    ACAGCCTTGT TTCCCTTCGA GAAGAATTGC GGCAATGACA GCATCTGCCA GGATGACCTG
    AGCATCACCT TCAGTTTTAT GAGCCTGGAC ACCCTGGTGG TGGGTGGTCC TCGGGACTTA
    AAAGTGACCC TGACCGTGAG AAACCAGGGC GAGGACTCCT ACAGAACTCA GGTCACCTTC
    TTCTACCCGT CTGGCTTGTC CTATCGGAAG GTGTCAACCT CCCAGAACCA ACGCTCCCAG
    AGATCCTGGC GCCTGGCCTG TGAGTCTGAT GTCTCCACTG AAGAGTCTAC GGCCTTGAAG
    AGCACGAGCT GTAGCATAAA CCACCCCATC TTCCCGGACA ACTCAGAGGT CACCTTTAAT
    GTCACATTTG ATGTGAATCC TGATGCTTTT TTTGGATACA AACTCCTTCT CAAGGCCAAC
    GTGACCAGTG AGAACAACAT GCCCAGCAGC AACAAAACCG AATTCCAGCT GGAGCTGCCT
    GTGAAATACG CTGTCTACGT GGTGGTTACC AGCCTTGAGG TTTCCACCAA ATATTTCAAC
    TTCACAGCCT CGGAGAAGAC CCGCCACGTC ATAGAGCATC AGTATCAGTT CAACAACCTG
    GGTCAGAGGA AGCTCCCCAT CAGTGTGGTC TTCTGGGTCC CCGTTCGGCT GAACCGAGTG
    ACCGTGTGGG ACCAGCCCCA GGTCACCTTC TCCCAGAACC TTTCCAGGAG CTGCTCTACC
    GAGGAGATCG GCCCCCGTCA CTCTGATTTC CTGGAGAAGC TTCAGAAGAC TCCAGTGCTG
    AACTGCTCCA TCGCTGTCTG CCAGAAAATC CAGTGTGACA TCCCATCCTT CGGCATCCAG
    GAAGAACTCA AGGTCACCCT CAAGGGCAAT CTCTCATTTG ACTGGTACAT CAAGACCTCG
    CATAACCACC TTCAAGTGGT GAGCACCGCG GAGGTCTTGT TTAATGATTC GCAGTTTGCC
    CTGCTCCCAG GACAGGAGGC CTTTGTGAGG GCCCAGACAG AGACCAAAGT GGAGCCGTAC
    GAAGTGCATA ACCCTCTCCC ACTCATCGTG GGCAGCTCGA TAGGGGGGCT GGTGCTCCTG
    GCCCTTATCA CTGCCGGACT GTACAAGCTC GGCTTCTTCA AACGCCAGTA CAAGGACATG
    ATGAGTGAAC CTGTTCCTGA ACCTGCTGTG CCTCAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OSe33686
    Clone ID Related Accession (Same CDS sequence) XM_003124492.5
    Accession Version XM_003124492.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3459bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-09-10
    Organism Sus scrofa(Pig)
    Product integrin alpha-M
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003609763.1) and transcript sequence (JF709973.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 11, 2015 this sequence version replaced XM_003124492.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 1436 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGACTCACA GAATCCTTCT GCTGACAGCC TTGGCCTTAA GTCATGGGTT CAACCTGGAC 
    ACGGAAAATG CAGTCGTCTT CCAGGAAAAT GCTAATGGCT TCGGGCAGAG CGTGGTCCAG
    CTGGAGGGGT CGAGGCTGGT GGTTGGAGCC CCCCAGGAGG TAAGGGCTGC CAACCAAACA
    GGTGGCCTCT ACCAGTGTGA CTACAGCACA GGCACATGTG AGCCTATCCG CCTGCAGGTG
    CCCCCAGAGG CTGTGAACAT GTCCCTGGGC CTGTCTCTGA CGTTTGCCAC TAATCCGTCC
    CGGCTGCTGG CCTGCGGCCC TACTGTGCAC CAAATTTGCA AGGAGAACAC CTATGTGAAC
    GGCCTCTGCT TCCTGTTTGG ATCCAACCTA CATCAGCAGC CCCAGAGGGT CCCAGAGACC
    CTCAGAGGGT GTCCTCAGCA AGAGAGTGAC ATTGCCTTTT TGATTGATGG TTCCGGTAGC
    ATCAACCGGT TAGACTTTCA GCGGATGAAG GAGTTTGTCT CCACTGTGAT GGGTCAATTC
    CAAAAGTCCA AAACCCTGTT TGCTCTGATG CAGTACTCTG AAGACTTCTA CACTCATTTC
    ACCTTCAATG ATTTCAAGAG AAACCCTTCC CCAGAATTGC TGGTGAGGCC AATAAGACAG
    CTGCTGGGGA GGACTCACAC CGCCACGGGA ATCCGCAAAG TAGTAAGAGA ACTGTTTCAC
    AGCAAGAGTG GAGCCCGGGA GAATGCCCTT AAGATCCTAG TTGTCATCAC GGACGGAGAA
    AAGTTCGGCG ATCCTTTGGG ATATGAGGAT GTCATCCCTG AAGCGGATAG AAAGGGCGTC
    ATTCGCTATG TCATCGGGGT GGGAGATGCC TTCAACAGTT GGAAATCTCG TGAGGAGCTT
    AATACCATTG CATCCAAGCC GTCTGGAGAT CACGTGTTCC AGGTGACTAA CTTTGAAGCT
    CTGAAGACCA TTCAGAACCA GCTTCAGGAA AAGATCTTTG CGATTGAGGG TACACAGACA
    GGAAGTACCA GCTCCTTTGA GTATGAGATG TCTCAGGAAG GCCTCAGTGC AGCCATCACC
    TCTAATGGTC CCTTGCTGGG CGCTGTGGGG AGCTTTGACT GGGCTGGCGG AGCCTTTCTG
    CATATGCCAA AGGACAGAGT CATTTTCATC AACACCACTA GGGTGGATTC AGACATGAAC
    GATGCTTACT TGGGTTATGC TGTCGAAGTC ATCTTGCGGA ACCAGGCGCA AAGCCTGGTC
    CTGGGGGCGC CTCGATATCA GCACACTGGC CTGGTGGTGA TGTTCAAACA GAATTCAGGT
    GCCTGGGAGA AAAATGCCGA CATCAAGGGC AGCCAGATCG GCTCCTACTT TGGGGCCTCT
    CTCTGCTCCG TGGACGTGAA CAGAGATGGC AGCTCCGACC TGGTCCTCAT CGGGGCCCCC
    CATTACTATG AGCAGACCCG GGGGGGCCAG GTGTCTGTGT GTCCCTTGCC CCAGGGGAGG
    GCTAAGTGGC AGTGCCGGGT CATTCTCCGC GGGGAGCAAG GCCACCCCTG GAGCCGCTTT
    GGGGCAGCCC TGACAGCGCT GGGGGATGTG AATGGGGACA AGCTGACGGA CGTGGCCATT
    GGGGCCCCGG GGGAGCAGGA CAACCGGGGT GCTGTCTACC TGTTTCACGG AACCTCGGAG
    CTGGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCAGGCT CCCAGCTCTC CCCAAGGCTC
    CAGTATTTTG GGCAGTCCCT GAGCGGGGGC CAGGACCTCA CGATGGATGG ACTGATGGAC
    TTGGCTGTAG GGGCCCAAGG CCATGTGTTC CTGCTCAGGT CCCAGCCTGT GCTGAGAGTT
    GAGGCATCGA TGGTGTTCAA ACCCAGGGAA GTGGCGAGGA ATGTGTATGA GTGTCGTCAA
    CAGGCGGCGA AAACCCAGAT TGCTGGCGAG GTCCAAGTCT GCCTCCAAGT TCGCAAGAGC
    ACATGGGACC GGCTGAGAGA AGGAGACACC CAGAGCATCA TCACATATGA CCTGGCTCTG
    GACCCGGGGC GCCCCCATCC CCGGGCCGTC TTTGAGGAGA CAAAGAACAA TACACGCAGA
    CAGACCCAGA CGCTGGGGCT GAGCCGGAAA TGTGAGCACC TGACGCTGTG GTTACCGGAT
    TGCGTGGAGG ACTCAGTGAC GCCCATTGTC CTACGCCTCA ACTTCTCTCT GGTGGGAAAG
    CCTGCATCCT CTTTTGGGAA CCTCCGGCCA GTGCTGGCTG TTGATGCTCA AAGACTCTTC
    ACAGCCTTGT TTCCCTTCGA GAAGAATTGC GGCAATGACA GCATCTGCCA GGATGACCTG
    AGCATCACCT TCAGTTTTAT GAGCCTGGAC ACCCTGGTGG TGGGTGGTCC TCGGGACTTA
    AAAGTGACCC TGACCGTGAG AAACCAGGGC GAGGACTCCT ACAGAACTCA GGTCACCTTC
    TTCTACCCGT CTGGCTTGTC CTATCGGAAG GTGTCAACCT CCCAGAACCA ACGCTCCCAG
    AGATCCTGGC GCCTGGCCTG TGAGTCTGAT GTCTCCACTG AAGAGTCTAC GGCCTTGAAG
    AGCACGAGCT GTAGCATAAA CCACCCCATC TTCCCGGACA ACTCAGAGGT CACCTTTAAT
    GTCACATTTG ATGTGAATCC TGATGCTTTT TTTGGATACA AACTCCTTCT CAAGGCCAAC
    GTGACCAGTG AGAACAACAT GCCCAGCAGC AACAAAACCG AATTCCAGCT GGAGCTGCCT
    GTGAAATACG CTGTCTACGT GGTGGTTACC AGCCTTGAGG TTTCCACCAA ATATTTCAAC
    TTCACAGCCT CGGAGAAGAC CCGCCACGTC ATAGAGCATC AGTATCAGTT CAACAACCTG
    GGTCAGAGGA AGCTCCCCAT CAGTGTGGTC TTCTGGGTCC CCGTTCGGCT GAACCGAGTG
    ACCGTGTGGG ACCAGCCCCA GGTCACCTTC TCCCAGAACC TTTCCAGGAG CTGCTCTACC
    GAGGAGATCG GCCCCCGTCA CTCTGATTTC CTGGAGAAGC TTCAGAAGAC TCCAGTGCTG
    AACTGCTCCA TCGCTGTCTG CCAGAAAATC CAGTGTGACA TCCCATCCTT CGGCATCCAG
    GAAGAACTCA AGGTCACCCT CAAGGGCAAT CTCTCATTTG ACTGGTACAT CAAGACCTCG
    CATAACCACC TTCAAGTGGT GAGCACCGCG GAGGTCTTGT TTAATGATTC GCAGTTTGCC
    CTGCTCCCAG GACAGGAGGC CTTTGTGAGG GCCCAGACAG AGACCAAAGT GGAGCCGTAC
    GAAGTGCATA ACCCTCTCCC ACTCATCGTG GGCAGCTCGA TAGGGGGGCT GGTGCTCCTG
    GCCCTTATCA CTGCCGGACT GTACAAGCTC GGCTTCTTCA AACGCCAGTA CAAGGACATG
    ATGAGTGAAC CTGTTCCTGA ACCTGCTGTG CCTCAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_003124540.4
    CDS81..3539
    Translation

    Target ORF information:

    RefSeq Version XM_003124492.5
    Organism Sus scrofa(Pig)
    Definition Sus scrofa integrin alpha-M (LOC397459), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003124492.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGACTCACA GAATCCTTCT GCTGACAGCC TTGGCCTTAA GTCATGGGTT CAACCTGGAC 
    ACGGAAAATG CAGTCGTCTT CCAGGAAAAT GCTAATGGCT TCGGGCAGAG CGTGGTCCAG
    CTGGAGGGGT CGAGGCTGGT GGTTGGAGCC CCCCAGGAGG TAAGGGCTGC CAACCAAACA
    GGTGGCCTCT ACCAGTGTGA CTACAGCACA GGCACATGTG AGCCTATCCG CCTGCAGGTG
    CCCCCAGAGG CTGTGAACAT GTCCCTGGGC CTGTCTCTGA CGTTTGCCAC TAATCCGTCC
    CGGCTGCTGG CCTGCGGCCC TACTGTGCAC CAAATTTGCA AGGAGAACAC CTATGTGAAC
    GGCCTCTGCT TCCTGTTTGG ATCCAACCTA CATCAGCAGC CCCAGAGGGT CCCAGAGACC
    CTCAGAGGGT GTCCTCAGCA AGAGAGTGAC ATTGCCTTTT TGATTGATGG TTCCGGTAGC
    ATCAACCGGT TAGACTTTCA GCGGATGAAG GAGTTTGTCT CCACTGTGAT GGGTCAATTC
    CAAAAGTCCA AAACCCTGTT TGCTCTGATG CAGTACTCTG AAGACTTCTA CACTCATTTC
    ACCTTCAATG ATTTCAAGAG AAACCCTTCC CCAGAATTGC TGGTGAGGCC AATAAGACAG
    CTGCTGGGGA GGACTCACAC CGCCACGGGA ATCCGCAAAG TAGTAAGAGA ACTGTTTCAC
    AGCAAGAGTG GAGCCCGGGA GAATGCCCTT AAGATCCTAG TTGTCATCAC GGACGGAGAA
    AAGTTCGGCG ATCCTTTGGG ATATGAGGAT GTCATCCCTG AAGCGGATAG AAAGGGCGTC
    ATTCGCTATG TCATCGGGGT GGGAGATGCC TTCAACAGTT GGAAATCTCG TGAGGAGCTT
    AATACCATTG CATCCAAGCC GTCTGGAGAT CACGTGTTCC AGGTGACTAA CTTTGAAGCT
    CTGAAGACCA TTCAGAACCA GCTTCAGGAA AAGATCTTTG CGATTGAGGG TACACAGACA
    GGAAGTACCA GCTCCTTTGA GTATGAGATG TCTCAGGAAG GCCTCAGTGC AGCCATCACC
    TCTAATGGTC CCTTGCTGGG CGCTGTGGGG AGCTTTGACT GGGCTGGCGG AGCCTTTCTG
    CATATGCCAA AGGACAGAGT CATTTTCATC AACACCACTA GGGTGGATTC AGACATGAAC
    GATGCTTACT TGGGTTATGC TGTCGAAGTC ATCTTGCGGA ACCAGGCGCA AAGCCTGGTC
    CTGGGGGCGC CTCGATATCA GCACACTGGC CTGGTGGTGA TGTTCAAACA GAATTCAGGT
    GCCTGGGAGA AAAATGCCGA CATCAAGGGC AGCCAGATCG GCTCCTACTT TGGGGCCTCT
    CTCTGCTCCG TGGACGTGAA CAGAGATGGC AGCTCCGACC TGGTCCTCAT CGGGGCCCCC
    CATTACTATG AGCAGACCCG GGGGGGCCAG GTGTCTGTGT GTCCCTTGCC CCAGGGGAGG
    GCTAAGTGGC AGTGCCGGGT CATTCTCCGC GGGGAGCAAG GCCACCCCTG GAGCCGCTTT
    GGGGCAGCCC TGACAGCGCT GGGGGATGTG AATGGGGACA AGCTGACGGA CGTGGCCATT
    GGGGCCCCGG GGGAGCAGGA CAACCGGGGT GCTGTCTACC TGTTTCACGG AACCTCGGAG
    CTGGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCAGGCT CCCAGCTCTC CCCAAGGCTC
    CAGTATTTTG GGCAGTCCCT GAGCGGGGGC CAGGACCTCA CGATGGATGG ACTGATGGAC
    TTGGCTGTAG GGGCCCAAGG CCATGTGTTC CTGCTCAGGT CCCAGCCTGT GCTGAGAGTT
    GAGGCATCGA TGGTGTTCAA ACCCAGGGAA GTGGCGAGGA ATGTGTATGA GTGTCGTCAA
    CAGGCGGCGA AAACCCAGAT TGCTGGCGAG GTCCAAGTCT GCCTCCAAGT TCGCAAGAGC
    ACATGGGACC GGCTGAGAGA AGGAGACACC CAGAGCATCA TCACATATGA CCTGGCTCTG
    GACCCGGGGC GCCCCCATCC CCGGGCCGTC TTTGAGGAGA CAAAGAACAA TACACGCAGA
    CAGACCCAGA CGCTGGGGCT GAGCCGGAAA TGTGAGCACC TGACGCTGTG GTTACCGGAT
    TGCGTGGAGG ACTCAGTGAC GCCCATTGTC CTACGCCTCA ACTTCTCTCT GGTGGGAAAG
    CCTGCATCCT CTTTTGGGAA CCTCCGGCCA GTGCTGGCTG TTGATGCTCA AAGACTCTTC
    ACAGCCTTGT TTCCCTTCGA GAAGAATTGC GGCAATGACA GCATCTGCCA GGATGACCTG
    AGCATCACCT TCAGTTTTAT GAGCCTGGAC ACCCTGGTGG TGGGTGGTCC TCGGGACTTA
    AAAGTGACCC TGACCGTGAG AAACCAGGGC GAGGACTCCT ACAGAACTCA GGTCACCTTC
    TTCTACCCGT CTGGCTTGTC CTATCGGAAG GTGTCAACCT CCCAGAACCA ACGCTCCCAG
    AGATCCTGGC GCCTGGCCTG TGAGTCTGAT GTCTCCACTG AAGAGTCTAC GGCCTTGAAG
    AGCACGAGCT GTAGCATAAA CCACCCCATC TTCCCGGACA ACTCAGAGGT CACCTTTAAT
    GTCACATTTG ATGTGAATCC TGATGCTTTT TTTGGATACA AACTCCTTCT CAAGGCCAAC
    GTGACCAGTG AGAACAACAT GCCCAGCAGC AACAAAACCG AATTCCAGCT GGAGCTGCCT
    GTGAAATACG CTGTCTACGT GGTGGTTACC AGCCTTGAGG TTTCCACCAA ATATTTCAAC
    TTCACAGCCT CGGAGAAGAC CCGCCACGTC ATAGAGCATC AGTATCAGTT CAACAACCTG
    GGTCAGAGGA AGCTCCCCAT CAGTGTGGTC TTCTGGGTCC CCGTTCGGCT GAACCGAGTG
    ACCGTGTGGG ACCAGCCCCA GGTCACCTTC TCCCAGAACC TTTCCAGGAG CTGCTCTACC
    GAGGAGATCG GCCCCCGTCA CTCTGATTTC CTGGAGAAGC TTCAGAAGAC TCCAGTGCTG
    AACTGCTCCA TCGCTGTCTG CCAGAAAATC CAGTGTGACA TCCCATCCTT CGGCATCCAG
    GAAGAACTCA AGGTCACCCT CAAGGGCAAT CTCTCATTTG ACTGGTACAT CAAGACCTCG
    CATAACCACC TTCAAGTGGT GAGCACCGCG GAGGTCTTGT TTAATGATTC GCAGTTTGCC
    CTGCTCCCAG GACAGGAGGC CTTTGTGAGG GCCCAGACAG AGACCAAAGT GGAGCCGTAC
    GAAGTGCATA ACCCTCTCCC ACTCATCGTG GGCAGCTCGA TAGGGGGGCT GGTGCTCCTG
    GCCCTTATCA CTGCCGGACT GTACAAGCTC GGCTTCTTCA AACGCCAGTA CAAGGACATG
    ATGAGTGAAC CTGTTCCTGA ACCTGCTGTG CCTCAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.