ORF » Species Summary » Myotis brandtii » FAM65A cDNA ORF clone

FAM65A cDNA ORF clone, Myotis brandtii(Brandt's bat)

The following FAM65A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FAM65A 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
OMy54640 XM_014547806.1
Latest version!		 Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMy54641 XM_014547807.1
Latest version!		 Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMy54642 XM_005876391.2
Latest version!		 Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMy54643 XM_014547808.1
Latest version!		 Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMy54644 XM_014547809.1
Latest version!		 Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    FAM65A ( XM_014547806.1 ) cDNA ORF clone, Myotis brandtii(Brandt's bat) -> XP_014403292.1 Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMy54640
    Clone ID Related Accession (Same CDS sequence) XM_014547806.1
    Accession Version XM_014547806.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4080bp)
    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 2015-11-03
    Organism Myotis brandtii(Brandt's bat)
    Product protein FAM65A isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005368569.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Myotis brandtii Annotation Release 101 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## 

    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
    3961
    4021
    ATGATGTCCC TGTCGGTGCG GCCGCAGCGC CGCCTGCTCA GCGCCCGGGT CAATAGGAGC 
    CAGTCCTTCG CAGGCGTCCT CGGCAGCCAC GAGCGGGGGC CCAGCAGCTT CCCGGCCTTC 
    AGTCCCCCGG GGCCCCCGCG GAAGGCCCCT GCGCTCTCTC GAGTGTCCAG GATGTTTGCA 
    GTGGCGCACC CAGCCCCCAA GGTCCCGCAG CCAGAGCGGC TGGACCTGGT GTACGCTGCG 
    CTCAAGCGGG GCCTGACGGC CTATTTGGAA GTACACCAGC AGGAGCAGGA GAAACTCCAA 
    GTGCAGATAA AGGAATCCAA GAGGAATTCC CGCCTGGGCT TCCTGTATGA CTTAGACAAG 
    CAAGTCAAGT CCATTGAACG CTTCATGCGA CGGCTGGAGT TCCATGCCAG CAAGATCGAC 
    GAGCTATATG AGGCATACTG TGTCCAGCGG CGTCTCCGGG ATGGTGCCTA CAACATGGTC 
    CGTGCCTACA CCACCGGGTC CCCAGGGAGC CGTGAGGCCC GGGACAGCTT GGCCGAGGCC 
    ACTCGTGGGC ATCGAGAGTA CACAGAGAGC ATGTGTCTGC TGGAGAGTGA GCTGGAGGCA 
    CAGCTGGGAG AGTTCCATCT CCGGATGAAA GGACTGGCTG GCTTCGCCAG GCTGTGTGTG 
    GGTGATCAGT ATGAGATCTG CATGAAATAC GGGCGTCAGC GCTGGAAACT ACGGGGCCGC 
    ATTGAGGGTA GTGGAAAGCA GGTGTGGGAC AGTGAGGAAA CCGTCTTTCT TCCTCTGCTC 
    ACGGAATTCC TGTCCATCAA GGTGACAGAG CTGAAGGGCC TGGCCAACCA TGTGGTTGTA 
    GGCAGCGTCT CCTGCGAGAC CAAGGACTTG TTTGCAGCCC TGCCCCAGGT TGTGGCTGTG 
    GACATCAATG ACCTCGGCAC CATCAAACTC AGCCTGGAAG TCACATGGAG CCCCTTCGAC 
    AAAGATGACC AGCCCTCAGC TGCTTCTACT GTCAACAAGG CCTCCACAGT CACCAAGCGC 
    TTCTCCACCT ATAGCCAGAG CCCACCAGAC ACTCCCTCGC TTCGGGAACA GGCCTTCTAT 
    AATATGCTGA GGCGGCAGGA GGAGCTGGAG AATGGGACAG CATGGTCCCT GTCATCCGAA 
    TCTTCGGACG ATTCATCCAG TCCGCAGCTC TCGGGCAGTG CCCGCCACTC CTCAGCCCCA 
    AAGCCCCTGG TGCAGCAGCC TGAGCCTTTG CCCATCCAAG TTGCCTTCCG TAGGCCTCAG 
    ACCCCCACCT CCGGGCCCAC GGATGAGGAG GGAGCCATGG CCCCAGTCCT GGCCAATGGG 
    CATGCCCCCT ACAGCCGGAC TCTCAGCCAC ATCAGTGAGG CCAGTGTGGA TGCTGCCTTG 
    GCTGAAGCTT CAGTAGAGGC TGAGGGCCTA GAAAGCCAGG GACCTAACCC ACCTGCACAC 
    CCAGATCCCA CCCATAGGGA GCATCCTGGT CCTGACCCTC TTGCCCTGGG CCCTGGCCAT 
    TCTGCCACAA GCCCCACTCT CAGTGCAATA GGCCCTGCTC ACACATCTAC AGACCCTGTC 
    CCATCTGCAT ATCTAAACTC TCTCCACAAG ACTCCAGACT CTAGCTCTCC TGAACTGCCA 
    GGTCCCGCCC ACACCACTTC AAGCTCTACC TGTAGTGCCA TAAGCCCTAT CAGCAGTGCT 
    CCAAGCGTCA CTCACACTGT CACAGGCTCT ACCCACAAGC CCAAGCCCTC CACCCTCACT 
    GCTACAGGCC CTAGCCCCAT TGCCATGGGC TCAGGCCAGA CCACAAGTCC CACCCACAAG 
    TCAGTGCTTT CTACCCTCAC TATTGCAGGT CCTAGCCCCA ACACTACAAG CCCAGTCCAG 
    ACCACAAGCC CCAGCCACAC TGTCACAAAC CTGACAAATA TTGTCACAAG CCCCACCATC 
    AAGCCCATAC TCTCTACCCC CACTACTACA GGCCCTAGCC CCAACACTAC AAGCTCAGTC 
    CAGACCACAA GCCCCAGCCA CACTGTCACA AACCTGACAA ATATTGTCAC AAGCCCCACC 
    ATCAAGCCCA TACTCTCTAC CCCCACTACT ACAGGCCCTA GCCCCAACAC TACAAGCTCA 
    GTCCAGACCA CAAGCCCCAG CCACACTGTC ACAAACCTGA CAAATACTGT CACAAGCCCC 
    ACCGTCAAAC CCATACTCTC TACCCCCACT ACTACAGGCC CTACACCAAG CGCCCAGAGC 
    CCAGCCCAGC CTACCACAAT GCCCACCCAC ACCACCACAA GCCCCACCCA CACTTCCACA 
    AGCCCCACCC ACACCACCAC AAGCTCCACC CATACCACAA GCTCCACCCA CACTACCGCA 
    AGCCCTACTC CCAAAGCCAG TATGTCAGCT CACACTACTG TAAGTCCAAC CACCGATGCT 
    AAGGACCCAG TCCAGACCAC GAGAAGCCCC ACCCACCCTG TCACAAGCCC CACCCTTATA 
    ACTGTAAACC CTTCCACTTC TCTAGACCTC GCCACGCTCC CCAGCCCCTC TGCACACACA 
    GACCCCAACC CACTGTCCCA TAGCCATCCA GCTTCCACTC CCTGCACTCA GGCAGATCCC 
    ATAGCCCCAA GCACCTCCGA CCCAAGCCCT GCCTGCTCCA GTTTGGAACC CCCTACAAGC 
    CCTTCCCCAG GCCCCCCAGA GCCCATCCTT CAGAACCCAA GCCTCCCTCC CTCACCCTTA 
    ACCGTTGGGC CCCAGCATTC AGACTTTAGC CTGGCCACGA CTGCCCAGGC CCCAGTTCCA 
    GGAGCAACGG GAGGAGCTGG AGACAGGAGG CTGGAGGAGG CACTGGGGGC CCTAATGGCT 
    GCTCTGGATG ACTATCGTGG CCAGTTCCCA GAGCTGCAGG GCCTGGAGCA GGAGGTGATC 
    CGCCTGGAGA GTCTGCTCAT GAGACAAGGC CTGACTCGCA GCCGGGCCTC CAGTCTTAGC 
    ATCACTGTGG AGCATGCCCT GGAGAGCTTC AGCTTCCTCA ACGAGGATGA AGATGAAGAC 
    AACGATGGTC CTGGAGACAG GCCCCCAAGC AGCCTGGAGC CTAAGGCTGA AGACAGCCTC 
    AACTCACCCA GTGCCCATCC CCTCAGCACG GAGTGTCCAG CTCTGGACAC TGCCTTGGTC 
    CAGCACCTGT ACTACTGCAG CCGCCTCCTG CTGAAACTGG GCACATTTGG GCCGCTACGC 
    TGTCAGGAGG CATGGGCCCT GGAGCGACTG CTGCGGGAGG CCCGAGTGCT CGAGGTGGTA 
    TGCGAGCTTA GCAGGAGATG GGAAATCCCT GCTACTTCTG CCCAGGAAGT GGTGCAGTTC 
    TCAGCCTCTC GGCCTGGCTT CCTGACCTTC TGGGACCAGT GCACAGAGGG ACTTAGCCCC 
    TTCATCTGCC CTGTGAAGCA GGTGCTCCTC ACCTTCTGCA ATCAGTACGG TGCCCGGCTC 
    TCCCTGCGCC AGCCAGGCTT AGCTGAGGCT GTGTGTGTCA AGTTTCTGGA GGATATGCTG 
    GGACAGAAGC TGCCCAGGAG GCCCCAGCCA GGCCCTGGCG AGCAGCTCAC TGTCTTCCAG 
    TTCTGGAGTT ATGTGGAAAC CCTGGACAGC CCCTCCATGG AGGCCTATGT GACGGAGACC 
    GCTGAGGAAG TGTTACTGGT GCAGAACCTG AACTCAGATG ATCAGGCTGT TGTGCTCAAG 
    GCCCTGAGGT TGGCACCTGA AGGGCGGCTA CGAAGGGACG GGCTTCGGGC CCTCAGCTCC 
    CTGCTCGTCC ATGGCAACAA CAAGGTCATG GCTGCTGTCA GCACCCAGCT CCGGAGCCTG 
    TCGCTAGGCC CTGCCTTCCG GGAAAGGGCC CTACTGTGCT TCCTGAACCA ACTCGAGGAT 
    GAGGACGTGC AGACGAGAGT GGCTGGCTGC CTGGCCTTAG GCTGCATCAA GGCTCCTGAG 
    GGCATTGAGC CCCTGGTGTA CCTGTGCCAA ACGGACACAG AAGTCGTGAG GGAGGCTGCT 
    CGGCAGAGCC TGCAACAGTG TGGGGAAGAG GGACAGTCTG CCCACCGACG GCTAGAAGAG 
    TCGCTGGACG CCCTGCCCCG CATCTTCGGG CCCGGCAGCA TGGCCAGCAC GGCCTTCTAA

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

    RefSeq XP_014403292.1
    CDS24..4103
    Translation

    Target ORF information:

    RefSeq Version XM_014547806.1
    Organism Myotis brandtii(Brandt's bat)
    Definition Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014547806.1

    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
    3961
    4021
    ATGATGTCCC TGTCGGTGCG GCCGCAGCGC CGCCTGCTCA GCGCCCGGGT CAATAGGAGC 
    CAGTCCTTCG CAGGCGTCCT CGGCAGCCAC GAGCGGGGGC CCAGCAGCTT CCCGGCCTTC 
    AGTCCCCCGG GGCCCCCGCG GAAGGCCCCT GCGCTCTCTC GAGTGTCCAG GATGTTTGCA 
    GTGGCGCACC CAGCCCCCAA GGTCCCGCAG CCAGAGCGGC TGGACCTGGT GTACGCTGCG 
    CTCAAGCGGG GCCTGACGGC CTATTTGGAA GTACACCAGC AGGAGCAGGA GAAACTCCAA 
    GTGCAGATAA AGGAATCCAA GAGGAATTCC CGCCTGGGCT TCCTGTATGA CTTAGACAAG 
    CAAGTCAAGT CCATTGAACG CTTCATGCGA CGGCTGGAGT TCCATGCCAG CAAGATCGAC 
    GAGCTATATG AGGCATACTG TGTCCAGCGG CGTCTCCGGG ATGGTGCCTA CAACATGGTC 
    CGTGCCTACA CCACCGGGTC CCCAGGGAGC CGTGAGGCCC GGGACAGCTT GGCCGAGGCC 
    ACTCGTGGGC ATCGAGAGTA CACAGAGAGC ATGTGTCTGC TGGAGAGTGA GCTGGAGGCA 
    CAGCTGGGAG AGTTCCATCT CCGGATGAAA GGACTGGCTG GCTTCGCCAG GCTGTGTGTG 
    GGTGATCAGT ATGAGATCTG CATGAAATAC GGGCGTCAGC GCTGGAAACT ACGGGGCCGC 
    ATTGAGGGTA GTGGAAAGCA GGTGTGGGAC AGTGAGGAAA CCGTCTTTCT TCCTCTGCTC 
    ACGGAATTCC TGTCCATCAA GGTGACAGAG CTGAAGGGCC TGGCCAACCA TGTGGTTGTA 
    GGCAGCGTCT CCTGCGAGAC CAAGGACTTG TTTGCAGCCC TGCCCCAGGT TGTGGCTGTG 
    GACATCAATG ACCTCGGCAC CATCAAACTC AGCCTGGAAG TCACATGGAG CCCCTTCGAC 
    AAAGATGACC AGCCCTCAGC TGCTTCTACT GTCAACAAGG CCTCCACAGT CACCAAGCGC 
    TTCTCCACCT ATAGCCAGAG CCCACCAGAC ACTCCCTCGC TTCGGGAACA GGCCTTCTAT 
    AATATGCTGA GGCGGCAGGA GGAGCTGGAG AATGGGACAG CATGGTCCCT GTCATCCGAA 
    TCTTCGGACG ATTCATCCAG TCCGCAGCTC TCGGGCAGTG CCCGCCACTC CTCAGCCCCA 
    AAGCCCCTGG TGCAGCAGCC TGAGCCTTTG CCCATCCAAG TTGCCTTCCG TAGGCCTCAG 
    ACCCCCACCT CCGGGCCCAC GGATGAGGAG GGAGCCATGG CCCCAGTCCT GGCCAATGGG 
    CATGCCCCCT ACAGCCGGAC TCTCAGCCAC ATCAGTGAGG CCAGTGTGGA TGCTGCCTTG 
    GCTGAAGCTT CAGTAGAGGC TGAGGGCCTA GAAAGCCAGG GACCTAACCC ACCTGCACAC 
    CCAGATCCCA CCCATAGGGA GCATCCTGGT CCTGACCCTC TTGCCCTGGG CCCTGGCCAT 
    TCTGCCACAA GCCCCACTCT CAGTGCAATA GGCCCTGCTC ACACATCTAC AGACCCTGTC 
    CCATCTGCAT ATCTAAACTC TCTCCACAAG ACTCCAGACT CTAGCTCTCC TGAACTGCCA 
    GGTCCCGCCC ACACCACTTC AAGCTCTACC TGTAGTGCCA TAAGCCCTAT CAGCAGTGCT 
    CCAAGCGTCA CTCACACTGT CACAGGCTCT ACCCACAAGC CCAAGCCCTC CACCCTCACT 
    GCTACAGGCC CTAGCCCCAT TGCCATGGGC TCAGGCCAGA CCACAAGTCC CACCCACAAG 
    TCAGTGCTTT CTACCCTCAC TATTGCAGGT CCTAGCCCCA ACACTACAAG CCCAGTCCAG 
    ACCACAAGCC CCAGCCACAC TGTCACAAAC CTGACAAATA TTGTCACAAG CCCCACCATC 
    AAGCCCATAC TCTCTACCCC CACTACTACA GGCCCTAGCC CCAACACTAC AAGCTCAGTC 
    CAGACCACAA GCCCCAGCCA CACTGTCACA AACCTGACAA ATATTGTCAC AAGCCCCACC 
    ATCAAGCCCA TACTCTCTAC CCCCACTACT ACAGGCCCTA GCCCCAACAC TACAAGCTCA 
    GTCCAGACCA CAAGCCCCAG CCACACTGTC ACAAACCTGA CAAATACTGT CACAAGCCCC 
    ACCGTCAAAC CCATACTCTC TACCCCCACT ACTACAGGCC CTACACCAAG CGCCCAGAGC 
    CCAGCCCAGC CTACCACAAT GCCCACCCAC ACCACCACAA GCCCCACCCA CACTTCCACA 
    AGCCCCACCC ACACCACCAC AAGCTCCACC CATACCACAA GCTCCACCCA CACTACCGCA 
    AGCCCTACTC CCAAAGCCAG TATGTCAGCT CACACTACTG TAAGTCCAAC CACCGATGCT 
    AAGGACCCAG TCCAGACCAC GAGAAGCCCC ACCCACCCTG TCACAAGCCC CACCCTTATA 
    ACTGTAAACC CTTCCACTTC TCTAGACCTC GCCACGCTCC CCAGCCCCTC TGCACACACA 
    GACCCCAACC CACTGTCCCA TAGCCATCCA GCTTCCACTC CCTGCACTCA GGCAGATCCC 
    ATAGCCCCAA GCACCTCCGA CCCAAGCCCT GCCTGCTCCA GTTTGGAACC CCCTACAAGC 
    CCTTCCCCAG GCCCCCCAGA GCCCATCCTT CAGAACCCAA GCCTCCCTCC CTCACCCTTA 
    ACCGTTGGGC CCCAGCATTC AGACTTTAGC CTGGCCACGA CTGCCCAGGC CCCAGTTCCA 
    GGAGCAACGG GAGGAGCTGG AGACAGGAGG CTGGAGGAGG CACTGGGGGC CCTAATGGCT 
    GCTCTGGATG ACTATCGTGG CCAGTTCCCA GAGCTGCAGG GCCTGGAGCA GGAGGTGATC 
    CGCCTGGAGA GTCTGCTCAT GAGACAAGGC CTGACTCGCA GCCGGGCCTC CAGTCTTAGC 
    ATCACTGTGG AGCATGCCCT GGAGAGCTTC AGCTTCCTCA ACGAGGATGA AGATGAAGAC 
    AACGATGGTC CTGGAGACAG GCCCCCAAGC AGCCTGGAGC CTAAGGCTGA AGACAGCCTC 
    AACTCACCCA GTGCCCATCC CCTCAGCACG GAGTGTCCAG CTCTGGACAC TGCCTTGGTC 
    CAGCACCTGT ACTACTGCAG CCGCCTCCTG CTGAAACTGG GCACATTTGG GCCGCTACGC 
    TGTCAGGAGG CATGGGCCCT GGAGCGACTG CTGCGGGAGG CCCGAGTGCT CGAGGTGGTA 
    TGCGAGCTTA GCAGGAGATG GGAAATCCCT GCTACTTCTG CCCAGGAAGT GGTGCAGTTC 
    TCAGCCTCTC GGCCTGGCTT CCTGACCTTC TGGGACCAGT GCACAGAGGG ACTTAGCCCC 
    TTCATCTGCC CTGTGAAGCA GGTGCTCCTC ACCTTCTGCA ATCAGTACGG TGCCCGGCTC 
    TCCCTGCGCC AGCCAGGCTT AGCTGAGGCT GTGTGTGTCA AGTTTCTGGA GGATATGCTG 
    GGACAGAAGC TGCCCAGGAG GCCCCAGCCA GGCCCTGGCG AGCAGCTCAC TGTCTTCCAG 
    TTCTGGAGTT ATGTGGAAAC CCTGGACAGC CCCTCCATGG AGGCCTATGT GACGGAGACC 
    GCTGAGGAAG TGTTACTGGT GCAGAACCTG AACTCAGATG ATCAGGCTGT TGTGCTCAAG 
    GCCCTGAGGT TGGCACCTGA AGGGCGGCTA CGAAGGGACG GGCTTCGGGC CCTCAGCTCC 
    CTGCTCGTCC ATGGCAACAA CAAGGTCATG GCTGCTGTCA GCACCCAGCT CCGGAGCCTG 
    TCGCTAGGCC CTGCCTTCCG GGAAAGGGCC CTACTGTGCT TCCTGAACCA ACTCGAGGAT 
    GAGGACGTGC AGACGAGAGT GGCTGGCTGC CTGGCCTTAG GCTGCATCAA GGCTCCTGAG 
    GGCATTGAGC CCCTGGTGTA CCTGTGCCAA ACGGACACAG AAGTCGTGAG GGAGGCTGCT 
    CGGCAGAGCC TGCAACAGTG TGGGGAAGAG GGACAGTCTG CCCACCGACG GCTAGAAGAG 
    TCGCTGGACG CCCTGCCCCG CATCTTCGGG CCCGGCAGCA TGGCCAGCAC GGCCTTCTAA

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

    FAM65A ( XM_014547807.1 ) cDNA ORF clone, Myotis brandtii(Brandt's bat) -> XP_014403293.1 Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMy54641
    Clone ID Related Accession (Same CDS sequence) XM_014547807.1
    Accession Version XM_014547807.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4080bp)
    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 2015-11-03
    Organism Myotis brandtii(Brandt's bat)
    Product protein FAM65A isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005368569.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Myotis brandtii Annotation Release 101 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## 

    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
    3961
    4021
    ATGATGTCCC TGTCGGTGCG GCCGCAGCGC CGCCTGCTCA GCGCCCGGGT CAATAGGAGC 
    CAGTCCTTCG CAGGCGTCCT CGGCAGCCAC GAGCGGGGGC CCAGCTTCCC GGCCTTCAGT 
    CCCCCGGGGC CCCCGCGGAA GGCCCCTGCG CTCTCTCGAG TGTCCAGGAT GTTTGCAGTG 
    GCGCACCCAG CCCCCAAGGT CCCGCAGCCA GAGCGGCTGG ACCTGGTGTA CGCTGCGCTC 
    AAGCGGGGCC TGACGGCCTA TTTGGAAGTA CACCAGCAGG AGCAGGAGAA ACTCCAAGTG 
    CAGATAAAGG AATCCAAGAG GAATTCCCGC CTGGGCTTCC TGTATGACTT AGACAAGCAA 
    GTCAAGTCCA TTGAACGCTT CATGCGACGG CTGGAGTTCC ATGCCAGCAA GATCGACGAG 
    CTATATGAGG CATACTGTGT CCAGCGGCGT CTCCGGGATG GTGCCTACAA CATGGTCCGT 
    GCCTACACCA CCGGGTCCCC AGGGAGCCGT GAGGCCCGGG ACAGCTTGGC CGAGGCCACT 
    CGTGGGCATC GAGAGTACAC AGAGAGCATG TGTCTGCTGG AGAGTGAGCT GGAGGCACAG 
    CTGGGAGAGT TCCATCTCCG GATGAAAGGA CTGGCTGGCT TCGCCAGGCT GTGTGTGGGT 
    GATCAGTATG AGATCTGCAT GAAATACGGG CGTCAGCGCT GGAAACTACG GGGCCGCATT 
    GAGGGTAGTG GAAAGCAGGT GTGGGACAGT GAGGAAACCG TCTTTCTTCC TCTGCTCACG 
    GAATTCCTGT CCATCAAGGT GACAGAGCTG AAGGGCCTGG CCAACCATGT GGTTGTAGGC 
    AGCGTCTCCT GCGAGACCAA GGACTTGTTT GCAGCCCTGC CCCAGGTTGT GGCTGTGGAC 
    ATCAATGACC TCGGCACCAT CAAACTCAGC CTGGAAGTCA CATGGAGCCC CTTCGACAAA 
    GATGACCAGC CCTCAGCTGC TTCTACTGTC AACAAGGCCT CCACAGTCAC CAAGCGCTTC 
    TCCACCTATA GCCAGAGCCC ACCAGACACT CCCTCGCTTC GGGAACAGGC CTTCTATAAT 
    ATGCTGAGGC GGCAGGAGGA GCTGGAGAAT GGGACAGCAT GGTCCCTGTC ATCCGAATCT 
    TCGGACGATT CATCCAGTCC GCAGCTCTCG GGCAGTGCCC GCCACTCCTC AGCCCCAAAG 
    CCCCTGGTGC AGCAGCCTGA GCCTTTGCCC ATCCAAGTTG CCTTCCGTAG GCCTCAGACC 
    CCCACCTCCG GGCCCACGGA TGAGGAGGGA GCCATGGCCC CAGTCCTGGC CAATGGGCAT 
    GCCCCCTACA GCCGGACTCT CAGCCACATC AGTGAGGCCA GTGTGGATGC TGCCTTGGCT 
    GAAGCTTCAG TAGAGGCTGA GGGCCTAGAA AGCCAGGGAC CTAACCCACC TGCACACCCA 
    GATCCCACCC ATAGGGAGCA TCCTGGTCCT GACCCTCTTG CCCTGGGCCC TGGCCATTCT 
    GCCACAAGCC CCACTCTCAG TGCAATAGGC CCTGCTCACA CATCTACAGA CCCTGTCCCA 
    TCTGCATATC TAAACTCTCT CCACAAGACT CCAGACTCTA GCTCTCCTGA ACTGCCAGGT 
    CCCGCCCACA CCACTTCAAG CTCTACCTGT AGTGCCATAA GCCCTATCAG CAGTGCTCCA 
    AGCGTCACTC ACACTGTCAC AGGCTCTACC CACAAGCCCA AGCCCTCCAC CCTCACTGCT 
    ACAGGCCCTA GCCCCATTGC CATGGGCTCA GGCCAGACCA CAAGTCCCAC CCACAAGTCA 
    GTGCTTTCTA CCCTCACTAT TGCAGGTCCT AGCCCCAACA CTACAAGCCC AGTCCAGACC 
    ACAAGCCCCA GCCACACTGT CACAAACCTG ACAAATATTG TCACAAGCCC CACCATCAAG 
    CCCATACTCT CTACCCCCAC TACTACAGGC CCTAGCCCCA ACACTACAAG CTCAGTCCAG 
    ACCACAAGCC CCAGCCACAC TGTCACAAAC CTGACAAATA TTGTCACAAG CCCCACCATC 
    AAGCCCATAC TCTCTACCCC CACTACTACA GGCCCTAGCC CCAACACTAC AAGCTCAGTC 
    CAGACCACAA GCCCCAGCCA CACTGTCACA AACCTGACAA ATACTGTCAC AAGCCCCACC 
    GTCAAACCCA TACTCTCTAC CCCCACTACT ACAGGCCCTA CACCAAGCGC CCAGAGCCCA 
    GCCCAGCCTA CCACAATGCC CACCCACACC ACCACAAGCC CCACCCACAC TTCCACAAGC 
    CCCACCCACA CCACCACAAG CTCCACCCAT ACCACAAGCT CCACCCACAC TACCGCAAGC 
    CCTACTCCCA AAGCCAGTAT GTCAGCTCAC ACTACTGTAA GTCCAACCAC CGATGCTAAG 
    GACCCAGTCC AGACCACGAG AAGCCCCACC CACCCTGTCA CAAGCCCCAC CCTTATAACT 
    GTAAACCCTT CCACTTCTCT AGACCTCGCC ACGCTCCCCA GCCCCTCTGC ACACACAGAC 
    CCCAACCCAC TGTCCCATAG CCATCCAGCT TCCACTCCCT GCACTCAGGC AGATCCCATA 
    GCCCCAAGCA CCTCCGACCC AAGCCCTGCC TGCTCCAGTT TGGAACCCCC TACAAGCCCT 
    TCCCCAGGCC CCCCAGAGCC CATCCTTCAG AACCCAAGCC TCCCTCCCTC ACCCTTAACC 
    GTTGGGCCCC AGCATTCAGA CTTTAGCCTG GCCACGACTG CCCAGGCCCC AGTTCCAGGA 
    GCAACGGGAG GAGCTGGAGA CAGGAGGCTG GAGGAGGCAC TGGGGGCCCT AATGGCTGCT 
    CTGGATGACT ATCGTGGCCA GTTCCCAGAG CTGCAGGGCC TGGAGCAGGA GGTGATCCGC 
    CTGGAGAGTC TGCTCATGCA GAGACAAGGC CTGACTCGCA GCCGGGCCTC CAGTCTTAGC 
    ATCACTGTGG AGCATGCCCT GGAGAGCTTC AGCTTCCTCA ACGAGGATGA AGATGAAGAC 
    AACGATGGTC CTGGAGACAG GCCCCCAAGC AGCCTGGAGC CTAAGGCTGA AGACAGCCTC 
    AACTCACCCA GTGCCCATCC CCTCAGCACG GAGTGTCCAG CTCTGGACAC TGCCTTGGTC 
    CAGCACCTGT ACTACTGCAG CCGCCTCCTG CTGAAACTGG GCACATTTGG GCCGCTACGC 
    TGTCAGGAGG CATGGGCCCT GGAGCGACTG CTGCGGGAGG CCCGAGTGCT CGAGGTGGTA 
    TGCGAGCTTA GCAGGAGATG GGAAATCCCT GCTACTTCTG CCCAGGAAGT GGTGCAGTTC 
    TCAGCCTCTC GGCCTGGCTT CCTGACCTTC TGGGACCAGT GCACAGAGGG ACTTAGCCCC 
    TTCATCTGCC CTGTGAAGCA GGTGCTCCTC ACCTTCTGCA ATCAGTACGG TGCCCGGCTC 
    TCCCTGCGCC AGCCAGGCTT AGCTGAGGCT GTGTGTGTCA AGTTTCTGGA GGATATGCTG 
    GGACAGAAGC TGCCCAGGAG GCCCCAGCCA GGCCCTGGCG AGCAGCTCAC TGTCTTCCAG 
    TTCTGGAGTT ATGTGGAAAC CCTGGACAGC CCCTCCATGG AGGCCTATGT GACGGAGACC 
    GCTGAGGAAG TGTTACTGGT GCAGAACCTG AACTCAGATG ATCAGGCTGT TGTGCTCAAG 
    GCCCTGAGGT TGGCACCTGA AGGGCGGCTA CGAAGGGACG GGCTTCGGGC CCTCAGCTCC 
    CTGCTCGTCC ATGGCAACAA CAAGGTCATG GCTGCTGTCA GCACCCAGCT CCGGAGCCTG 
    TCGCTAGGCC CTGCCTTCCG GGAAAGGGCC CTACTGTGCT TCCTGAACCA ACTCGAGGAT 
    GAGGACGTGC AGACGAGAGT GGCTGGCTGC CTGGCCTTAG GCTGCATCAA GGCTCCTGAG 
    GGCATTGAGC CCCTGGTGTA CCTGTGCCAA ACGGACACAG AAGTCGTGAG GGAGGCTGCT 
    CGGCAGAGCC TGCAACAGTG TGGGGAAGAG GGACAGTCTG CCCACCGACG GCTAGAAGAG 
    TCGCTGGACG CCCTGCCCCG CATCTTCGGG CCCGGCAGCA TGGCCAGCAC GGCCTTCTAA

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

    RefSeq XP_014403293.1
    CDS24..4103
    Translation

    Target ORF information:

    RefSeq Version XM_014547807.1
    Organism Myotis brandtii(Brandt's bat)
    Definition Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014547807.1

    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
    3961
    4021
    ATGATGTCCC TGTCGGTGCG GCCGCAGCGC CGCCTGCTCA GCGCCCGGGT CAATAGGAGC 
    CAGTCCTTCG CAGGCGTCCT CGGCAGCCAC GAGCGGGGGC CCAGCTTCCC GGCCTTCAGT 
    CCCCCGGGGC CCCCGCGGAA GGCCCCTGCG CTCTCTCGAG TGTCCAGGAT GTTTGCAGTG 
    GCGCACCCAG CCCCCAAGGT CCCGCAGCCA GAGCGGCTGG ACCTGGTGTA CGCTGCGCTC 
    AAGCGGGGCC TGACGGCCTA TTTGGAAGTA CACCAGCAGG AGCAGGAGAA ACTCCAAGTG 
    CAGATAAAGG AATCCAAGAG GAATTCCCGC CTGGGCTTCC TGTATGACTT AGACAAGCAA 
    GTCAAGTCCA TTGAACGCTT CATGCGACGG CTGGAGTTCC ATGCCAGCAA GATCGACGAG 
    CTATATGAGG CATACTGTGT CCAGCGGCGT CTCCGGGATG GTGCCTACAA CATGGTCCGT 
    GCCTACACCA CCGGGTCCCC AGGGAGCCGT GAGGCCCGGG ACAGCTTGGC CGAGGCCACT 
    CGTGGGCATC GAGAGTACAC AGAGAGCATG TGTCTGCTGG AGAGTGAGCT GGAGGCACAG 
    CTGGGAGAGT TCCATCTCCG GATGAAAGGA CTGGCTGGCT TCGCCAGGCT GTGTGTGGGT 
    GATCAGTATG AGATCTGCAT GAAATACGGG CGTCAGCGCT GGAAACTACG GGGCCGCATT 
    GAGGGTAGTG GAAAGCAGGT GTGGGACAGT GAGGAAACCG TCTTTCTTCC TCTGCTCACG 
    GAATTCCTGT CCATCAAGGT GACAGAGCTG AAGGGCCTGG CCAACCATGT GGTTGTAGGC 
    AGCGTCTCCT GCGAGACCAA GGACTTGTTT GCAGCCCTGC CCCAGGTTGT GGCTGTGGAC 
    ATCAATGACC TCGGCACCAT CAAACTCAGC CTGGAAGTCA CATGGAGCCC CTTCGACAAA 
    GATGACCAGC CCTCAGCTGC TTCTACTGTC AACAAGGCCT CCACAGTCAC CAAGCGCTTC 
    TCCACCTATA GCCAGAGCCC ACCAGACACT CCCTCGCTTC GGGAACAGGC CTTCTATAAT 
    ATGCTGAGGC GGCAGGAGGA GCTGGAGAAT GGGACAGCAT GGTCCCTGTC ATCCGAATCT 
    TCGGACGATT CATCCAGTCC GCAGCTCTCG GGCAGTGCCC GCCACTCCTC AGCCCCAAAG 
    CCCCTGGTGC AGCAGCCTGA GCCTTTGCCC ATCCAAGTTG CCTTCCGTAG GCCTCAGACC 
    CCCACCTCCG GGCCCACGGA TGAGGAGGGA GCCATGGCCC CAGTCCTGGC CAATGGGCAT 
    GCCCCCTACA GCCGGACTCT CAGCCACATC AGTGAGGCCA GTGTGGATGC TGCCTTGGCT 
    GAAGCTTCAG TAGAGGCTGA GGGCCTAGAA AGCCAGGGAC CTAACCCACC TGCACACCCA 
    GATCCCACCC ATAGGGAGCA TCCTGGTCCT GACCCTCTTG CCCTGGGCCC TGGCCATTCT 
    GCCACAAGCC CCACTCTCAG TGCAATAGGC CCTGCTCACA CATCTACAGA CCCTGTCCCA 
    TCTGCATATC TAAACTCTCT CCACAAGACT CCAGACTCTA GCTCTCCTGA ACTGCCAGGT 
    CCCGCCCACA CCACTTCAAG CTCTACCTGT AGTGCCATAA GCCCTATCAG CAGTGCTCCA 
    AGCGTCACTC ACACTGTCAC AGGCTCTACC CACAAGCCCA AGCCCTCCAC CCTCACTGCT 
    ACAGGCCCTA GCCCCATTGC CATGGGCTCA GGCCAGACCA CAAGTCCCAC CCACAAGTCA 
    GTGCTTTCTA CCCTCACTAT TGCAGGTCCT AGCCCCAACA CTACAAGCCC AGTCCAGACC 
    ACAAGCCCCA GCCACACTGT CACAAACCTG ACAAATATTG TCACAAGCCC CACCATCAAG 
    CCCATACTCT CTACCCCCAC TACTACAGGC CCTAGCCCCA ACACTACAAG CTCAGTCCAG 
    ACCACAAGCC CCAGCCACAC TGTCACAAAC CTGACAAATA TTGTCACAAG CCCCACCATC 
    AAGCCCATAC TCTCTACCCC CACTACTACA GGCCCTAGCC CCAACACTAC AAGCTCAGTC 
    CAGACCACAA GCCCCAGCCA CACTGTCACA AACCTGACAA ATACTGTCAC AAGCCCCACC 
    GTCAAACCCA TACTCTCTAC CCCCACTACT ACAGGCCCTA CACCAAGCGC CCAGAGCCCA 
    GCCCAGCCTA CCACAATGCC CACCCACACC ACCACAAGCC CCACCCACAC TTCCACAAGC 
    CCCACCCACA CCACCACAAG CTCCACCCAT ACCACAAGCT CCACCCACAC TACCGCAAGC 
    CCTACTCCCA AAGCCAGTAT GTCAGCTCAC ACTACTGTAA GTCCAACCAC CGATGCTAAG 
    GACCCAGTCC AGACCACGAG AAGCCCCACC CACCCTGTCA CAAGCCCCAC CCTTATAACT 
    GTAAACCCTT CCACTTCTCT AGACCTCGCC ACGCTCCCCA GCCCCTCTGC ACACACAGAC 
    CCCAACCCAC TGTCCCATAG CCATCCAGCT TCCACTCCCT GCACTCAGGC AGATCCCATA 
    GCCCCAAGCA CCTCCGACCC AAGCCCTGCC TGCTCCAGTT TGGAACCCCC TACAAGCCCT 
    TCCCCAGGCC CCCCAGAGCC CATCCTTCAG AACCCAAGCC TCCCTCCCTC ACCCTTAACC 
    GTTGGGCCCC AGCATTCAGA CTTTAGCCTG GCCACGACTG CCCAGGCCCC AGTTCCAGGA 
    GCAACGGGAG GAGCTGGAGA CAGGAGGCTG GAGGAGGCAC TGGGGGCCCT AATGGCTGCT 
    CTGGATGACT ATCGTGGCCA GTTCCCAGAG CTGCAGGGCC TGGAGCAGGA GGTGATCCGC 
    CTGGAGAGTC TGCTCATGCA GAGACAAGGC CTGACTCGCA GCCGGGCCTC CAGTCTTAGC 
    ATCACTGTGG AGCATGCCCT GGAGAGCTTC AGCTTCCTCA ACGAGGATGA AGATGAAGAC 
    AACGATGGTC CTGGAGACAG GCCCCCAAGC AGCCTGGAGC CTAAGGCTGA AGACAGCCTC 
    AACTCACCCA GTGCCCATCC CCTCAGCACG GAGTGTCCAG CTCTGGACAC TGCCTTGGTC 
    CAGCACCTGT ACTACTGCAG CCGCCTCCTG CTGAAACTGG GCACATTTGG GCCGCTACGC 
    TGTCAGGAGG CATGGGCCCT GGAGCGACTG CTGCGGGAGG CCCGAGTGCT CGAGGTGGTA 
    TGCGAGCTTA GCAGGAGATG GGAAATCCCT GCTACTTCTG CCCAGGAAGT GGTGCAGTTC 
    TCAGCCTCTC GGCCTGGCTT CCTGACCTTC TGGGACCAGT GCACAGAGGG ACTTAGCCCC 
    TTCATCTGCC CTGTGAAGCA GGTGCTCCTC ACCTTCTGCA ATCAGTACGG TGCCCGGCTC 
    TCCCTGCGCC AGCCAGGCTT AGCTGAGGCT GTGTGTGTCA AGTTTCTGGA GGATATGCTG 
    GGACAGAAGC TGCCCAGGAG GCCCCAGCCA GGCCCTGGCG AGCAGCTCAC TGTCTTCCAG 
    TTCTGGAGTT ATGTGGAAAC CCTGGACAGC CCCTCCATGG AGGCCTATGT GACGGAGACC 
    GCTGAGGAAG TGTTACTGGT GCAGAACCTG AACTCAGATG ATCAGGCTGT TGTGCTCAAG 
    GCCCTGAGGT TGGCACCTGA AGGGCGGCTA CGAAGGGACG GGCTTCGGGC CCTCAGCTCC 
    CTGCTCGTCC ATGGCAACAA CAAGGTCATG GCTGCTGTCA GCACCCAGCT CCGGAGCCTG 
    TCGCTAGGCC CTGCCTTCCG GGAAAGGGCC CTACTGTGCT TCCTGAACCA ACTCGAGGAT 
    GAGGACGTGC AGACGAGAGT GGCTGGCTGC CTGGCCTTAG GCTGCATCAA GGCTCCTGAG 
    GGCATTGAGC CCCTGGTGTA CCTGTGCCAA ACGGACACAG AAGTCGTGAG GGAGGCTGCT 
    CGGCAGAGCC TGCAACAGTG TGGGGAAGAG GGACAGTCTG CCCACCGACG GCTAGAAGAG 
    TCGCTGGACG CCCTGCCCCG CATCTTCGGG CCCGGCAGCA TGGCCAGCAC GGCCTTCTAA

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

    FAM65A ( XM_005876391.2 ) cDNA ORF clone, Myotis brandtii(Brandt's bat) -> XP_005876453.1 Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMy54642
    Clone ID Related Accession (Same CDS sequence) XM_005876391.2
    Accession Version XM_005876391.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4125bp)
    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 2015-11-03
    Organism Myotis brandtii(Brandt's bat)
    Product protein FAM65A isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005368569.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2015 this sequence version replaced XM_005876391.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Myotis brandtii Annotation Release 101 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## 

    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
    3961
    4021
    4081
    ATGAACACCA AGAAGAAAGG GAGCCCCGCG CGGACTCATT CCATGATGTC CCTGTCGGTG 
    CGGCCGCAGC GCCGCCTGCT CAGCGCCCGG GTCAATAGGA GCCAGTCCTT CGCAGGCGTC 
    CTCGGCAGCC ACGAGCGGGG GCCCAGCAGC TTCCCGGCCT TCAGTCCCCC GGGGCCCCCG 
    CGGAAGGCCC CTGCGCTCTC TCGAGTGTCC AGGATGTTTG CAGTGGCGCA CCCAGCCCCC 
    AAGGTCCCGC AGCCAGAGCG GCTGGACCTG GTGTACGCTG CGCTCAAGCG GGGCCTGACG 
    GCCTATTTGG AAGTACACCA GCAGGAGCAG GAGAAACTCC AAGTGCAGAT AAAGGAATCC 
    AAGAGGAATT CCCGCCTGGG CTTCCTGTAT GACTTAGACA AGCAAGTCAA GTCCATTGAA 
    CGCTTCATGC GACGGCTGGA GTTCCATGCC AGCAAGATCG ACGAGCTATA TGAGGCATAC 
    TGTGTCCAGC GGCGTCTCCG GGATGGTGCC TACAACATGG TCCGTGCCTA CACCACCGGG 
    TCCCCAGGGA GCCGTGAGGC CCGGGACAGC TTGGCCGAGG CCACTCGTGG GCATCGAGAG 
    TACACAGAGA GCATGTGTCT GCTGGAGAGT GAGCTGGAGG CACAGCTGGG AGAGTTCCAT 
    CTCCGGATGA AAGGACTGGC TGGCTTCGCC AGGCTGTGTG TGGGTGATCA GTATGAGATC 
    TGCATGAAAT ACGGGCGTCA GCGCTGGAAA CTACGGGGCC GCATTGAGGG TAGTGGAAAG 
    CAGGTGTGGG ACAGTGAGGA AACCGTCTTT CTTCCTCTGC TCACGGAATT CCTGTCCATC 
    AAGGTGACAG AGCTGAAGGG CCTGGCCAAC CATGTGGTTG TAGGCAGCGT CTCCTGCGAG 
    ACCAAGGACT TGTTTGCAGC CCTGCCCCAG GTTGTGGCTG TGGACATCAA TGACCTCGGC 
    ACCATCAAAC TCAGCCTGGA AGTCACATGG AGCCCCTTCG ACAAAGATGA CCAGCCCTCA 
    GCTGCTTCTA CTGTCAACAA GGCCTCCACA GTCACCAAGC GCTTCTCCAC CTATAGCCAG 
    AGCCCACCAG ACACTCCCTC GCTTCGGGAA CAGGCCTTCT ATAATATGCT GAGGCGGCAG 
    GAGGAGCTGG AGAATGGGAC AGCATGGTCC CTGTCATCCG AATCTTCGGA CGATTCATCC 
    AGTCCGCAGC TCTCGGGCAG TGCCCGCCAC TCCTCAGCCC CAAAGCCCCT GGTGCAGCAG 
    CCTGAGCCTT TGCCCATCCA AGTTGCCTTC CGTAGGCCTC AGACCCCCAC CTCCGGGCCC 
    ACGGATGAGG AGGGAGCCAT GGCCCCAGTC CTGGCCAATG GGCATGCCCC CTACAGCCGG 
    ACTCTCAGCC ACATCAGTGA GGCCAGTGTG GATGCTGCCT TGGCTGAAGC TTCAGTAGAG 
    GCTGAGGGCC TAGAAAGCCA GGGACCTAAC CCACCTGCAC ACCCAGATCC CACCCATAGG 
    GAGCATCCTG GTCCTGACCC TCTTGCCCTG GGCCCTGGCC ATTCTGCCAC AAGCCCCACT 
    CTCAGTGCAA TAGGCCCTGC TCACACATCT ACAGACCCTG TCCCATCTGC ATATCTAAAC 
    TCTCTCCACA AGACTCCAGA CTCTAGCTCT CCTGAACTGC CAGGTCCCGC CCACACCACT 
    TCAAGCTCTA CCTGTAGTGC CATAAGCCCT ATCAGCAGTG CTCCAAGCGT CACTCACACT 
    GTCACAGGCT CTACCCACAA GCCCAAGCCC TCCACCCTCA CTGCTACAGG CCCTAGCCCC 
    ATTGCCATGG GCTCAGGCCA GACCACAAGT CCCACCCACA AGTCAGTGCT TTCTACCCTC 
    ACTATTGCAG GTCCTAGCCC CAACACTACA AGCCCAGTCC AGACCACAAG CCCCAGCCAC 
    ACTGTCACAA ACCTGACAAA TATTGTCACA AGCCCCACCA TCAAGCCCAT ACTCTCTACC 
    CCCACTACTA CAGGCCCTAG CCCCAACACT ACAAGCTCAG TCCAGACCAC AAGCCCCAGC 
    CACACTGTCA CAAACCTGAC AAATATTGTC ACAAGCCCCA CCATCAAGCC CATACTCTCT 
    ACCCCCACTA CTACAGGCCC TAGCCCCAAC ACTACAAGCT CAGTCCAGAC CACAAGCCCC 
    AGCCACACTG TCACAAACCT GACAAATACT GTCACAAGCC CCACCGTCAA ACCCATACTC 
    TCTACCCCCA CTACTACAGG CCCTACACCA AGCGCCCAGA GCCCAGCCCA GCCTACCACA 
    ATGCCCACCC ACACCACCAC AAGCCCCACC CACACTTCCA CAAGCCCCAC CCACACCACC 
    ACAAGCTCCA CCCATACCAC AAGCTCCACC CACACTACCG CAAGCCCTAC TCCCAAAGCC 
    AGTATGTCAG CTCACACTAC TGTAAGTCCA ACCACCGATG CTAAGGACCC AGTCCAGACC 
    ACGAGAAGCC CCACCCACCC TGTCACAAGC CCCACCCTTA TAACTGTAAA CCCTTCCACT 
    TCTCTAGACC TCGCCACGCT CCCCAGCCCC TCTGCACACA CAGACCCCAA CCCACTGTCC 
    CATAGCCATC CAGCTTCCAC TCCCTGCACT CAGGCAGATC CCATAGCCCC AAGCACCTCC 
    GACCCAAGCC CTGCCTGCTC CAGTTTGGAA CCCCCTACAA GCCCTTCCCC AGGCCCCCCA 
    GAGCCCATCC TTCAGAACCC AAGCCTCCCT CCCTCACCCT TAACCGTTGG GCCCCAGCAT 
    TCAGACTTTA GCCTGGCCAC GACTGCCCAG GCCCCAGTTC CAGGAGCAAC GGGAGGAGCT 
    GGAGACAGGA GGCTGGAGGA GGCACTGGGG GCCCTAATGG CTGCTCTGGA TGACTATCGT 
    GGCCAGTTCC CAGAGCTGCA GGGCCTGGAG CAGGAGGTGA TCCGCCTGGA GAGTCTGCTC 
    ATGCAGAGAC AAGGCCTGAC TCGCAGCCGG GCCTCCAGTC TTAGCATCAC TGTGGAGCAT 
    GCCCTGGAGA GCTTCAGCTT CCTCAACGAG GATGAAGATG AAGACAACGA TGGTCCTGGA 
    GACAGGCCCC CAAGCAGCCT GGAGCCTAAG GCTGAAGACA GCCTCAACTC ACCCAGTGCC 
    CATCCCCTCA GCACGGAGTG TCCAGCTCTG GACACTGCCT TGGTCCAGCA CCTGTACTAC 
    TGCAGCCGCC TCCTGCTGAA ACTGGGCACA TTTGGGCCGC TACGCTGTCA GGAGGCATGG 
    GCCCTGGAGC GACTGCTGCG GGAGGCCCGA GTGCTCGAGG TGGTATGCGA GCTTAGCAGG 
    AGATGGGAAA TCCCTGCTAC TTCTGCCCAG GAAGTGGTGC AGTTCTCAGC CTCTCGGCCT 
    GGCTTCCTGA CCTTCTGGGA CCAGTGCACA GAGGGACTTA GCCCCTTCAT CTGCCCTGTG 
    AAGCAGGTGC TCCTCACCTT CTGCAATCAG TACGGTGCCC GGCTCTCCCT GCGCCAGCCA 
    GGCTTAGCTG AGGCTGTGTG TGTCAAGTTT CTGGAGGATA TGCTGGGACA GAAGCTGCCC 
    AGGAGGCCCC AGCCAGGCCC TGGCGAGCAG CTCACTGTCT TCCAGTTCTG GAGTTATGTG 
    GAAACCCTGG ACAGCCCCTC CATGGAGGCC TATGTGACGG AGACCGCTGA GGAAGTGTTA 
    CTGGTGCAGA ACCTGAACTC AGATGATCAG GCTGTTGTGC TCAAGGCCCT GAGGTTGGCA 
    CCTGAAGGGC GGCTACGAAG GGACGGGCTT CGGGCCCTCA GCTCCCTGCT CGTCCATGGC 
    AACAACAAGG TCATGGCTGC TGTCAGCACC CAGCTCCGGA GCCTGTCGCT AGGCCCTGCC 
    TTCCGGGAAA GGGCCCTACT GTGCTTCCTG AACCAACTCG AGGATGAGGA CGTGCAGACG 
    AGAGTGGCTG GCTGCCTGGC CTTAGGCTGC ATCAAGGCTC CTGAGGGCAT TGAGCCCCTG 
    GTGTACCTGT GCCAAACGGA CACAGAAGTC GTGAGGGAGG CTGCTCGGCA GAGCCTGCAA 
    CAGTGTGGGG AAGAGGGACA GTCTGCCCAC CGACGGCTAG AAGAGTCGCT GGACGCCCTG 
    CCCCGCATCT TCGGGCCCGG CAGCATGGCC AGCACGGCCT TCTAA

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

    RefSeq XP_005876453.1
    CDS26..4150
    Translation

    Target ORF information:

    RefSeq Version XM_005876391.2
    Organism Myotis brandtii(Brandt's bat)
    Definition Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005876391.2

    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
    3961
    4021
    4081
    ATGAACACCA AGAAGAAAGG GAGCCCCGCG CGGACTCATT CCATGATGTC CCTGTCGGTG 
    CGGCCGCAGC GCCGCCTGCT CAGCGCCCGG GTCAATAGGA GCCAGTCCTT CGCAGGCGTC 
    CTCGGCAGCC ACGAGCGGGG GCCCAGCAGC TTCCCGGCCT TCAGTCCCCC GGGGCCCCCG 
    CGGAAGGCCC CTGCGCTCTC TCGAGTGTCC AGGATGTTTG CAGTGGCGCA CCCAGCCCCC 
    AAGGTCCCGC AGCCAGAGCG GCTGGACCTG GTGTACGCTG CGCTCAAGCG GGGCCTGACG 
    GCCTATTTGG AAGTACACCA GCAGGAGCAG GAGAAACTCC AAGTGCAGAT AAAGGAATCC 
    AAGAGGAATT CCCGCCTGGG CTTCCTGTAT GACTTAGACA AGCAAGTCAA GTCCATTGAA 
    CGCTTCATGC GACGGCTGGA GTTCCATGCC AGCAAGATCG ACGAGCTATA TGAGGCATAC 
    TGTGTCCAGC GGCGTCTCCG GGATGGTGCC TACAACATGG TCCGTGCCTA CACCACCGGG 
    TCCCCAGGGA GCCGTGAGGC CCGGGACAGC TTGGCCGAGG CCACTCGTGG GCATCGAGAG 
    TACACAGAGA GCATGTGTCT GCTGGAGAGT GAGCTGGAGG CACAGCTGGG AGAGTTCCAT 
    CTCCGGATGA AAGGACTGGC TGGCTTCGCC AGGCTGTGTG TGGGTGATCA GTATGAGATC 
    TGCATGAAAT ACGGGCGTCA GCGCTGGAAA CTACGGGGCC GCATTGAGGG TAGTGGAAAG 
    CAGGTGTGGG ACAGTGAGGA AACCGTCTTT CTTCCTCTGC TCACGGAATT CCTGTCCATC 
    AAGGTGACAG AGCTGAAGGG CCTGGCCAAC CATGTGGTTG TAGGCAGCGT CTCCTGCGAG 
    ACCAAGGACT TGTTTGCAGC CCTGCCCCAG GTTGTGGCTG TGGACATCAA TGACCTCGGC 
    ACCATCAAAC TCAGCCTGGA AGTCACATGG AGCCCCTTCG ACAAAGATGA CCAGCCCTCA 
    GCTGCTTCTA CTGTCAACAA GGCCTCCACA GTCACCAAGC GCTTCTCCAC CTATAGCCAG 
    AGCCCACCAG ACACTCCCTC GCTTCGGGAA CAGGCCTTCT ATAATATGCT GAGGCGGCAG 
    GAGGAGCTGG AGAATGGGAC AGCATGGTCC CTGTCATCCG AATCTTCGGA CGATTCATCC 
    AGTCCGCAGC TCTCGGGCAG TGCCCGCCAC TCCTCAGCCC CAAAGCCCCT GGTGCAGCAG 
    CCTGAGCCTT TGCCCATCCA AGTTGCCTTC CGTAGGCCTC AGACCCCCAC CTCCGGGCCC 
    ACGGATGAGG AGGGAGCCAT GGCCCCAGTC CTGGCCAATG GGCATGCCCC CTACAGCCGG 
    ACTCTCAGCC ACATCAGTGA GGCCAGTGTG GATGCTGCCT TGGCTGAAGC TTCAGTAGAG 
    GCTGAGGGCC TAGAAAGCCA GGGACCTAAC CCACCTGCAC ACCCAGATCC CACCCATAGG 
    GAGCATCCTG GTCCTGACCC TCTTGCCCTG GGCCCTGGCC ATTCTGCCAC AAGCCCCACT 
    CTCAGTGCAA TAGGCCCTGC TCACACATCT ACAGACCCTG TCCCATCTGC ATATCTAAAC 
    TCTCTCCACA AGACTCCAGA CTCTAGCTCT CCTGAACTGC CAGGTCCCGC CCACACCACT 
    TCAAGCTCTA CCTGTAGTGC CATAAGCCCT ATCAGCAGTG CTCCAAGCGT CACTCACACT 
    GTCACAGGCT CTACCCACAA GCCCAAGCCC TCCACCCTCA CTGCTACAGG CCCTAGCCCC 
    ATTGCCATGG GCTCAGGCCA GACCACAAGT CCCACCCACA AGTCAGTGCT TTCTACCCTC 
    ACTATTGCAG GTCCTAGCCC CAACACTACA AGCCCAGTCC AGACCACAAG CCCCAGCCAC 
    ACTGTCACAA ACCTGACAAA TATTGTCACA AGCCCCACCA TCAAGCCCAT ACTCTCTACC 
    CCCACTACTA CAGGCCCTAG CCCCAACACT ACAAGCTCAG TCCAGACCAC AAGCCCCAGC 
    CACACTGTCA CAAACCTGAC AAATATTGTC ACAAGCCCCA CCATCAAGCC CATACTCTCT 
    ACCCCCACTA CTACAGGCCC TAGCCCCAAC ACTACAAGCT CAGTCCAGAC CACAAGCCCC 
    AGCCACACTG TCACAAACCT GACAAATACT GTCACAAGCC CCACCGTCAA ACCCATACTC 
    TCTACCCCCA CTACTACAGG CCCTACACCA AGCGCCCAGA GCCCAGCCCA GCCTACCACA 
    ATGCCCACCC ACACCACCAC AAGCCCCACC CACACTTCCA CAAGCCCCAC CCACACCACC 
    ACAAGCTCCA CCCATACCAC AAGCTCCACC CACACTACCG CAAGCCCTAC TCCCAAAGCC 
    AGTATGTCAG CTCACACTAC TGTAAGTCCA ACCACCGATG CTAAGGACCC AGTCCAGACC 
    ACGAGAAGCC CCACCCACCC TGTCACAAGC CCCACCCTTA TAACTGTAAA CCCTTCCACT 
    TCTCTAGACC TCGCCACGCT CCCCAGCCCC TCTGCACACA CAGACCCCAA CCCACTGTCC 
    CATAGCCATC CAGCTTCCAC TCCCTGCACT CAGGCAGATC CCATAGCCCC AAGCACCTCC 
    GACCCAAGCC CTGCCTGCTC CAGTTTGGAA CCCCCTACAA GCCCTTCCCC AGGCCCCCCA 
    GAGCCCATCC TTCAGAACCC AAGCCTCCCT CCCTCACCCT TAACCGTTGG GCCCCAGCAT 
    TCAGACTTTA GCCTGGCCAC GACTGCCCAG GCCCCAGTTC CAGGAGCAAC GGGAGGAGCT 
    GGAGACAGGA GGCTGGAGGA GGCACTGGGG GCCCTAATGG CTGCTCTGGA TGACTATCGT 
    GGCCAGTTCC CAGAGCTGCA GGGCCTGGAG CAGGAGGTGA TCCGCCTGGA GAGTCTGCTC 
    ATGCAGAGAC AAGGCCTGAC TCGCAGCCGG GCCTCCAGTC TTAGCATCAC TGTGGAGCAT 
    GCCCTGGAGA GCTTCAGCTT CCTCAACGAG GATGAAGATG AAGACAACGA TGGTCCTGGA 
    GACAGGCCCC CAAGCAGCCT GGAGCCTAAG GCTGAAGACA GCCTCAACTC ACCCAGTGCC 
    CATCCCCTCA GCACGGAGTG TCCAGCTCTG GACACTGCCT TGGTCCAGCA CCTGTACTAC 
    TGCAGCCGCC TCCTGCTGAA ACTGGGCACA TTTGGGCCGC TACGCTGTCA GGAGGCATGG 
    GCCCTGGAGC GACTGCTGCG GGAGGCCCGA GTGCTCGAGG TGGTATGCGA GCTTAGCAGG 
    AGATGGGAAA TCCCTGCTAC TTCTGCCCAG GAAGTGGTGC AGTTCTCAGC CTCTCGGCCT 
    GGCTTCCTGA CCTTCTGGGA CCAGTGCACA GAGGGACTTA GCCCCTTCAT CTGCCCTGTG 
    AAGCAGGTGC TCCTCACCTT CTGCAATCAG TACGGTGCCC GGCTCTCCCT GCGCCAGCCA 
    GGCTTAGCTG AGGCTGTGTG TGTCAAGTTT CTGGAGGATA TGCTGGGACA GAAGCTGCCC 
    AGGAGGCCCC AGCCAGGCCC TGGCGAGCAG CTCACTGTCT TCCAGTTCTG GAGTTATGTG 
    GAAACCCTGG ACAGCCCCTC CATGGAGGCC TATGTGACGG AGACCGCTGA GGAAGTGTTA 
    CTGGTGCAGA ACCTGAACTC AGATGATCAG GCTGTTGTGC TCAAGGCCCT GAGGTTGGCA 
    CCTGAAGGGC GGCTACGAAG GGACGGGCTT CGGGCCCTCA GCTCCCTGCT CGTCCATGGC 
    AACAACAAGG TCATGGCTGC TGTCAGCACC CAGCTCCGGA GCCTGTCGCT AGGCCCTGCC 
    TTCCGGGAAA GGGCCCTACT GTGCTTCCTG AACCAACTCG AGGATGAGGA CGTGCAGACG 
    AGAGTGGCTG GCTGCCTGGC CTTAGGCTGC ATCAAGGCTC CTGAGGGCAT TGAGCCCCTG 
    GTGTACCTGT GCCAAACGGA CACAGAAGTC GTGAGGGAGG CTGCTCGGCA GAGCCTGCAA 
    CAGTGTGGGG AAGAGGGACA GTCTGCCCAC CGACGGCTAG AAGAGTCGCT GGACGCCCTG 
    CCCCGCATCT TCGGGCCCGG CAGCATGGCC AGCACGGCCT TCTAA

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

    FAM65A ( XM_014547808.1 ) cDNA ORF clone, Myotis brandtii(Brandt's bat) -> XP_014403294.1 Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMy54643
    Clone ID Related Accession (Same CDS sequence) XM_014547808.1
    Accession Version XM_014547808.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4083bp)
    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 2015-11-03
    Organism Myotis brandtii(Brandt's bat)
    Product protein FAM65A isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005368569.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Myotis brandtii Annotation Release 101 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## 

    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
    3961
    4021
    4081
    ATGATGTCCC TGTCGGTGCG GCCGCAGCGC CGCCTGCTCA GCGCCCGGGT CAATAGGAGC 
    CAGTCCTTCG CAGGCGTCCT CGGCAGCCAC GAGCGGGGGC CCAGCAGCTT CCCGGCCTTC 
    AGTCCCCCGG GGCCCCCGCG GAAGGCCCCT GCGCTCTCTC GAGTGTCCAG GATGTTTGCA 
    GTGGCGCACC CAGCCCCCAA GGTCCCGCAG CCAGAGCGGC TGGACCTGGT GTACGCTGCG 
    CTCAAGCGGG GCCTGACGGC CTATTTGGAA GTACACCAGC AGGAGCAGGA GAAACTCCAA 
    GTGCAGATAA AGGAATCCAA GAGGAATTCC CGCCTGGGCT TCCTGTATGA CTTAGACAAG 
    CAAGTCAAGT CCATTGAACG CTTCATGCGA CGGCTGGAGT TCCATGCCAG CAAGATCGAC 
    GAGCTATATG AGGCATACTG TGTCCAGCGG CGTCTCCGGG ATGGTGCCTA CAACATGGTC 
    CGTGCCTACA CCACCGGGTC CCCAGGGAGC CGTGAGGCCC GGGACAGCTT GGCCGAGGCC 
    ACTCGTGGGC ATCGAGAGTA CACAGAGAGC ATGTGTCTGC TGGAGAGTGA GCTGGAGGCA 
    CAGCTGGGAG AGTTCCATCT CCGGATGAAA GGACTGGCTG GCTTCGCCAG GCTGTGTGTG 
    GGTGATCAGT ATGAGATCTG CATGAAATAC GGGCGTCAGC GCTGGAAACT ACGGGGCCGC 
    ATTGAGGGTA GTGGAAAGCA GGTGTGGGAC AGTGAGGAAA CCGTCTTTCT TCCTCTGCTC 
    ACGGAATTCC TGTCCATCAA GGTGACAGAG CTGAAGGGCC TGGCCAACCA TGTGGTTGTA 
    GGCAGCGTCT CCTGCGAGAC CAAGGACTTG TTTGCAGCCC TGCCCCAGGT TGTGGCTGTG 
    GACATCAATG ACCTCGGCAC CATCAAACTC AGCCTGGAAG TCACATGGAG CCCCTTCGAC 
    AAAGATGACC AGCCCTCAGC TGCTTCTACT GTCAACAAGG CCTCCACAGT CACCAAGCGC 
    TTCTCCACCT ATAGCCAGAG CCCACCAGAC ACTCCCTCGC TTCGGGAACA GGCCTTCTAT 
    AATATGCTGA GGCGGCAGGA GGAGCTGGAG AATGGGACAG CATGGTCCCT GTCATCCGAA 
    TCTTCGGACG ATTCATCCAG TCCGCAGCTC TCGGGCAGTG CCCGCCACTC CTCAGCCCCA 
    AAGCCCCTGG TGCAGCAGCC TGAGCCTTTG CCCATCCAAG TTGCCTTCCG TAGGCCTCAG 
    ACCCCCACCT CCGGGCCCAC GGATGAGGAG GGAGCCATGG CCCCAGTCCT GGCCAATGGG 
    CATGCCCCCT ACAGCCGGAC TCTCAGCCAC ATCAGTGAGG CCAGTGTGGA TGCTGCCTTG 
    GCTGAAGCTT CAGTAGAGGC TGAGGGCCTA GAAAGCCAGG GACCTAACCC ACCTGCACAC 
    CCAGATCCCA CCCATAGGGA GCATCCTGGT CCTGACCCTC TTGCCCTGGG CCCTGGCCAT 
    TCTGCCACAA GCCCCACTCT CAGTGCAATA GGCCCTGCTC ACACATCTAC AGACCCTGTC 
    CCATCTGCAT ATCTAAACTC TCTCCACAAG ACTCCAGACT CTAGCTCTCC TGAACTGCCA 
    GGTCCCGCCC ACACCACTTC AAGCTCTACC TGTAGTGCCA TAAGCCCTAT CAGCAGTGCT 
    CCAAGCGTCA CTCACACTGT CACAGGCTCT ACCCACAAGC CCAAGCCCTC CACCCTCACT 
    GCTACAGGCC CTAGCCCCAT TGCCATGGGC TCAGGCCAGA CCACAAGTCC CACCCACAAG 
    TCAGTGCTTT CTACCCTCAC TATTGCAGGT CCTAGCCCCA ACACTACAAG CCCAGTCCAG 
    ACCACAAGCC CCAGCCACAC TGTCACAAAC CTGACAAATA TTGTCACAAG CCCCACCATC 
    AAGCCCATAC TCTCTACCCC CACTACTACA GGCCCTAGCC CCAACACTAC AAGCTCAGTC 
    CAGACCACAA GCCCCAGCCA CACTGTCACA AACCTGACAA ATATTGTCAC AAGCCCCACC 
    ATCAAGCCCA TACTCTCTAC CCCCACTACT ACAGGCCCTA GCCCCAACAC TACAAGCTCA 
    GTCCAGACCA CAAGCCCCAG CCACACTGTC ACAAACCTGA CAAATACTGT CACAAGCCCC 
    ACCGTCAAAC CCATACTCTC TACCCCCACT ACTACAGGCC CTACACCAAG CGCCCAGAGC 
    CCAGCCCAGC CTACCACAAT GCCCACCCAC ACCACCACAA GCCCCACCCA CACTTCCACA 
    AGCCCCACCC ACACCACCAC AAGCTCCACC CATACCACAA GCTCCACCCA CACTACCGCA 
    AGCCCTACTC CCAAAGCCAG TATGTCAGCT CACACTACTG TAAGTCCAAC CACCGATGCT 
    AAGGACCCAG TCCAGACCAC GAGAAGCCCC ACCCACCCTG TCACAAGCCC CACCCTTATA 
    ACTGTAAACC CTTCCACTTC TCTAGACCTC GCCACGCTCC CCAGCCCCTC TGCACACACA 
    GACCCCAACC CACTGTCCCA TAGCCATCCA GCTTCCACTC CCTGCACTCA GGCAGATCCC 
    ATAGCCCCAA GCACCTCCGA CCCAAGCCCT GCCTGCTCCA GTTTGGAACC CCCTACAAGC 
    CCTTCCCCAG GCCCCCCAGA GCCCATCCTT CAGAACCCAA GCCTCCCTCC CTCACCCTTA 
    ACCGTTGGGC CCCAGCATTC AGACTTTAGC CTGGCCACGA CTGCCCAGGC CCCAGTTCCA 
    GGAGCAACGG GAGGAGCTGG AGACAGGAGG CTGGAGGAGG CACTGGGGGC CCTAATGGCT 
    GCTCTGGATG ACTATCGTGG CCAGTTCCCA GAGCTGCAGG GCCTGGAGCA GGAGGTGATC 
    CGCCTGGAGA GTCTGCTCAT GCAGAGACAA GGCCTGACTC GCAGCCGGGC CTCCAGTCTT 
    AGCATCACTG TGGAGCATGC CCTGGAGAGC TTCAGCTTCC TCAACGAGGA TGAAGATGAA 
    GACAACGATG GTCCTGGAGA CAGGCCCCCA AGCAGCCTGG AGCCTAAGGC TGAAGACAGC 
    CTCAACTCAC CCAGTGCCCA TCCCCTCAGC ACGGAGTGTC CAGCTCTGGA CACTGCCTTG 
    GTCCAGCACC TGTACTACTG CAGCCGCCTC CTGCTGAAAC TGGGCACATT TGGGCCGCTA 
    CGCTGTCAGG AGGCATGGGC CCTGGAGCGA CTGCTGCGGG AGGCCCGAGT GCTCGAGGTG 
    GTATGCGAGC TTAGCAGGAG ATGGGAAATC CCTGCTACTT CTGCCCAGGA AGTGGTGCAG 
    TTCTCAGCCT CTCGGCCTGG CTTCCTGACC TTCTGGGACC AGTGCACAGA GGGACTTAGC 
    CCCTTCATCT GCCCTGTGAA GCAGGTGCTC CTCACCTTCT GCAATCAGTA CGGTGCCCGG 
    CTCTCCCTGC GCCAGCCAGG CTTAGCTGAG GCTGTGTGTG TCAAGTTTCT GGAGGATATG 
    CTGGGACAGA AGCTGCCCAG GAGGCCCCAG CCAGGCCCTG GCGAGCAGCT CACTGTCTTC 
    CAGTTCTGGA GTTATGTGGA AACCCTGGAC AGCCCCTCCA TGGAGGCCTA TGTGACGGAG 
    ACCGCTGAGG AAGTGTTACT GGTGCAGAAC CTGAACTCAG ATGATCAGGC TGTTGTGCTC 
    AAGGCCCTGA GGTTGGCACC TGAAGGGCGG CTACGAAGGG ACGGGCTTCG GGCCCTCAGC 
    TCCCTGCTCG TCCATGGCAA CAACAAGGTC ATGGCTGCTG TCAGCACCCA GCTCCGGAGC 
    CTGTCGCTAG GCCCTGCCTT CCGGGAAAGG GCCCTACTGT GCTTCCTGAA CCAACTCGAG 
    GATGAGGACG TGCAGACGAG AGTGGCTGGC TGCCTGGCCT TAGGCTGCAT CAAGGCTCCT 
    GAGGGCATTG AGCCCCTGGT GTACCTGTGC CAAACGGACA CAGAAGTCGT GAGGGAGGCT 
    GCTCGGCAGA GCCTGCAACA GTGTGGGGAA GAGGGACAGT CTGCCCACCG ACGGCTAGAA 
    GAGTCGCTGG ACGCCCTGCC CCGCATCTTC GGGCCCGGCA GCATGGCCAG CACGGCCTTC 
    TAA

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

    RefSeq XP_014403294.1
    CDS295..4377
    Translation

    Target ORF information:

    RefSeq Version XM_014547808.1
    Organism Myotis brandtii(Brandt's bat)
    Definition Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014547808.1

    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
    3961
    4021
    4081
    ATGATGTCCC TGTCGGTGCG GCCGCAGCGC CGCCTGCTCA GCGCCCGGGT CAATAGGAGC 
    CAGTCCTTCG CAGGCGTCCT CGGCAGCCAC GAGCGGGGGC CCAGCAGCTT CCCGGCCTTC 
    AGTCCCCCGG GGCCCCCGCG GAAGGCCCCT GCGCTCTCTC GAGTGTCCAG GATGTTTGCA 
    GTGGCGCACC CAGCCCCCAA GGTCCCGCAG CCAGAGCGGC TGGACCTGGT GTACGCTGCG 
    CTCAAGCGGG GCCTGACGGC CTATTTGGAA GTACACCAGC AGGAGCAGGA GAAACTCCAA 
    GTGCAGATAA AGGAATCCAA GAGGAATTCC CGCCTGGGCT TCCTGTATGA CTTAGACAAG 
    CAAGTCAAGT CCATTGAACG CTTCATGCGA CGGCTGGAGT TCCATGCCAG CAAGATCGAC 
    GAGCTATATG AGGCATACTG TGTCCAGCGG CGTCTCCGGG ATGGTGCCTA CAACATGGTC 
    CGTGCCTACA CCACCGGGTC CCCAGGGAGC CGTGAGGCCC GGGACAGCTT GGCCGAGGCC 
    ACTCGTGGGC ATCGAGAGTA CACAGAGAGC ATGTGTCTGC TGGAGAGTGA GCTGGAGGCA 
    CAGCTGGGAG AGTTCCATCT CCGGATGAAA GGACTGGCTG GCTTCGCCAG GCTGTGTGTG 
    GGTGATCAGT ATGAGATCTG CATGAAATAC GGGCGTCAGC GCTGGAAACT ACGGGGCCGC 
    ATTGAGGGTA GTGGAAAGCA GGTGTGGGAC AGTGAGGAAA CCGTCTTTCT TCCTCTGCTC 
    ACGGAATTCC TGTCCATCAA GGTGACAGAG CTGAAGGGCC TGGCCAACCA TGTGGTTGTA 
    GGCAGCGTCT CCTGCGAGAC CAAGGACTTG TTTGCAGCCC TGCCCCAGGT TGTGGCTGTG 
    GACATCAATG ACCTCGGCAC CATCAAACTC AGCCTGGAAG TCACATGGAG CCCCTTCGAC 
    AAAGATGACC AGCCCTCAGC TGCTTCTACT GTCAACAAGG CCTCCACAGT CACCAAGCGC 
    TTCTCCACCT ATAGCCAGAG CCCACCAGAC ACTCCCTCGC TTCGGGAACA GGCCTTCTAT 
    AATATGCTGA GGCGGCAGGA GGAGCTGGAG AATGGGACAG CATGGTCCCT GTCATCCGAA 
    TCTTCGGACG ATTCATCCAG TCCGCAGCTC TCGGGCAGTG CCCGCCACTC CTCAGCCCCA 
    AAGCCCCTGG TGCAGCAGCC TGAGCCTTTG CCCATCCAAG TTGCCTTCCG TAGGCCTCAG 
    ACCCCCACCT CCGGGCCCAC GGATGAGGAG GGAGCCATGG CCCCAGTCCT GGCCAATGGG 
    CATGCCCCCT ACAGCCGGAC TCTCAGCCAC ATCAGTGAGG CCAGTGTGGA TGCTGCCTTG 
    GCTGAAGCTT CAGTAGAGGC TGAGGGCCTA GAAAGCCAGG GACCTAACCC ACCTGCACAC 
    CCAGATCCCA CCCATAGGGA GCATCCTGGT CCTGACCCTC TTGCCCTGGG CCCTGGCCAT 
    TCTGCCACAA GCCCCACTCT CAGTGCAATA GGCCCTGCTC ACACATCTAC AGACCCTGTC 
    CCATCTGCAT ATCTAAACTC TCTCCACAAG ACTCCAGACT CTAGCTCTCC TGAACTGCCA 
    GGTCCCGCCC ACACCACTTC AAGCTCTACC TGTAGTGCCA TAAGCCCTAT CAGCAGTGCT 
    CCAAGCGTCA CTCACACTGT CACAGGCTCT ACCCACAAGC CCAAGCCCTC CACCCTCACT 
    GCTACAGGCC CTAGCCCCAT TGCCATGGGC TCAGGCCAGA CCACAAGTCC CACCCACAAG 
    TCAGTGCTTT CTACCCTCAC TATTGCAGGT CCTAGCCCCA ACACTACAAG CCCAGTCCAG 
    ACCACAAGCC CCAGCCACAC TGTCACAAAC CTGACAAATA TTGTCACAAG CCCCACCATC 
    AAGCCCATAC TCTCTACCCC CACTACTACA GGCCCTAGCC CCAACACTAC AAGCTCAGTC 
    CAGACCACAA GCCCCAGCCA CACTGTCACA AACCTGACAA ATATTGTCAC AAGCCCCACC 
    ATCAAGCCCA TACTCTCTAC CCCCACTACT ACAGGCCCTA GCCCCAACAC TACAAGCTCA 
    GTCCAGACCA CAAGCCCCAG CCACACTGTC ACAAACCTGA CAAATACTGT CACAAGCCCC 
    ACCGTCAAAC CCATACTCTC TACCCCCACT ACTACAGGCC CTACACCAAG CGCCCAGAGC 
    CCAGCCCAGC CTACCACAAT GCCCACCCAC ACCACCACAA GCCCCACCCA CACTTCCACA 
    AGCCCCACCC ACACCACCAC AAGCTCCACC CATACCACAA GCTCCACCCA CACTACCGCA 
    AGCCCTACTC CCAAAGCCAG TATGTCAGCT CACACTACTG TAAGTCCAAC CACCGATGCT 
    AAGGACCCAG TCCAGACCAC GAGAAGCCCC ACCCACCCTG TCACAAGCCC CACCCTTATA 
    ACTGTAAACC CTTCCACTTC TCTAGACCTC GCCACGCTCC CCAGCCCCTC TGCACACACA 
    GACCCCAACC CACTGTCCCA TAGCCATCCA GCTTCCACTC CCTGCACTCA GGCAGATCCC 
    ATAGCCCCAA GCACCTCCGA CCCAAGCCCT GCCTGCTCCA GTTTGGAACC CCCTACAAGC 
    CCTTCCCCAG GCCCCCCAGA GCCCATCCTT CAGAACCCAA GCCTCCCTCC CTCACCCTTA 
    ACCGTTGGGC CCCAGCATTC AGACTTTAGC CTGGCCACGA CTGCCCAGGC CCCAGTTCCA 
    GGAGCAACGG GAGGAGCTGG AGACAGGAGG CTGGAGGAGG CACTGGGGGC CCTAATGGCT 
    GCTCTGGATG ACTATCGTGG CCAGTTCCCA GAGCTGCAGG GCCTGGAGCA GGAGGTGATC 
    CGCCTGGAGA GTCTGCTCAT GCAGAGACAA GGCCTGACTC GCAGCCGGGC CTCCAGTCTT 
    AGCATCACTG TGGAGCATGC CCTGGAGAGC TTCAGCTTCC TCAACGAGGA TGAAGATGAA 
    GACAACGATG GTCCTGGAGA CAGGCCCCCA AGCAGCCTGG AGCCTAAGGC TGAAGACAGC 
    CTCAACTCAC CCAGTGCCCA TCCCCTCAGC ACGGAGTGTC CAGCTCTGGA CACTGCCTTG 
    GTCCAGCACC TGTACTACTG CAGCCGCCTC CTGCTGAAAC TGGGCACATT TGGGCCGCTA 
    CGCTGTCAGG AGGCATGGGC CCTGGAGCGA CTGCTGCGGG AGGCCCGAGT GCTCGAGGTG 
    GTATGCGAGC TTAGCAGGAG ATGGGAAATC CCTGCTACTT CTGCCCAGGA AGTGGTGCAG 
    TTCTCAGCCT CTCGGCCTGG CTTCCTGACC TTCTGGGACC AGTGCACAGA GGGACTTAGC 
    CCCTTCATCT GCCCTGTGAA GCAGGTGCTC CTCACCTTCT GCAATCAGTA CGGTGCCCGG 
    CTCTCCCTGC GCCAGCCAGG CTTAGCTGAG GCTGTGTGTG TCAAGTTTCT GGAGGATATG 
    CTGGGACAGA AGCTGCCCAG GAGGCCCCAG CCAGGCCCTG GCGAGCAGCT CACTGTCTTC 
    CAGTTCTGGA GTTATGTGGA AACCCTGGAC AGCCCCTCCA TGGAGGCCTA TGTGACGGAG 
    ACCGCTGAGG AAGTGTTACT GGTGCAGAAC CTGAACTCAG ATGATCAGGC TGTTGTGCTC 
    AAGGCCCTGA GGTTGGCACC TGAAGGGCGG CTACGAAGGG ACGGGCTTCG GGCCCTCAGC 
    TCCCTGCTCG TCCATGGCAA CAACAAGGTC ATGGCTGCTG TCAGCACCCA GCTCCGGAGC 
    CTGTCGCTAG GCCCTGCCTT CCGGGAAAGG GCCCTACTGT GCTTCCTGAA CCAACTCGAG 
    GATGAGGACG TGCAGACGAG AGTGGCTGGC TGCCTGGCCT TAGGCTGCAT CAAGGCTCCT 
    GAGGGCATTG AGCCCCTGGT GTACCTGTGC CAAACGGACA CAGAAGTCGT GAGGGAGGCT 
    GCTCGGCAGA GCCTGCAACA GTGTGGGGAA GAGGGACAGT CTGCCCACCG ACGGCTAGAA 
    GAGTCGCTGG ACGCCCTGCC CCGCATCTTC GGGCCCGGCA GCATGGCCAG CACGGCCTTC 
    TAA

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

    FAM65A ( XM_014547809.1 ) cDNA ORF clone, Myotis brandtii(Brandt's bat) -> XP_014403295.1 Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMy54644
    Clone ID Related Accession (Same CDS sequence) XM_014547809.1
    Accession Version XM_014547809.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3699bp)
    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 2015-11-03
    Organism Myotis brandtii(Brandt's bat)
    Product protein FAM65A isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005368569.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Myotis brandtii Annotation Release 101 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## 

    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
    ATGCGACGGC TGGAGTTCCA TGCCAGCAAG ATCGACGAGC TATATGAGGC ATACTGTGTC 
    CAGCGGCGTC TCCGGGATGG TGCCTACAAC ATGGTCCGTG CCTACACCAC CGGGTCCCCA 
    GGGAGCCGTG AGGCCCGGGA CAGCTTGGCC GAGGCCACTC GTGGGCATCG AGAGTACACA 
    GAGAGCATGT GTCTGCTGGA GAGTGAGCTG GAGGCACAGC TGGGAGAGTT CCATCTCCGG 
    ATGAAAGGAC TGGCTGGCTT CGCCAGGCTG TGTGTGGGTG ATCAGTATGA GATCTGCATG 
    AAATACGGGC GTCAGCGCTG GAAACTACGG GGCCGCATTG AGGGTAGTGG AAAGCAGGTG 
    TGGGACAGTG AGGAAACCGT CTTTCTTCCT CTGCTCACGG AATTCCTGTC CATCAAGGTG 
    ACAGAGCTGA AGGGCCTGGC CAACCATGTG GTTGTAGGCA GCGTCTCCTG CGAGACCAAG 
    GACTTGTTTG CAGCCCTGCC CCAGGTTGTG GCTGTGGACA TCAATGACCT CGGCACCATC 
    AAACTCAGCC TGGAAGTCAC ATGGAGCCCC TTCGACAAAG ATGACCAGCC CTCAGCTGCT 
    TCTACTGTCA ACAAGGCCTC CACAGTCACC AAGCGCTTCT CCACCTATAG CCAGAGCCCA 
    CCAGACACTC CCTCGCTTCG GGAACAGGCC TTCTATAATA TGCTGAGGCG GCAGGAGGAG 
    CTGGAGAATG GGACAGCATG GTCCCTGTCA TCCGAATCTT CGGACGATTC ATCCAGTCCG 
    CAGCTCTCGG GCAGTGCCCG CCACTCCTCA GCCCCAAAGC CCCTGGTGCA GCAGCCTGAG 
    CCTTTGCCCA TCCAAGTTGC CTTCCGTAGG CCTCAGACCC CCACCTCCGG GCCCACGGAT 
    GAGGAGGGAG CCATGGCCCC AGTCCTGGCC AATGGGCATG CCCCCTACAG CCGGACTCTC 
    AGCCACATCA GTGAGGCCAG TGTGGATGCT GCCTTGGCTG AAGCTTCAGT AGAGGCTGAG 
    GGCCTAGAAA GCCAGGGACC TAACCCACCT GCACACCCAG ATCCCACCCA TAGGGAGCAT 
    CCTGGTCCTG ACCCTCTTGC CCTGGGCCCT GGCCATTCTG CCACAAGCCC CACTCTCAGT 
    GCAATAGGCC CTGCTCACAC ATCTACAGAC CCTGTCCCAT CTGCATATCT AAACTCTCTC 
    CACAAGACTC CAGACTCTAG CTCTCCTGAA CTGCCAGGTC CCGCCCACAC CACTTCAAGC 
    TCTACCTGTA GTGCCATAAG CCCTATCAGC AGTGCTCCAA GCGTCACTCA CACTGTCACA 
    GGCTCTACCC ACAAGCCCAA GCCCTCCACC CTCACTGCTA CAGGCCCTAG CCCCATTGCC 
    ATGGGCTCAG GCCAGACCAC AAGTCCCACC CACAAGTCAG TGCTTTCTAC CCTCACTATT 
    GCAGGTCCTA GCCCCAACAC TACAAGCCCA GTCCAGACCA CAAGCCCCAG CCACACTGTC 
    ACAAACCTGA CAAATATTGT CACAAGCCCC ACCATCAAGC CCATACTCTC TACCCCCACT 
    ACTACAGGCC CTAGCCCCAA CACTACAAGC TCAGTCCAGA CCACAAGCCC CAGCCACACT 
    GTCACAAACC TGACAAATAT TGTCACAAGC CCCACCATCA AGCCCATACT CTCTACCCCC 
    ACTACTACAG GCCCTAGCCC CAACACTACA AGCTCAGTCC AGACCACAAG CCCCAGCCAC 
    ACTGTCACAA ACCTGACAAA TACTGTCACA AGCCCCACCG TCAAACCCAT ACTCTCTACC 
    CCCACTACTA CAGGCCCTAC ACCAAGCGCC CAGAGCCCAG CCCAGCCTAC CACAATGCCC 
    ACCCACACCA CCACAAGCCC CACCCACACT TCCACAAGCC CCACCCACAC CACCACAAGC 
    TCCACCCATA CCACAAGCTC CACCCACACT ACCGCAAGCC CTACTCCCAA AGCCAGTATG 
    TCAGCTCACA CTACTGTAAG TCCAACCACC GATGCTAAGG ACCCAGTCCA GACCACGAGA 
    AGCCCCACCC ACCCTGTCAC AAGCCCCACC CTTATAACTG TAAACCCTTC CACTTCTCTA 
    GACCTCGCCA CGCTCCCCAG CCCCTCTGCA CACACAGACC CCAACCCACT GTCCCATAGC 
    CATCCAGCTT CCACTCCCTG CACTCAGGCA GATCCCATAG CCCCAAGCAC CTCCGACCCA 
    AGCCCTGCCT GCTCCAGTTT GGAACCCCCT ACAAGCCCTT CCCCAGGCCC CCCAGAGCCC 
    ATCCTTCAGA ACCCAAGCCT CCCTCCCTCA CCCTTAACCG TTGGGCCCCA GCATTCAGAC 
    TTTAGCCTGG CCACGACTGC CCAGGCCCCA GTTCCAGGAG CAACGGGAGG AGCTGGAGAC 
    AGGAGGCTGG AGGAGGCACT GGGGGCCCTA ATGGCTGCTC TGGATGACTA TCGTGGCCAG 
    TTCCCAGAGC TGCAGGGCCT GGAGCAGGAG GTGATCCGCC TGGAGAGTCT GCTCATGCAG 
    AGACAAGGCC TGACTCGCAG CCGGGCCTCC AGTCTTAGCA TCACTGTGGA GCATGCCCTG 
    GAGAGCTTCA GCTTCCTCAA CGAGGATGAA GATGAAGACA ACGATGGTCC TGGAGACAGG 
    CCCCCAAGCA GCCTGGAGCC TAAGGCTGAA GACAGCCTCA ACTCACCCAG TGCCCATCCC 
    CTCAGCACGG AGTGTCCAGC TCTGGACACT GCCTTGGTCC AGCACCTGTA CTACTGCAGC 
    CGCCTCCTGC TGAAACTGGG CACATTTGGG CCGCTACGCT GTCAGGAGGC ATGGGCCCTG 
    GAGCGACTGC TGCGGGAGGC CCGAGTGCTC GAGGTGGTAT GCGAGCTTAG CAGGAGATGG 
    GAAATCCCTG CTACTTCTGC CCAGGAAGTG GTGCAGTTCT CAGCCTCTCG GCCTGGCTTC 
    CTGACCTTCT GGGACCAGTG CACAGAGGGA CTTAGCCCCT TCATCTGCCC TGTGAAGCAG 
    GTGCTCCTCA CCTTCTGCAA TCAGTACGGT GCCCGGCTCT CCCTGCGCCA GCCAGGCTTA 
    GCTGAGGCTG TGTGTGTCAA GTTTCTGGAG GATATGCTGG GACAGAAGCT GCCCAGGAGG 
    CCCCAGCCAG GCCCTGGCGA GCAGCTCACT GTCTTCCAGT TCTGGAGTTA TGTGGAAACC 
    CTGGACAGCC CCTCCATGGA GGCCTATGTG ACGGAGACCG CTGAGGAAGT GTTACTGGTG 
    CAGAACCTGA ACTCAGATGA TCAGGCTGTT GTGCTCAAGG CCCTGAGGTT GGCACCTGAA 
    GGGCGGCTAC GAAGGGACGG GCTTCGGGCC CTCAGCTCCC TGCTCGTCCA TGGCAACAAC 
    AAGGTCATGG CTGCTGTCAG CACCCAGCTC CGGAGCCTGT CGCTAGGCCC TGCCTTCCGG 
    GAAAGGGCCC TACTGTGCTT CCTGAACCAA CTCGAGGATG AGGACGTGCA GACGAGAGTG 
    GCTGGCTGCC TGGCCTTAGG CTGCATCAAG GCTCCTGAGG GCATTGAGCC CCTGGTGTAC 
    CTGTGCCAAA CGGACACAGA AGTCGTGAGG GAGGCTGCTC GGCAGAGCCT GCAACAGTGT 
    GGGGAAGAGG GACAGTCTGC CCACCGACGG CTAGAAGAGT CGCTGGACGC CCTGCCCCGC 
    ATCTTCGGGC CCGGCAGCAT GGCCAGCACG GCCTTCTAA

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

    RefSeq XP_014403295.1
    CDS45..3743
    Translation

    Target ORF information:

    RefSeq Version XM_014547809.1
    Organism Myotis brandtii(Brandt's bat)
    Definition Myotis brandtii family with sequence similarity 65, member A (FAM65A), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014547809.1

    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
    ATGCGACGGC TGGAGTTCCA TGCCAGCAAG ATCGACGAGC TATATGAGGC ATACTGTGTC 
    CAGCGGCGTC TCCGGGATGG TGCCTACAAC ATGGTCCGTG CCTACACCAC CGGGTCCCCA 
    GGGAGCCGTG AGGCCCGGGA CAGCTTGGCC GAGGCCACTC GTGGGCATCG AGAGTACACA 
    GAGAGCATGT GTCTGCTGGA GAGTGAGCTG GAGGCACAGC TGGGAGAGTT CCATCTCCGG 
    ATGAAAGGAC TGGCTGGCTT CGCCAGGCTG TGTGTGGGTG ATCAGTATGA GATCTGCATG 
    AAATACGGGC GTCAGCGCTG GAAACTACGG GGCCGCATTG AGGGTAGTGG AAAGCAGGTG 
    TGGGACAGTG AGGAAACCGT CTTTCTTCCT CTGCTCACGG AATTCCTGTC CATCAAGGTG 
    ACAGAGCTGA AGGGCCTGGC CAACCATGTG GTTGTAGGCA GCGTCTCCTG CGAGACCAAG 
    GACTTGTTTG CAGCCCTGCC CCAGGTTGTG GCTGTGGACA TCAATGACCT CGGCACCATC 
    AAACTCAGCC TGGAAGTCAC ATGGAGCCCC TTCGACAAAG ATGACCAGCC CTCAGCTGCT 
    TCTACTGTCA ACAAGGCCTC CACAGTCACC AAGCGCTTCT CCACCTATAG CCAGAGCCCA 
    CCAGACACTC CCTCGCTTCG GGAACAGGCC TTCTATAATA TGCTGAGGCG GCAGGAGGAG 
    CTGGAGAATG GGACAGCATG GTCCCTGTCA TCCGAATCTT CGGACGATTC ATCCAGTCCG 
    CAGCTCTCGG GCAGTGCCCG CCACTCCTCA GCCCCAAAGC CCCTGGTGCA GCAGCCTGAG 
    CCTTTGCCCA TCCAAGTTGC CTTCCGTAGG CCTCAGACCC CCACCTCCGG GCCCACGGAT 
    GAGGAGGGAG CCATGGCCCC AGTCCTGGCC AATGGGCATG CCCCCTACAG CCGGACTCTC 
    AGCCACATCA GTGAGGCCAG TGTGGATGCT GCCTTGGCTG AAGCTTCAGT AGAGGCTGAG 
    GGCCTAGAAA GCCAGGGACC TAACCCACCT GCACACCCAG ATCCCACCCA TAGGGAGCAT 
    CCTGGTCCTG ACCCTCTTGC CCTGGGCCCT GGCCATTCTG CCACAAGCCC CACTCTCAGT 
    GCAATAGGCC CTGCTCACAC ATCTACAGAC CCTGTCCCAT CTGCATATCT AAACTCTCTC 
    CACAAGACTC CAGACTCTAG CTCTCCTGAA CTGCCAGGTC CCGCCCACAC CACTTCAAGC 
    TCTACCTGTA GTGCCATAAG CCCTATCAGC AGTGCTCCAA GCGTCACTCA CACTGTCACA 
    GGCTCTACCC ACAAGCCCAA GCCCTCCACC CTCACTGCTA CAGGCCCTAG CCCCATTGCC 
    ATGGGCTCAG GCCAGACCAC AAGTCCCACC CACAAGTCAG TGCTTTCTAC CCTCACTATT 
    GCAGGTCCTA GCCCCAACAC TACAAGCCCA GTCCAGACCA CAAGCCCCAG CCACACTGTC 
    ACAAACCTGA CAAATATTGT CACAAGCCCC ACCATCAAGC CCATACTCTC TACCCCCACT 
    ACTACAGGCC CTAGCCCCAA CACTACAAGC TCAGTCCAGA CCACAAGCCC CAGCCACACT 
    GTCACAAACC TGACAAATAT TGTCACAAGC CCCACCATCA AGCCCATACT CTCTACCCCC 
    ACTACTACAG GCCCTAGCCC CAACACTACA AGCTCAGTCC AGACCACAAG CCCCAGCCAC 
    ACTGTCACAA ACCTGACAAA TACTGTCACA AGCCCCACCG TCAAACCCAT ACTCTCTACC 
    CCCACTACTA CAGGCCCTAC ACCAAGCGCC CAGAGCCCAG CCCAGCCTAC CACAATGCCC 
    ACCCACACCA CCACAAGCCC CACCCACACT TCCACAAGCC CCACCCACAC CACCACAAGC 
    TCCACCCATA CCACAAGCTC CACCCACACT ACCGCAAGCC CTACTCCCAA AGCCAGTATG 
    TCAGCTCACA CTACTGTAAG TCCAACCACC GATGCTAAGG ACCCAGTCCA GACCACGAGA 
    AGCCCCACCC ACCCTGTCAC AAGCCCCACC CTTATAACTG TAAACCCTTC CACTTCTCTA 
    GACCTCGCCA CGCTCCCCAG CCCCTCTGCA CACACAGACC CCAACCCACT GTCCCATAGC 
    CATCCAGCTT CCACTCCCTG CACTCAGGCA GATCCCATAG CCCCAAGCAC CTCCGACCCA 
    AGCCCTGCCT GCTCCAGTTT GGAACCCCCT ACAAGCCCTT CCCCAGGCCC CCCAGAGCCC 
    ATCCTTCAGA ACCCAAGCCT CCCTCCCTCA CCCTTAACCG TTGGGCCCCA GCATTCAGAC 
    TTTAGCCTGG CCACGACTGC CCAGGCCCCA GTTCCAGGAG CAACGGGAGG AGCTGGAGAC 
    AGGAGGCTGG AGGAGGCACT GGGGGCCCTA ATGGCTGCTC TGGATGACTA TCGTGGCCAG 
    TTCCCAGAGC TGCAGGGCCT GGAGCAGGAG GTGATCCGCC TGGAGAGTCT GCTCATGCAG 
    AGACAAGGCC TGACTCGCAG CCGGGCCTCC AGTCTTAGCA TCACTGTGGA GCATGCCCTG 
    GAGAGCTTCA GCTTCCTCAA CGAGGATGAA GATGAAGACA ACGATGGTCC TGGAGACAGG 
    CCCCCAAGCA GCCTGGAGCC TAAGGCTGAA GACAGCCTCA ACTCACCCAG TGCCCATCCC 
    CTCAGCACGG AGTGTCCAGC TCTGGACACT GCCTTGGTCC AGCACCTGTA CTACTGCAGC 
    CGCCTCCTGC TGAAACTGGG CACATTTGGG CCGCTACGCT GTCAGGAGGC ATGGGCCCTG 
    GAGCGACTGC TGCGGGAGGC CCGAGTGCTC GAGGTGGTAT GCGAGCTTAG CAGGAGATGG 
    GAAATCCCTG CTACTTCTGC CCAGGAAGTG GTGCAGTTCT CAGCCTCTCG GCCTGGCTTC 
    CTGACCTTCT GGGACCAGTG CACAGAGGGA CTTAGCCCCT TCATCTGCCC TGTGAAGCAG 
    GTGCTCCTCA CCTTCTGCAA TCAGTACGGT GCCCGGCTCT CCCTGCGCCA GCCAGGCTTA 
    GCTGAGGCTG TGTGTGTCAA GTTTCTGGAG GATATGCTGG GACAGAAGCT GCCCAGGAGG 
    CCCCAGCCAG GCCCTGGCGA GCAGCTCACT GTCTTCCAGT TCTGGAGTTA TGTGGAAACC 
    CTGGACAGCC CCTCCATGGA GGCCTATGTG ACGGAGACCG CTGAGGAAGT GTTACTGGTG 
    CAGAACCTGA ACTCAGATGA TCAGGCTGTT GTGCTCAAGG CCCTGAGGTT GGCACCTGAA 
    GGGCGGCTAC GAAGGGACGG GCTTCGGGCC CTCAGCTCCC TGCTCGTCCA TGGCAACAAC 
    AAGGTCATGG CTGCTGTCAG CACCCAGCTC CGGAGCCTGT CGCTAGGCCC TGCCTTCCGG 
    GAAAGGGCCC TACTGTGCTT CCTGAACCAA CTCGAGGATG AGGACGTGCA GACGAGAGTG 
    GCTGGCTGCC TGGCCTTAGG CTGCATCAAG GCTCCTGAGG GCATTGAGCC CCTGGTGTAC 
    CTGTGCCAAA CGGACACAGA AGTCGTGAGG GAGGCTGCTC GGCAGAGCCT GCAACAGTGT 
    GGGGAAGAGG GACAGTCTGC CCACCGACGG CTAGAAGAGT CGCTGGACGC CCTGCCCCGC 
    ATCTTCGGGC CCGGCAGCAT GGCCAGCACG GCCTTCTAA

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

見積依頼

Eメール

[email protected]

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文