Fgd5 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Fgd5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Fgd5 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
ORa16289 NM_001108637.2
Latest version!
Rattus norvegicus FYVE, RhoGEF and PH domain containing 5 (Fgd5), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
ORa16289 XM_006236925.3
Latest version!
Rattus norvegicus FYVE, RhoGEF and PH domain containing 5 (Fgd5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
ORa16289 XM_006224993.3
Latest version!
Rattus norvegicus FYVE, RhoGEF and PH domain containing 5 (Fgd5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
ORa16290 XM_006224994.3
Latest version!
Rattus norvegicus FYVE, RhoGEF and PH domain containing 5 (Fgd5), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
ORa16290 XM_006236926.3
Latest version!
Rattus norvegicus FYVE, RhoGEF and PH domain containing 5 (Fgd5), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00

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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 ORa16289
    Clone ID Related Accession (Same CDS sequence) XM_006224993.3 , XM_006236925.3 , NM_001108637.2
    Accession Version NM_001108637.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4563bp)
    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 2019-09-03
    Organism Rattus norvegicus(Norway rat)
    Product FYVE, RhoGEF and PH domain-containing protein 5
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AABR07073048.1, AC110333.5 and BI289075.1. On or before Sep 4, 2019 this sequence version replaced XM_006236925.3, XM_006224993.3, NM_001108637.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. This RefSeq transcript is based on orthologous transcript alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2689599, SAMN01906349 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##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
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCACAGAG CAGATTCACC AAAACCACCA GTTGCTCCCA AGCCAAAGGT TACCACCAAT 
    CCTTCCACAC CACCAGCCAA GTTTCCCGCC TCACAGAGGC CTAACAGTTT CCCCAGTCCC
    AACTCCATGT CCAGGGGCCC CAAACCCCCC ATTGCTCCTA AGCCCAGGTT GGCTGGCCCC
    AGTGAGTATG GAGCTGGTGT GTACCTGAAC AACAGCCTCA GCAAATGCAG CAATGGGAGG
    CTGCTCTGCG AGGACCCGAG CTTGTACGAT GGACACCACT CCACCCTGAA CTGCTTGGAG
    TTGGAGACTG ATGAGCAGTA CATCATGGTG CCCAGGGCTC CACAGAGAGA CGATGCCCTC
    ACAGATAGAG CTACTGAGAA GCAGGGGTTT GAGGGGGAAG CCCAGGAGCA TGGTACGGAG
    CAGACGGGAA CTGAGAGGGA CCTGGCAGCT CCAGATGAAG AGGCACCGAG CAGAGACAGT
    GAGGAAGGCG TGGACCACGC TCTGGAAGAT GAAGAAGACT GTGATCATGA TCTAGAGACA
    GATGGGACCC CAACGGCCCC AGGTGAAGGA GCACCAAGCA GAGACGGTGA GAAAGGCGAG
    GAGGACTGTG GTCAGGACCC CGGTGTGGAG GAGCATCCCA TGAGCGAGGA GGAGGGAGAA
    GAGGAGGAGG CGAAGGAGTG CGTGCACAAC CGTGATGACA GGGCACCTTG GGATGGAGGG
    GAGCCCTTCC TCAATGAGGT CGTCCTCACA CATGTCTGCT CTCAGTCCCC TGAAGTTCCT
    TGTTGGGAGC CAGGCCTTCC TGAGACTCCT GGGGAGGTAG ATGAGGATAG CGAAGACATC
    TGTAACAACA CAGAACTCGG GAAACCCAAT CAGGATACTG GTCAGGACAC AGAGGATGCC
    AGCATGGGAT CCCCTGAGAG TGAGGTATCC CCAGATGTCC AGGAGCAAGA GGCAGCAACG
    GACAGCCCTG AGGTCTTTGA GGAGGACTCT GTAGATGCTG CAGAAGGTGA GGATCAGATA
    GCCCGGGACG AACCACCCAA TTGTGAAGAA GACACCAACA ACAGAGAAAC TGCAGCAGCC
    ACCATGCAGG CGGGAGAGGA TCATGGGGAG GATGGAGACC GTGTGCAAGA GGATCCTGCT
    GAGGAGAACT GCCAGATCAT TCCCTTTGAG AGTGACAGTG TGGAGGAGGA TTGCTCACCC
    ACACTCACAG AGAACCCCTA TGAGCTTTTC CCAACAGAGA GCACCTCCTT CTGTAATAAC
    AGCGGTTCCC TTGCTGAGTC GGACAAGGGG CAAGAGTCAG TGTGCAAGAT CTGTGTAGAG
    GAGGTTCCTG GTATTGGCCC CTCACTGAGC CAGGGTGATT CCTTGCAAGA TGGATCTGGA
    GAGGAGGCCC CGGTCCCTGA GGTGGTAGTC GTGCCAGAGA ATGAGGATCC CATGGATGAC
    GCGCTCAGCA GTCCCTACGT GATGGGAGTT GGCTTGCTAA GCCTTGGAGA GGGAGCACAG
    TCAGACACCC AGGCTGCATC AGGCACTCTG AGTGGGTACA GTACATGGGA GGAAGGGGAC
    TCTGACGGGG GACAGGTTCC AGTGGACAGG AAGAATATTG CCACAAGGGC CCGGCCTCAC
    TCTGGGAAGG TGGCTGGTCA CGTTCCAGAA ACTGTTCTAG AAGAAACAGG ACCAGAAGCC
    TGTTCATCAG CCATGGGCAT CAGAGATACT GGTGATGAGG TGAGAAAGAT AGGTATATTG
    CCGGAGGGAA AGCCTTCTGA ATCTCTCCGG GCCTTGCCAG CCAAGCCCAG AGCATTCACT
    CTCTACCCAA GATCCTTCTC TGTAGAAGGC CGGGAGAGTC CCCTGTCCAT GTTCCGGGAA
    CCAGAGGGAG CCGGGCTGGA CATGCACCGT GTGAGGAGGA AAGAGGACAA CCTCTCTCTG
    CCAGGTGCCA TTGGCTCCTC CGGTAGCTTC TCACAGCGTA GCCACCTGCC TTCCAGTGGC
    ACCTCCACAC CGTCCTCTGT GGTTGACATC CCGCCCCCTT TCGACTTGGC CTGCATCACG
    AAGAGACCCA TCACTAAAAG CTCGCCCTCA CTCCTGATAG ATGGAGACAC CTTGGAAAAA
    GCCTCCAAGA AGAAGAAGTC CTCCTTCAAA CGCTTCCTGG AGCTGACATT CAGGAAGAAG
    ACAGAGAGCA AGGTGCACGT GGACATGAGT CTGTCGTCTT CCAGGTCCTC CTCCGAGTCC
    AGCTACCATG GTCCAGCCAG GGTCCTGGAA CTTGACCGCA GAAGCCTCAG CAACTCACCC
    CAGCTCAAGT GCCACACAGG AAAGCTCCGG GCCTCTGACT CTCCGGCCTC CCTCATCTTC
    TACAGGGACA GCAAGAGGAA AGGCGTCCCC TTCAGCAGGA CAGTGTCCAG AGTGGAGTCC
    TTCGAAGACC GCTCCCGGCC GCCATTTCTG CCTCTGCCCC TCACCAAGCC ACGGTCCATC
    TCATTTCCCA ATGCTGACAC TTCAGACTAT GAGAACATTC CAGCCATGAA CTCAGATTAC
    GAGAACATCC AGATCCCACC TCGCAGGCCG GCGAGGACGG GCACTTTCAC AAAGCTCTTT
    GAAGAACAGA GTAGAGCCCT GTCCACCGCA AATGAAAACG ACGGCTACGT GGACATGAGC
    AGCTTCAATG CCTTCGAGAG CAAGCAGCAG AGTTCAGAGC AGGAAGCTGA GAGCGCCTAC
    ACTGAGCCCT ACAAGGTCTG TCCCATCTCA ACAACCCCCA AAGAAGACCT CACATCAGAC
    GAAGAACAGG GAAGCTCAGA GGAGGAGGAC AATGCTTCAA GAGACCCCAG CCTCTCACAC
    AAGGGTGAAG GACAGTCTAG AGCCTTTGTC ATCGCTCAGG AGCTGCTGTC TTCAGAGAAG
    GCATATGTGC AGATGCTGCA GCACTTAAGC CTGGATTTCC ATGGAGCCGT CCTGAGGGCC
    TTGGAGAACG TAGAGCAAGA GGGCAGAGAG CCACTGGCCC AGGAGGAGCT GCGGCAGGGC
    CTACGGGAGC TCCCAGCTAT CTGTGACCTT CACCAGGGCA TCCTGGAGAG CCTGGAGCAG
    AGGCTGGGGG ATTGTGGAGA GGGCCAGCAG CAGGTGGCCG ACATCTTCCT AGCCCGTGAG
    CAGGAGTTCG AACATCATGC TGCACACATC CTGCAATTTG ACAGGTACCT GGGGCTGCTC
    GCTGAGAGCT GCCTGCTCTC ACCCCGGCTG GCCACCACCG TCCGGGAATT TGAGCAGCAG
    AGTTCACAAG GGGGTGGCCA GAGCATGAAA CATCGTATGC TGCGTGTAGT CCAGCGCCTC
    TTCCAGTACC AAGTGCTGCT CACTGATTAT TTAAACAACC TGTGCCCGGA CTCAGCCGAG
    TACGACAACA CTCAGAGTGC TCTGAATCTC ATCTCCAAAG TGACAGACAG GGCTAATGAA
    AGCATGGAAC AGGGGGAAAA CCTGCAGAAG CTGGTCCACA TCGAGTACAG TGTGCGGGGC
    CAAGGGGACC TCCTCCAGCC AGGAAGGGAG TTCCTGAAGG AAGGAACACT GATGAGGGTG
    AGAGGGAAAA GCCGACACCC CCGGCACCTG TTCCTGATGA ATGACACGCT CCTGTACACG
    CACCCCCAGA AGGATGGGAA GTACCGTCTG AAGAGCTCGC TACCAGTGGC CAACATGAAG
    GTCAGTCGCC CTGTGATGGA CAAAGTGCCC TATGCTCTGA AGATCGAAAC TCCCGAGTCT
    TGCCTGACAC TGTCTGCAAG CTCATGTGCC GAAAGGGACG AGTGGCACTA CTGTCTGAGC
    AGAGCCCTCC CGGAGGACTA CAAGACTCAG GCGCTGGCTG CCTTCCACCA CAGCGTGGAG
    ATCCGGGAGA GGTTGGGGAT CAGCCTCGGG GAGAGGCTCC CCACCCTGGT GCCTGTCACG
    CATGCCATGA TGTGCATGAA CTGCGGCTGT GACTTCTCGC TCACCGTGAG GCGCCACCAC
    TGCCATGCCT GTGGCAAGAT TGTGTGCCGG AACTGCTCTC GAAACAAGTA CCCACTGAAG
    TGCCTCAAGA ACAGGATGGC CAAGGTCTGC GATGGCTGCT TCCGGGAGCT GAAGCTGAGG
    AACGGGCCCG TCCCCGGCCC CATAAGAGAG CGTCCGGTCA GCATGAGTTT TCCACTGTCC
    TCATCCCGCT TCTCCTCGGG CAGCACCTTC TCCTCTGTCT TCCAGAGTAT TAGCCCTTCA
    ACTTTCAAGA AGCAGAAAAA AGTCCCTTCG GCTTTGGCTG AGGTGGCTGC ATCAGGAGAG
    GGCTCTGCCA TCAGCGGCTA TTTGAGCCGC TGTAAGAGTG GCAAGCGGCG CTGGAAGAAA
    CTCTGGCTTG TCATCAAGGG CAAAGTACTC TACACCTACC TGGCCAGTGA GGACAAAGTG
    GCCATGGAGA GCATCCCTCT GCTGGGTTTT ACTATTGCCC CAGAAAAGGA GGAGGGCAGC
    AGTGAAGTGG GCCCTGTTTT TCATCTTTAT CACAAGAAAA CCCTGTTTTA CAGCTTCAAA
    GCAGAGGACA GCAGTTCTGC TCAGAGGTGG ATGGAGGCCA TGGAAGATGC CAGTGTGTTA
    TAG

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

    RefSeq NP_001102107.2
    CDS234..4796
    Translation

    Target ORF information:

    RefSeq Version NM_001108637.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus FYVE, RhoGEF and PH domain containing 5 (Fgd5), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001108637.2

    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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCACAGAG CAGATTCACC AAAACCACCA GTTGCTCCCA AGCCAAAGGT TACCACCAAT 
    CCTTCCACAC CACCAGCCAA GTTTCCCGCC TCACAGAGGC CTAACAGTTT CCCCAGTCCC
    AACTCCATGT CCAGGGGCCC CAAACCCCCC ATTGCTCCTA AGCCCAGGTT GGCTGGCCCC
    AGTGAGTATG GAGCTGGTGT GTACCTGAAC AACAGCCTCA GCAAATGCAG CAATGGGAGG
    CTGCTCTGCG AGGACCCGAG CTTGTACGAT GGACACCACT CCACCCTGAA CTGCTTGGAG
    TTGGAGACTG ATGAGCAGTA CATCATGGTG CCCAGGGCTC CACAGAGAGA CGATGCCCTC
    ACAGATAGAG CTACTGAGAA GCAGGGGTTT GAGGGGGAAG CCCAGGAGCA TGGTACGGAG
    CAGACGGGAA CTGAGAGGGA CCTGGCAGCT CCAGATGAAG AGGCACCGAG CAGAGACAGT
    GAGGAAGGCG TGGACCACGC TCTGGAAGAT GAAGAAGACT GTGATCATGA TCTAGAGACA
    GATGGGACCC CAACGGCCCC AGGTGAAGGA GCACCAAGCA GAGACGGTGA GAAAGGCGAG
    GAGGACTGTG GTCAGGACCC CGGTGTGGAG GAGCATCCCA TGAGCGAGGA GGAGGGAGAA
    GAGGAGGAGG CGAAGGAGTG CGTGCACAAC CGTGATGACA GGGCACCTTG GGATGGAGGG
    GAGCCCTTCC TCAATGAGGT CGTCCTCACA CATGTCTGCT CTCAGTCCCC TGAAGTTCCT
    TGTTGGGAGC CAGGCCTTCC TGAGACTCCT GGGGAGGTAG ATGAGGATAG CGAAGACATC
    TGTAACAACA CAGAACTCGG GAAACCCAAT CAGGATACTG GTCAGGACAC AGAGGATGCC
    AGCATGGGAT CCCCTGAGAG TGAGGTATCC CCAGATGTCC AGGAGCAAGA GGCAGCAACG
    GACAGCCCTG AGGTCTTTGA GGAGGACTCT GTAGATGCTG CAGAAGGTGA GGATCAGATA
    GCCCGGGACG AACCACCCAA TTGTGAAGAA GACACCAACA ACAGAGAAAC TGCAGCAGCC
    ACCATGCAGG CGGGAGAGGA TCATGGGGAG GATGGAGACC GTGTGCAAGA GGATCCTGCT
    GAGGAGAACT GCCAGATCAT TCCCTTTGAG AGTGACAGTG TGGAGGAGGA TTGCTCACCC
    ACACTCACAG AGAACCCCTA TGAGCTTTTC CCAACAGAGA GCACCTCCTT CTGTAATAAC
    AGCGGTTCCC TTGCTGAGTC GGACAAGGGG CAAGAGTCAG TGTGCAAGAT CTGTGTAGAG
    GAGGTTCCTG GTATTGGCCC CTCACTGAGC CAGGGTGATT CCTTGCAAGA TGGATCTGGA
    GAGGAGGCCC CGGTCCCTGA GGTGGTAGTC GTGCCAGAGA ATGAGGATCC CATGGATGAC
    GCGCTCAGCA GTCCCTACGT GATGGGAGTT GGCTTGCTAA GCCTTGGAGA GGGAGCACAG
    TCAGACACCC AGGCTGCATC AGGCACTCTG AGTGGGTACA GTACATGGGA GGAAGGGGAC
    TCTGACGGGG GACAGGTTCC AGTGGACAGG AAGAATATTG CCACAAGGGC CCGGCCTCAC
    TCTGGGAAGG TGGCTGGTCA CGTTCCAGAA ACTGTTCTAG AAGAAACAGG ACCAGAAGCC
    TGTTCATCAG CCATGGGCAT CAGAGATACT GGTGATGAGG TGAGAAAGAT AGGTATATTG
    CCGGAGGGAA AGCCTTCTGA ATCTCTCCGG GCCTTGCCAG CCAAGCCCAG AGCATTCACT
    CTCTACCCAA GATCCTTCTC TGTAGAAGGC CGGGAGAGTC CCCTGTCCAT GTTCCGGGAA
    CCAGAGGGAG CCGGGCTGGA CATGCACCGT GTGAGGAGGA AAGAGGACAA CCTCTCTCTG
    CCAGGTGCCA TTGGCTCCTC CGGTAGCTTC TCACAGCGTA GCCACCTGCC TTCCAGTGGC
    ACCTCCACAC CGTCCTCTGT GGTTGACATC CCGCCCCCTT TCGACTTGGC CTGCATCACG
    AAGAGACCCA TCACTAAAAG CTCGCCCTCA CTCCTGATAG ATGGAGACAC CTTGGAAAAA
    GCCTCCAAGA AGAAGAAGTC CTCCTTCAAA CGCTTCCTGG AGCTGACATT CAGGAAGAAG
    ACAGAGAGCA AGGTGCACGT GGACATGAGT CTGTCGTCTT CCAGGTCCTC CTCCGAGTCC
    AGCTACCATG GTCCAGCCAG GGTCCTGGAA CTTGACCGCA GAAGCCTCAG CAACTCACCC
    CAGCTCAAGT GCCACACAGG AAAGCTCCGG GCCTCTGACT CTCCGGCCTC CCTCATCTTC
    TACAGGGACA GCAAGAGGAA AGGCGTCCCC TTCAGCAGGA CAGTGTCCAG AGTGGAGTCC
    TTCGAAGACC GCTCCCGGCC GCCATTTCTG CCTCTGCCCC TCACCAAGCC ACGGTCCATC
    TCATTTCCCA ATGCTGACAC TTCAGACTAT GAGAACATTC CAGCCATGAA CTCAGATTAC
    GAGAACATCC AGATCCCACC TCGCAGGCCG GCGAGGACGG GCACTTTCAC AAAGCTCTTT
    GAAGAACAGA GTAGAGCCCT GTCCACCGCA AATGAAAACG ACGGCTACGT GGACATGAGC
    AGCTTCAATG CCTTCGAGAG CAAGCAGCAG AGTTCAGAGC AGGAAGCTGA GAGCGCCTAC
    ACTGAGCCCT ACAAGGTCTG TCCCATCTCA ACAACCCCCA AAGAAGACCT CACATCAGAC
    GAAGAACAGG GAAGCTCAGA GGAGGAGGAC AATGCTTCAA GAGACCCCAG CCTCTCACAC
    AAGGGTGAAG GACAGTCTAG AGCCTTTGTC ATCGCTCAGG AGCTGCTGTC TTCAGAGAAG
    GCATATGTGC AGATGCTGCA GCACTTAAGC CTGGATTTCC ATGGAGCCGT CCTGAGGGCC
    TTGGAGAACG TAGAGCAAGA GGGCAGAGAG CCACTGGCCC AGGAGGAGCT GCGGCAGGGC
    CTACGGGAGC TCCCAGCTAT CTGTGACCTT CACCAGGGCA TCCTGGAGAG CCTGGAGCAG
    AGGCTGGGGG ATTGTGGAGA GGGCCAGCAG CAGGTGGCCG ACATCTTCCT AGCCCGTGAG
    CAGGAGTTCG AACATCATGC TGCACACATC CTGCAATTTG ACAGGTACCT GGGGCTGCTC
    GCTGAGAGCT GCCTGCTCTC ACCCCGGCTG GCCACCACCG TCCGGGAATT TGAGCAGCAG
    AGTTCACAAG GGGGTGGCCA GAGCATGAAA CATCGTATGC TGCGTGTAGT CCAGCGCCTC
    TTCCAGTACC AAGTGCTGCT CACTGATTAT TTAAACAACC TGTGCCCGGA CTCAGCCGAG
    TACGACAACA CTCAGAGTGC TCTGAATCTC ATCTCCAAAG TGACAGACAG GGCTAATGAA
    AGCATGGAAC AGGGGGAAAA CCTGCAGAAG CTGGTCCACA TCGAGTACAG TGTGCGGGGC
    CAAGGGGACC TCCTCCAGCC AGGAAGGGAG TTCCTGAAGG AAGGAACACT GATGAGGGTG
    AGAGGGAAAA GCCGACACCC CCGGCACCTG TTCCTGATGA ATGACACGCT CCTGTACACG
    CACCCCCAGA AGGATGGGAA GTACCGTCTG AAGAGCTCGC TACCAGTGGC CAACATGAAG
    GTCAGTCGCC CTGTGATGGA CAAAGTGCCC TATGCTCTGA AGATCGAAAC TCCCGAGTCT
    TGCCTGACAC TGTCTGCAAG CTCATGTGCC GAAAGGGACG AGTGGCACTA CTGTCTGAGC
    AGAGCCCTCC CGGAGGACTA CAAGACTCAG GCGCTGGCTG CCTTCCACCA CAGCGTGGAG
    ATCCGGGAGA GGTTGGGGAT CAGCCTCGGG GAGAGGCTCC CCACCCTGGT GCCTGTCACG
    CATGCCATGA TGTGCATGAA CTGCGGCTGT GACTTCTCGC TCACCGTGAG GCGCCACCAC
    TGCCATGCCT GTGGCAAGAT TGTGTGCCGG AACTGCTCTC GAAACAAGTA CCCACTGAAG
    TGCCTCAAGA ACAGGATGGC CAAGGTCTGC GATGGCTGCT TCCGGGAGCT GAAGCTGAGG
    AACGGGCCCG TCCCCGGCCC CATAAGAGAG CGTCCGGTCA GCATGAGTTT TCCACTGTCC
    TCATCCCGCT TCTCCTCGGG CAGCACCTTC TCCTCTGTCT TCCAGAGTAT TAGCCCTTCA
    ACTTTCAAGA AGCAGAAAAA AGTCCCTTCG GCTTTGGCTG AGGTGGCTGC ATCAGGAGAG
    GGCTCTGCCA TCAGCGGCTA TTTGAGCCGC TGTAAGAGTG GCAAGCGGCG CTGGAAGAAA
    CTCTGGCTTG TCATCAAGGG CAAAGTACTC TACACCTACC TGGCCAGTGA GGACAAAGTG
    GCCATGGAGA GCATCCCTCT GCTGGGTTTT ACTATTGCCC CAGAAAAGGA GGAGGGCAGC
    AGTGAAGTGG GCCCTGTTTT TCATCTTTAT CACAAGAAAA CCCTGTTTTA CAGCTTCAAA
    GCAGAGGACA GCAGTTCTGC TCAGAGGTGG ATGGAGGCCA TGGAAGATGC CAGTGTGTTA
    TAG

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

    CloneID ORa16289
    Clone ID Related Accession (Same CDS sequence) XM_006224993.3 , XM_006236925.3 , NM_001108637.2
    Accession Version XM_006224993.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4563bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product FYVE, RhoGEF and PH domain-containing protein 5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000072.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006224993.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCACAGAG CAGATTCACC AAAACCACCA GTTGCTCCCA AGCCAAAGGT TACCACCAAT 
    CCTTCCACAC CACCAGCCAA GTTTCCCGCC TCACAGAGGC CTAACAGTTT CCCCAGTCCC
    AACTCCATGT CCAGGGGCCC CAAACCCCCC ATTGCTCCTA AGCCCAGGTT GGCTGGCCCC
    AGTGAGTATG GAGCTGGTGT GTACCTGAAC AACAGCCTCA GCAAATGCAG CAATGGGAGG
    CTGCTCTGCG AGGACCCGAG CTTGTACGAT GGACACCACT CCACCCTGAA CTGCTTGGAG
    TTGGAGACTG ATGAGCAGTA CATCATGGTG CCCAGGGCTC CACAGAGAGA CGATGCCCTC
    ACAGATAGAG CTACTGAGAA GCAGGGGTTT GAGGGGGAAG CCCAGGAGCA TGGTACGGAG
    CAGACGGGAA CTGAGAGGGA CCTGGCAGCT CCAGATGAAG AGGCACCGAG CAGAGACAGT
    GAGGAAGGCG TGGACCACGC TCTGGAAGAT GAAGAAGACT GTGATCATGA TCTAGAGACA
    GATGGGACCC CAACGGCCCC AGGTGAAGGA GCACCAAGCA GAGACGGTGA GAAAGGCGAG
    GAGGACTGTG GTCAGGACCC CGGTGTGGAG GAGCATCCCA TGAGCGAGGA GGAGGGAGAA
    GAGGAGGAGG CGAAGGAGTG CGTGCACAAC CGTGATGACA GGGCACCTTG GGATGGAGGG
    GAGCCCTTCC TCAATGAGGT CGTCCTCACA CATGTCTGCT CTCAGTCCCC TGAAGTTCCT
    TGTTGGGAGC CAGGCCTTCC TGAGACTCCT GGGGAGGTAG ATGAGGATAG CGAAGACATC
    TGTAACAACA CAGAACTCGG GAAACCCAAT CAGGATACTG GTCAGGACAC AGAGGATGCC
    AGCATGGGAT CCCCTGAGAG TGAGGTATCC CCAGATGTCC AGGAGCAAGA GGCAGCAACG
    GACAGCCCTG AGGTCTTTGA GGAGGACTCT GTAGATGCTG CAGAAGGTGA GGATCAGATA
    GCCCGGGACG AACCACCCAA TTGTGAAGAA GACACCAACA ACAGAGAAAC TGCAGCAGCC
    ACCATGCAGG CGGGAGAGGA TCATGGGGAG GATGGAGACC GTGTGCAAGA GGATCCTGCT
    GAGGAGAACT GCCAGATCAT TCCCTTTGAG AGTGACAGTG TGGAGGAGGA TTGCTCACCC
    ACACTCACAG AGAACCCCTA TGAGCTTTTC CCAACAGAGA GCACCTCCTT CTGTAATAAC
    AGCGGTTCCC TTGCTGAGTC GGACAAGGGG CAAGAGTCAG TGTGCAAGAT CTGTGTAGAG
    GAGGTTCCTG GTATTGGCCC CTCACTGAGC CAGGGTGATT CCTTGCAAGA TGGATCTGGA
    GAGGAGGCCC CGGTCCCTGA GGTGGTAGTC GTGCCAGAGA ATGAGGATCC CATGGATGAC
    GCGCTCAGCA GTCCCTACGT GATGGGAGTT GGCTTGCTAA GCCTTGGAGA GGGAGCACAG
    TCAGACACCC AGGCTGCATC AGGCACTCTG AGTGGGTACA GTACATGGGA GGAAGGGGAC
    TCTGACGGGG GACAGGTTCC AGTGGACAGG AAGAATATTG CCACAAGGGC CCGGCCTCAC
    TCTGGGAAGG TGGCTGGTCA CGTTCCAGAA ACTGTTCTAG AAGAAACAGG ACCAGAAGCC
    TGTTCATCAG CCATGGGCAT CAGAGATACT GGTGATGAGG TGAGAAAGAT AGGTATATTG
    CCGGAGGGAA AGCCTTCTGA ATCTCTCCGG GCCTTGCCAG CCAAGCCCAG AGCATTCACT
    CTCTACCCAA GATCCTTCTC TGTAGAAGGC CGGGAGAGTC CCCTGTCCAT GTTCCGGGAA
    CCAGAGGGAG CCGGGCTGGA CATGCACCGT GTGAGGAGGA AAGAGGACAA CCTCTCTCTG
    CCAGGTGCCA TTGGCTCCTC CGGTAGCTTC TCACAGCGTA GCCACCTGCC TTCCAGTGGC
    ACCTCCACAC CGTCCTCTGT GGTTGACATC CCGCCCCCTT TCGACTTGGC CTGCATCACG
    AAGAGACCCA TCACTAAAAG CTCGCCCTCA CTCCTGATAG ATGGAGACAC CTTGGAAAAA
    GCCTCCAAGA AGAAGAAGTC CTCCTTCAAA CGCTTCCTGG AGCTGACATT CAGGAAGAAG
    ACAGAGAGCA AGGTGCACGT GGACATGAGT CTGTCGTCTT CCAGGTCCTC CTCCGAGTCC
    AGCTACCATG GTCCAGCCAG GGTCCTGGAA CTTGACCGCA GAAGCCTCAG CAACTCACCC
    CAGCTCAAGT GCCACACAGG AAAGCTCCGG GCCTCTGACT CTCCGGCCTC CCTCATCTTC
    TACAGGGACA GCAAGAGGAA AGGCGTCCCC TTCAGCAGGA CAGTGTCCAG AGTGGAGTCC
    TTCGAAGACC GCTCCCGGCC GCCATTTCTG CCTCTGCCCC TCACCAAGCC ACGGTCCATC
    TCATTTCCCA ATGCTGACAC TTCAGACTAT GAGAACATTC CAGCCATGAA CTCAGATTAC
    GAGAACATCC AGATCCCACC TCGCAGGCCG GCGAGGACGG GCACTTTCAC AAAGCTCTTT
    GAAGAACAGA GTAGAGCCCT GTCCACCGCA AATGAAAACG ACGGCTACGT GGACATGAGC
    AGCTTCAATG CCTTCGAGAG CAAGCAGCAG AGTTCAGAGC AGGAAGCTGA GAGCGCCTAC
    ACTGAGCCCT ACAAGGTCTG TCCCATCTCA ACAACCCCCA AAGAAGACCT CACATCAGAC
    GAAGAACAGG GAAGCTCAGA GGAGGAGGAC AATGCTTCAA GAGACCCCAG CCTCTCACAC
    AAGGGTGAAG GACAGTCTAG AGCCTTTGTC ATCGCTCAGG AGCTGCTGTC TTCAGAGAAG
    GCATATGTGC AGATGCTGCA GCACTTAAGC CTGGATTTCC ATGGAGCCGT CCTGAGGGCC
    TTGGAGAACG TAGAGCAAGA GGGCAGAGAG CCACTGGCCC AGGAGGAGCT GCGGCAGGGC
    CTACGGGAGC TCCCAGCTAT CTGTGACCTT CACCAGGGCA TCCTGGAGAG CCTGGAGCAG
    AGGCTGGGGG ATTGTGGAGA GGGCCAGCAG CAGGTGGCCG ACATCTTCCT AGCCCGTGAG
    CAGGAGTTCG AACATCATGC TGCACACATC CTGCAATTTG ACAGGTACCT GGGGCTGCTC
    GCTGAGAGCT GCCTGCTCTC ACCCCGGCTG GCCACCACCG TCCGGGAATT TGAGCAGCAG
    AGTTCACAAG GGGGTGGCCA GAGCATGAAA CATCGTATGC TGCGTGTAGT CCAGCGCCTC
    TTCCAGTACC AAGTGCTGCT CACTGATTAT TTAAACAACC TGTGCCCGGA CTCAGCCGAG
    TACGACAACA CTCAGAGTGC TCTGAATCTC ATCTCCAAAG TGACAGACAG GGCTAATGAA
    AGCATGGAAC AGGGGGAAAA CCTGCAGAAG CTGGTCCACA TCGAGTACAG TGTGCGGGGC
    CAAGGGGACC TCCTCCAGCC AGGAAGGGAG TTCCTGAAGG AAGGAACACT GATGAGGGTG
    AGAGGGAAAA GCCGACACCC CCGGCACCTG TTCCTGATGA ATGACACGCT CCTGTACACG
    CACCCCCAGA AGGATGGGAA GTACCGTCTG AAGAGCTCGC TACCAGTGGC CAACATGAAG
    GTCAGTCGCC CTGTGATGGA CAAAGTGCCC TATGCTCTGA AGATCGAAAC TCCCGAGTCT
    TGCCTGACAC TGTCTGCAAG CTCATGTGCC GAAAGGGACG AGTGGCACTA CTGTCTGAGC
    AGAGCCCTCC CGGAGGACTA CAAGACTCAG GCGCTGGCTG CCTTCCACCA CAGCGTGGAG
    ATCCGGGAGA GGTTGGGGAT CAGCCTCGGG GAGAGGCTCC CCACCCTGGT GCCTGTCACG
    CATGCCATGA TGTGCATGAA CTGCGGCTGT GACTTCTCGC TCACCGTGAG GCGCCACCAC
    TGCCATGCCT GTGGCAAGAT TGTGTGCCGG AACTGCTCTC GAAACAAGTA CCCACTGAAG
    TGCCTCAAGA ACAGGATGGC CAAGGTCTGC GATGGCTGCT TCCGGGAGCT GAAGCTGAGG
    AACGGGCCCG TCCCCGGCCC CATAAGAGAG CGTCCGGTCA GCATGAGTTT TCCACTGTCC
    TCATCCCGCT TCTCCTCGGG CAGCACCTTC TCCTCTGTCT TCCAGAGTAT TAGCCCTTCA
    ACTTTCAAGA AGCAGAAAAA AGTCCCTTCG GCTTTGGCTG AGGTGGCTGC ATCAGGAGAG
    GGCTCTGCCA TCAGCGGCTA TTTGAGCCGC TGTAAGAGTG GCAAGCGGCG CTGGAAGAAA
    CTCTGGCTTG TCATCAAGGG CAAAGTACTC TACACCTACC TGGCCAGTGA GGACAAAGTG
    GCCATGGAGA GCATCCCTCT GCTGGGTTTT ACTATTGCCC CAGAAAAGGA GGAGGGCAGC
    AGTGAAGTGG GCCCTGTTTT TCATCTTTAT CACAAGAAAA CCCTGTTTTA CAGCTTCAAA
    GCAGAGGACA GCAGTTCTGC TCAGAGGTGG ATGGAGGCCA TGGAAGATGC CAGTGTGTTA
    TAG

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

    RefSeq XP_006225055.1
    CDS237..4799
    Translation

    Target ORF information:

    RefSeq Version XM_006224993.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus FYVE, RhoGEF and PH domain containing 5 (Fgd5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006224993.3

    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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCACAGAG CAGATTCACC AAAACCACCA GTTGCTCCCA AGCCAAAGGT TACCACCAAT 
    CCTTCCACAC CACCAGCCAA GTTTCCCGCC TCACAGAGGC CTAACAGTTT CCCCAGTCCC
    AACTCCATGT CCAGGGGCCC CAAACCCCCC ATTGCTCCTA AGCCCAGGTT GGCTGGCCCC
    AGTGAGTATG GAGCTGGTGT GTACCTGAAC AACAGCCTCA GCAAATGCAG CAATGGGAGG
    CTGCTCTGCG AGGACCCGAG CTTGTACGAT GGACACCACT CCACCCTGAA CTGCTTGGAG
    TTGGAGACTG ATGAGCAGTA CATCATGGTG CCCAGGGCTC CACAGAGAGA CGATGCCCTC
    ACAGATAGAG CTACTGAGAA GCAGGGGTTT GAGGGGGAAG CCCAGGAGCA TGGTACGGAG
    CAGACGGGAA CTGAGAGGGA CCTGGCAGCT CCAGATGAAG AGGCACCGAG CAGAGACAGT
    GAGGAAGGCG TGGACCACGC TCTGGAAGAT GAAGAAGACT GTGATCATGA TCTAGAGACA
    GATGGGACCC CAACGGCCCC AGGTGAAGGA GCACCAAGCA GAGACGGTGA GAAAGGCGAG
    GAGGACTGTG GTCAGGACCC CGGTGTGGAG GAGCATCCCA TGAGCGAGGA GGAGGGAGAA
    GAGGAGGAGG CGAAGGAGTG CGTGCACAAC CGTGATGACA GGGCACCTTG GGATGGAGGG
    GAGCCCTTCC TCAATGAGGT CGTCCTCACA CATGTCTGCT CTCAGTCCCC TGAAGTTCCT
    TGTTGGGAGC CAGGCCTTCC TGAGACTCCT GGGGAGGTAG ATGAGGATAG CGAAGACATC
    TGTAACAACA CAGAACTCGG GAAACCCAAT CAGGATACTG GTCAGGACAC AGAGGATGCC
    AGCATGGGAT CCCCTGAGAG TGAGGTATCC CCAGATGTCC AGGAGCAAGA GGCAGCAACG
    GACAGCCCTG AGGTCTTTGA GGAGGACTCT GTAGATGCTG CAGAAGGTGA GGATCAGATA
    GCCCGGGACG AACCACCCAA TTGTGAAGAA GACACCAACA ACAGAGAAAC TGCAGCAGCC
    ACCATGCAGG CGGGAGAGGA TCATGGGGAG GATGGAGACC GTGTGCAAGA GGATCCTGCT
    GAGGAGAACT GCCAGATCAT TCCCTTTGAG AGTGACAGTG TGGAGGAGGA TTGCTCACCC
    ACACTCACAG AGAACCCCTA TGAGCTTTTC CCAACAGAGA GCACCTCCTT CTGTAATAAC
    AGCGGTTCCC TTGCTGAGTC GGACAAGGGG CAAGAGTCAG TGTGCAAGAT CTGTGTAGAG
    GAGGTTCCTG GTATTGGCCC CTCACTGAGC CAGGGTGATT CCTTGCAAGA TGGATCTGGA
    GAGGAGGCCC CGGTCCCTGA GGTGGTAGTC GTGCCAGAGA ATGAGGATCC CATGGATGAC
    GCGCTCAGCA GTCCCTACGT GATGGGAGTT GGCTTGCTAA GCCTTGGAGA GGGAGCACAG
    TCAGACACCC AGGCTGCATC AGGCACTCTG AGTGGGTACA GTACATGGGA GGAAGGGGAC
    TCTGACGGGG GACAGGTTCC AGTGGACAGG AAGAATATTG CCACAAGGGC CCGGCCTCAC
    TCTGGGAAGG TGGCTGGTCA CGTTCCAGAA ACTGTTCTAG AAGAAACAGG ACCAGAAGCC
    TGTTCATCAG CCATGGGCAT CAGAGATACT GGTGATGAGG TGAGAAAGAT AGGTATATTG
    CCGGAGGGAA AGCCTTCTGA ATCTCTCCGG GCCTTGCCAG CCAAGCCCAG AGCATTCACT
    CTCTACCCAA GATCCTTCTC TGTAGAAGGC CGGGAGAGTC CCCTGTCCAT GTTCCGGGAA
    CCAGAGGGAG CCGGGCTGGA CATGCACCGT GTGAGGAGGA AAGAGGACAA CCTCTCTCTG
    CCAGGTGCCA TTGGCTCCTC CGGTAGCTTC TCACAGCGTA GCCACCTGCC TTCCAGTGGC
    ACCTCCACAC CGTCCTCTGT GGTTGACATC CCGCCCCCTT TCGACTTGGC CTGCATCACG
    AAGAGACCCA TCACTAAAAG CTCGCCCTCA CTCCTGATAG ATGGAGACAC CTTGGAAAAA
    GCCTCCAAGA AGAAGAAGTC CTCCTTCAAA CGCTTCCTGG AGCTGACATT CAGGAAGAAG
    ACAGAGAGCA AGGTGCACGT GGACATGAGT CTGTCGTCTT CCAGGTCCTC CTCCGAGTCC
    AGCTACCATG GTCCAGCCAG GGTCCTGGAA CTTGACCGCA GAAGCCTCAG CAACTCACCC
    CAGCTCAAGT GCCACACAGG AAAGCTCCGG GCCTCTGACT CTCCGGCCTC CCTCATCTTC
    TACAGGGACA GCAAGAGGAA AGGCGTCCCC TTCAGCAGGA CAGTGTCCAG AGTGGAGTCC
    TTCGAAGACC GCTCCCGGCC GCCATTTCTG CCTCTGCCCC TCACCAAGCC ACGGTCCATC
    TCATTTCCCA ATGCTGACAC TTCAGACTAT GAGAACATTC CAGCCATGAA CTCAGATTAC
    GAGAACATCC AGATCCCACC TCGCAGGCCG GCGAGGACGG GCACTTTCAC AAAGCTCTTT
    GAAGAACAGA GTAGAGCCCT GTCCACCGCA AATGAAAACG ACGGCTACGT GGACATGAGC
    AGCTTCAATG CCTTCGAGAG CAAGCAGCAG AGTTCAGAGC AGGAAGCTGA GAGCGCCTAC
    ACTGAGCCCT ACAAGGTCTG TCCCATCTCA ACAACCCCCA AAGAAGACCT CACATCAGAC
    GAAGAACAGG GAAGCTCAGA GGAGGAGGAC AATGCTTCAA GAGACCCCAG CCTCTCACAC
    AAGGGTGAAG GACAGTCTAG AGCCTTTGTC ATCGCTCAGG AGCTGCTGTC TTCAGAGAAG
    GCATATGTGC AGATGCTGCA GCACTTAAGC CTGGATTTCC ATGGAGCCGT CCTGAGGGCC
    TTGGAGAACG TAGAGCAAGA GGGCAGAGAG CCACTGGCCC AGGAGGAGCT GCGGCAGGGC
    CTACGGGAGC TCCCAGCTAT CTGTGACCTT CACCAGGGCA TCCTGGAGAG CCTGGAGCAG
    AGGCTGGGGG ATTGTGGAGA GGGCCAGCAG CAGGTGGCCG ACATCTTCCT AGCCCGTGAG
    CAGGAGTTCG AACATCATGC TGCACACATC CTGCAATTTG ACAGGTACCT GGGGCTGCTC
    GCTGAGAGCT GCCTGCTCTC ACCCCGGCTG GCCACCACCG TCCGGGAATT TGAGCAGCAG
    AGTTCACAAG GGGGTGGCCA GAGCATGAAA CATCGTATGC TGCGTGTAGT CCAGCGCCTC
    TTCCAGTACC AAGTGCTGCT CACTGATTAT TTAAACAACC TGTGCCCGGA CTCAGCCGAG
    TACGACAACA CTCAGAGTGC TCTGAATCTC ATCTCCAAAG TGACAGACAG GGCTAATGAA
    AGCATGGAAC AGGGGGAAAA CCTGCAGAAG CTGGTCCACA TCGAGTACAG TGTGCGGGGC
    CAAGGGGACC TCCTCCAGCC AGGAAGGGAG TTCCTGAAGG AAGGAACACT GATGAGGGTG
    AGAGGGAAAA GCCGACACCC CCGGCACCTG TTCCTGATGA ATGACACGCT CCTGTACACG
    CACCCCCAGA AGGATGGGAA GTACCGTCTG AAGAGCTCGC TACCAGTGGC CAACATGAAG
    GTCAGTCGCC CTGTGATGGA CAAAGTGCCC TATGCTCTGA AGATCGAAAC TCCCGAGTCT
    TGCCTGACAC TGTCTGCAAG CTCATGTGCC GAAAGGGACG AGTGGCACTA CTGTCTGAGC
    AGAGCCCTCC CGGAGGACTA CAAGACTCAG GCGCTGGCTG CCTTCCACCA CAGCGTGGAG
    ATCCGGGAGA GGTTGGGGAT CAGCCTCGGG GAGAGGCTCC CCACCCTGGT GCCTGTCACG
    CATGCCATGA TGTGCATGAA CTGCGGCTGT GACTTCTCGC TCACCGTGAG GCGCCACCAC
    TGCCATGCCT GTGGCAAGAT TGTGTGCCGG AACTGCTCTC GAAACAAGTA CCCACTGAAG
    TGCCTCAAGA ACAGGATGGC CAAGGTCTGC GATGGCTGCT TCCGGGAGCT GAAGCTGAGG
    AACGGGCCCG TCCCCGGCCC CATAAGAGAG CGTCCGGTCA GCATGAGTTT TCCACTGTCC
    TCATCCCGCT TCTCCTCGGG CAGCACCTTC TCCTCTGTCT TCCAGAGTAT TAGCCCTTCA
    ACTTTCAAGA AGCAGAAAAA AGTCCCTTCG GCTTTGGCTG AGGTGGCTGC ATCAGGAGAG
    GGCTCTGCCA TCAGCGGCTA TTTGAGCCGC TGTAAGAGTG GCAAGCGGCG CTGGAAGAAA
    CTCTGGCTTG TCATCAAGGG CAAAGTACTC TACACCTACC TGGCCAGTGA GGACAAAGTG
    GCCATGGAGA GCATCCCTCT GCTGGGTTTT ACTATTGCCC CAGAAAAGGA GGAGGGCAGC
    AGTGAAGTGG GCCCTGTTTT TCATCTTTAT CACAAGAAAA CCCTGTTTTA CAGCTTCAAA
    GCAGAGGACA GCAGTTCTGC TCAGAGGTGG ATGGAGGCCA TGGAAGATGC CAGTGTGTTA
    TAG

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

    CloneID ORa16289
    Clone ID Related Accession (Same CDS sequence) XM_006224993.3 , XM_006236925.3 , NM_001108637.2
    Accession Version XM_006236925.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4563bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product FYVE, RhoGEF and PH domain-containing protein 5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005103.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006236925.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCACAGAG CAGATTCACC AAAACCACCA GTTGCTCCCA AGCCAAAGGT TACCACCAAT 
    CCTTCCACAC CACCAGCCAA GTTTCCCGCC TCACAGAGGC CTAACAGTTT CCCCAGTCCC
    AACTCCATGT CCAGGGGCCC CAAACCCCCC ATTGCTCCTA AGCCCAGGTT GGCTGGCCCC
    AGTGAGTATG GAGCTGGTGT GTACCTGAAC AACAGCCTCA GCAAATGCAG CAATGGGAGG
    CTGCTCTGCG AGGACCCGAG CTTGTACGAT GGACACCACT CCACCCTGAA CTGCTTGGAG
    TTGGAGACTG ATGAGCAGTA CATCATGGTG CCCAGGGCTC CACAGAGAGA CGATGCCCTC
    ACAGATAGAG CTACTGAGAA GCAGGGGTTT GAGGGGGAAG CCCAGGAGCA TGGTACGGAG
    CAGACGGGAA CTGAGAGGGA CCTGGCAGCT CCAGATGAAG AGGCACCGAG CAGAGACAGT
    GAGGAAGGCG TGGACCACGC TCTGGAAGAT GAAGAAGACT GTGATCATGA TCTAGAGACA
    GATGGGACCC CAACGGCCCC AGGTGAAGGA GCACCAAGCA GAGACGGTGA GAAAGGCGAG
    GAGGACTGTG GTCAGGACCC CGGTGTGGAG GAGCATCCCA TGAGCGAGGA GGAGGGAGAA
    GAGGAGGAGG CGAAGGAGTG CGTGCACAAC CGTGATGACA GGGCACCTTG GGATGGAGGG
    GAGCCCTTCC TCAATGAGGT CGTCCTCACA CATGTCTGCT CTCAGTCCCC TGAAGTTCCT
    TGTTGGGAGC CAGGCCTTCC TGAGACTCCT GGGGAGGTAG ATGAGGATAG CGAAGACATC
    TGTAACAACA CAGAACTCGG GAAACCCAAT CAGGATACTG GTCAGGACAC AGAGGATGCC
    AGCATGGGAT CCCCTGAGAG TGAGGTATCC CCAGATGTCC AGGAGCAAGA GGCAGCAACG
    GACAGCCCTG AGGTCTTTGA GGAGGACTCT GTAGATGCTG CAGAAGGTGA GGATCAGATA
    GCCCGGGACG AACCACCCAA TTGTGAAGAA GACACCAACA ACAGAGAAAC TGCAGCAGCC
    ACCATGCAGG CGGGAGAGGA TCATGGGGAG GATGGAGACC GTGTGCAAGA GGATCCTGCT
    GAGGAGAACT GCCAGATCAT TCCCTTTGAG AGTGACAGTG TGGAGGAGGA TTGCTCACCC
    ACACTCACAG AGAACCCCTA TGAGCTTTTC CCAACAGAGA GCACCTCCTT CTGTAATAAC
    AGCGGTTCCC TTGCTGAGTC GGACAAGGGG CAAGAGTCAG TGTGCAAGAT CTGTGTAGAG
    GAGGTTCCTG GTATTGGCCC CTCACTGAGC CAGGGTGATT CCTTGCAAGA TGGATCTGGA
    GAGGAGGCCC CGGTCCCTGA GGTGGTAGTC GTGCCAGAGA ATGAGGATCC CATGGATGAC
    GCGCTCAGCA GTCCCTACGT GATGGGAGTT GGCTTGCTAA GCCTTGGAGA GGGAGCACAG
    TCAGACACCC AGGCTGCATC AGGCACTCTG AGTGGGTACA GTACATGGGA GGAAGGGGAC
    TCTGACGGGG GACAGGTTCC AGTGGACAGG AAGAATATTG CCACAAGGGC CCGGCCTCAC
    TCTGGGAAGG TGGCTGGTCA CGTTCCAGAA ACTGTTCTAG AAGAAACAGG ACCAGAAGCC
    TGTTCATCAG CCATGGGCAT CAGAGATACT GGTGATGAGG TGAGAAAGAT AGGTATATTG
    CCGGAGGGAA AGCCTTCTGA ATCTCTCCGG GCCTTGCCAG CCAAGCCCAG AGCATTCACT
    CTCTACCCAA GATCCTTCTC TGTAGAAGGC CGGGAGAGTC CCCTGTCCAT GTTCCGGGAA
    CCAGAGGGAG CCGGGCTGGA CATGCACCGT GTGAGGAGGA AAGAGGACAA CCTCTCTCTG
    CCAGGTGCCA TTGGCTCCTC CGGTAGCTTC TCACAGCGTA GCCACCTGCC TTCCAGTGGC
    ACCTCCACAC CGTCCTCTGT GGTTGACATC CCGCCCCCTT TCGACTTGGC CTGCATCACG
    AAGAGACCCA TCACTAAAAG CTCGCCCTCA CTCCTGATAG ATGGAGACAC CTTGGAAAAA
    GCCTCCAAGA AGAAGAAGTC CTCCTTCAAA CGCTTCCTGG AGCTGACATT CAGGAAGAAG
    ACAGAGAGCA AGGTGCACGT GGACATGAGT CTGTCGTCTT CCAGGTCCTC CTCCGAGTCC
    AGCTACCATG GTCCAGCCAG GGTCCTGGAA CTTGACCGCA GAAGCCTCAG CAACTCACCC
    CAGCTCAAGT GCCACACAGG AAAGCTCCGG GCCTCTGACT CTCCGGCCTC CCTCATCTTC
    TACAGGGACA GCAAGAGGAA AGGCGTCCCC TTCAGCAGGA CAGTGTCCAG AGTGGAGTCC
    TTCGAAGACC GCTCCCGGCC GCCATTTCTG CCTCTGCCCC TCACCAAGCC ACGGTCCATC
    TCATTTCCCA ATGCTGACAC TTCAGACTAT GAGAACATTC CAGCCATGAA CTCAGATTAC
    GAGAACATCC AGATCCCACC TCGCAGGCCG GCGAGGACGG GCACTTTCAC AAAGCTCTTT
    GAAGAACAGA GTAGAGCCCT GTCCACCGCA AATGAAAACG ACGGCTACGT GGACATGAGC
    AGCTTCAATG CCTTCGAGAG CAAGCAGCAG AGTTCAGAGC AGGAAGCTGA GAGCGCCTAC
    ACTGAGCCCT ACAAGGTCTG TCCCATCTCA ACAACCCCCA AAGAAGACCT CACATCAGAC
    GAAGAACAGG GAAGCTCAGA GGAGGAGGAC AATGCTTCAA GAGACCCCAG CCTCTCACAC
    AAGGGTGAAG GACAGTCTAG AGCCTTTGTC ATCGCTCAGG AGCTGCTGTC TTCAGAGAAG
    GCATATGTGC AGATGCTGCA GCACTTAAGC CTGGATTTCC ATGGAGCCGT CCTGAGGGCC
    TTGGAGAACG TAGAGCAAGA GGGCAGAGAG CCACTGGCCC AGGAGGAGCT GCGGCAGGGC
    CTACGGGAGC TCCCAGCTAT CTGTGACCTT CACCAGGGCA TCCTGGAGAG CCTGGAGCAG
    AGGCTGGGGG ATTGTGGAGA GGGCCAGCAG CAGGTGGCCG ACATCTTCCT AGCCCGTGAG
    CAGGAGTTCG AACATCATGC TGCACACATC CTGCAATTTG ACAGGTACCT GGGGCTGCTC
    GCTGAGAGCT GCCTGCTCTC ACCCCGGCTG GCCACCACCG TCCGGGAATT TGAGCAGCAG
    AGTTCACAAG GGGGTGGCCA GAGCATGAAA CATCGTATGC TGCGTGTAGT CCAGCGCCTC
    TTCCAGTACC AAGTGCTGCT CACTGATTAT TTAAACAACC TGTGCCCGGA CTCAGCCGAG
    TACGACAACA CTCAGAGTGC TCTGAATCTC ATCTCCAAAG TGACAGACAG GGCTAATGAA
    AGCATGGAAC AGGGGGAAAA CCTGCAGAAG CTGGTCCACA TCGAGTACAG TGTGCGGGGC
    CAAGGGGACC TCCTCCAGCC AGGAAGGGAG TTCCTGAAGG AAGGAACACT GATGAGGGTG
    AGAGGGAAAA GCCGACACCC CCGGCACCTG TTCCTGATGA ATGACACGCT CCTGTACACG
    CACCCCCAGA AGGATGGGAA GTACCGTCTG AAGAGCTCGC TACCAGTGGC CAACATGAAG
    GTCAGTCGCC CTGTGATGGA CAAAGTGCCC TATGCTCTGA AGATCGAAAC TCCCGAGTCT
    TGCCTGACAC TGTCTGCAAG CTCATGTGCC GAAAGGGACG AGTGGCACTA CTGTCTGAGC
    AGAGCCCTCC CGGAGGACTA CAAGACTCAG GCGCTGGCTG CCTTCCACCA CAGCGTGGAG
    ATCCGGGAGA GGTTGGGGAT CAGCCTCGGG GAGAGGCTCC CCACCCTGGT GCCTGTCACG
    CATGCCATGA TGTGCATGAA CTGCGGCTGT GACTTCTCGC TCACCGTGAG GCGCCACCAC
    TGCCATGCCT GTGGCAAGAT TGTGTGCCGG AACTGCTCTC GAAACAAGTA CCCACTGAAG
    TGCCTCAAGA ACAGGATGGC CAAGGTCTGC GATGGCTGCT TCCGGGAGCT GAAGCTGAGG
    AACGGGCCCG TCCCCGGCCC CATAAGAGAG CGTCCGGTCA GCATGAGTTT TCCACTGTCC
    TCATCCCGCT TCTCCTCGGG CAGCACCTTC TCCTCTGTCT TCCAGAGTAT TAGCCCTTCA
    ACTTTCAAGA AGCAGAAAAA AGTCCCTTCG GCTTTGGCTG AGGTGGCTGC ATCAGGAGAG
    GGCTCTGCCA TCAGCGGCTA TTTGAGCCGC TGTAAGAGTG GCAAGCGGCG CTGGAAGAAA
    CTCTGGCTTG TCATCAAGGG CAAAGTACTC TACACCTACC TGGCCAGTGA GGACAAAGTG
    GCCATGGAGA GCATCCCTCT GCTGGGTTTT ACTATTGCCC CAGAAAAGGA GGAGGGCAGC
    AGTGAAGTGG GCCCTGTTTT TCATCTTTAT CACAAGAAAA CCCTGTTTTA CAGCTTCAAA
    GCAGAGGACA GCAGTTCTGC TCAGAGGTGG ATGGAGGCCA TGGAAGATGC CAGTGTGTTA
    TAG

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

    RefSeq XP_006236987.1
    CDS237..4799
    Translation

    Target ORF information:

    RefSeq Version XM_006236925.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus FYVE, RhoGEF and PH domain containing 5 (Fgd5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006236925.3

    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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCACAGAG CAGATTCACC AAAACCACCA GTTGCTCCCA AGCCAAAGGT TACCACCAAT 
    CCTTCCACAC CACCAGCCAA GTTTCCCGCC TCACAGAGGC CTAACAGTTT CCCCAGTCCC
    AACTCCATGT CCAGGGGCCC CAAACCCCCC ATTGCTCCTA AGCCCAGGTT GGCTGGCCCC
    AGTGAGTATG GAGCTGGTGT GTACCTGAAC AACAGCCTCA GCAAATGCAG CAATGGGAGG
    CTGCTCTGCG AGGACCCGAG CTTGTACGAT GGACACCACT CCACCCTGAA CTGCTTGGAG
    TTGGAGACTG ATGAGCAGTA CATCATGGTG CCCAGGGCTC CACAGAGAGA CGATGCCCTC
    ACAGATAGAG CTACTGAGAA GCAGGGGTTT GAGGGGGAAG CCCAGGAGCA TGGTACGGAG
    CAGACGGGAA CTGAGAGGGA CCTGGCAGCT CCAGATGAAG AGGCACCGAG CAGAGACAGT
    GAGGAAGGCG TGGACCACGC TCTGGAAGAT GAAGAAGACT GTGATCATGA TCTAGAGACA
    GATGGGACCC CAACGGCCCC AGGTGAAGGA GCACCAAGCA GAGACGGTGA GAAAGGCGAG
    GAGGACTGTG GTCAGGACCC CGGTGTGGAG GAGCATCCCA TGAGCGAGGA GGAGGGAGAA
    GAGGAGGAGG CGAAGGAGTG CGTGCACAAC CGTGATGACA GGGCACCTTG GGATGGAGGG
    GAGCCCTTCC TCAATGAGGT CGTCCTCACA CATGTCTGCT CTCAGTCCCC TGAAGTTCCT
    TGTTGGGAGC CAGGCCTTCC TGAGACTCCT GGGGAGGTAG ATGAGGATAG CGAAGACATC
    TGTAACAACA CAGAACTCGG GAAACCCAAT CAGGATACTG GTCAGGACAC AGAGGATGCC
    AGCATGGGAT CCCCTGAGAG TGAGGTATCC CCAGATGTCC AGGAGCAAGA GGCAGCAACG
    GACAGCCCTG AGGTCTTTGA GGAGGACTCT GTAGATGCTG CAGAAGGTGA GGATCAGATA
    GCCCGGGACG AACCACCCAA TTGTGAAGAA GACACCAACA ACAGAGAAAC TGCAGCAGCC
    ACCATGCAGG CGGGAGAGGA TCATGGGGAG GATGGAGACC GTGTGCAAGA GGATCCTGCT
    GAGGAGAACT GCCAGATCAT TCCCTTTGAG AGTGACAGTG TGGAGGAGGA TTGCTCACCC
    ACACTCACAG AGAACCCCTA TGAGCTTTTC CCAACAGAGA GCACCTCCTT CTGTAATAAC
    AGCGGTTCCC TTGCTGAGTC GGACAAGGGG CAAGAGTCAG TGTGCAAGAT CTGTGTAGAG
    GAGGTTCCTG GTATTGGCCC CTCACTGAGC CAGGGTGATT CCTTGCAAGA TGGATCTGGA
    GAGGAGGCCC CGGTCCCTGA GGTGGTAGTC GTGCCAGAGA ATGAGGATCC CATGGATGAC
    GCGCTCAGCA GTCCCTACGT GATGGGAGTT GGCTTGCTAA GCCTTGGAGA GGGAGCACAG
    TCAGACACCC AGGCTGCATC AGGCACTCTG AGTGGGTACA GTACATGGGA GGAAGGGGAC
    TCTGACGGGG GACAGGTTCC AGTGGACAGG AAGAATATTG CCACAAGGGC CCGGCCTCAC
    TCTGGGAAGG TGGCTGGTCA CGTTCCAGAA ACTGTTCTAG AAGAAACAGG ACCAGAAGCC
    TGTTCATCAG CCATGGGCAT CAGAGATACT GGTGATGAGG TGAGAAAGAT AGGTATATTG
    CCGGAGGGAA AGCCTTCTGA ATCTCTCCGG GCCTTGCCAG CCAAGCCCAG AGCATTCACT
    CTCTACCCAA GATCCTTCTC TGTAGAAGGC CGGGAGAGTC CCCTGTCCAT GTTCCGGGAA
    CCAGAGGGAG CCGGGCTGGA CATGCACCGT GTGAGGAGGA AAGAGGACAA CCTCTCTCTG
    CCAGGTGCCA TTGGCTCCTC CGGTAGCTTC TCACAGCGTA GCCACCTGCC TTCCAGTGGC
    ACCTCCACAC CGTCCTCTGT GGTTGACATC CCGCCCCCTT TCGACTTGGC CTGCATCACG
    AAGAGACCCA TCACTAAAAG CTCGCCCTCA CTCCTGATAG ATGGAGACAC CTTGGAAAAA
    GCCTCCAAGA AGAAGAAGTC CTCCTTCAAA CGCTTCCTGG AGCTGACATT CAGGAAGAAG
    ACAGAGAGCA AGGTGCACGT GGACATGAGT CTGTCGTCTT CCAGGTCCTC CTCCGAGTCC
    AGCTACCATG GTCCAGCCAG GGTCCTGGAA CTTGACCGCA GAAGCCTCAG CAACTCACCC
    CAGCTCAAGT GCCACACAGG AAAGCTCCGG GCCTCTGACT CTCCGGCCTC CCTCATCTTC
    TACAGGGACA GCAAGAGGAA AGGCGTCCCC TTCAGCAGGA CAGTGTCCAG AGTGGAGTCC
    TTCGAAGACC GCTCCCGGCC GCCATTTCTG CCTCTGCCCC TCACCAAGCC ACGGTCCATC
    TCATTTCCCA ATGCTGACAC TTCAGACTAT GAGAACATTC CAGCCATGAA CTCAGATTAC
    GAGAACATCC AGATCCCACC TCGCAGGCCG GCGAGGACGG GCACTTTCAC AAAGCTCTTT
    GAAGAACAGA GTAGAGCCCT GTCCACCGCA AATGAAAACG ACGGCTACGT GGACATGAGC
    AGCTTCAATG CCTTCGAGAG CAAGCAGCAG AGTTCAGAGC AGGAAGCTGA GAGCGCCTAC
    ACTGAGCCCT ACAAGGTCTG TCCCATCTCA ACAACCCCCA AAGAAGACCT CACATCAGAC
    GAAGAACAGG GAAGCTCAGA GGAGGAGGAC AATGCTTCAA GAGACCCCAG CCTCTCACAC
    AAGGGTGAAG GACAGTCTAG AGCCTTTGTC ATCGCTCAGG AGCTGCTGTC TTCAGAGAAG
    GCATATGTGC AGATGCTGCA GCACTTAAGC CTGGATTTCC ATGGAGCCGT CCTGAGGGCC
    TTGGAGAACG TAGAGCAAGA GGGCAGAGAG CCACTGGCCC AGGAGGAGCT GCGGCAGGGC
    CTACGGGAGC TCCCAGCTAT CTGTGACCTT CACCAGGGCA TCCTGGAGAG CCTGGAGCAG
    AGGCTGGGGG ATTGTGGAGA GGGCCAGCAG CAGGTGGCCG ACATCTTCCT AGCCCGTGAG
    CAGGAGTTCG AACATCATGC TGCACACATC CTGCAATTTG ACAGGTACCT GGGGCTGCTC
    GCTGAGAGCT GCCTGCTCTC ACCCCGGCTG GCCACCACCG TCCGGGAATT TGAGCAGCAG
    AGTTCACAAG GGGGTGGCCA GAGCATGAAA CATCGTATGC TGCGTGTAGT CCAGCGCCTC
    TTCCAGTACC AAGTGCTGCT CACTGATTAT TTAAACAACC TGTGCCCGGA CTCAGCCGAG
    TACGACAACA CTCAGAGTGC TCTGAATCTC ATCTCCAAAG TGACAGACAG GGCTAATGAA
    AGCATGGAAC AGGGGGAAAA CCTGCAGAAG CTGGTCCACA TCGAGTACAG TGTGCGGGGC
    CAAGGGGACC TCCTCCAGCC AGGAAGGGAG TTCCTGAAGG AAGGAACACT GATGAGGGTG
    AGAGGGAAAA GCCGACACCC CCGGCACCTG TTCCTGATGA ATGACACGCT CCTGTACACG
    CACCCCCAGA AGGATGGGAA GTACCGTCTG AAGAGCTCGC TACCAGTGGC CAACATGAAG
    GTCAGTCGCC CTGTGATGGA CAAAGTGCCC TATGCTCTGA AGATCGAAAC TCCCGAGTCT
    TGCCTGACAC TGTCTGCAAG CTCATGTGCC GAAAGGGACG AGTGGCACTA CTGTCTGAGC
    AGAGCCCTCC CGGAGGACTA CAAGACTCAG GCGCTGGCTG CCTTCCACCA CAGCGTGGAG
    ATCCGGGAGA GGTTGGGGAT CAGCCTCGGG GAGAGGCTCC CCACCCTGGT GCCTGTCACG
    CATGCCATGA TGTGCATGAA CTGCGGCTGT GACTTCTCGC TCACCGTGAG GCGCCACCAC
    TGCCATGCCT GTGGCAAGAT TGTGTGCCGG AACTGCTCTC GAAACAAGTA CCCACTGAAG
    TGCCTCAAGA ACAGGATGGC CAAGGTCTGC GATGGCTGCT TCCGGGAGCT GAAGCTGAGG
    AACGGGCCCG TCCCCGGCCC CATAAGAGAG CGTCCGGTCA GCATGAGTTT TCCACTGTCC
    TCATCCCGCT TCTCCTCGGG CAGCACCTTC TCCTCTGTCT TCCAGAGTAT TAGCCCTTCA
    ACTTTCAAGA AGCAGAAAAA AGTCCCTTCG GCTTTGGCTG AGGTGGCTGC ATCAGGAGAG
    GGCTCTGCCA TCAGCGGCTA TTTGAGCCGC TGTAAGAGTG GCAAGCGGCG CTGGAAGAAA
    CTCTGGCTTG TCATCAAGGG CAAAGTACTC TACACCTACC TGGCCAGTGA GGACAAAGTG
    GCCATGGAGA GCATCCCTCT GCTGGGTTTT ACTATTGCCC CAGAAAAGGA GGAGGGCAGC
    AGTGAAGTGG GCCCTGTTTT TCATCTTTAT CACAAGAAAA CCCTGTTTTA CAGCTTCAAA
    GCAGAGGACA GCAGTTCTGC TCAGAGGTGG ATGGAGGCCA TGGAAGATGC CAGTGTGTTA
    TAG

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

    CloneID ORa16290
    Clone ID Related Accession (Same CDS sequence) XM_006236926.3 , XM_006224994.3
    Accession Version XM_006236926.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4560bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product FYVE, RhoGEF and PH domain-containing protein 5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005103.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006236926.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCACAGAG CAGATTCACC AAAACCACCA GTTGCTCCCA AGCCAAAGGT TACCACCAAT 
    CCTTCCACAC CACCAGCCAA GTTTCCCGCC TCACAGAGGC CTAACAGTTT CCCCAGTCCC
    AACTCCATGT CCAGGGGCCC CAAACCCCCC ATTGCTCCTA AGCCCAGGTT GGCTGGCCCC
    AGTGAGTATG GAGCTGGTGT GTACCTGAAC AACAGCCTCA GCAAATGCAG CAATGGGAGG
    CTGCTCTGCG AGGACCCGAG CTTGTACGAT GGACACCACT CCACCCTGAA CTGCTTGGAG
    TTGGAGACTG ATGAGCAGTA CATCATGGTG CCCAGGGCTC CACAGAGAGA CGATGCCCTC
    ACAGATAGAG CTACTGAGAA GCAGGGGTTT GAGGGGGAAG CCCAGGAGCA TGGTACGGAG
    CAGACGGGAA CTGAGAGGGA CCTGGCAGCT CCAGATGAAG AGGCACCGAG CAGAGACAGT
    GAGGAAGGCG TGGACCACGC TCTGGAAGAT GAAGAAGACT GTGATCATGA TCTAGAGACA
    GATGGGACCC CAACGGCCCC AGGTGAAGGA GCACCAAGCA GAGACGGTGA GAAAGGCGAG
    GAGGACTGTG GTCAGGACCC CGGTGTGGAG GAGCATCCCA TGAGCGAGGA GGAGGGAGAA
    GAGGAGGAGG CGAAGGAGTG CGTGCACAAC CGTGATGACA GGGCACCTTG GGATGGAGGG
    GAGCCCTTCC TCAATGAGGT CGTCCTCACA CATGTCTGCT CTCAGTCCCC TGAAGTTCCT
    TGTTGGGAGC CAGGCCTTCC TGAGACTCCT GGGGAGGTAG ATGAGGATAG CGAAGACATC
    TGTAACAACA CAGAACTCGG GAAACCCAAT CAGGATACTG GTCAGGACAC AGAGGATGCC
    AGCATGGGAT CCCCTGAGAG TGAGGTATCC CCAGATGTCC AGGAGCAAGA GGCAGCAACG
    GACAGCCCTG AGGTCTTTGA GGAGGACTCT GTAGATGCTG CAGAAGGTGA GGATCAGATA
    GCCCGGGACG AACCACCCAA TTGTGAAGAA GACACCAACA ACAGAGAAAC TGCAGCAGCC
    ACCATGCAGG CGGGAGAGGA TCATGGGGAG GATGGAGACC GTGTGCAAGA GGATCCTGCT
    GAGGAGAACT GCCAGATCAT TCCCTTTGAG AGTGACAGTG TGGAGGAGGA TTGCTCACCC
    ACACTCACAG AGAACCCCTA TGAGCTTTTC CCAACAGAGA GCACCTCCTT CTGTAATAAC
    AGCGGTTCCC TTGCTGAGTC GGACAAGGGG CAAGAGTCAG TGTGCAAGAT CTGTGTAGAG
    GAGGTTCCTG GTATTGGCCC CTCACTGAGC CAGGGTGATT CCTTGCAAGA TGGATCTGGA
    GAGGAGGCCC CGGTCCCTGA GGTGGTAGTC GTGCCAGAGA ATGAGGATCC CATGGATGAC
    GCGCTCAGCA GTCCCTACGT GATGGGAGTT GGCTTGCTAA GCCTTGGAGA GGGAGCACAG
    TCAGACACCC AGGCTGCATC AGGCACTCTG AGTGGGTACA GTACATGGGA GGAAGGGGAC
    TCTGACGGGG GACAGGTTCC AGTGGACAGG AAGAATATTG CCACAAGGGC CCGGCCTCAC
    TCTGGGAAGG TGGCTGGTCA CGTTCCAGAA ACTGTTCTAG AAGAAACAGG ACCAGAAGCC
    TGTTCATCAG CCATGGGCAT CAGAGATACT GGTGATGAGG TGAGAAAGAT AGGTATATTG
    CCGGAGGGAA AGCCTTCTGA ATCTCTCCGG GCCTTGCCAG CCAAGCCCAG AGCATTCACT
    CTCTACCCAA GATCCTTCTC TGTAGAAGGC CGGGAGAGTC CCCTGTCCAT GTTCCGGGAA
    CCAGAGGGAG CCGGGCTGGA CATGCACCGT GTGAGGAGGA AAGAGGACAA CCTCTCTCTG
    CCAGGTGCCA TTGGCTCCTC CGGTAGCTTC TCACAGCGTA GCCACCTGCC TTCCAGTGGC
    ACCTCCACAC CGTCCTCTGT GGTTGACATC CCGCCCCCTT TCGACTTGGC CTGCATCACG
    AAGAGACCCA TCACTAAAAG CTCGCCCTCA CTCCTGATAG ATGGAGACAC CTTGGAAAAA
    GCCTCCAAGA AGAAGAAGTC CTCCTTCAAA CGCTTCCTGG AGCTGACATT CAGGAAGAAG
    ACAGAGAGCA AGGTGCACGT GGACATGAGT CTGTCGTCTT CCAGGTCCTC CTCCGAGTCC
    AGCTACCATG GTCCAGCCAG GGTCCTGGAA CTTGACCGCA GAAGCCTCAG CAACTCACCC
    CAGCTCAAGT GCCACACAGG AAAGCTCCGG GCCTCTGACT CTCCGGCCTC CCTCATCTTC
    TACAGGGACA GCAAGAGGAA AGGCGTCCCC TTCAGCAGGA CAGTGTCCAG AGTGGAGTCC
    TTCGAAGACC GCTCCCGGCC GCCATTTCTG CCTCTGCCCC TCACCAAGCC ACGGTCCATC
    TCATTTCCCA ATGCTGACAC TTCAGACTAT GAGAACATTC CAGCCATGAA CTCAGATTAC
    GAGAACATCC AGATCCCACC TCGCAGGCCG GCGAGGACGG GCACTTTCAC AAAGCTCTTT
    GAAGAACAGA GTAGAGCCCT GTCCACCGCA AATGAAAACG ACGGCTACGT GGACATGAGC
    AGCTTCAATG CCTTCGAGAG CAAGCAGCAG AGTTCAGAGC AGGAAGCTGA GAGCGCCTAC
    ACTGAGCCCT ACAAGGTCTG TCCCATCTCA ACAACCCCCA AAGAAGACCT CACATCAGAC
    GAAGAACAGG GAAGCTCAGA GGAGGAGGAC AATGCTTCAA GAGACCCCAG CCTCTCACAC
    AAGGGTGAAG GACAGTCTAG AGCCTTTGTC ATCGCTCAGG AGCTGCTGTC TTCAGAGAAG
    GCATATGTGC AGATGCTGCA GCACTTAAGC CTGGATTTCC ATGGAGCCGT CCTGAGGGCC
    TTGGAGAACG TAGAGCAAGA GGGCAGAGAG CCACTGGCCC AGGAGGAGCT GCGGCAGGGC
    CTACGGGAGC TCCCAGCTAT CTGTGACCTT CACCAGGGCA TCCTGGAGAG CCTGGAGCAG
    AGGCTGGGGG ATTGTGGAGA GGGCCAGCAG CAGGTGGCCG ACATCTTCCT AGCCCGTGAG
    CAGGAGTTCG AACATCATGC TGCACACATC CTGCAATTTG ACAGGTACCT GGGGCTGCTC
    GCTGAGAGCT GCCTGCTCTC ACCCCGGCTG GCCACCACCG TCCGGGAATT TGAGCAGAGT
    TCACAAGGGG GTGGCCAGAG CATGAAACAT CGTATGCTGC GTGTAGTCCA GCGCCTCTTC
    CAGTACCAAG TGCTGCTCAC TGATTATTTA AACAACCTGT GCCCGGACTC AGCCGAGTAC
    GACAACACTC AGAGTGCTCT GAATCTCATC TCCAAAGTGA CAGACAGGGC TAATGAAAGC
    ATGGAACAGG GGGAAAACCT GCAGAAGCTG GTCCACATCG AGTACAGTGT GCGGGGCCAA
    GGGGACCTCC TCCAGCCAGG AAGGGAGTTC CTGAAGGAAG GAACACTGAT GAGGGTGAGA
    GGGAAAAGCC GACACCCCCG GCACCTGTTC CTGATGAATG ACACGCTCCT GTACACGCAC
    CCCCAGAAGG ATGGGAAGTA CCGTCTGAAG AGCTCGCTAC CAGTGGCCAA CATGAAGGTC
    AGTCGCCCTG TGATGGACAA AGTGCCCTAT GCTCTGAAGA TCGAAACTCC CGAGTCTTGC
    CTGACACTGT CTGCAAGCTC ATGTGCCGAA AGGGACGAGT GGCACTACTG TCTGAGCAGA
    GCCCTCCCGG AGGACTACAA GACTCAGGCG CTGGCTGCCT TCCACCACAG CGTGGAGATC
    CGGGAGAGGT TGGGGATCAG CCTCGGGGAG AGGCTCCCCA CCCTGGTGCC TGTCACGCAT
    GCCATGATGT GCATGAACTG CGGCTGTGAC TTCTCGCTCA CCGTGAGGCG CCACCACTGC
    CATGCCTGTG GCAAGATTGT GTGCCGGAAC TGCTCTCGAA ACAAGTACCC ACTGAAGTGC
    CTCAAGAACA GGATGGCCAA GGTCTGCGAT GGCTGCTTCC GGGAGCTGAA GCTGAGGAAC
    GGGCCCGTCC CCGGCCCCAT AAGAGAGCGT CCGGTCAGCA TGAGTTTTCC ACTGTCCTCA
    TCCCGCTTCT CCTCGGGCAG CACCTTCTCC TCTGTCTTCC AGAGTATTAG CCCTTCAACT
    TTCAAGAAGC AGAAAAAAGT CCCTTCGGCT TTGGCTGAGG TGGCTGCATC AGGAGAGGGC
    TCTGCCATCA GCGGCTATTT GAGCCGCTGT AAGAGTGGCA AGCGGCGCTG GAAGAAACTC
    TGGCTTGTCA TCAAGGGCAA AGTACTCTAC ACCTACCTGG CCAGTGAGGA CAAAGTGGCC
    ATGGAGAGCA TCCCTCTGCT GGGTTTTACT ATTGCCCCAG AAAAGGAGGA GGGCAGCAGT
    GAAGTGGGCC CTGTTTTTCA TCTTTATCAC AAGAAAACCC TGTTTTACAG CTTCAAAGCA
    GAGGACAGCA GTTCTGCTCA GAGGTGGATG GAGGCCATGG AAGATGCCAG TGTGTTATAG

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

    RefSeq XP_006236988.1
    CDS237..4796
    Translation

    Target ORF information:

    RefSeq Version XM_006236926.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus FYVE, RhoGEF and PH domain containing 5 (Fgd5), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006236926.3

    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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCACAGAG CAGATTCACC AAAACCACCA GTTGCTCCCA AGCCAAAGGT TACCACCAAT 
    CCTTCCACAC CACCAGCCAA GTTTCCCGCC TCACAGAGGC CTAACAGTTT CCCCAGTCCC
    AACTCCATGT CCAGGGGCCC CAAACCCCCC ATTGCTCCTA AGCCCAGGTT GGCTGGCCCC
    AGTGAGTATG GAGCTGGTGT GTACCTGAAC AACAGCCTCA GCAAATGCAG CAATGGGAGG
    CTGCTCTGCG AGGACCCGAG CTTGTACGAT GGACACCACT CCACCCTGAA CTGCTTGGAG
    TTGGAGACTG ATGAGCAGTA CATCATGGTG CCCAGGGCTC CACAGAGAGA CGATGCCCTC
    ACAGATAGAG CTACTGAGAA GCAGGGGTTT GAGGGGGAAG CCCAGGAGCA TGGTACGGAG
    CAGACGGGAA CTGAGAGGGA CCTGGCAGCT CCAGATGAAG AGGCACCGAG CAGAGACAGT
    GAGGAAGGCG TGGACCACGC TCTGGAAGAT GAAGAAGACT GTGATCATGA TCTAGAGACA
    GATGGGACCC CAACGGCCCC AGGTGAAGGA GCACCAAGCA GAGACGGTGA GAAAGGCGAG
    GAGGACTGTG GTCAGGACCC CGGTGTGGAG GAGCATCCCA TGAGCGAGGA GGAGGGAGAA
    GAGGAGGAGG CGAAGGAGTG CGTGCACAAC CGTGATGACA GGGCACCTTG GGATGGAGGG
    GAGCCCTTCC TCAATGAGGT CGTCCTCACA CATGTCTGCT CTCAGTCCCC TGAAGTTCCT
    TGTTGGGAGC CAGGCCTTCC TGAGACTCCT GGGGAGGTAG ATGAGGATAG CGAAGACATC
    TGTAACAACA CAGAACTCGG GAAACCCAAT CAGGATACTG GTCAGGACAC AGAGGATGCC
    AGCATGGGAT CCCCTGAGAG TGAGGTATCC CCAGATGTCC AGGAGCAAGA GGCAGCAACG
    GACAGCCCTG AGGTCTTTGA GGAGGACTCT GTAGATGCTG CAGAAGGTGA GGATCAGATA
    GCCCGGGACG AACCACCCAA TTGTGAAGAA GACACCAACA ACAGAGAAAC TGCAGCAGCC
    ACCATGCAGG CGGGAGAGGA TCATGGGGAG GATGGAGACC GTGTGCAAGA GGATCCTGCT
    GAGGAGAACT GCCAGATCAT TCCCTTTGAG AGTGACAGTG TGGAGGAGGA TTGCTCACCC
    ACACTCACAG AGAACCCCTA TGAGCTTTTC CCAACAGAGA GCACCTCCTT CTGTAATAAC
    AGCGGTTCCC TTGCTGAGTC GGACAAGGGG CAAGAGTCAG TGTGCAAGAT CTGTGTAGAG
    GAGGTTCCTG GTATTGGCCC CTCACTGAGC CAGGGTGATT CCTTGCAAGA TGGATCTGGA
    GAGGAGGCCC CGGTCCCTGA GGTGGTAGTC GTGCCAGAGA ATGAGGATCC CATGGATGAC
    GCGCTCAGCA GTCCCTACGT GATGGGAGTT GGCTTGCTAA GCCTTGGAGA GGGAGCACAG
    TCAGACACCC AGGCTGCATC AGGCACTCTG AGTGGGTACA GTACATGGGA GGAAGGGGAC
    TCTGACGGGG GACAGGTTCC AGTGGACAGG AAGAATATTG CCACAAGGGC CCGGCCTCAC
    TCTGGGAAGG TGGCTGGTCA CGTTCCAGAA ACTGTTCTAG AAGAAACAGG ACCAGAAGCC
    TGTTCATCAG CCATGGGCAT CAGAGATACT GGTGATGAGG TGAGAAAGAT AGGTATATTG
    CCGGAGGGAA AGCCTTCTGA ATCTCTCCGG GCCTTGCCAG CCAAGCCCAG AGCATTCACT
    CTCTACCCAA GATCCTTCTC TGTAGAAGGC CGGGAGAGTC CCCTGTCCAT GTTCCGGGAA
    CCAGAGGGAG CCGGGCTGGA CATGCACCGT GTGAGGAGGA AAGAGGACAA CCTCTCTCTG
    CCAGGTGCCA TTGGCTCCTC CGGTAGCTTC TCACAGCGTA GCCACCTGCC TTCCAGTGGC
    ACCTCCACAC CGTCCTCTGT GGTTGACATC CCGCCCCCTT TCGACTTGGC CTGCATCACG
    AAGAGACCCA TCACTAAAAG CTCGCCCTCA CTCCTGATAG ATGGAGACAC CTTGGAAAAA
    GCCTCCAAGA AGAAGAAGTC CTCCTTCAAA CGCTTCCTGG AGCTGACATT CAGGAAGAAG
    ACAGAGAGCA AGGTGCACGT GGACATGAGT CTGTCGTCTT CCAGGTCCTC CTCCGAGTCC
    AGCTACCATG GTCCAGCCAG GGTCCTGGAA CTTGACCGCA GAAGCCTCAG CAACTCACCC
    CAGCTCAAGT GCCACACAGG AAAGCTCCGG GCCTCTGACT CTCCGGCCTC CCTCATCTTC
    TACAGGGACA GCAAGAGGAA AGGCGTCCCC TTCAGCAGGA CAGTGTCCAG AGTGGAGTCC
    TTCGAAGACC GCTCCCGGCC GCCATTTCTG CCTCTGCCCC TCACCAAGCC ACGGTCCATC
    TCATTTCCCA ATGCTGACAC TTCAGACTAT GAGAACATTC CAGCCATGAA CTCAGATTAC
    GAGAACATCC AGATCCCACC TCGCAGGCCG GCGAGGACGG GCACTTTCAC AAAGCTCTTT
    GAAGAACAGA GTAGAGCCCT GTCCACCGCA AATGAAAACG ACGGCTACGT GGACATGAGC
    AGCTTCAATG CCTTCGAGAG CAAGCAGCAG AGTTCAGAGC AGGAAGCTGA GAGCGCCTAC
    ACTGAGCCCT ACAAGGTCTG TCCCATCTCA ACAACCCCCA AAGAAGACCT CACATCAGAC
    GAAGAACAGG GAAGCTCAGA GGAGGAGGAC AATGCTTCAA GAGACCCCAG CCTCTCACAC
    AAGGGTGAAG GACAGTCTAG AGCCTTTGTC ATCGCTCAGG AGCTGCTGTC TTCAGAGAAG
    GCATATGTGC AGATGCTGCA GCACTTAAGC CTGGATTTCC ATGGAGCCGT CCTGAGGGCC
    TTGGAGAACG TAGAGCAAGA GGGCAGAGAG CCACTGGCCC AGGAGGAGCT GCGGCAGGGC
    CTACGGGAGC TCCCAGCTAT CTGTGACCTT CACCAGGGCA TCCTGGAGAG CCTGGAGCAG
    AGGCTGGGGG ATTGTGGAGA GGGCCAGCAG CAGGTGGCCG ACATCTTCCT AGCCCGTGAG
    CAGGAGTTCG AACATCATGC TGCACACATC CTGCAATTTG ACAGGTACCT GGGGCTGCTC
    GCTGAGAGCT GCCTGCTCTC ACCCCGGCTG GCCACCACCG TCCGGGAATT TGAGCAGAGT
    TCACAAGGGG GTGGCCAGAG CATGAAACAT CGTATGCTGC GTGTAGTCCA GCGCCTCTTC
    CAGTACCAAG TGCTGCTCAC TGATTATTTA AACAACCTGT GCCCGGACTC AGCCGAGTAC
    GACAACACTC AGAGTGCTCT GAATCTCATC TCCAAAGTGA CAGACAGGGC TAATGAAAGC
    ATGGAACAGG GGGAAAACCT GCAGAAGCTG GTCCACATCG AGTACAGTGT GCGGGGCCAA
    GGGGACCTCC TCCAGCCAGG AAGGGAGTTC CTGAAGGAAG GAACACTGAT GAGGGTGAGA
    GGGAAAAGCC GACACCCCCG GCACCTGTTC CTGATGAATG ACACGCTCCT GTACACGCAC
    CCCCAGAAGG ATGGGAAGTA CCGTCTGAAG AGCTCGCTAC CAGTGGCCAA CATGAAGGTC
    AGTCGCCCTG TGATGGACAA AGTGCCCTAT GCTCTGAAGA TCGAAACTCC CGAGTCTTGC
    CTGACACTGT CTGCAAGCTC ATGTGCCGAA AGGGACGAGT GGCACTACTG TCTGAGCAGA
    GCCCTCCCGG AGGACTACAA GACTCAGGCG CTGGCTGCCT TCCACCACAG CGTGGAGATC
    CGGGAGAGGT TGGGGATCAG CCTCGGGGAG AGGCTCCCCA CCCTGGTGCC TGTCACGCAT
    GCCATGATGT GCATGAACTG CGGCTGTGAC TTCTCGCTCA CCGTGAGGCG CCACCACTGC
    CATGCCTGTG GCAAGATTGT GTGCCGGAAC TGCTCTCGAA ACAAGTACCC ACTGAAGTGC
    CTCAAGAACA GGATGGCCAA GGTCTGCGAT GGCTGCTTCC GGGAGCTGAA GCTGAGGAAC
    GGGCCCGTCC CCGGCCCCAT AAGAGAGCGT CCGGTCAGCA TGAGTTTTCC ACTGTCCTCA
    TCCCGCTTCT CCTCGGGCAG CACCTTCTCC TCTGTCTTCC AGAGTATTAG CCCTTCAACT
    TTCAAGAAGC AGAAAAAAGT CCCTTCGGCT TTGGCTGAGG TGGCTGCATC AGGAGAGGGC
    TCTGCCATCA GCGGCTATTT GAGCCGCTGT AAGAGTGGCA AGCGGCGCTG GAAGAAACTC
    TGGCTTGTCA TCAAGGGCAA AGTACTCTAC ACCTACCTGG CCAGTGAGGA CAAAGTGGCC
    ATGGAGAGCA TCCCTCTGCT GGGTTTTACT ATTGCCCCAG AAAAGGAGGA GGGCAGCAGT
    GAAGTGGGCC CTGTTTTTCA TCTTTATCAC AAGAAAACCC TGTTTTACAG CTTCAAAGCA
    GAGGACAGCA GTTCTGCTCA GAGGTGGATG GAGGCCATGG AAGATGCCAG TGTGTTATAG

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

    CloneID ORa16290
    Clone ID Related Accession (Same CDS sequence) XM_006236926.3 , XM_006224994.3
    Accession Version XM_006224994.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4560bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product FYVE, RhoGEF and PH domain-containing protein 5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000072.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006224994.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCACAGAG CAGATTCACC AAAACCACCA GTTGCTCCCA AGCCAAAGGT TACCACCAAT 
    CCTTCCACAC CACCAGCCAA GTTTCCCGCC TCACAGAGGC CTAACAGTTT CCCCAGTCCC
    AACTCCATGT CCAGGGGCCC CAAACCCCCC ATTGCTCCTA AGCCCAGGTT GGCTGGCCCC
    AGTGAGTATG GAGCTGGTGT GTACCTGAAC AACAGCCTCA GCAAATGCAG CAATGGGAGG
    CTGCTCTGCG AGGACCCGAG CTTGTACGAT GGACACCACT CCACCCTGAA CTGCTTGGAG
    TTGGAGACTG ATGAGCAGTA CATCATGGTG CCCAGGGCTC CACAGAGAGA CGATGCCCTC
    ACAGATAGAG CTACTGAGAA GCAGGGGTTT GAGGGGGAAG CCCAGGAGCA TGGTACGGAG
    CAGACGGGAA CTGAGAGGGA CCTGGCAGCT CCAGATGAAG AGGCACCGAG CAGAGACAGT
    GAGGAAGGCG TGGACCACGC TCTGGAAGAT GAAGAAGACT GTGATCATGA TCTAGAGACA
    GATGGGACCC CAACGGCCCC AGGTGAAGGA GCACCAAGCA GAGACGGTGA GAAAGGCGAG
    GAGGACTGTG GTCAGGACCC CGGTGTGGAG GAGCATCCCA TGAGCGAGGA GGAGGGAGAA
    GAGGAGGAGG CGAAGGAGTG CGTGCACAAC CGTGATGACA GGGCACCTTG GGATGGAGGG
    GAGCCCTTCC TCAATGAGGT CGTCCTCACA CATGTCTGCT CTCAGTCCCC TGAAGTTCCT
    TGTTGGGAGC CAGGCCTTCC TGAGACTCCT GGGGAGGTAG ATGAGGATAG CGAAGACATC
    TGTAACAACA CAGAACTCGG GAAACCCAAT CAGGATACTG GTCAGGACAC AGAGGATGCC
    AGCATGGGAT CCCCTGAGAG TGAGGTATCC CCAGATGTCC AGGAGCAAGA GGCAGCAACG
    GACAGCCCTG AGGTCTTTGA GGAGGACTCT GTAGATGCTG CAGAAGGTGA GGATCAGATA
    GCCCGGGACG AACCACCCAA TTGTGAAGAA GACACCAACA ACAGAGAAAC TGCAGCAGCC
    ACCATGCAGG CGGGAGAGGA TCATGGGGAG GATGGAGACC GTGTGCAAGA GGATCCTGCT
    GAGGAGAACT GCCAGATCAT TCCCTTTGAG AGTGACAGTG TGGAGGAGGA TTGCTCACCC
    ACACTCACAG AGAACCCCTA TGAGCTTTTC CCAACAGAGA GCACCTCCTT CTGTAATAAC
    AGCGGTTCCC TTGCTGAGTC GGACAAGGGG CAAGAGTCAG TGTGCAAGAT CTGTGTAGAG
    GAGGTTCCTG GTATTGGCCC CTCACTGAGC CAGGGTGATT CCTTGCAAGA TGGATCTGGA
    GAGGAGGCCC CGGTCCCTGA GGTGGTAGTC GTGCCAGAGA ATGAGGATCC CATGGATGAC
    GCGCTCAGCA GTCCCTACGT GATGGGAGTT GGCTTGCTAA GCCTTGGAGA GGGAGCACAG
    TCAGACACCC AGGCTGCATC AGGCACTCTG AGTGGGTACA GTACATGGGA GGAAGGGGAC
    TCTGACGGGG GACAGGTTCC AGTGGACAGG AAGAATATTG CCACAAGGGC CCGGCCTCAC
    TCTGGGAAGG TGGCTGGTCA CGTTCCAGAA ACTGTTCTAG AAGAAACAGG ACCAGAAGCC
    TGTTCATCAG CCATGGGCAT CAGAGATACT GGTGATGAGG TGAGAAAGAT AGGTATATTG
    CCGGAGGGAA AGCCTTCTGA ATCTCTCCGG GCCTTGCCAG CCAAGCCCAG AGCATTCACT
    CTCTACCCAA GATCCTTCTC TGTAGAAGGC CGGGAGAGTC CCCTGTCCAT GTTCCGGGAA
    CCAGAGGGAG CCGGGCTGGA CATGCACCGT GTGAGGAGGA AAGAGGACAA CCTCTCTCTG
    CCAGGTGCCA TTGGCTCCTC CGGTAGCTTC TCACAGCGTA GCCACCTGCC TTCCAGTGGC
    ACCTCCACAC CGTCCTCTGT GGTTGACATC CCGCCCCCTT TCGACTTGGC CTGCATCACG
    AAGAGACCCA TCACTAAAAG CTCGCCCTCA CTCCTGATAG ATGGAGACAC CTTGGAAAAA
    GCCTCCAAGA AGAAGAAGTC CTCCTTCAAA CGCTTCCTGG AGCTGACATT CAGGAAGAAG
    ACAGAGAGCA AGGTGCACGT GGACATGAGT CTGTCGTCTT CCAGGTCCTC CTCCGAGTCC
    AGCTACCATG GTCCAGCCAG GGTCCTGGAA CTTGACCGCA GAAGCCTCAG CAACTCACCC
    CAGCTCAAGT GCCACACAGG AAAGCTCCGG GCCTCTGACT CTCCGGCCTC CCTCATCTTC
    TACAGGGACA GCAAGAGGAA AGGCGTCCCC TTCAGCAGGA CAGTGTCCAG AGTGGAGTCC
    TTCGAAGACC GCTCCCGGCC GCCATTTCTG CCTCTGCCCC TCACCAAGCC ACGGTCCATC
    TCATTTCCCA ATGCTGACAC TTCAGACTAT GAGAACATTC CAGCCATGAA CTCAGATTAC
    GAGAACATCC AGATCCCACC TCGCAGGCCG GCGAGGACGG GCACTTTCAC AAAGCTCTTT
    GAAGAACAGA GTAGAGCCCT GTCCACCGCA AATGAAAACG ACGGCTACGT GGACATGAGC
    AGCTTCAATG CCTTCGAGAG CAAGCAGCAG AGTTCAGAGC AGGAAGCTGA GAGCGCCTAC
    ACTGAGCCCT ACAAGGTCTG TCCCATCTCA ACAACCCCCA AAGAAGACCT CACATCAGAC
    GAAGAACAGG GAAGCTCAGA GGAGGAGGAC AATGCTTCAA GAGACCCCAG CCTCTCACAC
    AAGGGTGAAG GACAGTCTAG AGCCTTTGTC ATCGCTCAGG AGCTGCTGTC TTCAGAGAAG
    GCATATGTGC AGATGCTGCA GCACTTAAGC CTGGATTTCC ATGGAGCCGT CCTGAGGGCC
    TTGGAGAACG TAGAGCAAGA GGGCAGAGAG CCACTGGCCC AGGAGGAGCT GCGGCAGGGC
    CTACGGGAGC TCCCAGCTAT CTGTGACCTT CACCAGGGCA TCCTGGAGAG CCTGGAGCAG
    AGGCTGGGGG ATTGTGGAGA GGGCCAGCAG CAGGTGGCCG ACATCTTCCT AGCCCGTGAG
    CAGGAGTTCG AACATCATGC TGCACACATC CTGCAATTTG ACAGGTACCT GGGGCTGCTC
    GCTGAGAGCT GCCTGCTCTC ACCCCGGCTG GCCACCACCG TCCGGGAATT TGAGCAGAGT
    TCACAAGGGG GTGGCCAGAG CATGAAACAT CGTATGCTGC GTGTAGTCCA GCGCCTCTTC
    CAGTACCAAG TGCTGCTCAC TGATTATTTA AACAACCTGT GCCCGGACTC AGCCGAGTAC
    GACAACACTC AGAGTGCTCT GAATCTCATC TCCAAAGTGA CAGACAGGGC TAATGAAAGC
    ATGGAACAGG GGGAAAACCT GCAGAAGCTG GTCCACATCG AGTACAGTGT GCGGGGCCAA
    GGGGACCTCC TCCAGCCAGG AAGGGAGTTC CTGAAGGAAG GAACACTGAT GAGGGTGAGA
    GGGAAAAGCC GACACCCCCG GCACCTGTTC CTGATGAATG ACACGCTCCT GTACACGCAC
    CCCCAGAAGG ATGGGAAGTA CCGTCTGAAG AGCTCGCTAC CAGTGGCCAA CATGAAGGTC
    AGTCGCCCTG TGATGGACAA AGTGCCCTAT GCTCTGAAGA TCGAAACTCC CGAGTCTTGC
    CTGACACTGT CTGCAAGCTC ATGTGCCGAA AGGGACGAGT GGCACTACTG TCTGAGCAGA
    GCCCTCCCGG AGGACTACAA GACTCAGGCG CTGGCTGCCT TCCACCACAG CGTGGAGATC
    CGGGAGAGGT TGGGGATCAG CCTCGGGGAG AGGCTCCCCA CCCTGGTGCC TGTCACGCAT
    GCCATGATGT GCATGAACTG CGGCTGTGAC TTCTCGCTCA CCGTGAGGCG CCACCACTGC
    CATGCCTGTG GCAAGATTGT GTGCCGGAAC TGCTCTCGAA ACAAGTACCC ACTGAAGTGC
    CTCAAGAACA GGATGGCCAA GGTCTGCGAT GGCTGCTTCC GGGAGCTGAA GCTGAGGAAC
    GGGCCCGTCC CCGGCCCCAT AAGAGAGCGT CCGGTCAGCA TGAGTTTTCC ACTGTCCTCA
    TCCCGCTTCT CCTCGGGCAG CACCTTCTCC TCTGTCTTCC AGAGTATTAG CCCTTCAACT
    TTCAAGAAGC AGAAAAAAGT CCCTTCGGCT TTGGCTGAGG TGGCTGCATC AGGAGAGGGC
    TCTGCCATCA GCGGCTATTT GAGCCGCTGT AAGAGTGGCA AGCGGCGCTG GAAGAAACTC
    TGGCTTGTCA TCAAGGGCAA AGTACTCTAC ACCTACCTGG CCAGTGAGGA CAAAGTGGCC
    ATGGAGAGCA TCCCTCTGCT GGGTTTTACT ATTGCCCCAG AAAAGGAGGA GGGCAGCAGT
    GAAGTGGGCC CTGTTTTTCA TCTTTATCAC AAGAAAACCC TGTTTTACAG CTTCAAAGCA
    GAGGACAGCA GTTCTGCTCA GAGGTGGATG GAGGCCATGG AAGATGCCAG TGTGTTATAG

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

    RefSeq XP_006225056.1
    CDS237..4796
    Translation

    Target ORF information:

    RefSeq Version XM_006224994.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus FYVE, RhoGEF and PH domain containing 5 (Fgd5), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006224994.3

    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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCACAGAG CAGATTCACC AAAACCACCA GTTGCTCCCA AGCCAAAGGT TACCACCAAT 
    CCTTCCACAC CACCAGCCAA GTTTCCCGCC TCACAGAGGC CTAACAGTTT CCCCAGTCCC
    AACTCCATGT CCAGGGGCCC CAAACCCCCC ATTGCTCCTA AGCCCAGGTT GGCTGGCCCC
    AGTGAGTATG GAGCTGGTGT GTACCTGAAC AACAGCCTCA GCAAATGCAG CAATGGGAGG
    CTGCTCTGCG AGGACCCGAG CTTGTACGAT GGACACCACT CCACCCTGAA CTGCTTGGAG
    TTGGAGACTG ATGAGCAGTA CATCATGGTG CCCAGGGCTC CACAGAGAGA CGATGCCCTC
    ACAGATAGAG CTACTGAGAA GCAGGGGTTT GAGGGGGAAG CCCAGGAGCA TGGTACGGAG
    CAGACGGGAA CTGAGAGGGA CCTGGCAGCT CCAGATGAAG AGGCACCGAG CAGAGACAGT
    GAGGAAGGCG TGGACCACGC TCTGGAAGAT GAAGAAGACT GTGATCATGA TCTAGAGACA
    GATGGGACCC CAACGGCCCC AGGTGAAGGA GCACCAAGCA GAGACGGTGA GAAAGGCGAG
    GAGGACTGTG GTCAGGACCC CGGTGTGGAG GAGCATCCCA TGAGCGAGGA GGAGGGAGAA
    GAGGAGGAGG CGAAGGAGTG CGTGCACAAC CGTGATGACA GGGCACCTTG GGATGGAGGG
    GAGCCCTTCC TCAATGAGGT CGTCCTCACA CATGTCTGCT CTCAGTCCCC TGAAGTTCCT
    TGTTGGGAGC CAGGCCTTCC TGAGACTCCT GGGGAGGTAG ATGAGGATAG CGAAGACATC
    TGTAACAACA CAGAACTCGG GAAACCCAAT CAGGATACTG GTCAGGACAC AGAGGATGCC
    AGCATGGGAT CCCCTGAGAG TGAGGTATCC CCAGATGTCC AGGAGCAAGA GGCAGCAACG
    GACAGCCCTG AGGTCTTTGA GGAGGACTCT GTAGATGCTG CAGAAGGTGA GGATCAGATA
    GCCCGGGACG AACCACCCAA TTGTGAAGAA GACACCAACA ACAGAGAAAC TGCAGCAGCC
    ACCATGCAGG CGGGAGAGGA TCATGGGGAG GATGGAGACC GTGTGCAAGA GGATCCTGCT
    GAGGAGAACT GCCAGATCAT TCCCTTTGAG AGTGACAGTG TGGAGGAGGA TTGCTCACCC
    ACACTCACAG AGAACCCCTA TGAGCTTTTC CCAACAGAGA GCACCTCCTT CTGTAATAAC
    AGCGGTTCCC TTGCTGAGTC GGACAAGGGG CAAGAGTCAG TGTGCAAGAT CTGTGTAGAG
    GAGGTTCCTG GTATTGGCCC CTCACTGAGC CAGGGTGATT CCTTGCAAGA TGGATCTGGA
    GAGGAGGCCC CGGTCCCTGA GGTGGTAGTC GTGCCAGAGA ATGAGGATCC CATGGATGAC
    GCGCTCAGCA GTCCCTACGT GATGGGAGTT GGCTTGCTAA GCCTTGGAGA GGGAGCACAG
    TCAGACACCC AGGCTGCATC AGGCACTCTG AGTGGGTACA GTACATGGGA GGAAGGGGAC
    TCTGACGGGG GACAGGTTCC AGTGGACAGG AAGAATATTG CCACAAGGGC CCGGCCTCAC
    TCTGGGAAGG TGGCTGGTCA CGTTCCAGAA ACTGTTCTAG AAGAAACAGG ACCAGAAGCC
    TGTTCATCAG CCATGGGCAT CAGAGATACT GGTGATGAGG TGAGAAAGAT AGGTATATTG
    CCGGAGGGAA AGCCTTCTGA ATCTCTCCGG GCCTTGCCAG CCAAGCCCAG AGCATTCACT
    CTCTACCCAA GATCCTTCTC TGTAGAAGGC CGGGAGAGTC CCCTGTCCAT GTTCCGGGAA
    CCAGAGGGAG CCGGGCTGGA CATGCACCGT GTGAGGAGGA AAGAGGACAA CCTCTCTCTG
    CCAGGTGCCA TTGGCTCCTC CGGTAGCTTC TCACAGCGTA GCCACCTGCC TTCCAGTGGC
    ACCTCCACAC CGTCCTCTGT GGTTGACATC CCGCCCCCTT TCGACTTGGC CTGCATCACG
    AAGAGACCCA TCACTAAAAG CTCGCCCTCA CTCCTGATAG ATGGAGACAC CTTGGAAAAA
    GCCTCCAAGA AGAAGAAGTC CTCCTTCAAA CGCTTCCTGG AGCTGACATT CAGGAAGAAG
    ACAGAGAGCA AGGTGCACGT GGACATGAGT CTGTCGTCTT CCAGGTCCTC CTCCGAGTCC
    AGCTACCATG GTCCAGCCAG GGTCCTGGAA CTTGACCGCA GAAGCCTCAG CAACTCACCC
    CAGCTCAAGT GCCACACAGG AAAGCTCCGG GCCTCTGACT CTCCGGCCTC CCTCATCTTC
    TACAGGGACA GCAAGAGGAA AGGCGTCCCC TTCAGCAGGA CAGTGTCCAG AGTGGAGTCC
    TTCGAAGACC GCTCCCGGCC GCCATTTCTG CCTCTGCCCC TCACCAAGCC ACGGTCCATC
    TCATTTCCCA ATGCTGACAC TTCAGACTAT GAGAACATTC CAGCCATGAA CTCAGATTAC
    GAGAACATCC AGATCCCACC TCGCAGGCCG GCGAGGACGG GCACTTTCAC AAAGCTCTTT
    GAAGAACAGA GTAGAGCCCT GTCCACCGCA AATGAAAACG ACGGCTACGT GGACATGAGC
    AGCTTCAATG CCTTCGAGAG CAAGCAGCAG AGTTCAGAGC AGGAAGCTGA GAGCGCCTAC
    ACTGAGCCCT ACAAGGTCTG TCCCATCTCA ACAACCCCCA AAGAAGACCT CACATCAGAC
    GAAGAACAGG GAAGCTCAGA GGAGGAGGAC AATGCTTCAA GAGACCCCAG CCTCTCACAC
    AAGGGTGAAG GACAGTCTAG AGCCTTTGTC ATCGCTCAGG AGCTGCTGTC TTCAGAGAAG
    GCATATGTGC AGATGCTGCA GCACTTAAGC CTGGATTTCC ATGGAGCCGT CCTGAGGGCC
    TTGGAGAACG TAGAGCAAGA GGGCAGAGAG CCACTGGCCC AGGAGGAGCT GCGGCAGGGC
    CTACGGGAGC TCCCAGCTAT CTGTGACCTT CACCAGGGCA TCCTGGAGAG CCTGGAGCAG
    AGGCTGGGGG ATTGTGGAGA GGGCCAGCAG CAGGTGGCCG ACATCTTCCT AGCCCGTGAG
    CAGGAGTTCG AACATCATGC TGCACACATC CTGCAATTTG ACAGGTACCT GGGGCTGCTC
    GCTGAGAGCT GCCTGCTCTC ACCCCGGCTG GCCACCACCG TCCGGGAATT TGAGCAGAGT
    TCACAAGGGG GTGGCCAGAG CATGAAACAT CGTATGCTGC GTGTAGTCCA GCGCCTCTTC
    CAGTACCAAG TGCTGCTCAC TGATTATTTA AACAACCTGT GCCCGGACTC AGCCGAGTAC
    GACAACACTC AGAGTGCTCT GAATCTCATC TCCAAAGTGA CAGACAGGGC TAATGAAAGC
    ATGGAACAGG GGGAAAACCT GCAGAAGCTG GTCCACATCG AGTACAGTGT GCGGGGCCAA
    GGGGACCTCC TCCAGCCAGG AAGGGAGTTC CTGAAGGAAG GAACACTGAT GAGGGTGAGA
    GGGAAAAGCC GACACCCCCG GCACCTGTTC CTGATGAATG ACACGCTCCT GTACACGCAC
    CCCCAGAAGG ATGGGAAGTA CCGTCTGAAG AGCTCGCTAC CAGTGGCCAA CATGAAGGTC
    AGTCGCCCTG TGATGGACAA AGTGCCCTAT GCTCTGAAGA TCGAAACTCC CGAGTCTTGC
    CTGACACTGT CTGCAAGCTC ATGTGCCGAA AGGGACGAGT GGCACTACTG TCTGAGCAGA
    GCCCTCCCGG AGGACTACAA GACTCAGGCG CTGGCTGCCT TCCACCACAG CGTGGAGATC
    CGGGAGAGGT TGGGGATCAG CCTCGGGGAG AGGCTCCCCA CCCTGGTGCC TGTCACGCAT
    GCCATGATGT GCATGAACTG CGGCTGTGAC TTCTCGCTCA CCGTGAGGCG CCACCACTGC
    CATGCCTGTG GCAAGATTGT GTGCCGGAAC TGCTCTCGAA ACAAGTACCC ACTGAAGTGC
    CTCAAGAACA GGATGGCCAA GGTCTGCGAT GGCTGCTTCC GGGAGCTGAA GCTGAGGAAC
    GGGCCCGTCC CCGGCCCCAT AAGAGAGCGT CCGGTCAGCA TGAGTTTTCC ACTGTCCTCA
    TCCCGCTTCT CCTCGGGCAG CACCTTCTCC TCTGTCTTCC AGAGTATTAG CCCTTCAACT
    TTCAAGAAGC AGAAAAAAGT CCCTTCGGCT TTGGCTGAGG TGGCTGCATC AGGAGAGGGC
    TCTGCCATCA GCGGCTATTT GAGCCGCTGT AAGAGTGGCA AGCGGCGCTG GAAGAAACTC
    TGGCTTGTCA TCAAGGGCAA AGTACTCTAC ACCTACCTGG CCAGTGAGGA CAAAGTGGCC
    ATGGAGAGCA TCCCTCTGCT GGGTTTTACT ATTGCCCCAG AAAAGGAGGA GGGCAGCAGT
    GAAGTGGGCC CTGTTTTTCA TCTTTATCAC AAGAAAACCC TGTTTTACAG CTTCAAAGCA
    GAGGACAGCA GTTCTGCTCA GAGGTGGATG GAGGCCATGG AAGATGCCAG TGTGTTATAG

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