ORF » Species Summary » Danio rerio » gapvd1 cDNA ORF clone

gapvd1 cDNA ORF clone, Danio rerio(zebrafish)

The following gapvd1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the gapvd1 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
ODa30537 NM_001002420.2
Latest version!		 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa14363 XM_005167157.4
Latest version!		 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa41043 XM_009304093.3
Latest version!		 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa41044 XM_009304094.3
Latest version!		 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa41045 XM_009304095.3
Latest version!		 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa41046 XM_009304096.3
Latest version!		 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
ODa41046 XM_009304096.2 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa41044 XM_009304094.2 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa14363 XM_005167157.3 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa41043 XM_009304093.2 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa41045 XM_009304095.2 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
Hide Old Accession Versions >>

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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)
    gapvd1 ( NM_001002420.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> NP_001002420.2 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), mRNA.
    Price & Availability↑
    CloneID ODa30537
    Clone ID Related Accession (Same CDS sequence) NM_001002420.2
    Accession Version NM_001002420.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4338bp)
    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 2019-01-26
    Organism Danio rerio(zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX005399.30 and BX511073.3. On Jan 20, 2011 this sequence version replaced NM_001002420.1. 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. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##Evidence-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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGCTCTC GCAGCCGAAG CCGATCCAAC ATGGCCCAGG AAGGAGAGAC TGAAGCCAGT 
    TCTCAAGAGT CTCTGCAAGA GGTCCCCGAG GAAGTGCTGG TCATCTCTCT AGGAACATCA 
    CCACAGACCA TTCCCGGGAT GATGTCAGAA AACGAGGTTC TGACTTTGCA TCTTGGAGAT 
    GGAGGACAAG GTGACGCCCC TGTCGACGAC ACCAAATTAC ATGGCAAGCC TGACAAAACA 
    CTGCGCTTCT CACTTTGCAG TGACAACCTG GAGGGCATTT CTGAGGGGCC GTCTAACCGC 
    TCAAATTCAG TTTCTTCTTT GGATTTGGAA GTGGAGTCCG TGTCAGAAGG AGGACCAGGA 
    CCGTCTGGTA GTAACGGTGC AGAAGCCTTA CAGCTACTGG AGCACGAACA AGCCACTACA 
    CAGGATAATT TGGACGATAA ACTGCGCAAG TTTGAGATTC GGGACATGAT GGGCCTGACG 
    GATGACCGAG ACATTTCTGA GACGGTCAGT GAGACTTGGA GCACTGATGT CTTGGGGAGT 
    GACTTTGACC CCAACATGGA TGAGGACCGA CTGCAGGAGA TAGGGGCTGC AGCGGAGAAT 
    GCTCTGGGCA GCATGCTGTG TTTGCCTGTG CTTTTGGATC CATATGGTTC AACCATCTCA 
    GAGACCACGA GCGAGGCTTG GAGTGTGGAG GTTCTGCCGA GTGACTCAGA AGCTGCAGAC 
    CTGAAGCAGG AGGAACGTTT GCAGGAGCTG GAGAGCTGCT CCGGTGTGGG AAGCACTTCA 
    GACGACACAG AGGTCCGAGA GGTCAGCTCA AGACCAAGTA CTCCAGGACT CAGCGTTGTT 
    TCAGGCATCA GTGCCACGTC GGAGGACATC CCTAATAAGA TTGAAGACCT ACGCTCGGAA 
    TGCAGCTCCG ATTTTGGAGG CAAAGACTCC GTGACCAGTC CAGATGGAGA GGACTCTGCT 
    CATGGAGCTC ACAGTCTCTC CTGTGCACCT TCTCAAACAG ATTCACTGCT GGCCATGTTC 
    GATCCCCTCT CCTCTGGAGA AGGTTCGTGC ACTGGCACCA TAGTGCGACC CAAGGTACAC 
    TATCCTCGTC CTCCTCACCC TCCGCCTGAC CCACCCATTC CAGAGGCCAG CATAACCAGC 
    CACATGGAAC CCCGTCCGCC CCTCTTTCCT CCCCACCTGG CACAGGGTGA CCTGGAGCAC 
    CCCAAGCAGA GGCACTCTTA CCCTGAGAGG CTGGTGAGGA GCCGCAGCAC AGATGTGGTG 
    TCCGCTGGAC GCAGACCTAA CAGTGACCCC GGACTGAACC GCAGAACCAT GATGGAGGAG 
    AGAGACCCGG CTGGAGCTTA CTCTACTGGG CCCACCTCCT CTCCCAGCAA GGATTCCCTC 
    AAAGGAGAGT CTGAGGACAG GAAGGACAGT GATGATGAGA AGTCTGATAG GAACAGACCC 
    TGGTGGAAGA AGCGCTTTGT TCCTGCCATT CCTAAAGTGC CGATTGCCGG GCTTCGGAAG 
    CGGGACAAGG CAGAAAAAGA CGAGCAAGGA GCAGAGAGGG TCCCACAAGA TGAGCCTTCA 
    CTGCTCAGAC AGAGCTCCAA AACCCAGTCA GCAGAGGCAA TTATGGACAA GTACATCAGG 
    TACATGGAGA AACGACCCGC ACAGGCTGAC GGAGCAACTG CTGGAGGTTA TGTTGGACAA 
    GAGTCTTGTC GAGAAGGGGA CAGTGAGCAC GACTCTCCTA AAGATGAAGC TCTGCAGAAC 
    ATCTCTGCTG ATGATCTTCC GGATTCTGCC AGTCAGACGG CACCACCTCA GGACAAGACT 
    TTCTCCTTCA GTGATATTAA GAAGAAGCTA CGCCTGGCAC TTTGCTCTGC AGATTCAGTT 
    GTGTTTCCCA TCATTCCACC TGCAACAACA CGCAACGGTC TTCCAGATCA TGCAGATCCT 
    GAAGACAACG AGATTGTGTG CTTTCTGAAG GTGCAGCTGG CGGAGGCCAT TAACCTGCAG 
    GATAAGAACC AGATGGCACA GATCCAGGAG ACCACGCGCT GCGTCAGCCA CCTCGACCCG 
    CGCACCTGCA GAAAACTGCT CACTGCCATG GCAGAGGACT ACAGGAAGCG GGCTCCATAC 
    ATCGCCTATC TGACACGTTG TCGGCAGGGC CTGCAGACAT CTCAGGCTCA TCTGGAGAGA 
    CTCCTGCAGA GAGTGTTGAG AGATAAAGAA GTGGCCAACC GCTACTTTAC CACTGTCTGT 
    GTCCGACTAC TGCTGGAGCA CATGGAGTCC AAGATGCTTG ACTTCATTAA AGCATTTCAG 
    GGATGCACAG CAGCTGATGA TAAGACAGCA GCCGTGGAGG ATTTCCTGCG TTACCTGTAT 
    GGAGCCATGG CCCATGATGC CATCTGGCAG TACGCCAGTG AAGAGCAGCT CCAGGACGCA 
    CAGATGGCCA TCGAACGCAG CGTCATGAAC CGCATCTTCA AACTGGCATT CTACCCCAAT 
    CAGGATGGGG ACATCCACAG AGACGAGCTA TTCCATGAGC ACATTCAGCG ACTGTCTAGA 
    GTGGTGTCGG CCAATCATAA AGCTCTGCAG ATCCCTGAGG TGTATCTGAA AGAGGCTCCG 
    TGGCCTTCTG CACAGGCTGA GATCAAGACC ATCAACGCCT ATAAGACCCC GCGAGATAAA 
    GTGCAGTGTA TCTTGCGCAT GTGCTCCACC ATTATGAACC TGCTCAGCCT GGCCAATGAG 
    GATGCTGTAC CCGGCGCGGA TGACTTCGTC CCTGTGCTCG TCTTTGTTCT GATTAAAGCA 
    AACCCACCCT GCCTTCTGTC CACCATTCAG TACATCAATA ATTTCTACGC CAGCAGGCTG 
    AGCGGGGAGG AGTGCTATTG GTGGATGCAG TTCACTGCTG CCGTGGAATT CATTAAAACC 
    ATCGACGATC GCAAGTGA

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

    RefSeq NP_001002420.2
    CDS145..4482
    Translation

    Target ORF information:

    RefSeq Version NM_001002420.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001002420.2

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGCTCTC GCAGCCGAAG CCGATCCAAC ATGGCCCAGG AAGGAGAGAC TGAAGCCAGT 
    TCTCAAGAGT CTCTGCAAGA GGTCCCCGAG GAAGTGCTGG TCATCTCTCT AGGAACATCA 
    CCACAGACCA TTCCCGGGAT GATGTCAGAA AACGAGGTTC TGACTTTGCA TCTTGGAGAT 
    GGAGGACAAG GTGACGCCCC TGTCGACGAC ACCAAATTAC ATGGCAAGCC TGACAAAACA 
    CTGCGCTTCT CACTTTGCAG TGACAACCTG GAGGGCATTT CTGAGGGGCC GTCTAACCGC 
    TCAAATTCAG TTTCTTCTTT GGATTTGGAA GTGGAGTCCG TGTCAGAAGG AGGACCAGGA 
    CCGTCTGGTA GTAACGGTGC AGAAGCCTTA CAGCTACTGG AGCACGAACA AGCCACTACA 
    CAGGATAATT TGGACGATAA ACTGCGCAAG TTTGAGATTC GGGACATGAT GGGCCTGACG 
    GATGACCGAG ACATTTCTGA GACGGTCAGT GAGACTTGGA GCACTGATGT CTTGGGGAGT 
    GACTTTGACC CCAACATGGA TGAGGACCGA CTGCAGGAGA TAGGGGCTGC AGCGGAGAAT 
    GCTCTGGGCA GCATGCTGTG TTTGCCTGTG CTTTTGGATC CATATGGTTC AACCATCTCA 
    GAGACCACGA GCGAGGCTTG GAGTGTGGAG GTTCTGCCGA GTGACTCAGA AGCTGCAGAC 
    CTGAAGCAGG AGGAACGTTT GCAGGAGCTG GAGAGCTGCT CCGGTGTGGG AAGCACTTCA 
    GACGACACAG AGGTCCGAGA GGTCAGCTCA AGACCAAGTA CTCCAGGACT CAGCGTTGTT 
    TCAGGCATCA GTGCCACGTC GGAGGACATC CCTAATAAGA TTGAAGACCT ACGCTCGGAA 
    TGCAGCTCCG ATTTTGGAGG CAAAGACTCC GTGACCAGTC CAGATGGAGA GGACTCTGCT 
    CATGGAGCTC ACAGTCTCTC CTGTGCACCT TCTCAAACAG ATTCACTGCT GGCCATGTTC 
    GATCCCCTCT CCTCTGGAGA AGGTTCGTGC ACTGGCACCA TAGTGCGACC CAAGGTACAC 
    TATCCTCGTC CTCCTCACCC TCCGCCTGAC CCACCCATTC CAGAGGCCAG CATAACCAGC 
    CACATGGAAC CCCGTCCGCC CCTCTTTCCT CCCCACCTGG CACAGGGTGA CCTGGAGCAC 
    CCCAAGCAGA GGCACTCTTA CCCTGAGAGG CTGGTGAGGA GCCGCAGCAC AGATGTGGTG 
    TCCGCTGGAC GCAGACCTAA CAGTGACCCC GGACTGAACC GCAGAACCAT GATGGAGGAG 
    AGAGACCCGG CTGGAGCTTA CTCTACTGGG CCCACCTCCT CTCCCAGCAA GGATTCCCTC 
    AAAGGAGAGT CTGAGGACAG GAAGGACAGT GATGATGAGA AGTCTGATAG GAACAGACCC 
    TGGTGGAAGA AGCGCTTTGT TCCTGCCATT CCTAAAGTGC CGATTGCCGG GCTTCGGAAG 
    CGGGACAAGG CAGAAAAAGA CGAGCAAGGA GCAGAGAGGG TCCCACAAGA TGAGCCTTCA 
    CTGCTCAGAC AGAGCTCCAA AACCCAGTCA GCAGAGGCAA TTATGGACAA GTACATCAGG 
    TACATGGAGA AACGACCCGC ACAGGCTGAC GGAGCAACTG CTGGAGGTTA TGTTGGACAA 
    GAGTCTTGTC GAGAAGGGGA CAGTGAGCAC GACTCTCCTA AAGATGAAGC TCTGCAGAAC 
    ATCTCTGCTG ATGATCTTCC GGATTCTGCC AGTCAGACGG CACCACCTCA GGACAAGACT 
    TTCTCCTTCA GTGATATTAA GAAGAAGCTA CGCCTGGCAC TTTGCTCTGC AGATTCAGTT 
    GTGTTTCCCA TCATTCCACC TGCAACAACA CGCAACGGTC TTCCAGATCA TGCAGATCCT 
    GAAGACAACG AGATTGTGTG CTTTCTGAAG GTGCAGCTGG CGGAGGCCAT TAACCTGCAG 
    GATAAGAACC AGATGGCACA GATCCAGGAG ACCACGCGCT GCGTCAGCCA CCTCGACCCG 
    CGCACCTGCA GAAAACTGCT CACTGCCATG GCAGAGGACT ACAGGAAGCG GGCTCCATAC 
    ATCGCCTATC TGACACGTTG TCGGCAGGGC CTGCAGACAT CTCAGGCTCA TCTGGAGAGA 
    CTCCTGCAGA GAGTGTTGAG AGATAAAGAA GTGGCCAACC GCTACTTTAC CACTGTCTGT 
    GTCCGACTAC TGCTGGAGCA CATGGAGTCC AAGATGCTTG ACTTCATTAA AGCATTTCAG 
    GGATGCACAG CAGCTGATGA TAAGACAGCA GCCGTGGAGG ATTTCCTGCG TTACCTGTAT 
    GGAGCCATGG CCCATGATGC CATCTGGCAG TACGCCAGTG AAGAGCAGCT CCAGGACGCA 
    CAGATGGCCA TCGAACGCAG CGTCATGAAC CGCATCTTCA AACTGGCATT CTACCCCAAT 
    CAGGATGGGG ACATCCACAG AGACGAGCTA TTCCATGAGC ACATTCAGCG ACTGTCTAGA 
    GTGGTGTCGG CCAATCATAA AGCTCTGCAG ATCCCTGAGG TGTATCTGAA AGAGGCTCCG 
    TGGCCTTCTG CACAGGCTGA GATCAAGACC ATCAACGCCT ATAAGACCCC GCGAGATAAA 
    GTGCAGTGTA TCTTGCGCAT GTGCTCCACC ATTATGAACC TGCTCAGCCT GGCCAATGAG 
    GATGCTGTAC CCGGCGCGGA TGACTTCGTC CCTGTGCTCG TCTTTGTTCT GATTAAAGCA 
    AACCCACCCT GCCTTCTGTC CACCATTCAG TACATCAATA ATTTCTACGC CAGCAGGCTG 
    AGCGGGGAGG AGTGCTATTG GTGGATGCAG TTCACTGCTG CCGTGGAATT CATTAAAACC 
    ATCGACGATC GCAAGTGA

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

    gapvd1 ( XM_005167157.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005167214.1 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa14363
    Clone ID Related Accession (Same CDS sequence) XM_005167157.3 , XM_005167157.4
    Accession Version XM_005167157.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4422bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005167157.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGCAGGC TCTCGCAGCC GAAGCCGATC CAACATGGCC 
    CAGGAAGGAG AGACTGAAGC CAGTTCTCAA GAGTCTCTGC AAGAGGTCCC CGAGGAAGTG 
    CTGGTCATCT CTCTAGGAAC ATCACCACAG ACCATTCCCG GGATGATGTC AGAAAACGAG 
    GTTCTGACTT TGCATCTTGG AGATGGAGGA CAAGGTGACG CCCCTGTCGA CGACACCAAA 
    TTACATGGCA AGCCTGACAA AACACTGCGC TTCTCACTTT GCAGTGACAA CCTGGAGGGC 
    ATTTCTGAGG GGCCGTCTAA CCGCTCAAAT TCAGTTTCTT CTTTGGATTT GGAAGTGGAG 
    TCCGTGTCAG AAGGAGGACC AGGACCGTCT GGTAGTAACG GTGCAGAAGC CTTACAGCTA 
    CTGGAGCACG AACAAGCCAC TACACAGGAT AATTTGGACG ATAAACTGCG CAAGTTTGAG 
    ATTCGGGACA TGATGGGCCT GACGGATGAC CGAGACATTT CTGAGACGGT CAGTGAGACT 
    TGGAGCACTG ATGTCTTGGG GAGTGACTTT GACCCCAACA TGGATGAGGA CCGACTGCAG 
    GAGATAGGGG CTGCAGCGGA GAATGCTCTG GGCAGCATGC TGTGTTTGCC TGTGCTTTTG 
    GATCCATATG GTTCAACCAT CTCAGAGACC ACGAGCGAGG CTTGGAGTGT GGAGGTTCTG 
    CCGAGTGACT CAGAAGCTGC AGACCTGAAG CAGGAGGAAC GTTTGCAGGA GCTGGAGAGC 
    TGCTCCGGTG TGGGAAGCAC TTCAGACGAC ACAGAGGTCC GAGAGGTCAG CTCAAGACCA 
    AGTACTCCAG GACTCAGCGT TGTTTCAGGC ATCAGTGCCA CGTCGGAGGA CATCCCTAAT 
    AAGATTGAAG ACCTACGCTC GGAATGCAGC TCCGATTTTG GAGGCAAAGA CTCCGTGACC 
    AGTCCAGATG GAGAGGACTC TGCTCATGGA GCTCACAGTC TCTCCTGTGC ACCTTCTCAA 
    ACAGATTCAC TGCTGGCCAT GTTCGATCCC CTCTCCTCTG GAGAAGGTTC GTGCACTGGC 
    ACCATAGTGC GACCCAAGGT ACACTATCCT CGTCCTCCTC ACCCTCCGCC TGACCCACCC 
    ATTCCAGAGG CCAGCATAAC CAGCCACATG GAACCCCGTC CGCCCCTCTT TCCTCCCCAC 
    CTGGCACAGG GTGACCTGGA GCACCCCAAG CAGAGGCACT CTTACCCTGA GAGGCTGGTG 
    AGGAGCCGCA GCACAGATGT GGTGTCCGCT GGACGCAGAC CTAACAGTGA CCCCGGACTG 
    AACCGCAGAA CCATGATGGA GGAGAGAGAC CCGGCTGGAG CTTACTCTAC TGGGCCCACC 
    TCCTCTCCCA GCAAGGATTC CCTCAAAGGA GAGTCTGAGG ACAGGAAGGA CAGTGATGAT 
    GAGAAGTCTG ATAGGAACAG ACCCTGGTGG AAGAAGCGCT TTGTTCCTGC CATTCCTAAA 
    GTGCCGATTG CCGGGCTTCG GAAGCGGGAC AAGGCAGAAA AAGACGAGCA AGGAGCAGAG 
    AGGGTCCCAC AAGATGAGCC TTCACTGCTC AGACAGAGCT CCAAAACCCA GTCAGCAGAG 
    GCAATTATGG ACAAGTACAT CAGGTACATG GAGAAACGAC CCGCACAGGC TGACGGAGCA 
    ACTGCTGGAG GTTATGTTGG ACAAGAGTCT TGTCGAGAAG GGGACAGTGA GCACGACTCT 
    CCTAAAGATG AAGCTCTGCA GAACATCTCT GCTGATGATC TTCCGGATTC TGCCAGTCAG 
    ACGGCACCAC CTCAGGACAA GACTTTCTCC TTCAGTGATA TTAAGAAGAA GCTACGCCTG 
    GCACTTTGCT CTGCAGATTC AGTTGTGTTT CCCATCATTC CACCTGCAAC AACACGCAAC 
    GGTCTTCCAG ATCATGCAGA TCCTGAAGAC AACGAGATTG TGTGCTTTCT GAAGGTGCAG 
    CTGGCGGAGG CCATTAACCT GCAGGATAAG AACCAGATGG CACAGATCCA GGAGACCACG 
    CGCTGCGTCA GCCACCTCGA CCCGCGCACC TGCAGAAAAC TGCTCACTGC CATGGCAGAG 
    GACTACAGGA AGCGGGCTCC ATACATCGCC TATCTGACAC GTTGTCGGCA GGGCCTGCAG 
    ACATCTCAGG CTCATCTGGA GAGACTCCTG CAGAGAGTGT TGAGAGATAA AGAAGTGGCC 
    AACCGCTACT TTACCACTGT CTGTGTCCGA CTACTGCTGG AGCACATGGA GTCCAAGATG 
    CTTGACTTCA TTAAAGCATT TCAGGGATGC ACAGCAGCTG ATGATAAGAC AGCAGCCGTG 
    GAGGATTTCC TGCGTTACCT GTATGGAGCC ATGGCCCATG ATGCCATCTG GCAGTACGCC 
    AGTGAAGAGC AGCTCCAGGA CGCACAGATG GCCATCGAAC GCAGCGTCAT GAACCGCATC 
    TTCAAACTGG CATTCTACCC CAATCAGGAT GGGGACATCC ACAGAGACGA GCTATTCCAT 
    GAGCACATTC AGCGACTGTC TAGAGTGGTG TCGGCCAATC ATAAAGCTCT GCAGATCCCT 
    GAGGTGTATC TGAAAGAGGC TCCGTGGCCT TCTGCACAGG CTGAGATCAA GACCATCAAC 
    GCCTATAAGA CCCCGCGAGA TAAAGTGCAG TGTATCTTGC GCATGTGCTC CACCATTATG 
    AACCTGCTCA GCCTGGCCAA TGAGGATGCT GTACCCGGCG CGGATGACTT CGTCCCTGTG 
    CTCGTCTTTG TTCTGATTAA AGCAAACCCA CCCTGCCTTC TGTCCACCAT TCAGTACATC 
    AATAATTTCT ACGCCAGCAG GCTGAGCGGG GAGGAGTGCT ATTGGTGGAT GCAGTTCACT 
    GCTGCCGTGG AATTCATTAA AACCATCGAC GATCGCAAGT GA

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

    RefSeq XP_005167214.1
    CDS200..4621
    Translation

    Target ORF information:

    RefSeq Version XM_005167157.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005167157.3

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGCAGGC TCTCGCAGCC GAAGCCGATC CAACATGGCC 
    CAGGAAGGAG AGACTGAAGC CAGTTCTCAA GAGTCTCTGC AAGAGGTCCC CGAGGAAGTG 
    CTGGTCATCT CTCTAGGAAC ATCACCACAG ACCATTCCCG GGATGATGTC AGAAAACGAG 
    GTTCTGACTT TGCATCTTGG AGATGGAGGA CAAGGTGACG CCCCTGTCGA CGACACCAAA 
    TTACATGGCA AGCCTGACAA AACACTGCGC TTCTCACTTT GCAGTGACAA CCTGGAGGGC 
    ATTTCTGAGG GGCCGTCTAA CCGCTCAAAT TCAGTTTCTT CTTTGGATTT GGAAGTGGAG 
    TCCGTGTCAG AAGGAGGACC AGGACCGTCT GGTAGTAACG GTGCAGAAGC CTTACAGCTA 
    CTGGAGCACG AACAAGCCAC TACACAGGAT AATTTGGACG ATAAACTGCG CAAGTTTGAG 
    ATTCGGGACA TGATGGGCCT GACGGATGAC CGAGACATTT CTGAGACGGT CAGTGAGACT 
    TGGAGCACTG ATGTCTTGGG GAGTGACTTT GACCCCAACA TGGATGAGGA CCGACTGCAG 
    GAGATAGGGG CTGCAGCGGA GAATGCTCTG GGCAGCATGC TGTGTTTGCC TGTGCTTTTG 
    GATCCATATG GTTCAACCAT CTCAGAGACC ACGAGCGAGG CTTGGAGTGT GGAGGTTCTG 
    CCGAGTGACT CAGAAGCTGC AGACCTGAAG CAGGAGGAAC GTTTGCAGGA GCTGGAGAGC 
    TGCTCCGGTG TGGGAAGCAC TTCAGACGAC ACAGAGGTCC GAGAGGTCAG CTCAAGACCA 
    AGTACTCCAG GACTCAGCGT TGTTTCAGGC ATCAGTGCCA CGTCGGAGGA CATCCCTAAT 
    AAGATTGAAG ACCTACGCTC GGAATGCAGC TCCGATTTTG GAGGCAAAGA CTCCGTGACC 
    AGTCCAGATG GAGAGGACTC TGCTCATGGA GCTCACAGTC TCTCCTGTGC ACCTTCTCAA 
    ACAGATTCAC TGCTGGCCAT GTTCGATCCC CTCTCCTCTG GAGAAGGTTC GTGCACTGGC 
    ACCATAGTGC GACCCAAGGT ACACTATCCT CGTCCTCCTC ACCCTCCGCC TGACCCACCC 
    ATTCCAGAGG CCAGCATAAC CAGCCACATG GAACCCCGTC CGCCCCTCTT TCCTCCCCAC 
    CTGGCACAGG GTGACCTGGA GCACCCCAAG CAGAGGCACT CTTACCCTGA GAGGCTGGTG 
    AGGAGCCGCA GCACAGATGT GGTGTCCGCT GGACGCAGAC CTAACAGTGA CCCCGGACTG 
    AACCGCAGAA CCATGATGGA GGAGAGAGAC CCGGCTGGAG CTTACTCTAC TGGGCCCACC 
    TCCTCTCCCA GCAAGGATTC CCTCAAAGGA GAGTCTGAGG ACAGGAAGGA CAGTGATGAT 
    GAGAAGTCTG ATAGGAACAG ACCCTGGTGG AAGAAGCGCT TTGTTCCTGC CATTCCTAAA 
    GTGCCGATTG CCGGGCTTCG GAAGCGGGAC AAGGCAGAAA AAGACGAGCA AGGAGCAGAG 
    AGGGTCCCAC AAGATGAGCC TTCACTGCTC AGACAGAGCT CCAAAACCCA GTCAGCAGAG 
    GCAATTATGG ACAAGTACAT CAGGTACATG GAGAAACGAC CCGCACAGGC TGACGGAGCA 
    ACTGCTGGAG GTTATGTTGG ACAAGAGTCT TGTCGAGAAG GGGACAGTGA GCACGACTCT 
    CCTAAAGATG AAGCTCTGCA GAACATCTCT GCTGATGATC TTCCGGATTC TGCCAGTCAG 
    ACGGCACCAC CTCAGGACAA GACTTTCTCC TTCAGTGATA TTAAGAAGAA GCTACGCCTG 
    GCACTTTGCT CTGCAGATTC AGTTGTGTTT CCCATCATTC CACCTGCAAC AACACGCAAC 
    GGTCTTCCAG ATCATGCAGA TCCTGAAGAC AACGAGATTG TGTGCTTTCT GAAGGTGCAG 
    CTGGCGGAGG CCATTAACCT GCAGGATAAG AACCAGATGG CACAGATCCA GGAGACCACG 
    CGCTGCGTCA GCCACCTCGA CCCGCGCACC TGCAGAAAAC TGCTCACTGC CATGGCAGAG 
    GACTACAGGA AGCGGGCTCC ATACATCGCC TATCTGACAC GTTGTCGGCA GGGCCTGCAG 
    ACATCTCAGG CTCATCTGGA GAGACTCCTG CAGAGAGTGT TGAGAGATAA AGAAGTGGCC 
    AACCGCTACT TTACCACTGT CTGTGTCCGA CTACTGCTGG AGCACATGGA GTCCAAGATG 
    CTTGACTTCA TTAAAGCATT TCAGGGATGC ACAGCAGCTG ATGATAAGAC AGCAGCCGTG 
    GAGGATTTCC TGCGTTACCT GTATGGAGCC ATGGCCCATG ATGCCATCTG GCAGTACGCC 
    AGTGAAGAGC AGCTCCAGGA CGCACAGATG GCCATCGAAC GCAGCGTCAT GAACCGCATC 
    TTCAAACTGG CATTCTACCC CAATCAGGAT GGGGACATCC ACAGAGACGA GCTATTCCAT 
    GAGCACATTC AGCGACTGTC TAGAGTGGTG TCGGCCAATC ATAAAGCTCT GCAGATCCCT 
    GAGGTGTATC TGAAAGAGGC TCCGTGGCCT TCTGCACAGG CTGAGATCAA GACCATCAAC 
    GCCTATAAGA CCCCGCGAGA TAAAGTGCAG TGTATCTTGC GCATGTGCTC CACCATTATG 
    AACCTGCTCA GCCTGGCCAA TGAGGATGCT GTACCCGGCG CGGATGACTT CGTCCCTGTG 
    CTCGTCTTTG TTCTGATTAA AGCAAACCCA CCCTGCCTTC TGTCCACCAT TCAGTACATC 
    AATAATTTCT ACGCCAGCAG GCTGAGCGGG GAGGAGTGCT ATTGGTGGAT GCAGTTCACT 
    GCTGCCGTGG AATTCATTAA AACCATCGAC GATCGCAAGT GA

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

    gapvd1 ( XM_005167157.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005167214.1 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa14363
    Clone ID Related Accession (Same CDS sequence) XM_005167157.3 , XM_005167157.4
    Accession Version XM_005167157.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4422bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005167157.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGCAGGC TCTCGCAGCC GAAGCCGATC CAACATGGCC 
    CAGGAAGGAG AGACTGAAGC CAGTTCTCAA GAGTCTCTGC AAGAGGTCCC CGAGGAAGTG 
    CTGGTCATCT CTCTAGGAAC ATCACCACAG ACCATTCCCG GGATGATGTC AGAAAACGAG 
    GTTCTGACTT TGCATCTTGG AGATGGAGGA CAAGGTGACG CCCCTGTCGA CGACACCAAA 
    TTACATGGCA AGCCTGACAA AACACTGCGC TTCTCACTTT GCAGTGACAA CCTGGAGGGC 
    ATTTCTGAGG GGCCGTCTAA CCGCTCAAAT TCAGTTTCTT CTTTGGATTT GGAAGTGGAG 
    TCCGTGTCAG AAGGAGGACC AGGACCGTCT GGTAGTAACG GTGCAGAAGC CTTACAGCTA 
    CTGGAGCACG AACAAGCCAC TACACAGGAT AATTTGGACG ATAAACTGCG CAAGTTTGAG 
    ATTCGGGACA TGATGGGCCT GACGGATGAC CGAGACATTT CTGAGACGGT CAGTGAGACT 
    TGGAGCACTG ATGTCTTGGG GAGTGACTTT GACCCCAACA TGGATGAGGA CCGACTGCAG 
    GAGATAGGGG CTGCAGCGGA GAATGCTCTG GGCAGCATGC TGTGTTTGCC TGTGCTTTTG 
    GATCCATATG GTTCAACCAT CTCAGAGACC ACGAGCGAGG CTTGGAGTGT GGAGGTTCTG 
    CCGAGTGACT CAGAAGCTGC AGACCTGAAG CAGGAGGAAC GTTTGCAGGA GCTGGAGAGC 
    TGCTCCGGTG TGGGAAGCAC TTCAGACGAC ACAGAGGTCC GAGAGGTCAG CTCAAGACCA 
    AGTACTCCAG GACTCAGCGT TGTTTCAGGC ATCAGTGCCA CGTCGGAGGA CATCCCTAAT 
    AAGATTGAAG ACCTACGCTC GGAATGCAGC TCCGATTTTG GAGGCAAAGA CTCCGTGACC 
    AGTCCAGATG GAGAGGACTC TGCTCATGGA GCTCACAGTC TCTCCTGTGC ACCTTCTCAA 
    ACAGATTCAC TGCTGGCCAT GTTCGATCCC CTCTCCTCTG GAGAAGGTTC GTGCACTGGC 
    ACCATAGTGC GACCCAAGGT ACACTATCCT CGTCCTCCTC ACCCTCCGCC TGACCCACCC 
    ATTCCAGAGG CCAGCATAAC CAGCCACATG GAACCCCGTC CGCCCCTCTT TCCTCCCCAC 
    CTGGCACAGG GTGACCTGGA GCACCCCAAG CAGAGGCACT CTTACCCTGA GAGGCTGGTG 
    AGGAGCCGCA GCACAGATGT GGTGTCCGCT GGACGCAGAC CTAACAGTGA CCCCGGACTG 
    AACCGCAGAA CCATGATGGA GGAGAGAGAC CCGGCTGGAG CTTACTCTAC TGGGCCCACC 
    TCCTCTCCCA GCAAGGATTC CCTCAAAGGA GAGTCTGAGG ACAGGAAGGA CAGTGATGAT 
    GAGAAGTCTG ATAGGAACAG ACCCTGGTGG AAGAAGCGCT TTGTTCCTGC CATTCCTAAA 
    GTGCCGATTG CCGGGCTTCG GAAGCGGGAC AAGGCAGAAA AAGACGAGCA AGGAGCAGAG 
    AGGGTCCCAC AAGATGAGCC TTCACTGCTC AGACAGAGCT CCAAAACCCA GTCAGCAGAG 
    GCAATTATGG ACAAGTACAT CAGGTACATG GAGAAACGAC CCGCACAGGC TGACGGAGCA 
    ACTGCTGGAG GTTATGTTGG ACAAGAGTCT TGTCGAGAAG GGGACAGTGA GCACGACTCT 
    CCTAAAGATG AAGCTCTGCA GAACATCTCT GCTGATGATC TTCCGGATTC TGCCAGTCAG 
    ACGGCACCAC CTCAGGACAA GACTTTCTCC TTCAGTGATA TTAAGAAGAA GCTACGCCTG 
    GCACTTTGCT CTGCAGATTC AGTTGTGTTT CCCATCATTC CACCTGCAAC AACACGCAAC 
    GGTCTTCCAG ATCATGCAGA TCCTGAAGAC AACGAGATTG TGTGCTTTCT GAAGGTGCAG 
    CTGGCGGAGG CCATTAACCT GCAGGATAAG AACCAGATGG CACAGATCCA GGAGACCACG 
    CGCTGCGTCA GCCACCTCGA CCCGCGCACC TGCAGAAAAC TGCTCACTGC CATGGCAGAG 
    GACTACAGGA AGCGGGCTCC ATACATCGCC TATCTGACAC GTTGTCGGCA GGGCCTGCAG 
    ACATCTCAGG CTCATCTGGA GAGACTCCTG CAGAGAGTGT TGAGAGATAA AGAAGTGGCC 
    AACCGCTACT TTACCACTGT CTGTGTCCGA CTACTGCTGG AGCACATGGA GTCCAAGATG 
    CTTGACTTCA TTAAAGCATT TCAGGGATGC ACAGCAGCTG ATGATAAGAC AGCAGCCGTG 
    GAGGATTTCC TGCGTTACCT GTATGGAGCC ATGGCCCATG ATGCCATCTG GCAGTACGCC 
    AGTGAAGAGC AGCTCCAGGA CGCACAGATG GCCATCGAAC GCAGCGTCAT GAACCGCATC 
    TTCAAACTGG CATTCTACCC CAATCAGGAT GGGGACATCC ACAGAGACGA GCTATTCCAT 
    GAGCACATTC AGCGACTGTC TAGAGTGGTG TCGGCCAATC ATAAAGCTCT GCAGATCCCT 
    GAGGTGTATC TGAAAGAGGC TCCGTGGCCT TCTGCACAGG CTGAGATCAA GACCATCAAC 
    GCCTATAAGA CCCCGCGAGA TAAAGTGCAG TGTATCTTGC GCATGTGCTC CACCATTATG 
    AACCTGCTCA GCCTGGCCAA TGAGGATGCT GTACCCGGCG CGGATGACTT CGTCCCTGTG 
    CTCGTCTTTG TTCTGATTAA AGCAAACCCA CCCTGCCTTC TGTCCACCAT TCAGTACATC 
    AATAATTTCT ACGCCAGCAG GCTGAGCGGG GAGGAGTGCT ATTGGTGGAT GCAGTTCACT 
    GCTGCCGTGG AATTCATTAA AACCATCGAC GATCGCAAGT GA

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

    RefSeq XP_005167214.1
    CDS202..4623
    Translation

    Target ORF information:

    RefSeq Version XM_005167157.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005167157.4

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGCAGGC TCTCGCAGCC GAAGCCGATC CAACATGGCC 
    CAGGAAGGAG AGACTGAAGC CAGTTCTCAA GAGTCTCTGC AAGAGGTCCC CGAGGAAGTG 
    CTGGTCATCT CTCTAGGAAC ATCACCACAG ACCATTCCCG GGATGATGTC AGAAAACGAG 
    GTTCTGACTT TGCATCTTGG AGATGGAGGA CAAGGTGACG CCCCTGTCGA CGACACCAAA 
    TTACATGGCA AGCCTGACAA AACACTGCGC TTCTCACTTT GCAGTGACAA CCTGGAGGGC 
    ATTTCTGAGG GGCCGTCTAA CCGCTCAAAT TCAGTTTCTT CTTTGGATTT GGAAGTGGAG 
    TCCGTGTCAG AAGGAGGACC AGGACCGTCT GGTAGTAACG GTGCAGAAGC CTTACAGCTA 
    CTGGAGCACG AACAAGCCAC TACACAGGAT AATTTGGACG ATAAACTGCG CAAGTTTGAG 
    ATTCGGGACA TGATGGGCCT GACGGATGAC CGAGACATTT CTGAGACGGT CAGTGAGACT 
    TGGAGCACTG ATGTCTTGGG GAGTGACTTT GACCCCAACA TGGATGAGGA CCGACTGCAG 
    GAGATAGGGG CTGCAGCGGA GAATGCTCTG GGCAGCATGC TGTGTTTGCC TGTGCTTTTG 
    GATCCATATG GTTCAACCAT CTCAGAGACC ACGAGCGAGG CTTGGAGTGT GGAGGTTCTG 
    CCGAGTGACT CAGAAGCTGC AGACCTGAAG CAGGAGGAAC GTTTGCAGGA GCTGGAGAGC 
    TGCTCCGGTG TGGGAAGCAC TTCAGACGAC ACAGAGGTCC GAGAGGTCAG CTCAAGACCA 
    AGTACTCCAG GACTCAGCGT TGTTTCAGGC ATCAGTGCCA CGTCGGAGGA CATCCCTAAT 
    AAGATTGAAG ACCTACGCTC GGAATGCAGC TCCGATTTTG GAGGCAAAGA CTCCGTGACC 
    AGTCCAGATG GAGAGGACTC TGCTCATGGA GCTCACAGTC TCTCCTGTGC ACCTTCTCAA 
    ACAGATTCAC TGCTGGCCAT GTTCGATCCC CTCTCCTCTG GAGAAGGTTC GTGCACTGGC 
    ACCATAGTGC GACCCAAGGT ACACTATCCT CGTCCTCCTC ACCCTCCGCC TGACCCACCC 
    ATTCCAGAGG CCAGCATAAC CAGCCACATG GAACCCCGTC CGCCCCTCTT TCCTCCCCAC 
    CTGGCACAGG GTGACCTGGA GCACCCCAAG CAGAGGCACT CTTACCCTGA GAGGCTGGTG 
    AGGAGCCGCA GCACAGATGT GGTGTCCGCT GGACGCAGAC CTAACAGTGA CCCCGGACTG 
    AACCGCAGAA CCATGATGGA GGAGAGAGAC CCGGCTGGAG CTTACTCTAC TGGGCCCACC 
    TCCTCTCCCA GCAAGGATTC CCTCAAAGGA GAGTCTGAGG ACAGGAAGGA CAGTGATGAT 
    GAGAAGTCTG ATAGGAACAG ACCCTGGTGG AAGAAGCGCT TTGTTCCTGC CATTCCTAAA 
    GTGCCGATTG CCGGGCTTCG GAAGCGGGAC AAGGCAGAAA AAGACGAGCA AGGAGCAGAG 
    AGGGTCCCAC AAGATGAGCC TTCACTGCTC AGACAGAGCT CCAAAACCCA GTCAGCAGAG 
    GCAATTATGG ACAAGTACAT CAGGTACATG GAGAAACGAC CCGCACAGGC TGACGGAGCA 
    ACTGCTGGAG GTTATGTTGG ACAAGAGTCT TGTCGAGAAG GGGACAGTGA GCACGACTCT 
    CCTAAAGATG AAGCTCTGCA GAACATCTCT GCTGATGATC TTCCGGATTC TGCCAGTCAG 
    ACGGCACCAC CTCAGGACAA GACTTTCTCC TTCAGTGATA TTAAGAAGAA GCTACGCCTG 
    GCACTTTGCT CTGCAGATTC AGTTGTGTTT CCCATCATTC CACCTGCAAC AACACGCAAC 
    GGTCTTCCAG ATCATGCAGA TCCTGAAGAC AACGAGATTG TGTGCTTTCT GAAGGTGCAG 
    CTGGCGGAGG CCATTAACCT GCAGGATAAG AACCAGATGG CACAGATCCA GGAGACCACG 
    CGCTGCGTCA GCCACCTCGA CCCGCGCACC TGCAGAAAAC TGCTCACTGC CATGGCAGAG 
    GACTACAGGA AGCGGGCTCC ATACATCGCC TATCTGACAC GTTGTCGGCA GGGCCTGCAG 
    ACATCTCAGG CTCATCTGGA GAGACTCCTG CAGAGAGTGT TGAGAGATAA AGAAGTGGCC 
    AACCGCTACT TTACCACTGT CTGTGTCCGA CTACTGCTGG AGCACATGGA GTCCAAGATG 
    CTTGACTTCA TTAAAGCATT TCAGGGATGC ACAGCAGCTG ATGATAAGAC AGCAGCCGTG 
    GAGGATTTCC TGCGTTACCT GTATGGAGCC ATGGCCCATG ATGCCATCTG GCAGTACGCC 
    AGTGAAGAGC AGCTCCAGGA CGCACAGATG GCCATCGAAC GCAGCGTCAT GAACCGCATC 
    TTCAAACTGG CATTCTACCC CAATCAGGAT GGGGACATCC ACAGAGACGA GCTATTCCAT 
    GAGCACATTC AGCGACTGTC TAGAGTGGTG TCGGCCAATC ATAAAGCTCT GCAGATCCCT 
    GAGGTGTATC TGAAAGAGGC TCCGTGGCCT TCTGCACAGG CTGAGATCAA GACCATCAAC 
    GCCTATAAGA CCCCGCGAGA TAAAGTGCAG TGTATCTTGC GCATGTGCTC CACCATTATG 
    AACCTGCTCA GCCTGGCCAA TGAGGATGCT GTACCCGGCG CGGATGACTT CGTCCCTGTG 
    CTCGTCTTTG TTCTGATTAA AGCAAACCCA CCCTGCCTTC TGTCCACCAT TCAGTACATC 
    AATAATTTCT ACGCCAGCAG GCTGAGCGGG GAGGAGTGCT ATTGGTGGAT GCAGTTCACT 
    GCTGCCGTGG AATTCATTAA AACCATCGAC GATCGCAAGT GA

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

    gapvd1 ( XM_009304093.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009302368.1 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa41043
    Clone ID Related Accession (Same CDS sequence) XM_009304093.3 , XM_009304093.2
    Accession Version XM_009304093.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4455bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009304093.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGCAGGC TCTCGCAGCC GAAGCCGATC CAACATGGCC 
    CAGGAAGGAG AGACTGAAGC CAGTTCTCAA GAGTCTCTGC AAGAGGTCCC CGAGGAAGTG 
    CTGGTCATCT CTCTAGGAAC ATCACCACAG ACCATTCCCG GGATGATGTC AGAAAACGAG 
    GTTCTGACTT TGCATCTTGG AGATGGAGGA CAAGGTGACG CCCCTGTCGA CGACACCAAA 
    TTACATGGCA AGCCTGACAA AACACTGCGC TTCTCACTTT GCAGTGACAA CCTGGAGGGC 
    ATTTCTGAGG GGCCGTCTAA CCGCTCAAAT TCAGTTTCTT CTTTGGATTT GGAAGTGGAG 
    TCCGTGTCAG AAGGAGGACC AGGACCGTCT GGTAGTAACG GTGCAGAAGC CTTACAGCTA 
    CTGGAGCACG AACAAGCCAC TACACAGGAT AATTTGGACG ATAAACTGCG CAAGTTTGAG 
    ATTCGGGACA TGATGGGCCT GACGGATGAC CGAGACATTT CTGAGACGGT CAGTGAGACT 
    TGGAGCACTG ATGTCTTGGG GAGTGACTTT GACCCCAACA TGGATGAGGA CCGACTGCAG 
    GAGATAGGGG CTGCAGCGGA GAATGCTCTG GGCAGCATGC TGTGTTTGCC TGTGCTTTTG 
    GATCCATATG GTTCAACCAT CTCAGAGACC ACGAGCGAGG CTTGGAGTGT GGAGGTTCTG 
    CCGAGTGACT CAGAAGCTGC AGACCTGAAG CAGGAGGAAC GTTTGCAGGA GCTGGAGAGC 
    TGCTCCGGTG TGGGAAGCAC TTCAGACGAC ACAGAGGTCC GAGAGGTCAG CTCAAGACCA 
    AGTACTCCAG GACTCAGCGT TGTTTCAGGC ATCAGTGCCA CGTCGGAGGA CATCCCTAAT 
    AAGATTGAAG ACCTACGCTC GGAATGCAGC TCCGATTTTG GAGGCAAAGA CTCCGTGACC 
    AGTCCAGATG GAGAGGACTC TGCTCATGGA GCTCACAGTC TCTCCTGTGC ACCTTCTCAA 
    ACAGATTCAC TGCTGGCCAT GTTCGATCCC CTCTCCTCTG GAGAAGGTTC GTGCACTGGC 
    ACCATAGTGC GACCCAAGGT ACACTATCCT CGTCCTCCTC ACCCTCCGCC TGACCCACCC 
    ATTCCAGAGG CCAGCATAAC CAGCCACATG GAACCCCGTC CGCCCCTCTT TCCTCCCCAC 
    CTGGCACAGG GTGACCTGGA GCACCCCAAG CAGAGGCACT CTTACCCTGA GAGGCTGGTG 
    AGGAGCCGCA GCACAGATGT GGTGTCCGCT GGACGCAGAC CTAACAGTGA CCCCGGACTG 
    AACCGCAGAA CCATGATGGA GGAGAGAGAC CCGGCTGGAG CTTACTCTAC TGGGCCCACC 
    TCCTCTCCCA GCAAGGATTC CCTCAAAGGA GAGTCTGAGG ACAGGAAGGA CAGTGATGAT 
    GAGAAGTCTG ATAGGAACAG ACCCTGGTGG AAGAAGCGCT TTGTTCCTGC CATTCCTAAA 
    GTGCTCTATT GGACGGCAGA GGGTGAACTC CCAGTGCCGA TTGCCGGGCT TCGGAAGCGG 
    GACAAGGCAG AAAAAGACGA GCAAGGAGCA GAGAGGGTCC CACAAGATGA GCCTTCACTG 
    CTCAGACAGA GCTCCAAAAC CCAGTCAGCA GAGGCAATTA TGGACAAGTA CATCAGGTAC 
    ATGGAGAAAC GACCCGCACA GGCTGACGGA GCAACTGCTG GAGGTTATGT TGGACAAGAG 
    TCTTGTCGAG AAGGGGACAG TGAGCACGAC TCTCCTAAAG ATGAAGCTCT GCAGAACATC 
    TCTGCTGATG ATCTTCCGGA TTCTGCCAGT CAGACGGCAC CACCTCAGGA CAAGACTTTC 
    TCCTTCAGTG ATATTAAGAA GAAGCTACGC CTGGCACTTT GCTCTGCAGA TTCAGTTGTG 
    TTTCCCATCA TTCCACCTGC AACAACACGC AACGGTCTTC CAGATCATGC AGATCCTGAA 
    GACAACGAGA TTGTGTGCTT TCTGAAGGTG CAGCTGGCGG AGGCCATTAA CCTGCAGGAT 
    AAGAACCAGA TGGCACAGAT CCAGGAGACC ACGCGCTGCG TCAGCCACCT CGACCCGCGC 
    ACCTGCAGAA AACTGCTCAC TGCCATGGCA GAGGACTACA GGAAGCGGGC TCCATACATC 
    GCCTATCTGA CACGTTGTCG GCAGGGCCTG CAGACATCTC AGGCTCATCT GGAGAGACTC 
    CTGCAGAGAG TGTTGAGAGA TAAAGAAGTG GCCAACCGCT ACTTTACCAC TGTCTGTGTC 
    CGACTACTGC TGGAGCACAT GGAGTCCAAG ATGCTTGACT TCATTAAAGC ATTTCAGGGA 
    TGCACAGCAG CTGATGATAA GACAGCAGCC GTGGAGGATT TCCTGCGTTA CCTGTATGGA 
    GCCATGGCCC ATGATGCCAT CTGGCAGTAC GCCAGTGAAG AGCAGCTCCA GGACGCACAG 
    ATGGCCATCG AACGCAGCGT CATGAACCGC ATCTTCAAAC TGGCATTCTA CCCCAATCAG 
    GATGGGGACA TCCACAGAGA CGAGCTATTC CATGAGCACA TTCAGCGACT GTCTAGAGTG 
    GTGTCGGCCA ATCATAAAGC TCTGCAGATC CCTGAGGTGT ATCTGAAAGA GGCTCCGTGG 
    CCTTCTGCAC AGGCTGAGAT CAAGACCATC AACGCCTATA AGACCCCGCG AGATAAAGTG 
    CAGTGTATCT TGCGCATGTG CTCCACCATT ATGAACCTGC TCAGCCTGGC CAATGAGGAT 
    GCTGTACCCG GCGCGGATGA CTTCGTCCCT GTGCTCGTCT TTGTTCTGAT TAAAGCAAAC 
    CCACCCTGCC TTCTGTCCAC CATTCAGTAC ATCAATAATT TCTACGCCAG CAGGCTGAGC 
    GGGGAGGAGT GCTATTGGTG GATGCAGTTC ACTGCTGCCG TGGAATTCAT TAAAACCATC 
    GACGATCGCA AGTGA

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

    RefSeq XP_009302368.1
    CDS202..4656
    Translation

    Target ORF information:

    RefSeq Version XM_009304093.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009304093.3

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGCAGGC TCTCGCAGCC GAAGCCGATC CAACATGGCC 
    CAGGAAGGAG AGACTGAAGC CAGTTCTCAA GAGTCTCTGC AAGAGGTCCC CGAGGAAGTG 
    CTGGTCATCT CTCTAGGAAC ATCACCACAG ACCATTCCCG GGATGATGTC AGAAAACGAG 
    GTTCTGACTT TGCATCTTGG AGATGGAGGA CAAGGTGACG CCCCTGTCGA CGACACCAAA 
    TTACATGGCA AGCCTGACAA AACACTGCGC TTCTCACTTT GCAGTGACAA CCTGGAGGGC 
    ATTTCTGAGG GGCCGTCTAA CCGCTCAAAT TCAGTTTCTT CTTTGGATTT GGAAGTGGAG 
    TCCGTGTCAG AAGGAGGACC AGGACCGTCT GGTAGTAACG GTGCAGAAGC CTTACAGCTA 
    CTGGAGCACG AACAAGCCAC TACACAGGAT AATTTGGACG ATAAACTGCG CAAGTTTGAG 
    ATTCGGGACA TGATGGGCCT GACGGATGAC CGAGACATTT CTGAGACGGT CAGTGAGACT 
    TGGAGCACTG ATGTCTTGGG GAGTGACTTT GACCCCAACA TGGATGAGGA CCGACTGCAG 
    GAGATAGGGG CTGCAGCGGA GAATGCTCTG GGCAGCATGC TGTGTTTGCC TGTGCTTTTG 
    GATCCATATG GTTCAACCAT CTCAGAGACC ACGAGCGAGG CTTGGAGTGT GGAGGTTCTG 
    CCGAGTGACT CAGAAGCTGC AGACCTGAAG CAGGAGGAAC GTTTGCAGGA GCTGGAGAGC 
    TGCTCCGGTG TGGGAAGCAC TTCAGACGAC ACAGAGGTCC GAGAGGTCAG CTCAAGACCA 
    AGTACTCCAG GACTCAGCGT TGTTTCAGGC ATCAGTGCCA CGTCGGAGGA CATCCCTAAT 
    AAGATTGAAG ACCTACGCTC GGAATGCAGC TCCGATTTTG GAGGCAAAGA CTCCGTGACC 
    AGTCCAGATG GAGAGGACTC TGCTCATGGA GCTCACAGTC TCTCCTGTGC ACCTTCTCAA 
    ACAGATTCAC TGCTGGCCAT GTTCGATCCC CTCTCCTCTG GAGAAGGTTC GTGCACTGGC 
    ACCATAGTGC GACCCAAGGT ACACTATCCT CGTCCTCCTC ACCCTCCGCC TGACCCACCC 
    ATTCCAGAGG CCAGCATAAC CAGCCACATG GAACCCCGTC CGCCCCTCTT TCCTCCCCAC 
    CTGGCACAGG GTGACCTGGA GCACCCCAAG CAGAGGCACT CTTACCCTGA GAGGCTGGTG 
    AGGAGCCGCA GCACAGATGT GGTGTCCGCT GGACGCAGAC CTAACAGTGA CCCCGGACTG 
    AACCGCAGAA CCATGATGGA GGAGAGAGAC CCGGCTGGAG CTTACTCTAC TGGGCCCACC 
    TCCTCTCCCA GCAAGGATTC CCTCAAAGGA GAGTCTGAGG ACAGGAAGGA CAGTGATGAT 
    GAGAAGTCTG ATAGGAACAG ACCCTGGTGG AAGAAGCGCT TTGTTCCTGC CATTCCTAAA 
    GTGCTCTATT GGACGGCAGA GGGTGAACTC CCAGTGCCGA TTGCCGGGCT TCGGAAGCGG 
    GACAAGGCAG AAAAAGACGA GCAAGGAGCA GAGAGGGTCC CACAAGATGA GCCTTCACTG 
    CTCAGACAGA GCTCCAAAAC CCAGTCAGCA GAGGCAATTA TGGACAAGTA CATCAGGTAC 
    ATGGAGAAAC GACCCGCACA GGCTGACGGA GCAACTGCTG GAGGTTATGT TGGACAAGAG 
    TCTTGTCGAG AAGGGGACAG TGAGCACGAC TCTCCTAAAG ATGAAGCTCT GCAGAACATC 
    TCTGCTGATG ATCTTCCGGA TTCTGCCAGT CAGACGGCAC CACCTCAGGA CAAGACTTTC 
    TCCTTCAGTG ATATTAAGAA GAAGCTACGC CTGGCACTTT GCTCTGCAGA TTCAGTTGTG 
    TTTCCCATCA TTCCACCTGC AACAACACGC AACGGTCTTC CAGATCATGC AGATCCTGAA 
    GACAACGAGA TTGTGTGCTT TCTGAAGGTG CAGCTGGCGG AGGCCATTAA CCTGCAGGAT 
    AAGAACCAGA TGGCACAGAT CCAGGAGACC ACGCGCTGCG TCAGCCACCT CGACCCGCGC 
    ACCTGCAGAA AACTGCTCAC TGCCATGGCA GAGGACTACA GGAAGCGGGC TCCATACATC 
    GCCTATCTGA CACGTTGTCG GCAGGGCCTG CAGACATCTC AGGCTCATCT GGAGAGACTC 
    CTGCAGAGAG TGTTGAGAGA TAAAGAAGTG GCCAACCGCT ACTTTACCAC TGTCTGTGTC 
    CGACTACTGC TGGAGCACAT GGAGTCCAAG ATGCTTGACT TCATTAAAGC ATTTCAGGGA 
    TGCACAGCAG CTGATGATAA GACAGCAGCC GTGGAGGATT TCCTGCGTTA CCTGTATGGA 
    GCCATGGCCC ATGATGCCAT CTGGCAGTAC GCCAGTGAAG AGCAGCTCCA GGACGCACAG 
    ATGGCCATCG AACGCAGCGT CATGAACCGC ATCTTCAAAC TGGCATTCTA CCCCAATCAG 
    GATGGGGACA TCCACAGAGA CGAGCTATTC CATGAGCACA TTCAGCGACT GTCTAGAGTG 
    GTGTCGGCCA ATCATAAAGC TCTGCAGATC CCTGAGGTGT ATCTGAAAGA GGCTCCGTGG 
    CCTTCTGCAC AGGCTGAGAT CAAGACCATC AACGCCTATA AGACCCCGCG AGATAAAGTG 
    CAGTGTATCT TGCGCATGTG CTCCACCATT ATGAACCTGC TCAGCCTGGC CAATGAGGAT 
    GCTGTACCCG GCGCGGATGA CTTCGTCCCT GTGCTCGTCT TTGTTCTGAT TAAAGCAAAC 
    CCACCCTGCC TTCTGTCCAC CATTCAGTAC ATCAATAATT TCTACGCCAG CAGGCTGAGC 
    GGGGAGGAGT GCTATTGGTG GATGCAGTTC ACTGCTGCCG TGGAATTCAT TAAAACCATC 
    GACGATCGCA AGTGA

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

    gapvd1 ( XM_009304093.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009302368.1 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa41043
    Clone ID Related Accession (Same CDS sequence) XM_009304093.3 , XM_009304093.2
    Accession Version XM_009304093.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4455bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009304093.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGCAGGC TCTCGCAGCC GAAGCCGATC CAACATGGCC 
    CAGGAAGGAG AGACTGAAGC CAGTTCTCAA GAGTCTCTGC AAGAGGTCCC CGAGGAAGTG 
    CTGGTCATCT CTCTAGGAAC ATCACCACAG ACCATTCCCG GGATGATGTC AGAAAACGAG 
    GTTCTGACTT TGCATCTTGG AGATGGAGGA CAAGGTGACG CCCCTGTCGA CGACACCAAA 
    TTACATGGCA AGCCTGACAA AACACTGCGC TTCTCACTTT GCAGTGACAA CCTGGAGGGC 
    ATTTCTGAGG GGCCGTCTAA CCGCTCAAAT TCAGTTTCTT CTTTGGATTT GGAAGTGGAG 
    TCCGTGTCAG AAGGAGGACC AGGACCGTCT GGTAGTAACG GTGCAGAAGC CTTACAGCTA 
    CTGGAGCACG AACAAGCCAC TACACAGGAT AATTTGGACG ATAAACTGCG CAAGTTTGAG 
    ATTCGGGACA TGATGGGCCT GACGGATGAC CGAGACATTT CTGAGACGGT CAGTGAGACT 
    TGGAGCACTG ATGTCTTGGG GAGTGACTTT GACCCCAACA TGGATGAGGA CCGACTGCAG 
    GAGATAGGGG CTGCAGCGGA GAATGCTCTG GGCAGCATGC TGTGTTTGCC TGTGCTTTTG 
    GATCCATATG GTTCAACCAT CTCAGAGACC ACGAGCGAGG CTTGGAGTGT GGAGGTTCTG 
    CCGAGTGACT CAGAAGCTGC AGACCTGAAG CAGGAGGAAC GTTTGCAGGA GCTGGAGAGC 
    TGCTCCGGTG TGGGAAGCAC TTCAGACGAC ACAGAGGTCC GAGAGGTCAG CTCAAGACCA 
    AGTACTCCAG GACTCAGCGT TGTTTCAGGC ATCAGTGCCA CGTCGGAGGA CATCCCTAAT 
    AAGATTGAAG ACCTACGCTC GGAATGCAGC TCCGATTTTG GAGGCAAAGA CTCCGTGACC 
    AGTCCAGATG GAGAGGACTC TGCTCATGGA GCTCACAGTC TCTCCTGTGC ACCTTCTCAA 
    ACAGATTCAC TGCTGGCCAT GTTCGATCCC CTCTCCTCTG GAGAAGGTTC GTGCACTGGC 
    ACCATAGTGC GACCCAAGGT ACACTATCCT CGTCCTCCTC ACCCTCCGCC TGACCCACCC 
    ATTCCAGAGG CCAGCATAAC CAGCCACATG GAACCCCGTC CGCCCCTCTT TCCTCCCCAC 
    CTGGCACAGG GTGACCTGGA GCACCCCAAG CAGAGGCACT CTTACCCTGA GAGGCTGGTG 
    AGGAGCCGCA GCACAGATGT GGTGTCCGCT GGACGCAGAC CTAACAGTGA CCCCGGACTG 
    AACCGCAGAA CCATGATGGA GGAGAGAGAC CCGGCTGGAG CTTACTCTAC TGGGCCCACC 
    TCCTCTCCCA GCAAGGATTC CCTCAAAGGA GAGTCTGAGG ACAGGAAGGA CAGTGATGAT 
    GAGAAGTCTG ATAGGAACAG ACCCTGGTGG AAGAAGCGCT TTGTTCCTGC CATTCCTAAA 
    GTGCTCTATT GGACGGCAGA GGGTGAACTC CCAGTGCCGA TTGCCGGGCT TCGGAAGCGG 
    GACAAGGCAG AAAAAGACGA GCAAGGAGCA GAGAGGGTCC CACAAGATGA GCCTTCACTG 
    CTCAGACAGA GCTCCAAAAC CCAGTCAGCA GAGGCAATTA TGGACAAGTA CATCAGGTAC 
    ATGGAGAAAC GACCCGCACA GGCTGACGGA GCAACTGCTG GAGGTTATGT TGGACAAGAG 
    TCTTGTCGAG AAGGGGACAG TGAGCACGAC TCTCCTAAAG ATGAAGCTCT GCAGAACATC 
    TCTGCTGATG ATCTTCCGGA TTCTGCCAGT CAGACGGCAC CACCTCAGGA CAAGACTTTC 
    TCCTTCAGTG ATATTAAGAA GAAGCTACGC CTGGCACTTT GCTCTGCAGA TTCAGTTGTG 
    TTTCCCATCA TTCCACCTGC AACAACACGC AACGGTCTTC CAGATCATGC AGATCCTGAA 
    GACAACGAGA TTGTGTGCTT TCTGAAGGTG CAGCTGGCGG AGGCCATTAA CCTGCAGGAT 
    AAGAACCAGA TGGCACAGAT CCAGGAGACC ACGCGCTGCG TCAGCCACCT CGACCCGCGC 
    ACCTGCAGAA AACTGCTCAC TGCCATGGCA GAGGACTACA GGAAGCGGGC TCCATACATC 
    GCCTATCTGA CACGTTGTCG GCAGGGCCTG CAGACATCTC AGGCTCATCT GGAGAGACTC 
    CTGCAGAGAG TGTTGAGAGA TAAAGAAGTG GCCAACCGCT ACTTTACCAC TGTCTGTGTC 
    CGACTACTGC TGGAGCACAT GGAGTCCAAG ATGCTTGACT TCATTAAAGC ATTTCAGGGA 
    TGCACAGCAG CTGATGATAA GACAGCAGCC GTGGAGGATT TCCTGCGTTA CCTGTATGGA 
    GCCATGGCCC ATGATGCCAT CTGGCAGTAC GCCAGTGAAG AGCAGCTCCA GGACGCACAG 
    ATGGCCATCG AACGCAGCGT CATGAACCGC ATCTTCAAAC TGGCATTCTA CCCCAATCAG 
    GATGGGGACA TCCACAGAGA CGAGCTATTC CATGAGCACA TTCAGCGACT GTCTAGAGTG 
    GTGTCGGCCA ATCATAAAGC TCTGCAGATC CCTGAGGTGT ATCTGAAAGA GGCTCCGTGG 
    CCTTCTGCAC AGGCTGAGAT CAAGACCATC AACGCCTATA AGACCCCGCG AGATAAAGTG 
    CAGTGTATCT TGCGCATGTG CTCCACCATT ATGAACCTGC TCAGCCTGGC CAATGAGGAT 
    GCTGTACCCG GCGCGGATGA CTTCGTCCCT GTGCTCGTCT TTGTTCTGAT TAAAGCAAAC 
    CCACCCTGCC TTCTGTCCAC CATTCAGTAC ATCAATAATT TCTACGCCAG CAGGCTGAGC 
    GGGGAGGAGT GCTATTGGTG GATGCAGTTC ACTGCTGCCG TGGAATTCAT TAAAACCATC 
    GACGATCGCA AGTGA

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

    RefSeq XP_009302368.1
    CDS200..4654
    Translation

    Target ORF information:

    RefSeq Version XM_009304093.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009304093.2

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGCAGGC TCTCGCAGCC GAAGCCGATC CAACATGGCC 
    CAGGAAGGAG AGACTGAAGC CAGTTCTCAA GAGTCTCTGC AAGAGGTCCC CGAGGAAGTG 
    CTGGTCATCT CTCTAGGAAC ATCACCACAG ACCATTCCCG GGATGATGTC AGAAAACGAG 
    GTTCTGACTT TGCATCTTGG AGATGGAGGA CAAGGTGACG CCCCTGTCGA CGACACCAAA 
    TTACATGGCA AGCCTGACAA AACACTGCGC TTCTCACTTT GCAGTGACAA CCTGGAGGGC 
    ATTTCTGAGG GGCCGTCTAA CCGCTCAAAT TCAGTTTCTT CTTTGGATTT GGAAGTGGAG 
    TCCGTGTCAG AAGGAGGACC AGGACCGTCT GGTAGTAACG GTGCAGAAGC CTTACAGCTA 
    CTGGAGCACG AACAAGCCAC TACACAGGAT AATTTGGACG ATAAACTGCG CAAGTTTGAG 
    ATTCGGGACA TGATGGGCCT GACGGATGAC CGAGACATTT CTGAGACGGT CAGTGAGACT 
    TGGAGCACTG ATGTCTTGGG GAGTGACTTT GACCCCAACA TGGATGAGGA CCGACTGCAG 
    GAGATAGGGG CTGCAGCGGA GAATGCTCTG GGCAGCATGC TGTGTTTGCC TGTGCTTTTG 
    GATCCATATG GTTCAACCAT CTCAGAGACC ACGAGCGAGG CTTGGAGTGT GGAGGTTCTG 
    CCGAGTGACT CAGAAGCTGC AGACCTGAAG CAGGAGGAAC GTTTGCAGGA GCTGGAGAGC 
    TGCTCCGGTG TGGGAAGCAC TTCAGACGAC ACAGAGGTCC GAGAGGTCAG CTCAAGACCA 
    AGTACTCCAG GACTCAGCGT TGTTTCAGGC ATCAGTGCCA CGTCGGAGGA CATCCCTAAT 
    AAGATTGAAG ACCTACGCTC GGAATGCAGC TCCGATTTTG GAGGCAAAGA CTCCGTGACC 
    AGTCCAGATG GAGAGGACTC TGCTCATGGA GCTCACAGTC TCTCCTGTGC ACCTTCTCAA 
    ACAGATTCAC TGCTGGCCAT GTTCGATCCC CTCTCCTCTG GAGAAGGTTC GTGCACTGGC 
    ACCATAGTGC GACCCAAGGT ACACTATCCT CGTCCTCCTC ACCCTCCGCC TGACCCACCC 
    ATTCCAGAGG CCAGCATAAC CAGCCACATG GAACCCCGTC CGCCCCTCTT TCCTCCCCAC 
    CTGGCACAGG GTGACCTGGA GCACCCCAAG CAGAGGCACT CTTACCCTGA GAGGCTGGTG 
    AGGAGCCGCA GCACAGATGT GGTGTCCGCT GGACGCAGAC CTAACAGTGA CCCCGGACTG 
    AACCGCAGAA CCATGATGGA GGAGAGAGAC CCGGCTGGAG CTTACTCTAC TGGGCCCACC 
    TCCTCTCCCA GCAAGGATTC CCTCAAAGGA GAGTCTGAGG ACAGGAAGGA CAGTGATGAT 
    GAGAAGTCTG ATAGGAACAG ACCCTGGTGG AAGAAGCGCT TTGTTCCTGC CATTCCTAAA 
    GTGCTCTATT GGACGGCAGA GGGTGAACTC CCAGTGCCGA TTGCCGGGCT TCGGAAGCGG 
    GACAAGGCAG AAAAAGACGA GCAAGGAGCA GAGAGGGTCC CACAAGATGA GCCTTCACTG 
    CTCAGACAGA GCTCCAAAAC CCAGTCAGCA GAGGCAATTA TGGACAAGTA CATCAGGTAC 
    ATGGAGAAAC GACCCGCACA GGCTGACGGA GCAACTGCTG GAGGTTATGT TGGACAAGAG 
    TCTTGTCGAG AAGGGGACAG TGAGCACGAC TCTCCTAAAG ATGAAGCTCT GCAGAACATC 
    TCTGCTGATG ATCTTCCGGA TTCTGCCAGT CAGACGGCAC CACCTCAGGA CAAGACTTTC 
    TCCTTCAGTG ATATTAAGAA GAAGCTACGC CTGGCACTTT GCTCTGCAGA TTCAGTTGTG 
    TTTCCCATCA TTCCACCTGC AACAACACGC AACGGTCTTC CAGATCATGC AGATCCTGAA 
    GACAACGAGA TTGTGTGCTT TCTGAAGGTG CAGCTGGCGG AGGCCATTAA CCTGCAGGAT 
    AAGAACCAGA TGGCACAGAT CCAGGAGACC ACGCGCTGCG TCAGCCACCT CGACCCGCGC 
    ACCTGCAGAA AACTGCTCAC TGCCATGGCA GAGGACTACA GGAAGCGGGC TCCATACATC 
    GCCTATCTGA CACGTTGTCG GCAGGGCCTG CAGACATCTC AGGCTCATCT GGAGAGACTC 
    CTGCAGAGAG TGTTGAGAGA TAAAGAAGTG GCCAACCGCT ACTTTACCAC TGTCTGTGTC 
    CGACTACTGC TGGAGCACAT GGAGTCCAAG ATGCTTGACT TCATTAAAGC ATTTCAGGGA 
    TGCACAGCAG CTGATGATAA GACAGCAGCC GTGGAGGATT TCCTGCGTTA CCTGTATGGA 
    GCCATGGCCC ATGATGCCAT CTGGCAGTAC GCCAGTGAAG AGCAGCTCCA GGACGCACAG 
    ATGGCCATCG AACGCAGCGT CATGAACCGC ATCTTCAAAC TGGCATTCTA CCCCAATCAG 
    GATGGGGACA TCCACAGAGA CGAGCTATTC CATGAGCACA TTCAGCGACT GTCTAGAGTG 
    GTGTCGGCCA ATCATAAAGC TCTGCAGATC CCTGAGGTGT ATCTGAAAGA GGCTCCGTGG 
    CCTTCTGCAC AGGCTGAGAT CAAGACCATC AACGCCTATA AGACCCCGCG AGATAAAGTG 
    CAGTGTATCT TGCGCATGTG CTCCACCATT ATGAACCTGC TCAGCCTGGC CAATGAGGAT 
    GCTGTACCCG GCGCGGATGA CTTCGTCCCT GTGCTCGTCT TTGTTCTGAT TAAAGCAAAC 
    CCACCCTGCC TTCTGTCCAC CATTCAGTAC ATCAATAATT TCTACGCCAG CAGGCTGAGC 
    GGGGAGGAGT GCTATTGGTG GATGCAGTTC ACTGCTGCCG TGGAATTCAT TAAAACCATC 
    GACGATCGCA AGTGA

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

    gapvd1 ( XM_009304094.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009302369.1 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa41044
    Clone ID Related Accession (Same CDS sequence) XM_009304094.2 , XM_009304094.3
    Accession Version XM_009304094.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4452bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009304094.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGGCTCT CGCAGCCGAA GCCGATCCAA CATGGCCCAG 
    GAAGGAGAGA CTGAAGCCAG TTCTCAAGAG TCTCTGCAAG AGGTCCCCGA GGAAGTGCTG 
    GTCATCTCTC TAGGAACATC ACCACAGACC ATTCCCGGGA TGATGTCAGA AAACGAGGTT 
    CTGACTTTGC ATCTTGGAGA TGGAGGACAA GGTGACGCCC CTGTCGACGA CACCAAATTA 
    CATGGCAAGC CTGACAAAAC ACTGCGCTTC TCACTTTGCA GTGACAACCT GGAGGGCATT 
    TCTGAGGGGC CGTCTAACCG CTCAAATTCA GTTTCTTCTT TGGATTTGGA AGTGGAGTCC 
    GTGTCAGAAG GAGGACCAGG ACCGTCTGGT AGTAACGGTG CAGAAGCCTT ACAGCTACTG 
    GAGCACGAAC AAGCCACTAC ACAGGATAAT TTGGACGATA AACTGCGCAA GTTTGAGATT 
    CGGGACATGA TGGGCCTGAC GGATGACCGA GACATTTCTG AGACGGTCAG TGAGACTTGG 
    AGCACTGATG TCTTGGGGAG TGACTTTGAC CCCAACATGG ATGAGGACCG ACTGCAGGAG 
    ATAGGGGCTG CAGCGGAGAA TGCTCTGGGC AGCATGCTGT GTTTGCCTGT GCTTTTGGAT 
    CCATATGGTT CAACCATCTC AGAGACCACG AGCGAGGCTT GGAGTGTGGA GGTTCTGCCG 
    AGTGACTCAG AAGCTGCAGA CCTGAAGCAG GAGGAACGTT TGCAGGAGCT GGAGAGCTGC 
    TCCGGTGTGG GAAGCACTTC AGACGACACA GAGGTCCGAG AGGTCAGCTC AAGACCAAGT 
    ACTCCAGGAC TCAGCGTTGT TTCAGGCATC AGTGCCACGT CGGAGGACAT CCCTAATAAG 
    ATTGAAGACC TACGCTCGGA ATGCAGCTCC GATTTTGGAG GCAAAGACTC CGTGACCAGT 
    CCAGATGGAG AGGACTCTGC TCATGGAGCT CACAGTCTCT CCTGTGCACC TTCTCAAACA 
    GATTCACTGC TGGCCATGTT CGATCCCCTC TCCTCTGGAG AAGGTTCGTG CACTGGCACC 
    ATAGTGCGAC CCAAGGTACA CTATCCTCGT CCTCCTCACC CTCCGCCTGA CCCACCCATT 
    CCAGAGGCCA GCATAACCAG CCACATGGAA CCCCGTCCGC CCCTCTTTCC TCCCCACCTG 
    GCACAGGGTG ACCTGGAGCA CCCCAAGCAG AGGCACTCTT ACCCTGAGAG GCTGGTGAGG 
    AGCCGCAGCA CAGATGTGGT GTCCGCTGGA CGCAGACCTA ACAGTGACCC CGGACTGAAC 
    CGCAGAACCA TGATGGAGGA GAGAGACCCG GCTGGAGCTT ACTCTACTGG GCCCACCTCC 
    TCTCCCAGCA AGGATTCCCT CAAAGGAGAG TCTGAGGACA GGAAGGACAG TGATGATGAG 
    AAGTCTGATA GGAACAGACC CTGGTGGAAG AAGCGCTTTG TTCCTGCCAT TCCTAAAGTG 
    CTCTATTGGA CGGCAGAGGG TGAACTCCCA GTGCCGATTG CCGGGCTTCG GAAGCGGGAC 
    AAGGCAGAAA AAGACGAGCA AGGAGCAGAG AGGGTCCCAC AAGATGAGCC TTCACTGCTC 
    AGACAGAGCT CCAAAACCCA GTCAGCAGAG GCAATTATGG ACAAGTACAT CAGGTACATG 
    GAGAAACGAC CCGCACAGGC TGACGGAGCA ACTGCTGGAG GTTATGTTGG ACAAGAGTCT 
    TGTCGAGAAG GGGACAGTGA GCACGACTCT CCTAAAGATG AAGCTCTGCA GAACATCTCT 
    GCTGATGATC TTCCGGATTC TGCCAGTCAG ACGGCACCAC CTCAGGACAA GACTTTCTCC 
    TTCAGTGATA TTAAGAAGAA GCTACGCCTG GCACTTTGCT CTGCAGATTC AGTTGTGTTT 
    CCCATCATTC CACCTGCAAC AACACGCAAC GGTCTTCCAG ATCATGCAGA TCCTGAAGAC 
    AACGAGATTG TGTGCTTTCT GAAGGTGCAG CTGGCGGAGG CCATTAACCT GCAGGATAAG 
    AACCAGATGG CACAGATCCA GGAGACCACG CGCTGCGTCA GCCACCTCGA CCCGCGCACC 
    TGCAGAAAAC TGCTCACTGC CATGGCAGAG GACTACAGGA AGCGGGCTCC ATACATCGCC 
    TATCTGACAC GTTGTCGGCA GGGCCTGCAG ACATCTCAGG CTCATCTGGA GAGACTCCTG 
    CAGAGAGTGT TGAGAGATAA AGAAGTGGCC AACCGCTACT TTACCACTGT CTGTGTCCGA 
    CTACTGCTGG AGCACATGGA GTCCAAGATG CTTGACTTCA TTAAAGCATT TCAGGGATGC 
    ACAGCAGCTG ATGATAAGAC AGCAGCCGTG GAGGATTTCC TGCGTTACCT GTATGGAGCC 
    ATGGCCCATG ATGCCATCTG GCAGTACGCC AGTGAAGAGC AGCTCCAGGA CGCACAGATG 
    GCCATCGAAC GCAGCGTCAT GAACCGCATC TTCAAACTGG CATTCTACCC CAATCAGGAT 
    GGGGACATCC ACAGAGACGA GCTATTCCAT GAGCACATTC AGCGACTGTC TAGAGTGGTG 
    TCGGCCAATC ATAAAGCTCT GCAGATCCCT GAGGTGTATC TGAAAGAGGC TCCGTGGCCT 
    TCTGCACAGG CTGAGATCAA GACCATCAAC GCCTATAAGA CCCCGCGAGA TAAAGTGCAG 
    TGTATCTTGC GCATGTGCTC CACCATTATG AACCTGCTCA GCCTGGCCAA TGAGGATGCT 
    GTACCCGGCG CGGATGACTT CGTCCCTGTG CTCGTCTTTG TTCTGATTAA AGCAAACCCA 
    CCCTGCCTTC TGTCCACCAT TCAGTACATC AATAATTTCT ACGCCAGCAG GCTGAGCGGG 
    GAGGAGTGCT ATTGGTGGAT GCAGTTCACT GCTGCCGTGG AATTCATTAA AACCATCGAC 
    GATCGCAAGT GA

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

    RefSeq XP_009302369.1
    CDS200..4651
    Translation

    Target ORF information:

    RefSeq Version XM_009304094.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009304094.2

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGGCTCT CGCAGCCGAA GCCGATCCAA CATGGCCCAG 
    GAAGGAGAGA CTGAAGCCAG TTCTCAAGAG TCTCTGCAAG AGGTCCCCGA GGAAGTGCTG 
    GTCATCTCTC TAGGAACATC ACCACAGACC ATTCCCGGGA TGATGTCAGA AAACGAGGTT 
    CTGACTTTGC ATCTTGGAGA TGGAGGACAA GGTGACGCCC CTGTCGACGA CACCAAATTA 
    CATGGCAAGC CTGACAAAAC ACTGCGCTTC TCACTTTGCA GTGACAACCT GGAGGGCATT 
    TCTGAGGGGC CGTCTAACCG CTCAAATTCA GTTTCTTCTT TGGATTTGGA AGTGGAGTCC 
    GTGTCAGAAG GAGGACCAGG ACCGTCTGGT AGTAACGGTG CAGAAGCCTT ACAGCTACTG 
    GAGCACGAAC AAGCCACTAC ACAGGATAAT TTGGACGATA AACTGCGCAA GTTTGAGATT 
    CGGGACATGA TGGGCCTGAC GGATGACCGA GACATTTCTG AGACGGTCAG TGAGACTTGG 
    AGCACTGATG TCTTGGGGAG TGACTTTGAC CCCAACATGG ATGAGGACCG ACTGCAGGAG 
    ATAGGGGCTG CAGCGGAGAA TGCTCTGGGC AGCATGCTGT GTTTGCCTGT GCTTTTGGAT 
    CCATATGGTT CAACCATCTC AGAGACCACG AGCGAGGCTT GGAGTGTGGA GGTTCTGCCG 
    AGTGACTCAG AAGCTGCAGA CCTGAAGCAG GAGGAACGTT TGCAGGAGCT GGAGAGCTGC 
    TCCGGTGTGG GAAGCACTTC AGACGACACA GAGGTCCGAG AGGTCAGCTC AAGACCAAGT 
    ACTCCAGGAC TCAGCGTTGT TTCAGGCATC AGTGCCACGT CGGAGGACAT CCCTAATAAG 
    ATTGAAGACC TACGCTCGGA ATGCAGCTCC GATTTTGGAG GCAAAGACTC CGTGACCAGT 
    CCAGATGGAG AGGACTCTGC TCATGGAGCT CACAGTCTCT CCTGTGCACC TTCTCAAACA 
    GATTCACTGC TGGCCATGTT CGATCCCCTC TCCTCTGGAG AAGGTTCGTG CACTGGCACC 
    ATAGTGCGAC CCAAGGTACA CTATCCTCGT CCTCCTCACC CTCCGCCTGA CCCACCCATT 
    CCAGAGGCCA GCATAACCAG CCACATGGAA CCCCGTCCGC CCCTCTTTCC TCCCCACCTG 
    GCACAGGGTG ACCTGGAGCA CCCCAAGCAG AGGCACTCTT ACCCTGAGAG GCTGGTGAGG 
    AGCCGCAGCA CAGATGTGGT GTCCGCTGGA CGCAGACCTA ACAGTGACCC CGGACTGAAC 
    CGCAGAACCA TGATGGAGGA GAGAGACCCG GCTGGAGCTT ACTCTACTGG GCCCACCTCC 
    TCTCCCAGCA AGGATTCCCT CAAAGGAGAG TCTGAGGACA GGAAGGACAG TGATGATGAG 
    AAGTCTGATA GGAACAGACC CTGGTGGAAG AAGCGCTTTG TTCCTGCCAT TCCTAAAGTG 
    CTCTATTGGA CGGCAGAGGG TGAACTCCCA GTGCCGATTG CCGGGCTTCG GAAGCGGGAC 
    AAGGCAGAAA AAGACGAGCA AGGAGCAGAG AGGGTCCCAC AAGATGAGCC TTCACTGCTC 
    AGACAGAGCT CCAAAACCCA GTCAGCAGAG GCAATTATGG ACAAGTACAT CAGGTACATG 
    GAGAAACGAC CCGCACAGGC TGACGGAGCA ACTGCTGGAG GTTATGTTGG ACAAGAGTCT 
    TGTCGAGAAG GGGACAGTGA GCACGACTCT CCTAAAGATG AAGCTCTGCA GAACATCTCT 
    GCTGATGATC TTCCGGATTC TGCCAGTCAG ACGGCACCAC CTCAGGACAA GACTTTCTCC 
    TTCAGTGATA TTAAGAAGAA GCTACGCCTG GCACTTTGCT CTGCAGATTC AGTTGTGTTT 
    CCCATCATTC CACCTGCAAC AACACGCAAC GGTCTTCCAG ATCATGCAGA TCCTGAAGAC 
    AACGAGATTG TGTGCTTTCT GAAGGTGCAG CTGGCGGAGG CCATTAACCT GCAGGATAAG 
    AACCAGATGG CACAGATCCA GGAGACCACG CGCTGCGTCA GCCACCTCGA CCCGCGCACC 
    TGCAGAAAAC TGCTCACTGC CATGGCAGAG GACTACAGGA AGCGGGCTCC ATACATCGCC 
    TATCTGACAC GTTGTCGGCA GGGCCTGCAG ACATCTCAGG CTCATCTGGA GAGACTCCTG 
    CAGAGAGTGT TGAGAGATAA AGAAGTGGCC AACCGCTACT TTACCACTGT CTGTGTCCGA 
    CTACTGCTGG AGCACATGGA GTCCAAGATG CTTGACTTCA TTAAAGCATT TCAGGGATGC 
    ACAGCAGCTG ATGATAAGAC AGCAGCCGTG GAGGATTTCC TGCGTTACCT GTATGGAGCC 
    ATGGCCCATG ATGCCATCTG GCAGTACGCC AGTGAAGAGC AGCTCCAGGA CGCACAGATG 
    GCCATCGAAC GCAGCGTCAT GAACCGCATC TTCAAACTGG CATTCTACCC CAATCAGGAT 
    GGGGACATCC ACAGAGACGA GCTATTCCAT GAGCACATTC AGCGACTGTC TAGAGTGGTG 
    TCGGCCAATC ATAAAGCTCT GCAGATCCCT GAGGTGTATC TGAAAGAGGC TCCGTGGCCT 
    TCTGCACAGG CTGAGATCAA GACCATCAAC GCCTATAAGA CCCCGCGAGA TAAAGTGCAG 
    TGTATCTTGC GCATGTGCTC CACCATTATG AACCTGCTCA GCCTGGCCAA TGAGGATGCT 
    GTACCCGGCG CGGATGACTT CGTCCCTGTG CTCGTCTTTG TTCTGATTAA AGCAAACCCA 
    CCCTGCCTTC TGTCCACCAT TCAGTACATC AATAATTTCT ACGCCAGCAG GCTGAGCGGG 
    GAGGAGTGCT ATTGGTGGAT GCAGTTCACT GCTGCCGTGG AATTCATTAA AACCATCGAC 
    GATCGCAAGT GA

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

    gapvd1 ( XM_009304094.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009302369.1 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa41044
    Clone ID Related Accession (Same CDS sequence) XM_009304094.2 , XM_009304094.3
    Accession Version XM_009304094.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4452bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009304094.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGGCTCT CGCAGCCGAA GCCGATCCAA CATGGCCCAG 
    GAAGGAGAGA CTGAAGCCAG TTCTCAAGAG TCTCTGCAAG AGGTCCCCGA GGAAGTGCTG 
    GTCATCTCTC TAGGAACATC ACCACAGACC ATTCCCGGGA TGATGTCAGA AAACGAGGTT 
    CTGACTTTGC ATCTTGGAGA TGGAGGACAA GGTGACGCCC CTGTCGACGA CACCAAATTA 
    CATGGCAAGC CTGACAAAAC ACTGCGCTTC TCACTTTGCA GTGACAACCT GGAGGGCATT 
    TCTGAGGGGC CGTCTAACCG CTCAAATTCA GTTTCTTCTT TGGATTTGGA AGTGGAGTCC 
    GTGTCAGAAG GAGGACCAGG ACCGTCTGGT AGTAACGGTG CAGAAGCCTT ACAGCTACTG 
    GAGCACGAAC AAGCCACTAC ACAGGATAAT TTGGACGATA AACTGCGCAA GTTTGAGATT 
    CGGGACATGA TGGGCCTGAC GGATGACCGA GACATTTCTG AGACGGTCAG TGAGACTTGG 
    AGCACTGATG TCTTGGGGAG TGACTTTGAC CCCAACATGG ATGAGGACCG ACTGCAGGAG 
    ATAGGGGCTG CAGCGGAGAA TGCTCTGGGC AGCATGCTGT GTTTGCCTGT GCTTTTGGAT 
    CCATATGGTT CAACCATCTC AGAGACCACG AGCGAGGCTT GGAGTGTGGA GGTTCTGCCG 
    AGTGACTCAG AAGCTGCAGA CCTGAAGCAG GAGGAACGTT TGCAGGAGCT GGAGAGCTGC 
    TCCGGTGTGG GAAGCACTTC AGACGACACA GAGGTCCGAG AGGTCAGCTC AAGACCAAGT 
    ACTCCAGGAC TCAGCGTTGT TTCAGGCATC AGTGCCACGT CGGAGGACAT CCCTAATAAG 
    ATTGAAGACC TACGCTCGGA ATGCAGCTCC GATTTTGGAG GCAAAGACTC CGTGACCAGT 
    CCAGATGGAG AGGACTCTGC TCATGGAGCT CACAGTCTCT CCTGTGCACC TTCTCAAACA 
    GATTCACTGC TGGCCATGTT CGATCCCCTC TCCTCTGGAG AAGGTTCGTG CACTGGCACC 
    ATAGTGCGAC CCAAGGTACA CTATCCTCGT CCTCCTCACC CTCCGCCTGA CCCACCCATT 
    CCAGAGGCCA GCATAACCAG CCACATGGAA CCCCGTCCGC CCCTCTTTCC TCCCCACCTG 
    GCACAGGGTG ACCTGGAGCA CCCCAAGCAG AGGCACTCTT ACCCTGAGAG GCTGGTGAGG 
    AGCCGCAGCA CAGATGTGGT GTCCGCTGGA CGCAGACCTA ACAGTGACCC CGGACTGAAC 
    CGCAGAACCA TGATGGAGGA GAGAGACCCG GCTGGAGCTT ACTCTACTGG GCCCACCTCC 
    TCTCCCAGCA AGGATTCCCT CAAAGGAGAG TCTGAGGACA GGAAGGACAG TGATGATGAG 
    AAGTCTGATA GGAACAGACC CTGGTGGAAG AAGCGCTTTG TTCCTGCCAT TCCTAAAGTG 
    CTCTATTGGA CGGCAGAGGG TGAACTCCCA GTGCCGATTG CCGGGCTTCG GAAGCGGGAC 
    AAGGCAGAAA AAGACGAGCA AGGAGCAGAG AGGGTCCCAC AAGATGAGCC TTCACTGCTC 
    AGACAGAGCT CCAAAACCCA GTCAGCAGAG GCAATTATGG ACAAGTACAT CAGGTACATG 
    GAGAAACGAC CCGCACAGGC TGACGGAGCA ACTGCTGGAG GTTATGTTGG ACAAGAGTCT 
    TGTCGAGAAG GGGACAGTGA GCACGACTCT CCTAAAGATG AAGCTCTGCA GAACATCTCT 
    GCTGATGATC TTCCGGATTC TGCCAGTCAG ACGGCACCAC CTCAGGACAA GACTTTCTCC 
    TTCAGTGATA TTAAGAAGAA GCTACGCCTG GCACTTTGCT CTGCAGATTC AGTTGTGTTT 
    CCCATCATTC CACCTGCAAC AACACGCAAC GGTCTTCCAG ATCATGCAGA TCCTGAAGAC 
    AACGAGATTG TGTGCTTTCT GAAGGTGCAG CTGGCGGAGG CCATTAACCT GCAGGATAAG 
    AACCAGATGG CACAGATCCA GGAGACCACG CGCTGCGTCA GCCACCTCGA CCCGCGCACC 
    TGCAGAAAAC TGCTCACTGC CATGGCAGAG GACTACAGGA AGCGGGCTCC ATACATCGCC 
    TATCTGACAC GTTGTCGGCA GGGCCTGCAG ACATCTCAGG CTCATCTGGA GAGACTCCTG 
    CAGAGAGTGT TGAGAGATAA AGAAGTGGCC AACCGCTACT TTACCACTGT CTGTGTCCGA 
    CTACTGCTGG AGCACATGGA GTCCAAGATG CTTGACTTCA TTAAAGCATT TCAGGGATGC 
    ACAGCAGCTG ATGATAAGAC AGCAGCCGTG GAGGATTTCC TGCGTTACCT GTATGGAGCC 
    ATGGCCCATG ATGCCATCTG GCAGTACGCC AGTGAAGAGC AGCTCCAGGA CGCACAGATG 
    GCCATCGAAC GCAGCGTCAT GAACCGCATC TTCAAACTGG CATTCTACCC CAATCAGGAT 
    GGGGACATCC ACAGAGACGA GCTATTCCAT GAGCACATTC AGCGACTGTC TAGAGTGGTG 
    TCGGCCAATC ATAAAGCTCT GCAGATCCCT GAGGTGTATC TGAAAGAGGC TCCGTGGCCT 
    TCTGCACAGG CTGAGATCAA GACCATCAAC GCCTATAAGA CCCCGCGAGA TAAAGTGCAG 
    TGTATCTTGC GCATGTGCTC CACCATTATG AACCTGCTCA GCCTGGCCAA TGAGGATGCT 
    GTACCCGGCG CGGATGACTT CGTCCCTGTG CTCGTCTTTG TTCTGATTAA AGCAAACCCA 
    CCCTGCCTTC TGTCCACCAT TCAGTACATC AATAATTTCT ACGCCAGCAG GCTGAGCGGG 
    GAGGAGTGCT ATTGGTGGAT GCAGTTCACT GCTGCCGTGG AATTCATTAA AACCATCGAC 
    GATCGCAAGT GA

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

    RefSeq XP_009302369.1
    CDS202..4653
    Translation

    Target ORF information:

    RefSeq Version XM_009304094.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009304094.3

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGACAAC AGTTGGCAGC CATAACATGT TGGGAGCCCT CTGCCACCTC CCTGTCCGCT 
    CATATACCCT TAGTAACCCC GTTTGGCTCT CGCAGCCGAA GCCGATCCAA CATGGCCCAG 
    GAAGGAGAGA CTGAAGCCAG TTCTCAAGAG TCTCTGCAAG AGGTCCCCGA GGAAGTGCTG 
    GTCATCTCTC TAGGAACATC ACCACAGACC ATTCCCGGGA TGATGTCAGA AAACGAGGTT 
    CTGACTTTGC ATCTTGGAGA TGGAGGACAA GGTGACGCCC CTGTCGACGA CACCAAATTA 
    CATGGCAAGC CTGACAAAAC ACTGCGCTTC TCACTTTGCA GTGACAACCT GGAGGGCATT 
    TCTGAGGGGC CGTCTAACCG CTCAAATTCA GTTTCTTCTT TGGATTTGGA AGTGGAGTCC 
    GTGTCAGAAG GAGGACCAGG ACCGTCTGGT AGTAACGGTG CAGAAGCCTT ACAGCTACTG 
    GAGCACGAAC AAGCCACTAC ACAGGATAAT TTGGACGATA AACTGCGCAA GTTTGAGATT 
    CGGGACATGA TGGGCCTGAC GGATGACCGA GACATTTCTG AGACGGTCAG TGAGACTTGG 
    AGCACTGATG TCTTGGGGAG TGACTTTGAC CCCAACATGG ATGAGGACCG ACTGCAGGAG 
    ATAGGGGCTG CAGCGGAGAA TGCTCTGGGC AGCATGCTGT GTTTGCCTGT GCTTTTGGAT 
    CCATATGGTT CAACCATCTC AGAGACCACG AGCGAGGCTT GGAGTGTGGA GGTTCTGCCG 
    AGTGACTCAG AAGCTGCAGA CCTGAAGCAG GAGGAACGTT TGCAGGAGCT GGAGAGCTGC 
    TCCGGTGTGG GAAGCACTTC AGACGACACA GAGGTCCGAG AGGTCAGCTC AAGACCAAGT 
    ACTCCAGGAC TCAGCGTTGT TTCAGGCATC AGTGCCACGT CGGAGGACAT CCCTAATAAG 
    ATTGAAGACC TACGCTCGGA ATGCAGCTCC GATTTTGGAG GCAAAGACTC CGTGACCAGT 
    CCAGATGGAG AGGACTCTGC TCATGGAGCT CACAGTCTCT CCTGTGCACC TTCTCAAACA 
    GATTCACTGC TGGCCATGTT CGATCCCCTC TCCTCTGGAG AAGGTTCGTG CACTGGCACC 
    ATAGTGCGAC CCAAGGTACA CTATCCTCGT CCTCCTCACC CTCCGCCTGA CCCACCCATT 
    CCAGAGGCCA GCATAACCAG CCACATGGAA CCCCGTCCGC CCCTCTTTCC TCCCCACCTG 
    GCACAGGGTG ACCTGGAGCA CCCCAAGCAG AGGCACTCTT ACCCTGAGAG GCTGGTGAGG 
    AGCCGCAGCA CAGATGTGGT GTCCGCTGGA CGCAGACCTA ACAGTGACCC CGGACTGAAC 
    CGCAGAACCA TGATGGAGGA GAGAGACCCG GCTGGAGCTT ACTCTACTGG GCCCACCTCC 
    TCTCCCAGCA AGGATTCCCT CAAAGGAGAG TCTGAGGACA GGAAGGACAG TGATGATGAG 
    AAGTCTGATA GGAACAGACC CTGGTGGAAG AAGCGCTTTG TTCCTGCCAT TCCTAAAGTG 
    CTCTATTGGA CGGCAGAGGG TGAACTCCCA GTGCCGATTG CCGGGCTTCG GAAGCGGGAC 
    AAGGCAGAAA AAGACGAGCA AGGAGCAGAG AGGGTCCCAC AAGATGAGCC TTCACTGCTC 
    AGACAGAGCT CCAAAACCCA GTCAGCAGAG GCAATTATGG ACAAGTACAT CAGGTACATG 
    GAGAAACGAC CCGCACAGGC TGACGGAGCA ACTGCTGGAG GTTATGTTGG ACAAGAGTCT 
    TGTCGAGAAG GGGACAGTGA GCACGACTCT CCTAAAGATG AAGCTCTGCA GAACATCTCT 
    GCTGATGATC TTCCGGATTC TGCCAGTCAG ACGGCACCAC CTCAGGACAA GACTTTCTCC 
    TTCAGTGATA TTAAGAAGAA GCTACGCCTG GCACTTTGCT CTGCAGATTC AGTTGTGTTT 
    CCCATCATTC CACCTGCAAC AACACGCAAC GGTCTTCCAG ATCATGCAGA TCCTGAAGAC 
    AACGAGATTG TGTGCTTTCT GAAGGTGCAG CTGGCGGAGG CCATTAACCT GCAGGATAAG 
    AACCAGATGG CACAGATCCA GGAGACCACG CGCTGCGTCA GCCACCTCGA CCCGCGCACC 
    TGCAGAAAAC TGCTCACTGC CATGGCAGAG GACTACAGGA AGCGGGCTCC ATACATCGCC 
    TATCTGACAC GTTGTCGGCA GGGCCTGCAG ACATCTCAGG CTCATCTGGA GAGACTCCTG 
    CAGAGAGTGT TGAGAGATAA AGAAGTGGCC AACCGCTACT TTACCACTGT CTGTGTCCGA 
    CTACTGCTGG AGCACATGGA GTCCAAGATG CTTGACTTCA TTAAAGCATT TCAGGGATGC 
    ACAGCAGCTG ATGATAAGAC AGCAGCCGTG GAGGATTTCC TGCGTTACCT GTATGGAGCC 
    ATGGCCCATG ATGCCATCTG GCAGTACGCC AGTGAAGAGC AGCTCCAGGA CGCACAGATG 
    GCCATCGAAC GCAGCGTCAT GAACCGCATC TTCAAACTGG CATTCTACCC CAATCAGGAT 
    GGGGACATCC ACAGAGACGA GCTATTCCAT GAGCACATTC AGCGACTGTC TAGAGTGGTG 
    TCGGCCAATC ATAAAGCTCT GCAGATCCCT GAGGTGTATC TGAAAGAGGC TCCGTGGCCT 
    TCTGCACAGG CTGAGATCAA GACCATCAAC GCCTATAAGA CCCCGCGAGA TAAAGTGCAG 
    TGTATCTTGC GCATGTGCTC CACCATTATG AACCTGCTCA GCCTGGCCAA TGAGGATGCT 
    GTACCCGGCG CGGATGACTT CGTCCCTGTG CTCGTCTTTG TTCTGATTAA AGCAAACCCA 
    CCCTGCCTTC TGTCCACCAT TCAGTACATC AATAATTTCT ACGCCAGCAG GCTGAGCGGG 
    GAGGAGTGCT ATTGGTGGAT GCAGTTCACT GCTGCCGTGG AATTCATTAA AACCATCGAC 
    GATCGCAAGT GA

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

    gapvd1 ( XM_009304095.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009302370.1 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ODa41045
    Clone ID Related Accession (Same CDS sequence) XM_009304095.3 , XM_009304095.2
    Accession Version XM_009304095.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4374bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009304095.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGCAGGCT CTCGCAGCCG AAGCCGATCC AACATGGCCC AGGAAGGAGA GACTGAAGCC 
    AGTTCTCAAG AGTCTCTGCA AGAGGTCCCC GAGGAAGTGC TGGTCATCTC TCTAGGAACA 
    TCACCACAGA CCATTCCCGG GATGATGTCA GAAAACGAGG TTCTGACTTT GCATCTTGGA 
    GATGGAGGAC AAGGTGACGC CCCTGTCGAC GACACCAAAT TACATGGCAA GCCTGACAAA 
    ACACTGCGCT TCTCACTTTG CAGTGACAAC CTGGAGGGCA TTTCTGAGGG GCCGTCTAAC 
    CGCTCAAATT CAGTTTCTTC TTTGGATTTG GAAGTGGAGT CCGTGTCAGA AGGAGGACCA 
    GGACCGTCTG GTAGTAACGG TGCAGAAGCC TTACAGCTAC TGGAGCACGA ACAAGCCACT 
    ACACAGGATA ATTTGGACGA TAAACTGCGC AAGTTTGAGA TTCGGGACAT GATGGGCCTG 
    ACGGATGACC GAGACATTTC TGAGACGGTC AGTGAGACTT GGAGCACTGA TGTCTTGGGG 
    AGTGACTTTG ACCCCAACAT GGATGAGGAC CGACTGCAGG AGATAGGGGC TGCAGCGGAG 
    AATGCTCTGG GCAGCATGCT GTGTTTGCCT GTGCTTTTGG ATCCATATGG TTCAACCATC 
    TCAGAGACCA CGAGCGAGGC TTGGAGTGTG GAGGTTCTGC CGAGTGACTC AGAAGCTGCA 
    GACCTGAAGC AGGAGGAACG TTTGCAGGAG CTGGAGAGCT GCTCCGGTGT GGGAAGCACT 
    TCAGACGACA CAGAGGTCCG AGAGGTCAGC TCAAGACCAA GTACTCCAGG ACTCAGCGTT 
    GTTTCAGGCA TCAGTGCCAC GTCGGAGGAC ATCCCTAATA AGATTGAAGA CCTACGCTCG 
    GAATGCAGCT CCGATTTTGG AGGCAAAGAC TCCGTGACCA GTCCAGATGG AGAGGACTCT 
    GCTCATGGAG CTCACAGTCT CTCCTGTGCA CCTTCTCAAA CAGATTCACT GCTGGCCATG 
    TTCGATCCCC TCTCCTCTGG AGAAGGTTCG TGCACTGGCA CCATAGTGCG ACCCAAGGTA 
    CACTATCCTC GTCCTCCTCA CCCTCCGCCT GACCCACCCA TTCCAGAGGC CAGCATAACC 
    AGCCACATGG AACCCCGTCC GCCCCTCTTT CCTCCCCACC TGGCACAGGG TGACCTGGAG 
    CACCCCAAGC AGAGGCACTC TTACCCTGAG AGGCTGGTGA GGAGCCGCAG CACAGATGTG 
    GTGTCCGCTG GACGCAGACC TAACAGTGAC CCCGGACTGA ACCGCAGAAC CATGATGGAG 
    GAGAGAGACC CGGCTGGAGC TTACTCTACT GGGCCCACCT CCTCTCCCAG CAAGGATTCC 
    CTCAAAGGAG AGTCTGAGGA CAGGAAGGAC AGTGATGATG AGAAGTCTGA TAGGAACAGA 
    CCCTGGTGGA AGAAGCGCTT TGTTCCTGCC ATTCCTAAAG TGCTCTATTG GACGGCAGAG 
    GGTGAACTCC CAGTGCCGAT TGCCGGGCTT CGGAAGCGGG ACAAGGCAGA AAAAGACGAG 
    CAAGGAGCAG AGAGGGTCCC ACAAGATGAG CCTTCACTGC TCAGACAGAG CTCCAAAACC 
    CAGTCAGCAG AGGCAATTAT GGACAAGTAC ATCAGGTACA TGGAGAAACG ACCCGCACAG 
    GCTGACGGAG CAACTGCTGG AGGTTATGTT GGACAAGAGT CTTGTCGAGA AGGGGACAGT 
    GAGCACGACT CTCCTAAAGA TGAAGCTCTG CAGAACATCT CTGCTGATGA TCTTCCGGAT 
    TCTGCCAGTC AGACGGCACC ACCTCAGGAC AAGACTTTCT CCTTCAGTGA TATTAAGAAG 
    AAGCTACGCC TGGCACTTTG CTCTGCAGAT TCAGTTGTGT TTCCCATCAT TCCACCTGCA 
    ACAACACGCA ACGGTCTTCC AGATCATGCA GATCCTGAAG ACAACGAGAT TGTGTGCTTT 
    CTGAAGGTGC AGCTGGCGGA GGCCATTAAC CTGCAGGATA AGAACCAGAT GGCACAGATC 
    CAGGAGACCA CGCGCTGCGT CAGCCACCTC GACCCGCGCA CCTGCAGAAA ACTGCTCACT 
    GCCATGGCAG AGGACTACAG GAAGCGGGCT CCATACATCG CCTATCTGAC ACGTTGTCGG 
    CAGGGCCTGC AGACATCTCA GGCTCATCTG GAGAGACTCC TGCAGAGAGT GTTGAGAGAT 
    AAAGAAGTGG CCAACCGCTA CTTTACCACT GTCTGTGTCC GACTACTGCT GGAGCACATG 
    GAGTCCAAGA TGCTTGACTT CATTAAAGCA TTTCAGGGAT GCACAGCAGC TGATGATAAG 
    ACAGCAGCCG TGGAGGATTT CCTGCGTTAC CTGTATGGAG CCATGGCCCA TGATGCCATC 
    TGGCAGTACG CCAGTGAAGA GCAGCTCCAG GACGCACAGA TGGCCATCGA ACGCAGCGTC 
    ATGAACCGCA TCTTCAAACT GGCATTCTAC CCCAATCAGG ATGGGGACAT CCACAGAGAC 
    GAGCTATTCC ATGAGCACAT TCAGCGACTG TCTAGAGTGG TGTCGGCCAA TCATAAAGCT 
    CTGCAGATCC CTGAGGTGTA TCTGAAAGAG GCTCCGTGGC CTTCTGCACA GGCTGAGATC 
    AAGACCATCA ACGCCTATAA GACCCCGCGA GATAAAGTGC AGTGTATCTT GCGCATGTGC 
    TCCACCATTA TGAACCTGCT CAGCCTGGCC AATGAGGATG CTGTACCCGG CGCGGATGAC 
    TTCGTCCCTG TGCTCGTCTT TGTTCTGATT AAAGCAAACC CACCCTGCCT TCTGTCCACC 
    ATTCAGTACA TCAATAATTT CTACGCCAGC AGGCTGAGCG GGGAGGAGTG CTATTGGTGG 
    ATGCAGTTCA CTGCTGCCGT GGAATTCATT AAAACCATCG ACGATCGCAA GTGA

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

    RefSeq XP_009302370.1
    CDS202..4575
    Translation

    Target ORF information:

    RefSeq Version XM_009304095.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009304095.3

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGCAGGCT CTCGCAGCCG AAGCCGATCC AACATGGCCC AGGAAGGAGA GACTGAAGCC 
    AGTTCTCAAG AGTCTCTGCA AGAGGTCCCC GAGGAAGTGC TGGTCATCTC TCTAGGAACA 
    TCACCACAGA CCATTCCCGG GATGATGTCA GAAAACGAGG TTCTGACTTT GCATCTTGGA 
    GATGGAGGAC AAGGTGACGC CCCTGTCGAC GACACCAAAT TACATGGCAA GCCTGACAAA 
    ACACTGCGCT TCTCACTTTG CAGTGACAAC CTGGAGGGCA TTTCTGAGGG GCCGTCTAAC 
    CGCTCAAATT CAGTTTCTTC TTTGGATTTG GAAGTGGAGT CCGTGTCAGA AGGAGGACCA 
    GGACCGTCTG GTAGTAACGG TGCAGAAGCC TTACAGCTAC TGGAGCACGA ACAAGCCACT 
    ACACAGGATA ATTTGGACGA TAAACTGCGC AAGTTTGAGA TTCGGGACAT GATGGGCCTG 
    ACGGATGACC GAGACATTTC TGAGACGGTC AGTGAGACTT GGAGCACTGA TGTCTTGGGG 
    AGTGACTTTG ACCCCAACAT GGATGAGGAC CGACTGCAGG AGATAGGGGC TGCAGCGGAG 
    AATGCTCTGG GCAGCATGCT GTGTTTGCCT GTGCTTTTGG ATCCATATGG TTCAACCATC 
    TCAGAGACCA CGAGCGAGGC TTGGAGTGTG GAGGTTCTGC CGAGTGACTC AGAAGCTGCA 
    GACCTGAAGC AGGAGGAACG TTTGCAGGAG CTGGAGAGCT GCTCCGGTGT GGGAAGCACT 
    TCAGACGACA CAGAGGTCCG AGAGGTCAGC TCAAGACCAA GTACTCCAGG ACTCAGCGTT 
    GTTTCAGGCA TCAGTGCCAC GTCGGAGGAC ATCCCTAATA AGATTGAAGA CCTACGCTCG 
    GAATGCAGCT CCGATTTTGG AGGCAAAGAC TCCGTGACCA GTCCAGATGG AGAGGACTCT 
    GCTCATGGAG CTCACAGTCT CTCCTGTGCA CCTTCTCAAA CAGATTCACT GCTGGCCATG 
    TTCGATCCCC TCTCCTCTGG AGAAGGTTCG TGCACTGGCA CCATAGTGCG ACCCAAGGTA 
    CACTATCCTC GTCCTCCTCA CCCTCCGCCT GACCCACCCA TTCCAGAGGC CAGCATAACC 
    AGCCACATGG AACCCCGTCC GCCCCTCTTT CCTCCCCACC TGGCACAGGG TGACCTGGAG 
    CACCCCAAGC AGAGGCACTC TTACCCTGAG AGGCTGGTGA GGAGCCGCAG CACAGATGTG 
    GTGTCCGCTG GACGCAGACC TAACAGTGAC CCCGGACTGA ACCGCAGAAC CATGATGGAG 
    GAGAGAGACC CGGCTGGAGC TTACTCTACT GGGCCCACCT CCTCTCCCAG CAAGGATTCC 
    CTCAAAGGAG AGTCTGAGGA CAGGAAGGAC AGTGATGATG AGAAGTCTGA TAGGAACAGA 
    CCCTGGTGGA AGAAGCGCTT TGTTCCTGCC ATTCCTAAAG TGCTCTATTG GACGGCAGAG 
    GGTGAACTCC CAGTGCCGAT TGCCGGGCTT CGGAAGCGGG ACAAGGCAGA AAAAGACGAG 
    CAAGGAGCAG AGAGGGTCCC ACAAGATGAG CCTTCACTGC TCAGACAGAG CTCCAAAACC 
    CAGTCAGCAG AGGCAATTAT GGACAAGTAC ATCAGGTACA TGGAGAAACG ACCCGCACAG 
    GCTGACGGAG CAACTGCTGG AGGTTATGTT GGACAAGAGT CTTGTCGAGA AGGGGACAGT 
    GAGCACGACT CTCCTAAAGA TGAAGCTCTG CAGAACATCT CTGCTGATGA TCTTCCGGAT 
    TCTGCCAGTC AGACGGCACC ACCTCAGGAC AAGACTTTCT CCTTCAGTGA TATTAAGAAG 
    AAGCTACGCC TGGCACTTTG CTCTGCAGAT TCAGTTGTGT TTCCCATCAT TCCACCTGCA 
    ACAACACGCA ACGGTCTTCC AGATCATGCA GATCCTGAAG ACAACGAGAT TGTGTGCTTT 
    CTGAAGGTGC AGCTGGCGGA GGCCATTAAC CTGCAGGATA AGAACCAGAT GGCACAGATC 
    CAGGAGACCA CGCGCTGCGT CAGCCACCTC GACCCGCGCA CCTGCAGAAA ACTGCTCACT 
    GCCATGGCAG AGGACTACAG GAAGCGGGCT CCATACATCG CCTATCTGAC ACGTTGTCGG 
    CAGGGCCTGC AGACATCTCA GGCTCATCTG GAGAGACTCC TGCAGAGAGT GTTGAGAGAT 
    AAAGAAGTGG CCAACCGCTA CTTTACCACT GTCTGTGTCC GACTACTGCT GGAGCACATG 
    GAGTCCAAGA TGCTTGACTT CATTAAAGCA TTTCAGGGAT GCACAGCAGC TGATGATAAG 
    ACAGCAGCCG TGGAGGATTT CCTGCGTTAC CTGTATGGAG CCATGGCCCA TGATGCCATC 
    TGGCAGTACG CCAGTGAAGA GCAGCTCCAG GACGCACAGA TGGCCATCGA ACGCAGCGTC 
    ATGAACCGCA TCTTCAAACT GGCATTCTAC CCCAATCAGG ATGGGGACAT CCACAGAGAC 
    GAGCTATTCC ATGAGCACAT TCAGCGACTG TCTAGAGTGG TGTCGGCCAA TCATAAAGCT 
    CTGCAGATCC CTGAGGTGTA TCTGAAAGAG GCTCCGTGGC CTTCTGCACA GGCTGAGATC 
    AAGACCATCA ACGCCTATAA GACCCCGCGA GATAAAGTGC AGTGTATCTT GCGCATGTGC 
    TCCACCATTA TGAACCTGCT CAGCCTGGCC AATGAGGATG CTGTACCCGG CGCGGATGAC 
    TTCGTCCCTG TGCTCGTCTT TGTTCTGATT AAAGCAAACC CACCCTGCCT TCTGTCCACC 
    ATTCAGTACA TCAATAATTT CTACGCCAGC AGGCTGAGCG GGGAGGAGTG CTATTGGTGG 
    ATGCAGTTCA CTGCTGCCGT GGAATTCATT AAAACCATCG ACGATCGCAA GTGA

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

    gapvd1 ( XM_009304095.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009302370.1 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ODa41045
    Clone ID Related Accession (Same CDS sequence) XM_009304095.3 , XM_009304095.2
    Accession Version XM_009304095.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4374bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1 isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009304095.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGCAGGCT CTCGCAGCCG AAGCCGATCC AACATGGCCC AGGAAGGAGA GACTGAAGCC 
    AGTTCTCAAG AGTCTCTGCA AGAGGTCCCC GAGGAAGTGC TGGTCATCTC TCTAGGAACA 
    TCACCACAGA CCATTCCCGG GATGATGTCA GAAAACGAGG TTCTGACTTT GCATCTTGGA 
    GATGGAGGAC AAGGTGACGC CCCTGTCGAC GACACCAAAT TACATGGCAA GCCTGACAAA 
    ACACTGCGCT TCTCACTTTG CAGTGACAAC CTGGAGGGCA TTTCTGAGGG GCCGTCTAAC 
    CGCTCAAATT CAGTTTCTTC TTTGGATTTG GAAGTGGAGT CCGTGTCAGA AGGAGGACCA 
    GGACCGTCTG GTAGTAACGG TGCAGAAGCC TTACAGCTAC TGGAGCACGA ACAAGCCACT 
    ACACAGGATA ATTTGGACGA TAAACTGCGC AAGTTTGAGA TTCGGGACAT GATGGGCCTG 
    ACGGATGACC GAGACATTTC TGAGACGGTC AGTGAGACTT GGAGCACTGA TGTCTTGGGG 
    AGTGACTTTG ACCCCAACAT GGATGAGGAC CGACTGCAGG AGATAGGGGC TGCAGCGGAG 
    AATGCTCTGG GCAGCATGCT GTGTTTGCCT GTGCTTTTGG ATCCATATGG TTCAACCATC 
    TCAGAGACCA CGAGCGAGGC TTGGAGTGTG GAGGTTCTGC CGAGTGACTC AGAAGCTGCA 
    GACCTGAAGC AGGAGGAACG TTTGCAGGAG CTGGAGAGCT GCTCCGGTGT GGGAAGCACT 
    TCAGACGACA CAGAGGTCCG AGAGGTCAGC TCAAGACCAA GTACTCCAGG ACTCAGCGTT 
    GTTTCAGGCA TCAGTGCCAC GTCGGAGGAC ATCCCTAATA AGATTGAAGA CCTACGCTCG 
    GAATGCAGCT CCGATTTTGG AGGCAAAGAC TCCGTGACCA GTCCAGATGG AGAGGACTCT 
    GCTCATGGAG CTCACAGTCT CTCCTGTGCA CCTTCTCAAA CAGATTCACT GCTGGCCATG 
    TTCGATCCCC TCTCCTCTGG AGAAGGTTCG TGCACTGGCA CCATAGTGCG ACCCAAGGTA 
    CACTATCCTC GTCCTCCTCA CCCTCCGCCT GACCCACCCA TTCCAGAGGC CAGCATAACC 
    AGCCACATGG AACCCCGTCC GCCCCTCTTT CCTCCCCACC TGGCACAGGG TGACCTGGAG 
    CACCCCAAGC AGAGGCACTC TTACCCTGAG AGGCTGGTGA GGAGCCGCAG CACAGATGTG 
    GTGTCCGCTG GACGCAGACC TAACAGTGAC CCCGGACTGA ACCGCAGAAC CATGATGGAG 
    GAGAGAGACC CGGCTGGAGC TTACTCTACT GGGCCCACCT CCTCTCCCAG CAAGGATTCC 
    CTCAAAGGAG AGTCTGAGGA CAGGAAGGAC AGTGATGATG AGAAGTCTGA TAGGAACAGA 
    CCCTGGTGGA AGAAGCGCTT TGTTCCTGCC ATTCCTAAAG TGCTCTATTG GACGGCAGAG 
    GGTGAACTCC CAGTGCCGAT TGCCGGGCTT CGGAAGCGGG ACAAGGCAGA AAAAGACGAG 
    CAAGGAGCAG AGAGGGTCCC ACAAGATGAG CCTTCACTGC TCAGACAGAG CTCCAAAACC 
    CAGTCAGCAG AGGCAATTAT GGACAAGTAC ATCAGGTACA TGGAGAAACG ACCCGCACAG 
    GCTGACGGAG CAACTGCTGG AGGTTATGTT GGACAAGAGT CTTGTCGAGA AGGGGACAGT 
    GAGCACGACT CTCCTAAAGA TGAAGCTCTG CAGAACATCT CTGCTGATGA TCTTCCGGAT 
    TCTGCCAGTC AGACGGCACC ACCTCAGGAC AAGACTTTCT CCTTCAGTGA TATTAAGAAG 
    AAGCTACGCC TGGCACTTTG CTCTGCAGAT TCAGTTGTGT TTCCCATCAT TCCACCTGCA 
    ACAACACGCA ACGGTCTTCC AGATCATGCA GATCCTGAAG ACAACGAGAT TGTGTGCTTT 
    CTGAAGGTGC AGCTGGCGGA GGCCATTAAC CTGCAGGATA AGAACCAGAT GGCACAGATC 
    CAGGAGACCA CGCGCTGCGT CAGCCACCTC GACCCGCGCA CCTGCAGAAA ACTGCTCACT 
    GCCATGGCAG AGGACTACAG GAAGCGGGCT CCATACATCG CCTATCTGAC ACGTTGTCGG 
    CAGGGCCTGC AGACATCTCA GGCTCATCTG GAGAGACTCC TGCAGAGAGT GTTGAGAGAT 
    AAAGAAGTGG CCAACCGCTA CTTTACCACT GTCTGTGTCC GACTACTGCT GGAGCACATG 
    GAGTCCAAGA TGCTTGACTT CATTAAAGCA TTTCAGGGAT GCACAGCAGC TGATGATAAG 
    ACAGCAGCCG TGGAGGATTT CCTGCGTTAC CTGTATGGAG CCATGGCCCA TGATGCCATC 
    TGGCAGTACG CCAGTGAAGA GCAGCTCCAG GACGCACAGA TGGCCATCGA ACGCAGCGTC 
    ATGAACCGCA TCTTCAAACT GGCATTCTAC CCCAATCAGG ATGGGGACAT CCACAGAGAC 
    GAGCTATTCC ATGAGCACAT TCAGCGACTG TCTAGAGTGG TGTCGGCCAA TCATAAAGCT 
    CTGCAGATCC CTGAGGTGTA TCTGAAAGAG GCTCCGTGGC CTTCTGCACA GGCTGAGATC 
    AAGACCATCA ACGCCTATAA GACCCCGCGA GATAAAGTGC AGTGTATCTT GCGCATGTGC 
    TCCACCATTA TGAACCTGCT CAGCCTGGCC AATGAGGATG CTGTACCCGG CGCGGATGAC 
    TTCGTCCCTG TGCTCGTCTT TGTTCTGATT AAAGCAAACC CACCCTGCCT TCTGTCCACC 
    ATTCAGTACA TCAATAATTT CTACGCCAGC AGGCTGAGCG GGGAGGAGTG CTATTGGTGG 
    ATGCAGTTCA CTGCTGCCGT GGAATTCATT AAAACCATCG ACGATCGCAA GTGA

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

    RefSeq XP_009302370.1
    CDS200..4573
    Translation

    Target ORF information:

    RefSeq Version XM_009304095.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009304095.2

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGCAGGCT CTCGCAGCCG AAGCCGATCC AACATGGCCC AGGAAGGAGA GACTGAAGCC 
    AGTTCTCAAG AGTCTCTGCA AGAGGTCCCC GAGGAAGTGC TGGTCATCTC TCTAGGAACA 
    TCACCACAGA CCATTCCCGG GATGATGTCA GAAAACGAGG TTCTGACTTT GCATCTTGGA 
    GATGGAGGAC AAGGTGACGC CCCTGTCGAC GACACCAAAT TACATGGCAA GCCTGACAAA 
    ACACTGCGCT TCTCACTTTG CAGTGACAAC CTGGAGGGCA TTTCTGAGGG GCCGTCTAAC 
    CGCTCAAATT CAGTTTCTTC TTTGGATTTG GAAGTGGAGT CCGTGTCAGA AGGAGGACCA 
    GGACCGTCTG GTAGTAACGG TGCAGAAGCC TTACAGCTAC TGGAGCACGA ACAAGCCACT 
    ACACAGGATA ATTTGGACGA TAAACTGCGC AAGTTTGAGA TTCGGGACAT GATGGGCCTG 
    ACGGATGACC GAGACATTTC TGAGACGGTC AGTGAGACTT GGAGCACTGA TGTCTTGGGG 
    AGTGACTTTG ACCCCAACAT GGATGAGGAC CGACTGCAGG AGATAGGGGC TGCAGCGGAG 
    AATGCTCTGG GCAGCATGCT GTGTTTGCCT GTGCTTTTGG ATCCATATGG TTCAACCATC 
    TCAGAGACCA CGAGCGAGGC TTGGAGTGTG GAGGTTCTGC CGAGTGACTC AGAAGCTGCA 
    GACCTGAAGC AGGAGGAACG TTTGCAGGAG CTGGAGAGCT GCTCCGGTGT GGGAAGCACT 
    TCAGACGACA CAGAGGTCCG AGAGGTCAGC TCAAGACCAA GTACTCCAGG ACTCAGCGTT 
    GTTTCAGGCA TCAGTGCCAC GTCGGAGGAC ATCCCTAATA AGATTGAAGA CCTACGCTCG 
    GAATGCAGCT CCGATTTTGG AGGCAAAGAC TCCGTGACCA GTCCAGATGG AGAGGACTCT 
    GCTCATGGAG CTCACAGTCT CTCCTGTGCA CCTTCTCAAA CAGATTCACT GCTGGCCATG 
    TTCGATCCCC TCTCCTCTGG AGAAGGTTCG TGCACTGGCA CCATAGTGCG ACCCAAGGTA 
    CACTATCCTC GTCCTCCTCA CCCTCCGCCT GACCCACCCA TTCCAGAGGC CAGCATAACC 
    AGCCACATGG AACCCCGTCC GCCCCTCTTT CCTCCCCACC TGGCACAGGG TGACCTGGAG 
    CACCCCAAGC AGAGGCACTC TTACCCTGAG AGGCTGGTGA GGAGCCGCAG CACAGATGTG 
    GTGTCCGCTG GACGCAGACC TAACAGTGAC CCCGGACTGA ACCGCAGAAC CATGATGGAG 
    GAGAGAGACC CGGCTGGAGC TTACTCTACT GGGCCCACCT CCTCTCCCAG CAAGGATTCC 
    CTCAAAGGAG AGTCTGAGGA CAGGAAGGAC AGTGATGATG AGAAGTCTGA TAGGAACAGA 
    CCCTGGTGGA AGAAGCGCTT TGTTCCTGCC ATTCCTAAAG TGCTCTATTG GACGGCAGAG 
    GGTGAACTCC CAGTGCCGAT TGCCGGGCTT CGGAAGCGGG ACAAGGCAGA AAAAGACGAG 
    CAAGGAGCAG AGAGGGTCCC ACAAGATGAG CCTTCACTGC TCAGACAGAG CTCCAAAACC 
    CAGTCAGCAG AGGCAATTAT GGACAAGTAC ATCAGGTACA TGGAGAAACG ACCCGCACAG 
    GCTGACGGAG CAACTGCTGG AGGTTATGTT GGACAAGAGT CTTGTCGAGA AGGGGACAGT 
    GAGCACGACT CTCCTAAAGA TGAAGCTCTG CAGAACATCT CTGCTGATGA TCTTCCGGAT 
    TCTGCCAGTC AGACGGCACC ACCTCAGGAC AAGACTTTCT CCTTCAGTGA TATTAAGAAG 
    AAGCTACGCC TGGCACTTTG CTCTGCAGAT TCAGTTGTGT TTCCCATCAT TCCACCTGCA 
    ACAACACGCA ACGGTCTTCC AGATCATGCA GATCCTGAAG ACAACGAGAT TGTGTGCTTT 
    CTGAAGGTGC AGCTGGCGGA GGCCATTAAC CTGCAGGATA AGAACCAGAT GGCACAGATC 
    CAGGAGACCA CGCGCTGCGT CAGCCACCTC GACCCGCGCA CCTGCAGAAA ACTGCTCACT 
    GCCATGGCAG AGGACTACAG GAAGCGGGCT CCATACATCG CCTATCTGAC ACGTTGTCGG 
    CAGGGCCTGC AGACATCTCA GGCTCATCTG GAGAGACTCC TGCAGAGAGT GTTGAGAGAT 
    AAAGAAGTGG CCAACCGCTA CTTTACCACT GTCTGTGTCC GACTACTGCT GGAGCACATG 
    GAGTCCAAGA TGCTTGACTT CATTAAAGCA TTTCAGGGAT GCACAGCAGC TGATGATAAG 
    ACAGCAGCCG TGGAGGATTT CCTGCGTTAC CTGTATGGAG CCATGGCCCA TGATGCCATC 
    TGGCAGTACG CCAGTGAAGA GCAGCTCCAG GACGCACAGA TGGCCATCGA ACGCAGCGTC 
    ATGAACCGCA TCTTCAAACT GGCATTCTAC CCCAATCAGG ATGGGGACAT CCACAGAGAC 
    GAGCTATTCC ATGAGCACAT TCAGCGACTG TCTAGAGTGG TGTCGGCCAA TCATAAAGCT 
    CTGCAGATCC CTGAGGTGTA TCTGAAAGAG GCTCCGTGGC CTTCTGCACA GGCTGAGATC 
    AAGACCATCA ACGCCTATAA GACCCCGCGA GATAAAGTGC AGTGTATCTT GCGCATGTGC 
    TCCACCATTA TGAACCTGCT CAGCCTGGCC AATGAGGATG CTGTACCCGG CGCGGATGAC 
    TTCGTCCCTG TGCTCGTCTT TGTTCTGATT AAAGCAAACC CACCCTGCCT TCTGTCCACC 
    ATTCAGTACA TCAATAATTT CTACGCCAGC AGGCTGAGCG GGGAGGAGTG CTATTGGTGG 
    ATGCAGTTCA CTGCTGCCGT GGAATTCATT AAAACCATCG ACGATCGCAA GTGA

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

    gapvd1 ( XM_009304096.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009302371.1 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ODa41046
    Clone ID Related Accession (Same CDS sequence) XM_009304096.2 , XM_009304096.3
    Accession Version XM_009304096.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4371bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1 isoform X5
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009304096.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGCTCTC GCAGCCGAAG CCGATCCAAC ATGGCCCAGG AAGGAGAGAC TGAAGCCAGT 
    TCTCAAGAGT CTCTGCAAGA GGTCCCCGAG GAAGTGCTGG TCATCTCTCT AGGAACATCA 
    CCACAGACCA TTCCCGGGAT GATGTCAGAA AACGAGGTTC TGACTTTGCA TCTTGGAGAT 
    GGAGGACAAG GTGACGCCCC TGTCGACGAC ACCAAATTAC ATGGCAAGCC TGACAAAACA 
    CTGCGCTTCT CACTTTGCAG TGACAACCTG GAGGGCATTT CTGAGGGGCC GTCTAACCGC 
    TCAAATTCAG TTTCTTCTTT GGATTTGGAA GTGGAGTCCG TGTCAGAAGG AGGACCAGGA 
    CCGTCTGGTA GTAACGGTGC AGAAGCCTTA CAGCTACTGG AGCACGAACA AGCCACTACA 
    CAGGATAATT TGGACGATAA ACTGCGCAAG TTTGAGATTC GGGACATGAT GGGCCTGACG 
    GATGACCGAG ACATTTCTGA GACGGTCAGT GAGACTTGGA GCACTGATGT CTTGGGGAGT 
    GACTTTGACC CCAACATGGA TGAGGACCGA CTGCAGGAGA TAGGGGCTGC AGCGGAGAAT 
    GCTCTGGGCA GCATGCTGTG TTTGCCTGTG CTTTTGGATC CATATGGTTC AACCATCTCA 
    GAGACCACGA GCGAGGCTTG GAGTGTGGAG GTTCTGCCGA GTGACTCAGA AGCTGCAGAC 
    CTGAAGCAGG AGGAACGTTT GCAGGAGCTG GAGAGCTGCT CCGGTGTGGG AAGCACTTCA 
    GACGACACAG AGGTCCGAGA GGTCAGCTCA AGACCAAGTA CTCCAGGACT CAGCGTTGTT 
    TCAGGCATCA GTGCCACGTC GGAGGACATC CCTAATAAGA TTGAAGACCT ACGCTCGGAA 
    TGCAGCTCCG ATTTTGGAGG CAAAGACTCC GTGACCAGTC CAGATGGAGA GGACTCTGCT 
    CATGGAGCTC ACAGTCTCTC CTGTGCACCT TCTCAAACAG ATTCACTGCT GGCCATGTTC 
    GATCCCCTCT CCTCTGGAGA AGGTTCGTGC ACTGGCACCA TAGTGCGACC CAAGGTACAC 
    TATCCTCGTC CTCCTCACCC TCCGCCTGAC CCACCCATTC CAGAGGCCAG CATAACCAGC 
    CACATGGAAC CCCGTCCGCC CCTCTTTCCT CCCCACCTGG CACAGGGTGA CCTGGAGCAC 
    CCCAAGCAGA GGCACTCTTA CCCTGAGAGG CTGGTGAGGA GCCGCAGCAC AGATGTGGTG 
    TCCGCTGGAC GCAGACCTAA CAGTGACCCC GGACTGAACC GCAGAACCAT GATGGAGGAG 
    AGAGACCCGG CTGGAGCTTA CTCTACTGGG CCCACCTCCT CTCCCAGCAA GGATTCCCTC 
    AAAGGAGAGT CTGAGGACAG GAAGGACAGT GATGATGAGA AGTCTGATAG GAACAGACCC 
    TGGTGGAAGA AGCGCTTTGT TCCTGCCATT CCTAAAGTGC TCTATTGGAC GGCAGAGGGT 
    GAACTCCCAG TGCCGATTGC CGGGCTTCGG AAGCGGGACA AGGCAGAAAA AGACGAGCAA 
    GGAGCAGAGA GGGTCCCACA AGATGAGCCT TCACTGCTCA GACAGAGCTC CAAAACCCAG 
    TCAGCAGAGG CAATTATGGA CAAGTACATC AGGTACATGG AGAAACGACC CGCACAGGCT 
    GACGGAGCAA CTGCTGGAGG TTATGTTGGA CAAGAGTCTT GTCGAGAAGG GGACAGTGAG 
    CACGACTCTC CTAAAGATGA AGCTCTGCAG AACATCTCTG CTGATGATCT TCCGGATTCT 
    GCCAGTCAGA CGGCACCACC TCAGGACAAG ACTTTCTCCT TCAGTGATAT TAAGAAGAAG 
    CTACGCCTGG CACTTTGCTC TGCAGATTCA GTTGTGTTTC CCATCATTCC ACCTGCAACA 
    ACACGCAACG GTCTTCCAGA TCATGCAGAT CCTGAAGACA ACGAGATTGT GTGCTTTCTG 
    AAGGTGCAGC TGGCGGAGGC CATTAACCTG CAGGATAAGA ACCAGATGGC ACAGATCCAG 
    GAGACCACGC GCTGCGTCAG CCACCTCGAC CCGCGCACCT GCAGAAAACT GCTCACTGCC 
    ATGGCAGAGG ACTACAGGAA GCGGGCTCCA TACATCGCCT ATCTGACACG TTGTCGGCAG 
    GGCCTGCAGA CATCTCAGGC TCATCTGGAG AGACTCCTGC AGAGAGTGTT GAGAGATAAA 
    GAAGTGGCCA ACCGCTACTT TACCACTGTC TGTGTCCGAC TACTGCTGGA GCACATGGAG 
    TCCAAGATGC TTGACTTCAT TAAAGCATTT CAGGGATGCA CAGCAGCTGA TGATAAGACA 
    GCAGCCGTGG AGGATTTCCT GCGTTACCTG TATGGAGCCA TGGCCCATGA TGCCATCTGG 
    CAGTACGCCA GTGAAGAGCA GCTCCAGGAC GCACAGATGG CCATCGAACG CAGCGTCATG 
    AACCGCATCT TCAAACTGGC ATTCTACCCC AATCAGGATG GGGACATCCA CAGAGACGAG 
    CTATTCCATG AGCACATTCA GCGACTGTCT AGAGTGGTGT CGGCCAATCA TAAAGCTCTG 
    CAGATCCCTG AGGTGTATCT GAAAGAGGCT CCGTGGCCTT CTGCACAGGC TGAGATCAAG 
    ACCATCAACG CCTATAAGAC CCCGCGAGAT AAAGTGCAGT GTATCTTGCG CATGTGCTCC 
    ACCATTATGA ACCTGCTCAG CCTGGCCAAT GAGGATGCTG TACCCGGCGC GGATGACTTC 
    GTCCCTGTGC TCGTCTTTGT TCTGATTAAA GCAAACCCAC CCTGCCTTCT GTCCACCATT 
    CAGTACATCA ATAATTTCTA CGCCAGCAGG CTGAGCGGGG AGGAGTGCTA TTGGTGGATG 
    CAGTTCACTG CTGCCGTGGA ATTCATTAAA ACCATCGACG ATCGCAAGTG A

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

    RefSeq XP_009302371.1
    CDS200..4570
    Translation

    Target ORF information:

    RefSeq Version XM_009304096.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009304096.2

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGCTCTC GCAGCCGAAG CCGATCCAAC ATGGCCCAGG AAGGAGAGAC TGAAGCCAGT 
    TCTCAAGAGT CTCTGCAAGA GGTCCCCGAG GAAGTGCTGG TCATCTCTCT AGGAACATCA 
    CCACAGACCA TTCCCGGGAT GATGTCAGAA AACGAGGTTC TGACTTTGCA TCTTGGAGAT 
    GGAGGACAAG GTGACGCCCC TGTCGACGAC ACCAAATTAC ATGGCAAGCC TGACAAAACA 
    CTGCGCTTCT CACTTTGCAG TGACAACCTG GAGGGCATTT CTGAGGGGCC GTCTAACCGC 
    TCAAATTCAG TTTCTTCTTT GGATTTGGAA GTGGAGTCCG TGTCAGAAGG AGGACCAGGA 
    CCGTCTGGTA GTAACGGTGC AGAAGCCTTA CAGCTACTGG AGCACGAACA AGCCACTACA 
    CAGGATAATT TGGACGATAA ACTGCGCAAG TTTGAGATTC GGGACATGAT GGGCCTGACG 
    GATGACCGAG ACATTTCTGA GACGGTCAGT GAGACTTGGA GCACTGATGT CTTGGGGAGT 
    GACTTTGACC CCAACATGGA TGAGGACCGA CTGCAGGAGA TAGGGGCTGC AGCGGAGAAT 
    GCTCTGGGCA GCATGCTGTG TTTGCCTGTG CTTTTGGATC CATATGGTTC AACCATCTCA 
    GAGACCACGA GCGAGGCTTG GAGTGTGGAG GTTCTGCCGA GTGACTCAGA AGCTGCAGAC 
    CTGAAGCAGG AGGAACGTTT GCAGGAGCTG GAGAGCTGCT CCGGTGTGGG AAGCACTTCA 
    GACGACACAG AGGTCCGAGA GGTCAGCTCA AGACCAAGTA CTCCAGGACT CAGCGTTGTT 
    TCAGGCATCA GTGCCACGTC GGAGGACATC CCTAATAAGA TTGAAGACCT ACGCTCGGAA 
    TGCAGCTCCG ATTTTGGAGG CAAAGACTCC GTGACCAGTC CAGATGGAGA GGACTCTGCT 
    CATGGAGCTC ACAGTCTCTC CTGTGCACCT TCTCAAACAG ATTCACTGCT GGCCATGTTC 
    GATCCCCTCT CCTCTGGAGA AGGTTCGTGC ACTGGCACCA TAGTGCGACC CAAGGTACAC 
    TATCCTCGTC CTCCTCACCC TCCGCCTGAC CCACCCATTC CAGAGGCCAG CATAACCAGC 
    CACATGGAAC CCCGTCCGCC CCTCTTTCCT CCCCACCTGG CACAGGGTGA CCTGGAGCAC 
    CCCAAGCAGA GGCACTCTTA CCCTGAGAGG CTGGTGAGGA GCCGCAGCAC AGATGTGGTG 
    TCCGCTGGAC GCAGACCTAA CAGTGACCCC GGACTGAACC GCAGAACCAT GATGGAGGAG 
    AGAGACCCGG CTGGAGCTTA CTCTACTGGG CCCACCTCCT CTCCCAGCAA GGATTCCCTC 
    AAAGGAGAGT CTGAGGACAG GAAGGACAGT GATGATGAGA AGTCTGATAG GAACAGACCC 
    TGGTGGAAGA AGCGCTTTGT TCCTGCCATT CCTAAAGTGC TCTATTGGAC GGCAGAGGGT 
    GAACTCCCAG TGCCGATTGC CGGGCTTCGG AAGCGGGACA AGGCAGAAAA AGACGAGCAA 
    GGAGCAGAGA GGGTCCCACA AGATGAGCCT TCACTGCTCA GACAGAGCTC CAAAACCCAG 
    TCAGCAGAGG CAATTATGGA CAAGTACATC AGGTACATGG AGAAACGACC CGCACAGGCT 
    GACGGAGCAA CTGCTGGAGG TTATGTTGGA CAAGAGTCTT GTCGAGAAGG GGACAGTGAG 
    CACGACTCTC CTAAAGATGA AGCTCTGCAG AACATCTCTG CTGATGATCT TCCGGATTCT 
    GCCAGTCAGA CGGCACCACC TCAGGACAAG ACTTTCTCCT TCAGTGATAT TAAGAAGAAG 
    CTACGCCTGG CACTTTGCTC TGCAGATTCA GTTGTGTTTC CCATCATTCC ACCTGCAACA 
    ACACGCAACG GTCTTCCAGA TCATGCAGAT CCTGAAGACA ACGAGATTGT GTGCTTTCTG 
    AAGGTGCAGC TGGCGGAGGC CATTAACCTG CAGGATAAGA ACCAGATGGC ACAGATCCAG 
    GAGACCACGC GCTGCGTCAG CCACCTCGAC CCGCGCACCT GCAGAAAACT GCTCACTGCC 
    ATGGCAGAGG ACTACAGGAA GCGGGCTCCA TACATCGCCT ATCTGACACG TTGTCGGCAG 
    GGCCTGCAGA CATCTCAGGC TCATCTGGAG AGACTCCTGC AGAGAGTGTT GAGAGATAAA 
    GAAGTGGCCA ACCGCTACTT TACCACTGTC TGTGTCCGAC TACTGCTGGA GCACATGGAG 
    TCCAAGATGC TTGACTTCAT TAAAGCATTT CAGGGATGCA CAGCAGCTGA TGATAAGACA 
    GCAGCCGTGG AGGATTTCCT GCGTTACCTG TATGGAGCCA TGGCCCATGA TGCCATCTGG 
    CAGTACGCCA GTGAAGAGCA GCTCCAGGAC GCACAGATGG CCATCGAACG CAGCGTCATG 
    AACCGCATCT TCAAACTGGC ATTCTACCCC AATCAGGATG GGGACATCCA CAGAGACGAG 
    CTATTCCATG AGCACATTCA GCGACTGTCT AGAGTGGTGT CGGCCAATCA TAAAGCTCTG 
    CAGATCCCTG AGGTGTATCT GAAAGAGGCT CCGTGGCCTT CTGCACAGGC TGAGATCAAG 
    ACCATCAACG CCTATAAGAC CCCGCGAGAT AAAGTGCAGT GTATCTTGCG CATGTGCTCC 
    ACCATTATGA ACCTGCTCAG CCTGGCCAAT GAGGATGCTG TACCCGGCGC GGATGACTTC 
    GTCCCTGTGC TCGTCTTTGT TCTGATTAAA GCAAACCCAC CCTGCCTTCT GTCCACCATT 
    CAGTACATCA ATAATTTCTA CGCCAGCAGG CTGAGCGGGG AGGAGTGCTA TTGGTGGATG 
    CAGTTCACTG CTGCCGTGGA ATTCATTAAA ACCATCGACG ATCGCAAGTG A

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

    gapvd1 ( XM_009304096.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009302371.1 Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ODa41046
    Clone ID Related Accession (Same CDS sequence) XM_009304096.2 , XM_009304096.3
    Accession Version XM_009304096.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4371bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product GTPase-activating protein and VPS9 domain-containing protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007119.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009304096.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGCTCTC GCAGCCGAAG CCGATCCAAC ATGGCCCAGG AAGGAGAGAC TGAAGCCAGT 
    TCTCAAGAGT CTCTGCAAGA GGTCCCCGAG GAAGTGCTGG TCATCTCTCT AGGAACATCA 
    CCACAGACCA TTCCCGGGAT GATGTCAGAA AACGAGGTTC TGACTTTGCA TCTTGGAGAT 
    GGAGGACAAG GTGACGCCCC TGTCGACGAC ACCAAATTAC ATGGCAAGCC TGACAAAACA 
    CTGCGCTTCT CACTTTGCAG TGACAACCTG GAGGGCATTT CTGAGGGGCC GTCTAACCGC 
    TCAAATTCAG TTTCTTCTTT GGATTTGGAA GTGGAGTCCG TGTCAGAAGG AGGACCAGGA 
    CCGTCTGGTA GTAACGGTGC AGAAGCCTTA CAGCTACTGG AGCACGAACA AGCCACTACA 
    CAGGATAATT TGGACGATAA ACTGCGCAAG TTTGAGATTC GGGACATGAT GGGCCTGACG 
    GATGACCGAG ACATTTCTGA GACGGTCAGT GAGACTTGGA GCACTGATGT CTTGGGGAGT 
    GACTTTGACC CCAACATGGA TGAGGACCGA CTGCAGGAGA TAGGGGCTGC AGCGGAGAAT 
    GCTCTGGGCA GCATGCTGTG TTTGCCTGTG CTTTTGGATC CATATGGTTC AACCATCTCA 
    GAGACCACGA GCGAGGCTTG GAGTGTGGAG GTTCTGCCGA GTGACTCAGA AGCTGCAGAC 
    CTGAAGCAGG AGGAACGTTT GCAGGAGCTG GAGAGCTGCT CCGGTGTGGG AAGCACTTCA 
    GACGACACAG AGGTCCGAGA GGTCAGCTCA AGACCAAGTA CTCCAGGACT CAGCGTTGTT 
    TCAGGCATCA GTGCCACGTC GGAGGACATC CCTAATAAGA TTGAAGACCT ACGCTCGGAA 
    TGCAGCTCCG ATTTTGGAGG CAAAGACTCC GTGACCAGTC CAGATGGAGA GGACTCTGCT 
    CATGGAGCTC ACAGTCTCTC CTGTGCACCT TCTCAAACAG ATTCACTGCT GGCCATGTTC 
    GATCCCCTCT CCTCTGGAGA AGGTTCGTGC ACTGGCACCA TAGTGCGACC CAAGGTACAC 
    TATCCTCGTC CTCCTCACCC TCCGCCTGAC CCACCCATTC CAGAGGCCAG CATAACCAGC 
    CACATGGAAC CCCGTCCGCC CCTCTTTCCT CCCCACCTGG CACAGGGTGA CCTGGAGCAC 
    CCCAAGCAGA GGCACTCTTA CCCTGAGAGG CTGGTGAGGA GCCGCAGCAC AGATGTGGTG 
    TCCGCTGGAC GCAGACCTAA CAGTGACCCC GGACTGAACC GCAGAACCAT GATGGAGGAG 
    AGAGACCCGG CTGGAGCTTA CTCTACTGGG CCCACCTCCT CTCCCAGCAA GGATTCCCTC 
    AAAGGAGAGT CTGAGGACAG GAAGGACAGT GATGATGAGA AGTCTGATAG GAACAGACCC 
    TGGTGGAAGA AGCGCTTTGT TCCTGCCATT CCTAAAGTGC TCTATTGGAC GGCAGAGGGT 
    GAACTCCCAG TGCCGATTGC CGGGCTTCGG AAGCGGGACA AGGCAGAAAA AGACGAGCAA 
    GGAGCAGAGA GGGTCCCACA AGATGAGCCT TCACTGCTCA GACAGAGCTC CAAAACCCAG 
    TCAGCAGAGG CAATTATGGA CAAGTACATC AGGTACATGG AGAAACGACC CGCACAGGCT 
    GACGGAGCAA CTGCTGGAGG TTATGTTGGA CAAGAGTCTT GTCGAGAAGG GGACAGTGAG 
    CACGACTCTC CTAAAGATGA AGCTCTGCAG AACATCTCTG CTGATGATCT TCCGGATTCT 
    GCCAGTCAGA CGGCACCACC TCAGGACAAG ACTTTCTCCT TCAGTGATAT TAAGAAGAAG 
    CTACGCCTGG CACTTTGCTC TGCAGATTCA GTTGTGTTTC CCATCATTCC ACCTGCAACA 
    ACACGCAACG GTCTTCCAGA TCATGCAGAT CCTGAAGACA ACGAGATTGT GTGCTTTCTG 
    AAGGTGCAGC TGGCGGAGGC CATTAACCTG CAGGATAAGA ACCAGATGGC ACAGATCCAG 
    GAGACCACGC GCTGCGTCAG CCACCTCGAC CCGCGCACCT GCAGAAAACT GCTCACTGCC 
    ATGGCAGAGG ACTACAGGAA GCGGGCTCCA TACATCGCCT ATCTGACACG TTGTCGGCAG 
    GGCCTGCAGA CATCTCAGGC TCATCTGGAG AGACTCCTGC AGAGAGTGTT GAGAGATAAA 
    GAAGTGGCCA ACCGCTACTT TACCACTGTC TGTGTCCGAC TACTGCTGGA GCACATGGAG 
    TCCAAGATGC TTGACTTCAT TAAAGCATTT CAGGGATGCA CAGCAGCTGA TGATAAGACA 
    GCAGCCGTGG AGGATTTCCT GCGTTACCTG TATGGAGCCA TGGCCCATGA TGCCATCTGG 
    CAGTACGCCA GTGAAGAGCA GCTCCAGGAC GCACAGATGG CCATCGAACG CAGCGTCATG 
    AACCGCATCT TCAAACTGGC ATTCTACCCC AATCAGGATG GGGACATCCA CAGAGACGAG 
    CTATTCCATG AGCACATTCA GCGACTGTCT AGAGTGGTGT CGGCCAATCA TAAAGCTCTG 
    CAGATCCCTG AGGTGTATCT GAAAGAGGCT CCGTGGCCTT CTGCACAGGC TGAGATCAAG 
    ACCATCAACG CCTATAAGAC CCCGCGAGAT AAAGTGCAGT GTATCTTGCG CATGTGCTCC 
    ACCATTATGA ACCTGCTCAG CCTGGCCAAT GAGGATGCTG TACCCGGCGC GGATGACTTC 
    GTCCCTGTGC TCGTCTTTGT TCTGATTAAA GCAAACCCAC CCTGCCTTCT GTCCACCATT 
    CAGTACATCA ATAATTTCTA CGCCAGCAGG CTGAGCGGGG AGGAGTGCTA TTGGTGGATG 
    CAGTTCACTG CTGCCGTGGA ATTCATTAAA ACCATCGACG ATCGCAAGTG A

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

    RefSeq XP_009302371.1
    CDS202..4572
    Translation

    Target ORF information:

    RefSeq Version XM_009304096.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio GTPase activating protein and VPS9 domains 1 (gapvd1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009304096.3

    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
    ATGGTGAAGC CAGACATTCA CACTCTGGCC CACCACCTGA AGCAGGAACG TCTCTATGTG 
    GCATCAGAGA AGCAGCTTAT CCAGCGGCTC AACAACGAGG TGCTAAAGAC AGCAGAAAGG 
    CTCTACCGCG CAGCCTGGAT CGCCAAACAA CAGAGGATCA ACCTCGACCG CCTCATTCTC 
    ACTAGTGCCG AGGCCTCACC TGCAGAATGC TGCCAGCATG CCAAGTTTCT GGAGGACACA 
    CAGTTTGTGG ATGGTTATAA AACACTGGGC TTTCAGGAGA GCATCTATGG AGAGTTCCTG 
    AGCCGATTGA GGGAGAACCC GCGATTGGTG GCGTCCTGTC TGGTGGCAGG AGAGAGACTT 
    AATAATGAGC ACACACAGGG GGTCATACAC ACTGTCTTCA CCACTCTCTA TGGCAACTGC 
    ATCATGCAGG AGGATGAAAG CTACCTGCTG CAGGTGCTGC GTTATTTGGT AGAATTTGAG 
    CTAAAGGAAA ATGACAACCC TCGTCGGTTG TTACGGCGAG GCACGTGTGC CTTCAGCATC 
    CTCTTCAAAC TCTTCTCCGA AGGCCTGTAT TCAGCTAAAC TTTTCCTCAC CGCTACTCTC 
    CACGAGCCCA TCATGCAGCT TCTGGTAGAG GACGAGGACC ATCTAGAGAC AGATCCAGCC 
    AAACTGATAG AGCGCTTTAC CCCAGCCCAG CAGGAGCGCC TGTTTGGGGA GAAAGGCACA 
    GACGAGTACC GCAGAAAGGT TCAAGCAGCA GTGGAGGAAA ATGAGGCCAA GCTGGTGGCT 
    CTTGTAAACA CCTTTATCGG CTACTTGAAG CAGAACACCT ACTGCTTCCC ACAGAGCCTG 
    CGCTGGATCG TGTCTCAGAT GTATAAGACG CTGGCACGAG TGGAGAGGTT GGAGGTTGGG 
    GAGGTGAGGA CGATGTGCAC AGACTTGCTG CTCACCTGCT TCATCTGTCC AGCCATCGTC 
    AACCCCGAAC AGTACGGCAT CATCTCAGAT GCACCCATCA ATGAGGTGGC ACGCTTCAAC 
    CTCATGCAGG TGGGGCAGTT GTTGCAGCAG TTAGCAATGT CTGATGCAGA TGATGGAGAT 
    CCTCGACGTA AAAGCAGTTT ATTAAAGTTT GACAAGATGT GTGTTGCCGC CTTTTTGGAC 
    GTGGTCATTG GTGGAAGGGC TGTCGAGACT CCACCGATGT CGTCAATGAA TTTACTGGAG 
    GGCCTCACAC GGACTGTTGT TTACATGACT CATAATCAGC TTTTAGCTTT GGTGGACTTT 
    GTGCGCAGTG TTACAGCAGG CGATCAGCTC AGAGAGGAAG AGCATCTGGC TCTAGAAACT 
    CTTCTTGCTA ATGTTCCTCA GTCCCGCACA ACAAAGAGCA ACAGTCTGGA GCTCACGCCC 
    TCAAACACAC CCCAGCTCTC CCCTGCTACT ACACCTGCAA ACAAGAAGAA CAGACTCCCC 
    ATTGGCTCTC GCAGCCGAAG CCGATCCAAC ATGGCCCAGG AAGGAGAGAC TGAAGCCAGT 
    TCTCAAGAGT CTCTGCAAGA GGTCCCCGAG GAAGTGCTGG TCATCTCTCT AGGAACATCA 
    CCACAGACCA TTCCCGGGAT GATGTCAGAA AACGAGGTTC TGACTTTGCA TCTTGGAGAT 
    GGAGGACAAG GTGACGCCCC TGTCGACGAC ACCAAATTAC ATGGCAAGCC TGACAAAACA 
    CTGCGCTTCT CACTTTGCAG TGACAACCTG GAGGGCATTT CTGAGGGGCC GTCTAACCGC 
    TCAAATTCAG TTTCTTCTTT GGATTTGGAA GTGGAGTCCG TGTCAGAAGG AGGACCAGGA 
    CCGTCTGGTA GTAACGGTGC AGAAGCCTTA CAGCTACTGG AGCACGAACA AGCCACTACA 
    CAGGATAATT TGGACGATAA ACTGCGCAAG TTTGAGATTC GGGACATGAT GGGCCTGACG 
    GATGACCGAG ACATTTCTGA GACGGTCAGT GAGACTTGGA GCACTGATGT CTTGGGGAGT 
    GACTTTGACC CCAACATGGA TGAGGACCGA CTGCAGGAGA TAGGGGCTGC AGCGGAGAAT 
    GCTCTGGGCA GCATGCTGTG TTTGCCTGTG CTTTTGGATC CATATGGTTC AACCATCTCA 
    GAGACCACGA GCGAGGCTTG GAGTGTGGAG GTTCTGCCGA GTGACTCAGA AGCTGCAGAC 
    CTGAAGCAGG AGGAACGTTT GCAGGAGCTG GAGAGCTGCT CCGGTGTGGG AAGCACTTCA 
    GACGACACAG AGGTCCGAGA GGTCAGCTCA AGACCAAGTA CTCCAGGACT CAGCGTTGTT 
    TCAGGCATCA GTGCCACGTC GGAGGACATC CCTAATAAGA TTGAAGACCT ACGCTCGGAA 
    TGCAGCTCCG ATTTTGGAGG CAAAGACTCC GTGACCAGTC CAGATGGAGA GGACTCTGCT 
    CATGGAGCTC ACAGTCTCTC CTGTGCACCT TCTCAAACAG ATTCACTGCT GGCCATGTTC 
    GATCCCCTCT CCTCTGGAGA AGGTTCGTGC ACTGGCACCA TAGTGCGACC CAAGGTACAC 
    TATCCTCGTC CTCCTCACCC TCCGCCTGAC CCACCCATTC CAGAGGCCAG CATAACCAGC 
    CACATGGAAC CCCGTCCGCC CCTCTTTCCT CCCCACCTGG CACAGGGTGA CCTGGAGCAC 
    CCCAAGCAGA GGCACTCTTA CCCTGAGAGG CTGGTGAGGA GCCGCAGCAC AGATGTGGTG 
    TCCGCTGGAC GCAGACCTAA CAGTGACCCC GGACTGAACC GCAGAACCAT GATGGAGGAG 
    AGAGACCCGG CTGGAGCTTA CTCTACTGGG CCCACCTCCT CTCCCAGCAA GGATTCCCTC 
    AAAGGAGAGT CTGAGGACAG GAAGGACAGT GATGATGAGA AGTCTGATAG GAACAGACCC 
    TGGTGGAAGA AGCGCTTTGT TCCTGCCATT CCTAAAGTGC TCTATTGGAC GGCAGAGGGT 
    GAACTCCCAG TGCCGATTGC CGGGCTTCGG AAGCGGGACA AGGCAGAAAA AGACGAGCAA 
    GGAGCAGAGA GGGTCCCACA AGATGAGCCT TCACTGCTCA GACAGAGCTC CAAAACCCAG 
    TCAGCAGAGG CAATTATGGA CAAGTACATC AGGTACATGG AGAAACGACC CGCACAGGCT 
    GACGGAGCAA CTGCTGGAGG TTATGTTGGA CAAGAGTCTT GTCGAGAAGG GGACAGTGAG 
    CACGACTCTC CTAAAGATGA AGCTCTGCAG AACATCTCTG CTGATGATCT TCCGGATTCT 
    GCCAGTCAGA CGGCACCACC TCAGGACAAG ACTTTCTCCT TCAGTGATAT TAAGAAGAAG 
    CTACGCCTGG CACTTTGCTC TGCAGATTCA GTTGTGTTTC CCATCATTCC ACCTGCAACA 
    ACACGCAACG GTCTTCCAGA TCATGCAGAT CCTGAAGACA ACGAGATTGT GTGCTTTCTG 
    AAGGTGCAGC TGGCGGAGGC CATTAACCTG CAGGATAAGA ACCAGATGGC ACAGATCCAG 
    GAGACCACGC GCTGCGTCAG CCACCTCGAC CCGCGCACCT GCAGAAAACT GCTCACTGCC 
    ATGGCAGAGG ACTACAGGAA GCGGGCTCCA TACATCGCCT ATCTGACACG TTGTCGGCAG 
    GGCCTGCAGA CATCTCAGGC TCATCTGGAG AGACTCCTGC AGAGAGTGTT GAGAGATAAA 
    GAAGTGGCCA ACCGCTACTT TACCACTGTC TGTGTCCGAC TACTGCTGGA GCACATGGAG 
    TCCAAGATGC TTGACTTCAT TAAAGCATTT CAGGGATGCA CAGCAGCTGA TGATAAGACA 
    GCAGCCGTGG AGGATTTCCT GCGTTACCTG TATGGAGCCA TGGCCCATGA TGCCATCTGG 
    CAGTACGCCA GTGAAGAGCA GCTCCAGGAC GCACAGATGG CCATCGAACG CAGCGTCATG 
    AACCGCATCT TCAAACTGGC ATTCTACCCC AATCAGGATG GGGACATCCA CAGAGACGAG 
    CTATTCCATG AGCACATTCA GCGACTGTCT AGAGTGGTGT CGGCCAATCA TAAAGCTCTG 
    CAGATCCCTG AGGTGTATCT GAAAGAGGCT CCGTGGCCTT CTGCACAGGC TGAGATCAAG 
    ACCATCAACG CCTATAAGAC CCCGCGAGAT AAAGTGCAGT GTATCTTGCG CATGTGCTCC 
    ACCATTATGA ACCTGCTCAG CCTGGCCAAT GAGGATGCTG TACCCGGCGC GGATGACTTC 
    GTCCCTGTGC TCGTCTTTGT TCTGATTAAA GCAAACCCAC CCTGCCTTCT GTCCACCATT 
    CAGTACATCA ATAATTTCTA CGCCAGCAGG CTGAGCGGGG AGGAGTGCTA TTGGTGGATG 
    CAGTTCACTG CTGCCGTGGA ATTCATTAAA ACCATCGACG ATCGCAAGTG A

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

  • PubMed

    Evolution of complexity in the zebrafish synapse proteome.
    Nature communications814613(2017 Mar)
    Bay?s ?,Collins MO,Reig-Viader R,Gou G,Goulding D,Izquierdo A,Choudhary JS,Emes RD,Grant SG


    Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences.
    Proceedings of the National Academy of Sciences of the United States of America99(26)16899-903(2002 Dec)
    Strausberg RL,Feingold EA,Grouse LH,Derge JG,Klausner RD,Collins FS,Wagner L,Shenmen CM,Schuler GD,Altschul SF,Zeeberg B,Buetow KH,Schaefer CF,Bhat NK,Hopkins RF,Jordan H,Moore T,Max SI,Wang J,Hsieh F,Diatchenko L,Marusina K,Farmer AA,Rubin GM,Hong L,Stapleton M,Soares MB,Bonaldo MF,Casavant TL,Scheetz TE,Brownstein MJ,Usdin TB,Toshiyuki S,Carninci P,Prange C,Raha SS,Loquellano NA,Peters GJ,Abramson RD,Mullahy SJ,Bosak SA,McEwan PJ,McKernan KJ,Malek JA,Gunaratne PH,Richards S,Worley KC,Hale S,Garcia AM,Gay LJ,Hulyk SW,Villalon DK,Muzny DM,Sodergren EJ,Lu X,Gibbs RA,Fahey J,Helton E,Ketteman M,Madan A,Rodrigues S,Sanchez A,Whiting M,Madan A,Young AC,Shevchenko Y,Bouffard GG,Blakesley RW,Touchman JW,Green ED,Dickson MC,Rodriguez AC,Grimwood J,Schmutz J,Myers RM,Butterfield YS,Krzywinski MI,Skalska U,Smailus DE,Schnerch A,Schein JE,Jones SJ,Marra MA,


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