ORF » Species Summary » Danio rerio » ccdc30 cDNA ORF clone

ccdc30 cDNA ORF clone, Danio rerio(zebrafish)

The following ccdc30 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ccdc30 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
ODa151554 XM_021469943.1
Latest version!		 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa27669 XM_686840.8
Latest version!		 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa27669 XM_005162131.4
Latest version!		 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa27671 XM_005162133.4
Latest version!		 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa27672 XM_005162134.4
Latest version!		 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
View Old Accession Versions >>
ODa27669 XM_005162131.3 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa27672 XM_005162134.3 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa27669 XM_686840.7 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa27671 XM_005162133.3 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
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)
    ccdc30 ( XM_021469943.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021325618.1 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ODa151554
    Clone ID Related Accession (Same CDS sequence) XM_021469943.1
    Accession Version XM_021469943.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3648bp)
    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 coiled-coil domain-containing protein 30 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGTGTG TACTGTTGAG 
    GAGGTCAAGA AAATGTTTCC ATCTGGAGCT CATCAAGATG GTTTGTTGCG AACATCAACT 
    CCAAGAGTCA AAGTGGGTGA ATCTGGAGTG AAGAGCATGG AGATCTCCTC ATCTGTGCCT 
    GTTTCACAGT CCACTGAGAT AGGCTACCTG AACCTGACCT CCCCTCTGAC TCCCAACAGC 
    AGGTTAGAGC AGGAGGAGAG TCTCAGTGCC ACAAGCGATG AGGCCTGA

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

    RefSeq XP_021325618.1
    CDS590..4237
    Translation

    Target ORF information:

    RefSeq Version XM_021469943.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021469943.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGTGTG TACTGTTGAG 
    GAGGTCAAGA AAATGTTTCC ATCTGGAGCT CATCAAGATG GTTTGTTGCG AACATCAACT 
    CCAAGAGTCA AAGTGGGTGA ATCTGGAGTG AAGAGCATGG AGATCTCCTC ATCTGTGCCT 
    GTTTCACAGT CCACTGAGAT AGGCTACCTG AACCTGACCT CCCCTCTGAC TCCCAACAGC 
    AGGTTAGAGC AGGAGGAGAG TCTCAGTGCC ACAAGCGATG AGGCCTGA

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

    ccdc30 ( XM_005162131.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005162188.1 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa27669
    Clone ID Related Accession (Same CDS sequence) XM_005162131.3 , XM_686840.7 , XM_005162131.4 , XM_686840.8
    Accession Version XM_005162131.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3699bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product coiled-coil domain-containing protein 30 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.6) 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_005162131.2. ##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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGTGTG TACTGTTGAG 
    GAGGTCAAGA AAATGTTTCC ATCTGGAGCT CATCAAGATG GTTTGTTGCG AACATCAACT 
    CCAAGTCCAC AGCCTGGTCT CTGTGACTCA TGGGGAATAT TGGATGCCAT CCGCAGAGTC 
    AAAGTGGGTG AATCTGGAGT GAAGAGCATG GAGATCTCCT CATCTGTGCC TGTTTCACAG 
    TCCACTGAGA TAGGCTACCT GAACCTGACC TCCCCTCTGA CTCCCAACAG CAGGTTAGAG 
    CAGGAGGAGA GTCTCAGTGC CACAAGCGAT GAGGCCTGA

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

    RefSeq XP_005162188.1
    CDS579..4277
    Translation

    Target ORF information:

    RefSeq Version XM_005162131.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005162131.3

    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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGTGTG TACTGTTGAG 
    GAGGTCAAGA AAATGTTTCC ATCTGGAGCT CATCAAGATG GTTTGTTGCG AACATCAACT 
    CCAAGTCCAC AGCCTGGTCT CTGTGACTCA TGGGGAATAT TGGATGCCAT CCGCAGAGTC 
    AAAGTGGGTG AATCTGGAGT GAAGAGCATG GAGATCTCCT CATCTGTGCC TGTTTCACAG 
    TCCACTGAGA TAGGCTACCT GAACCTGACC TCCCCTCTGA CTCCCAACAG CAGGTTAGAG 
    CAGGAGGAGA GTCTCAGTGC CACAAGCGAT GAGGCCTGA

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

    ccdc30 ( XM_686840.7 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_691932.5 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa27669
    Clone ID Related Accession (Same CDS sequence) XM_005162131.3 , XM_686840.7 , XM_005162131.4 , XM_686840.8
    Accession Version XM_686840.7 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3699bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product coiled-coil domain-containing protein 30 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.6) 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_686840.6. ##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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGTGTG TACTGTTGAG 
    GAGGTCAAGA AAATGTTTCC ATCTGGAGCT CATCAAGATG GTTTGTTGCG AACATCAACT 
    CCAAGTCCAC AGCCTGGTCT CTGTGACTCA TGGGGAATAT TGGATGCCAT CCGCAGAGTC 
    AAAGTGGGTG AATCTGGAGT GAAGAGCATG GAGATCTCCT CATCTGTGCC TGTTTCACAG 
    TCCACTGAGA TAGGCTACCT GAACCTGACC TCCCCTCTGA CTCCCAACAG CAGGTTAGAG 
    CAGGAGGAGA GTCTCAGTGC CACAAGCGAT GAGGCCTGA

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

    RefSeq XP_691932.5
    CDS583..4281
    Translation

    Target ORF information:

    RefSeq Version XM_686840.7
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_686840.7

    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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGTGTG TACTGTTGAG 
    GAGGTCAAGA AAATGTTTCC ATCTGGAGCT CATCAAGATG GTTTGTTGCG AACATCAACT 
    CCAAGTCCAC AGCCTGGTCT CTGTGACTCA TGGGGAATAT TGGATGCCAT CCGCAGAGTC 
    AAAGTGGGTG AATCTGGAGT GAAGAGCATG GAGATCTCCT CATCTGTGCC TGTTTCACAG 
    TCCACTGAGA TAGGCTACCT GAACCTGACC TCCCCTCTGA CTCCCAACAG CAGGTTAGAG 
    CAGGAGGAGA GTCTCAGTGC CACAAGCGAT GAGGCCTGA

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

    ccdc30 ( XM_005162131.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005162188.1 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa27669
    Clone ID Related Accession (Same CDS sequence) XM_005162131.3 , XM_686840.7 , XM_005162131.4 , XM_686840.8
    Accession Version XM_005162131.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3699bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product coiled-coil domain-containing protein 30 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.7) 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_005162131.3. ##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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGTGTG TACTGTTGAG 
    GAGGTCAAGA AAATGTTTCC ATCTGGAGCT CATCAAGATG GTTTGTTGCG AACATCAACT 
    CCAAGTCCAC AGCCTGGTCT CTGTGACTCA TGGGGAATAT TGGATGCCAT CCGCAGAGTC 
    AAAGTGGGTG AATCTGGAGT GAAGAGCATG GAGATCTCCT CATCTGTGCC TGTTTCACAG 
    TCCACTGAGA TAGGCTACCT GAACCTGACC TCCCCTCTGA CTCCCAACAG CAGGTTAGAG 
    CAGGAGGAGA GTCTCAGTGC CACAAGCGAT GAGGCCTGA

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

    RefSeq XP_005162188.1
    CDS586..4284
    Translation

    Target ORF information:

    RefSeq Version XM_005162131.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005162131.4

    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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGTGTG TACTGTTGAG 
    GAGGTCAAGA AAATGTTTCC ATCTGGAGCT CATCAAGATG GTTTGTTGCG AACATCAACT 
    CCAAGTCCAC AGCCTGGTCT CTGTGACTCA TGGGGAATAT TGGATGCCAT CCGCAGAGTC 
    AAAGTGGGTG AATCTGGAGT GAAGAGCATG GAGATCTCCT CATCTGTGCC TGTTTCACAG 
    TCCACTGAGA TAGGCTACCT GAACCTGACC TCCCCTCTGA CTCCCAACAG CAGGTTAGAG 
    CAGGAGGAGA GTCTCAGTGC CACAAGCGAT GAGGCCTGA

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

    ccdc30 ( XM_686840.8 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_691932.5 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa27669
    Clone ID Related Accession (Same CDS sequence) XM_005162131.3 , XM_686840.7 , XM_005162131.4 , XM_686840.8
    Accession Version XM_686840.8 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3699bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product coiled-coil domain-containing protein 30 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.7) 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_686840.7. ##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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGTGTG TACTGTTGAG 
    GAGGTCAAGA AAATGTTTCC ATCTGGAGCT CATCAAGATG GTTTGTTGCG AACATCAACT 
    CCAAGTCCAC AGCCTGGTCT CTGTGACTCA TGGGGAATAT TGGATGCCAT CCGCAGAGTC 
    AAAGTGGGTG AATCTGGAGT GAAGAGCATG GAGATCTCCT CATCTGTGCC TGTTTCACAG 
    TCCACTGAGA TAGGCTACCT GAACCTGACC TCCCCTCTGA CTCCCAACAG CAGGTTAGAG 
    CAGGAGGAGA GTCTCAGTGC CACAAGCGAT GAGGCCTGA

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

    RefSeq XP_691932.5
    CDS590..4288
    Translation

    Target ORF information:

    RefSeq Version XM_686840.8
    Organism Danio rerio(zebrafish)
    Definition Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_686840.8

    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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGTGTG TACTGTTGAG 
    GAGGTCAAGA AAATGTTTCC ATCTGGAGCT CATCAAGATG GTTTGTTGCG AACATCAACT 
    CCAAGTCCAC AGCCTGGTCT CTGTGACTCA TGGGGAATAT TGGATGCCAT CCGCAGAGTC 
    AAAGTGGGTG AATCTGGAGT GAAGAGCATG GAGATCTCCT CATCTGTGCC TGTTTCACAG 
    TCCACTGAGA TAGGCTACCT GAACCTGACC TCCCCTCTGA CTCCCAACAG CAGGTTAGAG 
    CAGGAGGAGA GTCTCAGTGC CACAAGCGAT GAGGCCTGA

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

    ccdc30 ( XM_005162133.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005162190.1 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa27671
    Clone ID Related Accession (Same CDS sequence) XM_005162133.3 , XM_005162133.4
    Accession Version XM_005162133.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3684bp)
    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 coiled-coil domain-containing protein 30 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.6) 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_005162133.2. ##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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGAGGT CAAGAAAATG 
    TTTCCATCTG GAGCTCATCA AGATGGTTTG TTGCGAACAT CAACTCCAAG TCCACAGCCT 
    GGTCTCTGTG ACTCATGGGG AATATTGGAT GCCATCCGCA GAGTCAAAGT GGGTGAATCT 
    GGAGTGAAGA GCATGGAGAT CTCCTCATCT GTGCCTGTTT CACAGTCCAC TGAGATAGGC 
    TACCTGAACC TGACCTCCCC TCTGACTCCC AACAGCAGGT TAGAGCAGGA GGAGAGTCTC 
    AGTGCCACAA GCGATGAGGC CTGA

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

    RefSeq XP_005162190.1
    CDS583..4266
    Translation

    Target ORF information:

    RefSeq Version XM_005162133.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005162133.3

    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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGAGGT CAAGAAAATG 
    TTTCCATCTG GAGCTCATCA AGATGGTTTG TTGCGAACAT CAACTCCAAG TCCACAGCCT 
    GGTCTCTGTG ACTCATGGGG AATATTGGAT GCCATCCGCA GAGTCAAAGT GGGTGAATCT 
    GGAGTGAAGA GCATGGAGAT CTCCTCATCT GTGCCTGTTT CACAGTCCAC TGAGATAGGC 
    TACCTGAACC TGACCTCCCC TCTGACTCCC AACAGCAGGT TAGAGCAGGA GGAGAGTCTC 
    AGTGCCACAA GCGATGAGGC CTGA

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

    ccdc30 ( XM_005162133.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005162190.1 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa27671
    Clone ID Related Accession (Same CDS sequence) XM_005162133.3 , XM_005162133.4
    Accession Version XM_005162133.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3684bp)
    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 coiled-coil domain-containing protein 30 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.7) 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_005162133.3. ##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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGAGGT CAAGAAAATG 
    TTTCCATCTG GAGCTCATCA AGATGGTTTG TTGCGAACAT CAACTCCAAG TCCACAGCCT 
    GGTCTCTGTG ACTCATGGGG AATATTGGAT GCCATCCGCA GAGTCAAAGT GGGTGAATCT 
    GGAGTGAAGA GCATGGAGAT CTCCTCATCT GTGCCTGTTT CACAGTCCAC TGAGATAGGC 
    TACCTGAACC TGACCTCCCC TCTGACTCCC AACAGCAGGT TAGAGCAGGA GGAGAGTCTC 
    AGTGCCACAA GCGATGAGGC CTGA

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

    RefSeq XP_005162190.1
    CDS590..4273
    Translation

    Target ORF information:

    RefSeq Version XM_005162133.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005162133.4

    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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGAAT CAACTGTTCA AAGTCCATGG 
    AAGAAGTTCT TTGGTGTGCG CAAGGCTACA CTTAGAGTAC AGAACCTTCC TGTTCACGGT 
    GAAGAGCTTG GTAGAGAACG AAAGAGGCTG GAGAGAGATC TGGAAGAGGC ATCGAATCGT 
    CTTGCTATGG CACACAAAGA GATTCGCCAC CTGACCGATG AACTAGATGT CGCTCGTAAG 
    GTCCAGAACT TTTGTGCACC AGATCTGCAG AAAACTGGGG AGGAGGTAGA GCAATTAAAA 
    CAGGAAGTGG ATAAGCTGAA ACAGTGTGAT ATGGTGGAGC TGCAGAAGGC GAAGGAACGT 
    AATGAAAGAC TGGACGGGGA GATTCGTGTG TTAAGGGATA GAGTTCGCTC TTTGGACACA 
    GAGAGGAGAA CTCTTCTTAA ACTGGTTGAA CAATCAAATC TGCACTCGAC TCAAGGGATC 
    AGTGTGTCAT TGGAGCACAA TAAAATACAA TCTATACAGA GTGTCGGGAA TAATGTCAAT 
    CGTGATTCAT CACTGGCTGA AGAGGATGAG ATACTCCACA AAAGGTGTCG GAGAGAGTCT 
    GAGGATAAGG ACAGTCGACT GCGAGAGCTG GAGAGGAGGT TGCAGAAGCA GCAGCGGGAG 
    CACGAGGACC TGGTGGAGCG CAATGAAGAG CTGGAGGCAC TGCTGGGGGA GGCGCAGAAC 
    ACAACTAAGG ATGAGCGAGA ACACCATGAG TGTGAGATAG AGGGCTTACA GAGAAAGATC 
    AAAAGTATTG AGGAAGAACT GAGAAAGAGG GACAATAAGA AAGTTGAAAA AAAGGATGAA 
    GATCTGTTTC GAGGGACTGA CTCTGAGATT AGCGAGAGCA TTCAAGAAAG GCTTAAGTTC 
    CTTGAGAGTC GTCTTACTGA AGAAAAGGGT TGGAGGAAAC AGCTGGAAGT GGATCTATCT 
    GTAGCCAAGG CTGCTCTCAA AAAGGAAAAA GAGGTTATGC AAAGAGACCA TGAGGAGCTG 
    AAGAGATTAC GTGTAGAGGT TCAGAGGCTG GAGGTGGAAT GTCGTCAAGG GAAGACTCTT 
    AACAAGAACC TCACGCAGGT TAAAGGAGAA AAGGGAATTT TGGAAGAAAA AGTGGCCCAG 
    TTGGAGCGTG CTCAGTCTCG AATCCAGGAT GACCTGACCC TTCAGAAAGA GAACAGCCAG 
    GCTGAAGAGG ACCTGAGAGA CAGCAGGGGA CAGGTGGCAG AGCTTAAGTC CATGGTGGAC 
    AAGCTGCGAA CAGAACTGAC TCGTCTAGAG AAGGAGCACA ACACCCTCAG AGATGAGCTG 
    ATGGAGAAGC GTGGACTTGT GCTGCAGCTG CAGAAGGAGC TCAGTGAGAA AGCCCATGAG 
    AGGCTTCAGA CCGATGGAGA GAAGGAGAGA CTCAGTCTGG AACTCCTGCA TCTGCAGCAG 
    CAGCTCCAGT ACACCAGAGA ACAGATACCC AGATCTGCAC AGGAACATAC AGCTAACCAC 
    AAGGCCACTG CTCAGAATGA AGGAAGTTGT CAGCTGGCCT GTGTGAAGTC AGAGGTGAGT 
    AAACTACACT CCACCCTGGA GGAGGAGAGA CAGCTGGCCA GTCAACACCA GCTGGCCCTG 
    CAGGCCCAGA TTGCTGAAGC TCAATCCCGG GTTAAGGCTC AAGACTCACT TCTACAGCAA 
    AAAGGAGAAG AGAACAAACA GCTAAAACAG GACCTGCAGA GAACCCAGCA CCTCTTCACC 
    TCGGCTGAGC GAGAGCTACG CTACGAGAGA GAGAAAAATC TTGACCTTAA GAGACACATT 
    GCACTCCTAG ACCAGGAGAA GGTCAAGCTG TGTGCAGAGC TGAAGCAGGC CCAGGCCAAA 
    GTAGCCCAGC ATGAGGGGAA CGCAGCAGGA CAGGTGGCAG AGCTGGAGCG ACTCCAGCAG 
    AGGGCCAGAG ATCTGGAGCT GGAGATGGCC AGAAGCTCTC AGAACCGTCA GACAAACAGC 
    AGCCTAATGG ATGAGCTTAA TTCACAGAGG TCACGTGTGA TCGCTGCTGA CAAGAAGGTT 
    GTTGAACTGC AGCAGCAACT GAAAAATGCT CTGCACCAAC TGCGCCTGGA GGAGGCCAGA 
    TCAGGAGAAA CCAGCAAACT GGAGAGAGAC ACCAGAGACA TGTCTGATAA CCTGTCTGCT 
    CTCAGAGCCC ATTTGCAAGA GGAGCAGTTA CAGAGGAAAT TACTTGAGCA GAAGGATGAG 
    GAGCTCCAGC AGCATGTGCG CTCATTGCGG GCCAAGGAGG CAAGTTTGGT ACGCACCAAC 
    TTGGAAATAT CTCACCGTGT ACAGGAGTTG GAGACTCGAC TGCAGGTCAT GGAGAGTGAA 
    CTTAACACAG CTAGAGAAGA GCAGAGAAGC GGCCAGAAGA GCTGCCACAG GCTGGAAGAA 
    CAGCTGCTGT CTGCCCAGCA CGAGTCTGAG AGACTGCAGG AAGAGCTGAA GCTGGTCGTC 
    CAGCAGCTTG ACACAAATGT CAGGAGATAC AATGAAAAAC AGTCACAGCA GAAAACCAAG 
    TTGCGCAGAG CTAAACAGAT CTTCATGAAG ACAGTCAGCC AACATGAGCA AAGGATCCAG 
    CAGCTGGAAA ATGATCTGGC TCTTGCAACA AGTCTCTCAG AGAAAGAGAA GGACTGGATT 
    AGGACTGTAA CAGAAGAAAA CGAGCAACTC CTTCTGGAGA GACGAGAACT TCTTCAGCGA 
    ATAAGTGAGG CAGAGGAGAT GGGGAACAAT GGACTGAGAA CCGCTACTAC AACCCAGCAG 
    AGAGTTAAAT TCCTGGAAAT GGAGAACAAA CAGCTGCAGG AGAAAACTCT AACACTGGCC 
    AATCAGATAG GAATTTTAGA TCGTGCATTG AGAAACCTTC AGTCGGAGGT CAAGAAAATG 
    TTTCCATCTG GAGCTCATCA AGATGGTTTG TTGCGAACAT CAACTCCAAG TCCACAGCCT 
    GGTCTCTGTG ACTCATGGGG AATATTGGAT GCCATCCGCA GAGTCAAAGT GGGTGAATCT 
    GGAGTGAAGA GCATGGAGAT CTCCTCATCT GTGCCTGTTT CACAGTCCAC TGAGATAGGC 
    TACCTGAACC TGACCTCCCC TCTGACTCCC AACAGCAGGT TAGAGCAGGA GGAGAGTCTC 
    AGTGCCACAA GCGATGAGGC CTGA

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

    ccdc30 ( XM_005162134.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005162191.1 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ODa27672
    Clone ID Related Accession (Same CDS sequence) XM_005162134.4 , XM_005162134.3
    Accession Version XM_005162134.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3624bp)
    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 coiled-coil domain-containing protein 30 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.7) 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_005162134.3. ##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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGTTC ACGGTGAAGA GCTTGGTAGA 
    GAACGAAAGA GGCTGGAGAG AGATCTGGAA GAGGCATCGA ATCGTCTTGC TATGGCACAC 
    AAAGAGATTC GCCACCTGAC CGATGAACTA GATGTCGCTC GTAAGGTCCA GAACTTTTGT 
    GCACCAGATC TGCAGAAAAC TGGGGAGGAG GTAGAGCAAT TAAAACAGGA AGTGGATAAG 
    CTGAAACAGT GTGATATGGT GGAGCTGCAG AAGGCGAAGG AACGTAATGA AAGACTGGAC 
    GGGGAGATTC GTGTGTTAAG GGATAGAGTT CGCTCTTTGG ACACAGAGAG GAGAACTCTT 
    CTTAAACTGG TTGAACAATC AAATCTGCAC TCGACTCAAG GGATCAGTGT GTCATTGGAG 
    CACAATAAAA TACAATCTAT ACAGAGTGTC GGGAATAATG TCAATCGTGA TTCATCACTG 
    GCTGAAGAGG ATGAGATACT CCACAAAAGG TGTCGGAGAG AGTCTGAGGA TAAGGACAGT 
    CGACTGCGAG AGCTGGAGAG GAGGTTGCAG AAGCAGCAGC GGGAGCACGA GGACCTGGTG 
    GAGCGCAATG AAGAGCTGGA GGCACTGCTG GGGGAGGCGC AGAACACAAC TAAGGATGAG 
    CGAGAACACC ATGAGTGTGA GATAGAGGGC TTACAGAGAA AGATCAAAAG TATTGAGGAA 
    GAACTGAGAA AGAGGGACAA TAAGAAAGTT GAAAAAAAGG ATGAAGATCT GTTTCGAGGG 
    ACTGACTCTG AGATTAGCGA GAGCATTCAA GAAAGGCTTA AGTTCCTTGA GAGTCGTCTT 
    ACTGAAGAAA AGGGTTGGAG GAAACAGCTG GAAGTGGATC TATCTGTAGC CAAGGCTGCT 
    CTCAAAAAGG AAAAAGAGGT TATGCAAAGA GACCATGAGG AGCTGAAGAG ATTACGTGTA 
    GAGGTTCAGA GGCTGGAGGT GGAATGTCGT CAAGGGAAGA CTCTTAACAA GAACCTCACG 
    CAGGTTAAAG GAGAAAAGGG AATTTTGGAA GAAAAAGTGG CCCAGTTGGA GCGTGCTCAG 
    TCTCGAATCC AGGATGACCT GACCCTTCAG AAAGAGAACA GCCAGGCTGA AGAGGACCTG 
    AGAGACAGCA GGGGACAGGT GGCAGAGCTT AAGTCCATGG TGGACAAGCT GCGAACAGAA 
    CTGACTCGTC TAGAGAAGGA GCACAACACC CTCAGAGATG AGCTGATGGA GAAGCGTGGA 
    CTTGTGCTGC AGCTGCAGAA GGAGCTCAGT GAGAAAGCCC ATGAGAGGCT TCAGACCGAT 
    GGAGAGAAGG AGAGACTCAG TCTGGAACTC CTGCATCTGC AGCAGCAGCT CCAGTACACC 
    AGAGAACAGA TACCCAGATC TGCACAGGAA CATACAGCTA ACCACAAGGC CACTGCTCAG 
    AATGAAGGAA GTTGTCAGCT GGCCTGTGTG AAGTCAGAGG TGAGTAAACT ACACTCCACC 
    CTGGAGGAGG AGAGACAGCT GGCCAGTCAA CACCAGCTGG CCCTGCAGGC CCAGATTGCT 
    GAAGCTCAAT CCCGGGTTAA GGCTCAAGAC TCACTTCTAC AGCAAAAAGG AGAAGAGAAC 
    AAACAGCTAA AACAGGACCT GCAGAGAACC CAGCACCTCT TCACCTCGGC TGAGCGAGAG 
    CTACGCTACG AGAGAGAGAA AAATCTTGAC CTTAAGAGAC ACATTGCACT CCTAGACCAG 
    GAGAAGGTCA AGCTGTGTGC AGAGCTGAAG CAGGCCCAGG CCAAAGTAGC CCAGCATGAG 
    GGGAACGCAG CAGGACAGGT GGCAGAGCTG GAGCGACTCC AGCAGAGGGC CAGAGATCTG 
    GAGCTGGAGA TGGCCAGAAG CTCTCAGAAC CGTCAGACAA ACAGCAGCCT AATGGATGAG 
    CTTAATTCAC AGAGGTCACG TGTGATCGCT GCTGACAAGA AGGTTGTTGA ACTGCAGCAG 
    CAACTGAAAA ATGCTCTGCA CCAACTGCGC CTGGAGGAGG CCAGATCAGG AGAAACCAGC 
    AAACTGGAGA GAGACACCAG AGACATGTCT GATAACCTGT CTGCTCTCAG AGCCCATTTG 
    CAAGAGGAGC AGTTACAGAG GAAATTACTT GAGCAGAAGG ATGAGGAGCT CCAGCAGCAT 
    GTGCGCTCAT TGCGGGCCAA GGAGGCAAGT TTGGTACGCA CCAACTTGGA AATATCTCAC 
    CGTGTACAGG AGTTGGAGAC TCGACTGCAG GTCATGGAGA GTGAACTTAA CACAGCTAGA 
    GAAGAGCAGA GAAGCGGCCA GAAGAGCTGC CACAGGCTGG AAGAACAGCT GCTGTCTGCC 
    CAGCACGAGT CTGAGAGACT GCAGGAAGAG CTGAAGCTGG TCGTCCAGCA GCTTGACACA 
    AATGTCAGGA GATACAATGA AAAACAGTCA CAGCAGAAAA CCAAGTTGCG CAGAGCTAAA 
    CAGATCTTCA TGAAGACAGT CAGCCAACAT GAGCAAAGGA TCCAGCAGCT GGAAAATGAT 
    CTGGCTCTTG CAACAAGTCT CTCAGAGAAA GAGAAGGACT GGATTAGGAC TGTAACAGAA 
    GAAAACGAGC AACTCCTTCT GGAGAGACGA GAACTTCTTC AGCGAATAAG TGAGGCAGAG 
    GAGATGGGGA ACAATGGACT GAGAACCGCT ACTACAACCC AGCAGAGAGT TAAATTCCTG 
    GAAATGGAGA ACAAACAGCT GCAGGAGAAA ACTCTAACAC TGGCCAATCA GATAGGAATT 
    TTAGATCGTG CATTGAGAAA CCTTCAGTCG GTGTGTACTG TTGAGGAGGT CAAGAAAATG 
    TTTCCATCTG GAGCTCATCA AGATGGTTTG TTGCGAACAT CAACTCCAAG TCCACAGCCT 
    GGTCTCTGTG ACTCATGGGG AATATTGGAT GCCATCCGCA GAGTCAAAGT GGGTGAATCT 
    GGAGTGAAGA GCATGGAGAT CTCCTCATCT GTGCCTGTTT CACAGTCCAC TGAGATAGGC 
    TACCTGAACC TGACCTCCCC TCTGACTCCC AACAGCAGGT TAGAGCAGGA GGAGAGTCTC 
    AGTGCCACAA GCGATGAGGC CTGA

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

    RefSeq XP_005162191.1
    CDS589..4212
    Translation

    Target ORF information:

    RefSeq Version XM_005162134.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005162134.4

    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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGTTC ACGGTGAAGA GCTTGGTAGA 
    GAACGAAAGA GGCTGGAGAG AGATCTGGAA GAGGCATCGA ATCGTCTTGC TATGGCACAC 
    AAAGAGATTC GCCACCTGAC CGATGAACTA GATGTCGCTC GTAAGGTCCA GAACTTTTGT 
    GCACCAGATC TGCAGAAAAC TGGGGAGGAG GTAGAGCAAT TAAAACAGGA AGTGGATAAG 
    CTGAAACAGT GTGATATGGT GGAGCTGCAG AAGGCGAAGG AACGTAATGA AAGACTGGAC 
    GGGGAGATTC GTGTGTTAAG GGATAGAGTT CGCTCTTTGG ACACAGAGAG GAGAACTCTT 
    CTTAAACTGG TTGAACAATC AAATCTGCAC TCGACTCAAG GGATCAGTGT GTCATTGGAG 
    CACAATAAAA TACAATCTAT ACAGAGTGTC GGGAATAATG TCAATCGTGA TTCATCACTG 
    GCTGAAGAGG ATGAGATACT CCACAAAAGG TGTCGGAGAG AGTCTGAGGA TAAGGACAGT 
    CGACTGCGAG AGCTGGAGAG GAGGTTGCAG AAGCAGCAGC GGGAGCACGA GGACCTGGTG 
    GAGCGCAATG AAGAGCTGGA GGCACTGCTG GGGGAGGCGC AGAACACAAC TAAGGATGAG 
    CGAGAACACC ATGAGTGTGA GATAGAGGGC TTACAGAGAA AGATCAAAAG TATTGAGGAA 
    GAACTGAGAA AGAGGGACAA TAAGAAAGTT GAAAAAAAGG ATGAAGATCT GTTTCGAGGG 
    ACTGACTCTG AGATTAGCGA GAGCATTCAA GAAAGGCTTA AGTTCCTTGA GAGTCGTCTT 
    ACTGAAGAAA AGGGTTGGAG GAAACAGCTG GAAGTGGATC TATCTGTAGC CAAGGCTGCT 
    CTCAAAAAGG AAAAAGAGGT TATGCAAAGA GACCATGAGG AGCTGAAGAG ATTACGTGTA 
    GAGGTTCAGA GGCTGGAGGT GGAATGTCGT CAAGGGAAGA CTCTTAACAA GAACCTCACG 
    CAGGTTAAAG GAGAAAAGGG AATTTTGGAA GAAAAAGTGG CCCAGTTGGA GCGTGCTCAG 
    TCTCGAATCC AGGATGACCT GACCCTTCAG AAAGAGAACA GCCAGGCTGA AGAGGACCTG 
    AGAGACAGCA GGGGACAGGT GGCAGAGCTT AAGTCCATGG TGGACAAGCT GCGAACAGAA 
    CTGACTCGTC TAGAGAAGGA GCACAACACC CTCAGAGATG AGCTGATGGA GAAGCGTGGA 
    CTTGTGCTGC AGCTGCAGAA GGAGCTCAGT GAGAAAGCCC ATGAGAGGCT TCAGACCGAT 
    GGAGAGAAGG AGAGACTCAG TCTGGAACTC CTGCATCTGC AGCAGCAGCT CCAGTACACC 
    AGAGAACAGA TACCCAGATC TGCACAGGAA CATACAGCTA ACCACAAGGC CACTGCTCAG 
    AATGAAGGAA GTTGTCAGCT GGCCTGTGTG AAGTCAGAGG TGAGTAAACT ACACTCCACC 
    CTGGAGGAGG AGAGACAGCT GGCCAGTCAA CACCAGCTGG CCCTGCAGGC CCAGATTGCT 
    GAAGCTCAAT CCCGGGTTAA GGCTCAAGAC TCACTTCTAC AGCAAAAAGG AGAAGAGAAC 
    AAACAGCTAA AACAGGACCT GCAGAGAACC CAGCACCTCT TCACCTCGGC TGAGCGAGAG 
    CTACGCTACG AGAGAGAGAA AAATCTTGAC CTTAAGAGAC ACATTGCACT CCTAGACCAG 
    GAGAAGGTCA AGCTGTGTGC AGAGCTGAAG CAGGCCCAGG CCAAAGTAGC CCAGCATGAG 
    GGGAACGCAG CAGGACAGGT GGCAGAGCTG GAGCGACTCC AGCAGAGGGC CAGAGATCTG 
    GAGCTGGAGA TGGCCAGAAG CTCTCAGAAC CGTCAGACAA ACAGCAGCCT AATGGATGAG 
    CTTAATTCAC AGAGGTCACG TGTGATCGCT GCTGACAAGA AGGTTGTTGA ACTGCAGCAG 
    CAACTGAAAA ATGCTCTGCA CCAACTGCGC CTGGAGGAGG CCAGATCAGG AGAAACCAGC 
    AAACTGGAGA GAGACACCAG AGACATGTCT GATAACCTGT CTGCTCTCAG AGCCCATTTG 
    CAAGAGGAGC AGTTACAGAG GAAATTACTT GAGCAGAAGG ATGAGGAGCT CCAGCAGCAT 
    GTGCGCTCAT TGCGGGCCAA GGAGGCAAGT TTGGTACGCA CCAACTTGGA AATATCTCAC 
    CGTGTACAGG AGTTGGAGAC TCGACTGCAG GTCATGGAGA GTGAACTTAA CACAGCTAGA 
    GAAGAGCAGA GAAGCGGCCA GAAGAGCTGC CACAGGCTGG AAGAACAGCT GCTGTCTGCC 
    CAGCACGAGT CTGAGAGACT GCAGGAAGAG CTGAAGCTGG TCGTCCAGCA GCTTGACACA 
    AATGTCAGGA GATACAATGA AAAACAGTCA CAGCAGAAAA CCAAGTTGCG CAGAGCTAAA 
    CAGATCTTCA TGAAGACAGT CAGCCAACAT GAGCAAAGGA TCCAGCAGCT GGAAAATGAT 
    CTGGCTCTTG CAACAAGTCT CTCAGAGAAA GAGAAGGACT GGATTAGGAC TGTAACAGAA 
    GAAAACGAGC AACTCCTTCT GGAGAGACGA GAACTTCTTC AGCGAATAAG TGAGGCAGAG 
    GAGATGGGGA ACAATGGACT GAGAACCGCT ACTACAACCC AGCAGAGAGT TAAATTCCTG 
    GAAATGGAGA ACAAACAGCT GCAGGAGAAA ACTCTAACAC TGGCCAATCA GATAGGAATT 
    TTAGATCGTG CATTGAGAAA CCTTCAGTCG GTGTGTACTG TTGAGGAGGT CAAGAAAATG 
    TTTCCATCTG GAGCTCATCA AGATGGTTTG TTGCGAACAT CAACTCCAAG TCCACAGCCT 
    GGTCTCTGTG ACTCATGGGG AATATTGGAT GCCATCCGCA GAGTCAAAGT GGGTGAATCT 
    GGAGTGAAGA GCATGGAGAT CTCCTCATCT GTGCCTGTTT CACAGTCCAC TGAGATAGGC 
    TACCTGAACC TGACCTCCCC TCTGACTCCC AACAGCAGGT TAGAGCAGGA GGAGAGTCTC 
    AGTGCCACAA GCGATGAGGC CTGA

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

    ccdc30 ( XM_005162134.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005162191.1 Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ODa27672
    Clone ID Related Accession (Same CDS sequence) XM_005162134.4 , XM_005162134.3
    Accession Version XM_005162134.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3624bp)
    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 coiled-coil domain-containing protein 30 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.6) 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_005162134.2. ##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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGTTC ACGGTGAAGA GCTTGGTAGA 
    GAACGAAAGA GGCTGGAGAG AGATCTGGAA GAGGCATCGA ATCGTCTTGC TATGGCACAC 
    AAAGAGATTC GCCACCTGAC CGATGAACTA GATGTCGCTC GTAAGGTCCA GAACTTTTGT 
    GCACCAGATC TGCAGAAAAC TGGGGAGGAG GTAGAGCAAT TAAAACAGGA AGTGGATAAG 
    CTGAAACAGT GTGATATGGT GGAGCTGCAG AAGGCGAAGG AACGTAATGA AAGACTGGAC 
    GGGGAGATTC GTGTGTTAAG GGATAGAGTT CGCTCTTTGG ACACAGAGAG GAGAACTCTT 
    CTTAAACTGG TTGAACAATC AAATCTGCAC TCGACTCAAG GGATCAGTGT GTCATTGGAG 
    CACAATAAAA TACAATCTAT ACAGAGTGTC GGGAATAATG TCAATCGTGA TTCATCACTG 
    GCTGAAGAGG ATGAGATACT CCACAAAAGG TGTCGGAGAG AGTCTGAGGA TAAGGACAGT 
    CGACTGCGAG AGCTGGAGAG GAGGTTGCAG AAGCAGCAGC GGGAGCACGA GGACCTGGTG 
    GAGCGCAATG AAGAGCTGGA GGCACTGCTG GGGGAGGCGC AGAACACAAC TAAGGATGAG 
    CGAGAACACC ATGAGTGTGA GATAGAGGGC TTACAGAGAA AGATCAAAAG TATTGAGGAA 
    GAACTGAGAA AGAGGGACAA TAAGAAAGTT GAAAAAAAGG ATGAAGATCT GTTTCGAGGG 
    ACTGACTCTG AGATTAGCGA GAGCATTCAA GAAAGGCTTA AGTTCCTTGA GAGTCGTCTT 
    ACTGAAGAAA AGGGTTGGAG GAAACAGCTG GAAGTGGATC TATCTGTAGC CAAGGCTGCT 
    CTCAAAAAGG AAAAAGAGGT TATGCAAAGA GACCATGAGG AGCTGAAGAG ATTACGTGTA 
    GAGGTTCAGA GGCTGGAGGT GGAATGTCGT CAAGGGAAGA CTCTTAACAA GAACCTCACG 
    CAGGTTAAAG GAGAAAAGGG AATTTTGGAA GAAAAAGTGG CCCAGTTGGA GCGTGCTCAG 
    TCTCGAATCC AGGATGACCT GACCCTTCAG AAAGAGAACA GCCAGGCTGA AGAGGACCTG 
    AGAGACAGCA GGGGACAGGT GGCAGAGCTT AAGTCCATGG TGGACAAGCT GCGAACAGAA 
    CTGACTCGTC TAGAGAAGGA GCACAACACC CTCAGAGATG AGCTGATGGA GAAGCGTGGA 
    CTTGTGCTGC AGCTGCAGAA GGAGCTCAGT GAGAAAGCCC ATGAGAGGCT TCAGACCGAT 
    GGAGAGAAGG AGAGACTCAG TCTGGAACTC CTGCATCTGC AGCAGCAGCT CCAGTACACC 
    AGAGAACAGA TACCCAGATC TGCACAGGAA CATACAGCTA ACCACAAGGC CACTGCTCAG 
    AATGAAGGAA GTTGTCAGCT GGCCTGTGTG AAGTCAGAGG TGAGTAAACT ACACTCCACC 
    CTGGAGGAGG AGAGACAGCT GGCCAGTCAA CACCAGCTGG CCCTGCAGGC CCAGATTGCT 
    GAAGCTCAAT CCCGGGTTAA GGCTCAAGAC TCACTTCTAC AGCAAAAAGG AGAAGAGAAC 
    AAACAGCTAA AACAGGACCT GCAGAGAACC CAGCACCTCT TCACCTCGGC TGAGCGAGAG 
    CTACGCTACG AGAGAGAGAA AAATCTTGAC CTTAAGAGAC ACATTGCACT CCTAGACCAG 
    GAGAAGGTCA AGCTGTGTGC AGAGCTGAAG CAGGCCCAGG CCAAAGTAGC CCAGCATGAG 
    GGGAACGCAG CAGGACAGGT GGCAGAGCTG GAGCGACTCC AGCAGAGGGC CAGAGATCTG 
    GAGCTGGAGA TGGCCAGAAG CTCTCAGAAC CGTCAGACAA ACAGCAGCCT AATGGATGAG 
    CTTAATTCAC AGAGGTCACG TGTGATCGCT GCTGACAAGA AGGTTGTTGA ACTGCAGCAG 
    CAACTGAAAA ATGCTCTGCA CCAACTGCGC CTGGAGGAGG CCAGATCAGG AGAAACCAGC 
    AAACTGGAGA GAGACACCAG AGACATGTCT GATAACCTGT CTGCTCTCAG AGCCCATTTG 
    CAAGAGGAGC AGTTACAGAG GAAATTACTT GAGCAGAAGG ATGAGGAGCT CCAGCAGCAT 
    GTGCGCTCAT TGCGGGCCAA GGAGGCAAGT TTGGTACGCA CCAACTTGGA AATATCTCAC 
    CGTGTACAGG AGTTGGAGAC TCGACTGCAG GTCATGGAGA GTGAACTTAA CACAGCTAGA 
    GAAGAGCAGA GAAGCGGCCA GAAGAGCTGC CACAGGCTGG AAGAACAGCT GCTGTCTGCC 
    CAGCACGAGT CTGAGAGACT GCAGGAAGAG CTGAAGCTGG TCGTCCAGCA GCTTGACACA 
    AATGTCAGGA GATACAATGA AAAACAGTCA CAGCAGAAAA CCAAGTTGCG CAGAGCTAAA 
    CAGATCTTCA TGAAGACAGT CAGCCAACAT GAGCAAAGGA TCCAGCAGCT GGAAAATGAT 
    CTGGCTCTTG CAACAAGTCT CTCAGAGAAA GAGAAGGACT GGATTAGGAC TGTAACAGAA 
    GAAAACGAGC AACTCCTTCT GGAGAGACGA GAACTTCTTC AGCGAATAAG TGAGGCAGAG 
    GAGATGGGGA ACAATGGACT GAGAACCGCT ACTACAACCC AGCAGAGAGT TAAATTCCTG 
    GAAATGGAGA ACAAACAGCT GCAGGAGAAA ACTCTAACAC TGGCCAATCA GATAGGAATT 
    TTAGATCGTG CATTGAGAAA CCTTCAGTCG GTGTGTACTG TTGAGGAGGT CAAGAAAATG 
    TTTCCATCTG GAGCTCATCA AGATGGTTTG TTGCGAACAT CAACTCCAAG TCCACAGCCT 
    GGTCTCTGTG ACTCATGGGG AATATTGGAT GCCATCCGCA GAGTCAAAGT GGGTGAATCT 
    GGAGTGAAGA GCATGGAGAT CTCCTCATCT GTGCCTGTTT CACAGTCCAC TGAGATAGGC 
    TACCTGAACC TGACCTCCCC TCTGACTCCC AACAGCAGGT TAGAGCAGGA GGAGAGTCTC 
    AGTGCCACAA GCGATGAGGC CTGA

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

    RefSeq XP_005162191.1
    CDS583..4206
    Translation

    Target ORF information:

    RefSeq Version XM_005162134.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio coiled-coil domain containing 30 (ccdc30), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005162134.3

    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
    ATGGAAAAAA GAGAGGAAAA GGAGCAGGAC GAGCTCAGTG TCCGCTTACA GAGGGATGGC 
    GTGTCCCCTG AGGCCTCAGG AGAGGAGCGC GAGCGGCACC TGTGGGTTTT GCTCCAGCAC 
    AGTGAGAGCA GCCTGAGCAC AGCCACTGAG GACCTGCAGA CTTTACGCAC ACAGCAGGCC 
    AGCGAGATGA GAGAGGTGGA AAATTATGTG GAGCATATTC GAAACATGCT GGAGGAGCGA 
    GAGTCTCTTA CAGCTGAGTA TGAACGCGAC AATGAAAAAC TCCGTTCTGA GCTTGCGCTA 
    ATGAAACACC AACAGGACTC TCAGTGTAAA GAGGTGGTGG AGATGCTGGA ACAGGAGGGT 
    CTAGCAGAGA TCAGCCAGAG CAGTGCCAGT GAGCAGGTGG CGTATCTGCT GGTGGAGAGA 
    GCTACTCTAC TGGAGAGACT GGAGGCTGCT GAAAGAAAGC TGGACACTCA GACCCTTACT 
    GGAAACCTCA GAGAAGTCCA TCTACAGGAG GAGCTGGATC ATATTCGTCA CACACTAGAA 
    GAGGAACTCG GACAGCAAAA GGAAAACATG AATAAGGTTC ACGGTGAAGA GCTTGGTAGA 
    GAACGAAAGA GGCTGGAGAG AGATCTGGAA GAGGCATCGA ATCGTCTTGC TATGGCACAC 
    AAAGAGATTC GCCACCTGAC CGATGAACTA GATGTCGCTC GTAAGGTCCA GAACTTTTGT 
    GCACCAGATC TGCAGAAAAC TGGGGAGGAG GTAGAGCAAT TAAAACAGGA AGTGGATAAG 
    CTGAAACAGT GTGATATGGT GGAGCTGCAG AAGGCGAAGG AACGTAATGA AAGACTGGAC 
    GGGGAGATTC GTGTGTTAAG GGATAGAGTT CGCTCTTTGG ACACAGAGAG GAGAACTCTT 
    CTTAAACTGG TTGAACAATC AAATCTGCAC TCGACTCAAG GGATCAGTGT GTCATTGGAG 
    CACAATAAAA TACAATCTAT ACAGAGTGTC GGGAATAATG TCAATCGTGA TTCATCACTG 
    GCTGAAGAGG ATGAGATACT CCACAAAAGG TGTCGGAGAG AGTCTGAGGA TAAGGACAGT 
    CGACTGCGAG AGCTGGAGAG GAGGTTGCAG AAGCAGCAGC GGGAGCACGA GGACCTGGTG 
    GAGCGCAATG AAGAGCTGGA GGCACTGCTG GGGGAGGCGC AGAACACAAC TAAGGATGAG 
    CGAGAACACC ATGAGTGTGA GATAGAGGGC TTACAGAGAA AGATCAAAAG TATTGAGGAA 
    GAACTGAGAA AGAGGGACAA TAAGAAAGTT GAAAAAAAGG ATGAAGATCT GTTTCGAGGG 
    ACTGACTCTG AGATTAGCGA GAGCATTCAA GAAAGGCTTA AGTTCCTTGA GAGTCGTCTT 
    ACTGAAGAAA AGGGTTGGAG GAAACAGCTG GAAGTGGATC TATCTGTAGC CAAGGCTGCT 
    CTCAAAAAGG AAAAAGAGGT TATGCAAAGA GACCATGAGG AGCTGAAGAG ATTACGTGTA 
    GAGGTTCAGA GGCTGGAGGT GGAATGTCGT CAAGGGAAGA CTCTTAACAA GAACCTCACG 
    CAGGTTAAAG GAGAAAAGGG AATTTTGGAA GAAAAAGTGG CCCAGTTGGA GCGTGCTCAG 
    TCTCGAATCC AGGATGACCT GACCCTTCAG AAAGAGAACA GCCAGGCTGA AGAGGACCTG 
    AGAGACAGCA GGGGACAGGT GGCAGAGCTT AAGTCCATGG TGGACAAGCT GCGAACAGAA 
    CTGACTCGTC TAGAGAAGGA GCACAACACC CTCAGAGATG AGCTGATGGA GAAGCGTGGA 
    CTTGTGCTGC AGCTGCAGAA GGAGCTCAGT GAGAAAGCCC ATGAGAGGCT TCAGACCGAT 
    GGAGAGAAGG AGAGACTCAG TCTGGAACTC CTGCATCTGC AGCAGCAGCT CCAGTACACC 
    AGAGAACAGA TACCCAGATC TGCACAGGAA CATACAGCTA ACCACAAGGC CACTGCTCAG 
    AATGAAGGAA GTTGTCAGCT GGCCTGTGTG AAGTCAGAGG TGAGTAAACT ACACTCCACC 
    CTGGAGGAGG AGAGACAGCT GGCCAGTCAA CACCAGCTGG CCCTGCAGGC CCAGATTGCT 
    GAAGCTCAAT CCCGGGTTAA GGCTCAAGAC TCACTTCTAC AGCAAAAAGG AGAAGAGAAC 
    AAACAGCTAA AACAGGACCT GCAGAGAACC CAGCACCTCT TCACCTCGGC TGAGCGAGAG 
    CTACGCTACG AGAGAGAGAA AAATCTTGAC CTTAAGAGAC ACATTGCACT CCTAGACCAG 
    GAGAAGGTCA AGCTGTGTGC AGAGCTGAAG CAGGCCCAGG CCAAAGTAGC CCAGCATGAG 
    GGGAACGCAG CAGGACAGGT GGCAGAGCTG GAGCGACTCC AGCAGAGGGC CAGAGATCTG 
    GAGCTGGAGA TGGCCAGAAG CTCTCAGAAC CGTCAGACAA ACAGCAGCCT AATGGATGAG 
    CTTAATTCAC AGAGGTCACG TGTGATCGCT GCTGACAAGA AGGTTGTTGA ACTGCAGCAG 
    CAACTGAAAA ATGCTCTGCA CCAACTGCGC CTGGAGGAGG CCAGATCAGG AGAAACCAGC 
    AAACTGGAGA GAGACACCAG AGACATGTCT GATAACCTGT CTGCTCTCAG AGCCCATTTG 
    CAAGAGGAGC AGTTACAGAG GAAATTACTT GAGCAGAAGG ATGAGGAGCT CCAGCAGCAT 
    GTGCGCTCAT TGCGGGCCAA GGAGGCAAGT TTGGTACGCA CCAACTTGGA AATATCTCAC 
    CGTGTACAGG AGTTGGAGAC TCGACTGCAG GTCATGGAGA GTGAACTTAA CACAGCTAGA 
    GAAGAGCAGA GAAGCGGCCA GAAGAGCTGC CACAGGCTGG AAGAACAGCT GCTGTCTGCC 
    CAGCACGAGT CTGAGAGACT GCAGGAAGAG CTGAAGCTGG TCGTCCAGCA GCTTGACACA 
    AATGTCAGGA GATACAATGA AAAACAGTCA CAGCAGAAAA CCAAGTTGCG CAGAGCTAAA 
    CAGATCTTCA TGAAGACAGT CAGCCAACAT GAGCAAAGGA TCCAGCAGCT GGAAAATGAT 
    CTGGCTCTTG CAACAAGTCT CTCAGAGAAA GAGAAGGACT GGATTAGGAC TGTAACAGAA 
    GAAAACGAGC AACTCCTTCT GGAGAGACGA GAACTTCTTC AGCGAATAAG TGAGGCAGAG 
    GAGATGGGGA ACAATGGACT GAGAACCGCT ACTACAACCC AGCAGAGAGT TAAATTCCTG 
    GAAATGGAGA ACAAACAGCT GCAGGAGAAA ACTCTAACAC TGGCCAATCA GATAGGAATT 
    TTAGATCGTG CATTGAGAAA CCTTCAGTCG GTGTGTACTG TTGAGGAGGT CAAGAAAATG 
    TTTCCATCTG GAGCTCATCA AGATGGTTTG TTGCGAACAT CAACTCCAAG TCCACAGCCT 
    GGTCTCTGTG ACTCATGGGG AATATTGGAT GCCATCCGCA GAGTCAAAGT GGGTGAATCT 
    GGAGTGAAGA GCATGGAGAT CTCCTCATCT GTGCCTGTTT CACAGTCCAC TGAGATAGGC 
    TACCTGAACC TGACCTCCCC TCTGACTCCC AACAGCAGGT TAGAGCAGGA GGAGAGTCTC 
    AGTGCCACAA GCGATGAGGC CTGA

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

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