ORF » Species Summary » Danio rerio » fyco1b cDNA ORF clone

fyco1b cDNA ORF clone, Danio rerio(zebrafish)

The following fyco1b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the fyco1b 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
ODa56501 XM_017352383.2
Latest version!		 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa07527 XM_003197950.5
Latest version!		 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa07527 XM_005171444.4
Latest version!		 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
ODa07527 XM_005171444.3 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa07527 XM_003197950.4 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa56501 XM_017352383.1 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
Hide Old Accession Versions >>

ORF Online Only Promotion

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

*Business Day

** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

  • Reference Sequences (Refseq)
    fyco1b ( XM_017352383.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_017207872.1 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa56501
    Clone ID Related Accession (Same CDS sequence) XM_017352383.1 , XM_017352383.2
    Accession Version XM_017352383.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3897bp)
    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 FYVE and coiled-coil domain-containing protein 1-like isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTGTGGCT CCAGACAACC TTCTCATTTC TCTTTCGCAG TTTCATTTCA CTGCTTTTCT 
    GACATTTTAC GTACGTCTTT TTTTGTTTGT GTGCACCTCT GTGGAGGGTT TCGAGCAGGA 
    AGCAGTGGCG CTCAGCCTCA GCTGAAGACT TCGTTAGGGA AAGGACGGGC TTTCATCCGT 
    TACTGTCTGG TGCATCAAAG ACTTGCAGAC ACTCTTCAGC AATGTCTCAT AAACCTCAAA 
    ATCACAAGTG AATGGTATTA TGAGCGCAGT CCATTCCTGA AGTCCCATCT GAATATTGAT 
    ATCATCAACC ACCTGTATGA ACTCAATGAG GTTCAGTTTG ATGTAGCATC CCGAGGTTAC 
    GACCTGGACT CTCAGTGGCC CACATTTGCA AGAAGGACTC TGGGATCAGC CGTCTCGCCC 
    CATGTCTGGA AACCACCCAG TCGCTGCTCT AGTGTCAACA GTCTGGTCAG CAGCTACACA 
    CAGCAAGTTC AGGACTTCCT TCCTGGTCAA GATTTTGGTT CCAGTCTTCT AGGTGATCTC 
    GGAGAGCTAG GCGAGCTGAC ATGTAGCACT TCCGAGGACC TGCGTATTGA GCTTGACCAA 
    TCAGAGTTAA AACAGCAACA GCTCCAGGAG AAAATCCAAC TGCTCACCGA TGAAGCAGCT 
    GATCTGAGGG TTGTTATCAA AGACCTGCAG GAACAGCTCT TGGCTAAAGG TTCCGATCAA 
    GAGAAAGCAG GAGAACAGCA GCAGGAGGTG GTGAAAGCTG TCAGAGAGTG CACTGACCGT 
    CTCAGTACCA CCACACAGGG GCTGGAGGCT CTGAGGACTT CAGAACGCAA CCTCGAAGCC 
    AAGCTGAGTG TTGCAGAGAA CTGGAATATG GAGCTGCTGG CAAAACTTGA CGGAGCTTTA 
    AGTGAAAAAG GACAGCAGGC TGCAAACTAC TGTGATTCAG CTTGGAAGAT ACAGGAACTC 
    CTGACCAAGC TTAAGGAGGC AGAGCAGGAG AGGATTGAGG CTAAACGAGA AAGCGAAGAC 
    CGGGCTAGAA TTGCTGAGAG ACTTTCTCAG GAGATAAAGC TTCAGGAGGG GAAACTCAAA 
    GAGATGGAAG GCAATCTGGA CATGTGTAGA GTCACAGCTG ATAAAGAACG AACAACTGCA 
    ACGCAACAGG CTGATGAGCT GCAGATGACC ATTAACCGCC TACAGGGAGC GTTATCCCTG 
    AAGGAAAGAG AAACAGGGAA CCTGCGAACT CAACTTCAAG ATGTGCAGAA AGCACTGGAA 
    GCCCAGCAGG ATCAAATGGA GGAGCACATG AAAAAGATCC AAGAGGAGAT GCAACGTAAA 
    AGTCTACTTG AAGAGCAGCT GAATGCAAAG ATGAATGAGT TGTCTGTTAG TACCCAAAAG 
    ATGCGCCAAC TAGAGAACCA CAACCAGCGG TTGATTGTGG AGAGTCAGAG CTTCCAAGCA 
    CAAGCCAAGA AACTGGAAGA GTACAAAAGC CAGTGCACAA GTCTAATGGA GATCAATGCC 
    AAGCTGATCC AGACTGTCAA AAGGAACGAA GACAGCAGCA AGGAGTTGTC AGAAATCAAG 
    ACCACTCTAG AGAAAGAACT AAAAACCTCA CAGGCTTCAG AGAGGCAACT GAGAACCAGA 
    CTCGAGTCAG CTGGACTGAC AGTGGAGAGC CAAAATCTTG AGGAGTGCAT CGAGAATGGC 
    CAGACGGACA ATAAAGATGT GTTGGAAAAA CTCAACGAGA GTACTACAGC CCCACAGAAG 
    AACAAGAGGA CAACTTCTGG ACTCCTACAA GAAGCCAACG AATACTCAAA AACTGATCAT 
    GTAGAATCTA CGACCAGGTT GGCTCTGGCT GAGGCCCAAC TTGAACTCAA CATGAAGGAG 
    GTTTCCAGAC TTCAGGATGA AGTCCTGGAG CTCCGGGCAC AACTATTGGT GATCTCAGAG 
    GAGAGGATGA AAATCCAGGC ATTGCAGGAA GTGACAGAAG CCTCTAGAGA AGATCTCCGA 
    GCTCAGACAG AGCAACTGAA GTCCCAAGTG GAGGAGCTAA ACAGAAGGCA TGTTGAGGAG 
    CTGCTACGTT GCCATGAAAG AGAGGAGACT TTGGGAAAAG AGAGAGATAT GGAGGCCAAG 
    ATGCGTGCCG AAATCCAAAC TAGCATGACT TCAATGAAGG AAGAGTGTCA TGCTTTGAAG 
    AAGCACAACA GCACACTTGC ACTTGAGAAT GGAGAGGCTC GTGAAGCCTT GCACAGGGCC 
    AACACTGAGA CAGCAGAGCT CGGGGTTCAT GTTTGCATGC TAACAGGGCA GAACGAGGAA 
    GCTAAGCTAC GATGGGAAGA GCTTTCGAAC AAACTGCAGG AGCTGCAGAT GGAGGCACAG 
    GAAGAGGTGA AAACTTTAAG TGATTCGATG GAAAGCTTGA GGAAAGATAA CGCAGGACTC 
    AAAGAGCAGG TAAAGCAGAT GGAGGGACTC CAAGAAGCCC TGCAGAAGTT GCAGGAGAAA 
    CTGGAACAGG CAGAAGACGA AGCCAGAAGT CTCCAGGAGA TCCGACAGAG GGAAGTGGAC 
    ACACTTAGGT CCCAGTTGAG CGATGAGGCC GCGCACCATC AAAGTCAAGT CCAGGGTATG 
    AGTGAGGATA TGGATGCACT GAGAAAAAGG CTGGACATTG AAGTTGAAAA AGTTTCAAGT 
    CTTGAGGCCA AAGTATTGGA GCTTGAGTCT CTAAACAGTG GGCACAGTCA GATGATCGAA 
    AAGACTACTG CTCTCATTGG TGACTCCGAA ACCATAATTT ATCAGAAAGA GGAACAGATT 
    AAAAACCTCA AAGTGGACTT GTCGAGAGCC GAGAAGGAAC TGGCTCTCGC TCAGCAGTCC 
    TGTCAAGAAC TGGGTGTGAA TTTAAGCAGA AGTGCAATGG AGAAGCAAGC CGTCGAACTG 
    AAGATGTCTG CTGAACTAGA TGACCTTTAC CGTACCAAAA AAAACCTGGA GGAGAGGCTC 
    ATTGAGCTCA TAAGGGAGAA AGATGCTTTG TGGCAGAAGT CTGACGCTCT GGAGTTTGAG 
    CAGAAACGAA GAGCTGAGGA GCAGACAGAC AGAGACGTCA CACACTGCCT GAGCTGTAAG 
    AGCCAGTTCA GCTGGATGCT GCGCAGATAC AACTGCAGGT TTTGTGGACG TCCGTTTTGC 
    TACAGTTGCT GCAGTTTTGG TGGTAAGGAT CGCTGTTGTA AGAGCTGCTC GACTCACAGT 
    GAGCGCCACC AACAGGCGGA TCAGGGCAGT CCTTCACACT CAACCTACAG CCCAATATCA 
    AGCCCTAATC AAACCAGCAC TCCAGGTGTC CCATGGATAC TAAAGTCCCC TCGACCTGAC 
    GACATGGCGT ATGACATCAT CACAGAAGAT GAAGTGAACC ACGTTCATGA CAGCGACTCG 
    TCATCCTACA CCACTGCGCT TTCACCAGAG ACACAACAGC TAAGCAGCAG TGATGTCACC 
    AGCACAGAAG ATTCAGACGA GCTGATTGGC TCCGTTCAGG ATTCAGAGAT CTGCCTGCTG 
    AAATCTGGAG AAAGGACGCT GTCTGTGCCA TTCAGTGTGG ATGACGTGAT GCATTTTGGC 
    TGTAAATCCA AAGAGCTGTT CATCAAGTCC AGCTGTTACA GTGTAATTCT CATAAGCGCT 
    GCACATCCGG GCCCTTCGAT CGGCTGGACC TTCTTCTCTG AACCCAAGAG CATCGCCTTC 
    AGCGTGGTCT ACAGAGAGAC CACAGATACG CCTCTAGAAC AGGCCAAGGT TCTGATTCCT 
    CTGACCAGAT GTAGATCTCA CAAGGAAACA ATTCAGGGTC AGCTAAAGGT CAGAAACCCT 
    GGACAATACA CACTTATCTT CGACAACTCC TTCTCCAGGT TTGTCTCGAA GAAGGTCCAG 
    TACAAGCTGA GCATAGAGAT GCCAGAGGTC TGCAACGGAA GTGACTGCTC TTCATAG

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

    RefSeq XP_017207872.1
    CDS48..3944
    Translation

    Target ORF information:

    RefSeq Version XM_017352383.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017352383.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTGTGGCT CCAGACAACC TTCTCATTTC TCTTTCGCAG TTTCATTTCA CTGCTTTTCT 
    GACATTTTAC GTACGTCTTT TTTTGTTTGT GTGCACCTCT GTGGAGGGTT TCGAGCAGGA 
    AGCAGTGGCG CTCAGCCTCA GCTGAAGACT TCGTTAGGGA AAGGACGGGC TTTCATCCGT 
    TACTGTCTGG TGCATCAAAG ACTTGCAGAC ACTCTTCAGC AATGTCTCAT AAACCTCAAA 
    ATCACAAGTG AATGGTATTA TGAGCGCAGT CCATTCCTGA AGTCCCATCT GAATATTGAT 
    ATCATCAACC ACCTGTATGA ACTCAATGAG GTTCAGTTTG ATGTAGCATC CCGAGGTTAC 
    GACCTGGACT CTCAGTGGCC CACATTTGCA AGAAGGACTC TGGGATCAGC CGTCTCGCCC 
    CATGTCTGGA AACCACCCAG TCGCTGCTCT AGTGTCAACA GTCTGGTCAG CAGCTACACA 
    CAGCAAGTTC AGGACTTCCT TCCTGGTCAA GATTTTGGTT CCAGTCTTCT AGGTGATCTC 
    GGAGAGCTAG GCGAGCTGAC ATGTAGCACT TCCGAGGACC TGCGTATTGA GCTTGACCAA 
    TCAGAGTTAA AACAGCAACA GCTCCAGGAG AAAATCCAAC TGCTCACCGA TGAAGCAGCT 
    GATCTGAGGG TTGTTATCAA AGACCTGCAG GAACAGCTCT TGGCTAAAGG TTCCGATCAA 
    GAGAAAGCAG GAGAACAGCA GCAGGAGGTG GTGAAAGCTG TCAGAGAGTG CACTGACCGT 
    CTCAGTACCA CCACACAGGG GCTGGAGGCT CTGAGGACTT CAGAACGCAA CCTCGAAGCC 
    AAGCTGAGTG TTGCAGAGAA CTGGAATATG GAGCTGCTGG CAAAACTTGA CGGAGCTTTA 
    AGTGAAAAAG GACAGCAGGC TGCAAACTAC TGTGATTCAG CTTGGAAGAT ACAGGAACTC 
    CTGACCAAGC TTAAGGAGGC AGAGCAGGAG AGGATTGAGG CTAAACGAGA AAGCGAAGAC 
    CGGGCTAGAA TTGCTGAGAG ACTTTCTCAG GAGATAAAGC TTCAGGAGGG GAAACTCAAA 
    GAGATGGAAG GCAATCTGGA CATGTGTAGA GTCACAGCTG ATAAAGAACG AACAACTGCA 
    ACGCAACAGG CTGATGAGCT GCAGATGACC ATTAACCGCC TACAGGGAGC GTTATCCCTG 
    AAGGAAAGAG AAACAGGGAA CCTGCGAACT CAACTTCAAG ATGTGCAGAA AGCACTGGAA 
    GCCCAGCAGG ATCAAATGGA GGAGCACATG AAAAAGATCC AAGAGGAGAT GCAACGTAAA 
    AGTCTACTTG AAGAGCAGCT GAATGCAAAG ATGAATGAGT TGTCTGTTAG TACCCAAAAG 
    ATGCGCCAAC TAGAGAACCA CAACCAGCGG TTGATTGTGG AGAGTCAGAG CTTCCAAGCA 
    CAAGCCAAGA AACTGGAAGA GTACAAAAGC CAGTGCACAA GTCTAATGGA GATCAATGCC 
    AAGCTGATCC AGACTGTCAA AAGGAACGAA GACAGCAGCA AGGAGTTGTC AGAAATCAAG 
    ACCACTCTAG AGAAAGAACT AAAAACCTCA CAGGCTTCAG AGAGGCAACT GAGAACCAGA 
    CTCGAGTCAG CTGGACTGAC AGTGGAGAGC CAAAATCTTG AGGAGTGCAT CGAGAATGGC 
    CAGACGGACA ATAAAGATGT GTTGGAAAAA CTCAACGAGA GTACTACAGC CCCACAGAAG 
    AACAAGAGGA CAACTTCTGG ACTCCTACAA GAAGCCAACG AATACTCAAA AACTGATCAT 
    GTAGAATCTA CGACCAGGTT GGCTCTGGCT GAGGCCCAAC TTGAACTCAA CATGAAGGAG 
    GTTTCCAGAC TTCAGGATGA AGTCCTGGAG CTCCGGGCAC AACTATTGGT GATCTCAGAG 
    GAGAGGATGA AAATCCAGGC ATTGCAGGAA GTGACAGAAG CCTCTAGAGA AGATCTCCGA 
    GCTCAGACAG AGCAACTGAA GTCCCAAGTG GAGGAGCTAA ACAGAAGGCA TGTTGAGGAG 
    CTGCTACGTT GCCATGAAAG AGAGGAGACT TTGGGAAAAG AGAGAGATAT GGAGGCCAAG 
    ATGCGTGCCG AAATCCAAAC TAGCATGACT TCAATGAAGG AAGAGTGTCA TGCTTTGAAG 
    AAGCACAACA GCACACTTGC ACTTGAGAAT GGAGAGGCTC GTGAAGCCTT GCACAGGGCC 
    AACACTGAGA CAGCAGAGCT CGGGGTTCAT GTTTGCATGC TAACAGGGCA GAACGAGGAA 
    GCTAAGCTAC GATGGGAAGA GCTTTCGAAC AAACTGCAGG AGCTGCAGAT GGAGGCACAG 
    GAAGAGGTGA AAACTTTAAG TGATTCGATG GAAAGCTTGA GGAAAGATAA CGCAGGACTC 
    AAAGAGCAGG TAAAGCAGAT GGAGGGACTC CAAGAAGCCC TGCAGAAGTT GCAGGAGAAA 
    CTGGAACAGG CAGAAGACGA AGCCAGAAGT CTCCAGGAGA TCCGACAGAG GGAAGTGGAC 
    ACACTTAGGT CCCAGTTGAG CGATGAGGCC GCGCACCATC AAAGTCAAGT CCAGGGTATG 
    AGTGAGGATA TGGATGCACT GAGAAAAAGG CTGGACATTG AAGTTGAAAA AGTTTCAAGT 
    CTTGAGGCCA AAGTATTGGA GCTTGAGTCT CTAAACAGTG GGCACAGTCA GATGATCGAA 
    AAGACTACTG CTCTCATTGG TGACTCCGAA ACCATAATTT ATCAGAAAGA GGAACAGATT 
    AAAAACCTCA AAGTGGACTT GTCGAGAGCC GAGAAGGAAC TGGCTCTCGC TCAGCAGTCC 
    TGTCAAGAAC TGGGTGTGAA TTTAAGCAGA AGTGCAATGG AGAAGCAAGC CGTCGAACTG 
    AAGATGTCTG CTGAACTAGA TGACCTTTAC CGTACCAAAA AAAACCTGGA GGAGAGGCTC 
    ATTGAGCTCA TAAGGGAGAA AGATGCTTTG TGGCAGAAGT CTGACGCTCT GGAGTTTGAG 
    CAGAAACGAA GAGCTGAGGA GCAGACAGAC AGAGACGTCA CACACTGCCT GAGCTGTAAG 
    AGCCAGTTCA GCTGGATGCT GCGCAGATAC AACTGCAGGT TTTGTGGACG TCCGTTTTGC 
    TACAGTTGCT GCAGTTTTGG TGGTAAGGAT CGCTGTTGTA AGAGCTGCTC GACTCACAGT 
    GAGCGCCACC AACAGGCGGA TCAGGGCAGT CCTTCACACT CAACCTACAG CCCAATATCA 
    AGCCCTAATC AAACCAGCAC TCCAGGTGTC CCATGGATAC TAAAGTCCCC TCGACCTGAC 
    GACATGGCGT ATGACATCAT CACAGAAGAT GAAGTGAACC ACGTTCATGA CAGCGACTCG 
    TCATCCTACA CCACTGCGCT TTCACCAGAG ACACAACAGC TAAGCAGCAG TGATGTCACC 
    AGCACAGAAG ATTCAGACGA GCTGATTGGC TCCGTTCAGG ATTCAGAGAT CTGCCTGCTG 
    AAATCTGGAG AAAGGACGCT GTCTGTGCCA TTCAGTGTGG ATGACGTGAT GCATTTTGGC 
    TGTAAATCCA AAGAGCTGTT CATCAAGTCC AGCTGTTACA GTGTAATTCT CATAAGCGCT 
    GCACATCCGG GCCCTTCGAT CGGCTGGACC TTCTTCTCTG AACCCAAGAG CATCGCCTTC 
    AGCGTGGTCT ACAGAGAGAC CACAGATACG CCTCTAGAAC AGGCCAAGGT TCTGATTCCT 
    CTGACCAGAT GTAGATCTCA CAAGGAAACA ATTCAGGGTC AGCTAAAGGT CAGAAACCCT 
    GGACAATACA CACTTATCTT CGACAACTCC TTCTCCAGGT TTGTCTCGAA GAAGGTCCAG 
    TACAAGCTGA GCATAGAGAT GCCAGAGGTC TGCAACGGAA GTGACTGCTC TTCATAG

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

    fyco1b ( XM_017352383.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_017207872.1 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa56501
    Clone ID Related Accession (Same CDS sequence) XM_017352383.1 , XM_017352383.2
    Accession Version XM_017352383.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3897bp)
    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 FYVE and coiled-coil domain-containing protein 1-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.7) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017352383.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTGTGGCT CCAGACAACC TTCTCATTTC TCTTTCGCAG TTTCATTTCA CTGCTTTTCT 
    GACATTTTAC GTACGTCTTT TTTTGTTTGT GTGCACCTCT GTGGAGGGTT TCGAGCAGGA 
    AGCAGTGGCG CTCAGCCTCA GCTGAAGACT TCGTTAGGGA AAGGACGGGC TTTCATCCGT 
    TACTGTCTGG TGCATCAAAG ACTTGCAGAC ACTCTTCAGC AATGTCTCAT AAACCTCAAA 
    ATCACAAGTG AATGGTATTA TGAGCGCAGT CCATTCCTGA AGTCCCATCT GAATATTGAT 
    ATCATCAACC ACCTGTATGA ACTCAATGAG GTTCAGTTTG ATGTAGCATC CCGAGGTTAC 
    GACCTGGACT CTCAGTGGCC CACATTTGCA AGAAGGACTC TGGGATCAGC CGTCTCGCCC 
    CATGTCTGGA AACCACCCAG TCGCTGCTCT AGTGTCAACA GTCTGGTCAG CAGCTACACA 
    CAGCAAGTTC AGGACTTCCT TCCTGGTCAA GATTTTGGTT CCAGTCTTCT AGGTGATCTC 
    GGAGAGCTAG GCGAGCTGAC ATGTAGCACT TCCGAGGACC TGCGTATTGA GCTTGACCAA 
    TCAGAGTTAA AACAGCAACA GCTCCAGGAG AAAATCCAAC TGCTCACCGA TGAAGCAGCT 
    GATCTGAGGG TTGTTATCAA AGACCTGCAG GAACAGCTCT TGGCTAAAGG TTCCGATCAA 
    GAGAAAGCAG GAGAACAGCA GCAGGAGGTG GTGAAAGCTG TCAGAGAGTG CACTGACCGT 
    CTCAGTACCA CCACACAGGG GCTGGAGGCT CTGAGGACTT CAGAACGCAA CCTCGAAGCC 
    AAGCTGAGTG TTGCAGAGAA CTGGAATATG GAGCTGCTGG CAAAACTTGA CGGAGCTTTA 
    AGTGAAAAAG GACAGCAGGC TGCAAACTAC TGTGATTCAG CTTGGAAGAT ACAGGAACTC 
    CTGACCAAGC TTAAGGAGGC AGAGCAGGAG AGGATTGAGG CTAAACGAGA AAGCGAAGAC 
    CGGGCTAGAA TTGCTGAGAG ACTTTCTCAG GAGATAAAGC TTCAGGAGGG GAAACTCAAA 
    GAGATGGAAG GCAATCTGGA CATGTGTAGA GTCACAGCTG ATAAAGAACG AACAACTGCA 
    ACGCAACAGG CTGATGAGCT GCAGATGACC ATTAACCGCC TACAGGGAGC GTTATCCCTG 
    AAGGAAAGAG AAACAGGGAA CCTGCGAACT CAACTTCAAG ATGTGCAGAA AGCACTGGAA 
    GCCCAGCAGG ATCAAATGGA GGAGCACATG AAAAAGATCC AAGAGGAGAT GCAACGTAAA 
    AGTCTACTTG AAGAGCAGCT GAATGCAAAG ATGAATGAGT TGTCTGTTAG TACCCAAAAG 
    ATGCGCCAAC TAGAGAACCA CAACCAGCGG TTGATTGTGG AGAGTCAGAG CTTCCAAGCA 
    CAAGCCAAGA AACTGGAAGA GTACAAAAGC CAGTGCACAA GTCTAATGGA GATCAATGCC 
    AAGCTGATCC AGACTGTCAA AAGGAACGAA GACAGCAGCA AGGAGTTGTC AGAAATCAAG 
    ACCACTCTAG AGAAAGAACT AAAAACCTCA CAGGCTTCAG AGAGGCAACT GAGAACCAGA 
    CTCGAGTCAG CTGGACTGAC AGTGGAGAGC CAAAATCTTG AGGAGTGCAT CGAGAATGGC 
    CAGACGGACA ATAAAGATGT GTTGGAAAAA CTCAACGAGA GTACTACAGC CCCACAGAAG 
    AACAAGAGGA CAACTTCTGG ACTCCTACAA GAAGCCAACG AATACTCAAA AACTGATCAT 
    GTAGAATCTA CGACCAGGTT GGCTCTGGCT GAGGCCCAAC TTGAACTCAA CATGAAGGAG 
    GTTTCCAGAC TTCAGGATGA AGTCCTGGAG CTCCGGGCAC AACTATTGGT GATCTCAGAG 
    GAGAGGATGA AAATCCAGGC ATTGCAGGAA GTGACAGAAG CCTCTAGAGA AGATCTCCGA 
    GCTCAGACAG AGCAACTGAA GTCCCAAGTG GAGGAGCTAA ACAGAAGGCA TGTTGAGGAG 
    CTGCTACGTT GCCATGAAAG AGAGGAGACT TTGGGAAAAG AGAGAGATAT GGAGGCCAAG 
    ATGCGTGCCG AAATCCAAAC TAGCATGACT TCAATGAAGG AAGAGTGTCA TGCTTTGAAG 
    AAGCACAACA GCACACTTGC ACTTGAGAAT GGAGAGGCTC GTGAAGCCTT GCACAGGGCC 
    AACACTGAGA CAGCAGAGCT CGGGGTTCAT GTTTGCATGC TAACAGGGCA GAACGAGGAA 
    GCTAAGCTAC GATGGGAAGA GCTTTCGAAC AAACTGCAGG AGCTGCAGAT GGAGGCACAG 
    GAAGAGGTGA AAACTTTAAG TGATTCGATG GAAAGCTTGA GGAAAGATAA CGCAGGACTC 
    AAAGAGCAGG TAAAGCAGAT GGAGGGACTC CAAGAAGCCC TGCAGAAGTT GCAGGAGAAA 
    CTGGAACAGG CAGAAGACGA AGCCAGAAGT CTCCAGGAGA TCCGACAGAG GGAAGTGGAC 
    ACACTTAGGT CCCAGTTGAG CGATGAGGCC GCGCACCATC AAAGTCAAGT CCAGGGTATG 
    AGTGAGGATA TGGATGCACT GAGAAAAAGG CTGGACATTG AAGTTGAAAA AGTTTCAAGT 
    CTTGAGGCCA AAGTATTGGA GCTTGAGTCT CTAAACAGTG GGCACAGTCA GATGATCGAA 
    AAGACTACTG CTCTCATTGG TGACTCCGAA ACCATAATTT ATCAGAAAGA GGAACAGATT 
    AAAAACCTCA AAGTGGACTT GTCGAGAGCC GAGAAGGAAC TGGCTCTCGC TCAGCAGTCC 
    TGTCAAGAAC TGGGTGTGAA TTTAAGCAGA AGTGCAATGG AGAAGCAAGC CGTCGAACTG 
    AAGATGTCTG CTGAACTAGA TGACCTTTAC CGTACCAAAA AAAACCTGGA GGAGAGGCTC 
    ATTGAGCTCA TAAGGGAGAA AGATGCTTTG TGGCAGAAGT CTGACGCTCT GGAGTTTGAG 
    CAGAAACGAA GAGCTGAGGA GCAGACAGAC AGAGACGTCA CACACTGCCT GAGCTGTAAG 
    AGCCAGTTCA GCTGGATGCT GCGCAGATAC AACTGCAGGT TTTGTGGACG TCCGTTTTGC 
    TACAGTTGCT GCAGTTTTGG TGGTAAGGAT CGCTGTTGTA AGAGCTGCTC GACTCACAGT 
    GAGCGCCACC AACAGGCGGA TCAGGGCAGT CCTTCACACT CAACCTACAG CCCAATATCA 
    AGCCCTAATC AAACCAGCAC TCCAGGTGTC CCATGGATAC TAAAGTCCCC TCGACCTGAC 
    GACATGGCGT ATGACATCAT CACAGAAGAT GAAGTGAACC ACGTTCATGA CAGCGACTCG 
    TCATCCTACA CCACTGCGCT TTCACCAGAG ACACAACAGC TAAGCAGCAG TGATGTCACC 
    AGCACAGAAG ATTCAGACGA GCTGATTGGC TCCGTTCAGG ATTCAGAGAT CTGCCTGCTG 
    AAATCTGGAG AAAGGACGCT GTCTGTGCCA TTCAGTGTGG ATGACGTGAT GCATTTTGGC 
    TGTAAATCCA AAGAGCTGTT CATCAAGTCC AGCTGTTACA GTGTAATTCT CATAAGCGCT 
    GCACATCCGG GCCCTTCGAT CGGCTGGACC TTCTTCTCTG AACCCAAGAG CATCGCCTTC 
    AGCGTGGTCT ACAGAGAGAC CACAGATACG CCTCTAGAAC AGGCCAAGGT TCTGATTCCT 
    CTGACCAGAT GTAGATCTCA CAAGGAAACA ATTCAGGGTC AGCTAAAGGT CAGAAACCCT 
    GGACAATACA CACTTATCTT CGACAACTCC TTCTCCAGGT TTGTCTCGAA GAAGGTCCAG 
    TACAAGCTGA GCATAGAGAT GCCAGAGGTC TGCAACGGAA GTGACTGCTC TTCATAG

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

    RefSeq XP_017207872.1
    CDS48..3944
    Translation

    Target ORF information:

    RefSeq Version XM_017352383.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017352383.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTGTGGCT CCAGACAACC TTCTCATTTC TCTTTCGCAG TTTCATTTCA CTGCTTTTCT 
    GACATTTTAC GTACGTCTTT TTTTGTTTGT GTGCACCTCT GTGGAGGGTT TCGAGCAGGA 
    AGCAGTGGCG CTCAGCCTCA GCTGAAGACT TCGTTAGGGA AAGGACGGGC TTTCATCCGT 
    TACTGTCTGG TGCATCAAAG ACTTGCAGAC ACTCTTCAGC AATGTCTCAT AAACCTCAAA 
    ATCACAAGTG AATGGTATTA TGAGCGCAGT CCATTCCTGA AGTCCCATCT GAATATTGAT 
    ATCATCAACC ACCTGTATGA ACTCAATGAG GTTCAGTTTG ATGTAGCATC CCGAGGTTAC 
    GACCTGGACT CTCAGTGGCC CACATTTGCA AGAAGGACTC TGGGATCAGC CGTCTCGCCC 
    CATGTCTGGA AACCACCCAG TCGCTGCTCT AGTGTCAACA GTCTGGTCAG CAGCTACACA 
    CAGCAAGTTC AGGACTTCCT TCCTGGTCAA GATTTTGGTT CCAGTCTTCT AGGTGATCTC 
    GGAGAGCTAG GCGAGCTGAC ATGTAGCACT TCCGAGGACC TGCGTATTGA GCTTGACCAA 
    TCAGAGTTAA AACAGCAACA GCTCCAGGAG AAAATCCAAC TGCTCACCGA TGAAGCAGCT 
    GATCTGAGGG TTGTTATCAA AGACCTGCAG GAACAGCTCT TGGCTAAAGG TTCCGATCAA 
    GAGAAAGCAG GAGAACAGCA GCAGGAGGTG GTGAAAGCTG TCAGAGAGTG CACTGACCGT 
    CTCAGTACCA CCACACAGGG GCTGGAGGCT CTGAGGACTT CAGAACGCAA CCTCGAAGCC 
    AAGCTGAGTG TTGCAGAGAA CTGGAATATG GAGCTGCTGG CAAAACTTGA CGGAGCTTTA 
    AGTGAAAAAG GACAGCAGGC TGCAAACTAC TGTGATTCAG CTTGGAAGAT ACAGGAACTC 
    CTGACCAAGC TTAAGGAGGC AGAGCAGGAG AGGATTGAGG CTAAACGAGA AAGCGAAGAC 
    CGGGCTAGAA TTGCTGAGAG ACTTTCTCAG GAGATAAAGC TTCAGGAGGG GAAACTCAAA 
    GAGATGGAAG GCAATCTGGA CATGTGTAGA GTCACAGCTG ATAAAGAACG AACAACTGCA 
    ACGCAACAGG CTGATGAGCT GCAGATGACC ATTAACCGCC TACAGGGAGC GTTATCCCTG 
    AAGGAAAGAG AAACAGGGAA CCTGCGAACT CAACTTCAAG ATGTGCAGAA AGCACTGGAA 
    GCCCAGCAGG ATCAAATGGA GGAGCACATG AAAAAGATCC AAGAGGAGAT GCAACGTAAA 
    AGTCTACTTG AAGAGCAGCT GAATGCAAAG ATGAATGAGT TGTCTGTTAG TACCCAAAAG 
    ATGCGCCAAC TAGAGAACCA CAACCAGCGG TTGATTGTGG AGAGTCAGAG CTTCCAAGCA 
    CAAGCCAAGA AACTGGAAGA GTACAAAAGC CAGTGCACAA GTCTAATGGA GATCAATGCC 
    AAGCTGATCC AGACTGTCAA AAGGAACGAA GACAGCAGCA AGGAGTTGTC AGAAATCAAG 
    ACCACTCTAG AGAAAGAACT AAAAACCTCA CAGGCTTCAG AGAGGCAACT GAGAACCAGA 
    CTCGAGTCAG CTGGACTGAC AGTGGAGAGC CAAAATCTTG AGGAGTGCAT CGAGAATGGC 
    CAGACGGACA ATAAAGATGT GTTGGAAAAA CTCAACGAGA GTACTACAGC CCCACAGAAG 
    AACAAGAGGA CAACTTCTGG ACTCCTACAA GAAGCCAACG AATACTCAAA AACTGATCAT 
    GTAGAATCTA CGACCAGGTT GGCTCTGGCT GAGGCCCAAC TTGAACTCAA CATGAAGGAG 
    GTTTCCAGAC TTCAGGATGA AGTCCTGGAG CTCCGGGCAC AACTATTGGT GATCTCAGAG 
    GAGAGGATGA AAATCCAGGC ATTGCAGGAA GTGACAGAAG CCTCTAGAGA AGATCTCCGA 
    GCTCAGACAG AGCAACTGAA GTCCCAAGTG GAGGAGCTAA ACAGAAGGCA TGTTGAGGAG 
    CTGCTACGTT GCCATGAAAG AGAGGAGACT TTGGGAAAAG AGAGAGATAT GGAGGCCAAG 
    ATGCGTGCCG AAATCCAAAC TAGCATGACT TCAATGAAGG AAGAGTGTCA TGCTTTGAAG 
    AAGCACAACA GCACACTTGC ACTTGAGAAT GGAGAGGCTC GTGAAGCCTT GCACAGGGCC 
    AACACTGAGA CAGCAGAGCT CGGGGTTCAT GTTTGCATGC TAACAGGGCA GAACGAGGAA 
    GCTAAGCTAC GATGGGAAGA GCTTTCGAAC AAACTGCAGG AGCTGCAGAT GGAGGCACAG 
    GAAGAGGTGA AAACTTTAAG TGATTCGATG GAAAGCTTGA GGAAAGATAA CGCAGGACTC 
    AAAGAGCAGG TAAAGCAGAT GGAGGGACTC CAAGAAGCCC TGCAGAAGTT GCAGGAGAAA 
    CTGGAACAGG CAGAAGACGA AGCCAGAAGT CTCCAGGAGA TCCGACAGAG GGAAGTGGAC 
    ACACTTAGGT CCCAGTTGAG CGATGAGGCC GCGCACCATC AAAGTCAAGT CCAGGGTATG 
    AGTGAGGATA TGGATGCACT GAGAAAAAGG CTGGACATTG AAGTTGAAAA AGTTTCAAGT 
    CTTGAGGCCA AAGTATTGGA GCTTGAGTCT CTAAACAGTG GGCACAGTCA GATGATCGAA 
    AAGACTACTG CTCTCATTGG TGACTCCGAA ACCATAATTT ATCAGAAAGA GGAACAGATT 
    AAAAACCTCA AAGTGGACTT GTCGAGAGCC GAGAAGGAAC TGGCTCTCGC TCAGCAGTCC 
    TGTCAAGAAC TGGGTGTGAA TTTAAGCAGA AGTGCAATGG AGAAGCAAGC CGTCGAACTG 
    AAGATGTCTG CTGAACTAGA TGACCTTTAC CGTACCAAAA AAAACCTGGA GGAGAGGCTC 
    ATTGAGCTCA TAAGGGAGAA AGATGCTTTG TGGCAGAAGT CTGACGCTCT GGAGTTTGAG 
    CAGAAACGAA GAGCTGAGGA GCAGACAGAC AGAGACGTCA CACACTGCCT GAGCTGTAAG 
    AGCCAGTTCA GCTGGATGCT GCGCAGATAC AACTGCAGGT TTTGTGGACG TCCGTTTTGC 
    TACAGTTGCT GCAGTTTTGG TGGTAAGGAT CGCTGTTGTA AGAGCTGCTC GACTCACAGT 
    GAGCGCCACC AACAGGCGGA TCAGGGCAGT CCTTCACACT CAACCTACAG CCCAATATCA 
    AGCCCTAATC AAACCAGCAC TCCAGGTGTC CCATGGATAC TAAAGTCCCC TCGACCTGAC 
    GACATGGCGT ATGACATCAT CACAGAAGAT GAAGTGAACC ACGTTCATGA CAGCGACTCG 
    TCATCCTACA CCACTGCGCT TTCACCAGAG ACACAACAGC TAAGCAGCAG TGATGTCACC 
    AGCACAGAAG ATTCAGACGA GCTGATTGGC TCCGTTCAGG ATTCAGAGAT CTGCCTGCTG 
    AAATCTGGAG AAAGGACGCT GTCTGTGCCA TTCAGTGTGG ATGACGTGAT GCATTTTGGC 
    TGTAAATCCA AAGAGCTGTT CATCAAGTCC AGCTGTTACA GTGTAATTCT CATAAGCGCT 
    GCACATCCGG GCCCTTCGAT CGGCTGGACC TTCTTCTCTG AACCCAAGAG CATCGCCTTC 
    AGCGTGGTCT ACAGAGAGAC CACAGATACG CCTCTAGAAC AGGCCAAGGT TCTGATTCCT 
    CTGACCAGAT GTAGATCTCA CAAGGAAACA ATTCAGGGTC AGCTAAAGGT CAGAAACCCT 
    GGACAATACA CACTTATCTT CGACAACTCC TTCTCCAGGT TTGTCTCGAA GAAGGTCCAG 
    TACAAGCTGA GCATAGAGAT GCCAGAGGTC TGCAACGGAA GTGACTGCTC TTCATAG

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

    fyco1b ( XM_005171444.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005171501.1 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa07527
    Clone ID Related Accession (Same CDS sequence) XM_005171444.3 , XM_005171444.4 , XM_003197950.4 , XM_003197950.5
    Accession Version XM_005171444.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 FYVE and coiled-coil domain-containing protein 1-like isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005171444.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCACAG TCGGAGAAAA CCAGCTTCAG AGGATCATCA GAGATCTGCA TGATGCAGTT 
    TCTGAGCTGA GCAAGGAGCA TTGTGACACC GAAGAGCCCA TCACCGATGA CAGCTCCAGC 
    CTTCACAAGT TCTGTTTTAA ACTGGAGTAC CTGCTGCAAT TTGACCAGAA AGAGAGGACC 
    ACATTTCTGG GCAGCAGGAA AGACTACTGG GATTATTTCT GCGACTGCTT GGCCAAGATT 
    AAAGGAGCTA ATGACGGCAT TCGCTTTGTC AAATCAATCC CTGAGCTGAA GACTTCGTTA 
    GGGAAAGGAC GGGCTTTCAT CCGTTACTGT CTGGTGCATC AAAGACTTGC AGACACTCTT 
    CAGCAATGTC TCATAAACCT CAAAATCACA AGTGAATGGT ATTATGAGCG CAGTCCATTC 
    CTGAAGTCCC ATCTGAATAT TGATATCATC AACCACCTGT ATGAACTCAA TGAGGTTCAG 
    TTTGATGTAG CATCCCGAGG TTACGACCTG GACTCTCAGT GGCCCACATT TGCAAGAAGG 
    ACTCTGGGAT CAGCCGTCTC GCCCCATGTC TGGAAACCAC CCAGTCGCTG CTCTAGTGTC 
    AACAGTCTGG TCAGCAGCTA CACACAGCAA GTTCAGGACT TCCTTCCTGG TCAAGATTTT 
    GGTTCCAGTC TTCTAGGTGA TCTCGGAGAG CTAGGCGAGC TGACATGTAG CACTTCCGAG 
    GACCTGCGTA TTGAGCTTGA CCAATCAGAG TTAAAACAGC AACAGCTCCA GGAGAAAATC 
    CAACTGCTCA CCGATGAAGC AGCTGATCTG AGGGTTGTTA TCAAAGACCT GCAGGAACAG 
    CTCTTGGCTA AAGGTTCCGA TCAAGAGAAA GCAGGAGAAC AGCAGCAGGA GGTGGTGAAA 
    GCTGTCAGAG AGTGCACTGA CCGTCTCAGT ACCACCACAC AGGGGCTGGA GGCTCTGAGG 
    ACTTCAGAAC GCAACCTCGA AGCCAAGCTG AGTGTTGCAG AGAACTGGAA TATGGAGCTG 
    CTGGCAAAAC TTGACGGAGC TTTAAGTGAA AAAGGACAGC AGGCTGCAAA CTACTGTGAT 
    TCAGCTTGGA AGATACAGGA ACTCCTGACC AAGCTTAAGG AGGCAGAGCA GGAGAGGATT 
    GAGGCTAAAC GAGAAAGCGA AGACCGGGCT AGAATTGCTG AGAGACTTTC TCAGGAGATA 
    AAGCTTCAGG AGGGGAAACT CAAAGAGATG GAAGGCAATC TGGACATGTG TAGAGTCACA 
    GCTGATAAAG AACGAACAAC TGCAACGCAA CAGGCTGATG AGCTGCAGAT GACCATTAAC 
    CGCCTACAGG GAGCGTTATC CCTGAAGGAA AGAGAAACAG GGAACCTGCG AACTCAACTT 
    CAAGATGTGC AGAAAGCACT GGAAGCCCAG CAGGATCAAA TGGAGGAGCA CATGAAAAAG 
    ATCCAAGAGG AGATGCAACG TAAAAGTCTA CTTGAAGAGC AGCTGAATGC AAAGATGAAT 
    GAGTTGTCTG TTAGTACCCA AAAGATGCGC CAACTAGAGA ACCACAACCA GCGGTTGATT 
    GTGGAGAGTC AGAGCTTCCA AGCACAAGCC AAGAAACTGG AAGAGTACAA AAGCCAGTGC 
    ACAAGTCTAA TGGAGATCAA TGCCAAGCTG ATCCAGACTG TCAAAAGGAA CGAAGACAGC 
    AGCAAGGAGT TGTCAGAAAT CAAGACCACT CTAGAGAAAG AACTAAAAAC CTCACAGGCT 
    TCAGAGAGGC AACTGAGAAC CAGACTCGAG TCAGCTGGAC TGACAGTGGA GAGCCAAAAT 
    CTTGAGGAGT GCATCGAGAA TGGCCAGACG GACAATAAAG ATGTGTTGGA AAAACTCAAC 
    GAGAGTACTA CAGCCCCACA GAAGAACAAG AGGACAACTT CTGGACTCCT ACAAGAAGCC 
    AACGAATACT CAAAAACTGA TCATGTAGAA TCTACGACCA GGTTGGCTCT GGCTGAGGCC 
    CAACTTGAAC TCAACATGAA GGAGGTTTCC AGACTTCAGG ATGAAGTCCT GGAGCTCCGG 
    GCACAACTAT TGGTGATCTC AGAGGAGAGG ATGAAAATCC AGGCATTGCA GGAAGTGACA 
    GAAGCCTCTA GAGAAGATCT CCGAGCTCAG ACAGAGCAAC TGAAGTCCCA AGTGGAGGAG 
    CTAAACAGAA GGCATGTTGA GGAGCTGCTA CGTTGCCATG AAAGAGAGGA GACTTTGGGA 
    AAAGAGAGAG ATATGGAGGC CAAGATGCGT GCCGAAATCC AAACTAGCAT GACTTCAATG 
    AAGGAAGAGT GTCATGCTTT GAAGAAGCAC AACAGCACAC TTGCACTTGA GAATGGAGAG 
    GCTCGTGAAG CCTTGCACAG GGCCAACACT GAGACAGCAG AGCTCGGGGT TCATGTTTGC 
    ATGCTAACAG GGCAGAACGA GGAAGCTAAG CTACGATGGG AAGAGCTTTC GAACAAACTG 
    CAGGAGCTGC AGATGGAGGC ACAGGAAGAG GTGAAAACTT TAAGTGATTC GATGGAAAGC 
    TTGAGGAAAG ATAACGCAGG ACTCAAAGAG CAGGTAAAGC AGATGGAGGG ACTCCAAGAA 
    GCCCTGCAGA AGTTGCAGGA GAAACTGGAA CAGGCAGAAG ACGAAGCCAG AAGTCTCCAG 
    GAGATCCGAC AGAGGGAAGT GGACACACTT AGGTCCCAGT TGAGCGATGA GGCCGCGCAC 
    CATCAAAGTC AAGTCCAGGG TATGAGTGAG GATATGGATG CACTGAGAAA AAGGCTGGAC 
    ATTGAAGTTG AAAAAGTTTC AAGTCTTGAG GCCAAAGTAT TGGAGCTTGA GTCTCTAAAC 
    AGTGGGCACA GTCAGATGAT CGAAAAGACT ACTGCTCTCA TTGGTGACTC CGAAACCATA 
    ATTTATCAGA AAGAGGAACA GATTAAAAAC CTCAAAGTGG ACTTGTCGAG AGCCGAGAAG 
    GAACTGGCTC TCGCTCAGCA GTCCTGTCAA GAACTGGGTG TGAATTTAAG CAGAAGTGCA 
    ATGGAGAAGC AAGCCGTCGA ACTGAAGATG TCTGCTGAAC TAGATGACCT TTACCGTACC 
    AAAAAAAACC TGGAGGAGAG GCTCATTGAG CTCATAAGGG AGAAAGATGC TTTGTGGCAG 
    AAGTCTGACG CTCTGGAGTT TGAGCAGAAA CGAAGAGCTG AGGAGCAGAC AGACAGAGAC 
    GTCACACACT GCCTGAGCTG TAAGAGCCAG TTCAGCTGGA TGCTGCGCAG ATACAACTGC 
    AGGTTTTGTG GACGTCCGTT TTGCTACAGT TGCTGCAGTT TTGGTGGTAA GGATCGCTGT 
    TGTAAGAGCT GCTCGACTCA CAGTGAGCGC CACCAACAGG CGGATCAGGG CAGTCCTTCA 
    CACTCAACCT ACAGCCCAAT ATCAAGCCCT AATCAAACCA GCACTCCAGG TGTCCCATGG 
    ATACTAAAGT CCCCTCGACC TGACGACATG GCGTATGACA TCATCACAGA AGATGAAGTG 
    AACCACGTTC ATGACAGCGA CTCGTCATCC TACACCACTG CGCTTTCACC AGAGACACAA 
    CAGCTAAGCA GCAGTGATGT CACCAGCACA GAAGATTCAG ACGAGCTGAT TGGCTCCGTT 
    CAGGATTCAG AGATCTGCCT GCTGAAATCT GGAGAAAGGA CGCTGTCTGT GCCATTCAGT 
    GTGGATGACG TGATGCATTT TGGCTGTAAA TCCAAAGAGC TGTTCATCAA GTCCAGCTGT 
    TACAGTGTAA TTCTCATAAG CGCTGCACAT CCGGGCCCTT CGATCGGCTG GACCTTCTTC 
    TCTGAACCCA AGAGCATCGC CTTCAGCGTG GTCTACAGAG AGACCACAGA TACGCCTCTA 
    GAACAGGCCA AGGTTCTGAT TCCTCTGACC AGATGTAGAT CTCACAAGGA AACAATTCAG 
    GGTCAGCTAA AGGTCAGAAA CCCTGGACAA TACACACTTA TCTTCGACAA CTCCTTCTCC 
    AGGTTTGTCT CGAAGAAGGT CCAGTACAAG CTGAGCATAG AGATGCCAGA GGTCTGCAAC 
    GGAAGTGACT GCTCTTCATA G

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

    RefSeq XP_005171501.1
    CDS152..4192
    Translation

    Target ORF information:

    RefSeq Version XM_005171444.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005171444.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCACAG TCGGAGAAAA CCAGCTTCAG AGGATCATCA GAGATCTGCA TGATGCAGTT 
    TCTGAGCTGA GCAAGGAGCA TTGTGACACC GAAGAGCCCA TCACCGATGA CAGCTCCAGC 
    CTTCACAAGT TCTGTTTTAA ACTGGAGTAC CTGCTGCAAT TTGACCAGAA AGAGAGGACC 
    ACATTTCTGG GCAGCAGGAA AGACTACTGG GATTATTTCT GCGACTGCTT GGCCAAGATT 
    AAAGGAGCTA ATGACGGCAT TCGCTTTGTC AAATCAATCC CTGAGCTGAA GACTTCGTTA 
    GGGAAAGGAC GGGCTTTCAT CCGTTACTGT CTGGTGCATC AAAGACTTGC AGACACTCTT 
    CAGCAATGTC TCATAAACCT CAAAATCACA AGTGAATGGT ATTATGAGCG CAGTCCATTC 
    CTGAAGTCCC ATCTGAATAT TGATATCATC AACCACCTGT ATGAACTCAA TGAGGTTCAG 
    TTTGATGTAG CATCCCGAGG TTACGACCTG GACTCTCAGT GGCCCACATT TGCAAGAAGG 
    ACTCTGGGAT CAGCCGTCTC GCCCCATGTC TGGAAACCAC CCAGTCGCTG CTCTAGTGTC 
    AACAGTCTGG TCAGCAGCTA CACACAGCAA GTTCAGGACT TCCTTCCTGG TCAAGATTTT 
    GGTTCCAGTC TTCTAGGTGA TCTCGGAGAG CTAGGCGAGC TGACATGTAG CACTTCCGAG 
    GACCTGCGTA TTGAGCTTGA CCAATCAGAG TTAAAACAGC AACAGCTCCA GGAGAAAATC 
    CAACTGCTCA CCGATGAAGC AGCTGATCTG AGGGTTGTTA TCAAAGACCT GCAGGAACAG 
    CTCTTGGCTA AAGGTTCCGA TCAAGAGAAA GCAGGAGAAC AGCAGCAGGA GGTGGTGAAA 
    GCTGTCAGAG AGTGCACTGA CCGTCTCAGT ACCACCACAC AGGGGCTGGA GGCTCTGAGG 
    ACTTCAGAAC GCAACCTCGA AGCCAAGCTG AGTGTTGCAG AGAACTGGAA TATGGAGCTG 
    CTGGCAAAAC TTGACGGAGC TTTAAGTGAA AAAGGACAGC AGGCTGCAAA CTACTGTGAT 
    TCAGCTTGGA AGATACAGGA ACTCCTGACC AAGCTTAAGG AGGCAGAGCA GGAGAGGATT 
    GAGGCTAAAC GAGAAAGCGA AGACCGGGCT AGAATTGCTG AGAGACTTTC TCAGGAGATA 
    AAGCTTCAGG AGGGGAAACT CAAAGAGATG GAAGGCAATC TGGACATGTG TAGAGTCACA 
    GCTGATAAAG AACGAACAAC TGCAACGCAA CAGGCTGATG AGCTGCAGAT GACCATTAAC 
    CGCCTACAGG GAGCGTTATC CCTGAAGGAA AGAGAAACAG GGAACCTGCG AACTCAACTT 
    CAAGATGTGC AGAAAGCACT GGAAGCCCAG CAGGATCAAA TGGAGGAGCA CATGAAAAAG 
    ATCCAAGAGG AGATGCAACG TAAAAGTCTA CTTGAAGAGC AGCTGAATGC AAAGATGAAT 
    GAGTTGTCTG TTAGTACCCA AAAGATGCGC CAACTAGAGA ACCACAACCA GCGGTTGATT 
    GTGGAGAGTC AGAGCTTCCA AGCACAAGCC AAGAAACTGG AAGAGTACAA AAGCCAGTGC 
    ACAAGTCTAA TGGAGATCAA TGCCAAGCTG ATCCAGACTG TCAAAAGGAA CGAAGACAGC 
    AGCAAGGAGT TGTCAGAAAT CAAGACCACT CTAGAGAAAG AACTAAAAAC CTCACAGGCT 
    TCAGAGAGGC AACTGAGAAC CAGACTCGAG TCAGCTGGAC TGACAGTGGA GAGCCAAAAT 
    CTTGAGGAGT GCATCGAGAA TGGCCAGACG GACAATAAAG ATGTGTTGGA AAAACTCAAC 
    GAGAGTACTA CAGCCCCACA GAAGAACAAG AGGACAACTT CTGGACTCCT ACAAGAAGCC 
    AACGAATACT CAAAAACTGA TCATGTAGAA TCTACGACCA GGTTGGCTCT GGCTGAGGCC 
    CAACTTGAAC TCAACATGAA GGAGGTTTCC AGACTTCAGG ATGAAGTCCT GGAGCTCCGG 
    GCACAACTAT TGGTGATCTC AGAGGAGAGG ATGAAAATCC AGGCATTGCA GGAAGTGACA 
    GAAGCCTCTA GAGAAGATCT CCGAGCTCAG ACAGAGCAAC TGAAGTCCCA AGTGGAGGAG 
    CTAAACAGAA GGCATGTTGA GGAGCTGCTA CGTTGCCATG AAAGAGAGGA GACTTTGGGA 
    AAAGAGAGAG ATATGGAGGC CAAGATGCGT GCCGAAATCC AAACTAGCAT GACTTCAATG 
    AAGGAAGAGT GTCATGCTTT GAAGAAGCAC AACAGCACAC TTGCACTTGA GAATGGAGAG 
    GCTCGTGAAG CCTTGCACAG GGCCAACACT GAGACAGCAG AGCTCGGGGT TCATGTTTGC 
    ATGCTAACAG GGCAGAACGA GGAAGCTAAG CTACGATGGG AAGAGCTTTC GAACAAACTG 
    CAGGAGCTGC AGATGGAGGC ACAGGAAGAG GTGAAAACTT TAAGTGATTC GATGGAAAGC 
    TTGAGGAAAG ATAACGCAGG ACTCAAAGAG CAGGTAAAGC AGATGGAGGG ACTCCAAGAA 
    GCCCTGCAGA AGTTGCAGGA GAAACTGGAA CAGGCAGAAG ACGAAGCCAG AAGTCTCCAG 
    GAGATCCGAC AGAGGGAAGT GGACACACTT AGGTCCCAGT TGAGCGATGA GGCCGCGCAC 
    CATCAAAGTC AAGTCCAGGG TATGAGTGAG GATATGGATG CACTGAGAAA AAGGCTGGAC 
    ATTGAAGTTG AAAAAGTTTC AAGTCTTGAG GCCAAAGTAT TGGAGCTTGA GTCTCTAAAC 
    AGTGGGCACA GTCAGATGAT CGAAAAGACT ACTGCTCTCA TTGGTGACTC CGAAACCATA 
    ATTTATCAGA AAGAGGAACA GATTAAAAAC CTCAAAGTGG ACTTGTCGAG AGCCGAGAAG 
    GAACTGGCTC TCGCTCAGCA GTCCTGTCAA GAACTGGGTG TGAATTTAAG CAGAAGTGCA 
    ATGGAGAAGC AAGCCGTCGA ACTGAAGATG TCTGCTGAAC TAGATGACCT TTACCGTACC 
    AAAAAAAACC TGGAGGAGAG GCTCATTGAG CTCATAAGGG AGAAAGATGC TTTGTGGCAG 
    AAGTCTGACG CTCTGGAGTT TGAGCAGAAA CGAAGAGCTG AGGAGCAGAC AGACAGAGAC 
    GTCACACACT GCCTGAGCTG TAAGAGCCAG TTCAGCTGGA TGCTGCGCAG ATACAACTGC 
    AGGTTTTGTG GACGTCCGTT TTGCTACAGT TGCTGCAGTT TTGGTGGTAA GGATCGCTGT 
    TGTAAGAGCT GCTCGACTCA CAGTGAGCGC CACCAACAGG CGGATCAGGG CAGTCCTTCA 
    CACTCAACCT ACAGCCCAAT ATCAAGCCCT AATCAAACCA GCACTCCAGG TGTCCCATGG 
    ATACTAAAGT CCCCTCGACC TGACGACATG GCGTATGACA TCATCACAGA AGATGAAGTG 
    AACCACGTTC ATGACAGCGA CTCGTCATCC TACACCACTG CGCTTTCACC AGAGACACAA 
    CAGCTAAGCA GCAGTGATGT CACCAGCACA GAAGATTCAG ACGAGCTGAT TGGCTCCGTT 
    CAGGATTCAG AGATCTGCCT GCTGAAATCT GGAGAAAGGA CGCTGTCTGT GCCATTCAGT 
    GTGGATGACG TGATGCATTT TGGCTGTAAA TCCAAAGAGC TGTTCATCAA GTCCAGCTGT 
    TACAGTGTAA TTCTCATAAG CGCTGCACAT CCGGGCCCTT CGATCGGCTG GACCTTCTTC 
    TCTGAACCCA AGAGCATCGC CTTCAGCGTG GTCTACAGAG AGACCACAGA TACGCCTCTA 
    GAACAGGCCA AGGTTCTGAT TCCTCTGACC AGATGTAGAT CTCACAAGGA AACAATTCAG 
    GGTCAGCTAA AGGTCAGAAA CCCTGGACAA TACACACTTA TCTTCGACAA CTCCTTCTCC 
    AGGTTTGTCT CGAAGAAGGT CCAGTACAAG CTGAGCATAG AGATGCCAGA GGTCTGCAAC 
    GGAAGTGACT GCTCTTCATA G

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

    fyco1b ( XM_005171444.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005171501.1 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa07527
    Clone ID Related Accession (Same CDS sequence) XM_005171444.3 , XM_005171444.4 , XM_003197950.4 , XM_003197950.5
    Accession Version XM_005171444.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 FYVE and coiled-coil domain-containing protein 1-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.7) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005171444.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCACAG TCGGAGAAAA CCAGCTTCAG AGGATCATCA GAGATCTGCA TGATGCAGTT 
    TCTGAGCTGA GCAAGGAGCA TTGTGACACC GAAGAGCCCA TCACCGATGA CAGCTCCAGC 
    CTTCACAAGT TCTGTTTTAA ACTGGAGTAC CTGCTGCAAT TTGACCAGAA AGAGAGGACC 
    ACATTTCTGG GCAGCAGGAA AGACTACTGG GATTATTTCT GCGACTGCTT GGCCAAGATT 
    AAAGGAGCTA ATGACGGCAT TCGCTTTGTC AAATCAATCC CTGAGCTGAA GACTTCGTTA 
    GGGAAAGGAC GGGCTTTCAT CCGTTACTGT CTGGTGCATC AAAGACTTGC AGACACTCTT 
    CAGCAATGTC TCATAAACCT CAAAATCACA AGTGAATGGT ATTATGAGCG CAGTCCATTC 
    CTGAAGTCCC ATCTGAATAT TGATATCATC AACCACCTGT ATGAACTCAA TGAGGTTCAG 
    TTTGATGTAG CATCCCGAGG TTACGACCTG GACTCTCAGT GGCCCACATT TGCAAGAAGG 
    ACTCTGGGAT CAGCCGTCTC GCCCCATGTC TGGAAACCAC CCAGTCGCTG CTCTAGTGTC 
    AACAGTCTGG TCAGCAGCTA CACACAGCAA GTTCAGGACT TCCTTCCTGG TCAAGATTTT 
    GGTTCCAGTC TTCTAGGTGA TCTCGGAGAG CTAGGCGAGC TGACATGTAG CACTTCCGAG 
    GACCTGCGTA TTGAGCTTGA CCAATCAGAG TTAAAACAGC AACAGCTCCA GGAGAAAATC 
    CAACTGCTCA CCGATGAAGC AGCTGATCTG AGGGTTGTTA TCAAAGACCT GCAGGAACAG 
    CTCTTGGCTA AAGGTTCCGA TCAAGAGAAA GCAGGAGAAC AGCAGCAGGA GGTGGTGAAA 
    GCTGTCAGAG AGTGCACTGA CCGTCTCAGT ACCACCACAC AGGGGCTGGA GGCTCTGAGG 
    ACTTCAGAAC GCAACCTCGA AGCCAAGCTG AGTGTTGCAG AGAACTGGAA TATGGAGCTG 
    CTGGCAAAAC TTGACGGAGC TTTAAGTGAA AAAGGACAGC AGGCTGCAAA CTACTGTGAT 
    TCAGCTTGGA AGATACAGGA ACTCCTGACC AAGCTTAAGG AGGCAGAGCA GGAGAGGATT 
    GAGGCTAAAC GAGAAAGCGA AGACCGGGCT AGAATTGCTG AGAGACTTTC TCAGGAGATA 
    AAGCTTCAGG AGGGGAAACT CAAAGAGATG GAAGGCAATC TGGACATGTG TAGAGTCACA 
    GCTGATAAAG AACGAACAAC TGCAACGCAA CAGGCTGATG AGCTGCAGAT GACCATTAAC 
    CGCCTACAGG GAGCGTTATC CCTGAAGGAA AGAGAAACAG GGAACCTGCG AACTCAACTT 
    CAAGATGTGC AGAAAGCACT GGAAGCCCAG CAGGATCAAA TGGAGGAGCA CATGAAAAAG 
    ATCCAAGAGG AGATGCAACG TAAAAGTCTA CTTGAAGAGC AGCTGAATGC AAAGATGAAT 
    GAGTTGTCTG TTAGTACCCA AAAGATGCGC CAACTAGAGA ACCACAACCA GCGGTTGATT 
    GTGGAGAGTC AGAGCTTCCA AGCACAAGCC AAGAAACTGG AAGAGTACAA AAGCCAGTGC 
    ACAAGTCTAA TGGAGATCAA TGCCAAGCTG ATCCAGACTG TCAAAAGGAA CGAAGACAGC 
    AGCAAGGAGT TGTCAGAAAT CAAGACCACT CTAGAGAAAG AACTAAAAAC CTCACAGGCT 
    TCAGAGAGGC AACTGAGAAC CAGACTCGAG TCAGCTGGAC TGACAGTGGA GAGCCAAAAT 
    CTTGAGGAGT GCATCGAGAA TGGCCAGACG GACAATAAAG ATGTGTTGGA AAAACTCAAC 
    GAGAGTACTA CAGCCCCACA GAAGAACAAG AGGACAACTT CTGGACTCCT ACAAGAAGCC 
    AACGAATACT CAAAAACTGA TCATGTAGAA TCTACGACCA GGTTGGCTCT GGCTGAGGCC 
    CAACTTGAAC TCAACATGAA GGAGGTTTCC AGACTTCAGG ATGAAGTCCT GGAGCTCCGG 
    GCACAACTAT TGGTGATCTC AGAGGAGAGG ATGAAAATCC AGGCATTGCA GGAAGTGACA 
    GAAGCCTCTA GAGAAGATCT CCGAGCTCAG ACAGAGCAAC TGAAGTCCCA AGTGGAGGAG 
    CTAAACAGAA GGCATGTTGA GGAGCTGCTA CGTTGCCATG AAAGAGAGGA GACTTTGGGA 
    AAAGAGAGAG ATATGGAGGC CAAGATGCGT GCCGAAATCC AAACTAGCAT GACTTCAATG 
    AAGGAAGAGT GTCATGCTTT GAAGAAGCAC AACAGCACAC TTGCACTTGA GAATGGAGAG 
    GCTCGTGAAG CCTTGCACAG GGCCAACACT GAGACAGCAG AGCTCGGGGT TCATGTTTGC 
    ATGCTAACAG GGCAGAACGA GGAAGCTAAG CTACGATGGG AAGAGCTTTC GAACAAACTG 
    CAGGAGCTGC AGATGGAGGC ACAGGAAGAG GTGAAAACTT TAAGTGATTC GATGGAAAGC 
    TTGAGGAAAG ATAACGCAGG ACTCAAAGAG CAGGTAAAGC AGATGGAGGG ACTCCAAGAA 
    GCCCTGCAGA AGTTGCAGGA GAAACTGGAA CAGGCAGAAG ACGAAGCCAG AAGTCTCCAG 
    GAGATCCGAC AGAGGGAAGT GGACACACTT AGGTCCCAGT TGAGCGATGA GGCCGCGCAC 
    CATCAAAGTC AAGTCCAGGG TATGAGTGAG GATATGGATG CACTGAGAAA AAGGCTGGAC 
    ATTGAAGTTG AAAAAGTTTC AAGTCTTGAG GCCAAAGTAT TGGAGCTTGA GTCTCTAAAC 
    AGTGGGCACA GTCAGATGAT CGAAAAGACT ACTGCTCTCA TTGGTGACTC CGAAACCATA 
    ATTTATCAGA AAGAGGAACA GATTAAAAAC CTCAAAGTGG ACTTGTCGAG AGCCGAGAAG 
    GAACTGGCTC TCGCTCAGCA GTCCTGTCAA GAACTGGGTG TGAATTTAAG CAGAAGTGCA 
    ATGGAGAAGC AAGCCGTCGA ACTGAAGATG TCTGCTGAAC TAGATGACCT TTACCGTACC 
    AAAAAAAACC TGGAGGAGAG GCTCATTGAG CTCATAAGGG AGAAAGATGC TTTGTGGCAG 
    AAGTCTGACG CTCTGGAGTT TGAGCAGAAA CGAAGAGCTG AGGAGCAGAC AGACAGAGAC 
    GTCACACACT GCCTGAGCTG TAAGAGCCAG TTCAGCTGGA TGCTGCGCAG ATACAACTGC 
    AGGTTTTGTG GACGTCCGTT TTGCTACAGT TGCTGCAGTT TTGGTGGTAA GGATCGCTGT 
    TGTAAGAGCT GCTCGACTCA CAGTGAGCGC CACCAACAGG CGGATCAGGG CAGTCCTTCA 
    CACTCAACCT ACAGCCCAAT ATCAAGCCCT AATCAAACCA GCACTCCAGG TGTCCCATGG 
    ATACTAAAGT CCCCTCGACC TGACGACATG GCGTATGACA TCATCACAGA AGATGAAGTG 
    AACCACGTTC ATGACAGCGA CTCGTCATCC TACACCACTG CGCTTTCACC AGAGACACAA 
    CAGCTAAGCA GCAGTGATGT CACCAGCACA GAAGATTCAG ACGAGCTGAT TGGCTCCGTT 
    CAGGATTCAG AGATCTGCCT GCTGAAATCT GGAGAAAGGA CGCTGTCTGT GCCATTCAGT 
    GTGGATGACG TGATGCATTT TGGCTGTAAA TCCAAAGAGC TGTTCATCAA GTCCAGCTGT 
    TACAGTGTAA TTCTCATAAG CGCTGCACAT CCGGGCCCTT CGATCGGCTG GACCTTCTTC 
    TCTGAACCCA AGAGCATCGC CTTCAGCGTG GTCTACAGAG AGACCACAGA TACGCCTCTA 
    GAACAGGCCA AGGTTCTGAT TCCTCTGACC AGATGTAGAT CTCACAAGGA AACAATTCAG 
    GGTCAGCTAA AGGTCAGAAA CCCTGGACAA TACACACTTA TCTTCGACAA CTCCTTCTCC 
    AGGTTTGTCT CGAAGAAGGT CCAGTACAAG CTGAGCATAG AGATGCCAGA GGTCTGCAAC 
    GGAAGTGACT GCTCTTCATA G

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

    RefSeq XP_005171501.1
    CDS151..4191
    Translation

    Target ORF information:

    RefSeq Version XM_005171444.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005171444.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCACAG TCGGAGAAAA CCAGCTTCAG AGGATCATCA GAGATCTGCA TGATGCAGTT 
    TCTGAGCTGA GCAAGGAGCA TTGTGACACC GAAGAGCCCA TCACCGATGA CAGCTCCAGC 
    CTTCACAAGT TCTGTTTTAA ACTGGAGTAC CTGCTGCAAT TTGACCAGAA AGAGAGGACC 
    ACATTTCTGG GCAGCAGGAA AGACTACTGG GATTATTTCT GCGACTGCTT GGCCAAGATT 
    AAAGGAGCTA ATGACGGCAT TCGCTTTGTC AAATCAATCC CTGAGCTGAA GACTTCGTTA 
    GGGAAAGGAC GGGCTTTCAT CCGTTACTGT CTGGTGCATC AAAGACTTGC AGACACTCTT 
    CAGCAATGTC TCATAAACCT CAAAATCACA AGTGAATGGT ATTATGAGCG CAGTCCATTC 
    CTGAAGTCCC ATCTGAATAT TGATATCATC AACCACCTGT ATGAACTCAA TGAGGTTCAG 
    TTTGATGTAG CATCCCGAGG TTACGACCTG GACTCTCAGT GGCCCACATT TGCAAGAAGG 
    ACTCTGGGAT CAGCCGTCTC GCCCCATGTC TGGAAACCAC CCAGTCGCTG CTCTAGTGTC 
    AACAGTCTGG TCAGCAGCTA CACACAGCAA GTTCAGGACT TCCTTCCTGG TCAAGATTTT 
    GGTTCCAGTC TTCTAGGTGA TCTCGGAGAG CTAGGCGAGC TGACATGTAG CACTTCCGAG 
    GACCTGCGTA TTGAGCTTGA CCAATCAGAG TTAAAACAGC AACAGCTCCA GGAGAAAATC 
    CAACTGCTCA CCGATGAAGC AGCTGATCTG AGGGTTGTTA TCAAAGACCT GCAGGAACAG 
    CTCTTGGCTA AAGGTTCCGA TCAAGAGAAA GCAGGAGAAC AGCAGCAGGA GGTGGTGAAA 
    GCTGTCAGAG AGTGCACTGA CCGTCTCAGT ACCACCACAC AGGGGCTGGA GGCTCTGAGG 
    ACTTCAGAAC GCAACCTCGA AGCCAAGCTG AGTGTTGCAG AGAACTGGAA TATGGAGCTG 
    CTGGCAAAAC TTGACGGAGC TTTAAGTGAA AAAGGACAGC AGGCTGCAAA CTACTGTGAT 
    TCAGCTTGGA AGATACAGGA ACTCCTGACC AAGCTTAAGG AGGCAGAGCA GGAGAGGATT 
    GAGGCTAAAC GAGAAAGCGA AGACCGGGCT AGAATTGCTG AGAGACTTTC TCAGGAGATA 
    AAGCTTCAGG AGGGGAAACT CAAAGAGATG GAAGGCAATC TGGACATGTG TAGAGTCACA 
    GCTGATAAAG AACGAACAAC TGCAACGCAA CAGGCTGATG AGCTGCAGAT GACCATTAAC 
    CGCCTACAGG GAGCGTTATC CCTGAAGGAA AGAGAAACAG GGAACCTGCG AACTCAACTT 
    CAAGATGTGC AGAAAGCACT GGAAGCCCAG CAGGATCAAA TGGAGGAGCA CATGAAAAAG 
    ATCCAAGAGG AGATGCAACG TAAAAGTCTA CTTGAAGAGC AGCTGAATGC AAAGATGAAT 
    GAGTTGTCTG TTAGTACCCA AAAGATGCGC CAACTAGAGA ACCACAACCA GCGGTTGATT 
    GTGGAGAGTC AGAGCTTCCA AGCACAAGCC AAGAAACTGG AAGAGTACAA AAGCCAGTGC 
    ACAAGTCTAA TGGAGATCAA TGCCAAGCTG ATCCAGACTG TCAAAAGGAA CGAAGACAGC 
    AGCAAGGAGT TGTCAGAAAT CAAGACCACT CTAGAGAAAG AACTAAAAAC CTCACAGGCT 
    TCAGAGAGGC AACTGAGAAC CAGACTCGAG TCAGCTGGAC TGACAGTGGA GAGCCAAAAT 
    CTTGAGGAGT GCATCGAGAA TGGCCAGACG GACAATAAAG ATGTGTTGGA AAAACTCAAC 
    GAGAGTACTA CAGCCCCACA GAAGAACAAG AGGACAACTT CTGGACTCCT ACAAGAAGCC 
    AACGAATACT CAAAAACTGA TCATGTAGAA TCTACGACCA GGTTGGCTCT GGCTGAGGCC 
    CAACTTGAAC TCAACATGAA GGAGGTTTCC AGACTTCAGG ATGAAGTCCT GGAGCTCCGG 
    GCACAACTAT TGGTGATCTC AGAGGAGAGG ATGAAAATCC AGGCATTGCA GGAAGTGACA 
    GAAGCCTCTA GAGAAGATCT CCGAGCTCAG ACAGAGCAAC TGAAGTCCCA AGTGGAGGAG 
    CTAAACAGAA GGCATGTTGA GGAGCTGCTA CGTTGCCATG AAAGAGAGGA GACTTTGGGA 
    AAAGAGAGAG ATATGGAGGC CAAGATGCGT GCCGAAATCC AAACTAGCAT GACTTCAATG 
    AAGGAAGAGT GTCATGCTTT GAAGAAGCAC AACAGCACAC TTGCACTTGA GAATGGAGAG 
    GCTCGTGAAG CCTTGCACAG GGCCAACACT GAGACAGCAG AGCTCGGGGT TCATGTTTGC 
    ATGCTAACAG GGCAGAACGA GGAAGCTAAG CTACGATGGG AAGAGCTTTC GAACAAACTG 
    CAGGAGCTGC AGATGGAGGC ACAGGAAGAG GTGAAAACTT TAAGTGATTC GATGGAAAGC 
    TTGAGGAAAG ATAACGCAGG ACTCAAAGAG CAGGTAAAGC AGATGGAGGG ACTCCAAGAA 
    GCCCTGCAGA AGTTGCAGGA GAAACTGGAA CAGGCAGAAG ACGAAGCCAG AAGTCTCCAG 
    GAGATCCGAC AGAGGGAAGT GGACACACTT AGGTCCCAGT TGAGCGATGA GGCCGCGCAC 
    CATCAAAGTC AAGTCCAGGG TATGAGTGAG GATATGGATG CACTGAGAAA AAGGCTGGAC 
    ATTGAAGTTG AAAAAGTTTC AAGTCTTGAG GCCAAAGTAT TGGAGCTTGA GTCTCTAAAC 
    AGTGGGCACA GTCAGATGAT CGAAAAGACT ACTGCTCTCA TTGGTGACTC CGAAACCATA 
    ATTTATCAGA AAGAGGAACA GATTAAAAAC CTCAAAGTGG ACTTGTCGAG AGCCGAGAAG 
    GAACTGGCTC TCGCTCAGCA GTCCTGTCAA GAACTGGGTG TGAATTTAAG CAGAAGTGCA 
    ATGGAGAAGC AAGCCGTCGA ACTGAAGATG TCTGCTGAAC TAGATGACCT TTACCGTACC 
    AAAAAAAACC TGGAGGAGAG GCTCATTGAG CTCATAAGGG AGAAAGATGC TTTGTGGCAG 
    AAGTCTGACG CTCTGGAGTT TGAGCAGAAA CGAAGAGCTG AGGAGCAGAC AGACAGAGAC 
    GTCACACACT GCCTGAGCTG TAAGAGCCAG TTCAGCTGGA TGCTGCGCAG ATACAACTGC 
    AGGTTTTGTG GACGTCCGTT TTGCTACAGT TGCTGCAGTT TTGGTGGTAA GGATCGCTGT 
    TGTAAGAGCT GCTCGACTCA CAGTGAGCGC CACCAACAGG CGGATCAGGG CAGTCCTTCA 
    CACTCAACCT ACAGCCCAAT ATCAAGCCCT AATCAAACCA GCACTCCAGG TGTCCCATGG 
    ATACTAAAGT CCCCTCGACC TGACGACATG GCGTATGACA TCATCACAGA AGATGAAGTG 
    AACCACGTTC ATGACAGCGA CTCGTCATCC TACACCACTG CGCTTTCACC AGAGACACAA 
    CAGCTAAGCA GCAGTGATGT CACCAGCACA GAAGATTCAG ACGAGCTGAT TGGCTCCGTT 
    CAGGATTCAG AGATCTGCCT GCTGAAATCT GGAGAAAGGA CGCTGTCTGT GCCATTCAGT 
    GTGGATGACG TGATGCATTT TGGCTGTAAA TCCAAAGAGC TGTTCATCAA GTCCAGCTGT 
    TACAGTGTAA TTCTCATAAG CGCTGCACAT CCGGGCCCTT CGATCGGCTG GACCTTCTTC 
    TCTGAACCCA AGAGCATCGC CTTCAGCGTG GTCTACAGAG AGACCACAGA TACGCCTCTA 
    GAACAGGCCA AGGTTCTGAT TCCTCTGACC AGATGTAGAT CTCACAAGGA AACAATTCAG 
    GGTCAGCTAA AGGTCAGAAA CCCTGGACAA TACACACTTA TCTTCGACAA CTCCTTCTCC 
    AGGTTTGTCT CGAAGAAGGT CCAGTACAAG CTGAGCATAG AGATGCCAGA GGTCTGCAAC 
    GGAAGTGACT GCTCTTCATA G

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

    fyco1b ( XM_003197950.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_003197998.1 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa07527
    Clone ID Related Accession (Same CDS sequence) XM_005171444.3 , XM_005171444.4 , XM_003197950.4 , XM_003197950.5
    Accession Version XM_003197950.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 FYVE and coiled-coil domain-containing protein 1-like isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_003197950.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCACAG TCGGAGAAAA CCAGCTTCAG AGGATCATCA GAGATCTGCA TGATGCAGTT 
    TCTGAGCTGA GCAAGGAGCA TTGTGACACC GAAGAGCCCA TCACCGATGA CAGCTCCAGC 
    CTTCACAAGT TCTGTTTTAA ACTGGAGTAC CTGCTGCAAT TTGACCAGAA AGAGAGGACC 
    ACATTTCTGG GCAGCAGGAA AGACTACTGG GATTATTTCT GCGACTGCTT GGCCAAGATT 
    AAAGGAGCTA ATGACGGCAT TCGCTTTGTC AAATCAATCC CTGAGCTGAA GACTTCGTTA 
    GGGAAAGGAC GGGCTTTCAT CCGTTACTGT CTGGTGCATC AAAGACTTGC AGACACTCTT 
    CAGCAATGTC TCATAAACCT CAAAATCACA AGTGAATGGT ATTATGAGCG CAGTCCATTC 
    CTGAAGTCCC ATCTGAATAT TGATATCATC AACCACCTGT ATGAACTCAA TGAGGTTCAG 
    TTTGATGTAG CATCCCGAGG TTACGACCTG GACTCTCAGT GGCCCACATT TGCAAGAAGG 
    ACTCTGGGAT CAGCCGTCTC GCCCCATGTC TGGAAACCAC CCAGTCGCTG CTCTAGTGTC 
    AACAGTCTGG TCAGCAGCTA CACACAGCAA GTTCAGGACT TCCTTCCTGG TCAAGATTTT 
    GGTTCCAGTC TTCTAGGTGA TCTCGGAGAG CTAGGCGAGC TGACATGTAG CACTTCCGAG 
    GACCTGCGTA TTGAGCTTGA CCAATCAGAG TTAAAACAGC AACAGCTCCA GGAGAAAATC 
    CAACTGCTCA CCGATGAAGC AGCTGATCTG AGGGTTGTTA TCAAAGACCT GCAGGAACAG 
    CTCTTGGCTA AAGGTTCCGA TCAAGAGAAA GCAGGAGAAC AGCAGCAGGA GGTGGTGAAA 
    GCTGTCAGAG AGTGCACTGA CCGTCTCAGT ACCACCACAC AGGGGCTGGA GGCTCTGAGG 
    ACTTCAGAAC GCAACCTCGA AGCCAAGCTG AGTGTTGCAG AGAACTGGAA TATGGAGCTG 
    CTGGCAAAAC TTGACGGAGC TTTAAGTGAA AAAGGACAGC AGGCTGCAAA CTACTGTGAT 
    TCAGCTTGGA AGATACAGGA ACTCCTGACC AAGCTTAAGG AGGCAGAGCA GGAGAGGATT 
    GAGGCTAAAC GAGAAAGCGA AGACCGGGCT AGAATTGCTG AGAGACTTTC TCAGGAGATA 
    AAGCTTCAGG AGGGGAAACT CAAAGAGATG GAAGGCAATC TGGACATGTG TAGAGTCACA 
    GCTGATAAAG AACGAACAAC TGCAACGCAA CAGGCTGATG AGCTGCAGAT GACCATTAAC 
    CGCCTACAGG GAGCGTTATC CCTGAAGGAA AGAGAAACAG GGAACCTGCG AACTCAACTT 
    CAAGATGTGC AGAAAGCACT GGAAGCCCAG CAGGATCAAA TGGAGGAGCA CATGAAAAAG 
    ATCCAAGAGG AGATGCAACG TAAAAGTCTA CTTGAAGAGC AGCTGAATGC AAAGATGAAT 
    GAGTTGTCTG TTAGTACCCA AAAGATGCGC CAACTAGAGA ACCACAACCA GCGGTTGATT 
    GTGGAGAGTC AGAGCTTCCA AGCACAAGCC AAGAAACTGG AAGAGTACAA AAGCCAGTGC 
    ACAAGTCTAA TGGAGATCAA TGCCAAGCTG ATCCAGACTG TCAAAAGGAA CGAAGACAGC 
    AGCAAGGAGT TGTCAGAAAT CAAGACCACT CTAGAGAAAG AACTAAAAAC CTCACAGGCT 
    TCAGAGAGGC AACTGAGAAC CAGACTCGAG TCAGCTGGAC TGACAGTGGA GAGCCAAAAT 
    CTTGAGGAGT GCATCGAGAA TGGCCAGACG GACAATAAAG ATGTGTTGGA AAAACTCAAC 
    GAGAGTACTA CAGCCCCACA GAAGAACAAG AGGACAACTT CTGGACTCCT ACAAGAAGCC 
    AACGAATACT CAAAAACTGA TCATGTAGAA TCTACGACCA GGTTGGCTCT GGCTGAGGCC 
    CAACTTGAAC TCAACATGAA GGAGGTTTCC AGACTTCAGG ATGAAGTCCT GGAGCTCCGG 
    GCACAACTAT TGGTGATCTC AGAGGAGAGG ATGAAAATCC AGGCATTGCA GGAAGTGACA 
    GAAGCCTCTA GAGAAGATCT CCGAGCTCAG ACAGAGCAAC TGAAGTCCCA AGTGGAGGAG 
    CTAAACAGAA GGCATGTTGA GGAGCTGCTA CGTTGCCATG AAAGAGAGGA GACTTTGGGA 
    AAAGAGAGAG ATATGGAGGC CAAGATGCGT GCCGAAATCC AAACTAGCAT GACTTCAATG 
    AAGGAAGAGT GTCATGCTTT GAAGAAGCAC AACAGCACAC TTGCACTTGA GAATGGAGAG 
    GCTCGTGAAG CCTTGCACAG GGCCAACACT GAGACAGCAG AGCTCGGGGT TCATGTTTGC 
    ATGCTAACAG GGCAGAACGA GGAAGCTAAG CTACGATGGG AAGAGCTTTC GAACAAACTG 
    CAGGAGCTGC AGATGGAGGC ACAGGAAGAG GTGAAAACTT TAAGTGATTC GATGGAAAGC 
    TTGAGGAAAG ATAACGCAGG ACTCAAAGAG CAGGTAAAGC AGATGGAGGG ACTCCAAGAA 
    GCCCTGCAGA AGTTGCAGGA GAAACTGGAA CAGGCAGAAG ACGAAGCCAG AAGTCTCCAG 
    GAGATCCGAC AGAGGGAAGT GGACACACTT AGGTCCCAGT TGAGCGATGA GGCCGCGCAC 
    CATCAAAGTC AAGTCCAGGG TATGAGTGAG GATATGGATG CACTGAGAAA AAGGCTGGAC 
    ATTGAAGTTG AAAAAGTTTC AAGTCTTGAG GCCAAAGTAT TGGAGCTTGA GTCTCTAAAC 
    AGTGGGCACA GTCAGATGAT CGAAAAGACT ACTGCTCTCA TTGGTGACTC CGAAACCATA 
    ATTTATCAGA AAGAGGAACA GATTAAAAAC CTCAAAGTGG ACTTGTCGAG AGCCGAGAAG 
    GAACTGGCTC TCGCTCAGCA GTCCTGTCAA GAACTGGGTG TGAATTTAAG CAGAAGTGCA 
    ATGGAGAAGC AAGCCGTCGA ACTGAAGATG TCTGCTGAAC TAGATGACCT TTACCGTACC 
    AAAAAAAACC TGGAGGAGAG GCTCATTGAG CTCATAAGGG AGAAAGATGC TTTGTGGCAG 
    AAGTCTGACG CTCTGGAGTT TGAGCAGAAA CGAAGAGCTG AGGAGCAGAC AGACAGAGAC 
    GTCACACACT GCCTGAGCTG TAAGAGCCAG TTCAGCTGGA TGCTGCGCAG ATACAACTGC 
    AGGTTTTGTG GACGTCCGTT TTGCTACAGT TGCTGCAGTT TTGGTGGTAA GGATCGCTGT 
    TGTAAGAGCT GCTCGACTCA CAGTGAGCGC CACCAACAGG CGGATCAGGG CAGTCCTTCA 
    CACTCAACCT ACAGCCCAAT ATCAAGCCCT AATCAAACCA GCACTCCAGG TGTCCCATGG 
    ATACTAAAGT CCCCTCGACC TGACGACATG GCGTATGACA TCATCACAGA AGATGAAGTG 
    AACCACGTTC ATGACAGCGA CTCGTCATCC TACACCACTG CGCTTTCACC AGAGACACAA 
    CAGCTAAGCA GCAGTGATGT CACCAGCACA GAAGATTCAG ACGAGCTGAT TGGCTCCGTT 
    CAGGATTCAG AGATCTGCCT GCTGAAATCT GGAGAAAGGA CGCTGTCTGT GCCATTCAGT 
    GTGGATGACG TGATGCATTT TGGCTGTAAA TCCAAAGAGC TGTTCATCAA GTCCAGCTGT 
    TACAGTGTAA TTCTCATAAG CGCTGCACAT CCGGGCCCTT CGATCGGCTG GACCTTCTTC 
    TCTGAACCCA AGAGCATCGC CTTCAGCGTG GTCTACAGAG AGACCACAGA TACGCCTCTA 
    GAACAGGCCA AGGTTCTGAT TCCTCTGACC AGATGTAGAT CTCACAAGGA AACAATTCAG 
    GGTCAGCTAA AGGTCAGAAA CCCTGGACAA TACACACTTA TCTTCGACAA CTCCTTCTCC 
    AGGTTTGTCT CGAAGAAGGT CCAGTACAAG CTGAGCATAG AGATGCCAGA GGTCTGCAAC 
    GGAAGTGACT GCTCTTCATA G

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

    RefSeq XP_003197998.1
    CDS211..4251
    Translation

    Target ORF information:

    RefSeq Version XM_003197950.4
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_003197950.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCACAG TCGGAGAAAA CCAGCTTCAG AGGATCATCA GAGATCTGCA TGATGCAGTT 
    TCTGAGCTGA GCAAGGAGCA TTGTGACACC GAAGAGCCCA TCACCGATGA CAGCTCCAGC 
    CTTCACAAGT TCTGTTTTAA ACTGGAGTAC CTGCTGCAAT TTGACCAGAA AGAGAGGACC 
    ACATTTCTGG GCAGCAGGAA AGACTACTGG GATTATTTCT GCGACTGCTT GGCCAAGATT 
    AAAGGAGCTA ATGACGGCAT TCGCTTTGTC AAATCAATCC CTGAGCTGAA GACTTCGTTA 
    GGGAAAGGAC GGGCTTTCAT CCGTTACTGT CTGGTGCATC AAAGACTTGC AGACACTCTT 
    CAGCAATGTC TCATAAACCT CAAAATCACA AGTGAATGGT ATTATGAGCG CAGTCCATTC 
    CTGAAGTCCC ATCTGAATAT TGATATCATC AACCACCTGT ATGAACTCAA TGAGGTTCAG 
    TTTGATGTAG CATCCCGAGG TTACGACCTG GACTCTCAGT GGCCCACATT TGCAAGAAGG 
    ACTCTGGGAT CAGCCGTCTC GCCCCATGTC TGGAAACCAC CCAGTCGCTG CTCTAGTGTC 
    AACAGTCTGG TCAGCAGCTA CACACAGCAA GTTCAGGACT TCCTTCCTGG TCAAGATTTT 
    GGTTCCAGTC TTCTAGGTGA TCTCGGAGAG CTAGGCGAGC TGACATGTAG CACTTCCGAG 
    GACCTGCGTA TTGAGCTTGA CCAATCAGAG TTAAAACAGC AACAGCTCCA GGAGAAAATC 
    CAACTGCTCA CCGATGAAGC AGCTGATCTG AGGGTTGTTA TCAAAGACCT GCAGGAACAG 
    CTCTTGGCTA AAGGTTCCGA TCAAGAGAAA GCAGGAGAAC AGCAGCAGGA GGTGGTGAAA 
    GCTGTCAGAG AGTGCACTGA CCGTCTCAGT ACCACCACAC AGGGGCTGGA GGCTCTGAGG 
    ACTTCAGAAC GCAACCTCGA AGCCAAGCTG AGTGTTGCAG AGAACTGGAA TATGGAGCTG 
    CTGGCAAAAC TTGACGGAGC TTTAAGTGAA AAAGGACAGC AGGCTGCAAA CTACTGTGAT 
    TCAGCTTGGA AGATACAGGA ACTCCTGACC AAGCTTAAGG AGGCAGAGCA GGAGAGGATT 
    GAGGCTAAAC GAGAAAGCGA AGACCGGGCT AGAATTGCTG AGAGACTTTC TCAGGAGATA 
    AAGCTTCAGG AGGGGAAACT CAAAGAGATG GAAGGCAATC TGGACATGTG TAGAGTCACA 
    GCTGATAAAG AACGAACAAC TGCAACGCAA CAGGCTGATG AGCTGCAGAT GACCATTAAC 
    CGCCTACAGG GAGCGTTATC CCTGAAGGAA AGAGAAACAG GGAACCTGCG AACTCAACTT 
    CAAGATGTGC AGAAAGCACT GGAAGCCCAG CAGGATCAAA TGGAGGAGCA CATGAAAAAG 
    ATCCAAGAGG AGATGCAACG TAAAAGTCTA CTTGAAGAGC AGCTGAATGC AAAGATGAAT 
    GAGTTGTCTG TTAGTACCCA AAAGATGCGC CAACTAGAGA ACCACAACCA GCGGTTGATT 
    GTGGAGAGTC AGAGCTTCCA AGCACAAGCC AAGAAACTGG AAGAGTACAA AAGCCAGTGC 
    ACAAGTCTAA TGGAGATCAA TGCCAAGCTG ATCCAGACTG TCAAAAGGAA CGAAGACAGC 
    AGCAAGGAGT TGTCAGAAAT CAAGACCACT CTAGAGAAAG AACTAAAAAC CTCACAGGCT 
    TCAGAGAGGC AACTGAGAAC CAGACTCGAG TCAGCTGGAC TGACAGTGGA GAGCCAAAAT 
    CTTGAGGAGT GCATCGAGAA TGGCCAGACG GACAATAAAG ATGTGTTGGA AAAACTCAAC 
    GAGAGTACTA CAGCCCCACA GAAGAACAAG AGGACAACTT CTGGACTCCT ACAAGAAGCC 
    AACGAATACT CAAAAACTGA TCATGTAGAA TCTACGACCA GGTTGGCTCT GGCTGAGGCC 
    CAACTTGAAC TCAACATGAA GGAGGTTTCC AGACTTCAGG ATGAAGTCCT GGAGCTCCGG 
    GCACAACTAT TGGTGATCTC AGAGGAGAGG ATGAAAATCC AGGCATTGCA GGAAGTGACA 
    GAAGCCTCTA GAGAAGATCT CCGAGCTCAG ACAGAGCAAC TGAAGTCCCA AGTGGAGGAG 
    CTAAACAGAA GGCATGTTGA GGAGCTGCTA CGTTGCCATG AAAGAGAGGA GACTTTGGGA 
    AAAGAGAGAG ATATGGAGGC CAAGATGCGT GCCGAAATCC AAACTAGCAT GACTTCAATG 
    AAGGAAGAGT GTCATGCTTT GAAGAAGCAC AACAGCACAC TTGCACTTGA GAATGGAGAG 
    GCTCGTGAAG CCTTGCACAG GGCCAACACT GAGACAGCAG AGCTCGGGGT TCATGTTTGC 
    ATGCTAACAG GGCAGAACGA GGAAGCTAAG CTACGATGGG AAGAGCTTTC GAACAAACTG 
    CAGGAGCTGC AGATGGAGGC ACAGGAAGAG GTGAAAACTT TAAGTGATTC GATGGAAAGC 
    TTGAGGAAAG ATAACGCAGG ACTCAAAGAG CAGGTAAAGC AGATGGAGGG ACTCCAAGAA 
    GCCCTGCAGA AGTTGCAGGA GAAACTGGAA CAGGCAGAAG ACGAAGCCAG AAGTCTCCAG 
    GAGATCCGAC AGAGGGAAGT GGACACACTT AGGTCCCAGT TGAGCGATGA GGCCGCGCAC 
    CATCAAAGTC AAGTCCAGGG TATGAGTGAG GATATGGATG CACTGAGAAA AAGGCTGGAC 
    ATTGAAGTTG AAAAAGTTTC AAGTCTTGAG GCCAAAGTAT TGGAGCTTGA GTCTCTAAAC 
    AGTGGGCACA GTCAGATGAT CGAAAAGACT ACTGCTCTCA TTGGTGACTC CGAAACCATA 
    ATTTATCAGA AAGAGGAACA GATTAAAAAC CTCAAAGTGG ACTTGTCGAG AGCCGAGAAG 
    GAACTGGCTC TCGCTCAGCA GTCCTGTCAA GAACTGGGTG TGAATTTAAG CAGAAGTGCA 
    ATGGAGAAGC AAGCCGTCGA ACTGAAGATG TCTGCTGAAC TAGATGACCT TTACCGTACC 
    AAAAAAAACC TGGAGGAGAG GCTCATTGAG CTCATAAGGG AGAAAGATGC TTTGTGGCAG 
    AAGTCTGACG CTCTGGAGTT TGAGCAGAAA CGAAGAGCTG AGGAGCAGAC AGACAGAGAC 
    GTCACACACT GCCTGAGCTG TAAGAGCCAG TTCAGCTGGA TGCTGCGCAG ATACAACTGC 
    AGGTTTTGTG GACGTCCGTT TTGCTACAGT TGCTGCAGTT TTGGTGGTAA GGATCGCTGT 
    TGTAAGAGCT GCTCGACTCA CAGTGAGCGC CACCAACAGG CGGATCAGGG CAGTCCTTCA 
    CACTCAACCT ACAGCCCAAT ATCAAGCCCT AATCAAACCA GCACTCCAGG TGTCCCATGG 
    ATACTAAAGT CCCCTCGACC TGACGACATG GCGTATGACA TCATCACAGA AGATGAAGTG 
    AACCACGTTC ATGACAGCGA CTCGTCATCC TACACCACTG CGCTTTCACC AGAGACACAA 
    CAGCTAAGCA GCAGTGATGT CACCAGCACA GAAGATTCAG ACGAGCTGAT TGGCTCCGTT 
    CAGGATTCAG AGATCTGCCT GCTGAAATCT GGAGAAAGGA CGCTGTCTGT GCCATTCAGT 
    GTGGATGACG TGATGCATTT TGGCTGTAAA TCCAAAGAGC TGTTCATCAA GTCCAGCTGT 
    TACAGTGTAA TTCTCATAAG CGCTGCACAT CCGGGCCCTT CGATCGGCTG GACCTTCTTC 
    TCTGAACCCA AGAGCATCGC CTTCAGCGTG GTCTACAGAG AGACCACAGA TACGCCTCTA 
    GAACAGGCCA AGGTTCTGAT TCCTCTGACC AGATGTAGAT CTCACAAGGA AACAATTCAG 
    GGTCAGCTAA AGGTCAGAAA CCCTGGACAA TACACACTTA TCTTCGACAA CTCCTTCTCC 
    AGGTTTGTCT CGAAGAAGGT CCAGTACAAG CTGAGCATAG AGATGCCAGA GGTCTGCAAC 
    GGAAGTGACT GCTCTTCATA G

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

    fyco1b ( XM_003197950.5 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_003197998.1 Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa07527
    Clone ID Related Accession (Same CDS sequence) XM_005171444.3 , XM_005171444.4 , XM_003197950.4 , XM_003197950.5
    Accession Version XM_003197950.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 FYVE and coiled-coil domain-containing protein 1-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.7) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_003197950.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCACAG TCGGAGAAAA CCAGCTTCAG AGGATCATCA GAGATCTGCA TGATGCAGTT 
    TCTGAGCTGA GCAAGGAGCA TTGTGACACC GAAGAGCCCA TCACCGATGA CAGCTCCAGC 
    CTTCACAAGT TCTGTTTTAA ACTGGAGTAC CTGCTGCAAT TTGACCAGAA AGAGAGGACC 
    ACATTTCTGG GCAGCAGGAA AGACTACTGG GATTATTTCT GCGACTGCTT GGCCAAGATT 
    AAAGGAGCTA ATGACGGCAT TCGCTTTGTC AAATCAATCC CTGAGCTGAA GACTTCGTTA 
    GGGAAAGGAC GGGCTTTCAT CCGTTACTGT CTGGTGCATC AAAGACTTGC AGACACTCTT 
    CAGCAATGTC TCATAAACCT CAAAATCACA AGTGAATGGT ATTATGAGCG CAGTCCATTC 
    CTGAAGTCCC ATCTGAATAT TGATATCATC AACCACCTGT ATGAACTCAA TGAGGTTCAG 
    TTTGATGTAG CATCCCGAGG TTACGACCTG GACTCTCAGT GGCCCACATT TGCAAGAAGG 
    ACTCTGGGAT CAGCCGTCTC GCCCCATGTC TGGAAACCAC CCAGTCGCTG CTCTAGTGTC 
    AACAGTCTGG TCAGCAGCTA CACACAGCAA GTTCAGGACT TCCTTCCTGG TCAAGATTTT 
    GGTTCCAGTC TTCTAGGTGA TCTCGGAGAG CTAGGCGAGC TGACATGTAG CACTTCCGAG 
    GACCTGCGTA TTGAGCTTGA CCAATCAGAG TTAAAACAGC AACAGCTCCA GGAGAAAATC 
    CAACTGCTCA CCGATGAAGC AGCTGATCTG AGGGTTGTTA TCAAAGACCT GCAGGAACAG 
    CTCTTGGCTA AAGGTTCCGA TCAAGAGAAA GCAGGAGAAC AGCAGCAGGA GGTGGTGAAA 
    GCTGTCAGAG AGTGCACTGA CCGTCTCAGT ACCACCACAC AGGGGCTGGA GGCTCTGAGG 
    ACTTCAGAAC GCAACCTCGA AGCCAAGCTG AGTGTTGCAG AGAACTGGAA TATGGAGCTG 
    CTGGCAAAAC TTGACGGAGC TTTAAGTGAA AAAGGACAGC AGGCTGCAAA CTACTGTGAT 
    TCAGCTTGGA AGATACAGGA ACTCCTGACC AAGCTTAAGG AGGCAGAGCA GGAGAGGATT 
    GAGGCTAAAC GAGAAAGCGA AGACCGGGCT AGAATTGCTG AGAGACTTTC TCAGGAGATA 
    AAGCTTCAGG AGGGGAAACT CAAAGAGATG GAAGGCAATC TGGACATGTG TAGAGTCACA 
    GCTGATAAAG AACGAACAAC TGCAACGCAA CAGGCTGATG AGCTGCAGAT GACCATTAAC 
    CGCCTACAGG GAGCGTTATC CCTGAAGGAA AGAGAAACAG GGAACCTGCG AACTCAACTT 
    CAAGATGTGC AGAAAGCACT GGAAGCCCAG CAGGATCAAA TGGAGGAGCA CATGAAAAAG 
    ATCCAAGAGG AGATGCAACG TAAAAGTCTA CTTGAAGAGC AGCTGAATGC AAAGATGAAT 
    GAGTTGTCTG TTAGTACCCA AAAGATGCGC CAACTAGAGA ACCACAACCA GCGGTTGATT 
    GTGGAGAGTC AGAGCTTCCA AGCACAAGCC AAGAAACTGG AAGAGTACAA AAGCCAGTGC 
    ACAAGTCTAA TGGAGATCAA TGCCAAGCTG ATCCAGACTG TCAAAAGGAA CGAAGACAGC 
    AGCAAGGAGT TGTCAGAAAT CAAGACCACT CTAGAGAAAG AACTAAAAAC CTCACAGGCT 
    TCAGAGAGGC AACTGAGAAC CAGACTCGAG TCAGCTGGAC TGACAGTGGA GAGCCAAAAT 
    CTTGAGGAGT GCATCGAGAA TGGCCAGACG GACAATAAAG ATGTGTTGGA AAAACTCAAC 
    GAGAGTACTA CAGCCCCACA GAAGAACAAG AGGACAACTT CTGGACTCCT ACAAGAAGCC 
    AACGAATACT CAAAAACTGA TCATGTAGAA TCTACGACCA GGTTGGCTCT GGCTGAGGCC 
    CAACTTGAAC TCAACATGAA GGAGGTTTCC AGACTTCAGG ATGAAGTCCT GGAGCTCCGG 
    GCACAACTAT TGGTGATCTC AGAGGAGAGG ATGAAAATCC AGGCATTGCA GGAAGTGACA 
    GAAGCCTCTA GAGAAGATCT CCGAGCTCAG ACAGAGCAAC TGAAGTCCCA AGTGGAGGAG 
    CTAAACAGAA GGCATGTTGA GGAGCTGCTA CGTTGCCATG AAAGAGAGGA GACTTTGGGA 
    AAAGAGAGAG ATATGGAGGC CAAGATGCGT GCCGAAATCC AAACTAGCAT GACTTCAATG 
    AAGGAAGAGT GTCATGCTTT GAAGAAGCAC AACAGCACAC TTGCACTTGA GAATGGAGAG 
    GCTCGTGAAG CCTTGCACAG GGCCAACACT GAGACAGCAG AGCTCGGGGT TCATGTTTGC 
    ATGCTAACAG GGCAGAACGA GGAAGCTAAG CTACGATGGG AAGAGCTTTC GAACAAACTG 
    CAGGAGCTGC AGATGGAGGC ACAGGAAGAG GTGAAAACTT TAAGTGATTC GATGGAAAGC 
    TTGAGGAAAG ATAACGCAGG ACTCAAAGAG CAGGTAAAGC AGATGGAGGG ACTCCAAGAA 
    GCCCTGCAGA AGTTGCAGGA GAAACTGGAA CAGGCAGAAG ACGAAGCCAG AAGTCTCCAG 
    GAGATCCGAC AGAGGGAAGT GGACACACTT AGGTCCCAGT TGAGCGATGA GGCCGCGCAC 
    CATCAAAGTC AAGTCCAGGG TATGAGTGAG GATATGGATG CACTGAGAAA AAGGCTGGAC 
    ATTGAAGTTG AAAAAGTTTC AAGTCTTGAG GCCAAAGTAT TGGAGCTTGA GTCTCTAAAC 
    AGTGGGCACA GTCAGATGAT CGAAAAGACT ACTGCTCTCA TTGGTGACTC CGAAACCATA 
    ATTTATCAGA AAGAGGAACA GATTAAAAAC CTCAAAGTGG ACTTGTCGAG AGCCGAGAAG 
    GAACTGGCTC TCGCTCAGCA GTCCTGTCAA GAACTGGGTG TGAATTTAAG CAGAAGTGCA 
    ATGGAGAAGC AAGCCGTCGA ACTGAAGATG TCTGCTGAAC TAGATGACCT TTACCGTACC 
    AAAAAAAACC TGGAGGAGAG GCTCATTGAG CTCATAAGGG AGAAAGATGC TTTGTGGCAG 
    AAGTCTGACG CTCTGGAGTT TGAGCAGAAA CGAAGAGCTG AGGAGCAGAC AGACAGAGAC 
    GTCACACACT GCCTGAGCTG TAAGAGCCAG TTCAGCTGGA TGCTGCGCAG ATACAACTGC 
    AGGTTTTGTG GACGTCCGTT TTGCTACAGT TGCTGCAGTT TTGGTGGTAA GGATCGCTGT 
    TGTAAGAGCT GCTCGACTCA CAGTGAGCGC CACCAACAGG CGGATCAGGG CAGTCCTTCA 
    CACTCAACCT ACAGCCCAAT ATCAAGCCCT AATCAAACCA GCACTCCAGG TGTCCCATGG 
    ATACTAAAGT CCCCTCGACC TGACGACATG GCGTATGACA TCATCACAGA AGATGAAGTG 
    AACCACGTTC ATGACAGCGA CTCGTCATCC TACACCACTG CGCTTTCACC AGAGACACAA 
    CAGCTAAGCA GCAGTGATGT CACCAGCACA GAAGATTCAG ACGAGCTGAT TGGCTCCGTT 
    CAGGATTCAG AGATCTGCCT GCTGAAATCT GGAGAAAGGA CGCTGTCTGT GCCATTCAGT 
    GTGGATGACG TGATGCATTT TGGCTGTAAA TCCAAAGAGC TGTTCATCAA GTCCAGCTGT 
    TACAGTGTAA TTCTCATAAG CGCTGCACAT CCGGGCCCTT CGATCGGCTG GACCTTCTTC 
    TCTGAACCCA AGAGCATCGC CTTCAGCGTG GTCTACAGAG AGACCACAGA TACGCCTCTA 
    GAACAGGCCA AGGTTCTGAT TCCTCTGACC AGATGTAGAT CTCACAAGGA AACAATTCAG 
    GGTCAGCTAA AGGTCAGAAA CCCTGGACAA TACACACTTA TCTTCGACAA CTCCTTCTCC 
    AGGTTTGTCT CGAAGAAGGT CCAGTACAAG CTGAGCATAG AGATGCCAGA GGTCTGCAAC 
    GGAAGTGACT GCTCTTCATA G

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

    RefSeq XP_003197998.1
    CDS166..4206
    Translation

    Target ORF information:

    RefSeq Version XM_003197950.5
    Organism Danio rerio(zebrafish)
    Definition Danio rerio FYVE and coiled-coil domain containing 1b (fyco1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_003197950.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCACAG TCGGAGAAAA CCAGCTTCAG AGGATCATCA GAGATCTGCA TGATGCAGTT 
    TCTGAGCTGA GCAAGGAGCA TTGTGACACC GAAGAGCCCA TCACCGATGA CAGCTCCAGC 
    CTTCACAAGT TCTGTTTTAA ACTGGAGTAC CTGCTGCAAT TTGACCAGAA AGAGAGGACC 
    ACATTTCTGG GCAGCAGGAA AGACTACTGG GATTATTTCT GCGACTGCTT GGCCAAGATT 
    AAAGGAGCTA ATGACGGCAT TCGCTTTGTC AAATCAATCC CTGAGCTGAA GACTTCGTTA 
    GGGAAAGGAC GGGCTTTCAT CCGTTACTGT CTGGTGCATC AAAGACTTGC AGACACTCTT 
    CAGCAATGTC TCATAAACCT CAAAATCACA AGTGAATGGT ATTATGAGCG CAGTCCATTC 
    CTGAAGTCCC ATCTGAATAT TGATATCATC AACCACCTGT ATGAACTCAA TGAGGTTCAG 
    TTTGATGTAG CATCCCGAGG TTACGACCTG GACTCTCAGT GGCCCACATT TGCAAGAAGG 
    ACTCTGGGAT CAGCCGTCTC GCCCCATGTC TGGAAACCAC CCAGTCGCTG CTCTAGTGTC 
    AACAGTCTGG TCAGCAGCTA CACACAGCAA GTTCAGGACT TCCTTCCTGG TCAAGATTTT 
    GGTTCCAGTC TTCTAGGTGA TCTCGGAGAG CTAGGCGAGC TGACATGTAG CACTTCCGAG 
    GACCTGCGTA TTGAGCTTGA CCAATCAGAG TTAAAACAGC AACAGCTCCA GGAGAAAATC 
    CAACTGCTCA CCGATGAAGC AGCTGATCTG AGGGTTGTTA TCAAAGACCT GCAGGAACAG 
    CTCTTGGCTA AAGGTTCCGA TCAAGAGAAA GCAGGAGAAC AGCAGCAGGA GGTGGTGAAA 
    GCTGTCAGAG AGTGCACTGA CCGTCTCAGT ACCACCACAC AGGGGCTGGA GGCTCTGAGG 
    ACTTCAGAAC GCAACCTCGA AGCCAAGCTG AGTGTTGCAG AGAACTGGAA TATGGAGCTG 
    CTGGCAAAAC TTGACGGAGC TTTAAGTGAA AAAGGACAGC AGGCTGCAAA CTACTGTGAT 
    TCAGCTTGGA AGATACAGGA ACTCCTGACC AAGCTTAAGG AGGCAGAGCA GGAGAGGATT 
    GAGGCTAAAC GAGAAAGCGA AGACCGGGCT AGAATTGCTG AGAGACTTTC TCAGGAGATA 
    AAGCTTCAGG AGGGGAAACT CAAAGAGATG GAAGGCAATC TGGACATGTG TAGAGTCACA 
    GCTGATAAAG AACGAACAAC TGCAACGCAA CAGGCTGATG AGCTGCAGAT GACCATTAAC 
    CGCCTACAGG GAGCGTTATC CCTGAAGGAA AGAGAAACAG GGAACCTGCG AACTCAACTT 
    CAAGATGTGC AGAAAGCACT GGAAGCCCAG CAGGATCAAA TGGAGGAGCA CATGAAAAAG 
    ATCCAAGAGG AGATGCAACG TAAAAGTCTA CTTGAAGAGC AGCTGAATGC AAAGATGAAT 
    GAGTTGTCTG TTAGTACCCA AAAGATGCGC CAACTAGAGA ACCACAACCA GCGGTTGATT 
    GTGGAGAGTC AGAGCTTCCA AGCACAAGCC AAGAAACTGG AAGAGTACAA AAGCCAGTGC 
    ACAAGTCTAA TGGAGATCAA TGCCAAGCTG ATCCAGACTG TCAAAAGGAA CGAAGACAGC 
    AGCAAGGAGT TGTCAGAAAT CAAGACCACT CTAGAGAAAG AACTAAAAAC CTCACAGGCT 
    TCAGAGAGGC AACTGAGAAC CAGACTCGAG TCAGCTGGAC TGACAGTGGA GAGCCAAAAT 
    CTTGAGGAGT GCATCGAGAA TGGCCAGACG GACAATAAAG ATGTGTTGGA AAAACTCAAC 
    GAGAGTACTA CAGCCCCACA GAAGAACAAG AGGACAACTT CTGGACTCCT ACAAGAAGCC 
    AACGAATACT CAAAAACTGA TCATGTAGAA TCTACGACCA GGTTGGCTCT GGCTGAGGCC 
    CAACTTGAAC TCAACATGAA GGAGGTTTCC AGACTTCAGG ATGAAGTCCT GGAGCTCCGG 
    GCACAACTAT TGGTGATCTC AGAGGAGAGG ATGAAAATCC AGGCATTGCA GGAAGTGACA 
    GAAGCCTCTA GAGAAGATCT CCGAGCTCAG ACAGAGCAAC TGAAGTCCCA AGTGGAGGAG 
    CTAAACAGAA GGCATGTTGA GGAGCTGCTA CGTTGCCATG AAAGAGAGGA GACTTTGGGA 
    AAAGAGAGAG ATATGGAGGC CAAGATGCGT GCCGAAATCC AAACTAGCAT GACTTCAATG 
    AAGGAAGAGT GTCATGCTTT GAAGAAGCAC AACAGCACAC TTGCACTTGA GAATGGAGAG 
    GCTCGTGAAG CCTTGCACAG GGCCAACACT GAGACAGCAG AGCTCGGGGT TCATGTTTGC 
    ATGCTAACAG GGCAGAACGA GGAAGCTAAG CTACGATGGG AAGAGCTTTC GAACAAACTG 
    CAGGAGCTGC AGATGGAGGC ACAGGAAGAG GTGAAAACTT TAAGTGATTC GATGGAAAGC 
    TTGAGGAAAG ATAACGCAGG ACTCAAAGAG CAGGTAAAGC AGATGGAGGG ACTCCAAGAA 
    GCCCTGCAGA AGTTGCAGGA GAAACTGGAA CAGGCAGAAG ACGAAGCCAG AAGTCTCCAG 
    GAGATCCGAC AGAGGGAAGT GGACACACTT AGGTCCCAGT TGAGCGATGA GGCCGCGCAC 
    CATCAAAGTC AAGTCCAGGG TATGAGTGAG GATATGGATG CACTGAGAAA AAGGCTGGAC 
    ATTGAAGTTG AAAAAGTTTC AAGTCTTGAG GCCAAAGTAT TGGAGCTTGA GTCTCTAAAC 
    AGTGGGCACA GTCAGATGAT CGAAAAGACT ACTGCTCTCA TTGGTGACTC CGAAACCATA 
    ATTTATCAGA AAGAGGAACA GATTAAAAAC CTCAAAGTGG ACTTGTCGAG AGCCGAGAAG 
    GAACTGGCTC TCGCTCAGCA GTCCTGTCAA GAACTGGGTG TGAATTTAAG CAGAAGTGCA 
    ATGGAGAAGC AAGCCGTCGA ACTGAAGATG TCTGCTGAAC TAGATGACCT TTACCGTACC 
    AAAAAAAACC TGGAGGAGAG GCTCATTGAG CTCATAAGGG AGAAAGATGC TTTGTGGCAG 
    AAGTCTGACG CTCTGGAGTT TGAGCAGAAA CGAAGAGCTG AGGAGCAGAC AGACAGAGAC 
    GTCACACACT GCCTGAGCTG TAAGAGCCAG TTCAGCTGGA TGCTGCGCAG ATACAACTGC 
    AGGTTTTGTG GACGTCCGTT TTGCTACAGT TGCTGCAGTT TTGGTGGTAA GGATCGCTGT 
    TGTAAGAGCT GCTCGACTCA CAGTGAGCGC CACCAACAGG CGGATCAGGG CAGTCCTTCA 
    CACTCAACCT ACAGCCCAAT ATCAAGCCCT AATCAAACCA GCACTCCAGG TGTCCCATGG 
    ATACTAAAGT CCCCTCGACC TGACGACATG GCGTATGACA TCATCACAGA AGATGAAGTG 
    AACCACGTTC ATGACAGCGA CTCGTCATCC TACACCACTG CGCTTTCACC AGAGACACAA 
    CAGCTAAGCA GCAGTGATGT CACCAGCACA GAAGATTCAG ACGAGCTGAT TGGCTCCGTT 
    CAGGATTCAG AGATCTGCCT GCTGAAATCT GGAGAAAGGA CGCTGTCTGT GCCATTCAGT 
    GTGGATGACG TGATGCATTT TGGCTGTAAA TCCAAAGAGC TGTTCATCAA GTCCAGCTGT 
    TACAGTGTAA TTCTCATAAG CGCTGCACAT CCGGGCCCTT CGATCGGCTG GACCTTCTTC 
    TCTGAACCCA AGAGCATCGC CTTCAGCGTG GTCTACAGAG AGACCACAGA TACGCCTCTA 
    GAACAGGCCA AGGTTCTGAT TCCTCTGACC AGATGTAGAT CTCACAAGGA AACAATTCAG 
    GGTCAGCTAA AGGTCAGAAA CCCTGGACAA TACACACTTA TCTTCGACAA CTCCTTCTCC 
    AGGTTTGTCT CGAAGAAGGT CCAGTACAAG CTGAGCATAG AGATGCCAGA GGTCTGCAAC 
    GGAAGTGACT GCTCTTCATA G

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

見積依頼

Eメール

japanmarket@genscript.com

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文