Gene Symbol |
CYFIP2 |
Entrez Gene ID |
100002872 |
Full Name |
cytoplasmic FMR1 interacting protein 2 |
Synonyms |
zgc:194528 |
General protein information |
- Preferred Names
cytoplasmic FMR1 interacting protein 2
Names
cytoplasmic FMR1-interacting protein 2 nev nevermind
|
Gene Type |
protein-coding |
Organism |
Danio rerio(Zebrafish) |
mRNA and Protein(s)
mRNA |
Protein |
Name |
XM_009291080.2 |
XP_009289355.1 |
cytoplasmic FMR1-interacting protein 2 isoform X1 |
XM_009291080.3 |
XP_009289355.1 |
cytoplasmic FMR1-interacting protein 2 isoform X1 |
XM_009291081.3 |
XP_009289356.1 |
cytoplasmic FMR1-interacting protein 2 isoform X2 |
XM_009291082.3 |
XP_009289357.1 |
cytoplasmic FMR1-interacting protein 2 isoform X3 |
XM_009291081.2 |
XP_009289356.1 |
cytoplasmic FMR1-interacting protein 2 isoform X2 |
NM_001097587.1 |
NP_001091056.1 |
cytoplasmic FMR1-interacting protein 2 |
XM_009291082.2 |
XP_009289357.1 |
cytoplasmic FMR1-interacting protein 2 isoform X3 |
Canis lupus familiaris (dog) |
CYFIP2 |
XP_005619311.1 |
Danio rerio (zebrafish) |
cyfip2 |
NP_001091056.1 |
Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP000195 |
XP_310939.3 |
Xenopus tropicalis (tropical clawed frog) |
cyfip2 |
NP_001103523.1 |
|
CYFIP2 |
XP_002804644.1 |
Bos taurus (cattle) |
CYFIP2 |
NP_001192779.1 |
Drosophila melanogaster (fruit fly) |
Sra-1 |
NP_650447.1 |
Arabidopsis thaliana (thale cress) |
PIR121 |
NP_197342.3 |
Homo sapiens (human) |
CYFIP2 |
NP_001032409.2 |
Pan troglodytes (chimpanzee) |
CYFIP2 |
XP_001137208.1 |
Mus musculus (house mouse) |
Cyfip2 |
NP_001239388.1 |
Gallus gallus (chicken) |
CYFIP2 |
XP_004944971.1 |
Related articles in PubMed
Evolution of complexity in the zebrafish synapse proteome.
Bay?s ?, Collins MO, Reig-Viader R, Gou G, Goulding D, Izquierdo A, Choudhary JS, Emes RD, Grant SG
Nature communications814613(2017 Mar)
nev (cyfip2) is required for retinal lamination and axon guidance in the zebrafish retinotectal system.
Pittman AJ, Gaynes JA, Chien CB
Developmental biology344(2)784-94(2010 Aug)
Genetic dissection of the retinotectal projection.
Baier H, Klostermann S, Trowe T, Karlstrom RO, N?sslein-Volhard C, Bonhoeffer F
Development (Cambridge, England)123415-25(1996 Dec)
GeneRIFs: Gene References Into Functions What's a GeneRIF?
The following CYFIP2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CYFIP2 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 |
ODa33884 |
Clone ID Related Accession (Same CDS sequence) |
NM_001097587.1
|
Accession Version |
NM_001097587.1 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3762bp)
Protein sequence
SNP |
Vector |
pcDNA3.1+/C-(K)DYK or customized vector |
User Manual |
Clone information |
Clone Map |
MSDS |
Tag on pcDNA3.1+/C-(K)DYK |
C terminal DYKDDDDK tags |
ORF Insert Method |
CloneEZ™ Seamless cloning technology |
Insert Structure |
linear |
Update Date |
2019-09-21 |
Organism |
Danio rerio(zebrafish) |
Product |
cytoplasmic FMR1-interacting protein 2 |
Comment |
Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from EF531617.1. On May 24, 2007 this sequence version replaced XM_001339282.1.
##Evidence-Data-START##
Transcript exon combination :: EF531617.1 [ECO:0000332]
RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350]
##Evidence-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG CTTCAGGTGG TGCCACTGTT TGGTGACATG CAGATTGAAC TGTCACGGTA CATAGAAACA AGTGCCCACT ATGAAGAGAA CAAATCCAAG TGGACCTGCA CTCAGAGCAG CATCAGTCCG CAGTATAACC TGTGTGAGCA GATGGTGCAG ATCAGAGAAG ACCACATCCG CTTCATCTCT GAGCTCGCGC GCTACAGTAA CAGTGAGGTG GTGACCGGCT CTGGTCTGGA CAGTCAGAAG TCTGATGAGG AATACAGAGA GCTGTTTGAC CTGGCGCTCA GAGGACTGCA GCTTCTGTCC AAGTGGAGCA CCCATGTCAT GGAAGTGTAC TCTTGGAAAC TGGTCCACCC TACGGATAAG TTCTGTAATA AGGACTGCCC AGGCACAGCT GAGGAGTATG AGCGTGCTAC ACGCTACAAC TACACCAGCG AGGAGAAGTT TGCCCTGGTG GAGGTCATTG CTATGATCAA GGGTCTTCAG GTTCTGATGG GCCGGATGGA GAGCGTCTTC AACCAGGCCA TCAGGCACAC CATCTACTCT GCCCTGCAGG ACTTTGCACA GGTGACCCTG AGAGAGCCAC TCAGACAGGC CGTACGCAAG AAGAAGAACG TCCTCATTAG TGTCCTTCAG GCTATTCGTA AAACCATCTG TGATTGGGAA GGCGCAAGAG AACCCCCTAA TGACCCTTGT CTGAGGGGAG AGAAGGACCC CAAAGGAGGA TTTGATATTA AAGTTCCTCG TCGTGCTGTT GGGCCCTCGA GCACACAGCT TTACATGGTG CGCACCATGC TGGAGTCTCT CATCGCTGAT AAAAGTGGCT CTAAGAAGAC TCTCCGGAGC AGTCTGGATG GTCCCATCGT TCAGGCAATA GAGGACTTCC ACAAGCAGTC TTTCTTCTTC ACCCACCTCC TGAACTTTAG TGAAGCCCTG CAGCAGTGCT GTGATCTGTC CCAGCTCTGG TTCCGAGAGT TTTTCCTGGA GCTTACCATG GGCCGCCGCA TCCAGTTCCC CATCGAGATG TCCATGCCCT GGATCCTTAC CGATCACATT CTGGAGACCA AAGAGCCCTC CATGATGGAG TACGTGTTAT ATCCATTAGA TCTTTACAAT GACAGTGGTT ATTATGCCCT CACAAAATTC AAGAAGCAGT TCCTCTACGA TGAGATAGAG GCCGAGGTCA ACCTGTGTTT TGATCAGTTT GTGTACAAGT TAGCTGACCA GATATTTGCC TACTACAAAG CAATGGCTGG AAGTGTCCTC CTAGACAAAC GCTTCCGTGC AGAGTGTAAG AATTACGGTG TGATCATCCC ATACCCGCCA TCAAACCGCT ACGAGACGCT GCTGAAACAG AGACATGTGC AGCTGCTGGG TCGCTCCATT GACCTGAACA GATTGATAAC CCAGAGGATC TCAGCAGCCA TGTACAAATC TCTGGATCAA GCCATCAGCC GTTTTGAGAG CGAGGACCTT ACCTCCATAG TGGAACTTGA ATGGCTATTG GAAATTAACA GGTTGACTCA CCGTCTGCTC TCTAAGCATA TGACGCTGGA CAGTTTTGAC GCCATGTTTC GTGAAGCCAA CCACAACGTC TCTGCTCCAT ATGGACGCAT TACGCTGCAC GTCTTCTGGG AACTCAACTT TGACTTCTTA CCAAACTACT GTTACAATGG CTCCACCAAC AGGTTTGTGC GAACAGCCAT TCCCTTCACC CAAGAGCCTC AGAGGGACAA GCCTGCCAAT GTTCAGCCAT ATTACTTGTA TGGCTCAAAG CCTCTGAACA TTGCCTACTC CCACATCTAC AGTTCCTACA GGAACTTTGT GGGACCTCCG CACTTCAAAA CAATTTGCCG GCTTCTCGGT TACCAAGGCA TCGCTGTGGT GATGGAGGAG CTGCTCAAGA TTGTCAAGAG CTTGTTGCAA GGCACCATCC TTCAGTATGT GAAGACCCTC ATAGAGGTGA TGCCCAAGAT CTGCCGTCTC CCTCGTCATG AGTACGGCTC ACCAGGCATC CTGGAGTTCT TCCACCATCA GCTGAAGGAC ATCATTGAGT ACGCTGAGCT CAAGACCGAT GTGTTTCAGA GTCTGAGGGA GGTGGGCAAT GCTGTTCTCT TCTGTTTGCT CATCGAACAA GCTCTGGTGT CTCAGGAAGA AGTTTGTGAC TTGCTTCATG CAGCCCCATT CCAGAACATC CTCCCCAGAG TCTATATCAA AGAGGGAGAG CGACTGGAGG TGAGGATGAA GAGGCTGGAG GCAAAGTATG CTCCTCTTCA TCTCGTGCCC CTCATTGAGA GACTCGGGAC TCCACAGCAA ATTGCAATTG CACGTGAGGG TGACCTGCTG ACGAAGGAGC GGCTGTGCTG TGGCCTGTCC ATGTTTGAAG TGATCCTGAC GCGCATCCGC AGCTTCCTGC AGGACAACGT GTGGCGAGGT CCTCCTCCCA CCAACGGCGT CATGCATGTG GATGAGTGCA TGGAGTTCCA CCGCCTCTGG AGCGCCATGC AGTTTGTTTA CTGCATTCCT GTGGGCACAC ACGAGTTCAC TGCAGAGCAG TGTTTCGGTG ATGGGCTGAA CTGGGCTGGA TGTGCCATTA TTGTGCTGTT AGGACAACAA CGCCGCTTTG ACCTCTTTGA TTTCTGCTAC CATTTGCTCA AAGTTCAGAG GCAGGACGGC AAAGACGAAA TCATTAAGAA TGTGCCCCTG AAAAAGATGG CAGACCGCAT CCGGAAGTAT CAGATTCTCA ACAATGAGAT CTTTGCCATC CTCAACAAGT ACATGAAGGC GGTGGAGACG GACAGTTCAA CAGTGGAGCA CGTTCGCTGT TTCCAGCCTC CTATACATCA GTCTCTGGCC ACCACATGTT AA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
NP_001091056.1 |
CDS | 129..3890 |
Translation | |
Target ORF information:
RefSeq Version | NM_001097587.1 |
Organism | Danio rerio(zebrafish) |
Definition | Danio rerio cytoplasmic FMR1 interacting protein 2 (cyfip2), mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
NM_001097587.1 |
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
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG CTTCAGGTGG TGCCACTGTT TGGTGACATG CAGATTGAAC TGTCACGGTA CATAGAAACA AGTGCCCACT ATGAAGAGAA CAAATCCAAG TGGACCTGCA CTCAGAGCAG CATCAGTCCG CAGTATAACC TGTGTGAGCA GATGGTGCAG ATCAGAGAAG ACCACATCCG CTTCATCTCT GAGCTCGCGC GCTACAGTAA CAGTGAGGTG GTGACCGGCT CTGGTCTGGA CAGTCAGAAG TCTGATGAGG AATACAGAGA GCTGTTTGAC CTGGCGCTCA GAGGACTGCA GCTTCTGTCC AAGTGGAGCA CCCATGTCAT GGAAGTGTAC TCTTGGAAAC TGGTCCACCC TACGGATAAG TTCTGTAATA AGGACTGCCC AGGCACAGCT GAGGAGTATG AGCGTGCTAC ACGCTACAAC TACACCAGCG AGGAGAAGTT TGCCCTGGTG GAGGTCATTG CTATGATCAA GGGTCTTCAG GTTCTGATGG GCCGGATGGA GAGCGTCTTC AACCAGGCCA TCAGGCACAC CATCTACTCT GCCCTGCAGG ACTTTGCACA GGTGACCCTG AGAGAGCCAC TCAGACAGGC CGTACGCAAG AAGAAGAACG TCCTCATTAG TGTCCTTCAG GCTATTCGTA AAACCATCTG TGATTGGGAA GGCGCAAGAG AACCCCCTAA TGACCCTTGT CTGAGGGGAG AGAAGGACCC CAAAGGAGGA TTTGATATTA AAGTTCCTCG TCGTGCTGTT GGGCCCTCGA GCACACAGCT TTACATGGTG CGCACCATGC TGGAGTCTCT CATCGCTGAT AAAAGTGGCT CTAAGAAGAC TCTCCGGAGC AGTCTGGATG GTCCCATCGT TCAGGCAATA GAGGACTTCC ACAAGCAGTC TTTCTTCTTC ACCCACCTCC TGAACTTTAG TGAAGCCCTG CAGCAGTGCT GTGATCTGTC CCAGCTCTGG TTCCGAGAGT TTTTCCTGGA GCTTACCATG GGCCGCCGCA TCCAGTTCCC CATCGAGATG TCCATGCCCT GGATCCTTAC CGATCACATT CTGGAGACCA AAGAGCCCTC CATGATGGAG TACGTGTTAT ATCCATTAGA TCTTTACAAT GACAGTGGTT ATTATGCCCT CACAAAATTC AAGAAGCAGT TCCTCTACGA TGAGATAGAG GCCGAGGTCA ACCTGTGTTT TGATCAGTTT GTGTACAAGT TAGCTGACCA GATATTTGCC TACTACAAAG CAATGGCTGG AAGTGTCCTC CTAGACAAAC GCTTCCGTGC AGAGTGTAAG AATTACGGTG TGATCATCCC ATACCCGCCA TCAAACCGCT ACGAGACGCT GCTGAAACAG AGACATGTGC AGCTGCTGGG TCGCTCCATT GACCTGAACA GATTGATAAC CCAGAGGATC TCAGCAGCCA TGTACAAATC TCTGGATCAA GCCATCAGCC GTTTTGAGAG CGAGGACCTT ACCTCCATAG TGGAACTTGA ATGGCTATTG GAAATTAACA GGTTGACTCA CCGTCTGCTC TCTAAGCATA TGACGCTGGA CAGTTTTGAC GCCATGTTTC GTGAAGCCAA CCACAACGTC TCTGCTCCAT ATGGACGCAT TACGCTGCAC GTCTTCTGGG AACTCAACTT TGACTTCTTA CCAAACTACT GTTACAATGG CTCCACCAAC AGGTTTGTGC GAACAGCCAT TCCCTTCACC CAAGAGCCTC AGAGGGACAA GCCTGCCAAT GTTCAGCCAT ATTACTTGTA TGGCTCAAAG CCTCTGAACA TTGCCTACTC CCACATCTAC AGTTCCTACA GGAACTTTGT GGGACCTCCG CACTTCAAAA CAATTTGCCG GCTTCTCGGT TACCAAGGCA TCGCTGTGGT GATGGAGGAG CTGCTCAAGA TTGTCAAGAG CTTGTTGCAA GGCACCATCC TTCAGTATGT GAAGACCCTC ATAGAGGTGA TGCCCAAGAT CTGCCGTCTC CCTCGTCATG AGTACGGCTC ACCAGGCATC CTGGAGTTCT TCCACCATCA GCTGAAGGAC ATCATTGAGT ACGCTGAGCT CAAGACCGAT GTGTTTCAGA GTCTGAGGGA GGTGGGCAAT GCTGTTCTCT TCTGTTTGCT CATCGAACAA GCTCTGGTGT CTCAGGAAGA AGTTTGTGAC TTGCTTCATG CAGCCCCATT CCAGAACATC CTCCCCAGAG TCTATATCAA AGAGGGAGAG CGACTGGAGG TGAGGATGAA GAGGCTGGAG GCAAAGTATG CTCCTCTTCA TCTCGTGCCC CTCATTGAGA GACTCGGGAC TCCACAGCAA ATTGCAATTG CACGTGAGGG TGACCTGCTG ACGAAGGAGC GGCTGTGCTG TGGCCTGTCC ATGTTTGAAG TGATCCTGAC GCGCATCCGC AGCTTCCTGC AGGACAACGT GTGGCGAGGT CCTCCTCCCA CCAACGGCGT CATGCATGTG GATGAGTGCA TGGAGTTCCA CCGCCTCTGG AGCGCCATGC AGTTTGTTTA CTGCATTCCT GTGGGCACAC ACGAGTTCAC TGCAGAGCAG TGTTTCGGTG ATGGGCTGAA CTGGGCTGGA TGTGCCATTA TTGTGCTGTT AGGACAACAA CGCCGCTTTG ACCTCTTTGA TTTCTGCTAC CATTTGCTCA AAGTTCAGAG GCAGGACGGC AAAGACGAAA TCATTAAGAA TGTGCCCCTG AAAAAGATGG CAGACCGCAT CCGGAAGTAT CAGATTCTCA ACAATGAGAT CTTTGCCATC CTCAACAAGT ACATGAAGGC GGTGGAGACG GACAGTTCAA CAGTGGAGCA CGTTCGCTGT TTCCAGCCTC CTATACATCA GTCTCTGGCC ACCACATGTT AA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
ODa19718 |
Clone ID Related Accession (Same CDS sequence) |
XM_009291080.2
, XM_009291080.3
|
Accession Version |
XM_009291080.2 |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3759bp)
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 |
cytoplasmic FMR1-interacting protein 2 isoform X1 |
Comment |
MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
On Jun 24, 2016 this sequence version replaced XM_009291080.1.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Danio rerio Annotation Release 105
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.1
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG CTTCAGGTGG TGCCACTGTT TGGTGACATG CAGATTGAAC TGTCACGGTA CATAGAAACA AGTGCCCACT ATGAAGAGAA CAAATCCAAG TGGACCTGCA CTCAGAGCAG CATCAGTCCG CAGTATAACC TGTGTGAGCA GATGGTGCAG ATCAGAGAAG ACCACATCCG CTTCATCTCT GAGCTCGCGC GCTACAGTAA CAGTGAGGTG GTGACCGGCT CTGGTCTGGA CAGTCAGAAG TCTGATGAGG AATACAGAGA GCTGTTTGAC CTGGCGCTCA GAGGACTGCA GCTTCTGTCC AAGTGGAGCA CCCATGTCAT GGAAGTGTAC TCTTGGAAAC TGGTCCACCC TACGGATAAG TTCTGTAATA AGGACTGCCC AGGCACAGCT GAGGAGTATG AGCGTGCTAC ACGCTACAAC TACACCAGCG AGGAGAAGTT TGCCCTGGTG GAGGTCATTG CTATGATCAA GGGTCTTCAG GTTCTGATGG GCCGGATGGA GAGCGTCTTC AACCAGGCCA TCAGGCACAC CATCTACTCT GCCCTGCAGG ACTTTGCACA GGTGACCCTG AGAGAGCCAC TCAGACAGGC CGTACGCAAG AAGAAGAACG TCCTCATTAG TGTCCTTCAG GCTATTCGTA AAACCATCTG TGATTGGGAA GGCGCAAGAG AACCCCCTAA TGACCCTTGT CTGAGGGGAG AGAAGGACCC CAAAGGAGGA TTTGATATTA AAGTTCCTCG TCGTGCTGTT GGGCCCTCGA GCACACAGCT TTACATGGTG CGCACCATGC TGGAGTCTCT CATCGCTGAT AAAAGTGGCT CTAAGAAGAC TCTCCGGAGC AGTCTGGATG GTCCCATCGT TCAGGCAATA GAGGACTTCC ACAAGCAGTC TTTCTTCTTC ACCCACCTCC TGAACTTTAG TGAAGCCCTG CAGCAGTGCT GTGATCTGTC CCAGCTCTGG TTCCGAGAGT TTTTCCTGGA GCTTACCATG GGCCGCCGCA TCCAGTTCCC CATCGAGATG TCCATGCCCT GGATCCTTAC CGATCACATT CTGGAGACCA AAGAGCCCTC CATGATGGAG TACGTGTTAT ATCCATTAGA TCTTTACAAT GACAGTGGTT ATTATGCCCT CACAAAATTC AAGAAGCAGT TCCTCTACGA TGAGATAGAG GCCGAGGTCA ACCTGTGTTT TGATCAGTTT GTGTACAAGT TAGCTGACCA GATATTTGCC TACTACAAAG CAATGGCTGG AAGTGTCCTC CTAGACAAAC GCTTCCGTGC AGAGTGTAAG AATTACGGTG TGATCATCCC ATACCCGCCA TCAAACCGCT ACGAGACGCT GCTGAAACAG AGACATGTGC AGCTGCTGGG TCGCTCCATT GACCTGAACA GATTGATAAC CCAGAGGATC TCAGCAGCCA TGTACAAATC TCTGGATCAA GCCATCAGCC GTTTTGAGAG CGAGGACCTT ACCTCCATAG TGGAACTTGA ATGGCTATTG GAAATTAACA GGTTGACTCA CCGTCTGCTC TCTAAGCATA TGACGCTGGA CAGTTTTGAC GCCATGTTTC GTGAAGCCAA CCACAACGTC TCTGCTCCAT ATGGACGCAT TACGCTGCAC GTCTTCTGGG AACTCAACTT TGACTTCTTA CCAAACTACT GTTACAATGG CTCCACCAAC AGGTTTGTGC GAACAGCCAT TCCCTTCACC CAAGAGCCTC AGAGGGACAA GCCTGCCAAT GTTCAGCCAT ATTACTTGTA TGGCTCAAAG CCTCTGAACA TTGCCTACTC CCACATCTAC AGTTCCTACA GGAACTTTGT GGGACCTCCG CACTTCAAAA CAATTTGCCG GCTTCTCGGT TACCAAGGCA TCGCTGTGGT GATGGAGGAG CTGCTCAAGA TTGTCAAGAG CTTGTTGCAA GGCACCATCC TTCAGTATGT GAAGACCCTC ATAGAGGTGA TGCCCAAGAT CTGCCGTCTC CCTCGTCATG AGTACGGCTC ACCAGGCATC CTGGAGTTCT TCCACCATCA GCTGAAGGAC ATCATTGAGT ACGCTGAGCT CAAGACCGAT GTGTTTCAGA GTCTGAGGGA GGTGGGCAAT GCTGTTCTCT TCTGTTTGCT CATCGAACAA GCTCTGTCTC AGGAAGAAGT TTGTGACTTG CTTCATGCAG CCCCATTCCA GAACATCCTC CCCAGAGTCT ATATCAAAGA GGGAGAGCGA CTGGAGGTGA GGATGAAGAG GCTGGAGGCA AAGTATGCTC CTCTTCATCT CGTGCCCCTC ATTGAGAGAC TCGGGACTCC ACAGCAAATT GCAATTGCAC GTGAGGGTGA CCTGCTGACG AAGGAGCGGC TGTGCTGTGG CCTGTCCATG TTTGAAGTGA TCCTGACGCG CATCCGCAGC TTCCTGCAGG ACAACGTGTG GCGAGGTCCT CCTCCCACCA ACGGCGTCAT GCATGTGGAT GAGTGCATGG AGTTCCACCG CCTCTGGAGC GCCATGCAGT TTGTTTACTG CATTCCTGTG GGCACACACG AGTTCACTGC AGAGCAGTGT TTCGGTGATG GGCTGAACTG GGCTGGATGT GCCATTATTG TGCTGTTAGG ACAACAACGC CGCTTTGACC TCTTTGATTT CTGCTACCAT TTGCTCAAAG TTCAGAGGCA GGACGGCAAA GACGAAATCA TTAAGAATGT GCCCCTGAAA AAGATGGCAG ACCGCATCCG GAAGTATCAG ATTCTCAACA ATGAGATCTT TGCCATCCTC AACAAGTACA TGAAGGCGGT GGAGACGGAC AGTTCAACAG TGGAGCACGT TCGCTGTTTC CAGCCTCCTA TACATCAGTC TCTGGCCACC ACATGTTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_009289355.1 |
CDS | 186..3944 |
Translation | |
Target ORF information:
RefSeq Version | XM_009291080.2 |
Organism | Danio rerio(Zebrafish) |
Definition | Danio rerio cytoplasmic FMR1 interacting protein 2 (cyfip2), transcript variant X1, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_009291080.2 |
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
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG CTTCAGGTGG TGCCACTGTT TGGTGACATG CAGATTGAAC TGTCACGGTA CATAGAAACA AGTGCCCACT ATGAAGAGAA CAAATCCAAG TGGACCTGCA CTCAGAGCAG CATCAGTCCG CAGTATAACC TGTGTGAGCA GATGGTGCAG ATCAGAGAAG ACCACATCCG CTTCATCTCT GAGCTCGCGC GCTACAGTAA CAGTGAGGTG GTGACCGGCT CTGGTCTGGA CAGTCAGAAG TCTGATGAGG AATACAGAGA GCTGTTTGAC CTGGCGCTCA GAGGACTGCA GCTTCTGTCC AAGTGGAGCA CCCATGTCAT GGAAGTGTAC TCTTGGAAAC TGGTCCACCC TACGGATAAG TTCTGTAATA AGGACTGCCC AGGCACAGCT GAGGAGTATG AGCGTGCTAC ACGCTACAAC TACACCAGCG AGGAGAAGTT TGCCCTGGTG GAGGTCATTG CTATGATCAA GGGTCTTCAG GTTCTGATGG GCCGGATGGA GAGCGTCTTC AACCAGGCCA TCAGGCACAC CATCTACTCT GCCCTGCAGG ACTTTGCACA GGTGACCCTG AGAGAGCCAC TCAGACAGGC CGTACGCAAG AAGAAGAACG TCCTCATTAG TGTCCTTCAG GCTATTCGTA AAACCATCTG TGATTGGGAA GGCGCAAGAG AACCCCCTAA TGACCCTTGT CTGAGGGGAG AGAAGGACCC CAAAGGAGGA TTTGATATTA AAGTTCCTCG TCGTGCTGTT GGGCCCTCGA GCACACAGCT TTACATGGTG CGCACCATGC TGGAGTCTCT CATCGCTGAT AAAAGTGGCT CTAAGAAGAC TCTCCGGAGC AGTCTGGATG GTCCCATCGT TCAGGCAATA GAGGACTTCC ACAAGCAGTC TTTCTTCTTC ACCCACCTCC TGAACTTTAG TGAAGCCCTG CAGCAGTGCT GTGATCTGTC CCAGCTCTGG TTCCGAGAGT TTTTCCTGGA GCTTACCATG GGCCGCCGCA TCCAGTTCCC CATCGAGATG TCCATGCCCT GGATCCTTAC CGATCACATT CTGGAGACCA AAGAGCCCTC CATGATGGAG TACGTGTTAT ATCCATTAGA TCTTTACAAT GACAGTGGTT ATTATGCCCT CACAAAATTC AAGAAGCAGT TCCTCTACGA TGAGATAGAG GCCGAGGTCA ACCTGTGTTT TGATCAGTTT GTGTACAAGT TAGCTGACCA GATATTTGCC TACTACAAAG CAATGGCTGG AAGTGTCCTC CTAGACAAAC GCTTCCGTGC AGAGTGTAAG AATTACGGTG TGATCATCCC ATACCCGCCA TCAAACCGCT ACGAGACGCT GCTGAAACAG AGACATGTGC AGCTGCTGGG TCGCTCCATT GACCTGAACA GATTGATAAC CCAGAGGATC TCAGCAGCCA TGTACAAATC TCTGGATCAA GCCATCAGCC GTTTTGAGAG CGAGGACCTT ACCTCCATAG TGGAACTTGA ATGGCTATTG GAAATTAACA GGTTGACTCA CCGTCTGCTC TCTAAGCATA TGACGCTGGA CAGTTTTGAC GCCATGTTTC GTGAAGCCAA CCACAACGTC TCTGCTCCAT ATGGACGCAT TACGCTGCAC GTCTTCTGGG AACTCAACTT TGACTTCTTA CCAAACTACT GTTACAATGG CTCCACCAAC AGGTTTGTGC GAACAGCCAT TCCCTTCACC CAAGAGCCTC AGAGGGACAA GCCTGCCAAT GTTCAGCCAT ATTACTTGTA TGGCTCAAAG CCTCTGAACA TTGCCTACTC CCACATCTAC AGTTCCTACA GGAACTTTGT GGGACCTCCG CACTTCAAAA CAATTTGCCG GCTTCTCGGT TACCAAGGCA TCGCTGTGGT GATGGAGGAG CTGCTCAAGA TTGTCAAGAG CTTGTTGCAA GGCACCATCC TTCAGTATGT GAAGACCCTC ATAGAGGTGA TGCCCAAGAT CTGCCGTCTC CCTCGTCATG AGTACGGCTC ACCAGGCATC CTGGAGTTCT TCCACCATCA GCTGAAGGAC ATCATTGAGT ACGCTGAGCT CAAGACCGAT GTGTTTCAGA GTCTGAGGGA GGTGGGCAAT GCTGTTCTCT TCTGTTTGCT CATCGAACAA GCTCTGTCTC AGGAAGAAGT TTGTGACTTG CTTCATGCAG CCCCATTCCA GAACATCCTC CCCAGAGTCT ATATCAAAGA GGGAGAGCGA CTGGAGGTGA GGATGAAGAG GCTGGAGGCA AAGTATGCTC CTCTTCATCT CGTGCCCCTC ATTGAGAGAC TCGGGACTCC ACAGCAAATT GCAATTGCAC GTGAGGGTGA CCTGCTGACG AAGGAGCGGC TGTGCTGTGG CCTGTCCATG TTTGAAGTGA TCCTGACGCG CATCCGCAGC TTCCTGCAGG ACAACGTGTG GCGAGGTCCT CCTCCCACCA ACGGCGTCAT GCATGTGGAT GAGTGCATGG AGTTCCACCG CCTCTGGAGC GCCATGCAGT TTGTTTACTG CATTCCTGTG GGCACACACG AGTTCACTGC AGAGCAGTGT TTCGGTGATG GGCTGAACTG GGCTGGATGT GCCATTATTG TGCTGTTAGG ACAACAACGC CGCTTTGACC TCTTTGATTT CTGCTACCAT TTGCTCAAAG TTCAGAGGCA GGACGGCAAA GACGAAATCA TTAAGAATGT GCCCCTGAAA AAGATGGCAG ACCGCATCCG GAAGTATCAG ATTCTCAACA ATGAGATCTT TGCCATCCTC AACAAGTACA TGAAGGCGGT GGAGACGGAC AGTTCAACAG TGGAGCACGT TCGCTGTTTC CAGCCTCCTA TACATCAGTC TCTGGCCACC ACATGTTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
ODa19718 |
Clone ID Related Accession (Same CDS sequence) |
XM_009291080.2
, XM_009291080.3
|
Accession Version |
XM_009291080.3 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3759bp)
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 |
cytoplasmic FMR1-interacting protein 2 isoform X1 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
On Jun 15, 2017 this sequence version replaced XM_009291080.2.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Danio rerio Annotation Release 106
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.4
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG CTTCAGGTGG TGCCACTGTT TGGTGACATG CAGATTGAAC TGTCACGGTA CATAGAAACA AGTGCCCACT ATGAAGAGAA CAAATCCAAG TGGACCTGCA CTCAGAGCAG CATCAGTCCG CAGTATAACC TGTGTGAGCA GATGGTGCAG ATCAGAGAAG ACCACATCCG CTTCATCTCT GAGCTCGCGC GCTACAGTAA CAGTGAGGTG GTGACCGGCT CTGGTCTGGA CAGTCAGAAG TCTGATGAGG AATACAGAGA GCTGTTTGAC CTGGCGCTCA GAGGACTGCA GCTTCTGTCC AAGTGGAGCA CCCATGTCAT GGAAGTGTAC TCTTGGAAAC TGGTCCACCC TACGGATAAG TTCTGTAATA AGGACTGCCC AGGCACAGCT GAGGAGTATG AGCGTGCTAC ACGCTACAAC TACACCAGCG AGGAGAAGTT TGCCCTGGTG GAGGTCATTG CTATGATCAA GGGTCTTCAG GTTCTGATGG GCCGGATGGA GAGCGTCTTC AACCAGGCCA TCAGGCACAC CATCTACTCT GCCCTGCAGG ACTTTGCACA GGTGACCCTG AGAGAGCCAC TCAGACAGGC CGTACGCAAG AAGAAGAACG TCCTCATTAG TGTCCTTCAG GCTATTCGTA AAACCATCTG TGATTGGGAA GGCGCAAGAG AACCCCCTAA TGACCCTTGT CTGAGGGGAG AGAAGGACCC CAAAGGAGGA TTTGATATTA AAGTTCCTCG TCGTGCTGTT GGGCCCTCGA GCACACAGCT TTACATGGTG CGCACCATGC TGGAGTCTCT CATCGCTGAT AAAAGTGGCT CTAAGAAGAC TCTCCGGAGC AGTCTGGATG GTCCCATCGT TCAGGCAATA GAGGACTTCC ACAAGCAGTC TTTCTTCTTC ACCCACCTCC TGAACTTTAG TGAAGCCCTG CAGCAGTGCT GTGATCTGTC CCAGCTCTGG TTCCGAGAGT TTTTCCTGGA GCTTACCATG GGCCGCCGCA TCCAGTTCCC CATCGAGATG TCCATGCCCT GGATCCTTAC CGATCACATT CTGGAGACCA AAGAGCCCTC CATGATGGAG TACGTGTTAT ATCCATTAGA TCTTTACAAT GACAGTGGTT ATTATGCCCT CACAAAATTC AAGAAGCAGT TCCTCTACGA TGAGATAGAG GCCGAGGTCA ACCTGTGTTT TGATCAGTTT GTGTACAAGT TAGCTGACCA GATATTTGCC TACTACAAAG CAATGGCTGG AAGTGTCCTC CTAGACAAAC GCTTCCGTGC AGAGTGTAAG AATTACGGTG TGATCATCCC ATACCCGCCA TCAAACCGCT ACGAGACGCT GCTGAAACAG AGACATGTGC AGCTGCTGGG TCGCTCCATT GACCTGAACA GATTGATAAC CCAGAGGATC TCAGCAGCCA TGTACAAATC TCTGGATCAA GCCATCAGCC GTTTTGAGAG CGAGGACCTT ACCTCCATAG TGGAACTTGA ATGGCTATTG GAAATTAACA GGTTGACTCA CCGTCTGCTC TCTAAGCATA TGACGCTGGA CAGTTTTGAC GCCATGTTTC GTGAAGCCAA CCACAACGTC TCTGCTCCAT ATGGACGCAT TACGCTGCAC GTCTTCTGGG AACTCAACTT TGACTTCTTA CCAAACTACT GTTACAATGG CTCCACCAAC AGGTTTGTGC GAACAGCCAT TCCCTTCACC CAAGAGCCTC AGAGGGACAA GCCTGCCAAT GTTCAGCCAT ATTACTTGTA TGGCTCAAAG CCTCTGAACA TTGCCTACTC CCACATCTAC AGTTCCTACA GGAACTTTGT GGGACCTCCG CACTTCAAAA CAATTTGCCG GCTTCTCGGT TACCAAGGCA TCGCTGTGGT GATGGAGGAG CTGCTCAAGA TTGTCAAGAG CTTGTTGCAA GGCACCATCC TTCAGTATGT GAAGACCCTC ATAGAGGTGA TGCCCAAGAT CTGCCGTCTC CCTCGTCATG AGTACGGCTC ACCAGGCATC CTGGAGTTCT TCCACCATCA GCTGAAGGAC ATCATTGAGT ACGCTGAGCT CAAGACCGAT GTGTTTCAGA GTCTGAGGGA GGTGGGCAAT GCTGTTCTCT TCTGTTTGCT CATCGAACAA GCTCTGTCTC AGGAAGAAGT TTGTGACTTG CTTCATGCAG CCCCATTCCA GAACATCCTC CCCAGAGTCT ATATCAAAGA GGGAGAGCGA CTGGAGGTGA GGATGAAGAG GCTGGAGGCA AAGTATGCTC CTCTTCATCT CGTGCCCCTC ATTGAGAGAC TCGGGACTCC ACAGCAAATT GCAATTGCAC GTGAGGGTGA CCTGCTGACG AAGGAGCGGC TGTGCTGTGG CCTGTCCATG TTTGAAGTGA TCCTGACGCG CATCCGCAGC TTCCTGCAGG ACAACGTGTG GCGAGGTCCT CCTCCCACCA ACGGCGTCAT GCATGTGGAT GAGTGCATGG AGTTCCACCG CCTCTGGAGC GCCATGCAGT TTGTTTACTG CATTCCTGTG GGCACACACG AGTTCACTGC AGAGCAGTGT TTCGGTGATG GGCTGAACTG GGCTGGATGT GCCATTATTG TGCTGTTAGG ACAACAACGC CGCTTTGACC TCTTTGATTT CTGCTACCAT TTGCTCAAAG TTCAGAGGCA GGACGGCAAA GACGAAATCA TTAAGAATGT GCCCCTGAAA AAGATGGCAG ACCGCATCCG GAAGTATCAG ATTCTCAACA ATGAGATCTT TGCCATCCTC AACAAGTACA TGAAGGCGGT GGAGACGGAC AGTTCAACAG TGGAGCACGT TCGCTGTTTC CAGCCTCCTA TACATCAGTC TCTGGCCACC ACATGTTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_009289355.1 |
CDS | 186..3944 |
Translation | |
Target ORF information:
RefSeq Version | XM_009291080.3 |
Organism | Danio rerio(zebrafish) |
Definition | Danio rerio cytoplasmic FMR1 interacting protein 2 (cyfip2), transcript variant X1, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_009291080.3 |
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
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG CTTCAGGTGG TGCCACTGTT TGGTGACATG CAGATTGAAC TGTCACGGTA CATAGAAACA AGTGCCCACT ATGAAGAGAA CAAATCCAAG TGGACCTGCA CTCAGAGCAG CATCAGTCCG CAGTATAACC TGTGTGAGCA GATGGTGCAG ATCAGAGAAG ACCACATCCG CTTCATCTCT GAGCTCGCGC GCTACAGTAA CAGTGAGGTG GTGACCGGCT CTGGTCTGGA CAGTCAGAAG TCTGATGAGG AATACAGAGA GCTGTTTGAC CTGGCGCTCA GAGGACTGCA GCTTCTGTCC AAGTGGAGCA CCCATGTCAT GGAAGTGTAC TCTTGGAAAC TGGTCCACCC TACGGATAAG TTCTGTAATA AGGACTGCCC AGGCACAGCT GAGGAGTATG AGCGTGCTAC ACGCTACAAC TACACCAGCG AGGAGAAGTT TGCCCTGGTG GAGGTCATTG CTATGATCAA GGGTCTTCAG GTTCTGATGG GCCGGATGGA GAGCGTCTTC AACCAGGCCA TCAGGCACAC CATCTACTCT GCCCTGCAGG ACTTTGCACA GGTGACCCTG AGAGAGCCAC TCAGACAGGC CGTACGCAAG AAGAAGAACG TCCTCATTAG TGTCCTTCAG GCTATTCGTA AAACCATCTG TGATTGGGAA GGCGCAAGAG AACCCCCTAA TGACCCTTGT CTGAGGGGAG AGAAGGACCC CAAAGGAGGA TTTGATATTA AAGTTCCTCG TCGTGCTGTT GGGCCCTCGA GCACACAGCT TTACATGGTG CGCACCATGC TGGAGTCTCT CATCGCTGAT AAAAGTGGCT CTAAGAAGAC TCTCCGGAGC AGTCTGGATG GTCCCATCGT TCAGGCAATA GAGGACTTCC ACAAGCAGTC TTTCTTCTTC ACCCACCTCC TGAACTTTAG TGAAGCCCTG CAGCAGTGCT GTGATCTGTC CCAGCTCTGG TTCCGAGAGT TTTTCCTGGA GCTTACCATG GGCCGCCGCA TCCAGTTCCC CATCGAGATG TCCATGCCCT GGATCCTTAC CGATCACATT CTGGAGACCA AAGAGCCCTC CATGATGGAG TACGTGTTAT ATCCATTAGA TCTTTACAAT GACAGTGGTT ATTATGCCCT CACAAAATTC AAGAAGCAGT TCCTCTACGA TGAGATAGAG GCCGAGGTCA ACCTGTGTTT TGATCAGTTT GTGTACAAGT TAGCTGACCA GATATTTGCC TACTACAAAG CAATGGCTGG AAGTGTCCTC CTAGACAAAC GCTTCCGTGC AGAGTGTAAG AATTACGGTG TGATCATCCC ATACCCGCCA TCAAACCGCT ACGAGACGCT GCTGAAACAG AGACATGTGC AGCTGCTGGG TCGCTCCATT GACCTGAACA GATTGATAAC CCAGAGGATC TCAGCAGCCA TGTACAAATC TCTGGATCAA GCCATCAGCC GTTTTGAGAG CGAGGACCTT ACCTCCATAG TGGAACTTGA ATGGCTATTG GAAATTAACA GGTTGACTCA CCGTCTGCTC TCTAAGCATA TGACGCTGGA CAGTTTTGAC GCCATGTTTC GTGAAGCCAA CCACAACGTC TCTGCTCCAT ATGGACGCAT TACGCTGCAC GTCTTCTGGG AACTCAACTT TGACTTCTTA CCAAACTACT GTTACAATGG CTCCACCAAC AGGTTTGTGC GAACAGCCAT TCCCTTCACC CAAGAGCCTC AGAGGGACAA GCCTGCCAAT GTTCAGCCAT ATTACTTGTA TGGCTCAAAG CCTCTGAACA TTGCCTACTC CCACATCTAC AGTTCCTACA GGAACTTTGT GGGACCTCCG CACTTCAAAA CAATTTGCCG GCTTCTCGGT TACCAAGGCA TCGCTGTGGT GATGGAGGAG CTGCTCAAGA TTGTCAAGAG CTTGTTGCAA GGCACCATCC TTCAGTATGT GAAGACCCTC ATAGAGGTGA TGCCCAAGAT CTGCCGTCTC CCTCGTCATG AGTACGGCTC ACCAGGCATC CTGGAGTTCT TCCACCATCA GCTGAAGGAC ATCATTGAGT ACGCTGAGCT CAAGACCGAT GTGTTTCAGA GTCTGAGGGA GGTGGGCAAT GCTGTTCTCT TCTGTTTGCT CATCGAACAA GCTCTGTCTC AGGAAGAAGT TTGTGACTTG CTTCATGCAG CCCCATTCCA GAACATCCTC CCCAGAGTCT ATATCAAAGA GGGAGAGCGA CTGGAGGTGA GGATGAAGAG GCTGGAGGCA AAGTATGCTC CTCTTCATCT CGTGCCCCTC ATTGAGAGAC TCGGGACTCC ACAGCAAATT GCAATTGCAC GTGAGGGTGA CCTGCTGACG AAGGAGCGGC TGTGCTGTGG CCTGTCCATG TTTGAAGTGA TCCTGACGCG CATCCGCAGC TTCCTGCAGG ACAACGTGTG GCGAGGTCCT CCTCCCACCA ACGGCGTCAT GCATGTGGAT GAGTGCATGG AGTTCCACCG CCTCTGGAGC GCCATGCAGT TTGTTTACTG CATTCCTGTG GGCACACACG AGTTCACTGC AGAGCAGTGT TTCGGTGATG GGCTGAACTG GGCTGGATGT GCCATTATTG TGCTGTTAGG ACAACAACGC CGCTTTGACC TCTTTGATTT CTGCTACCAT TTGCTCAAAG TTCAGAGGCA GGACGGCAAA GACGAAATCA TTAAGAATGT GCCCCTGAAA AAGATGGCAG ACCGCATCCG GAAGTATCAG ATTCTCAACA ATGAGATCTT TGCCATCCTC AACAAGTACA TGAAGGCGGT GGAGACGGAC AGTTCAACAG TGGAGCACGT TCGCTGTTTC CAGCCTCCTA TACATCAGTC TCTGGCCACC ACATGTTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
ODa19719 |
Clone ID Related Accession (Same CDS sequence) |
XM_009291082.3
, XM_009291082.2
|
Accession Version |
XM_009291082.3 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3051bp)
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 |
cytoplasmic FMR1-interacting protein 2 isoform X3 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.7) 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_009291082.2.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Danio rerio Annotation Release 106
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.4
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG CTTCAGGTGG TGCCACTGTT TGGTGACATG CAGATTGAAC TGTCACGGTA CATAGAAACA AGTGCCCACT ATGAAGAGAA CAAATCCAAG TGGACCTGCA CTCAGAGCAG CATCAGTCCG CAGTATAACC TGTGTGAGCA GATGGTGCAG ATCAGAGAAG ACCACATCCG CTTCATCTCT GAGCTCGCGC GCTACAGTAA CAGTGAGGTG GTGACCGGCT CTGGTCTGGA CAGTCAGAAG TCTGATGAGG AATACAGAGA GCTGTTTGAC CTGGCGCTCA GAGGACTGCA GCTTCTGTCC AAGTGGAGCA CCCATGTCAT GGAAGTGTAC TCTTGGAAAC TGGTCCACCC TACGGATAAG TTCTGTAATA AGGACTGCCC AGGCACAGCT GAGGAGTATG AGCGTGCTAC ACGCTACAAC TACACCAGCG AGGAGAAGTT TGCCCTGGTG GAGGTCATTG CTATGATCAA GGGTCTTCAG GTTCTGATGG GCCGGATGGA GAGCGTCTTC AACCAGGCCA TCAGGCACAC CATCTACTCT GCCCTGCAGG ACTTTGCACA GGTGACCCTG AGAGAGCCAC TCAGACAGGC CGTACGCAAG AAGAAGAACG TCCTCATTAG TGTCCTTCAG GCTATTCGTA AAACCATCTG TGATTGGGAA GGCGCAAGAG AACCCCCTAA TGACCCTTGT CTGAGGGGAG AGAAGGACCC CAAAGGAGGA TTTGATATTA AAGTTCCTCG TCGTGCTGTT GGGCCCTCGA GCACACAGCT TTACATGGTG CGCACCATGC TGGAGTCTCT CATCGCTGAT AAAAGTGGCT CTAAGAAGAC TCTCCGGAGC AGTCTGGATG GTCCCATCGT TCAGGCAATA GAGGACTTCC ACAAGCAGTC TTTCTTCTTC ACCCACCTCC TGAACTTTAG TGAAGCCCTG CAGCAGTGCT GTGATCTGTC CCAGCTCTGG TTCCGAGAGT TTTTCCTGGA GCTTACCATG GGCCGCCGCA TCCAGTTCCC CATCGAGATG TCCATGCCCT GGATCCTTAC CGATCACATT CTGGAGACCA AAGAGCCCTC CATGATGGAG TACGTGTTAT ATCCATTAGA TCTTTACAAT GACAGTGGTT ATTATGCCCT CACAAAATTC AAGAAGCAGT TCCTCTACGA TGAGATAGAG GCCGAGGTCA ACCTGTGTTT TGATCAGTTT GTGTACAAGT TAGCTGACCA GATATTTGCC TACTACAAAG CAATGGCTGG AAGTGTCCTC CTAGACAAAC GCTTCCGTGC AGAGTGTAAG AATTACGGTG TGATCATCCC ATACCCGCCA TCAAACCGCT ACGAGACGCT GCTGAAACAG AGACATGTGC AGCTGCTGGG TCGCTCCATT GACCTGAACA GATTGATAAC CCAGAGGATC TCAGCAGCCA TGTACAAATC TCTGGATCAA GCCATCAGCC GTTTTGAGAG CGAGGACCTT ACCTCCATAG TGGAACTTGA ATGGCTATTG GAAATTAACA GGTTGACTCA CCGTCTGCTC TCTAAGCATA TGACGCTGGA CAGTTTTGAC GCCATGTTTC GTGAAGCCAA CCACAACGTC TCTGCTCCAT ATGGACGCAT TACGCTGCAC GTCTTCTGGG AACTCAACTT TGACTTCTTA CCAAACTACT GTTACAATGG CTCCACCAAC AGGTTTGTGC GAACAGCCAT TCCCTTCACC CAAGAGCCTC AGAGGGACAA GCCTGCCAAT GTTCAGCCAT ATTACTTGTA TGGCTCAAAG CCTCTGAACA TTGCCTACTC CCACATCTAC AGTTCCTACA GGAACTTTGT GGGACCTCCG CACTTCAAAA CAATTTGCCG GCTTCTCGGT TACCAAGGCA TCGCTGTGGT GATGGAGGAG CTGCTCAAGA TTGTCAAGAG CTTGTTGCAA GGCACCATCC TTCAGTATGT GAAGACCCTC ATAGAGGTGA TGCCCAAGAT CTGCCGTCTC CCTCGTCATG AGTACGGCTC ACCAGGCATC CTGGAGTTCT TCCACCATCA GCTGAAGGAC ATCATTGAGT ACGCTGAGCT CAAGACCGAT GTGTTTCAGA GTCTGAGGGA GGTGGGCAAT GCTGTTCTCT TCTGTTTGCT CATCGAACAA GCTCTGGTGG TAAGGAATTA G |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_009289357.1 |
CDS | 186..3236 |
Translation | |
Target ORF information:
RefSeq Version | XM_009291082.3 |
Organism | Danio rerio(zebrafish) |
Definition | Danio rerio cytoplasmic FMR1 interacting protein 2 (cyfip2), transcript variant X3, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_009291082.3 |
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
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG CTTCAGGTGG TGCCACTGTT TGGTGACATG CAGATTGAAC TGTCACGGTA CATAGAAACA AGTGCCCACT ATGAAGAGAA CAAATCCAAG TGGACCTGCA CTCAGAGCAG CATCAGTCCG CAGTATAACC TGTGTGAGCA GATGGTGCAG ATCAGAGAAG ACCACATCCG CTTCATCTCT GAGCTCGCGC GCTACAGTAA CAGTGAGGTG GTGACCGGCT CTGGTCTGGA CAGTCAGAAG TCTGATGAGG AATACAGAGA GCTGTTTGAC CTGGCGCTCA GAGGACTGCA GCTTCTGTCC AAGTGGAGCA CCCATGTCAT GGAAGTGTAC TCTTGGAAAC TGGTCCACCC TACGGATAAG TTCTGTAATA AGGACTGCCC AGGCACAGCT GAGGAGTATG AGCGTGCTAC ACGCTACAAC TACACCAGCG AGGAGAAGTT TGCCCTGGTG GAGGTCATTG CTATGATCAA GGGTCTTCAG GTTCTGATGG GCCGGATGGA GAGCGTCTTC AACCAGGCCA TCAGGCACAC CATCTACTCT GCCCTGCAGG ACTTTGCACA GGTGACCCTG AGAGAGCCAC TCAGACAGGC CGTACGCAAG AAGAAGAACG TCCTCATTAG TGTCCTTCAG GCTATTCGTA AAACCATCTG TGATTGGGAA GGCGCAAGAG AACCCCCTAA TGACCCTTGT CTGAGGGGAG AGAAGGACCC CAAAGGAGGA TTTGATATTA AAGTTCCTCG TCGTGCTGTT GGGCCCTCGA GCACACAGCT TTACATGGTG CGCACCATGC TGGAGTCTCT CATCGCTGAT AAAAGTGGCT CTAAGAAGAC TCTCCGGAGC AGTCTGGATG GTCCCATCGT TCAGGCAATA GAGGACTTCC ACAAGCAGTC TTTCTTCTTC ACCCACCTCC TGAACTTTAG TGAAGCCCTG CAGCAGTGCT GTGATCTGTC CCAGCTCTGG TTCCGAGAGT TTTTCCTGGA GCTTACCATG GGCCGCCGCA TCCAGTTCCC CATCGAGATG TCCATGCCCT GGATCCTTAC CGATCACATT CTGGAGACCA AAGAGCCCTC CATGATGGAG TACGTGTTAT ATCCATTAGA TCTTTACAAT GACAGTGGTT ATTATGCCCT CACAAAATTC AAGAAGCAGT TCCTCTACGA TGAGATAGAG GCCGAGGTCA ACCTGTGTTT TGATCAGTTT GTGTACAAGT TAGCTGACCA GATATTTGCC TACTACAAAG CAATGGCTGG AAGTGTCCTC CTAGACAAAC GCTTCCGTGC AGAGTGTAAG AATTACGGTG TGATCATCCC ATACCCGCCA TCAAACCGCT ACGAGACGCT GCTGAAACAG AGACATGTGC AGCTGCTGGG TCGCTCCATT GACCTGAACA GATTGATAAC CCAGAGGATC TCAGCAGCCA TGTACAAATC TCTGGATCAA GCCATCAGCC GTTTTGAGAG CGAGGACCTT ACCTCCATAG TGGAACTTGA ATGGCTATTG GAAATTAACA GGTTGACTCA CCGTCTGCTC TCTAAGCATA TGACGCTGGA CAGTTTTGAC GCCATGTTTC GTGAAGCCAA CCACAACGTC TCTGCTCCAT ATGGACGCAT TACGCTGCAC GTCTTCTGGG AACTCAACTT TGACTTCTTA CCAAACTACT GTTACAATGG CTCCACCAAC AGGTTTGTGC GAACAGCCAT TCCCTTCACC CAAGAGCCTC AGAGGGACAA GCCTGCCAAT GTTCAGCCAT ATTACTTGTA TGGCTCAAAG CCTCTGAACA TTGCCTACTC CCACATCTAC AGTTCCTACA GGAACTTTGT GGGACCTCCG CACTTCAAAA CAATTTGCCG GCTTCTCGGT TACCAAGGCA TCGCTGTGGT GATGGAGGAG CTGCTCAAGA TTGTCAAGAG CTTGTTGCAA GGCACCATCC TTCAGTATGT GAAGACCCTC ATAGAGGTGA TGCCCAAGAT CTGCCGTCTC CCTCGTCATG AGTACGGCTC ACCAGGCATC CTGGAGTTCT TCCACCATCA GCTGAAGGAC ATCATTGAGT ACGCTGAGCT CAAGACCGAT GTGTTTCAGA GTCTGAGGGA GGTGGGCAAT GCTGTTCTCT TCTGTTTGCT CATCGAACAA GCTCTGGTGG TAAGGAATTA G |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
ODa19719 |
Clone ID Related Accession (Same CDS sequence) |
XM_009291082.3
, XM_009291082.2
|
Accession Version |
XM_009291082.2 |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3051bp)
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 |
cytoplasmic FMR1-interacting protein 2 isoform X3 |
Comment |
MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.6) 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_009291082.1.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Danio rerio Annotation Release 105
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.1
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG CTTCAGGTGG TGCCACTGTT TGGTGACATG CAGATTGAAC TGTCACGGTA CATAGAAACA AGTGCCCACT ATGAAGAGAA CAAATCCAAG TGGACCTGCA CTCAGAGCAG CATCAGTCCG CAGTATAACC TGTGTGAGCA GATGGTGCAG ATCAGAGAAG ACCACATCCG CTTCATCTCT GAGCTCGCGC GCTACAGTAA CAGTGAGGTG GTGACCGGCT CTGGTCTGGA CAGTCAGAAG TCTGATGAGG AATACAGAGA GCTGTTTGAC CTGGCGCTCA GAGGACTGCA GCTTCTGTCC AAGTGGAGCA CCCATGTCAT GGAAGTGTAC TCTTGGAAAC TGGTCCACCC TACGGATAAG TTCTGTAATA AGGACTGCCC AGGCACAGCT GAGGAGTATG AGCGTGCTAC ACGCTACAAC TACACCAGCG AGGAGAAGTT TGCCCTGGTG GAGGTCATTG CTATGATCAA GGGTCTTCAG GTTCTGATGG GCCGGATGGA GAGCGTCTTC AACCAGGCCA TCAGGCACAC CATCTACTCT GCCCTGCAGG ACTTTGCACA GGTGACCCTG AGAGAGCCAC TCAGACAGGC CGTACGCAAG AAGAAGAACG TCCTCATTAG TGTCCTTCAG GCTATTCGTA AAACCATCTG TGATTGGGAA GGCGCAAGAG AACCCCCTAA TGACCCTTGT CTGAGGGGAG AGAAGGACCC CAAAGGAGGA TTTGATATTA AAGTTCCTCG TCGTGCTGTT GGGCCCTCGA GCACACAGCT TTACATGGTG CGCACCATGC TGGAGTCTCT CATCGCTGAT AAAAGTGGCT CTAAGAAGAC TCTCCGGAGC AGTCTGGATG GTCCCATCGT TCAGGCAATA GAGGACTTCC ACAAGCAGTC TTTCTTCTTC ACCCACCTCC TGAACTTTAG TGAAGCCCTG CAGCAGTGCT GTGATCTGTC CCAGCTCTGG TTCCGAGAGT TTTTCCTGGA GCTTACCATG GGCCGCCGCA TCCAGTTCCC CATCGAGATG TCCATGCCCT GGATCCTTAC CGATCACATT CTGGAGACCA AAGAGCCCTC CATGATGGAG TACGTGTTAT ATCCATTAGA TCTTTACAAT GACAGTGGTT ATTATGCCCT CACAAAATTC AAGAAGCAGT TCCTCTACGA TGAGATAGAG GCCGAGGTCA ACCTGTGTTT TGATCAGTTT GTGTACAAGT TAGCTGACCA GATATTTGCC TACTACAAAG CAATGGCTGG AAGTGTCCTC CTAGACAAAC GCTTCCGTGC AGAGTGTAAG AATTACGGTG TGATCATCCC ATACCCGCCA TCAAACCGCT ACGAGACGCT GCTGAAACAG AGACATGTGC AGCTGCTGGG TCGCTCCATT GACCTGAACA GATTGATAAC CCAGAGGATC TCAGCAGCCA TGTACAAATC TCTGGATCAA GCCATCAGCC GTTTTGAGAG CGAGGACCTT ACCTCCATAG TGGAACTTGA ATGGCTATTG GAAATTAACA GGTTGACTCA CCGTCTGCTC TCTAAGCATA TGACGCTGGA CAGTTTTGAC GCCATGTTTC GTGAAGCCAA CCACAACGTC TCTGCTCCAT ATGGACGCAT TACGCTGCAC GTCTTCTGGG AACTCAACTT TGACTTCTTA CCAAACTACT GTTACAATGG CTCCACCAAC AGGTTTGTGC GAACAGCCAT TCCCTTCACC CAAGAGCCTC AGAGGGACAA GCCTGCCAAT GTTCAGCCAT ATTACTTGTA TGGCTCAAAG CCTCTGAACA TTGCCTACTC CCACATCTAC AGTTCCTACA GGAACTTTGT GGGACCTCCG CACTTCAAAA CAATTTGCCG GCTTCTCGGT TACCAAGGCA TCGCTGTGGT GATGGAGGAG CTGCTCAAGA TTGTCAAGAG CTTGTTGCAA GGCACCATCC TTCAGTATGT GAAGACCCTC ATAGAGGTGA TGCCCAAGAT CTGCCGTCTC CCTCGTCATG AGTACGGCTC ACCAGGCATC CTGGAGTTCT TCCACCATCA GCTGAAGGAC ATCATTGAGT ACGCTGAGCT CAAGACCGAT GTGTTTCAGA GTCTGAGGGA GGTGGGCAAT GCTGTTCTCT TCTGTTTGCT CATCGAACAA GCTCTGGTGG TAAGGAATTA G |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_009289357.1 |
CDS | 186..3236 |
Translation | |
Target ORF information:
RefSeq Version | XM_009291082.2 |
Organism | Danio rerio(Zebrafish) |
Definition | Danio rerio cytoplasmic FMR1 interacting protein 2 (cyfip2), transcript variant X3, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_009291082.2 |
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
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG CTTCAGGTGG TGCCACTGTT TGGTGACATG CAGATTGAAC TGTCACGGTA CATAGAAACA AGTGCCCACT ATGAAGAGAA CAAATCCAAG TGGACCTGCA CTCAGAGCAG CATCAGTCCG CAGTATAACC TGTGTGAGCA GATGGTGCAG ATCAGAGAAG ACCACATCCG CTTCATCTCT GAGCTCGCGC GCTACAGTAA CAGTGAGGTG GTGACCGGCT CTGGTCTGGA CAGTCAGAAG TCTGATGAGG AATACAGAGA GCTGTTTGAC CTGGCGCTCA GAGGACTGCA GCTTCTGTCC AAGTGGAGCA CCCATGTCAT GGAAGTGTAC TCTTGGAAAC TGGTCCACCC TACGGATAAG TTCTGTAATA AGGACTGCCC AGGCACAGCT GAGGAGTATG AGCGTGCTAC ACGCTACAAC TACACCAGCG AGGAGAAGTT TGCCCTGGTG GAGGTCATTG CTATGATCAA GGGTCTTCAG GTTCTGATGG GCCGGATGGA GAGCGTCTTC AACCAGGCCA TCAGGCACAC CATCTACTCT GCCCTGCAGG ACTTTGCACA GGTGACCCTG AGAGAGCCAC TCAGACAGGC CGTACGCAAG AAGAAGAACG TCCTCATTAG TGTCCTTCAG GCTATTCGTA AAACCATCTG TGATTGGGAA GGCGCAAGAG AACCCCCTAA TGACCCTTGT CTGAGGGGAG AGAAGGACCC CAAAGGAGGA TTTGATATTA AAGTTCCTCG TCGTGCTGTT GGGCCCTCGA GCACACAGCT TTACATGGTG CGCACCATGC TGGAGTCTCT CATCGCTGAT AAAAGTGGCT CTAAGAAGAC TCTCCGGAGC AGTCTGGATG GTCCCATCGT TCAGGCAATA GAGGACTTCC ACAAGCAGTC TTTCTTCTTC ACCCACCTCC TGAACTTTAG TGAAGCCCTG CAGCAGTGCT GTGATCTGTC CCAGCTCTGG TTCCGAGAGT TTTTCCTGGA GCTTACCATG GGCCGCCGCA TCCAGTTCCC CATCGAGATG TCCATGCCCT GGATCCTTAC CGATCACATT CTGGAGACCA AAGAGCCCTC CATGATGGAG TACGTGTTAT ATCCATTAGA TCTTTACAAT GACAGTGGTT ATTATGCCCT CACAAAATTC AAGAAGCAGT TCCTCTACGA TGAGATAGAG GCCGAGGTCA ACCTGTGTTT TGATCAGTTT GTGTACAAGT TAGCTGACCA GATATTTGCC TACTACAAAG CAATGGCTGG AAGTGTCCTC CTAGACAAAC GCTTCCGTGC AGAGTGTAAG AATTACGGTG TGATCATCCC ATACCCGCCA TCAAACCGCT ACGAGACGCT GCTGAAACAG AGACATGTGC AGCTGCTGGG TCGCTCCATT GACCTGAACA GATTGATAAC CCAGAGGATC TCAGCAGCCA TGTACAAATC TCTGGATCAA GCCATCAGCC GTTTTGAGAG CGAGGACCTT ACCTCCATAG TGGAACTTGA ATGGCTATTG GAAATTAACA GGTTGACTCA CCGTCTGCTC TCTAAGCATA TGACGCTGGA CAGTTTTGAC GCCATGTTTC GTGAAGCCAA CCACAACGTC TCTGCTCCAT ATGGACGCAT TACGCTGCAC GTCTTCTGGG AACTCAACTT TGACTTCTTA CCAAACTACT GTTACAATGG CTCCACCAAC AGGTTTGTGC GAACAGCCAT TCCCTTCACC CAAGAGCCTC AGAGGGACAA GCCTGCCAAT GTTCAGCCAT ATTACTTGTA TGGCTCAAAG CCTCTGAACA TTGCCTACTC CCACATCTAC AGTTCCTACA GGAACTTTGT GGGACCTCCG CACTTCAAAA CAATTTGCCG GCTTCTCGGT TACCAAGGCA TCGCTGTGGT GATGGAGGAG CTGCTCAAGA TTGTCAAGAG CTTGTTGCAA GGCACCATCC TTCAGTATGT GAAGACCCTC ATAGAGGTGA TGCCCAAGAT CTGCCGTCTC CCTCGTCATG AGTACGGCTC ACCAGGCATC CTGGAGTTCT TCCACCATCA GCTGAAGGAC ATCATTGAGT ACGCTGAGCT CAAGACCGAT GTGTTTCAGA GTCTGAGGGA GGTGGGCAAT GCTGTTCTCT TCTGTTTGCT CATCGAACAA GCTCTGGTGG TAAGGAATTA G |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
ODa47745 |
Clone ID Related Accession (Same CDS sequence) |
XM_009291081.3
, XM_009291081.2
|
Accession Version |
XM_009291081.3 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3756bp)
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 |
cytoplasmic FMR1-interacting protein 2 isoform X2 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.7) 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_009291081.2.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Danio rerio Annotation Release 106
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.4
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG GTGGTGCCAC TGTTTGGTGA CATGCAGATT GAACTGTCAC GGTACATAGA AACAAGTGCC CACTATGAAG AGAACAAATC CAAGTGGACC TGCACTCAGA GCAGCATCAG TCCGCAGTAT AACCTGTGTG AGCAGATGGT GCAGATCAGA GAAGACCACA TCCGCTTCAT CTCTGAGCTC GCGCGCTACA GTAACAGTGA GGTGGTGACC GGCTCTGGTC TGGACAGTCA GAAGTCTGAT GAGGAATACA GAGAGCTGTT TGACCTGGCG CTCAGAGGAC TGCAGCTTCT GTCCAAGTGG AGCACCCATG TCATGGAAGT GTACTCTTGG AAACTGGTCC ACCCTACGGA TAAGTTCTGT AATAAGGACT GCCCAGGCAC AGCTGAGGAG TATGAGCGTG CTACACGCTA CAACTACACC AGCGAGGAGA AGTTTGCCCT GGTGGAGGTC ATTGCTATGA TCAAGGGTCT TCAGGTTCTG ATGGGCCGGA TGGAGAGCGT CTTCAACCAG GCCATCAGGC ACACCATCTA CTCTGCCCTG CAGGACTTTG CACAGGTGAC CCTGAGAGAG CCACTCAGAC AGGCCGTACG CAAGAAGAAG AACGTCCTCA TTAGTGTCCT TCAGGCTATT CGTAAAACCA TCTGTGATTG GGAAGGCGCA AGAGAACCCC CTAATGACCC TTGTCTGAGG GGAGAGAAGG ACCCCAAAGG AGGATTTGAT ATTAAAGTTC CTCGTCGTGC TGTTGGGCCC TCGAGCACAC AGCTTTACAT GGTGCGCACC ATGCTGGAGT CTCTCATCGC TGATAAAAGT GGCTCTAAGA AGACTCTCCG GAGCAGTCTG GATGGTCCCA TCGTTCAGGC AATAGAGGAC TTCCACAAGC AGTCTTTCTT CTTCACCCAC CTCCTGAACT TTAGTGAAGC CCTGCAGCAG TGCTGTGATC TGTCCCAGCT CTGGTTCCGA GAGTTTTTCC TGGAGCTTAC CATGGGCCGC CGCATCCAGT TCCCCATCGA GATGTCCATG CCCTGGATCC TTACCGATCA CATTCTGGAG ACCAAAGAGC CCTCCATGAT GGAGTACGTG TTATATCCAT TAGATCTTTA CAATGACAGT GGTTATTATG CCCTCACAAA ATTCAAGAAG CAGTTCCTCT ACGATGAGAT AGAGGCCGAG GTCAACCTGT GTTTTGATCA GTTTGTGTAC AAGTTAGCTG ACCAGATATT TGCCTACTAC AAAGCAATGG CTGGAAGTGT CCTCCTAGAC AAACGCTTCC GTGCAGAGTG TAAGAATTAC GGTGTGATCA TCCCATACCC GCCATCAAAC CGCTACGAGA CGCTGCTGAA ACAGAGACAT GTGCAGCTGC TGGGTCGCTC CATTGACCTG AACAGATTGA TAACCCAGAG GATCTCAGCA GCCATGTACA AATCTCTGGA TCAAGCCATC AGCCGTTTTG AGAGCGAGGA CCTTACCTCC ATAGTGGAAC TTGAATGGCT ATTGGAAATT AACAGGTTGA CTCACCGTCT GCTCTCTAAG CATATGACGC TGGACAGTTT TGACGCCATG TTTCGTGAAG CCAACCACAA CGTCTCTGCT CCATATGGAC GCATTACGCT GCACGTCTTC TGGGAACTCA ACTTTGACTT CTTACCAAAC TACTGTTACA ATGGCTCCAC CAACAGGTTT GTGCGAACAG CCATTCCCTT CACCCAAGAG CCTCAGAGGG ACAAGCCTGC CAATGTTCAG CCATATTACT TGTATGGCTC AAAGCCTCTG AACATTGCCT ACTCCCACAT CTACAGTTCC TACAGGAACT TTGTGGGACC TCCGCACTTC AAAACAATTT GCCGGCTTCT CGGTTACCAA GGCATCGCTG TGGTGATGGA GGAGCTGCTC AAGATTGTCA AGAGCTTGTT GCAAGGCACC ATCCTTCAGT ATGTGAAGAC CCTCATAGAG GTGATGCCCA AGATCTGCCG TCTCCCTCGT CATGAGTACG GCTCACCAGG CATCCTGGAG TTCTTCCACC ATCAGCTGAA GGACATCATT GAGTACGCTG AGCTCAAGAC CGATGTGTTT CAGAGTCTGA GGGAGGTGGG CAATGCTGTT CTCTTCTGTT TGCTCATCGA ACAAGCTCTG GTGTCTCAGG AAGAAGTTTG TGACTTGCTT CATGCAGCCC CATTCCAGAA CATCCTCCCC AGAGTCTATA TCAAAGAGGG AGAGCGACTG GAGGTGAGGA TGAAGAGGCT GGAGGCAAAG TATGCTCCTC TTCATCTCGT GCCCCTCATT GAGAGACTCG GGACTCCACA GCAAATTGCA ATTGCACGTG AGGGTGACCT GCTGACGAAG GAGCGGCTGT GCTGTGGCCT GTCCATGTTT GAAGTGATCC TGACGCGCAT CCGCAGCTTC CTGCAGGACA ACGTGTGGCG AGGTCCTCCT CCCACCAACG GCGTCATGCA TGTGGATGAG TGCATGGAGT TCCACCGCCT CTGGAGCGCC ATGCAGTTTG TTTACTGCAT TCCTGTGGGC ACACACGAGT TCACTGCAGA GCAGTGTTTC GGTGATGGGC TGAACTGGGC TGGATGTGCC ATTATTGTGC TGTTAGGACA ACAACGCCGC TTTGACCTCT TTGATTTCTG CTACCATTTG CTCAAAGTTC AGAGGCAGGA CGGCAAAGAC GAAATCATTA AGAATGTGCC CCTGAAAAAG ATGGCAGACC GCATCCGGAA GTATCAGATT CTCAACAATG AGATCTTTGC CATCCTCAAC AAGTACATGA AGGCGGTGGA GACGGACAGT TCAACAGTGG AGCACGTTCG CTGTTTCCAG CCTCCTATAC ATCAGTCTCT GGCCACCACA TGTTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_009289356.1 |
CDS | 186..3941 |
Translation | |
Target ORF information:
RefSeq Version | XM_009291081.3 |
Organism | Danio rerio(zebrafish) |
Definition | Danio rerio cytoplasmic FMR1 interacting protein 2 (cyfip2), transcript variant X2, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_009291081.3 |
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
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG GTGGTGCCAC TGTTTGGTGA CATGCAGATT GAACTGTCAC GGTACATAGA AACAAGTGCC CACTATGAAG AGAACAAATC CAAGTGGACC TGCACTCAGA GCAGCATCAG TCCGCAGTAT AACCTGTGTG AGCAGATGGT GCAGATCAGA GAAGACCACA TCCGCTTCAT CTCTGAGCTC GCGCGCTACA GTAACAGTGA GGTGGTGACC GGCTCTGGTC TGGACAGTCA GAAGTCTGAT GAGGAATACA GAGAGCTGTT TGACCTGGCG CTCAGAGGAC TGCAGCTTCT GTCCAAGTGG AGCACCCATG TCATGGAAGT GTACTCTTGG AAACTGGTCC ACCCTACGGA TAAGTTCTGT AATAAGGACT GCCCAGGCAC AGCTGAGGAG TATGAGCGTG CTACACGCTA CAACTACACC AGCGAGGAGA AGTTTGCCCT GGTGGAGGTC ATTGCTATGA TCAAGGGTCT TCAGGTTCTG ATGGGCCGGA TGGAGAGCGT CTTCAACCAG GCCATCAGGC ACACCATCTA CTCTGCCCTG CAGGACTTTG CACAGGTGAC CCTGAGAGAG CCACTCAGAC AGGCCGTACG CAAGAAGAAG AACGTCCTCA TTAGTGTCCT TCAGGCTATT CGTAAAACCA TCTGTGATTG GGAAGGCGCA AGAGAACCCC CTAATGACCC TTGTCTGAGG GGAGAGAAGG ACCCCAAAGG AGGATTTGAT ATTAAAGTTC CTCGTCGTGC TGTTGGGCCC TCGAGCACAC AGCTTTACAT GGTGCGCACC ATGCTGGAGT CTCTCATCGC TGATAAAAGT GGCTCTAAGA AGACTCTCCG GAGCAGTCTG GATGGTCCCA TCGTTCAGGC AATAGAGGAC TTCCACAAGC AGTCTTTCTT CTTCACCCAC CTCCTGAACT TTAGTGAAGC CCTGCAGCAG TGCTGTGATC TGTCCCAGCT CTGGTTCCGA GAGTTTTTCC TGGAGCTTAC CATGGGCCGC CGCATCCAGT TCCCCATCGA GATGTCCATG CCCTGGATCC TTACCGATCA CATTCTGGAG ACCAAAGAGC CCTCCATGAT GGAGTACGTG TTATATCCAT TAGATCTTTA CAATGACAGT GGTTATTATG CCCTCACAAA ATTCAAGAAG CAGTTCCTCT ACGATGAGAT AGAGGCCGAG GTCAACCTGT GTTTTGATCA GTTTGTGTAC AAGTTAGCTG ACCAGATATT TGCCTACTAC AAAGCAATGG CTGGAAGTGT CCTCCTAGAC AAACGCTTCC GTGCAGAGTG TAAGAATTAC GGTGTGATCA TCCCATACCC GCCATCAAAC CGCTACGAGA CGCTGCTGAA ACAGAGACAT GTGCAGCTGC TGGGTCGCTC CATTGACCTG AACAGATTGA TAACCCAGAG GATCTCAGCA GCCATGTACA AATCTCTGGA TCAAGCCATC AGCCGTTTTG AGAGCGAGGA CCTTACCTCC ATAGTGGAAC TTGAATGGCT ATTGGAAATT AACAGGTTGA CTCACCGTCT GCTCTCTAAG CATATGACGC TGGACAGTTT TGACGCCATG TTTCGTGAAG CCAACCACAA CGTCTCTGCT CCATATGGAC GCATTACGCT GCACGTCTTC TGGGAACTCA ACTTTGACTT CTTACCAAAC TACTGTTACA ATGGCTCCAC CAACAGGTTT GTGCGAACAG CCATTCCCTT CACCCAAGAG CCTCAGAGGG ACAAGCCTGC CAATGTTCAG CCATATTACT TGTATGGCTC AAAGCCTCTG AACATTGCCT ACTCCCACAT CTACAGTTCC TACAGGAACT TTGTGGGACC TCCGCACTTC AAAACAATTT GCCGGCTTCT CGGTTACCAA GGCATCGCTG TGGTGATGGA GGAGCTGCTC AAGATTGTCA AGAGCTTGTT GCAAGGCACC ATCCTTCAGT ATGTGAAGAC CCTCATAGAG GTGATGCCCA AGATCTGCCG TCTCCCTCGT CATGAGTACG GCTCACCAGG CATCCTGGAG TTCTTCCACC ATCAGCTGAA GGACATCATT GAGTACGCTG AGCTCAAGAC CGATGTGTTT CAGAGTCTGA GGGAGGTGGG CAATGCTGTT CTCTTCTGTT TGCTCATCGA ACAAGCTCTG GTGTCTCAGG AAGAAGTTTG TGACTTGCTT CATGCAGCCC CATTCCAGAA CATCCTCCCC AGAGTCTATA TCAAAGAGGG AGAGCGACTG GAGGTGAGGA TGAAGAGGCT GGAGGCAAAG TATGCTCCTC TTCATCTCGT GCCCCTCATT GAGAGACTCG GGACTCCACA GCAAATTGCA ATTGCACGTG AGGGTGACCT GCTGACGAAG GAGCGGCTGT GCTGTGGCCT GTCCATGTTT GAAGTGATCC TGACGCGCAT CCGCAGCTTC CTGCAGGACA ACGTGTGGCG AGGTCCTCCT CCCACCAACG GCGTCATGCA TGTGGATGAG TGCATGGAGT TCCACCGCCT CTGGAGCGCC ATGCAGTTTG TTTACTGCAT TCCTGTGGGC ACACACGAGT TCACTGCAGA GCAGTGTTTC GGTGATGGGC TGAACTGGGC TGGATGTGCC ATTATTGTGC TGTTAGGACA ACAACGCCGC TTTGACCTCT TTGATTTCTG CTACCATTTG CTCAAAGTTC AGAGGCAGGA CGGCAAAGAC GAAATCATTA AGAATGTGCC CCTGAAAAAG ATGGCAGACC GCATCCGGAA GTATCAGATT CTCAACAATG AGATCTTTGC CATCCTCAAC AAGTACATGA AGGCGGTGGA GACGGACAGT TCAACAGTGG AGCACGTTCG CTGTTTCCAG CCTCCTATAC ATCAGTCTCT GGCCACCACA TGTTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
ODa47745 |
Clone ID Related Accession (Same CDS sequence) |
XM_009291081.3
, XM_009291081.2
|
Accession Version |
XM_009291081.2 |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3756bp)
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 |
cytoplasmic FMR1-interacting protein 2 isoform X2 |
Comment |
MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.6) 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_009291081.1.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Danio rerio Annotation Release 105
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.1
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG GTGGTGCCAC TGTTTGGTGA CATGCAGATT GAACTGTCAC GGTACATAGA AACAAGTGCC CACTATGAAG AGAACAAATC CAAGTGGACC TGCACTCAGA GCAGCATCAG TCCGCAGTAT AACCTGTGTG AGCAGATGGT GCAGATCAGA GAAGACCACA TCCGCTTCAT CTCTGAGCTC GCGCGCTACA GTAACAGTGA GGTGGTGACC GGCTCTGGTC TGGACAGTCA GAAGTCTGAT GAGGAATACA GAGAGCTGTT TGACCTGGCG CTCAGAGGAC TGCAGCTTCT GTCCAAGTGG AGCACCCATG TCATGGAAGT GTACTCTTGG AAACTGGTCC ACCCTACGGA TAAGTTCTGT AATAAGGACT GCCCAGGCAC AGCTGAGGAG TATGAGCGTG CTACACGCTA CAACTACACC AGCGAGGAGA AGTTTGCCCT GGTGGAGGTC ATTGCTATGA TCAAGGGTCT TCAGGTTCTG ATGGGCCGGA TGGAGAGCGT CTTCAACCAG GCCATCAGGC ACACCATCTA CTCTGCCCTG CAGGACTTTG CACAGGTGAC CCTGAGAGAG CCACTCAGAC AGGCCGTACG CAAGAAGAAG AACGTCCTCA TTAGTGTCCT TCAGGCTATT CGTAAAACCA TCTGTGATTG GGAAGGCGCA AGAGAACCCC CTAATGACCC TTGTCTGAGG GGAGAGAAGG ACCCCAAAGG AGGATTTGAT ATTAAAGTTC CTCGTCGTGC TGTTGGGCCC TCGAGCACAC AGCTTTACAT GGTGCGCACC ATGCTGGAGT CTCTCATCGC TGATAAAAGT GGCTCTAAGA AGACTCTCCG GAGCAGTCTG GATGGTCCCA TCGTTCAGGC AATAGAGGAC TTCCACAAGC AGTCTTTCTT CTTCACCCAC CTCCTGAACT TTAGTGAAGC CCTGCAGCAG TGCTGTGATC TGTCCCAGCT CTGGTTCCGA GAGTTTTTCC TGGAGCTTAC CATGGGCCGC CGCATCCAGT TCCCCATCGA GATGTCCATG CCCTGGATCC TTACCGATCA CATTCTGGAG ACCAAAGAGC CCTCCATGAT GGAGTACGTG TTATATCCAT TAGATCTTTA CAATGACAGT GGTTATTATG CCCTCACAAA ATTCAAGAAG CAGTTCCTCT ACGATGAGAT AGAGGCCGAG GTCAACCTGT GTTTTGATCA GTTTGTGTAC AAGTTAGCTG ACCAGATATT TGCCTACTAC AAAGCAATGG CTGGAAGTGT CCTCCTAGAC AAACGCTTCC GTGCAGAGTG TAAGAATTAC GGTGTGATCA TCCCATACCC GCCATCAAAC CGCTACGAGA CGCTGCTGAA ACAGAGACAT GTGCAGCTGC TGGGTCGCTC CATTGACCTG AACAGATTGA TAACCCAGAG GATCTCAGCA GCCATGTACA AATCTCTGGA TCAAGCCATC AGCCGTTTTG AGAGCGAGGA CCTTACCTCC ATAGTGGAAC TTGAATGGCT ATTGGAAATT AACAGGTTGA CTCACCGTCT GCTCTCTAAG CATATGACGC TGGACAGTTT TGACGCCATG TTTCGTGAAG CCAACCACAA CGTCTCTGCT CCATATGGAC GCATTACGCT GCACGTCTTC TGGGAACTCA ACTTTGACTT CTTACCAAAC TACTGTTACA ATGGCTCCAC CAACAGGTTT GTGCGAACAG CCATTCCCTT CACCCAAGAG CCTCAGAGGG ACAAGCCTGC CAATGTTCAG CCATATTACT TGTATGGCTC AAAGCCTCTG AACATTGCCT ACTCCCACAT CTACAGTTCC TACAGGAACT TTGTGGGACC TCCGCACTTC AAAACAATTT GCCGGCTTCT CGGTTACCAA GGCATCGCTG TGGTGATGGA GGAGCTGCTC AAGATTGTCA AGAGCTTGTT GCAAGGCACC ATCCTTCAGT ATGTGAAGAC CCTCATAGAG GTGATGCCCA AGATCTGCCG TCTCCCTCGT CATGAGTACG GCTCACCAGG CATCCTGGAG TTCTTCCACC ATCAGCTGAA GGACATCATT GAGTACGCTG AGCTCAAGAC CGATGTGTTT CAGAGTCTGA GGGAGGTGGG CAATGCTGTT CTCTTCTGTT TGCTCATCGA ACAAGCTCTG GTGTCTCAGG AAGAAGTTTG TGACTTGCTT CATGCAGCCC CATTCCAGAA CATCCTCCCC AGAGTCTATA TCAAAGAGGG AGAGCGACTG GAGGTGAGGA TGAAGAGGCT GGAGGCAAAG TATGCTCCTC TTCATCTCGT GCCCCTCATT GAGAGACTCG GGACTCCACA GCAAATTGCA ATTGCACGTG AGGGTGACCT GCTGACGAAG GAGCGGCTGT GCTGTGGCCT GTCCATGTTT GAAGTGATCC TGACGCGCAT CCGCAGCTTC CTGCAGGACA ACGTGTGGCG AGGTCCTCCT CCCACCAACG GCGTCATGCA TGTGGATGAG TGCATGGAGT TCCACCGCCT CTGGAGCGCC ATGCAGTTTG TTTACTGCAT TCCTGTGGGC ACACACGAGT TCACTGCAGA GCAGTGTTTC GGTGATGGGC TGAACTGGGC TGGATGTGCC ATTATTGTGC TGTTAGGACA ACAACGCCGC TTTGACCTCT TTGATTTCTG CTACCATTTG CTCAAAGTTC AGAGGCAGGA CGGCAAAGAC GAAATCATTA AGAATGTGCC CCTGAAAAAG ATGGCAGACC GCATCCGGAA GTATCAGATT CTCAACAATG AGATCTTTGC CATCCTCAAC AAGTACATGA AGGCGGTGGA GACGGACAGT TCAACAGTGG AGCACGTTCG CTGTTTCCAG CCTCCTATAC ATCAGTCTCT GGCCACCACA TGTTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_009289356.1 |
CDS | 186..3941 |
Translation | |
Target ORF information:
RefSeq Version | XM_009291081.2 |
Organism | Danio rerio(Zebrafish) |
Definition | Danio rerio cytoplasmic FMR1 interacting protein 2 (cyfip2), transcript variant X2, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_009291081.2 |
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
| ATGACAACCC ACGTGACCCT GGAGGATGCG CTGTCCAATG TGGACCTGCT GGAGGAGCTT CCTCTCCCAG ACCAGCAGCC ATGCATCGAG CCCCCTCCAT CCTCCATCAT GTACCAGGCA AACTTTGACA CCAACTTCGA GGACAGAAAT GCGTTTGTCA CCGGCATTGC CCGCTACATT GAACAGGCCA CTGTGCACTC CAGCATGAAT GAAATGCTGG AGGAGGGACA TGAGTATGCC GTCATGTTGT ACACCTGGAG GAGCTGCTCT AGGGCCATTC CTCAGGTGAA GTGCAACGAG CAGCCAAACC GAGTGGAGAT CTATGAGAAA ACGGTGGAGG TGCTGGAGCC TGAGGTCACC AAGCTTATGA AATTTATGTA CTTCCAGCGC AAGGCCATTG AGCGTTTTTG CAGCGAGGTA AAGCGACTGT GTCACGCTGA ACGCAGGAAG GACTTTGTTT CCGAGGCCTA TCTGCTCACT TTAGGAAAGT TCATCAATAT GTTTGCTGTG CTGGACGAAC TGAAGAACAT GAAGTGCAGT GTAAAAAATG ACCACTCTGC TTACAAGAGA GCGGCTCAGT TCTTGAGGAA AATGGCTGAC CCTCAGTCCA TCCAAGAGTC CCAAAACCTC TCTATGTTTT TAGCCAATCA CAACAGAATT ACACAGTGTC TGCACCAGCA GCTGGAGGTG ATCCCAGGTT ATGAGGAGCT GCTGGCTGAT ATTGTCAACA TCTGTGTGGA TTACTACGAG AACAAGATGT ACTTGACCCC CAGTGAGAAA CACATGCTGC TAAAGGTCAT GGGTTTTGGC CTGTACTTGA TGGATGGAAA TGTCAGCAAC ATCTATAAGC TGGATGCCAA GAAAAGGATA AACCTCAGCA AAATCGACAA GTTCTTCAAG GTGGTGCCAC TGTTTGGTGA CATGCAGATT GAACTGTCAC GGTACATAGA AACAAGTGCC CACTATGAAG AGAACAAATC CAAGTGGACC TGCACTCAGA GCAGCATCAG TCCGCAGTAT AACCTGTGTG AGCAGATGGT GCAGATCAGA GAAGACCACA TCCGCTTCAT CTCTGAGCTC GCGCGCTACA GTAACAGTGA GGTGGTGACC GGCTCTGGTC TGGACAGTCA GAAGTCTGAT GAGGAATACA GAGAGCTGTT TGACCTGGCG CTCAGAGGAC TGCAGCTTCT GTCCAAGTGG AGCACCCATG TCATGGAAGT GTACTCTTGG AAACTGGTCC ACCCTACGGA TAAGTTCTGT AATAAGGACT GCCCAGGCAC AGCTGAGGAG TATGAGCGTG CTACACGCTA CAACTACACC AGCGAGGAGA AGTTTGCCCT GGTGGAGGTC ATTGCTATGA TCAAGGGTCT TCAGGTTCTG ATGGGCCGGA TGGAGAGCGT CTTCAACCAG GCCATCAGGC ACACCATCTA CTCTGCCCTG CAGGACTTTG CACAGGTGAC CCTGAGAGAG CCACTCAGAC AGGCCGTACG CAAGAAGAAG AACGTCCTCA TTAGTGTCCT TCAGGCTATT CGTAAAACCA TCTGTGATTG GGAAGGCGCA AGAGAACCCC CTAATGACCC TTGTCTGAGG GGAGAGAAGG ACCCCAAAGG AGGATTTGAT ATTAAAGTTC CTCGTCGTGC TGTTGGGCCC TCGAGCACAC AGCTTTACAT GGTGCGCACC ATGCTGGAGT CTCTCATCGC TGATAAAAGT GGCTCTAAGA AGACTCTCCG GAGCAGTCTG GATGGTCCCA TCGTTCAGGC AATAGAGGAC TTCCACAAGC AGTCTTTCTT CTTCACCCAC CTCCTGAACT TTAGTGAAGC CCTGCAGCAG TGCTGTGATC TGTCCCAGCT CTGGTTCCGA GAGTTTTTCC TGGAGCTTAC CATGGGCCGC CGCATCCAGT TCCCCATCGA GATGTCCATG CCCTGGATCC TTACCGATCA CATTCTGGAG ACCAAAGAGC CCTCCATGAT GGAGTACGTG TTATATCCAT TAGATCTTTA CAATGACAGT GGTTATTATG CCCTCACAAA ATTCAAGAAG CAGTTCCTCT ACGATGAGAT AGAGGCCGAG GTCAACCTGT GTTTTGATCA GTTTGTGTAC AAGTTAGCTG ACCAGATATT TGCCTACTAC AAAGCAATGG CTGGAAGTGT CCTCCTAGAC AAACGCTTCC GTGCAGAGTG TAAGAATTAC GGTGTGATCA TCCCATACCC GCCATCAAAC CGCTACGAGA CGCTGCTGAA ACAGAGACAT GTGCAGCTGC TGGGTCGCTC CATTGACCTG AACAGATTGA TAACCCAGAG GATCTCAGCA GCCATGTACA AATCTCTGGA TCAAGCCATC AGCCGTTTTG AGAGCGAGGA CCTTACCTCC ATAGTGGAAC TTGAATGGCT ATTGGAAATT AACAGGTTGA CTCACCGTCT GCTCTCTAAG CATATGACGC TGGACAGTTT TGACGCCATG TTTCGTGAAG CCAACCACAA CGTCTCTGCT CCATATGGAC GCATTACGCT GCACGTCTTC TGGGAACTCA ACTTTGACTT CTTACCAAAC TACTGTTACA ATGGCTCCAC CAACAGGTTT GTGCGAACAG CCATTCCCTT CACCCAAGAG CCTCAGAGGG ACAAGCCTGC CAATGTTCAG CCATATTACT TGTATGGCTC AAAGCCTCTG AACATTGCCT ACTCCCACAT CTACAGTTCC TACAGGAACT TTGTGGGACC TCCGCACTTC AAAACAATTT GCCGGCTTCT CGGTTACCAA GGCATCGCTG TGGTGATGGA GGAGCTGCTC AAGATTGTCA AGAGCTTGTT GCAAGGCACC ATCCTTCAGT ATGTGAAGAC CCTCATAGAG GTGATGCCCA AGATCTGCCG TCTCCCTCGT CATGAGTACG GCTCACCAGG CATCCTGGAG TTCTTCCACC ATCAGCTGAA GGACATCATT GAGTACGCTG AGCTCAAGAC CGATGTGTTT CAGAGTCTGA GGGAGGTGGG CAATGCTGTT CTCTTCTGTT TGCTCATCGA ACAAGCTCTG GTGTCTCAGG AAGAAGTTTG TGACTTGCTT CATGCAGCCC CATTCCAGAA CATCCTCCCC AGAGTCTATA TCAAAGAGGG AGAGCGACTG GAGGTGAGGA TGAAGAGGCT GGAGGCAAAG TATGCTCCTC TTCATCTCGT GCCCCTCATT GAGAGACTCG GGACTCCACA GCAAATTGCA ATTGCACGTG AGGGTGACCT GCTGACGAAG GAGCGGCTGT GCTGTGGCCT GTCCATGTTT GAAGTGATCC TGACGCGCAT CCGCAGCTTC CTGCAGGACA ACGTGTGGCG AGGTCCTCCT CCCACCAACG GCGTCATGCA TGTGGATGAG TGCATGGAGT TCCACCGCCT CTGGAGCGCC ATGCAGTTTG TTTACTGCAT TCCTGTGGGC ACACACGAGT TCACTGCAGA GCAGTGTTTC GGTGATGGGC TGAACTGGGC TGGATGTGCC ATTATTGTGC TGTTAGGACA ACAACGCCGC TTTGACCTCT TTGATTTCTG CTACCATTTG CTCAAAGTTC AGAGGCAGGA CGGCAAAGAC GAAATCATTA AGAATGTGCC CCTGAAAAAG ATGGCAGACC GCATCCGGAA GTATCAGATT CTCAACAATG AGATCTTTGC CATCCTCAAC AAGTACATGA AGGCGGTGGA GACGGACAGT TCAACAGTGG AGCACGTTCG CTGTTTCCAG CCTCCTATAC ATCAGTCTCT GGCCACCACA TGTTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.