| Gene Symbol |
skiv2l |
| Entrez Gene ID |
559653 |
| Full Name |
SKI2 homolog, superkiller viralicidic activity 2-like |
| Synonyms |
fb70b07,wu:fb70b07 |
| General protein information |
- Preferred Names
SKI2 homolog, superkiller viralicidic activity 2-like
Names
helicase SKI2W
superkiller viralicidic activity 2 (S. cerevisiae homolog)-like
superkiller viralicidic activity 2-like
|
| Gene Type |
protein-coding |
| Organism |
Danio rerio(zebrafish) |
| Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP003182 |
XP_312880.4 |
| Homo sapiens (human) |
SKIV2L |
NP_008860.4 |
| Danio rerio (zebrafish) |
skiv2l |
NP_001038366.1 |
| Schizosaccharomyces pombe (fission yeast) |
SPCC550.03c |
NP_588095.1 |
| Canis lupus familiaris (dog) |
SKIV2L |
XP_538841.2 |
| Bos taurus (cattle) |
SKIV2L |
XP_003587743.1 |
| Arabidopsis thaliana (thale cress) |
AT3G46960 |
NP_190280.5 |
| Pan troglodytes (chimpanzee) |
SKIV2L |
XP_001160927.2 |
|
SKIV2L |
XP_001106475.2 |
| Rattus norvegicus (Norway rat) |
Skiv2l |
NP_998724.1 |
| Drosophila melanogaster (fruit fly) |
tst |
NP_524465.1 |
| Caenorhabditis elegans (roundworm) |
skih-2 |
NP_502084.2 |
| Saccharomyces cerevisiae (baker's yeast) |
SKI2 |
NP_013502.3 |
| Xenopus tropicalis (tropical clawed frog) |
skiv2l |
XP_004917184.1 |
| Mus musculus (house mouse) |
Skiv2l |
NP_067312.2 |
| Eremothecium gossypii |
AGOS_AER067C |
NP_984927.2 |
| Neurospora crassa |
NCU01857 |
XP_965488.1 |
Related articles in PubMed
RFX transcription factors are essential for hearing in mice.
Elkon R, Milon B, Morrison L, Shah M, Vijayakumar S, Racherla M, Leitch CC, Silipino L, Hadi S, Weiss-Gayet M, Barras E, Schmid CD, Ait-Lounis A, Barnes A, Song Y, Eisenman DJ, Eliyahu E, Frolenkov GI, Strome SE, Durand B, Zaghloul NA, Jones SM, Reith W, Hertzano R
Nature communications68549(2015 Oct)
Hematopoietic gene expression profile in zebrafish kidney marrow.
Song HD, Sun XJ, Deng M, Zhang GW, Zhou Y, Wu XY, Sheng Y, Chen Y, Ruan Z, Jiang CL, Fan HY, Zon LI, Kanki JP, Liu TX, Look AT, Chen Z
Proceedings of the National Academy of Sciences of the United States of America101(46)16240-5(2004 Nov)
Conservation of Mhc class III region synteny between zebrafish and human as determined by radiation hybrid mapping.
S?ltmann H, Sato A, Murray BW, Takezaki N, Geisler R, Rauch GJ, Klein J
Journal of immunology (Baltimore, Md. : 1950)165(12)6984-93(2000 Dec)
GeneRIFs: Gene References Into Functions What's a GeneRIF?
The following skiv2l gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the skiv2l 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 |
ODa03141 |
| Clone ID Related Accession (Same CDS sequence) |
NM_001044901.1
|
| Accession Version |
NM_001044901.1 Latest version! |
Documents for ORF clone product in default vector |
| Sequence Information |
ORF Nucleotide Sequence (Length: 3693bp)
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 |
2018-11-23 |
| Organism |
Danio rerio(zebrafish) |
| Product |
helicase SKI2W |
| Comment |
Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BX537337.9. On Sep 1, 2006 this sequence version replaced XM_683014.1.
##Evidence-Data-START##
RNAseq introns :: mixed/partial sample support SAMEA4476746, SAMEA4476797 [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
| ATGGACAAAA TAGATTTGCC CCCAGTGGGT CCTGATGACT TGCCCCTGTC TCTGCTGGAG
ATGGGCTGTT CTGGGAGATT TGAGCTCATC ACACACACAC TGCCCAAAAA CAAACCCCTG
CCTCCGCACA GCACTCTCCC ACATGGACTG CCTCCTACTT GTCTGGATTT AAAGACAGAG
GTAGAAAAGC GTTTTCTGCG AGATCCTGCT TGGCTCCCGG TACATGATGT AGATGATGCC
TTCAACAAGT TCCTTAAGAT AAGTAAGAGA GAAAAAGAAG TGGACTCTCT CCTGCACTGC
TCTCTGTCTC AACTGCATTC TGGTCTGTCT GTGGTCAGAG ATCCAACCAC CGGCATGCTG
CTGGATTTCA CTGAGGTGTT GTTAGAGGAC ACAGGTTTGT CTGCAAAAAA TTCACTCTCG
TTACAAAGAC AGCCTGGACC TCCGTCAGAG AGTCTGCGAG GGAGCAACAC AAACTATCCA
TTTCTGCCAG CTGGAATGGA AGAACTGACT TTAGAGCAGA TCAAAAACAA GTCAGAGCTG
GAAGAAGACA TTGACTTTGA GAAAGATTTG ATGACAGTTC CTCCTGGGCT GAAGGCTGGT
ATGGACTTCA GTGACAAAGA AGCCAGAAAC ACGAAGAGTG AGGTGAACCT GCTGTCGCTT
CTGTCTACTT TTGATGATGT CCTTGATGCT CCGCCAGAGG ACAAAGAGGG AGTCTCACAA
AAAGAGGAGA TCGTTAAACT TCCCAGAACT AACAGCCTGG AGGATCTGGG CATTAAAGAT
TCGGGCAGCT CGCAGCCTCA AGGGAACACA GGCAGTCTGA CTGAACAAAA GAAGAAAAAC
CTGGAAGAAG AAAAGGGAGA CAATAAAAAA TGGGCCATTC CGGTGGACAT CAGCTCACCG
TGTGCTGACT TCTACAAACG GATCCCTGAT CCAGCGTTTA AGTATCCCTT TGAGCTGGAC
GTGTTTCAGA AGCAGGCTAT TCTCCGTCTG GAAGCTCATG ACTCTGTCTT TGTTGCGGCT
CACACCTCAG CCGGCAAGAC TGTGGTGGCT GAATACGCAA TTGCACTTTC CCAGAAACAC
ATGACCAGGA CCATTTACAC CTCCCCCATT AAGGCCTTGT CCAATCAGAA GTTCCGAGAC
TTCAAGAACA CATTCGGTGA TGTGGGACTT TTGACTGGAG ACGTGCAACT GAACCCAGAA
GGCTCATGTC TCATTATGAC CACTGAGATT TTGAGATCGA TGCTCTACAA TGGCTCGGAG
GTCATCAGAG ATCTAGAATG GGTCATTTTT GATGAGGTTC ACTATATCAA TGATGCAGAG
AGAGGAGTGG TGTGGGAGGA AGTGCTTATC ATGTTGCCGG AGCATGTTAG CATCATCCTG
CTCAGTGCCA CAGTGCCAAA CGCAGTGGAG TTCAGTGAAT GGATCGGGCG CATCAAGAAG
CGACATATTT ACGTGATCAG CACAATTAAG AGGCCTGTTC CTCTAGAGCA CTATCTCTAC
ACAGGCAACA GCACCAAGAC TCAGAAAGAG CTCTTCATGT TGCTGGACGC AACTGGAAAC
TTTCTTACTA AAGGCTACTA CGCTGCAGTG GAAGCCAAGA AGGAGCGCAC TAGTAAACAT
GCACAGTCTT TTGGCACAAA GAACGTATCG CAGCACAACA CAACAGCCAG TCAGAGGCAG
CAGACTCCAG TGGTGGCATT TACATTCTCT AGGACACGAT GTGATGAAAA CGCTCGCTCT
TTGACCTCTC TGGACCTCAC CACATCCATA GAGAAGAGCG AGATCCACTC CTTCCTGCAG
AAGAGCCTGA CCAGACTGAG AGGAGGAGAT CGACAGCTAC CACAGATCCT GCTGATGCGT
GATTTGTTGA AGAGAGGGAT TGGTGTTCAT CACAGCGGCA TCCTGCCAAT CCTGAAGGAA
GTCATTGAAA TGCTCTTCTC CAGAGGTTTA GTGAAGGTTC TGTTTGCTAC AGAGACTTTT
GCCATGGGTG TGAACATGCC TGCCAGAACT GTTGTGTTTG ACAGCATCCG CAAACACGAC
GGCACGGGAT TCAGAAATCT GCTGCCCGGC GAGTACATTC AGATGGCGGG TCGTGCCGGC
AGAAGAGGTT TGGATGCCAC AGGAACTGTT ATCATCCTCT GTAAAGCTGG AGTTCATGAT
ATGGGAGAAC TCCACTCAAT GATGCTGGGG AAGCCGACGG TGCTGCACTC TCAGTTCAGA
CTGACCTACA CCATGATTCT GAATCTGCTG CGTGTGGAGG CCCTGAGGGT CACCGACATG
ATGAAGAGAA GCTTCTCTGA AAACCACAGG GATACACAGG CTCACGAGAA GAGAATAAGT
GAGCTGAGAA ACACGCTGTC TTCTCTTCCT CCGCTGGACA CGGAGGGGCA GTTGTCTGAT
TTACTGTCAT ATTACCACAC AATCACAGAG CTGCACATCA CCACACAGAG CCTGCAGCAA
GCTGTTCTGG AGTCAGTCAA TGGTCTCAAA GCTCTGTCTG TTGGAAGGGT GGTGATCGTG
AACAACAGCC AGCATCACAA CTCTCTGGGA GTCATTCTAC AGGTGTCCAG CGATGCAGTA
AATCGCACCT TCACCGCTCT CATTATCTGT GAGAAGGGTA ACGAGGAGGC GGCCAGTGAT
GAGCAATCTA ATAAAGTTGC ACTTCCCATC TATAGCAAAA CATTGTTTAT TCCTGAGGGA
CCCTGCAGTC ATACTGTGCA GAAACTGAAG TTGCAGGACA TTTCTGCTAT TACAACCAAA
GCACTCAAGG TCATACCAGA GAGAATCATC GACAACTACA ACAAAAGACT ACAGCCACGC
TTCAGGCTTG ATCCACCAGG TCAAGCTATC TCTACAGCAA CCCAGGAGCT CCTTCGATTG
GCTGAGGCAA ATATGGGTGG CATGACCGTC CTTGACCCAG TGAATGACCT TCACCTAAAG
GGTGTTGATG TGGTGGAGGG TGTGATGAGG CAGCGAGTGT TACAGGACTC TCTAAAAGAC
TTCCACTGTA TCCACTCACC CACCTTCTCT GAACAGGAGA GGATGAGTGT ACAGGAAGAG
CTTGATAAGC TTCTGTTCCT GGTGTCTGAT CAGTCATTGA CACTTCTGCC TGAGTACCAT
CAGAGAATCA AGGTGCTGGA AGCGCTGCAG TATGTGGACA GCAGTGGTGC GGTTCAGCTG
AAGGGTCGTG TGGCATGTCA GATCAGCAGT CATGAGCTCT TACTGACTGA ACTCCTGTTT
GAGAACACTT TGAGTCCTCT GGCCCCTGAG GAGAGCGCCG CCCTGCTGTC CTGCCTCGTC
TTCACACAGA ACACCCAGAT AGAGCCACAT ATCACCAACA CACTGCAGGA GGGAATCAAT
CAAGTTCTCG CTGTAGCCCA GCGTATCGGT GACCTGCAGA GGGATTGTGG GATTGCTCAG
ACCGCTGAAG ACTTCGTGGC CCAGTTCAAG TTTGGCCTGA CTGAGGTTGT GTACTGCTGG
GCAAGAGGAA TGCCATTTGC TGAGATAGCC CAGCTGACAG ATGTGCAGGA GGGAACAATC
GTGCGCTGTA TCCAGAGGCT GGACGAGGTC CTGAAGGAAG TCCGACAGGC TGCTCGCATT
GTGGGTGACT CTGTCCTGGG CAGTAAGATG GAAAGAGCCT CTCTGGCCAT ACGCAGAGAC
ATTGTGTTCA CCGCCTCGCT CTACACACAC TGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| RefSeq |
NP_001038366.1 |
| CDS | 12..3704 |
| Translation | |
Target ORF information:
| RefSeq Version | NM_001044901.1 |
| Organism | Danio rerio(zebrafish) |
| Definition | Danio rerio SKI2 homolog, superkiller viralicidic activity 2-like (skiv2l), mRNA. |
Target ORF information:
| Epitope | DYKDDDDK |
| Bacterial selection | AMPR |
| Mammalian selection | NeoR |
| Vector | pcDNA3.1+/C-(K)DYK |
|
 NM_001044901.1 |
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
| ATGGACAAAA TAGATTTGCC CCCAGTGGGT CCTGATGACT TGCCCCTGTC TCTGCTGGAG
ATGGGCTGTT CTGGGAGATT TGAGCTCATC ACACACACAC TGCCCAAAAA CAAACCCCTG
CCTCCGCACA GCACTCTCCC ACATGGACTG CCTCCTACTT GTCTGGATTT AAAGACAGAG
GTAGAAAAGC GTTTTCTGCG AGATCCTGCT TGGCTCCCGG TACATGATGT AGATGATGCC
TTCAACAAGT TCCTTAAGAT AAGTAAGAGA GAAAAAGAAG TGGACTCTCT CCTGCACTGC
TCTCTGTCTC AACTGCATTC TGGTCTGTCT GTGGTCAGAG ATCCAACCAC CGGCATGCTG
CTGGATTTCA CTGAGGTGTT GTTAGAGGAC ACAGGTTTGT CTGCAAAAAA TTCACTCTCG
TTACAAAGAC AGCCTGGACC TCCGTCAGAG AGTCTGCGAG GGAGCAACAC AAACTATCCA
TTTCTGCCAG CTGGAATGGA AGAACTGACT TTAGAGCAGA TCAAAAACAA GTCAGAGCTG
GAAGAAGACA TTGACTTTGA GAAAGATTTG ATGACAGTTC CTCCTGGGCT GAAGGCTGGT
ATGGACTTCA GTGACAAAGA AGCCAGAAAC ACGAAGAGTG AGGTGAACCT GCTGTCGCTT
CTGTCTACTT TTGATGATGT CCTTGATGCT CCGCCAGAGG ACAAAGAGGG AGTCTCACAA
AAAGAGGAGA TCGTTAAACT TCCCAGAACT AACAGCCTGG AGGATCTGGG CATTAAAGAT
TCGGGCAGCT CGCAGCCTCA AGGGAACACA GGCAGTCTGA CTGAACAAAA GAAGAAAAAC
CTGGAAGAAG AAAAGGGAGA CAATAAAAAA TGGGCCATTC CGGTGGACAT CAGCTCACCG
TGTGCTGACT TCTACAAACG GATCCCTGAT CCAGCGTTTA AGTATCCCTT TGAGCTGGAC
GTGTTTCAGA AGCAGGCTAT TCTCCGTCTG GAAGCTCATG ACTCTGTCTT TGTTGCGGCT
CACACCTCAG CCGGCAAGAC TGTGGTGGCT GAATACGCAA TTGCACTTTC CCAGAAACAC
ATGACCAGGA CCATTTACAC CTCCCCCATT AAGGCCTTGT CCAATCAGAA GTTCCGAGAC
TTCAAGAACA CATTCGGTGA TGTGGGACTT TTGACTGGAG ACGTGCAACT GAACCCAGAA
GGCTCATGTC TCATTATGAC CACTGAGATT TTGAGATCGA TGCTCTACAA TGGCTCGGAG
GTCATCAGAG ATCTAGAATG GGTCATTTTT GATGAGGTTC ACTATATCAA TGATGCAGAG
AGAGGAGTGG TGTGGGAGGA AGTGCTTATC ATGTTGCCGG AGCATGTTAG CATCATCCTG
CTCAGTGCCA CAGTGCCAAA CGCAGTGGAG TTCAGTGAAT GGATCGGGCG CATCAAGAAG
CGACATATTT ACGTGATCAG CACAATTAAG AGGCCTGTTC CTCTAGAGCA CTATCTCTAC
ACAGGCAACA GCACCAAGAC TCAGAAAGAG CTCTTCATGT TGCTGGACGC AACTGGAAAC
TTTCTTACTA AAGGCTACTA CGCTGCAGTG GAAGCCAAGA AGGAGCGCAC TAGTAAACAT
GCACAGTCTT TTGGCACAAA GAACGTATCG CAGCACAACA CAACAGCCAG TCAGAGGCAG
CAGACTCCAG TGGTGGCATT TACATTCTCT AGGACACGAT GTGATGAAAA CGCTCGCTCT
TTGACCTCTC TGGACCTCAC CACATCCATA GAGAAGAGCG AGATCCACTC CTTCCTGCAG
AAGAGCCTGA CCAGACTGAG AGGAGGAGAT CGACAGCTAC CACAGATCCT GCTGATGCGT
GATTTGTTGA AGAGAGGGAT TGGTGTTCAT CACAGCGGCA TCCTGCCAAT CCTGAAGGAA
GTCATTGAAA TGCTCTTCTC CAGAGGTTTA GTGAAGGTTC TGTTTGCTAC AGAGACTTTT
GCCATGGGTG TGAACATGCC TGCCAGAACT GTTGTGTTTG ACAGCATCCG CAAACACGAC
GGCACGGGAT TCAGAAATCT GCTGCCCGGC GAGTACATTC AGATGGCGGG TCGTGCCGGC
AGAAGAGGTT TGGATGCCAC AGGAACTGTT ATCATCCTCT GTAAAGCTGG AGTTCATGAT
ATGGGAGAAC TCCACTCAAT GATGCTGGGG AAGCCGACGG TGCTGCACTC TCAGTTCAGA
CTGACCTACA CCATGATTCT GAATCTGCTG CGTGTGGAGG CCCTGAGGGT CACCGACATG
ATGAAGAGAA GCTTCTCTGA AAACCACAGG GATACACAGG CTCACGAGAA GAGAATAAGT
GAGCTGAGAA ACACGCTGTC TTCTCTTCCT CCGCTGGACA CGGAGGGGCA GTTGTCTGAT
TTACTGTCAT ATTACCACAC AATCACAGAG CTGCACATCA CCACACAGAG CCTGCAGCAA
GCTGTTCTGG AGTCAGTCAA TGGTCTCAAA GCTCTGTCTG TTGGAAGGGT GGTGATCGTG
AACAACAGCC AGCATCACAA CTCTCTGGGA GTCATTCTAC AGGTGTCCAG CGATGCAGTA
AATCGCACCT TCACCGCTCT CATTATCTGT GAGAAGGGTA ACGAGGAGGC GGCCAGTGAT
GAGCAATCTA ATAAAGTTGC ACTTCCCATC TATAGCAAAA CATTGTTTAT TCCTGAGGGA
CCCTGCAGTC ATACTGTGCA GAAACTGAAG TTGCAGGACA TTTCTGCTAT TACAACCAAA
GCACTCAAGG TCATACCAGA GAGAATCATC GACAACTACA ACAAAAGACT ACAGCCACGC
TTCAGGCTTG ATCCACCAGG TCAAGCTATC TCTACAGCAA CCCAGGAGCT CCTTCGATTG
GCTGAGGCAA ATATGGGTGG CATGACCGTC CTTGACCCAG TGAATGACCT TCACCTAAAG
GGTGTTGATG TGGTGGAGGG TGTGATGAGG CAGCGAGTGT TACAGGACTC TCTAAAAGAC
TTCCACTGTA TCCACTCACC CACCTTCTCT GAACAGGAGA GGATGAGTGT ACAGGAAGAG
CTTGATAAGC TTCTGTTCCT GGTGTCTGAT CAGTCATTGA CACTTCTGCC TGAGTACCAT
CAGAGAATCA AGGTGCTGGA AGCGCTGCAG TATGTGGACA GCAGTGGTGC GGTTCAGCTG
AAGGGTCGTG TGGCATGTCA GATCAGCAGT CATGAGCTCT TACTGACTGA ACTCCTGTTT
GAGAACACTT TGAGTCCTCT GGCCCCTGAG GAGAGCGCCG CCCTGCTGTC CTGCCTCGTC
TTCACACAGA ACACCCAGAT AGAGCCACAT ATCACCAACA CACTGCAGGA GGGAATCAAT
CAAGTTCTCG CTGTAGCCCA GCGTATCGGT GACCTGCAGA GGGATTGTGG GATTGCTCAG
ACCGCTGAAG ACTTCGTGGC CCAGTTCAAG TTTGGCCTGA CTGAGGTTGT GTACTGCTGG
GCAAGAGGAA TGCCATTTGC TGAGATAGCC CAGCTGACAG ATGTGCAGGA GGGAACAATC
GTGCGCTGTA TCCAGAGGCT GGACGAGGTC CTGAAGGAAG TCCGACAGGC TGCTCGCATT
GTGGGTGACT CTGTCCTGGG CAGTAAGATG GAAAGAGCCT CTCTGGCCAT ACGCAGAGAC
ATTGTGTTCA CCGCCTCGCT CTACACACAC TGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| CloneID |
ODa24146 |
| Clone ID Related Accession (Same CDS sequence) |
XM_005170047.2
, XM_005170047.3
|
| Accession Version |
XM_005170047.2 |
Documents for ORF clone product in default vector |
| Sequence Information |
ORF Nucleotide Sequence (Length: 3750bp)
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 |
helicase SKI2W isoform X1 |
| Comment |
MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007130.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
On Sep 24, 2014 this sequence version replaced XM_005170047.1.
##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
| ATGGACAAAA TAGATTTGCC CCCAGTGGGT CCTGATGACT TGCCCCTGTC TCTGCTGGAG
ATGGGCTGTT CTGGGAGATT TGAGCTCATC ACACACACAC TGCCCAAAAA CAAACCCCTG
CCTCCGCACA GCACTCTCCC ACATGGACTG CCTCCTACTT GTCTGGATTT AAAGACAGAG
GTAGAAAAGC GTTTTCTGCG AGATCCTGCT TGGCTCCCGG TACATGATGT AGATGATGCC
TTCAACAAGT TCCTTAAGAT AAGTAAGAGA GAAAAAGAAG TGGACTCTCT CCTGCACTGC
TCTCTGTCTC AACTGCATTC TGGTCTGTCT GTGGTCAGAG ATCCAACCAC CGGCATGCTG
CTGGATTTCA CTGAGGTGTT GTTAGAGGAC ACAGGTTTGT CTGCAAAAAA TTCACTCTCG
TTACAAAGAC AGCCTGGACC TCCGTCAGAG AGTCTGCGAG GGAGCAACAC AAACTATCCA
TTTCTGCCAG CTGGAATGGA AGAACTGACT TTAGAGCAGA TCAAAAACAA GTCAGAGCTG
GAAGAAGACA TTGACTTTGA GAAAGATTTG ATGACAGTTC CTCCTGGGCT GAAGGCTGGT
ATGGACTTCA GTGACAAAGA AGCCAGAAAC ACGAAGAGTG AGGTGAACCT GCTGTCGCTT
CTGTCTACTT TTGATGATGT CCTTGATGCT CCGCCAGAGG ACAAAGAGGG AGTCTCACAA
AAAGAGGAGA TCGTTAAACT TCCCAGAACT AACAGCCTGG AGGATCTGGG CATTAAAGAT
TCGGGCAGCT CGCAGCCTCA AGGGAACACA GGCAGTCTGA CTGAACAAAA GAAGAAAAAC
CTGGAAGAAG AAAAGGGAGA CAATAAAAAA TGGGCCATTC CGGTGGACAT CAGCTCACCG
TGTGCTGACT TCTACAAACG GATCCCTGAT CCAGCGTTTA AGTATCCCTT TGAGCTGGAC
GTGTTTCAGA AGCAGGCTAT TCTCCGTCTG GAAGCTCATG ACTCTGTCTT TGTTGCGGCT
CACACCTCAG CCGGCAAGAC TGTGGTGGCT GAATACGCAA TTGCACTTTC CCAGAAACAC
ATGACCAGGA CCATTTACAC CTCCCCCATT AAGGCCTTGT CCAATCAGAA GTTCCGAGAC
TTCAAGAACA CATTCGGTGA TGTGGGACTT TTGACTGGAG ACGTGCAACT GAACCCAGAA
GGCTCATGTC TCATTATGAC CACTGAGATT TTGAGATCGA TGCTCTACAA TGGCTCGGAG
GTCATCAGAG ATCTAGAATG GGTCATTTTT GATGAGGTTC ACTATATCAA TGATGCAGAG
AGAGGAGTGG TGTGGGAGGA AGTGCTTATC ATGTTGCCGG AGCATGTTAG CATCATCCTG
CTCAGTGCCA CAGTGCCAAA CGCAGTGGAG TTCAGTGAAT GGATCGGGCG CATCAAGAAG
CGACATATTT ACGTGATCAG CACAATTAAG AGGCCTGTTC CTCTAGAGCA CTATCTCTAC
ACAGGCAACA GCACCAAGAC TCAGAAAGAG CTCTTCATGT TGCTGGACGC AACTGGAAAC
TTTCTTACTA AAGGCTACTA CGCTGCAGTG GAAGCCAAGA AGGAGCGCAC TAGTAAACAT
GCACAGTCTT TTGGCACAAA GAACGTATCG CAGCACAACA CAACAGCCAG TCAGGATCGT
GCGGTGTGGC AAACGCTGTT AAATTATCTG TCTCAGAGGC AGCAGACTCC AGTGGTGGCA
TTTACATTCT CTAGGACACG ATGTGATGAA AACGCTCGCT CTTTGACCTC TCTGGACCTC
ACCACATCCA TAGAGAAGAG CGAGATCCAC TCCTTCCTGC AGAAGAGCCT GACCAGACTG
AGAGGAGGAG ATCGACAGCT ACCACAGATC CTGCTGATGC GTGATTTGTT GAAGAGAGGG
ATTGGTGTTC ATCACAGCGG CATCCTGCCA ATCCTGAAGG AAGTCATTGA AATGCTCTTC
TCCAGAGGTT TAGTGAAGGT TCTGTTTGCT ACAGAGACTT TTGCCATGGG TGTGAACATG
CCTGCCAGAA CTGTTGTGTT TGACAGCATC CGCAAACACG ACGGCACGGG ATTCAGAAAT
CTGCTGCCCG GCGAGTACAT TCAGATGGCG GGTCGTGCCG GCAGAAGAGG TTTGGATGCC
ACAGGAACTG TTATCATCCT CTGTAAAGCT GGAGTTCATG ATATGGGAGA ACTCCACTCA
ATGATGCTGG GGAAGCCGAC GGTGCTGCAC TCTCAGTTCA GACTGACCTA CACCATGATT
CTGAATCTGC TGCGTGTGGA GGCCCTGAGG GTCACCGACA TGATGAAGAG AAGCTTCTCT
GAAAACCACA GGGATACACA GGCTCACGAG AAGAGAATAA GTGAGCTGAG AAACACGCTG
TCTTCTCTTC CTCCGCTGGA CACGGAGGGG CAGTTGTCTG ATTTACTGTC ATATTACCAC
ACAATCACAG AGCTGCACAT CACCACACAG AGCCTGCAGC AAGCTGTTCT GGAGTCAGTC
AATGGTCTCA AAGCTCTGTC TGTTGGAAGG GTGGTGATCG TGAACAACAG CCAGCATCAC
AACTCTCTGG GAGTCATTCT ACAGGTGTCC AGCGATGCAG TAAATCGCAC CTTCACCGCT
CTCATTATCT GTGAGAAGGG TAACGAGGAG GCGGCCAGTG ATGAGCAATC TAATAAAGTT
GCACTTCCCA TCTATAGCAA AACATTGTTT ATTCCTGAGG GACCCTGCAG TCATACTGTG
CAGAAACTGA AGTTGCAGGA CATTTCTGCT ATTACAACCA AAGCACTCAA GGTCATACCA
GAGAGAATCA TCGACAACTA CAACAAAAGA CTACAGCCAC GCTTCAGGCT TGATCCACCA
GGTCAAGCTA TCTCTACAGC AACCCAGGAG CTCCTTCGAT TGGCTGAGGC AAATATGGGT
GGCATGACCG TCCTTGACCC AGTGAATGAC CTTCACCTAA AGGGTGTTGA TGTGGTGGAG
GGTGTGATGA GGCAGCGAGT GTTACAGGAC TCTCTAAAAG ACTTCCACTG TATCCACTCA
CCCACCTTCT CTGAACAGTT TACACGTGTG CAGGAGAGGA TGAGTGTACA GGAAGAGCTT
GATAAGCTTC TGTTCCTGGT GTCTGATCAG TCATTGACAC TTCTGCCTGA GTACCATCAG
AGAATCAAGG TGCTGGAAGC GCTGCAGTAT GTGGACAGCA GTGGTGCGGT TCAGCTGAAG
GGTCGTGTGG CATGTCAGAT CAGCAGTCAT GAGCTCTTAC TGACTGAACT CCTGTTTGAG
AACACTTTGA GTCCTCTGGC CCCTGAGGAG AGCGCCGCCC TGCTGTCCTG CCTCGTCTTC
ACACAGAACA CCCAGATAGA GCCACATATC ACCAACACAC TGCAGGAGGG AATCAATCAA
GTTCTCGCTG TAGCCCAGCG TATCGGTGAC CTGCAGAGGG ATTGTGGGAT TGCTCAGACC
GCTGAAGACT TCGTGGCCCA GTTCAAGTTT GGCCTGACTG AGGTTGTGTA CTGCTGGGCA
AGAGGAATGC CATTTGCTGA GATAGCCCAG CTGACAGATG TGCAGGAGGG AACAATCGTG
CGCTGTATCC AGAGGCTGGA CGAGGTCCTG AAGGAAGTCC GACAGGCTGC TCGCATTGTG
GGTGACTCTG TCCTGGGCAG TAAGATGGAA AGAGCCTCTC TGGCCATACG CAGAGACATT
GTGTTCACCG CCTCGCTCTA CACACACTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| RefSeq |
XP_005170104.1 |
| CDS | 77..3826 |
| Translation | |
Target ORF information:
| RefSeq Version | XM_005170047.2 |
| Organism | Danio rerio(Zebrafish) |
| Definition | Danio rerio SKI2 homolog, superkiller viralicidic activity 2-like (skiv2l), transcript variant X1, mRNA. |
Target ORF information:
| Epitope | DYKDDDDK |
| Bacterial selection | AMPR |
| Mammalian selection | NeoR |
| Vector | pcDNA3.1+/C-(K)DYK |
|
XM_005170047.2 |
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
| ATGGACAAAA TAGATTTGCC CCCAGTGGGT CCTGATGACT TGCCCCTGTC TCTGCTGGAG
ATGGGCTGTT CTGGGAGATT TGAGCTCATC ACACACACAC TGCCCAAAAA CAAACCCCTG
CCTCCGCACA GCACTCTCCC ACATGGACTG CCTCCTACTT GTCTGGATTT AAAGACAGAG
GTAGAAAAGC GTTTTCTGCG AGATCCTGCT TGGCTCCCGG TACATGATGT AGATGATGCC
TTCAACAAGT TCCTTAAGAT AAGTAAGAGA GAAAAAGAAG TGGACTCTCT CCTGCACTGC
TCTCTGTCTC AACTGCATTC TGGTCTGTCT GTGGTCAGAG ATCCAACCAC CGGCATGCTG
CTGGATTTCA CTGAGGTGTT GTTAGAGGAC ACAGGTTTGT CTGCAAAAAA TTCACTCTCG
TTACAAAGAC AGCCTGGACC TCCGTCAGAG AGTCTGCGAG GGAGCAACAC AAACTATCCA
TTTCTGCCAG CTGGAATGGA AGAACTGACT TTAGAGCAGA TCAAAAACAA GTCAGAGCTG
GAAGAAGACA TTGACTTTGA GAAAGATTTG ATGACAGTTC CTCCTGGGCT GAAGGCTGGT
ATGGACTTCA GTGACAAAGA AGCCAGAAAC ACGAAGAGTG AGGTGAACCT GCTGTCGCTT
CTGTCTACTT TTGATGATGT CCTTGATGCT CCGCCAGAGG ACAAAGAGGG AGTCTCACAA
AAAGAGGAGA TCGTTAAACT TCCCAGAACT AACAGCCTGG AGGATCTGGG CATTAAAGAT
TCGGGCAGCT CGCAGCCTCA AGGGAACACA GGCAGTCTGA CTGAACAAAA GAAGAAAAAC
CTGGAAGAAG AAAAGGGAGA CAATAAAAAA TGGGCCATTC CGGTGGACAT CAGCTCACCG
TGTGCTGACT TCTACAAACG GATCCCTGAT CCAGCGTTTA AGTATCCCTT TGAGCTGGAC
GTGTTTCAGA AGCAGGCTAT TCTCCGTCTG GAAGCTCATG ACTCTGTCTT TGTTGCGGCT
CACACCTCAG CCGGCAAGAC TGTGGTGGCT GAATACGCAA TTGCACTTTC CCAGAAACAC
ATGACCAGGA CCATTTACAC CTCCCCCATT AAGGCCTTGT CCAATCAGAA GTTCCGAGAC
TTCAAGAACA CATTCGGTGA TGTGGGACTT TTGACTGGAG ACGTGCAACT GAACCCAGAA
GGCTCATGTC TCATTATGAC CACTGAGATT TTGAGATCGA TGCTCTACAA TGGCTCGGAG
GTCATCAGAG ATCTAGAATG GGTCATTTTT GATGAGGTTC ACTATATCAA TGATGCAGAG
AGAGGAGTGG TGTGGGAGGA AGTGCTTATC ATGTTGCCGG AGCATGTTAG CATCATCCTG
CTCAGTGCCA CAGTGCCAAA CGCAGTGGAG TTCAGTGAAT GGATCGGGCG CATCAAGAAG
CGACATATTT ACGTGATCAG CACAATTAAG AGGCCTGTTC CTCTAGAGCA CTATCTCTAC
ACAGGCAACA GCACCAAGAC TCAGAAAGAG CTCTTCATGT TGCTGGACGC AACTGGAAAC
TTTCTTACTA AAGGCTACTA CGCTGCAGTG GAAGCCAAGA AGGAGCGCAC TAGTAAACAT
GCACAGTCTT TTGGCACAAA GAACGTATCG CAGCACAACA CAACAGCCAG TCAGGATCGT
GCGGTGTGGC AAACGCTGTT AAATTATCTG TCTCAGAGGC AGCAGACTCC AGTGGTGGCA
TTTACATTCT CTAGGACACG ATGTGATGAA AACGCTCGCT CTTTGACCTC TCTGGACCTC
ACCACATCCA TAGAGAAGAG CGAGATCCAC TCCTTCCTGC AGAAGAGCCT GACCAGACTG
AGAGGAGGAG ATCGACAGCT ACCACAGATC CTGCTGATGC GTGATTTGTT GAAGAGAGGG
ATTGGTGTTC ATCACAGCGG CATCCTGCCA ATCCTGAAGG AAGTCATTGA AATGCTCTTC
TCCAGAGGTT TAGTGAAGGT TCTGTTTGCT ACAGAGACTT TTGCCATGGG TGTGAACATG
CCTGCCAGAA CTGTTGTGTT TGACAGCATC CGCAAACACG ACGGCACGGG ATTCAGAAAT
CTGCTGCCCG GCGAGTACAT TCAGATGGCG GGTCGTGCCG GCAGAAGAGG TTTGGATGCC
ACAGGAACTG TTATCATCCT CTGTAAAGCT GGAGTTCATG ATATGGGAGA ACTCCACTCA
ATGATGCTGG GGAAGCCGAC GGTGCTGCAC TCTCAGTTCA GACTGACCTA CACCATGATT
CTGAATCTGC TGCGTGTGGA GGCCCTGAGG GTCACCGACA TGATGAAGAG AAGCTTCTCT
GAAAACCACA GGGATACACA GGCTCACGAG AAGAGAATAA GTGAGCTGAG AAACACGCTG
TCTTCTCTTC CTCCGCTGGA CACGGAGGGG CAGTTGTCTG ATTTACTGTC ATATTACCAC
ACAATCACAG AGCTGCACAT CACCACACAG AGCCTGCAGC AAGCTGTTCT GGAGTCAGTC
AATGGTCTCA AAGCTCTGTC TGTTGGAAGG GTGGTGATCG TGAACAACAG CCAGCATCAC
AACTCTCTGG GAGTCATTCT ACAGGTGTCC AGCGATGCAG TAAATCGCAC CTTCACCGCT
CTCATTATCT GTGAGAAGGG TAACGAGGAG GCGGCCAGTG ATGAGCAATC TAATAAAGTT
GCACTTCCCA TCTATAGCAA AACATTGTTT ATTCCTGAGG GACCCTGCAG TCATACTGTG
CAGAAACTGA AGTTGCAGGA CATTTCTGCT ATTACAACCA AAGCACTCAA GGTCATACCA
GAGAGAATCA TCGACAACTA CAACAAAAGA CTACAGCCAC GCTTCAGGCT TGATCCACCA
GGTCAAGCTA TCTCTACAGC AACCCAGGAG CTCCTTCGAT TGGCTGAGGC AAATATGGGT
GGCATGACCG TCCTTGACCC AGTGAATGAC CTTCACCTAA AGGGTGTTGA TGTGGTGGAG
GGTGTGATGA GGCAGCGAGT GTTACAGGAC TCTCTAAAAG ACTTCCACTG TATCCACTCA
CCCACCTTCT CTGAACAGTT TACACGTGTG CAGGAGAGGA TGAGTGTACA GGAAGAGCTT
GATAAGCTTC TGTTCCTGGT GTCTGATCAG TCATTGACAC TTCTGCCTGA GTACCATCAG
AGAATCAAGG TGCTGGAAGC GCTGCAGTAT GTGGACAGCA GTGGTGCGGT TCAGCTGAAG
GGTCGTGTGG CATGTCAGAT CAGCAGTCAT GAGCTCTTAC TGACTGAACT CCTGTTTGAG
AACACTTTGA GTCCTCTGGC CCCTGAGGAG AGCGCCGCCC TGCTGTCCTG CCTCGTCTTC
ACACAGAACA CCCAGATAGA GCCACATATC ACCAACACAC TGCAGGAGGG AATCAATCAA
GTTCTCGCTG TAGCCCAGCG TATCGGTGAC CTGCAGAGGG ATTGTGGGAT TGCTCAGACC
GCTGAAGACT TCGTGGCCCA GTTCAAGTTT GGCCTGACTG AGGTTGTGTA CTGCTGGGCA
AGAGGAATGC CATTTGCTGA GATAGCCCAG CTGACAGATG TGCAGGAGGG AACAATCGTG
CGCTGTATCC AGAGGCTGGA CGAGGTCCTG AAGGAAGTCC GACAGGCTGC TCGCATTGTG
GGTGACTCTG TCCTGGGCAG TAAGATGGAA AGAGCCTCTC TGGCCATACG CAGAGACATT
GTGTTCACCG CCTCGCTCTA CACACACTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| CloneID |
ODa24146 |
| Clone ID Related Accession (Same CDS sequence) |
XM_005170047.2
, XM_005170047.3
|
| Accession Version |
XM_005170047.3 Latest version! |
Documents for ORF clone product in default vector |
| Sequence Information |
ORF Nucleotide Sequence (Length: 3750bp)
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 |
helicase SKI2W isoform X1 |
| Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007130.7) 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_005170047.2.
##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
| ATGGACAAAA TAGATTTGCC CCCAGTGGGT CCTGATGACT TGCCCCTGTC TCTGCTGGAG
ATGGGCTGTT CTGGGAGATT TGAGCTCATC ACACACACAC TGCCCAAAAA CAAACCCCTG
CCTCCGCACA GCACTCTCCC ACATGGACTG CCTCCTACTT GTCTGGATTT AAAGACAGAG
GTAGAAAAGC GTTTTCTGCG AGATCCTGCT TGGCTCCCGG TACATGATGT AGATGATGCC
TTCAACAAGT TCCTTAAGAT AAGTAAGAGA GAAAAAGAAG TGGACTCTCT CCTGCACTGC
TCTCTGTCTC AACTGCATTC TGGTCTGTCT GTGGTCAGAG ATCCAACCAC CGGCATGCTG
CTGGATTTCA CTGAGGTGTT GTTAGAGGAC ACAGGTTTGT CTGCAAAAAA TTCACTCTCG
TTACAAAGAC AGCCTGGACC TCCGTCAGAG AGTCTGCGAG GGAGCAACAC AAACTATCCA
TTTCTGCCAG CTGGAATGGA AGAACTGACT TTAGAGCAGA TCAAAAACAA GTCAGAGCTG
GAAGAAGACA TTGACTTTGA GAAAGATTTG ATGACAGTTC CTCCTGGGCT GAAGGCTGGT
ATGGACTTCA GTGACAAAGA AGCCAGAAAC ACGAAGAGTG AGGTGAACCT GCTGTCGCTT
CTGTCTACTT TTGATGATGT CCTTGATGCT CCGCCAGAGG ACAAAGAGGG AGTCTCACAA
AAAGAGGAGA TCGTTAAACT TCCCAGAACT AACAGCCTGG AGGATCTGGG CATTAAAGAT
TCGGGCAGCT CGCAGCCTCA AGGGAACACA GGCAGTCTGA CTGAACAAAA GAAGAAAAAC
CTGGAAGAAG AAAAGGGAGA CAATAAAAAA TGGGCCATTC CGGTGGACAT CAGCTCACCG
TGTGCTGACT TCTACAAACG GATCCCTGAT CCAGCGTTTA AGTATCCCTT TGAGCTGGAC
GTGTTTCAGA AGCAGGCTAT TCTCCGTCTG GAAGCTCATG ACTCTGTCTT TGTTGCGGCT
CACACCTCAG CCGGCAAGAC TGTGGTGGCT GAATACGCAA TTGCACTTTC CCAGAAACAC
ATGACCAGGA CCATTTACAC CTCCCCCATT AAGGCCTTGT CCAATCAGAA GTTCCGAGAC
TTCAAGAACA CATTCGGTGA TGTGGGACTT TTGACTGGAG ACGTGCAACT GAACCCAGAA
GGCTCATGTC TCATTATGAC CACTGAGATT TTGAGATCGA TGCTCTACAA TGGCTCGGAG
GTCATCAGAG ATCTAGAATG GGTCATTTTT GATGAGGTTC ACTATATCAA TGATGCAGAG
AGAGGAGTGG TGTGGGAGGA AGTGCTTATC ATGTTGCCGG AGCATGTTAG CATCATCCTG
CTCAGTGCCA CAGTGCCAAA CGCAGTGGAG TTCAGTGAAT GGATCGGGCG CATCAAGAAG
CGACATATTT ACGTGATCAG CACAATTAAG AGGCCTGTTC CTCTAGAGCA CTATCTCTAC
ACAGGCAACA GCACCAAGAC TCAGAAAGAG CTCTTCATGT TGCTGGACGC AACTGGAAAC
TTTCTTACTA AAGGCTACTA CGCTGCAGTG GAAGCCAAGA AGGAGCGCAC TAGTAAACAT
GCACAGTCTT TTGGCACAAA GAACGTATCG CAGCACAACA CAACAGCCAG TCAGGATCGT
GCGGTGTGGC AAACGCTGTT AAATTATCTG TCTCAGAGGC AGCAGACTCC AGTGGTGGCA
TTTACATTCT CTAGGACACG ATGTGATGAA AACGCTCGCT CTTTGACCTC TCTGGACCTC
ACCACATCCA TAGAGAAGAG CGAGATCCAC TCCTTCCTGC AGAAGAGCCT GACCAGACTG
AGAGGAGGAG ATCGACAGCT ACCACAGATC CTGCTGATGC GTGATTTGTT GAAGAGAGGG
ATTGGTGTTC ATCACAGCGG CATCCTGCCA ATCCTGAAGG AAGTCATTGA AATGCTCTTC
TCCAGAGGTT TAGTGAAGGT TCTGTTTGCT ACAGAGACTT TTGCCATGGG TGTGAACATG
CCTGCCAGAA CTGTTGTGTT TGACAGCATC CGCAAACACG ACGGCACGGG ATTCAGAAAT
CTGCTGCCCG GCGAGTACAT TCAGATGGCG GGTCGTGCCG GCAGAAGAGG TTTGGATGCC
ACAGGAACTG TTATCATCCT CTGTAAAGCT GGAGTTCATG ATATGGGAGA ACTCCACTCA
ATGATGCTGG GGAAGCCGAC GGTGCTGCAC TCTCAGTTCA GACTGACCTA CACCATGATT
CTGAATCTGC TGCGTGTGGA GGCCCTGAGG GTCACCGACA TGATGAAGAG AAGCTTCTCT
GAAAACCACA GGGATACACA GGCTCACGAG AAGAGAATAA GTGAGCTGAG AAACACGCTG
TCTTCTCTTC CTCCGCTGGA CACGGAGGGG CAGTTGTCTG ATTTACTGTC ATATTACCAC
ACAATCACAG AGCTGCACAT CACCACACAG AGCCTGCAGC AAGCTGTTCT GGAGTCAGTC
AATGGTCTCA AAGCTCTGTC TGTTGGAAGG GTGGTGATCG TGAACAACAG CCAGCATCAC
AACTCTCTGG GAGTCATTCT ACAGGTGTCC AGCGATGCAG TAAATCGCAC CTTCACCGCT
CTCATTATCT GTGAGAAGGG TAACGAGGAG GCGGCCAGTG ATGAGCAATC TAATAAAGTT
GCACTTCCCA TCTATAGCAA AACATTGTTT ATTCCTGAGG GACCCTGCAG TCATACTGTG
CAGAAACTGA AGTTGCAGGA CATTTCTGCT ATTACAACCA AAGCACTCAA GGTCATACCA
GAGAGAATCA TCGACAACTA CAACAAAAGA CTACAGCCAC GCTTCAGGCT TGATCCACCA
GGTCAAGCTA TCTCTACAGC AACCCAGGAG CTCCTTCGAT TGGCTGAGGC AAATATGGGT
GGCATGACCG TCCTTGACCC AGTGAATGAC CTTCACCTAA AGGGTGTTGA TGTGGTGGAG
GGTGTGATGA GGCAGCGAGT GTTACAGGAC TCTCTAAAAG ACTTCCACTG TATCCACTCA
CCCACCTTCT CTGAACAGTT TACACGTGTG CAGGAGAGGA TGAGTGTACA GGAAGAGCTT
GATAAGCTTC TGTTCCTGGT GTCTGATCAG TCATTGACAC TTCTGCCTGA GTACCATCAG
AGAATCAAGG TGCTGGAAGC GCTGCAGTAT GTGGACAGCA GTGGTGCGGT TCAGCTGAAG
GGTCGTGTGG CATGTCAGAT CAGCAGTCAT GAGCTCTTAC TGACTGAACT CCTGTTTGAG
AACACTTTGA GTCCTCTGGC CCCTGAGGAG AGCGCCGCCC TGCTGTCCTG CCTCGTCTTC
ACACAGAACA CCCAGATAGA GCCACATATC ACCAACACAC TGCAGGAGGG AATCAATCAA
GTTCTCGCTG TAGCCCAGCG TATCGGTGAC CTGCAGAGGG ATTGTGGGAT TGCTCAGACC
GCTGAAGACT TCGTGGCCCA GTTCAAGTTT GGCCTGACTG AGGTTGTGTA CTGCTGGGCA
AGAGGAATGC CATTTGCTGA GATAGCCCAG CTGACAGATG TGCAGGAGGG AACAATCGTG
CGCTGTATCC AGAGGCTGGA CGAGGTCCTG AAGGAAGTCC GACAGGCTGC TCGCATTGTG
GGTGACTCTG TCCTGGGCAG TAAGATGGAA AGAGCCTCTC TGGCCATACG CAGAGACATT
GTGTTCACCG CCTCGCTCTA CACACACTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| RefSeq |
XP_005170104.1 |
| CDS | 77..3826 |
| Translation | |
Target ORF information:
| RefSeq Version | XM_005170047.3 |
| Organism | Danio rerio(zebrafish) |
| Definition | Danio rerio SKI2 homolog, superkiller viralicidic activity 2-like (skiv2l), transcript variant X1, mRNA. |
Target ORF information:
| Epitope | DYKDDDDK |
| Bacterial selection | AMPR |
| Mammalian selection | NeoR |
| Vector | pcDNA3.1+/C-(K)DYK |
|
XM_005170047.3 |
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
| ATGGACAAAA TAGATTTGCC CCCAGTGGGT CCTGATGACT TGCCCCTGTC TCTGCTGGAG
ATGGGCTGTT CTGGGAGATT TGAGCTCATC ACACACACAC TGCCCAAAAA CAAACCCCTG
CCTCCGCACA GCACTCTCCC ACATGGACTG CCTCCTACTT GTCTGGATTT AAAGACAGAG
GTAGAAAAGC GTTTTCTGCG AGATCCTGCT TGGCTCCCGG TACATGATGT AGATGATGCC
TTCAACAAGT TCCTTAAGAT AAGTAAGAGA GAAAAAGAAG TGGACTCTCT CCTGCACTGC
TCTCTGTCTC AACTGCATTC TGGTCTGTCT GTGGTCAGAG ATCCAACCAC CGGCATGCTG
CTGGATTTCA CTGAGGTGTT GTTAGAGGAC ACAGGTTTGT CTGCAAAAAA TTCACTCTCG
TTACAAAGAC AGCCTGGACC TCCGTCAGAG AGTCTGCGAG GGAGCAACAC AAACTATCCA
TTTCTGCCAG CTGGAATGGA AGAACTGACT TTAGAGCAGA TCAAAAACAA GTCAGAGCTG
GAAGAAGACA TTGACTTTGA GAAAGATTTG ATGACAGTTC CTCCTGGGCT GAAGGCTGGT
ATGGACTTCA GTGACAAAGA AGCCAGAAAC ACGAAGAGTG AGGTGAACCT GCTGTCGCTT
CTGTCTACTT TTGATGATGT CCTTGATGCT CCGCCAGAGG ACAAAGAGGG AGTCTCACAA
AAAGAGGAGA TCGTTAAACT TCCCAGAACT AACAGCCTGG AGGATCTGGG CATTAAAGAT
TCGGGCAGCT CGCAGCCTCA AGGGAACACA GGCAGTCTGA CTGAACAAAA GAAGAAAAAC
CTGGAAGAAG AAAAGGGAGA CAATAAAAAA TGGGCCATTC CGGTGGACAT CAGCTCACCG
TGTGCTGACT TCTACAAACG GATCCCTGAT CCAGCGTTTA AGTATCCCTT TGAGCTGGAC
GTGTTTCAGA AGCAGGCTAT TCTCCGTCTG GAAGCTCATG ACTCTGTCTT TGTTGCGGCT
CACACCTCAG CCGGCAAGAC TGTGGTGGCT GAATACGCAA TTGCACTTTC CCAGAAACAC
ATGACCAGGA CCATTTACAC CTCCCCCATT AAGGCCTTGT CCAATCAGAA GTTCCGAGAC
TTCAAGAACA CATTCGGTGA TGTGGGACTT TTGACTGGAG ACGTGCAACT GAACCCAGAA
GGCTCATGTC TCATTATGAC CACTGAGATT TTGAGATCGA TGCTCTACAA TGGCTCGGAG
GTCATCAGAG ATCTAGAATG GGTCATTTTT GATGAGGTTC ACTATATCAA TGATGCAGAG
AGAGGAGTGG TGTGGGAGGA AGTGCTTATC ATGTTGCCGG AGCATGTTAG CATCATCCTG
CTCAGTGCCA CAGTGCCAAA CGCAGTGGAG TTCAGTGAAT GGATCGGGCG CATCAAGAAG
CGACATATTT ACGTGATCAG CACAATTAAG AGGCCTGTTC CTCTAGAGCA CTATCTCTAC
ACAGGCAACA GCACCAAGAC TCAGAAAGAG CTCTTCATGT TGCTGGACGC AACTGGAAAC
TTTCTTACTA AAGGCTACTA CGCTGCAGTG GAAGCCAAGA AGGAGCGCAC TAGTAAACAT
GCACAGTCTT TTGGCACAAA GAACGTATCG CAGCACAACA CAACAGCCAG TCAGGATCGT
GCGGTGTGGC AAACGCTGTT AAATTATCTG TCTCAGAGGC AGCAGACTCC AGTGGTGGCA
TTTACATTCT CTAGGACACG ATGTGATGAA AACGCTCGCT CTTTGACCTC TCTGGACCTC
ACCACATCCA TAGAGAAGAG CGAGATCCAC TCCTTCCTGC AGAAGAGCCT GACCAGACTG
AGAGGAGGAG ATCGACAGCT ACCACAGATC CTGCTGATGC GTGATTTGTT GAAGAGAGGG
ATTGGTGTTC ATCACAGCGG CATCCTGCCA ATCCTGAAGG AAGTCATTGA AATGCTCTTC
TCCAGAGGTT TAGTGAAGGT TCTGTTTGCT ACAGAGACTT TTGCCATGGG TGTGAACATG
CCTGCCAGAA CTGTTGTGTT TGACAGCATC CGCAAACACG ACGGCACGGG ATTCAGAAAT
CTGCTGCCCG GCGAGTACAT TCAGATGGCG GGTCGTGCCG GCAGAAGAGG TTTGGATGCC
ACAGGAACTG TTATCATCCT CTGTAAAGCT GGAGTTCATG ATATGGGAGA ACTCCACTCA
ATGATGCTGG GGAAGCCGAC GGTGCTGCAC TCTCAGTTCA GACTGACCTA CACCATGATT
CTGAATCTGC TGCGTGTGGA GGCCCTGAGG GTCACCGACA TGATGAAGAG AAGCTTCTCT
GAAAACCACA GGGATACACA GGCTCACGAG AAGAGAATAA GTGAGCTGAG AAACACGCTG
TCTTCTCTTC CTCCGCTGGA CACGGAGGGG CAGTTGTCTG ATTTACTGTC ATATTACCAC
ACAATCACAG AGCTGCACAT CACCACACAG AGCCTGCAGC AAGCTGTTCT GGAGTCAGTC
AATGGTCTCA AAGCTCTGTC TGTTGGAAGG GTGGTGATCG TGAACAACAG CCAGCATCAC
AACTCTCTGG GAGTCATTCT ACAGGTGTCC AGCGATGCAG TAAATCGCAC CTTCACCGCT
CTCATTATCT GTGAGAAGGG TAACGAGGAG GCGGCCAGTG ATGAGCAATC TAATAAAGTT
GCACTTCCCA TCTATAGCAA AACATTGTTT ATTCCTGAGG GACCCTGCAG TCATACTGTG
CAGAAACTGA AGTTGCAGGA CATTTCTGCT ATTACAACCA AAGCACTCAA GGTCATACCA
GAGAGAATCA TCGACAACTA CAACAAAAGA CTACAGCCAC GCTTCAGGCT TGATCCACCA
GGTCAAGCTA TCTCTACAGC AACCCAGGAG CTCCTTCGAT TGGCTGAGGC AAATATGGGT
GGCATGACCG TCCTTGACCC AGTGAATGAC CTTCACCTAA AGGGTGTTGA TGTGGTGGAG
GGTGTGATGA GGCAGCGAGT GTTACAGGAC TCTCTAAAAG ACTTCCACTG TATCCACTCA
CCCACCTTCT CTGAACAGTT TACACGTGTG CAGGAGAGGA TGAGTGTACA GGAAGAGCTT
GATAAGCTTC TGTTCCTGGT GTCTGATCAG TCATTGACAC TTCTGCCTGA GTACCATCAG
AGAATCAAGG TGCTGGAAGC GCTGCAGTAT GTGGACAGCA GTGGTGCGGT TCAGCTGAAG
GGTCGTGTGG CATGTCAGAT CAGCAGTCAT GAGCTCTTAC TGACTGAACT CCTGTTTGAG
AACACTTTGA GTCCTCTGGC CCCTGAGGAG AGCGCCGCCC TGCTGTCCTG CCTCGTCTTC
ACACAGAACA CCCAGATAGA GCCACATATC ACCAACACAC TGCAGGAGGG AATCAATCAA
GTTCTCGCTG TAGCCCAGCG TATCGGTGAC CTGCAGAGGG ATTGTGGGAT TGCTCAGACC
GCTGAAGACT TCGTGGCCCA GTTCAAGTTT GGCCTGACTG AGGTTGTGTA CTGCTGGGCA
AGAGGAATGC CATTTGCTGA GATAGCCCAG CTGACAGATG TGCAGGAGGG AACAATCGTG
CGCTGTATCC AGAGGCTGGA CGAGGTCCTG AAGGAAGTCC GACAGGCTGC TCGCATTGTG
GGTGACTCTG TCCTGGGCAG TAAGATGGAA AGAGCCTCTC TGGCCATACG CAGAGACATT
GTGTTCACCG CCTCGCTCTA CACACACTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
 |
RFX transcription factors are essential for hearing in mice.
Nature communications68549(2015 Oct)
Elkon R,Milon B,Morrison L,Shah M,Vijayakumar S,Racherla M,Leitch CC,Silipino L,Hadi S,Weiss-Gayet M,Barras E,Schmid CD,Ait-Lounis A,Barnes A,Song Y,Eisenman DJ,Eliyahu E,Frolenkov GI,Strome SE,Durand B,Zaghloul NA,Jones SM,Reith W,Hertzano R |
|
Hematopoietic gene expression profile in zebrafish kidney marrow.
Proceedings of the National Academy of Sciences of the United States of America101(46)16240-5(2004 Nov)
Song HD,Sun XJ,Deng M,Zhang GW,Zhou Y,Wu XY,Sheng Y,Chen Y,Ruan Z,Jiang CL,Fan HY,Zon LI,Kanki JP,Liu TX,Look AT,Chen Z |
