Gene Symbol |
nacad |
Entrez Gene ID |
100127557 |
Full Name |
nascent polypeptide-associated complex alpha subunit |
Synonyms |
naca1 |
General protein information |
- Preferred Names
nascent polypeptide-associated complex alpha subunit
Names
NAC-alpha domain-containing protein 1
|
Gene Type |
protein-coding |
Organism |
Xenopus tropicalis(tropical clawed frog) |
mRNA and Protein(s)
mRNA |
Protein |
Name |
XM_012964219.2 |
XP_012819673.1 |
NAC-alpha domain-containing protein 1 isoform X1 |
XM_012964219.1 |
XP_012819673.1 |
NAC-alpha domain-containing protein 1 isoform X1 |
NM_001112928.1 |
NP_001106399.1 |
NAC-alpha domain-containing protein 1 |
Oryza sativa (rice) |
Os05g0373700 |
NP_001055369.2 |
Oryza sativa (rice) |
Os01g0938900 |
NP_001045343.1 |
Arabidopsis thaliana (thale cress) |
AT3G12390 |
NP_187845.1 |
Arabidopsis thaliana (thale cress) |
NACA3 |
NP_196889.4 |
Xenopus tropicalis (tropical clawed frog) |
naca |
NP_001106399.1 |
Related articles in PubMed
GeneRIFs: Gene References Into Functions What's a GeneRIF?
The following nacad gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the nacad 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 |
OXa25157 |
Clone ID Related Accession (Same CDS sequence) |
NM_001112928.1
|
Accession Version |
NM_001112928.1 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 684bp)
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 |
2018-05-08 |
Organism |
Xenopus tropicalis(tropical clawed frog) |
Product |
NAC-alpha domain-containing protein 1 |
Comment |
Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC152058.1.
##Evidence-Data-START##
Transcript exon combination :: BC152058.1, CX845270.1 [ECO:0000332]
RNAseq introns :: single sample supports all introns SAMN00861997, SAMN00862016 [ECO:0000348]
##Evidence-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661
| ATGCACTCGC TCAGGGAAAC GTCGGCAGTG ACTCTCCTTG GGATCACCAA GCCAGGCCCC AGGCAGAGGG GCTGTGAGTC GCTTAGTCAC AGAGGTTCCT GCAATGACAC GGAGAGTAAC GATGAATCTC TTCCGGAACT TGAGGAGCCA GATGTAACAG AGCCACGGAC TTCATCCAGT CAGAACCAGC TGGCTCACTG TGTGGCCCCG GGGGAGGAAT CGATCAGTAA AGCCAAGCAG AGCCGCAGTG AGAAGAAAGC CAGGAAGGCC ATGTCCAAGC TGGGCCTCCG GCAGATACAC GGGGTCACGC GCATCACCAT CAGGAAGTCC AAGAACATTC TTTTTGTCAT CACGAAGCCC GACGTGTTCA AGAGTCCCGC GTCCGACATC TACATTGTGT TTGGGGAAGC CAAGATCGAA GACTTATCCC AGCAAGTGCA CAAGGCAGCG GCTGAGAAGT TTAAAGTCCC CATGGAACAC TCCCCCCTTA TCACGGAGAC CACGCCCACC CTGACAATAA AAGAGGAGAG CGAGGAAGAA GAGGAGGTGG ATGAGACCGG CTTGGAGGTG CGAGATATTG AACTGGTGAT GGCGCAGGCC AACGTATCAC GCGCCAAGGC CGTACGGGCG CTCAGGCACA ACAACAACGA CATTGTAAAT GCCATCATGG AACTGACCAT GTAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
NP_001106399.1 |
CDS | 77..760 |
Translation | |
Target ORF information:
RefSeq Version | NM_001112928.1 |
Organism | Xenopus tropicalis(tropical clawed frog) |
Definition | Xenopus tropicalis NAC alpha domain containing (nacad), mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
NM_001112928.1 |
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661
| ATGCACTCGC TCAGGGAAAC GTCGGCAGTG ACTCTCCTTG GGATCACCAA GCCAGGCCCC AGGCAGAGGG GCTGTGAGTC GCTTAGTCAC AGAGGTTCCT GCAATGACAC GGAGAGTAAC GATGAATCTC TTCCGGAACT TGAGGAGCCA GATGTAACAG AGCCACGGAC TTCATCCAGT CAGAACCAGC TGGCTCACTG TGTGGCCCCG GGGGAGGAAT CGATCAGTAA AGCCAAGCAG AGCCGCAGTG AGAAGAAAGC CAGGAAGGCC ATGTCCAAGC TGGGCCTCCG GCAGATACAC GGGGTCACGC GCATCACCAT CAGGAAGTCC AAGAACATTC TTTTTGTCAT CACGAAGCCC GACGTGTTCA AGAGTCCCGC GTCCGACATC TACATTGTGT TTGGGGAAGC CAAGATCGAA GACTTATCCC AGCAAGTGCA CAAGGCAGCG GCTGAGAAGT TTAAAGTCCC CATGGAACAC TCCCCCCTTA TCACGGAGAC CACGCCCACC CTGACAATAA AAGAGGAGAG CGAGGAAGAA GAGGAGGTGG ATGAGACCGG CTTGGAGGTG CGAGATATTG AACTGGTGAT GGCGCAGGCC AACGTATCAC GCGCCAAGGC CGTACGGGCG CTCAGGCACA ACAACAACGA CATTGTAAAT GCCATCATGG AACTGACCAT GTAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
OXa30874 |
Clone ID Related Accession (Same CDS sequence) |
XM_012964219.2
, XM_012964219.1
|
Accession Version |
XM_012964219.2 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 5814bp)
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 |
2019-12-17 |
Organism |
Xenopus tropicalis(tropical clawed frog) |
Product |
NAC-alpha domain-containing protein 1 isoform X1 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
On Dec 18, 2019 this sequence version replaced XM_012964219.1.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Name :: Xenopus tropicalis Annotation Release 104
Annotation Version :: 104
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 8.3
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 4621 4681 4741 4801 4861 4921 4981 5041 5101 5161 5221 5281 5341 5401 5461 5521 5581 5641 5701 5761
| ATGCTGCCTG TCTCTCCCAT CCTTGCAGCC TCCAGCGTTT TGTCTCCTCA GCCCCCGGGT ACGGGCACCA TGCCAGGGGA AGCCGCCCAA GGGGAAGGGG CGCCGCACAA AGACGCCAGG GCGCTGCTGC AAGCTGAAGC AGGGTTATCA CCATCTGCTT CCACTGCCTC AACTCCTAGT GGTGACTCCG CAACACCCAA AGTGTTAAGC CCGATGCGAG ATTGTCTGCT ACTGAGCCCG GAACGTGATG CAGAAAGAGA CCTGGATCCC ACATATCTAC AAGGCAAGGA GGTAGACAGG CCTCAGCCTG AAGGGGCAAG CAGCGAAACA CCTCCAGGGG GCTCCACAGC TATTCAGCAC CTGGCCTTCG AGGTGTCTAA AGAACCTGAA GAGCATGAGA CTAAAGATAT TCTCAGAGAA CGAATCAGCA CCAAGGTAGT AAAGCCGGAC ATTCTCGATA CCAGAATTGT GATGGGTGAA GAGACTTCTT GTAACAGTGA GGAAACGGGC ACTGTAAATA AACTGCTTAG CCTTATTAGT GAACGTGAAC CTGTTTCGTC AGATACTTTG GAAGATGAGG TGATCTCATG TAATCCAAAA GCGGAACTTT CTGGACAGAT TTTTGAGCAA CTTGGCCTAA AACACATTTT TGTGTCTGAT TCTTCTGAGG AAATGCACTC GGAATATAAT GAGTCTAGAA AAGATTATGC TCTGAAGGAA AGTTTCTTTT CACAGGGTGA AGCAGTAACT GATGTGCCTT CATTATTCCC AGAACCCACC AAAGAGTCAC CCTGCAGTTT GGCCGAGTGT GAGATGCAGT CTTCGCAATG TAGGCATGCA TACAATTTAG ATTCAGACAG ATACACCACT GCTCCTTCCA CTCCAATAAA AACCCTCTAT TCACACCTCA AGCACCATCC ATGTTCAAAA GACAGCCTTG GAGATGACCA CAATGACCCA GAGAATGACA GTTTGTGCTC TCCTCCAACG TCCCCCTCTG GATCTTATAT TACTGCTGAA GGTAGCAGCT GGGCTTCTTC AGCTGCGTCT GGTTCCCCAT CATGTTCTCC AAATTTGATG GCTGAGGGAG AAACAATGGA AACTTCCACT GCTTATGCTG ACCCATCAAC TGCACATGAG GAAGGTATTT GTGAAGATCC ATGCTGTATG TCTCCTGACA TACTAGAAGA AGAAGATATC CCAGAATTCT ATGATGATAA TTTAGAAGCT GAAGACATGT ATCCTGCCAA CGAAGAGGTC AGTAATGGCG ATCAAAGTGA TGTTCAATGC AGTGAAGAAG ACGAGGAAGA TGAAGATGAA TGGGAAACTG ATTTTGCTCC ATCTTTTACC AGTATTCCAC TGTGTACAGA GTATGTTAAC ACAGTTGCTT CAGAATCTTT CTCACCAACG TCTTATGAAC ATGACCAGGA ACCACTGTCA GTGGAAAGCT GCTCTTCAGA AACTCATGAA TCCCTACAGG CATCGAACAC AGATGAACTG CATTCTGAGA TATCAGGTGT CATCCCACAG TGTGTTGAAA ATGAGCACAT GATTCCTGCT TTCATGCTAC CATTTCATGG AAGTTTAATA TTTGCTGCAG ACTCAATGGA AATCACCTTG TTCCCTCAAG GAGAGTCAGC AGAGAGTGAG GTATTGTATG GAGAAGAGGA TGATGACAGT ACATCTGCCT CCTTTCTTCA TTCATTGTCA GAGACATCTA TAAATGAAGG GGTAGATGAA TCCTTTGCTT ATCAAGATGA CACATCAGAG TCCTCAGATT CTGCATCTTA TGATGGAGAA GAGGATGAGA AACGTTACAG CACAGAAGAG TATGCTGTGG CAAGTGATTC TGCCTCCCAA ACGGCAGAGG GTCATATAGA GACCAAAAAC AACTCTTCAG ATTCTAGCTG TGAGAGTGAG ATGGAGACAT CTTCTGACCT GACTGATAAT GATGGTGAAG GTGGAGTTCT TGGACTTGCC TTGGAAACTG AAGATGTTCA AAGAGGAAAA GAACACATGG TTAAATCCAG ATTTGAGACT GCTAATGAAG TTTCAAATAG CAGTGAAGAA AAAGAAACAG ATTCACAGTC AGACTCAAAA GAAGCCCCTG AGGAAGGTGC AAGTGAGACT AAAGACTCAG ATACAAGCAA CGTTAATGAG CACATTTCTG GCTCTCACAT TAGTAGCTCT GTCCCTGAAT CTCAGTTTAT AAGTGCTACA CAGCAAGAAG AAGAGAAGGA ACTGAGGTCA TGGTCTGAAA GCCCAATAGG ACAACAGTCT TCATCATCAT TGGGAACAGA TGTCCCAAAT GCTGGAATTG ATAATGTTGG TGAATGCCTG ATCGCATGTT TTGATACTGA TGAAGAGCTG GATTCTTTAC CCCCTCTCAA CACAGTGGCA CAGAGTATTA GGGAACACAG TCAGCAGCAT GAGCAAAGTG GAAGACAGTC TTCACTGGCT ATTAATGTGA CTGAAGATGC ATATCTGTTC GCAGCTGAGG ATGAAGATGG TGGATCATTT GATAAAGGTG AATTACAAAG TAATGTGGAT GTGGCAGATG CCTCCAAGAC AGAAGCTACT TCAGTATCTT GTATTCTGGA GACAAATGAC ACAGGAAACC AAGACAGGGC CTTTTCAAAG GTAGAAAAAG CTTCTGAGCC AGAAAATATC TTGCCTCAAA ATGCCCAAAA GAGCAGAGCA GAGGAACTGA CTGAAGAAGA GTGTTTATTT GCCTGCTATG ACTCTGGAGA TGATCAAGAA GATGTCAGTT CTCTTGACCG GCAGGCTATA CTTGCTCAGA TATACAGACA GCAAACAGAA GTTGAAGTCA ATTTTATCAT TAACCAAACA CCCTGTGTCT CAGATTCTAT CATGTCTGCA GGTTTTGTGG AAGATACAAT GGCAGGAAAA TCCTACCAAG ACCCCAAAGA GTTATTGGCA GAGCCAACTT CACTGGGTTA TAGTCATGGC CTTTATAATT CTCAATCAGA ATCAGATATG AAAATGGACA TTCAAGCTTC TCCTATAGGT TTGCCCTGTG AGCTGACAGA GGAACAAATA AAATCCACAT CTGGGACTGA TGATAACATT ACATTACAAA GCAAGCCTAC ATTCCCCAGT CACTCTCAGT CAGAGGAAAG CAGACCAGAC ATGAAAGGAA ATATTGAGGT TTCCAGTGAA GAACAAAAAG CAGACTCTGA AGGTATACAG TCAACATCTA CTGAGAAAGG TCCAACTAAA TTAGAGGTTG AGCCATTAGA TTCAACAACT ATGTCAACAG AGCTCTGTGT AAGTAATGTA ATATCTCCAA ATAAAATGGA CAAATGTCCT TATGCTTCTA AGACCGAAGA GTGTGGCAAA TGTTCTGACC AACATTCTGA GGTCTGTCTA ATTACCAGCT CCTTACATCA GCAGAATATA TGCAATGAGA GAAAGGTACA ATCTGAAAAC AGGAGTCAAG CAGAACATAG AGCTGCGATT GTGGGTGTTG AACAGCATGT CTCCAAGAAA CCCCCAGATC GAGAGTATGC TGAAAAAGCT ATACCAGTGC ATAGTGGTAC TGATAGCTCA GTACTTATTC AGGATGATAA TGTACCCACT TCACAAGTAC CTCACAAACA CCTTACTAGT ACCTCACACG TAGGCAATGA AGTCTTACCT ATATCTAATA CTCATTTGGA TTACAAAAAA GAAGAGGGTG ATAAAGATAC ACAAAAGACT TGTTCCCTGG CCAGTCAGCC TTCATGTAGG GAAGTAAGGG GTAACATGGA AATGAATAAA GAGGATGGTC CTGAAGAACT GCCAGATATA AAGTTGGCTT CAGAGGATTG TGCTAGGAGT ACAAGAGACA CAAGCAGGAC ACTAGAAGAT GAGAGTGTGT ATAATCAACA GGGTGAAGAA GATGCTGATA ACACTCACTC GTTCACAAGT AGTAATGCTT TACAGTTGGA AGATACTCAT GATAATCCAG TAGATACCTA TGTTAATGTT TCTAAAGGGT CAGAGGAACA GAGAACAAAG GAAGAAGACA GTTTAGGGTT AATGGTTGCA GATCAAACCC AGGAGGTAGA CAAAAAAGTC TCTGTATCCT GTACCAGAGA TTCTCAAAAG TGTTCAGGTG ACTTCTTGGA GACAGCCGAA AAACTAGGAA CAAAGCAAAC AGAGCTGTTT AATGACATCC AAGAAATGGC ACAATTACTG CAAGGGTCCT TTGGCAAACT GAACCCTCTG GATCTCAGTG TTAGGTCTGC CAGTACTGAA AAAAATATTC CAAAACCTAG AATCAGCTCT AAAGAAATGG ATGCAAATGG CAAGTTAATG TCTGAGATAC CAGTAGTCGA GCAGAGTCAG GGAGGAAAAT GGCAGCCTTC AAAGGCAGTC CGTGTTTGTT CACAAGAAGG GGGATCTGAG GTGCAGAAGA ACAAATGTCC ATTGAGTGAG GAGGATAGCC TTGAGATGGC TTTAGCTGGT CCCACTAGTT CACAGAATAC TTATCTTCTT CCATCTAATG GAGGTGAGGC ATGGAAGGGT AAACGAGACA ATGATGACGA TCAAAGTACG TCAGTTGAAA ACATGTCTTT GGAATTTAAA GACAAACCTG CCCAGTCCTG TGTATCGAGA AGCAACAAGG GCCCAAGTTA TGGATCAACG GAGGAAGTGA AATCCACTTT CCTTAGTAGG ACACAAGACG AGAAGGTTCG TTGTGAGATG CCGCACCCTG TTAGGTTGGT GGACTCTGAG CATAAGTATC ATCATGGGAG CCCCAAGACT GAGTCTCTTA CCCACAATCC TTCAAACAAT AGTAAGCTTG CTGAGTATAT CTGCTTTAGT AAAGTGCCTC CACCAATCTG CTCTATGCCT GACTACATCG CCCAGGAGAA GAAGAAAGCT GAACAGATGG CATCTTCCAT GGACACCGCA AGGGAACCTG AAAAATTGTC CTCTGGAAAG GATCACAACA AACCCTTATC AGCTTTCCCT CAACCCAGTT GCAAGCCCAC CGATATGATT ACCAATAAGT GTCACGGAGG TAACTTTGAA GAGCCTGTGG GGAAGAAAAG CCTTCTCACT TTTCATCCAT CTGATCCCAG CTCTTCTAGC GAGAGCGAGC TGACTTCCTG CGGGCCGGAG ATGCACTCGC TCAGGGAAAC GTCGGCAGTG ACTCTCCTTG GGATCACCAA GCCAGGCCCC AGGCAGAGGG GCTGTGAGTC GCTTAGTCAC AGAGGTTCCT GCAATGACAC GGAGAGTAAC GATGAATCTC TTCCGGAACT TGAGGAGCCA GATGTAACAG AGCCACGGAC TTCATCCAGT CAGAACCAGC TGGCTCACTG TGTGGCCCCG GGGGAGGAAT CGATCAGTAA AGCCAAGCAG AGCCGCAGTG AGAAGAAAGC CAGGAAGGCC ATGTCCAAGC TGGGCCTCCG GCAGATACAC GGGGTCACGC GCATCACCAT CAGGAAGTCC AAGAACATTC TTTTTGTCAT CACGAAGCCC GACGTGTTCA AGAGTCCCGC GTCCGACATC TACATTGTGT TTGGGGAAGC CAAGATCGAA GACTTATCCC AGCAAGTGCA CAAGGCAGCG GCTGAGAAGT TTAAAGTCCC CATGGAACAC TCCCCCCTTA TCACGGAGAC CACGCCCACC CTGACAATAA AAGAGGAGAG CGAGGAAGAA GAGGAGGTGG ATGAGACCGG CTTGGAGGTG CGAGATATTG AACTGGTGAT GGCGCAGGCC AACGTATCAC GCGCCAAGGC CGTACGGGCG CTCAGGCACA ACAACAACGA CATTGTAAAT GCCATCATGG AACTGACCAT GTAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_012819673.1 |
CDS | 98..5911 |
Translation | |
Target ORF information:
RefSeq Version | XM_012964219.2 |
Organism | Xenopus tropicalis(tropical clawed frog) |
Definition | Xenopus tropicalis NAC alpha domain containing (nacad), transcript variant X1, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_012964219.2 |
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 4621 4681 4741 4801 4861 4921 4981 5041 5101 5161 5221 5281 5341 5401 5461 5521 5581 5641 5701 5761
| ATGCTGCCTG TCTCTCCCAT CCTTGCAGCC TCCAGCGTTT TGTCTCCTCA GCCCCCGGGT ACGGGCACCA TGCCAGGGGA AGCCGCCCAA GGGGAAGGGG CGCCGCACAA AGACGCCAGG GCGCTGCTGC AAGCTGAAGC AGGGTTATCA CCATCTGCTT CCACTGCCTC AACTCCTAGT GGTGACTCCG CAACACCCAA AGTGTTAAGC CCGATGCGAG ATTGTCTGCT ACTGAGCCCG GAACGTGATG CAGAAAGAGA CCTGGATCCC ACATATCTAC AAGGCAAGGA GGTAGACAGG CCTCAGCCTG AAGGGGCAAG CAGCGAAACA CCTCCAGGGG GCTCCACAGC TATTCAGCAC CTGGCCTTCG AGGTGTCTAA AGAACCTGAA GAGCATGAGA CTAAAGATAT TCTCAGAGAA CGAATCAGCA CCAAGGTAGT AAAGCCGGAC ATTCTCGATA CCAGAATTGT GATGGGTGAA GAGACTTCTT GTAACAGTGA GGAAACGGGC ACTGTAAATA AACTGCTTAG CCTTATTAGT GAACGTGAAC CTGTTTCGTC AGATACTTTG GAAGATGAGG TGATCTCATG TAATCCAAAA GCGGAACTTT CTGGACAGAT TTTTGAGCAA CTTGGCCTAA AACACATTTT TGTGTCTGAT TCTTCTGAGG AAATGCACTC GGAATATAAT GAGTCTAGAA AAGATTATGC TCTGAAGGAA AGTTTCTTTT CACAGGGTGA AGCAGTAACT GATGTGCCTT CATTATTCCC AGAACCCACC AAAGAGTCAC CCTGCAGTTT GGCCGAGTGT GAGATGCAGT CTTCGCAATG TAGGCATGCA TACAATTTAG ATTCAGACAG ATACACCACT GCTCCTTCCA CTCCAATAAA AACCCTCTAT TCACACCTCA AGCACCATCC ATGTTCAAAA GACAGCCTTG GAGATGACCA CAATGACCCA GAGAATGACA GTTTGTGCTC TCCTCCAACG TCCCCCTCTG GATCTTATAT TACTGCTGAA GGTAGCAGCT GGGCTTCTTC AGCTGCGTCT GGTTCCCCAT CATGTTCTCC AAATTTGATG GCTGAGGGAG AAACAATGGA AACTTCCACT GCTTATGCTG ACCCATCAAC TGCACATGAG GAAGGTATTT GTGAAGATCC ATGCTGTATG TCTCCTGACA TACTAGAAGA AGAAGATATC CCAGAATTCT ATGATGATAA TTTAGAAGCT GAAGACATGT ATCCTGCCAA CGAAGAGGTC AGTAATGGCG ATCAAAGTGA TGTTCAATGC AGTGAAGAAG ACGAGGAAGA TGAAGATGAA TGGGAAACTG ATTTTGCTCC ATCTTTTACC AGTATTCCAC TGTGTACAGA GTATGTTAAC ACAGTTGCTT CAGAATCTTT CTCACCAACG TCTTATGAAC ATGACCAGGA ACCACTGTCA GTGGAAAGCT GCTCTTCAGA AACTCATGAA TCCCTACAGG CATCGAACAC AGATGAACTG CATTCTGAGA TATCAGGTGT CATCCCACAG TGTGTTGAAA ATGAGCACAT GATTCCTGCT TTCATGCTAC CATTTCATGG AAGTTTAATA TTTGCTGCAG ACTCAATGGA AATCACCTTG TTCCCTCAAG GAGAGTCAGC AGAGAGTGAG GTATTGTATG GAGAAGAGGA TGATGACAGT ACATCTGCCT CCTTTCTTCA TTCATTGTCA GAGACATCTA TAAATGAAGG GGTAGATGAA TCCTTTGCTT ATCAAGATGA CACATCAGAG TCCTCAGATT CTGCATCTTA TGATGGAGAA GAGGATGAGA AACGTTACAG CACAGAAGAG TATGCTGTGG CAAGTGATTC TGCCTCCCAA ACGGCAGAGG GTCATATAGA GACCAAAAAC AACTCTTCAG ATTCTAGCTG TGAGAGTGAG ATGGAGACAT CTTCTGACCT GACTGATAAT GATGGTGAAG GTGGAGTTCT TGGACTTGCC TTGGAAACTG AAGATGTTCA AAGAGGAAAA GAACACATGG TTAAATCCAG ATTTGAGACT GCTAATGAAG TTTCAAATAG CAGTGAAGAA AAAGAAACAG ATTCACAGTC AGACTCAAAA GAAGCCCCTG AGGAAGGTGC AAGTGAGACT AAAGACTCAG ATACAAGCAA CGTTAATGAG CACATTTCTG GCTCTCACAT TAGTAGCTCT GTCCCTGAAT CTCAGTTTAT AAGTGCTACA CAGCAAGAAG AAGAGAAGGA ACTGAGGTCA TGGTCTGAAA GCCCAATAGG ACAACAGTCT TCATCATCAT TGGGAACAGA TGTCCCAAAT GCTGGAATTG ATAATGTTGG TGAATGCCTG ATCGCATGTT TTGATACTGA TGAAGAGCTG GATTCTTTAC CCCCTCTCAA CACAGTGGCA CAGAGTATTA GGGAACACAG TCAGCAGCAT GAGCAAAGTG GAAGACAGTC TTCACTGGCT ATTAATGTGA CTGAAGATGC ATATCTGTTC GCAGCTGAGG ATGAAGATGG TGGATCATTT GATAAAGGTG AATTACAAAG TAATGTGGAT GTGGCAGATG CCTCCAAGAC AGAAGCTACT TCAGTATCTT GTATTCTGGA GACAAATGAC ACAGGAAACC AAGACAGGGC CTTTTCAAAG GTAGAAAAAG CTTCTGAGCC AGAAAATATC TTGCCTCAAA ATGCCCAAAA GAGCAGAGCA GAGGAACTGA CTGAAGAAGA GTGTTTATTT GCCTGCTATG ACTCTGGAGA TGATCAAGAA GATGTCAGTT CTCTTGACCG GCAGGCTATA CTTGCTCAGA TATACAGACA GCAAACAGAA GTTGAAGTCA ATTTTATCAT TAACCAAACA CCCTGTGTCT CAGATTCTAT CATGTCTGCA GGTTTTGTGG AAGATACAAT GGCAGGAAAA TCCTACCAAG ACCCCAAAGA GTTATTGGCA GAGCCAACTT CACTGGGTTA TAGTCATGGC CTTTATAATT CTCAATCAGA ATCAGATATG AAAATGGACA TTCAAGCTTC TCCTATAGGT TTGCCCTGTG AGCTGACAGA GGAACAAATA AAATCCACAT CTGGGACTGA TGATAACATT ACATTACAAA GCAAGCCTAC ATTCCCCAGT CACTCTCAGT CAGAGGAAAG CAGACCAGAC ATGAAAGGAA ATATTGAGGT TTCCAGTGAA GAACAAAAAG CAGACTCTGA AGGTATACAG TCAACATCTA CTGAGAAAGG TCCAACTAAA TTAGAGGTTG AGCCATTAGA TTCAACAACT ATGTCAACAG AGCTCTGTGT AAGTAATGTA ATATCTCCAA ATAAAATGGA CAAATGTCCT TATGCTTCTA AGACCGAAGA GTGTGGCAAA TGTTCTGACC AACATTCTGA GGTCTGTCTA ATTACCAGCT CCTTACATCA GCAGAATATA TGCAATGAGA GAAAGGTACA ATCTGAAAAC AGGAGTCAAG CAGAACATAG AGCTGCGATT GTGGGTGTTG AACAGCATGT CTCCAAGAAA CCCCCAGATC GAGAGTATGC TGAAAAAGCT ATACCAGTGC ATAGTGGTAC TGATAGCTCA GTACTTATTC AGGATGATAA TGTACCCACT TCACAAGTAC CTCACAAACA CCTTACTAGT ACCTCACACG TAGGCAATGA AGTCTTACCT ATATCTAATA CTCATTTGGA TTACAAAAAA GAAGAGGGTG ATAAAGATAC ACAAAAGACT TGTTCCCTGG CCAGTCAGCC TTCATGTAGG GAAGTAAGGG GTAACATGGA AATGAATAAA GAGGATGGTC CTGAAGAACT GCCAGATATA AAGTTGGCTT CAGAGGATTG TGCTAGGAGT ACAAGAGACA CAAGCAGGAC ACTAGAAGAT GAGAGTGTGT ATAATCAACA GGGTGAAGAA GATGCTGATA ACACTCACTC GTTCACAAGT AGTAATGCTT TACAGTTGGA AGATACTCAT GATAATCCAG TAGATACCTA TGTTAATGTT TCTAAAGGGT CAGAGGAACA GAGAACAAAG GAAGAAGACA GTTTAGGGTT AATGGTTGCA GATCAAACCC AGGAGGTAGA CAAAAAAGTC TCTGTATCCT GTACCAGAGA TTCTCAAAAG TGTTCAGGTG ACTTCTTGGA GACAGCCGAA AAACTAGGAA CAAAGCAAAC AGAGCTGTTT AATGACATCC AAGAAATGGC ACAATTACTG CAAGGGTCCT TTGGCAAACT GAACCCTCTG GATCTCAGTG TTAGGTCTGC CAGTACTGAA AAAAATATTC CAAAACCTAG AATCAGCTCT AAAGAAATGG ATGCAAATGG CAAGTTAATG TCTGAGATAC CAGTAGTCGA GCAGAGTCAG GGAGGAAAAT GGCAGCCTTC AAAGGCAGTC CGTGTTTGTT CACAAGAAGG GGGATCTGAG GTGCAGAAGA ACAAATGTCC ATTGAGTGAG GAGGATAGCC TTGAGATGGC TTTAGCTGGT CCCACTAGTT CACAGAATAC TTATCTTCTT CCATCTAATG GAGGTGAGGC ATGGAAGGGT AAACGAGACA ATGATGACGA TCAAAGTACG TCAGTTGAAA ACATGTCTTT GGAATTTAAA GACAAACCTG CCCAGTCCTG TGTATCGAGA AGCAACAAGG GCCCAAGTTA TGGATCAACG GAGGAAGTGA AATCCACTTT CCTTAGTAGG ACACAAGACG AGAAGGTTCG TTGTGAGATG CCGCACCCTG TTAGGTTGGT GGACTCTGAG CATAAGTATC ATCATGGGAG CCCCAAGACT GAGTCTCTTA CCCACAATCC TTCAAACAAT AGTAAGCTTG CTGAGTATAT CTGCTTTAGT AAAGTGCCTC CACCAATCTG CTCTATGCCT GACTACATCG CCCAGGAGAA GAAGAAAGCT GAACAGATGG CATCTTCCAT GGACACCGCA AGGGAACCTG AAAAATTGTC CTCTGGAAAG GATCACAACA AACCCTTATC AGCTTTCCCT CAACCCAGTT GCAAGCCCAC CGATATGATT ACCAATAAGT GTCACGGAGG TAACTTTGAA GAGCCTGTGG GGAAGAAAAG CCTTCTCACT TTTCATCCAT CTGATCCCAG CTCTTCTAGC GAGAGCGAGC TGACTTCCTG CGGGCCGGAG ATGCACTCGC TCAGGGAAAC GTCGGCAGTG ACTCTCCTTG GGATCACCAA GCCAGGCCCC AGGCAGAGGG GCTGTGAGTC GCTTAGTCAC AGAGGTTCCT GCAATGACAC GGAGAGTAAC GATGAATCTC TTCCGGAACT TGAGGAGCCA GATGTAACAG AGCCACGGAC TTCATCCAGT CAGAACCAGC TGGCTCACTG TGTGGCCCCG GGGGAGGAAT CGATCAGTAA AGCCAAGCAG AGCCGCAGTG AGAAGAAAGC CAGGAAGGCC ATGTCCAAGC TGGGCCTCCG GCAGATACAC GGGGTCACGC GCATCACCAT CAGGAAGTCC AAGAACATTC TTTTTGTCAT CACGAAGCCC GACGTGTTCA AGAGTCCCGC GTCCGACATC TACATTGTGT TTGGGGAAGC CAAGATCGAA GACTTATCCC AGCAAGTGCA CAAGGCAGCG GCTGAGAAGT TTAAAGTCCC CATGGAACAC TCCCCCCTTA TCACGGAGAC CACGCCCACC CTGACAATAA AAGAGGAGAG CGAGGAAGAA GAGGAGGTGG ATGAGACCGG CTTGGAGGTG CGAGATATTG AACTGGTGAT GGCGCAGGCC AACGTATCAC GCGCCAAGGC CGTACGGGCG CTCAGGCACA ACAACAACGA CATTGTAAAT GCCATCATGG AACTGACCAT GTAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
OXa30874 |
Clone ID Related Accession (Same CDS sequence) |
XM_012964219.2
, XM_012964219.1
|
Accession Version |
XM_012964219.1 |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 5814bp)
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 |
2016-09-07 |
Organism |
Xenopus tropicalis(tropical clawed frog) |
Product |
NAC-alpha domain-containing protein 1 isoform X1 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Xenopus tropicalis Annotation Release 103
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.1
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 4621 4681 4741 4801 4861 4921 4981 5041 5101 5161 5221 5281 5341 5401 5461 5521 5581 5641 5701 5761
| ATGCTGCCTG TCTCTCCCAT CCTTGCAGCC TCCAGCGTTT TGTCTCCTCA GCCCCCGGGT ACGGGCACCA TGCCAGGGGA AGCCGCCCAA GGGGAAGGGG CGCCGCACAA AGACGCCAGG GCGCTGCTGC AAGCTGAAGC AGGGTTATCA CCATCTGCTT CCACTGCCTC AACTCCTAGT GGTGACTCCG CAACACCCAA AGTGTTAAGC CCGATGCGAG ATTGTCTGCT ACTGAGCCCG GAACGTGATG CAGAAAGAGA CCTGGATCCC ACATATCTAC AAGGCAAGGA GGTAGACAGG CCTCAGCCTG AAGGGGCAAG CAGCGAAACA CCTCCAGGGG GCTCCACAGC TATTCAGCAC CTGGCCTTCG AGGTGTCTAA AGAACCTGAA GAGCATGAGA CTAAAGATAT TCTCAGAGAA CGAATCAGCA CCAAGGTAGT AAAGCCGGAC ATTCTCGATA CCAGAATTGT GATGGGTGAA GAGACTTCTT GTAACAGTGA GGAAACGGGC ACTGTAAATA AACTGCTTAG CCTTATTAGT GAACGTGAAC CTGTTTCGTC AGATACTTTG GAAGATGAGG TGATCTCATG TAATCCAAAA GCGGAACTTT CTGGACAGAT TTTTGAGCAA CTTGGCCTAA AACACATTTT TGTGTCTGAT TCTTCTGAGG AAATGCACTC GGAATATAAT GAGTCTAGAA AAGATTATGC TCTGAAGGAA AGTTTCTTTT CACAGGGTGA AGCAGTAACT GATGTGCCTT CATTATTCCC AGAACCCACC AAAGAGTCAC CCTGCAGTTT GGCCGAGTGT GAGATGCAGT CTTCGCAATG TAGGCATGCA TACAATTTAG ATTCAGACAG ATACACCACT GCTCCTTCCA CTCCAATAAA AACCCTCTAT TCACACCTCA AGCACCATCC ATGTTCAAAA GACAGCCTTG GAGATGACCA CAATGACCCA GAGAATGACA GTTTGTGCTC TCCTCCAACG TCCCCCTCTG GATCTTATAT TACTGCTGAA GGTAGCAGCT GGGCTTCTTC AGCTGCGTCT GGTTCCCCAT CATGTTCTCC AAATTTGATG GCTGAGGGAG AAACAATGGA AACTTCCACT GCTTATGCTG ACCCATCAAC TGCACATGAG GAAGGTATTT GTGAAGATCC ATGCTGTATG TCTCCTGACA TACTAGAAGA AGAAGATATC CCAGAATTCT ATGATGATAA TTTAGAAGCT GAAGACATGT ATCCTGCCAA CGAAGAGGTC AGTAATGGCG ATCAAAGTGA TGTTCAATGC AGTGAAGAAG ACGAGGAAGA TGAAGATGAA TGGGAAACTG ATTTTGCTCC ATCTTTTACC AGTATTCCAC TGTGTACAGA GTATGTTAAC ACAGTTGCTT CAGAATCTTT CTCACCAACG TCTTATGAAC ATGACCAGGA ACCACTGTCA GTGGAAAGCT GCTCTTCAGA AACTCATGAA TCCCTACAGG CATCGAACAC AGATGAACTG CATTCTGAGA TATCAGGTGT CATCCCACAG TGTGTTGAAA ATGAGCACAT GATTCCTGCT TTCATGCTAC CATTTCATGG AAGTTTAATA TTTGCTGCAG ACTCAATGGA AATCACCTTG TTCCCTCAAG GAGAGTCAGC AGAGAGTGAG GTATTGTATG GAGAAGAGGA TGATGACAGT ACATCTGCCT CCTTTCTTCA TTCATTGTCA GAGACATCTA TAAATGAAGG GGTAGATGAA TCCTTTGCTT ATCAAGATGA CACATCAGAG TCCTCAGATT CTGCATCTTA TGATGGAGAA GAGGATGAGA AACGTTACAG CACAGAAGAG TATGCTGTGG CAAGTGATTC TGCCTCCCAA ACGGCAGAGG GTCATATAGA GACCAAAAAC AACTCTTCAG ATTCTAGCTG TGAGAGTGAG ATGGAGACAT CTTCTGACCT GACTGATAAT GATGGTGAAG GTGGAGTTCT TGGACTTGCC TTGGAAACTG AAGATGTTCA AAGAGGAAAA GAACACATGG TTAAATCCAG ATTTGAGACT GCTAATGAAG TTTCAAATAG CAGTGAAGAA AAAGAAACAG ATTCACAGTC AGACTCAAAA GAAGCCCCTG AGGAAGGTGC AAGTGAGACT AAAGACTCAG ATACAAGCAA CGTTAATGAG CACATTTCTG GCTCTCACAT TAGTAGCTCT GTCCCTGAAT CTCAGTTTAT AAGTGCTACA CAGCAAGAAG AAGAGAAGGA ACTGAGGTCA TGGTCTGAAA GCCCAATAGG ACAACAGTCT TCATCATCAT TGGGAACAGA TGTCCCAAAT GCTGGAATTG ATAATGTTGG TGAATGCCTG ATCGCATGTT TTGATACTGA TGAAGAGCTG GATTCTTTAC CCCCTCTCAA CACAGTGGCA CAGAGTATTA GGGAACACAG TCAGCAGCAT GAGCAAAGTG GAAGACAGTC TTCACTGGCT ATTAATGTGA CTGAAGATGC ATATCTGTTC GCAGCTGAGG ATGAAGATGG TGGATCATTT GATAAAGGTG AATTACAAAG TAATGTGGAT GTGGCAGATG CCTCCAAGAC AGAAGCTACT TCAGTATCTT GTATTCTGGA GACAAATGAC ACAGGAAACC AAGACAGGGC CTTTTCAAAG GTAGAAAAAG CTTCTGAGCC AGAAAATATC TTGCCTCAAA ATGCCCAAAA GAGCAGAGCA GAGGAACTGA CTGAAGAAGA GTGTTTATTT GCCTGCTATG ACTCTGGAGA TGATCAAGAA GATGTCAGTT CTCTTGACCG GCAGGCTATA CTTGCTCAGA TATACAGACA GCAAACAGAA GTTGAAGTCA ATTTTATCAT TAACCAAACA CCCTGTGTCT CAGATTCTAT CATGTCTGCA GGTTTTGTGG AAGATACAAT GGCAGGAAAA TCCTACCAAG ACCCCAAAGA GTTATTGGCA GAGCCAACTT CACTGGGTTA TAGTCATGGC CTTTATAATT CTCAATCAGA ATCAGATATG AAAATGGACA TTCAAGCTTC TCCTATAGGT TTGCCCTGTG AGCTGACAGA GGAACAAATA AAATCCACAT CTGGGACTGA TGATAACATT ACATTACAAA GCAAGCCTAC ATTCCCCAGT CACTCTCAGT CAGAGGAAAG CAGACCAGAC ATGAAAGGAA ATATTGAGGT TTCCAGTGAA GAACAAAAAG CAGACTCTGA AGGTATACAG TCAACATCTA CTGAGAAAGG TCCAACTAAA TTAGAGGTTG AGCCATTAGA TTCAACAACT ATGTCAACAG AGCTCTGTGT AAGTAATGTA ATATCTCCAA ATAAAATGGA CAAATGTCCT TATGCTTCTA AGACCGAAGA GTGTGGCAAA TGTTCTGACC AACATTCTGA GGTCTGTCTA ATTACCAGCT CCTTACATCA GCAGAATATA TGCAATGAGA GAAAGGTACA ATCTGAAAAC AGGAGTCAAG CAGAACATAG AGCTGCGATT GTGGGTGTTG AACAGCATGT CTCCAAGAAA CCCCCAGATC GAGAGTATGC TGAAAAAGCT ATACCAGTGC ATAGTGGTAC TGATAGCTCA GTACTTATTC AGGATGATAA TGTACCCACT TCACAAGTAC CTCACAAACA CCTTACTAGT ACCTCACACG TAGGCAATGA AGTCTTACCT ATATCTAATA CTCATTTGGA TTACAAAAAA GAAGAGGGTG ATAAAGATAC ACAAAAGACT TGTTCCCTGG CCAGTCAGCC TTCATGTAGG GAAGTAAGGG GTAACATGGA AATGAATAAA GAGGATGGTC CTGAAGAACT GCCAGATATA AAGTTGGCTT CAGAGGATTG TGCTAGGAGT ACAAGAGACA CAAGCAGGAC ACTAGAAGAT GAGAGTGTGT ATAATCAACA GGGTGAAGAA GATGCTGATA ACACTCACTC GTTCACAAGT AGTAATGCTT TACAGTTGGA AGATACTCAT GATAATCCAG TAGATACCTA TGTTAATGTT TCTAAAGGGT CAGAGGAACA GAGAACAAAG GAAGAAGACA GTTTAGGGTT AATGGTTGCA GATCAAACCC AGGAGGTAGA CAAAAAAGTC TCTGTATCCT GTACCAGAGA TTCTCAAAAG TGTTCAGGTG ACTTCTTGGA GACAGCCGAA AAACTAGGAA CAAAGCAAAC AGAGCTGTTT AATGACATCC AAGAAATGGC ACAATTACTG CAAGGGTCCT TTGGCAAACT GAACCCTCTG GATCTCAGTG TTAGGTCTGC CAGTACTGAA AAAAATATTC CAAAACCTAG AATCAGCTCT AAAGAAATGG ATGCAAATGG CAAGTTAATG TCTGAGATAC CAGTAGTCGA GCAGAGTCAG GGAGGAAAAT GGCAGCCTTC AAAGGCAGTC CGTGTTTGTT CACAAGAAGG GGGATCTGAG GTGCAGAAGA ACAAATGTCC ATTGAGTGAG GAGGATAGCC TTGAGATGGC TTTAGCTGGT CCCACTAGTT CACAGAATAC TTATCTTCTT CCATCTAATG GAGGTGAGGC ATGGAAGGGT AAACGAGACA ATGATGACGA TCAAAGTACG TCAGTTGAAA ACATGTCTTT GGAATTTAAA GACAAACCTG CCCAGTCCTG TGTATCGAGA AGCAACAAGG GCCCAAGTTA TGGATCAACG GAGGAAGTGA AATCCACTTT CCTTAGTAGG ACACAAGACG AGAAGGTTCG TTGTGAGATG CCGCACCCTG TTAGGTTGGT GGACTCTGAG CATAAGTATC ATCATGGGAG CCCCAAGACT GAGTCTCTTA CCCACAATCC TTCAAACAAT AGTAAGCTTG CTGAGTATAT CTGCTTTAGT AAAGTGCCTC CACCAATCTG CTCTATGCCT GACTACATCG CCCAGGAGAA GAAGAAAGCT GAACAGATGG CATCTTCCAT GGACACCGCA AGGGAACCTG AAAAATTGTC CTCTGGAAAG GATCACAACA AACCCTTATC AGCTTTCCCT CAACCCAGTT GCAAGCCCAC CGATATGATT ACCAATAAGT GTCACGGAGG TAACTTTGAA GAGCCTGTGG GGAAGAAAAG CCTTCTCACT TTTCATCCAT CTGATCCCAG CTCTTCTAGC GAGAGCGAGC TGACTTCCTG CGGGCCGGAG ATGCACTCGC TCAGGGAAAC GTCGGCAGTG ACTCTCCTTG GGATCACCAA GCCAGGCCCC AGGCAGAGGG GCTGTGAGTC GCTTAGTCAC AGAGGTTCCT GCAATGACAC GGAGAGTAAC GATGAATCTC TTCCGGAACT TGAGGAGCCA GATGTAACAG AGCCACGGAC TTCATCCAGT CAGAACCAGC TGGCTCACTG TGTGGCCCCG GGGGAGGAAT CGATCAGTAA AGCCAAGCAG AGCCGCAGTG AGAAGAAAGC CAGGAAGGCC ATGTCCAAGC TGGGCCTCCG GCAGATACAC GGGGTCACGC GCATCACCAT CAGGAAGTCC AAGAACATTC TTTTTGTCAT CACGAAGCCC GACGTGTTCA AGAGTCCCGC GTCCGACATC TACATTGTGT TTGGGGAAGC CAAGATCGAA GACTTATCCC AGCAAGTGCA CAAGGCAGCG GCTGAGAAGT TTAAAGTCCC CATGGAACAC TCCCCCCTTA TCACGGAGAC CACGCCCACC CTGACAATAA AAGAGGAGAG CGAGGAAGAA GAGGAGGTGG ATGAGACCGG CTTGGAGGTG CGAGATATTG AACTGGTGAT GGCGCAGGCC AACGTATCAC GCGCCAAGGC CGTACGGGCG CTCAGGCACA ACAACAACGA CATTGTAAAT GCCATCATGG AACTGACCAT GTAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_012819673.1 |
CDS | 97..5910 |
Translation | |
Target ORF information:
RefSeq Version | XM_012964219.1 |
Organism | Xenopus tropicalis(tropical clawed frog) |
Definition | Xenopus tropicalis nascent polypeptide-associated complex alpha subunit (naca), transcript variant X1, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_012964219.1 |
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 4621 4681 4741 4801 4861 4921 4981 5041 5101 5161 5221 5281 5341 5401 5461 5521 5581 5641 5701 5761
| ATGCTGCCTG TCTCTCCCAT CCTTGCAGCC TCCAGCGTTT TGTCTCCTCA GCCCCCGGGT ACGGGCACCA TGCCAGGGGA AGCCGCCCAA GGGGAAGGGG CGCCGCACAA AGACGCCAGG GCGCTGCTGC AAGCTGAAGC AGGGTTATCA CCATCTGCTT CCACTGCCTC AACTCCTAGT GGTGACTCCG CAACACCCAA AGTGTTAAGC CCGATGCGAG ATTGTCTGCT ACTGAGCCCG GAACGTGATG CAGAAAGAGA CCTGGATCCC ACATATCTAC AAGGCAAGGA GGTAGACAGG CCTCAGCCTG AAGGGGCAAG CAGCGAAACA CCTCCAGGGG GCTCCACAGC TATTCAGCAC CTGGCCTTCG AGGTGTCTAA AGAACCTGAA GAGCATGAGA CTAAAGATAT TCTCAGAGAA CGAATCAGCA CCAAGGTAGT AAAGCCGGAC ATTCTCGATA CCAGAATTGT GATGGGTGAA GAGACTTCTT GTAACAGTGA GGAAACGGGC ACTGTAAATA AACTGCTTAG CCTTATTAGT GAACGTGAAC CTGTTTCGTC AGATACTTTG GAAGATGAGG TGATCTCATG TAATCCAAAA GCGGAACTTT CTGGACAGAT TTTTGAGCAA CTTGGCCTAA AACACATTTT TGTGTCTGAT TCTTCTGAGG AAATGCACTC GGAATATAAT GAGTCTAGAA AAGATTATGC TCTGAAGGAA AGTTTCTTTT CACAGGGTGA AGCAGTAACT GATGTGCCTT CATTATTCCC AGAACCCACC AAAGAGTCAC CCTGCAGTTT GGCCGAGTGT GAGATGCAGT CTTCGCAATG TAGGCATGCA TACAATTTAG ATTCAGACAG ATACACCACT GCTCCTTCCA CTCCAATAAA AACCCTCTAT TCACACCTCA AGCACCATCC ATGTTCAAAA GACAGCCTTG GAGATGACCA CAATGACCCA GAGAATGACA GTTTGTGCTC TCCTCCAACG TCCCCCTCTG GATCTTATAT TACTGCTGAA GGTAGCAGCT GGGCTTCTTC AGCTGCGTCT GGTTCCCCAT CATGTTCTCC AAATTTGATG GCTGAGGGAG AAACAATGGA AACTTCCACT GCTTATGCTG ACCCATCAAC TGCACATGAG GAAGGTATTT GTGAAGATCC ATGCTGTATG TCTCCTGACA TACTAGAAGA AGAAGATATC CCAGAATTCT ATGATGATAA TTTAGAAGCT GAAGACATGT ATCCTGCCAA CGAAGAGGTC AGTAATGGCG ATCAAAGTGA TGTTCAATGC AGTGAAGAAG ACGAGGAAGA TGAAGATGAA TGGGAAACTG ATTTTGCTCC ATCTTTTACC AGTATTCCAC TGTGTACAGA GTATGTTAAC ACAGTTGCTT CAGAATCTTT CTCACCAACG TCTTATGAAC ATGACCAGGA ACCACTGTCA GTGGAAAGCT GCTCTTCAGA AACTCATGAA TCCCTACAGG CATCGAACAC AGATGAACTG CATTCTGAGA TATCAGGTGT CATCCCACAG TGTGTTGAAA ATGAGCACAT GATTCCTGCT TTCATGCTAC CATTTCATGG AAGTTTAATA TTTGCTGCAG ACTCAATGGA AATCACCTTG TTCCCTCAAG GAGAGTCAGC AGAGAGTGAG GTATTGTATG GAGAAGAGGA TGATGACAGT ACATCTGCCT CCTTTCTTCA TTCATTGTCA GAGACATCTA TAAATGAAGG GGTAGATGAA TCCTTTGCTT ATCAAGATGA CACATCAGAG TCCTCAGATT CTGCATCTTA TGATGGAGAA GAGGATGAGA AACGTTACAG CACAGAAGAG TATGCTGTGG CAAGTGATTC TGCCTCCCAA ACGGCAGAGG GTCATATAGA GACCAAAAAC AACTCTTCAG ATTCTAGCTG TGAGAGTGAG ATGGAGACAT CTTCTGACCT GACTGATAAT GATGGTGAAG GTGGAGTTCT TGGACTTGCC TTGGAAACTG AAGATGTTCA AAGAGGAAAA GAACACATGG TTAAATCCAG ATTTGAGACT GCTAATGAAG TTTCAAATAG CAGTGAAGAA AAAGAAACAG ATTCACAGTC AGACTCAAAA GAAGCCCCTG AGGAAGGTGC AAGTGAGACT AAAGACTCAG ATACAAGCAA CGTTAATGAG CACATTTCTG GCTCTCACAT TAGTAGCTCT GTCCCTGAAT CTCAGTTTAT AAGTGCTACA CAGCAAGAAG AAGAGAAGGA ACTGAGGTCA TGGTCTGAAA GCCCAATAGG ACAACAGTCT TCATCATCAT TGGGAACAGA TGTCCCAAAT GCTGGAATTG ATAATGTTGG TGAATGCCTG ATCGCATGTT TTGATACTGA TGAAGAGCTG GATTCTTTAC CCCCTCTCAA CACAGTGGCA CAGAGTATTA GGGAACACAG TCAGCAGCAT GAGCAAAGTG GAAGACAGTC TTCACTGGCT ATTAATGTGA CTGAAGATGC ATATCTGTTC GCAGCTGAGG ATGAAGATGG TGGATCATTT GATAAAGGTG AATTACAAAG TAATGTGGAT GTGGCAGATG CCTCCAAGAC AGAAGCTACT TCAGTATCTT GTATTCTGGA GACAAATGAC ACAGGAAACC AAGACAGGGC CTTTTCAAAG GTAGAAAAAG CTTCTGAGCC AGAAAATATC TTGCCTCAAA ATGCCCAAAA GAGCAGAGCA GAGGAACTGA CTGAAGAAGA GTGTTTATTT GCCTGCTATG ACTCTGGAGA TGATCAAGAA GATGTCAGTT CTCTTGACCG GCAGGCTATA CTTGCTCAGA TATACAGACA GCAAACAGAA GTTGAAGTCA ATTTTATCAT TAACCAAACA CCCTGTGTCT CAGATTCTAT CATGTCTGCA GGTTTTGTGG AAGATACAAT GGCAGGAAAA TCCTACCAAG ACCCCAAAGA GTTATTGGCA GAGCCAACTT CACTGGGTTA TAGTCATGGC CTTTATAATT CTCAATCAGA ATCAGATATG AAAATGGACA TTCAAGCTTC TCCTATAGGT TTGCCCTGTG AGCTGACAGA GGAACAAATA AAATCCACAT CTGGGACTGA TGATAACATT ACATTACAAA GCAAGCCTAC ATTCCCCAGT CACTCTCAGT CAGAGGAAAG CAGACCAGAC ATGAAAGGAA ATATTGAGGT TTCCAGTGAA GAACAAAAAG CAGACTCTGA AGGTATACAG TCAACATCTA CTGAGAAAGG TCCAACTAAA TTAGAGGTTG AGCCATTAGA TTCAACAACT ATGTCAACAG AGCTCTGTGT AAGTAATGTA ATATCTCCAA ATAAAATGGA CAAATGTCCT TATGCTTCTA AGACCGAAGA GTGTGGCAAA TGTTCTGACC AACATTCTGA GGTCTGTCTA ATTACCAGCT CCTTACATCA GCAGAATATA TGCAATGAGA GAAAGGTACA ATCTGAAAAC AGGAGTCAAG CAGAACATAG AGCTGCGATT GTGGGTGTTG AACAGCATGT CTCCAAGAAA CCCCCAGATC GAGAGTATGC TGAAAAAGCT ATACCAGTGC ATAGTGGTAC TGATAGCTCA GTACTTATTC AGGATGATAA TGTACCCACT TCACAAGTAC CTCACAAACA CCTTACTAGT ACCTCACACG TAGGCAATGA AGTCTTACCT ATATCTAATA CTCATTTGGA TTACAAAAAA GAAGAGGGTG ATAAAGATAC ACAAAAGACT TGTTCCCTGG CCAGTCAGCC TTCATGTAGG GAAGTAAGGG GTAACATGGA AATGAATAAA GAGGATGGTC CTGAAGAACT GCCAGATATA AAGTTGGCTT CAGAGGATTG TGCTAGGAGT ACAAGAGACA CAAGCAGGAC ACTAGAAGAT GAGAGTGTGT ATAATCAACA GGGTGAAGAA GATGCTGATA ACACTCACTC GTTCACAAGT AGTAATGCTT TACAGTTGGA AGATACTCAT GATAATCCAG TAGATACCTA TGTTAATGTT TCTAAAGGGT CAGAGGAACA GAGAACAAAG GAAGAAGACA GTTTAGGGTT AATGGTTGCA GATCAAACCC AGGAGGTAGA CAAAAAAGTC TCTGTATCCT GTACCAGAGA TTCTCAAAAG TGTTCAGGTG ACTTCTTGGA GACAGCCGAA AAACTAGGAA CAAAGCAAAC AGAGCTGTTT AATGACATCC AAGAAATGGC ACAATTACTG CAAGGGTCCT TTGGCAAACT GAACCCTCTG GATCTCAGTG TTAGGTCTGC CAGTACTGAA AAAAATATTC CAAAACCTAG AATCAGCTCT AAAGAAATGG ATGCAAATGG CAAGTTAATG TCTGAGATAC CAGTAGTCGA GCAGAGTCAG GGAGGAAAAT GGCAGCCTTC AAAGGCAGTC CGTGTTTGTT CACAAGAAGG GGGATCTGAG GTGCAGAAGA ACAAATGTCC ATTGAGTGAG GAGGATAGCC TTGAGATGGC TTTAGCTGGT CCCACTAGTT CACAGAATAC TTATCTTCTT CCATCTAATG GAGGTGAGGC ATGGAAGGGT AAACGAGACA ATGATGACGA TCAAAGTACG TCAGTTGAAA ACATGTCTTT GGAATTTAAA GACAAACCTG CCCAGTCCTG TGTATCGAGA AGCAACAAGG GCCCAAGTTA TGGATCAACG GAGGAAGTGA AATCCACTTT CCTTAGTAGG ACACAAGACG AGAAGGTTCG TTGTGAGATG CCGCACCCTG TTAGGTTGGT GGACTCTGAG CATAAGTATC ATCATGGGAG CCCCAAGACT GAGTCTCTTA CCCACAATCC TTCAAACAAT AGTAAGCTTG CTGAGTATAT CTGCTTTAGT AAAGTGCCTC CACCAATCTG CTCTATGCCT GACTACATCG CCCAGGAGAA GAAGAAAGCT GAACAGATGG CATCTTCCAT GGACACCGCA AGGGAACCTG AAAAATTGTC CTCTGGAAAG GATCACAACA AACCCTTATC AGCTTTCCCT CAACCCAGTT GCAAGCCCAC CGATATGATT ACCAATAAGT GTCACGGAGG TAACTTTGAA GAGCCTGTGG GGAAGAAAAG CCTTCTCACT TTTCATCCAT CTGATCCCAG CTCTTCTAGC GAGAGCGAGC TGACTTCCTG CGGGCCGGAG ATGCACTCGC TCAGGGAAAC GTCGGCAGTG ACTCTCCTTG GGATCACCAA GCCAGGCCCC AGGCAGAGGG GCTGTGAGTC GCTTAGTCAC AGAGGTTCCT GCAATGACAC GGAGAGTAAC GATGAATCTC TTCCGGAACT TGAGGAGCCA GATGTAACAG AGCCACGGAC TTCATCCAGT CAGAACCAGC TGGCTCACTG TGTGGCCCCG GGGGAGGAAT CGATCAGTAA AGCCAAGCAG AGCCGCAGTG AGAAGAAAGC CAGGAAGGCC ATGTCCAAGC TGGGCCTCCG GCAGATACAC GGGGTCACGC GCATCACCAT CAGGAAGTCC AAGAACATTC TTTTTGTCAT CACGAAGCCC GACGTGTTCA AGAGTCCCGC GTCCGACATC TACATTGTGT TTGGGGAAGC CAAGATCGAA GACTTATCCC AGCAAGTGCA CAAGGCAGCG GCTGAGAAGT TTAAAGTCCC CATGGAACAC TCCCCCCTTA TCACGGAGAC CACGCCCACC CTGACAATAA AAGAGGAGAG CGAGGAAGAA GAGGAGGTGG ATGAGACCGG CTTGGAGGTG CGAGATATTG AACTGGTGAT GGCGCAGGCC AACGTATCAC GCGCCAAGGC CGTACGGGCG CTCAGGCACA ACAACAACGA CATTGTAAAT GCCATCATGG AACTGACCAT GTAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.