The following ECT2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ECT2 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 |
OCa62695 |
| Clone ID Related Accession (Same CDS sequence) |
XM_014938773.1
|
| Accession Version |
XM_014938773.1 Latest version! |
Documents for ORF clone product in default vector |
| Sequence Information |
ORF Nucleotide Sequence (Length: 2949bp)
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 |
2015-12-08 |
| Organism |
Calidris pugnax(ruff) |
| Product |
protein ECT2 |
| Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015090811.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Calidris pugnax Annotation Release 100
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 6.5
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
| ATGGCTGACA ACAGTATGCT GGTGTCTGAA ACTGGGAGGA GCCTCTTGGC TGATTCTTCT
GTTCTTGATT CAAAAATTAT AGAAACCTCC AAAGACAATG TGCTTCCTGG ATCTGTTCTG
GATGTTGAAG AGGAAATGCC TCAAATAGAA ACACGAGTGG TTTTGGTTCA GGAAGCAGGG
AAATGTGAGG AGCTTCTGAA AGCCTTGGAG ACCATTAAGA TAATGGAAGT ACCAGTTATA
AAGATAAAAG AAACTAGTCC TGGTAAATCA GAAGAAAAAC TAATAAAAAG TGTTATTCAT
ATGGAAATTA AAGTGCCCTA CATAAAGACA GAGACGATAG AAGAGCTTGG GGACTCTGAT
TCCCCAGAAT TTGAGACTGT CTTCGTTGTG TCAGACTTCC AAGACTCAGT CTTTAACAAC
CTCTGCAAAG CAGATTGCCG TGTCGTTGGA CCTCCAGTAG TCCTGCACTG TGCACAAAAA
GGAGAGCCTT TACCTTTCTC CTGTCGTCCG CTGTACTGTG CAAGCATGTT GAACTTGGTA
CTCTGCTTCA CAGGATTCAG AAAGAAAGAT GAATTAGTTA AGCTAGTGAC CTTGGTTCAT
CATATGGGTG GAATTATTCG AAGGGACTTC AGCTCCAAAG TTACACACCT GGTGGCTAAC
TCAACACACG GAGACAAATT CAGAATTGCT GTGAGTCTTG GCACTCCTAT TGTGAAAGCT
GAGTGGATTT ATAAGGCTTG GGAGAAGAGG GATGAAATTG ATTTCTGTGC AGCTGATGAT
GACTTCAGAA ATCAATTCAA GGTTCCTCCC TTCCAGGATT GCATGTTAAG TTTCCTTGGA
TTCTCTGATG ATGAGAAAGC TAACATGGAA GAAATGACAG AAATGCAAGG AGGACATTAT
TTACCAGTTG GTGATGAAAG GTGTACGCAC TTAGTGGTTG AAGAAAGTAC AGTAAAAGAT
CTCCCATTTG AACCCTTAAA AAAGCTTTAC GTTGTAAAGC AAGAGTGGTT TTGGGGAAGC
ATTCAAATGG ATGCCAGAGC TGGAGAGTCC ATGTATTTAT TTGAAAAGTC AGAGAGTCCT
GGCCTCAAGA AGTCTGTCTC GCTGCTTTCT CTGAGTACCC CAAACAGCAA TCGCAAAAGA
CGTCGGTTGA AGGAGACCCT GGCACAACTG ACCCGAGAAA CGGACATGTC ACCCTTCCCT
CCTCGGAAGC GCCCGTCAGC TGAACATTCA CTCTCTATTG GGTCCTTGCT GGATATTTCT
AACACTCCAG AGTCCAGCAC TACCAATGGA GAAACACCAA AATCCTGTGC AAGGCCTTCC
AAAAACTCAA CTCCTCTTCC GGCAAAGCAG TCTGCAAGAT GGCAGGTGGC AAAGGAGTTG
TATCAGACAG AAAGCAACTA TGTTGACATA CTGACCACAA TTATTCAGTT ATTTCAAGTT
CCGTTGGAGA AGGAAGGACA ACTTGGAGGA CCAATTCTTG CACAGGAAGA AATTAAGACC
ATATTTGGCA GCATTCCAGA TATTCTGGAT GTGCACACTA AAATCAAGGA AGATCTGGAA
GATCTTATGA TGAATTGGAC TGAAAGCAAA AGCATTGGCG ATATCATTCT TAAATATTCA
AAAGACTTGT TGAAAACATA CCCTCCATTT GTGAATTTCT TCGAAATGAG CAAGGAAACG
ATTACTAGGT GTGAAAAACA GAAGCCAAGG TTTCATGCCT TCCTAAAGAT AAACCAAGCT
AAACCTGAAT GTGGCCGCCA AAGCCTTGCT GAACTCCTGA TCCGTCCTGT TCAAAGGCTG
CCTAGTGTTG CTCTGCTACT AAATGATATT AAGAAGCATA CAGCAGAAGA GAACCCAGAT
AAAATAACTC TAGAGAGAGC CATTGAATCA TTAAAGGAAG TGATGACACA TATTAATGAA
GACAAAAGAA AAACAGAGGC ACAAAGGCAG TTCTTTGACG TCGTCTATGA AGTTGATGGA
TGTCCTGCCA ATCTCTTGTC CTCTCACCGA AGCTTAGTTC AGCGTCTGGA AACCGTAGCG
CTTGGCGATG ACCTCTGTGA CAGGGGAGAA CAGGTCACAC TCTTTCTCTT CAATGATTGC
CTAGAGATTG CAAGGAAACG GCATAAGGTC ATTGGTGCTT TCAAGAGTCC TCATGGCCAC
ACGAGGCCTC CTGCATCTCT CAAGCATGTT GTTCTCATGC CTCTTTCCCA GATCAAGAAA
GTCTTGGACA TCAGGGAGAC AGAAGATTGC CGTAAAGCTT TTGCCTTAGT TGTGCGGCCG
CCAACAGAAC TCAACAATAA GCTCCTCAGC TTCCAGATGA CAACTGAAGA ACCTCCTAAA
GAAGACTGGT TGAAGACGTT GTGTCGGCAC GTGGCTAACA CTATTTGTAA AGCAGATGCA
GAAAATCTCA TTTATACTGC TGATCCTGAT TCAGTTGAAG TAAATACTAA AGATATGGAC
AGTACTTTAA GCAGAGCATC CAGGGCAATA AAGAAAACAT CAAAAAAGGT TACAAGAGCA
TTTTCTTTCT CAAAAACACC AAAGAGAGCT CTTCGAAGGG CTTTAATGTC GCACAGTGCA
ACAGAAGGAG TAAGTCCCAG CTCAGCTAAC GAGAGTTACA TAGGCAGCCG ACTGACTAGT
ACGTCATCGT TAGCGATTGC TCGTTCATCC TCTACGTGCA GCCTAAATGG ATCTGTGAAA
TATGTTGTTA ATGTGCATCG CTCCAACTCT GTTGATTGGA GCTCTCAAAA TTCCAGGCCT
CGACCTGTGC TGTGTCCTGG CTCTCCAAAT GCTGTAGAAG AAAAAACCTC TTCCAACTCG
GAAAGCTTAA ATGGTCATTC CTTGGACACA TCATGTCCTC TCCCTGTTAT TACCACTTGT
GGAGATGCTA GAGATGATGA TAACCAGTGT TGTGCTGAAA AGTTCTGTAC AACAAATCCT
GACTGTTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| RefSeq |
XP_014794259.1 |
| CDS | 117..3065 |
| Translation | |
Target ORF information:
| RefSeq Version | XM_014938773.1 |
| Organism | Calidris pugnax(ruff) |
| Definition | Calidris pugnax epithelial cell transforming 2 (ECT2), mRNA. |
Target ORF information:
| Epitope | DYKDDDDK |
| Bacterial selection | AMPR |
| Mammalian selection | NeoR |
| Vector | pcDNA3.1+/C-(K)DYK |
|
 XM_014938773.1 |
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
| ATGGCTGACA ACAGTATGCT GGTGTCTGAA ACTGGGAGGA GCCTCTTGGC TGATTCTTCT
GTTCTTGATT CAAAAATTAT AGAAACCTCC AAAGACAATG TGCTTCCTGG ATCTGTTCTG
GATGTTGAAG AGGAAATGCC TCAAATAGAA ACACGAGTGG TTTTGGTTCA GGAAGCAGGG
AAATGTGAGG AGCTTCTGAA AGCCTTGGAG ACCATTAAGA TAATGGAAGT ACCAGTTATA
AAGATAAAAG AAACTAGTCC TGGTAAATCA GAAGAAAAAC TAATAAAAAG TGTTATTCAT
ATGGAAATTA AAGTGCCCTA CATAAAGACA GAGACGATAG AAGAGCTTGG GGACTCTGAT
TCCCCAGAAT TTGAGACTGT CTTCGTTGTG TCAGACTTCC AAGACTCAGT CTTTAACAAC
CTCTGCAAAG CAGATTGCCG TGTCGTTGGA CCTCCAGTAG TCCTGCACTG TGCACAAAAA
GGAGAGCCTT TACCTTTCTC CTGTCGTCCG CTGTACTGTG CAAGCATGTT GAACTTGGTA
CTCTGCTTCA CAGGATTCAG AAAGAAAGAT GAATTAGTTA AGCTAGTGAC CTTGGTTCAT
CATATGGGTG GAATTATTCG AAGGGACTTC AGCTCCAAAG TTACACACCT GGTGGCTAAC
TCAACACACG GAGACAAATT CAGAATTGCT GTGAGTCTTG GCACTCCTAT TGTGAAAGCT
GAGTGGATTT ATAAGGCTTG GGAGAAGAGG GATGAAATTG ATTTCTGTGC AGCTGATGAT
GACTTCAGAA ATCAATTCAA GGTTCCTCCC TTCCAGGATT GCATGTTAAG TTTCCTTGGA
TTCTCTGATG ATGAGAAAGC TAACATGGAA GAAATGACAG AAATGCAAGG AGGACATTAT
TTACCAGTTG GTGATGAAAG GTGTACGCAC TTAGTGGTTG AAGAAAGTAC AGTAAAAGAT
CTCCCATTTG AACCCTTAAA AAAGCTTTAC GTTGTAAAGC AAGAGTGGTT TTGGGGAAGC
ATTCAAATGG ATGCCAGAGC TGGAGAGTCC ATGTATTTAT TTGAAAAGTC AGAGAGTCCT
GGCCTCAAGA AGTCTGTCTC GCTGCTTTCT CTGAGTACCC CAAACAGCAA TCGCAAAAGA
CGTCGGTTGA AGGAGACCCT GGCACAACTG ACCCGAGAAA CGGACATGTC ACCCTTCCCT
CCTCGGAAGC GCCCGTCAGC TGAACATTCA CTCTCTATTG GGTCCTTGCT GGATATTTCT
AACACTCCAG AGTCCAGCAC TACCAATGGA GAAACACCAA AATCCTGTGC AAGGCCTTCC
AAAAACTCAA CTCCTCTTCC GGCAAAGCAG TCTGCAAGAT GGCAGGTGGC AAAGGAGTTG
TATCAGACAG AAAGCAACTA TGTTGACATA CTGACCACAA TTATTCAGTT ATTTCAAGTT
CCGTTGGAGA AGGAAGGACA ACTTGGAGGA CCAATTCTTG CACAGGAAGA AATTAAGACC
ATATTTGGCA GCATTCCAGA TATTCTGGAT GTGCACACTA AAATCAAGGA AGATCTGGAA
GATCTTATGA TGAATTGGAC TGAAAGCAAA AGCATTGGCG ATATCATTCT TAAATATTCA
AAAGACTTGT TGAAAACATA CCCTCCATTT GTGAATTTCT TCGAAATGAG CAAGGAAACG
ATTACTAGGT GTGAAAAACA GAAGCCAAGG TTTCATGCCT TCCTAAAGAT AAACCAAGCT
AAACCTGAAT GTGGCCGCCA AAGCCTTGCT GAACTCCTGA TCCGTCCTGT TCAAAGGCTG
CCTAGTGTTG CTCTGCTACT AAATGATATT AAGAAGCATA CAGCAGAAGA GAACCCAGAT
AAAATAACTC TAGAGAGAGC CATTGAATCA TTAAAGGAAG TGATGACACA TATTAATGAA
GACAAAAGAA AAACAGAGGC ACAAAGGCAG TTCTTTGACG TCGTCTATGA AGTTGATGGA
TGTCCTGCCA ATCTCTTGTC CTCTCACCGA AGCTTAGTTC AGCGTCTGGA AACCGTAGCG
CTTGGCGATG ACCTCTGTGA CAGGGGAGAA CAGGTCACAC TCTTTCTCTT CAATGATTGC
CTAGAGATTG CAAGGAAACG GCATAAGGTC ATTGGTGCTT TCAAGAGTCC TCATGGCCAC
ACGAGGCCTC CTGCATCTCT CAAGCATGTT GTTCTCATGC CTCTTTCCCA GATCAAGAAA
GTCTTGGACA TCAGGGAGAC AGAAGATTGC CGTAAAGCTT TTGCCTTAGT TGTGCGGCCG
CCAACAGAAC TCAACAATAA GCTCCTCAGC TTCCAGATGA CAACTGAAGA ACCTCCTAAA
GAAGACTGGT TGAAGACGTT GTGTCGGCAC GTGGCTAACA CTATTTGTAA AGCAGATGCA
GAAAATCTCA TTTATACTGC TGATCCTGAT TCAGTTGAAG TAAATACTAA AGATATGGAC
AGTACTTTAA GCAGAGCATC CAGGGCAATA AAGAAAACAT CAAAAAAGGT TACAAGAGCA
TTTTCTTTCT CAAAAACACC AAAGAGAGCT CTTCGAAGGG CTTTAATGTC GCACAGTGCA
ACAGAAGGAG TAAGTCCCAG CTCAGCTAAC GAGAGTTACA TAGGCAGCCG ACTGACTAGT
ACGTCATCGT TAGCGATTGC TCGTTCATCC TCTACGTGCA GCCTAAATGG ATCTGTGAAA
TATGTTGTTA ATGTGCATCG CTCCAACTCT GTTGATTGGA GCTCTCAAAA TTCCAGGCCT
CGACCTGTGC TGTGTCCTGG CTCTCCAAAT GCTGTAGAAG AAAAAACCTC TTCCAACTCG
GAAAGCTTAA ATGGTCATTC CTTGGACACA TCATGTCCTC TCCCTGTTAT TACCACTTGT
GGAGATGCTA GAGATGATGA TAACCAGTGT TGTGCTGAAA AGTTCTGTAC AACAAATCCT
GACTGTTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
