| Gene Symbol | STARD13 |
| Entrez Gene ID | 100228187 |
| Full Name | StAR related lipid transfer domain containing 13 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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STARD13 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following STARD13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the STARD13 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.
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Reference Sequences (Refseq)
CloneID OTd04507 Clone ID Related Accession (Same CDS sequence) XM_002195719.2 Accession Version XM_002195719.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3357bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1432483200000 Organism Taeniopygia guttata(zebra finch) Product stAR-related lipid transfer protein 13 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197691.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002195719.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 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
3301ATGCTGAAGC AGGTGCCCCG GGCCGCGGGC ACCGCCTGTT TCTACCTGAA CGCGGTGTCC
CCCGAGGGCC AGGAGCTCTT CTGGCGCTGC GATCCGCCCG CCCGGCGCCC TCCCTACAGG
ACCAGCAGGA TTCTCGCCCG GCACCAGCTG GTGACGAAAA TTCAGCAAGA AATCGAAGCA
AAGGAAGCGT GTGACTGGTT ACGTGCTGCT GGATTTCCCC AATATGCTCA ATTCTATGAG
GACTCCCAGT TTCCCATTGA CATTGCTGCA GTAAAGAAAG ATCATGATTT TCTTGACAAG
GACCTTGTAG AACCTCTTTG CAGACGACTG AACACACTGA ACAAGTGCGC CTCAATGAAA
CTCGATGTGA ACTTCCAAAG AAAAAAGAGT GAAGATTCAG ATGAAGAAGA TCTCTGTGCT
ATCAGTAATA AATGGACTTT TCAAAGAACC AGCAAAAGAT GGTCTCGGGT GGACGACATT
GACACTCTGC TTCACCGATC CGACAGACAT GGCTCTTCTG GGGACATTAA AATGAAAAAC
ACGACAAGCA GTGAGAGCGT CCTTACAGAT CTGAGTGAAC CTGAGCTCTC ATCAATTCAC
AGCGAGAGCA GTGGGGGCAG TGACAACAGG AGCCAATCTG GCACCACCAG CGCTGCCAGG
GAGGCCTGCG ACTGCTCTGC CCATCATGAT GTGGAAAGCA CCCTGGTGCA GGACTCTGCT
GCAATAATCA CCGCCCCATC CCCCAAGGAC GGCCTGAAGA ATGAAAATCC AACACGAGCC
AGAGCAAAAA CCTTTCTAAA ACGCATGGAG ACACTAAAAG CAAAAGCTGT GCATGGAAAA
CTAAAAGGCT CGGGAAGAAC AGGTCCTTTA GAGATCAGTG GACCAGTTCT CCAGTTTGAG
CCAAAATCCT TGAAAGACAT GCACTGTGTA CAGATTGTCA ATGGCGATCT TCAAAATCTG
GGGCAAGATT CAGTCAAAAG AGGGCTTCCC TTTTCTGCCA AATCCAGCAG TGACAGCAGT
CAGTCCGAAA ACAGCAGCAG TGGAGTGAGC ACGCCATGTC TGAAGGAACA CAAGTGCCAT
GAAGCAAACA AGAGAGGTGG GATGTACCTG GAGGACCTGG ATGTTCTGGC AGGAACGGCC
TTACGGCAAG TGGTGGACCA AAACCGCAAA AATGAATTTC ATTCCCAGGA GAACTTGGTT
GTGCACATTC CCAAGGATCA CAAACCGGGG ACCTTCCCAA AGGCACTTTC TATCGAAAGC
CTCTCACCTA CAGACAATAG TAACAGTGTA AACTGGAGGA CGGGCAGCAT CTCTTTGGGA
AAGCAGAACT GCTCTACTCC AAAGGAATCT GGACTGATGG CTTGCTGTCC TAAAGAGAGC
AGAATTAGTA TTTATGACAA TGTGCCAGGT TCCCACTTGT ATGCTAGTAC TGGGGACCTC
CTGGACATAG AGAAAGATGT CCTTTTTCCT CAGTTAGATG ACATTTTGCA ACATGTCAAT
GGACTGCAGG AGGTGGTAGA TGGCTGGTCA AAGAAGCTGT TGCCAGGTCT GCCGGTTGGT
GACGTGTCGG TCAGGGAATC CCCATCATTG CCTTTCCAGT CGCCTACACA GATCACTCTC
GATTTTGAAG GAAACTCTGT GTCCGATGGC CGAACCACCC CAAGTGACAT GGACAGAGAT
GGAACATCCC TGAATGAATC CGAAGCCACT GGTGTTAGGG ACAGGAGGGA CTCTGGGGTG
GGAGCATCTC TCACAAGGCC AAGCAGGCAA TTACGATGGC AAAGTTTCCA AATCTCTCAT
CGCCTGAGCC GCTCCATTGC GTCGCTTCAC ATCAGCAACC AGTCAGCAGC CCAGCTGAAT
CTACTACAAA AATTCTCTCT GCTTCGTCTC ACTGCCATCA TGGAAAAGTA CTCCATGTCA
AACAAACATG GCTGGACCTG GTCTGTGCCA AAGTTCATGA AGAGGATGAA AGTCCCTGAC
TACAAGGACA AGAACGTCTT TGGTGTGCCC CTGATAGTTC ACGTTCAGAG AACGGGGCAG
CCTCTTCCCC AGAGCATACA ACAAGCCCTG CGCTACCTAC GGAGCAACTG TCTAGACCAG
GTGGGTCTGT TTCGGAAATC TGGAGTGAAA TCCCGAATCC AGGCCCTGCG TCAGATGAAC
GAGAGCTCCC CAGAAAACGT CAGCTATGAA GACCAGTCCG CATACGATGT GGCTGACATG
GTCAAGCAAT TCTTCAGAGA CTTGCCAGAA CCTCTCCTCA CAAGTAAACT AGGAGAGACT
TTTCTGCACA TCTATCAATA CGTGCCCAAG GAGCAGCGGC TGCAGGCGGT GCAGGCAGCA
ATCATGCTCA TGGCCGACGA GAACAGGGAG GTTCTGCAGA CTCTGCTCTG CTTCCTCAGC
GACGTCACCT CCGTGGAGGA AAATCAGATG ACTCCCATGA ACATCGCTGT TTGTCTGGCC
CCTTCCCTCT TCCATCTCAA TATAGTGAAG AAAGAAAGCT CACCAAGAGT AATACAGAAA
AAATATGCAA CAGGGAAGCC AGATCAGAAG GACCTCAGTG AAAACCTGGC AGCTACTCAG
GGACTTGCTC ACATGATAAT GGAATGCAAC AAACTTTTTG AGGTCCCACA CGAGATGATC
ACCCAATCCC GAAACTCCTA TGTCGATGCA GAAGTGCATT CTCCTACCCT GGATGAGCTT
GGGAAACAAG TGGATGAGGA AGGAGGGAAC TATCAGATGT ACCTGGAAAC TCTCATGCAG
AATCTCCAGA AAGAAGCAAA AGAGAAATTC AAAGGATGGG TCACATGTTC CAGTGTAGAG
AACACAGAAC TCGCCTACAA AAAGGTTGGG GATGGGAACC CACTAAGGCT TTGGAAAGCC
TCAGTTGAAG TTGAAGCCCC TCCATCAGTT GTCCTGAACC GGGTGCTGAG AGAACGTCAC
CTTTGGGACG AGGATTTCTT GCAGTGGAAG GTGGTTGAGA GCCTGGACAA GCAGACGGAA
GTTTACCAGT ATGTTTTGAA CACCATGGCT CCTCACCCTG TCCGAGACTT TGTTGTTCTC
AGGACGTGGA GGACGGATTT GCCCAAGGGG ATGTGCATGC TGGTTGCCAT CTCTGTGGAG
CATGAAGAGG CTCCTCTCAT GGGAGCTGTG CGAGCCATCG TGATGGACTC CCAGTACTTG
ATAGAGCCCT GCGGCTCGGG GAAAGCCAGG CTGACCCACA TCTGCAGGAT TGACCTAAAA
GGACATTCCC CAGAGTGGTA CAACAAAGGC TTTGGACATC TGTGTGCAGC AGAAGTTGCC
AGGATCAGAA ACTCATTTCA ACCTCTGATT GCTGAGGGAC CAGAAACAAA AATCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002195755.1 CDS 1..3357 Translation 
Target ORF information:
RefSeq Version XM_002195719.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata StAR-related lipid transfer (START) domain containing 13 (STARD13), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002195719.2
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
3301ATGCTGAAGC AGGTGCCCCG GGCCGCGGGC ACCGCCTGTT TCTACCTGAA CGCGGTGTCC
CCCGAGGGCC AGGAGCTCTT CTGGCGCTGC GATCCGCCCG CCCGGCGCCC TCCCTACAGG
ACCAGCAGGA TTCTCGCCCG GCACCAGCTG GTGACGAAAA TTCAGCAAGA AATCGAAGCA
AAGGAAGCGT GTGACTGGTT ACGTGCTGCT GGATTTCCCC AATATGCTCA ATTCTATGAG
GACTCCCAGT TTCCCATTGA CATTGCTGCA GTAAAGAAAG ATCATGATTT TCTTGACAAG
GACCTTGTAG AACCTCTTTG CAGACGACTG AACACACTGA ACAAGTGCGC CTCAATGAAA
CTCGATGTGA ACTTCCAAAG AAAAAAGAGT GAAGATTCAG ATGAAGAAGA TCTCTGTGCT
ATCAGTAATA AATGGACTTT TCAAAGAACC AGCAAAAGAT GGTCTCGGGT GGACGACATT
GACACTCTGC TTCACCGATC CGACAGACAT GGCTCTTCTG GGGACATTAA AATGAAAAAC
ACGACAAGCA GTGAGAGCGT CCTTACAGAT CTGAGTGAAC CTGAGCTCTC ATCAATTCAC
AGCGAGAGCA GTGGGGGCAG TGACAACAGG AGCCAATCTG GCACCACCAG CGCTGCCAGG
GAGGCCTGCG ACTGCTCTGC CCATCATGAT GTGGAAAGCA CCCTGGTGCA GGACTCTGCT
GCAATAATCA CCGCCCCATC CCCCAAGGAC GGCCTGAAGA ATGAAAATCC AACACGAGCC
AGAGCAAAAA CCTTTCTAAA ACGCATGGAG ACACTAAAAG CAAAAGCTGT GCATGGAAAA
CTAAAAGGCT CGGGAAGAAC AGGTCCTTTA GAGATCAGTG GACCAGTTCT CCAGTTTGAG
CCAAAATCCT TGAAAGACAT GCACTGTGTA CAGATTGTCA ATGGCGATCT TCAAAATCTG
GGGCAAGATT CAGTCAAAAG AGGGCTTCCC TTTTCTGCCA AATCCAGCAG TGACAGCAGT
CAGTCCGAAA ACAGCAGCAG TGGAGTGAGC ACGCCATGTC TGAAGGAACA CAAGTGCCAT
GAAGCAAACA AGAGAGGTGG GATGTACCTG GAGGACCTGG ATGTTCTGGC AGGAACGGCC
TTACGGCAAG TGGTGGACCA AAACCGCAAA AATGAATTTC ATTCCCAGGA GAACTTGGTT
GTGCACATTC CCAAGGATCA CAAACCGGGG ACCTTCCCAA AGGCACTTTC TATCGAAAGC
CTCTCACCTA CAGACAATAG TAACAGTGTA AACTGGAGGA CGGGCAGCAT CTCTTTGGGA
AAGCAGAACT GCTCTACTCC AAAGGAATCT GGACTGATGG CTTGCTGTCC TAAAGAGAGC
AGAATTAGTA TTTATGACAA TGTGCCAGGT TCCCACTTGT ATGCTAGTAC TGGGGACCTC
CTGGACATAG AGAAAGATGT CCTTTTTCCT CAGTTAGATG ACATTTTGCA ACATGTCAAT
GGACTGCAGG AGGTGGTAGA TGGCTGGTCA AAGAAGCTGT TGCCAGGTCT GCCGGTTGGT
GACGTGTCGG TCAGGGAATC CCCATCATTG CCTTTCCAGT CGCCTACACA GATCACTCTC
GATTTTGAAG GAAACTCTGT GTCCGATGGC CGAACCACCC CAAGTGACAT GGACAGAGAT
GGAACATCCC TGAATGAATC CGAAGCCACT GGTGTTAGGG ACAGGAGGGA CTCTGGGGTG
GGAGCATCTC TCACAAGGCC AAGCAGGCAA TTACGATGGC AAAGTTTCCA AATCTCTCAT
CGCCTGAGCC GCTCCATTGC GTCGCTTCAC ATCAGCAACC AGTCAGCAGC CCAGCTGAAT
CTACTACAAA AATTCTCTCT GCTTCGTCTC ACTGCCATCA TGGAAAAGTA CTCCATGTCA
AACAAACATG GCTGGACCTG GTCTGTGCCA AAGTTCATGA AGAGGATGAA AGTCCCTGAC
TACAAGGACA AGAACGTCTT TGGTGTGCCC CTGATAGTTC ACGTTCAGAG AACGGGGCAG
CCTCTTCCCC AGAGCATACA ACAAGCCCTG CGCTACCTAC GGAGCAACTG TCTAGACCAG
GTGGGTCTGT TTCGGAAATC TGGAGTGAAA TCCCGAATCC AGGCCCTGCG TCAGATGAAC
GAGAGCTCCC CAGAAAACGT CAGCTATGAA GACCAGTCCG CATACGATGT GGCTGACATG
GTCAAGCAAT TCTTCAGAGA CTTGCCAGAA CCTCTCCTCA CAAGTAAACT AGGAGAGACT
TTTCTGCACA TCTATCAATA CGTGCCCAAG GAGCAGCGGC TGCAGGCGGT GCAGGCAGCA
ATCATGCTCA TGGCCGACGA GAACAGGGAG GTTCTGCAGA CTCTGCTCTG CTTCCTCAGC
GACGTCACCT CCGTGGAGGA AAATCAGATG ACTCCCATGA ACATCGCTGT TTGTCTGGCC
CCTTCCCTCT TCCATCTCAA TATAGTGAAG AAAGAAAGCT CACCAAGAGT AATACAGAAA
AAATATGCAA CAGGGAAGCC AGATCAGAAG GACCTCAGTG AAAACCTGGC AGCTACTCAG
GGACTTGCTC ACATGATAAT GGAATGCAAC AAACTTTTTG AGGTCCCACA CGAGATGATC
ACCCAATCCC GAAACTCCTA TGTCGATGCA GAAGTGCATT CTCCTACCCT GGATGAGCTT
GGGAAACAAG TGGATGAGGA AGGAGGGAAC TATCAGATGT ACCTGGAAAC TCTCATGCAG
AATCTCCAGA AAGAAGCAAA AGAGAAATTC AAAGGATGGG TCACATGTTC CAGTGTAGAG
AACACAGAAC TCGCCTACAA AAAGGTTGGG GATGGGAACC CACTAAGGCT TTGGAAAGCC
TCAGTTGAAG TTGAAGCCCC TCCATCAGTT GTCCTGAACC GGGTGCTGAG AGAACGTCAC
CTTTGGGACG AGGATTTCTT GCAGTGGAAG GTGGTTGAGA GCCTGGACAA GCAGACGGAA
GTTTACCAGT ATGTTTTGAA CACCATGGCT CCTCACCCTG TCCGAGACTT TGTTGTTCTC
AGGACGTGGA GGACGGATTT GCCCAAGGGG ATGTGCATGC TGGTTGCCAT CTCTGTGGAG
CATGAAGAGG CTCCTCTCAT GGGAGCTGTG CGAGCCATCG TGATGGACTC CCAGTACTTG
ATAGAGCCCT GCGGCTCGGG GAAAGCCAGG CTGACCCACA TCTGCAGGAT TGACCTAAAA
GGACATTCCC CAGAGTGGTA CAACAAAGGC TTTGGACATC TGTGTGCAGC AGAAGTTGCC
AGGATCAGAA ACTCATTTCA ACCTCTGATT GCTGAGGGAC CAGAAACAAA AATCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd18688 Clone ID Related Accession (Same CDS sequence) XM_012569805.1 Accession Version XM_012569805.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3003bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1432483200000 Organism Taeniopygia guttata(zebra finch) Product stAR-related lipid transfer protein 13 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197691.1) 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 :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 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
3001ATGAAACTCG ATGTGAACTT CCAAAGAAAA AAGAGTGAAG ATTCAGATGA AGAAGATCTC
TGTGCTATCA GTAATAAATG GACTTTTCAA AGAACCAGCA AAAGATGGTC TCGGGTGGAC
GACATTGACA CTCTGCTTCA CCGATCCGAC AGACATGGCT CTTCTGGGGA CATTAAAATG
AAAAACACGA CAAGCAGTGA GAGCGTCCTT ACAGATCTGA GTGAACCTGA GCTCTCATCA
ATTCACAGCG AGAGCAGTGG GGGCAGTGAC AACAGGAGCC AATCTGGCAC CACCAGCGCT
GCCAGGGAGG CCTGCGACTG CTCTGCCCAT CATGATGTGG AAAGCACCCT GGTGCAGGAC
TCTGCTGCAA TAATCACCGC CCCATCCCCC AAGGACGGCC TGAAGAATGA AAATCCAACA
CGAGCCAGAG CAAAAACCTT TCTAAAACGC ATGGAGACAC TAAAAGCAAA AGCTGTGCAT
GGAAAACTAA AAGGCTCGGG AAGAACAGGT CCTTTAGAGA TCAGTGGACC AGTTCTCCAG
TTTGAGCCAA AATCCTTGAA AGACATGCAC TGTGTACAGA TTGTCAATGG CGATCTTCAA
AATCTGGGGC AAGATTCAGT CAAAAGAGGG CTTCCCTTTT CTGCCAAATC CAGCAGTGAC
AGCAGTCAGT CCGAAAACAG CAGCAGTGGA GTGAGCACGC CATGTCTGAA GGAACACAAG
TGCCATGAAG CAAACAAGAG AGGTGGGATG TACCTGGAGG ACCTGGATGT TCTGGCAGGA
ACGGCCTTAC GGCAAGTGGT GGACCAAAAC CGCAAAAATG AATTTCATTC CCAGGAGAAC
TTGGTTGTGC ACATTCCCAA GGATCACAAA CCGGGGACCT TCCCAAAGGC ACTTTCTATC
GAAAGCCTCT CACCTACAGA CAATAGTAAC AGTGTAAACT GGAGGACGGG CAGCATCTCT
TTGGGAAAGC AGAACTGCTC TACTCCAAAG GAATCTGGAC TGATGGCTTG CTGTCCTAAA
GAGAGCAGAA TTAGTATTTA TGACAATGTG CCAGGTTCCC ACTTGTATGC TAGTACTGGG
GACCTCCTGG ACATAGAGAA AGATGTCCTT TTTCCTCAGT TAGATGACAT TTTGCAACAT
GTCAATGGAC TGCAGGAGGT GGTAGATGGC TGGTCAAAGA AGCTGTTGCC AGGTCTGCCG
GTTGGTGACG TGTCGGTCAG GGAATCCCCA TCATTGCCTT TCCAGTCGCC TACACAGATC
ACTCTCGATT TTGAAGGAAA CTCTGTGTCC GATGGCCGAA CCACCCCAAG TGACATGGAC
AGAGATGGAA CATCCCTGAA TGAATCCGAA GCCACTGGTG TTAGGGACAG GAGGGACTCT
GGGGTGGGAG CATCTCTCAC AAGGCCAAGC AGGCAATTAC GATGGCAAAG TTTCCAAATC
TCTCATCGCC TGAGCCGCTC CATTGCGTCG CTTCACATCA GCAACCAGTC AGCAGCCCAG
CTGAATCTAC TACAAAAATT CTCTCTGCTT CGTCTCACTG CCATCATGGA AAAGTACTCC
ATGTCAAACA AACATGGCTG GACCTGGTCT GTGCCAAAGT TCATGAAGAG GATGAAAGTC
CCTGACTACA AGGACAAGAA CGTCTTTGGT GTGCCCCTGA TAGTTCACGT TCAGAGAACG
GGGCAGCCTC TTCCCCAGAG CATACAACAA GCCCTGCGCT ACCTACGGAG CAACTGTCTA
GACCAGGTGG GTCTGTTTCG GAAATCTGGA GTGAAATCCC GAATCCAGGC CCTGCGTCAG
ATGAACGAGA GCTCCCCAGA AAACGTCAGC TATGAAGACC AGTCCGCATA CGATGTGGCT
GACATGGTCA AGCAATTCTT CAGAGACTTG CCAGAACCTC TCCTCACAAG TAAACTAGGA
GAGACTTTTC TGCACATCTA TCAATACGTG CCCAAGGAGC AGCGGCTGCA GGCGGTGCAG
GCAGCAATCA TGCTCATGGC CGACGAGAAC AGGGAGGTTC TGCAGACTCT GCTCTGCTTC
CTCAGCGACG TCACCTCCGT GGAGGAAAAT CAGATGACTC CCATGAACAT CGCTGTTTGT
CTGGCCCCTT CCCTCTTCCA TCTCAATATA GTGAAGAAAG AAAGCTCACC AAGAGTAATA
CAGAAAAAAT ATGCAACAGG GAAGCCAGAT CAGAAGGACC TCAGTGAAAA CCTGGCAGCT
ACTCAGGGAC TTGCTCACAT GATAATGGAA TGCAACAAAC TTTTTGAGGT CCCACACGAG
ATGATCACCC AATCCCGAAA CTCCTATGTC GATGCAGAAG TGCATTCTCC TACCCTGGAT
GAGCTTGGGA AACAAGTGGA TGAGGAAGGA GGGAACTATC AGATGTACCT GGAAACTCTC
ATGCAGAATC TCCAGAAAGA AGCAAAAGAG AAATTCAAAG GATGGGTCAC ATGTTCCAGT
GTAGAGAACA CAGAACTCGC CTACAAAAAG GTTGGGGATG GGAACCCACT AAGGCTTTGG
AAAGCCTCAG TTGAAGTTGA AGCCCCTCCA TCAGTTGTCC TGAACCGGGT GCTGAGAGAA
CGTCACCTTT GGGACGAGGA TTTCTTGCAG TGGAAGGTGG TTGAGAGCCT GGACAAGCAG
ACGGAAGTTT ACCAGTATGT TTTGAACACC ATGGCTCCTC ACCCTGTCCG AGACTTTGTT
GTTCTCAGGA CGTGGAGGAC GGATTTGCCC AAGGGGATGT GCATGCTGGT TGCCATCTCT
GTGGAGCATG AAGAGGCTCC TCTCATGGGA GCTGTGCGAG CCATCGTGAT GGACTCCCAG
TACTTGATAG AGCCCTGCGG CTCGGGGAAA GCCAGGCTGA CCCACATCTG CAGGATTGAC
CTAAAAGGAC ATTCCCCAGA GTGGTACAAC AAAGGCTTTG GACATCTGTG TGCAGCAGAA
GTTGCCAGGA TCAGAAACTC ATTTCAACCT CTGATTGCTG AGGGACCAGA AACAAAAATC
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012425259.1 CDS 395..3397 Translation
Target ORF information:
RefSeq Version XM_012569805.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata StAR-related lipid transfer (START) domain containing 13 (STARD13), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012569805.1
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
3001ATGAAACTCG ATGTGAACTT CCAAAGAAAA AAGAGTGAAG ATTCAGATGA AGAAGATCTC
TGTGCTATCA GTAATAAATG GACTTTTCAA AGAACCAGCA AAAGATGGTC TCGGGTGGAC
GACATTGACA CTCTGCTTCA CCGATCCGAC AGACATGGCT CTTCTGGGGA CATTAAAATG
AAAAACACGA CAAGCAGTGA GAGCGTCCTT ACAGATCTGA GTGAACCTGA GCTCTCATCA
ATTCACAGCG AGAGCAGTGG GGGCAGTGAC AACAGGAGCC AATCTGGCAC CACCAGCGCT
GCCAGGGAGG CCTGCGACTG CTCTGCCCAT CATGATGTGG AAAGCACCCT GGTGCAGGAC
TCTGCTGCAA TAATCACCGC CCCATCCCCC AAGGACGGCC TGAAGAATGA AAATCCAACA
CGAGCCAGAG CAAAAACCTT TCTAAAACGC ATGGAGACAC TAAAAGCAAA AGCTGTGCAT
GGAAAACTAA AAGGCTCGGG AAGAACAGGT CCTTTAGAGA TCAGTGGACC AGTTCTCCAG
TTTGAGCCAA AATCCTTGAA AGACATGCAC TGTGTACAGA TTGTCAATGG CGATCTTCAA
AATCTGGGGC AAGATTCAGT CAAAAGAGGG CTTCCCTTTT CTGCCAAATC CAGCAGTGAC
AGCAGTCAGT CCGAAAACAG CAGCAGTGGA GTGAGCACGC CATGTCTGAA GGAACACAAG
TGCCATGAAG CAAACAAGAG AGGTGGGATG TACCTGGAGG ACCTGGATGT TCTGGCAGGA
ACGGCCTTAC GGCAAGTGGT GGACCAAAAC CGCAAAAATG AATTTCATTC CCAGGAGAAC
TTGGTTGTGC ACATTCCCAA GGATCACAAA CCGGGGACCT TCCCAAAGGC ACTTTCTATC
GAAAGCCTCT CACCTACAGA CAATAGTAAC AGTGTAAACT GGAGGACGGG CAGCATCTCT
TTGGGAAAGC AGAACTGCTC TACTCCAAAG GAATCTGGAC TGATGGCTTG CTGTCCTAAA
GAGAGCAGAA TTAGTATTTA TGACAATGTG CCAGGTTCCC ACTTGTATGC TAGTACTGGG
GACCTCCTGG ACATAGAGAA AGATGTCCTT TTTCCTCAGT TAGATGACAT TTTGCAACAT
GTCAATGGAC TGCAGGAGGT GGTAGATGGC TGGTCAAAGA AGCTGTTGCC AGGTCTGCCG
GTTGGTGACG TGTCGGTCAG GGAATCCCCA TCATTGCCTT TCCAGTCGCC TACACAGATC
ACTCTCGATT TTGAAGGAAA CTCTGTGTCC GATGGCCGAA CCACCCCAAG TGACATGGAC
AGAGATGGAA CATCCCTGAA TGAATCCGAA GCCACTGGTG TTAGGGACAG GAGGGACTCT
GGGGTGGGAG CATCTCTCAC AAGGCCAAGC AGGCAATTAC GATGGCAAAG TTTCCAAATC
TCTCATCGCC TGAGCCGCTC CATTGCGTCG CTTCACATCA GCAACCAGTC AGCAGCCCAG
CTGAATCTAC TACAAAAATT CTCTCTGCTT CGTCTCACTG CCATCATGGA AAAGTACTCC
ATGTCAAACA AACATGGCTG GACCTGGTCT GTGCCAAAGT TCATGAAGAG GATGAAAGTC
CCTGACTACA AGGACAAGAA CGTCTTTGGT GTGCCCCTGA TAGTTCACGT TCAGAGAACG
GGGCAGCCTC TTCCCCAGAG CATACAACAA GCCCTGCGCT ACCTACGGAG CAACTGTCTA
GACCAGGTGG GTCTGTTTCG GAAATCTGGA GTGAAATCCC GAATCCAGGC CCTGCGTCAG
ATGAACGAGA GCTCCCCAGA AAACGTCAGC TATGAAGACC AGTCCGCATA CGATGTGGCT
GACATGGTCA AGCAATTCTT CAGAGACTTG CCAGAACCTC TCCTCACAAG TAAACTAGGA
GAGACTTTTC TGCACATCTA TCAATACGTG CCCAAGGAGC AGCGGCTGCA GGCGGTGCAG
GCAGCAATCA TGCTCATGGC CGACGAGAAC AGGGAGGTTC TGCAGACTCT GCTCTGCTTC
CTCAGCGACG TCACCTCCGT GGAGGAAAAT CAGATGACTC CCATGAACAT CGCTGTTTGT
CTGGCCCCTT CCCTCTTCCA TCTCAATATA GTGAAGAAAG AAAGCTCACC AAGAGTAATA
CAGAAAAAAT ATGCAACAGG GAAGCCAGAT CAGAAGGACC TCAGTGAAAA CCTGGCAGCT
ACTCAGGGAC TTGCTCACAT GATAATGGAA TGCAACAAAC TTTTTGAGGT CCCACACGAG
ATGATCACCC AATCCCGAAA CTCCTATGTC GATGCAGAAG TGCATTCTCC TACCCTGGAT
GAGCTTGGGA AACAAGTGGA TGAGGAAGGA GGGAACTATC AGATGTACCT GGAAACTCTC
ATGCAGAATC TCCAGAAAGA AGCAAAAGAG AAATTCAAAG GATGGGTCAC ATGTTCCAGT
GTAGAGAACA CAGAACTCGC CTACAAAAAG GTTGGGGATG GGAACCCACT AAGGCTTTGG
AAAGCCTCAG TTGAAGTTGA AGCCCCTCCA TCAGTTGTCC TGAACCGGGT GCTGAGAGAA
CGTCACCTTT GGGACGAGGA TTTCTTGCAG TGGAAGGTGG TTGAGAGCCT GGACAAGCAG
ACGGAAGTTT ACCAGTATGT TTTGAACACC ATGGCTCCTC ACCCTGTCCG AGACTTTGTT
GTTCTCAGGA CGTGGAGGAC GGATTTGCCC AAGGGGATGT GCATGCTGGT TGCCATCTCT
GTGGAGCATG AAGAGGCTCC TCTCATGGGA GCTGTGCGAG CCATCGTGAT GGACTCCCAG
TACTTGATAG AGCCCTGCGG CTCGGGGAAA GCCAGGCTGA CCCACATCTG CAGGATTGAC
CTAAAAGGAC ATTCCCCAGA GTGGTACAAC AAAGGCTTTG GACATCTGTG TGCAGCAGAA
GTTGCCAGGA TCAGAAACTC ATTTCAACCT CTGATTGCTG AGGGACCAGA AACAAAAATC
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd25112 Clone ID Related Accession (Same CDS sequence) XM_030274251.1 Accession Version XM_030274251.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4242bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product stAR-related lipid transfer protein 13 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
4201ATGGAAACTA ACATCTATGA AGAAGAACAG GGCTCACCTT ATCTTACATC TGCCGAGTGT
CTGGGAACTC CAAAGGAAGC CAAGTATGAA GAATACCAAA GAAAGACAGA AAATCAGACA
AGTCCATATG AATTTCAGAA TTCATTATTG GAACCTGAGC TAAGCTTGCT GTCTGTGTCA
TCCTTATTGG ACAACAATGA GACATCCTTA CAATTTGGCA TGGCTGCAGG GCGTGCCAGT
GCCACCAGCC AGCCTGAGAC AAAGCACCTT TGTGGAGAAT TATCTTGTTC TACAAAGCAC
ACGTCAAAGG AAGATCATTT AAACCTTCCC AGGAACACAG AATGGCCAGT CCTCACAGGA
AAAAATTCAG ATAAGAAACC AGAAATAAAT TATGAGATCA GAGTCATAGA ACACAAACCA
TGTGCTATCA CATTTTCTGA TTTTGAATTT TTATCACATG AAGCTGACAC TAAGCTCCAT
ATTTGTGAGG CAGGAAAAGC AGATGATTTT TCTTCTGAAG AGGAAGAGAA AGGTAACAGA
GGTGATAATG ACACATTTAC AGAACTGCCA CTTTATGACA CATTTTTCAA AGGTCTTCAG
AGAAGGAATG TTTCCCAAAG AAAGCAAGCT CAACATGAAC TTACTAAATA TCAGCACATC
TGTCATTTAG AAGACTGCAA TAATAATTCT GAAAAGGCAT TGAAGGACCA TGACAAAGAA
GAAAAACACA TGGGGCTGGA GACCCAACCA GAAAAAGAAT CTGAATGGCC AGACTCTATG
TCATGGCTTA TGAAGAAACT GGAACGGTTG AACTTAGATA TTGAAGAAGC TCTGAGTGCT
GGCTCTTCTC CCTCCAGTAC TCCTTCTAAA AGGCACAAGC AACTGTGCCC TATTCAAGTA
GAGACAGGCC TTTATGGAGA TTATCAAGAA AAAGGATCTT GGAAAAATAG AAGAGGAGAC
TACCAGTATC TAAATTGTTT ACCTTACCGA GTGTTGACTG GAGCACGGCC TAAATCTGAT
ATGCTGTTTC AGAAGCTGTG CAAGGAAAAA GCAGAAATTG AAGCAAAGGA AGCGTGTGAC
TGGTTACGTG CAGCTGGATT TCCCCAATAT GCTCAATTCT ATGAGGACTC CCAGTTTCCC
ATTGACATTG CTGCAGTAAA GAAAGATCAT GATTTTCTTG ACAAGGACCT TGTAGAACCT
CTTTGCAGAC GACTGAACAC ACTGAACAAG TGCGCCTCAA TGAAACTCGA TGTGAACTTC
CAAAGAAAAA AGAGTGAAGA TTCAGATGAA GAAGATCTCT GTGCTATCAG TAATAAATGG
ACTTTTCAAA GAACCAGCAA AAGATGGTCT CGGGTGGACG ACATTGACAC TCTGCTTCAC
CGATCCGACA GACATGGCTC TTCTGGGGAC ATTAAAATGA AAAACACGAC AAGCAGTGAG
AGCGTCCTTA CAGATCTGAG TGAACCTGAG CTCTCATCAA TTCACAGCGA GAGCAGTGGG
GGCAGTGACA ACAGGAGCCA ATCTGGCACC ACCAGCGCTG CCAGGGAGGC CTGTGACTGC
TCTGCCCATC ATGATGTGGA AAGCACCCTG GTGCAGGACT CTGCTGCAAT AATCACCGCC
CCATCCCCCA AGGACGGCCT GAAGAATGAA AATCCAACAC GAGCCAGAGC AAAAACCTTT
CTAAAACGCA TGGAGACACT AAAAGCAAAA GCTGTGCATG GAAAACTAAA AGGCTCGGGA
AGAACAGGTC CTTTAGAGAT CAGTGGACCA GTTCTCCAGT TTGAGCCAAA ATCCTTGAAA
GACATGCACT GTGTACAGAT TGTCAATGGC GATCTTCAAA ATCTGGGGCA AGATTCAGTC
AAAAGAGGGC TTCCCTTTTC TGCCAAATCC AGCAGTGACA GCAGTCAGTC CGAAAACAGC
AGCAGTGGAG TGAGCACGCC ATGTCTGAAG GAACACAAGT GCCATGAAGC AAACAAGAGA
GGTGGGATGT ACCTGGAGGA CCTGGATGTT CTGGCAGGAA CGGCCTTACG GCAAGTGGTG
GACCAAAACC GCAAAAATGA ATTTCATTCC CAGGAGAACT TGGTTGTGCA CATTCCCAAG
GATCACAAAC CGGGGACCTT CCCAAAGGCA CTTTCTATCG AAAGCCTCTC ACCTACAGAC
AATAGTAACA GTGTAAACTG GAGGACGGGC AGCATCTCTT TGGGAAAGCA GAACTGCTCT
ACTCCAAAGG AATCTGGACT GATGGCTTGC TGTCCTAAAG AGAGCAGAAT TAGTATTTAT
GACAATGTGC CAGGTTCCCA CTTGTATGCT AGTACTGGGG ACCTCCTGGA CATAGAGAAA
GATGTCCTTT TTCCTCAGTT AGATGACATT TTGCAACATG TCAATGGACT GCAGGAGGTG
GTAGATGGCT GGTCAAAGAA GCTGTTGCCA GGTCTGCCGG TTGGTGACGT GTCGGTCAGG
GAATCCCCAT CATTGCCTTT CCAGTCGCCT ACACAGATCA CTCTCGATTT TGAAGGAAAC
TCTGTGTCCG ATGGCCGAAC CACCCCAAGT GACATGGACA GAGATGGAAC ATCCCTGAAT
GAATCCGAAG CCACTGGTGT TAGGGACAGG AGGGACTCTG GGGTGGGAGC ATCTCTCACA
AGGCCAAGCA GGCAATTACG ATGGCAAAGT TTCCAAATCT CTCATCGCCT GAGCCGCTCC
ATTGCGTCGC TTCACATCAG CAACCAGTCA GCAGCCCAGC TGAATCTACT ACAAAAATTC
TCTCTGCTTC GTCTCACTGC CATCATGGAA AAGTACTCCA TGTCAAACAA ACATGGCTGG
ACCTGGTCTG TGCCAAAGTT CATGAAGAGG ATGAAAGTCC CTGACTACAA GGACAAGAAC
GTCTTTGGTG TGCCCCTGAT AGTTCACGTT CAGAGAACGG GGCAGCCTCT TCCCCAGAGC
ATACAACAAG CCCTGCGCTA CCTACGGAGC AACTGTCTAG ACCAGGTGGG TCTGTTTCGG
AAATCTGGAG TGAAATCCCG AATCCAGGCC CTGCGTCAGA TGAACGAGAG CTCCCCAGAA
AACGTCAGCT ATGAAGACCA GTCCGCATAC GATGTGGCTG ACATGGTCAA GCAATTCTTC
AGAGACTTGC CAGAACCTCT CCTCACAAGT AAACTAGGAG AGACTTTTCT GCACATCTAT
CAATACGTGC CCAAGGAGCA GCGGCTGCAG GCGGTGCAGG CAGCAATCAT GCTCATGGCC
GACGAGAACA GGGAGGTTCT GCAGACTCTG CTCTGCTTCC TCAGCGACGT CACCTCCGTG
GAGGAAAATC AGATGACTCC CATGAACATC GCTGTTTGTC TGGCCCCTTC CCTCTTCCAT
CTCAATATAG TGAAGAAAGA AAGCTCACCA AGAGTAATAC AGAAAAAATA TGCAACAGGG
AAGCCAGATC AGAAGGACCT CAGTGAAAAC CTGGCAGCTA CTCAGGGACT TGCTCACATG
ATAATGGAAT GCAACAAACT TTTTGAGGTC CCACATGAGA TGATCACCCA ATCCCGAAAC
TCCTATGTCG ATGCAGAAGT GCATTCTCCT ACCCTGGATG AGCTTGGGAA ACAAGTGGAT
GAGGAAGGAG GGAACTATCA GATGTACCTG GAAACTCTCA TGCAGAATCT CCAGAAAGAA
GCAAAAGAGA AATTCAAAGG ATGGGTCACA TGTTCCAGTG TAGAGAACAC AGAACTCGCC
TACAAAAAGG TTGGGGATGG GAACCCACTA AGGCTTTGGA AAGCCTCAGT TGAAGTTGAA
GCCCCTCCAT CAGTTGTCCT GAACCGGGTG CTGAGAGAAC GTCACCTTTG GGACGAGGAT
TTCTTGCAGT GGAAGGTGGT TGAGAGCCTG GACAAGCAGA CGGAAGTTTA CCAGTATGTT
TTGAACACCA TGGCTCCTCA CCCTGTCCGA GACTTTGTTG TTCTCAGGAC GTGGAGGACG
GATTTGCCCA AGGGGATGTG CATGCTGGTT GCCATCTCTG TGGAGCATGA AGAGGCTCCT
CTCATGGGAG CTGTGCGAGC CATCGTGATG GACTCCCAGT ACTTGATAGA GCCCTGCGGC
TCGGGGAAAG CCAGGCTGAC CCACATCTGC AGGATTGACC TAAAAGGACA TTCCCCAGAG
TGGTACAACA AAGGCTTTGG ACATCTGTGT GCAGCAGAAG TTGCCAGGAT CAGAAACTCA
TTTCAACCTC TGATTGCTGA GGGACCAGAA ACAAAAATCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030130111.1 CDS 265..4506 Translation
Target ORF information:
RefSeq Version XM_030274251.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata StAR related lipid transfer domain containing 13 (STARD13), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030274251.1
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
4201ATGGAAACTA ACATCTATGA AGAAGAACAG GGCTCACCTT ATCTTACATC TGCCGAGTGT
CTGGGAACTC CAAAGGAAGC CAAGTATGAA GAATACCAAA GAAAGACAGA AAATCAGACA
AGTCCATATG AATTTCAGAA TTCATTATTG GAACCTGAGC TAAGCTTGCT GTCTGTGTCA
TCCTTATTGG ACAACAATGA GACATCCTTA CAATTTGGCA TGGCTGCAGG GCGTGCCAGT
GCCACCAGCC AGCCTGAGAC AAAGCACCTT TGTGGAGAAT TATCTTGTTC TACAAAGCAC
ACGTCAAAGG AAGATCATTT AAACCTTCCC AGGAACACAG AATGGCCAGT CCTCACAGGA
AAAAATTCAG ATAAGAAACC AGAAATAAAT TATGAGATCA GAGTCATAGA ACACAAACCA
TGTGCTATCA CATTTTCTGA TTTTGAATTT TTATCACATG AAGCTGACAC TAAGCTCCAT
ATTTGTGAGG CAGGAAAAGC AGATGATTTT TCTTCTGAAG AGGAAGAGAA AGGTAACAGA
GGTGATAATG ACACATTTAC AGAACTGCCA CTTTATGACA CATTTTTCAA AGGTCTTCAG
AGAAGGAATG TTTCCCAAAG AAAGCAAGCT CAACATGAAC TTACTAAATA TCAGCACATC
TGTCATTTAG AAGACTGCAA TAATAATTCT GAAAAGGCAT TGAAGGACCA TGACAAAGAA
GAAAAACACA TGGGGCTGGA GACCCAACCA GAAAAAGAAT CTGAATGGCC AGACTCTATG
TCATGGCTTA TGAAGAAACT GGAACGGTTG AACTTAGATA TTGAAGAAGC TCTGAGTGCT
GGCTCTTCTC CCTCCAGTAC TCCTTCTAAA AGGCACAAGC AACTGTGCCC TATTCAAGTA
GAGACAGGCC TTTATGGAGA TTATCAAGAA AAAGGATCTT GGAAAAATAG AAGAGGAGAC
TACCAGTATC TAAATTGTTT ACCTTACCGA GTGTTGACTG GAGCACGGCC TAAATCTGAT
ATGCTGTTTC AGAAGCTGTG CAAGGAAAAA GCAGAAATTG AAGCAAAGGA AGCGTGTGAC
TGGTTACGTG CAGCTGGATT TCCCCAATAT GCTCAATTCT ATGAGGACTC CCAGTTTCCC
ATTGACATTG CTGCAGTAAA GAAAGATCAT GATTTTCTTG ACAAGGACCT TGTAGAACCT
CTTTGCAGAC GACTGAACAC ACTGAACAAG TGCGCCTCAA TGAAACTCGA TGTGAACTTC
CAAAGAAAAA AGAGTGAAGA TTCAGATGAA GAAGATCTCT GTGCTATCAG TAATAAATGG
ACTTTTCAAA GAACCAGCAA AAGATGGTCT CGGGTGGACG ACATTGACAC TCTGCTTCAC
CGATCCGACA GACATGGCTC TTCTGGGGAC ATTAAAATGA AAAACACGAC AAGCAGTGAG
AGCGTCCTTA CAGATCTGAG TGAACCTGAG CTCTCATCAA TTCACAGCGA GAGCAGTGGG
GGCAGTGACA ACAGGAGCCA ATCTGGCACC ACCAGCGCTG CCAGGGAGGC CTGTGACTGC
TCTGCCCATC ATGATGTGGA AAGCACCCTG GTGCAGGACT CTGCTGCAAT AATCACCGCC
CCATCCCCCA AGGACGGCCT GAAGAATGAA AATCCAACAC GAGCCAGAGC AAAAACCTTT
CTAAAACGCA TGGAGACACT AAAAGCAAAA GCTGTGCATG GAAAACTAAA AGGCTCGGGA
AGAACAGGTC CTTTAGAGAT CAGTGGACCA GTTCTCCAGT TTGAGCCAAA ATCCTTGAAA
GACATGCACT GTGTACAGAT TGTCAATGGC GATCTTCAAA ATCTGGGGCA AGATTCAGTC
AAAAGAGGGC TTCCCTTTTC TGCCAAATCC AGCAGTGACA GCAGTCAGTC CGAAAACAGC
AGCAGTGGAG TGAGCACGCC ATGTCTGAAG GAACACAAGT GCCATGAAGC AAACAAGAGA
GGTGGGATGT ACCTGGAGGA CCTGGATGTT CTGGCAGGAA CGGCCTTACG GCAAGTGGTG
GACCAAAACC GCAAAAATGA ATTTCATTCC CAGGAGAACT TGGTTGTGCA CATTCCCAAG
GATCACAAAC CGGGGACCTT CCCAAAGGCA CTTTCTATCG AAAGCCTCTC ACCTACAGAC
AATAGTAACA GTGTAAACTG GAGGACGGGC AGCATCTCTT TGGGAAAGCA GAACTGCTCT
ACTCCAAAGG AATCTGGACT GATGGCTTGC TGTCCTAAAG AGAGCAGAAT TAGTATTTAT
GACAATGTGC CAGGTTCCCA CTTGTATGCT AGTACTGGGG ACCTCCTGGA CATAGAGAAA
GATGTCCTTT TTCCTCAGTT AGATGACATT TTGCAACATG TCAATGGACT GCAGGAGGTG
GTAGATGGCT GGTCAAAGAA GCTGTTGCCA GGTCTGCCGG TTGGTGACGT GTCGGTCAGG
GAATCCCCAT CATTGCCTTT CCAGTCGCCT ACACAGATCA CTCTCGATTT TGAAGGAAAC
TCTGTGTCCG ATGGCCGAAC CACCCCAAGT GACATGGACA GAGATGGAAC ATCCCTGAAT
GAATCCGAAG CCACTGGTGT TAGGGACAGG AGGGACTCTG GGGTGGGAGC ATCTCTCACA
AGGCCAAGCA GGCAATTACG ATGGCAAAGT TTCCAAATCT CTCATCGCCT GAGCCGCTCC
ATTGCGTCGC TTCACATCAG CAACCAGTCA GCAGCCCAGC TGAATCTACT ACAAAAATTC
TCTCTGCTTC GTCTCACTGC CATCATGGAA AAGTACTCCA TGTCAAACAA ACATGGCTGG
ACCTGGTCTG TGCCAAAGTT CATGAAGAGG ATGAAAGTCC CTGACTACAA GGACAAGAAC
GTCTTTGGTG TGCCCCTGAT AGTTCACGTT CAGAGAACGG GGCAGCCTCT TCCCCAGAGC
ATACAACAAG CCCTGCGCTA CCTACGGAGC AACTGTCTAG ACCAGGTGGG TCTGTTTCGG
AAATCTGGAG TGAAATCCCG AATCCAGGCC CTGCGTCAGA TGAACGAGAG CTCCCCAGAA
AACGTCAGCT ATGAAGACCA GTCCGCATAC GATGTGGCTG ACATGGTCAA GCAATTCTTC
AGAGACTTGC CAGAACCTCT CCTCACAAGT AAACTAGGAG AGACTTTTCT GCACATCTAT
CAATACGTGC CCAAGGAGCA GCGGCTGCAG GCGGTGCAGG CAGCAATCAT GCTCATGGCC
GACGAGAACA GGGAGGTTCT GCAGACTCTG CTCTGCTTCC TCAGCGACGT CACCTCCGTG
GAGGAAAATC AGATGACTCC CATGAACATC GCTGTTTGTC TGGCCCCTTC CCTCTTCCAT
CTCAATATAG TGAAGAAAGA AAGCTCACCA AGAGTAATAC AGAAAAAATA TGCAACAGGG
AAGCCAGATC AGAAGGACCT CAGTGAAAAC CTGGCAGCTA CTCAGGGACT TGCTCACATG
ATAATGGAAT GCAACAAACT TTTTGAGGTC CCACATGAGA TGATCACCCA ATCCCGAAAC
TCCTATGTCG ATGCAGAAGT GCATTCTCCT ACCCTGGATG AGCTTGGGAA ACAAGTGGAT
GAGGAAGGAG GGAACTATCA GATGTACCTG GAAACTCTCA TGCAGAATCT CCAGAAAGAA
GCAAAAGAGA AATTCAAAGG ATGGGTCACA TGTTCCAGTG TAGAGAACAC AGAACTCGCC
TACAAAAAGG TTGGGGATGG GAACCCACTA AGGCTTTGGA AAGCCTCAGT TGAAGTTGAA
GCCCCTCCAT CAGTTGTCCT GAACCGGGTG CTGAGAGAAC GTCACCTTTG GGACGAGGAT
TTCTTGCAGT GGAAGGTGGT TGAGAGCCTG GACAAGCAGA CGGAAGTTTA CCAGTATGTT
TTGAACACCA TGGCTCCTCA CCCTGTCCGA GACTTTGTTG TTCTCAGGAC GTGGAGGACG
GATTTGCCCA AGGGGATGTG CATGCTGGTT GCCATCTCTG TGGAGCATGA AGAGGCTCCT
CTCATGGGAG CTGTGCGAGC CATCGTGATG GACTCCCAGT ACTTGATAGA GCCCTGCGGC
TCGGGGAAAG CCAGGCTGAC CCACATCTGC AGGATTGACC TAAAAGGACA TTCCCCAGAG
TGGTACAACA AAGGCTTTGG ACATCTGTGT GCAGCAGAAG TTGCCAGGAT CAGAAACTCA
TTTCAACCTC TGATTGCTGA GGGACCAGAA ACAAAAATCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd25113 Clone ID Related Accession (Same CDS sequence) XM_030274261.1 Accession Version XM_030274261.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4098bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product stAR-related lipid transfer protein 13 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
4081ATGGAAACTA ACATCTATGA AGAAGAACAG GGCTCACCTT ATCTTACATC TGCCGAGTGT
CTGGGAACTC CAAAGGAAGC CAAGTATGAA GAATACCAAA GAAAGACAGA AAATCAGACA
AGTCCATATG AATTTCAGAA TTCATTATTG GAACCTGAGC TAAGCTTGCT GTCTGTGTCA
TCCTTATTGG ACAACAATGA GACATCCTTA CAATTTGGCA TGGCTGCAGG GCGTGCCAGT
GCCACCAGCC AGCCTGAGAC AAAGCACCTT TGTGGAGAAT TATCTTGTTC TACAAAGCAC
ACGTCAAAGG AAGATCATTT AAACCTTCCC AGGAACACAG AATGGCCAGT CCTCACAGGA
AAAAATTCAG ATAAGAAACC AGAAATAAAT TATGAGATCA GAGTCATAGA ACACAAACCA
TGTGCTATCA CATTTTCTGA TTTTGAATTT TTATCACATG AAGCTGACAC TAAGCTCCAT
ATTTGTGAGG CAGGAAAAGC AGATGATTTT TCTTCTGAAG AGGAAGAGAA AGGTAACAGA
GGTGATAATG ACACATTTAC AGAACTGCCA CTTTATGACA CATTTTTCAA AGGTCTTCAG
AGAAGGAATG TTTCCCAAAG AAAGCAAGCT CAACATGAAC TTACTAAATA TCAGCACATC
TGTCATTTAG AAGACTGCAA TAATAATTCT GAAAAGGCAT TGAAGGACCA TGACAAAGAA
GAAAAACACA TGGGGCTGGA GTGCCCTATT CAAGTAGAGA CAGGCCTTTA TGGAGATTAT
CAAGAAAAAG GATCTTGGAA AAATAGAAGA GGAGACTACC AGTATCTAAA TTGTTTACCT
TACCGAGTGT TGACTGGAGC ACGGCCTAAA TCTGATATGC TGTTTCAGAA GCTGTGCAAG
GAAAAAGCAG AAATTGAAGC AAAGGAAGCG TGTGACTGGT TACGTGCAGC TGGATTTCCC
CAATATGCTC AATTCTATGA GGACTCCCAG TTTCCCATTG ACATTGCTGC AGTAAAGAAA
GATCATGATT TTCTTGACAA GGACCTTGTA GAACCTCTTT GCAGACGACT GAACACACTG
AACAAGTGCG CCTCAATGAA ACTCGATGTG AACTTCCAAA GAAAAAAGAG TGAAGATTCA
GATGAAGAAG ATCTCTGTGC TATCAGTAAT AAATGGACTT TTCAAAGAAC CAGCAAAAGA
TGGTCTCGGG TGGACGACAT TGACACTCTG CTTCACCGAT CCGACAGACA TGGCTCTTCT
GGGGACATTA AAATGAAAAA CACGACAAGC AGTGAGAGCG TCCTTACAGA TCTGAGTGAA
CCTGAGCTCT CATCAATTCA CAGCGAGAGC AGTGGGGGCA GTGACAACAG GAGCCAATCT
GGCACCACCA GCGCTGCCAG GGAGGCCTGT GACTGCTCTG CCCATCATGA TGTGGAAAGC
ACCCTGGTGC AGGACTCTGC TGCAATAATC ACCGCCCCAT CCCCCAAGGA CGGCCTGAAG
AATGAAAATC CAACACGAGC CAGAGCAAAA ACCTTTCTAA AACGCATGGA GACACTAAAA
GCAAAAGCTG TGCATGGAAA ACTAAAAGGC TCGGGAAGAA CAGGTCCTTT AGAGATCAGT
GGACCAGTTC TCCAGTTTGA GCCAAAATCC TTGAAAGACA TGCACTGTGT ACAGATTGTC
AATGGCGATC TTCAAAATCT GGGGCAAGAT TCAGTCAAAA GAGGGCTTCC CTTTTCTGCC
AAATCCAGCA GTGACAGCAG TCAGTCCGAA AACAGCAGCA GTGGAGTGAG CACGCCATGT
CTGAAGGAAC ACAAGTGCCA TGAAGCAAAC AAGAGAGGTG GGATGTACCT GGAGGACCTG
GATGTTCTGG CAGGAACGGC CTTACGGCAA GTGGTGGACC AAAACCGCAA AAATGAATTT
CATTCCCAGG AGAACTTGGT TGTGCACATT CCCAAGGATC ACAAACCGGG GACCTTCCCA
AAGGCACTTT CTATCGAAAG CCTCTCACCT ACAGACAATA GTAACAGTGT AAACTGGAGG
ACGGGCAGCA TCTCTTTGGG AAAGCAGAAC TGCTCTACTC CAAAGGAATC TGGACTGATG
GCTTGCTGTC CTAAAGAGAG CAGAATTAGT ATTTATGACA ATGTGCCAGG TTCCCACTTG
TATGCTAGTA CTGGGGACCT CCTGGACATA GAGAAAGATG TCCTTTTTCC TCAGTTAGAT
GACATTTTGC AACATGTCAA TGGACTGCAG GAGGTGGTAG ATGGCTGGTC AAAGAAGCTG
TTGCCAGGTC TGCCGGTTGG TGACGTGTCG GTCAGGGAAT CCCCATCATT GCCTTTCCAG
TCGCCTACAC AGATCACTCT CGATTTTGAA GGAAACTCTG TGTCCGATGG CCGAACCACC
CCAAGTGACA TGGACAGAGA TGGAACATCC CTGAATGAAT CCGAAGCCAC TGGTGTTAGG
GACAGGAGGG ACTCTGGGGT GGGAGCATCT CTCACAAGGC CAAGCAGGCA ATTACGATGG
CAAAGTTTCC AAATCTCTCA TCGCCTGAGC CGCTCCATTG CGTCGCTTCA CATCAGCAAC
CAGTCAGCAG CCCAGCTGAA TCTACTACAA AAATTCTCTC TGCTTCGTCT CACTGCCATC
ATGGAAAAGT ACTCCATGTC AAACAAACAT GGCTGGACCT GGTCTGTGCC AAAGTTCATG
AAGAGGATGA AAGTCCCTGA CTACAAGGAC AAGAACGTCT TTGGTGTGCC CCTGATAGTT
CACGTTCAGA GAACGGGGCA GCCTCTTCCC CAGAGCATAC AACAAGCCCT GCGCTACCTA
CGGAGCAACT GTCTAGACCA GGTGGGTCTG TTTCGGAAAT CTGGAGTGAA ATCCCGAATC
CAGGCCCTGC GTCAGATGAA CGAGAGCTCC CCAGAAAACG TCAGCTATGA AGACCAGTCC
GCATACGATG TGGCTGACAT GGTCAAGCAA TTCTTCAGAG ACTTGCCAGA ACCTCTCCTC
ACAAGTAAAC TAGGAGAGAC TTTTCTGCAC ATCTATCAAT ACGTGCCCAA GGAGCAGCGG
CTGCAGGCGG TGCAGGCAGC AATCATGCTC ATGGCCGACG AGAACAGGGA GGTTCTGCAG
ACTCTGCTCT GCTTCCTCAG CGACGTCACC TCCGTGGAGG AAAATCAGAT GACTCCCATG
AACATCGCTG TTTGTCTGGC CCCTTCCCTC TTCCATCTCA ATATAGTGAA GAAAGAAAGC
TCACCAAGAG TAATACAGAA AAAATATGCA ACAGGGAAGC CAGATCAGAA GGACCTCAGT
GAAAACCTGG CAGCTACTCA GGGACTTGCT CACATGATAA TGGAATGCAA CAAACTTTTT
GAGGTCCCAC ATGAGATGAT CACCCAATCC CGAAACTCCT ATGTCGATGC AGAAGTGCAT
TCTCCTACCC TGGATGAGCT TGGGAAACAA GTGGATGAGG AAGGAGGGAA CTATCAGATG
TACCTGGAAA CTCTCATGCA GAATCTCCAG AAAGAAGCAA AAGAGAAATT CAAAGGATGG
GTCACATGTT CCAGTGTAGA GAACACAGAA CTCGCCTACA AAAAGGTTGG GGATGGGAAC
CCACTAAGGC TTTGGAAAGC CTCAGTTGAA GTTGAAGCCC CTCCATCAGT TGTCCTGAAC
CGGGTGCTGA GAGAACGTCA CCTTTGGGAC GAGGATTTCT TGCAGTGGAA GGTGGTTGAG
AGCCTGGACA AGCAGACGGA AGTTTACCAG TATGTTTTGA ACACCATGGC TCCTCACCCT
GTCCGAGACT TTGTTGTTCT CAGGACGTGG AGGACGGATT TGCCCAAGGG GATGTGCATG
CTGGTTGCCA TCTCTGTGGA GCATGAAGAG GCTCCTCTCA TGGGAGCTGT GCGAGCCATC
GTGATGGACT CCCAGTACTT GATAGAGCCC TGCGGCTCGG GGAAAGCCAG GCTGACCCAC
ATCTGCAGGA TTGACCTAAA AGGACATTCC CCAGAGTGGT ACAACAAAGG CTTTGGACAT
CTGTGTGCAG CAGAAGTTGC CAGGATCAGA AACTCATTTC AACCTCTGAT TGCTGAGGGA
CCAGAAACAA AAATCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030130121.1 CDS 262..4359 Translation
Target ORF information:
RefSeq Version XM_030274261.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata StAR related lipid transfer domain containing 13 (STARD13), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030274261.1
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
4081ATGGAAACTA ACATCTATGA AGAAGAACAG GGCTCACCTT ATCTTACATC TGCCGAGTGT
CTGGGAACTC CAAAGGAAGC CAAGTATGAA GAATACCAAA GAAAGACAGA AAATCAGACA
AGTCCATATG AATTTCAGAA TTCATTATTG GAACCTGAGC TAAGCTTGCT GTCTGTGTCA
TCCTTATTGG ACAACAATGA GACATCCTTA CAATTTGGCA TGGCTGCAGG GCGTGCCAGT
GCCACCAGCC AGCCTGAGAC AAAGCACCTT TGTGGAGAAT TATCTTGTTC TACAAAGCAC
ACGTCAAAGG AAGATCATTT AAACCTTCCC AGGAACACAG AATGGCCAGT CCTCACAGGA
AAAAATTCAG ATAAGAAACC AGAAATAAAT TATGAGATCA GAGTCATAGA ACACAAACCA
TGTGCTATCA CATTTTCTGA TTTTGAATTT TTATCACATG AAGCTGACAC TAAGCTCCAT
ATTTGTGAGG CAGGAAAAGC AGATGATTTT TCTTCTGAAG AGGAAGAGAA AGGTAACAGA
GGTGATAATG ACACATTTAC AGAACTGCCA CTTTATGACA CATTTTTCAA AGGTCTTCAG
AGAAGGAATG TTTCCCAAAG AAAGCAAGCT CAACATGAAC TTACTAAATA TCAGCACATC
TGTCATTTAG AAGACTGCAA TAATAATTCT GAAAAGGCAT TGAAGGACCA TGACAAAGAA
GAAAAACACA TGGGGCTGGA GTGCCCTATT CAAGTAGAGA CAGGCCTTTA TGGAGATTAT
CAAGAAAAAG GATCTTGGAA AAATAGAAGA GGAGACTACC AGTATCTAAA TTGTTTACCT
TACCGAGTGT TGACTGGAGC ACGGCCTAAA TCTGATATGC TGTTTCAGAA GCTGTGCAAG
GAAAAAGCAG AAATTGAAGC AAAGGAAGCG TGTGACTGGT TACGTGCAGC TGGATTTCCC
CAATATGCTC AATTCTATGA GGACTCCCAG TTTCCCATTG ACATTGCTGC AGTAAAGAAA
GATCATGATT TTCTTGACAA GGACCTTGTA GAACCTCTTT GCAGACGACT GAACACACTG
AACAAGTGCG CCTCAATGAA ACTCGATGTG AACTTCCAAA GAAAAAAGAG TGAAGATTCA
GATGAAGAAG ATCTCTGTGC TATCAGTAAT AAATGGACTT TTCAAAGAAC CAGCAAAAGA
TGGTCTCGGG TGGACGACAT TGACACTCTG CTTCACCGAT CCGACAGACA TGGCTCTTCT
GGGGACATTA AAATGAAAAA CACGACAAGC AGTGAGAGCG TCCTTACAGA TCTGAGTGAA
CCTGAGCTCT CATCAATTCA CAGCGAGAGC AGTGGGGGCA GTGACAACAG GAGCCAATCT
GGCACCACCA GCGCTGCCAG GGAGGCCTGT GACTGCTCTG CCCATCATGA TGTGGAAAGC
ACCCTGGTGC AGGACTCTGC TGCAATAATC ACCGCCCCAT CCCCCAAGGA CGGCCTGAAG
AATGAAAATC CAACACGAGC CAGAGCAAAA ACCTTTCTAA AACGCATGGA GACACTAAAA
GCAAAAGCTG TGCATGGAAA ACTAAAAGGC TCGGGAAGAA CAGGTCCTTT AGAGATCAGT
GGACCAGTTC TCCAGTTTGA GCCAAAATCC TTGAAAGACA TGCACTGTGT ACAGATTGTC
AATGGCGATC TTCAAAATCT GGGGCAAGAT TCAGTCAAAA GAGGGCTTCC CTTTTCTGCC
AAATCCAGCA GTGACAGCAG TCAGTCCGAA AACAGCAGCA GTGGAGTGAG CACGCCATGT
CTGAAGGAAC ACAAGTGCCA TGAAGCAAAC AAGAGAGGTG GGATGTACCT GGAGGACCTG
GATGTTCTGG CAGGAACGGC CTTACGGCAA GTGGTGGACC AAAACCGCAA AAATGAATTT
CATTCCCAGG AGAACTTGGT TGTGCACATT CCCAAGGATC ACAAACCGGG GACCTTCCCA
AAGGCACTTT CTATCGAAAG CCTCTCACCT ACAGACAATA GTAACAGTGT AAACTGGAGG
ACGGGCAGCA TCTCTTTGGG AAAGCAGAAC TGCTCTACTC CAAAGGAATC TGGACTGATG
GCTTGCTGTC CTAAAGAGAG CAGAATTAGT ATTTATGACA ATGTGCCAGG TTCCCACTTG
TATGCTAGTA CTGGGGACCT CCTGGACATA GAGAAAGATG TCCTTTTTCC TCAGTTAGAT
GACATTTTGC AACATGTCAA TGGACTGCAG GAGGTGGTAG ATGGCTGGTC AAAGAAGCTG
TTGCCAGGTC TGCCGGTTGG TGACGTGTCG GTCAGGGAAT CCCCATCATT GCCTTTCCAG
TCGCCTACAC AGATCACTCT CGATTTTGAA GGAAACTCTG TGTCCGATGG CCGAACCACC
CCAAGTGACA TGGACAGAGA TGGAACATCC CTGAATGAAT CCGAAGCCAC TGGTGTTAGG
GACAGGAGGG ACTCTGGGGT GGGAGCATCT CTCACAAGGC CAAGCAGGCA ATTACGATGG
CAAAGTTTCC AAATCTCTCA TCGCCTGAGC CGCTCCATTG CGTCGCTTCA CATCAGCAAC
CAGTCAGCAG CCCAGCTGAA TCTACTACAA AAATTCTCTC TGCTTCGTCT CACTGCCATC
ATGGAAAAGT ACTCCATGTC AAACAAACAT GGCTGGACCT GGTCTGTGCC AAAGTTCATG
AAGAGGATGA AAGTCCCTGA CTACAAGGAC AAGAACGTCT TTGGTGTGCC CCTGATAGTT
CACGTTCAGA GAACGGGGCA GCCTCTTCCC CAGAGCATAC AACAAGCCCT GCGCTACCTA
CGGAGCAACT GTCTAGACCA GGTGGGTCTG TTTCGGAAAT CTGGAGTGAA ATCCCGAATC
CAGGCCCTGC GTCAGATGAA CGAGAGCTCC CCAGAAAACG TCAGCTATGA AGACCAGTCC
GCATACGATG TGGCTGACAT GGTCAAGCAA TTCTTCAGAG ACTTGCCAGA ACCTCTCCTC
ACAAGTAAAC TAGGAGAGAC TTTTCTGCAC ATCTATCAAT ACGTGCCCAA GGAGCAGCGG
CTGCAGGCGG TGCAGGCAGC AATCATGCTC ATGGCCGACG AGAACAGGGA GGTTCTGCAG
ACTCTGCTCT GCTTCCTCAG CGACGTCACC TCCGTGGAGG AAAATCAGAT GACTCCCATG
AACATCGCTG TTTGTCTGGC CCCTTCCCTC TTCCATCTCA ATATAGTGAA GAAAGAAAGC
TCACCAAGAG TAATACAGAA AAAATATGCA ACAGGGAAGC CAGATCAGAA GGACCTCAGT
GAAAACCTGG CAGCTACTCA GGGACTTGCT CACATGATAA TGGAATGCAA CAAACTTTTT
GAGGTCCCAC ATGAGATGAT CACCCAATCC CGAAACTCCT ATGTCGATGC AGAAGTGCAT
TCTCCTACCC TGGATGAGCT TGGGAAACAA GTGGATGAGG AAGGAGGGAA CTATCAGATG
TACCTGGAAA CTCTCATGCA GAATCTCCAG AAAGAAGCAA AAGAGAAATT CAAAGGATGG
GTCACATGTT CCAGTGTAGA GAACACAGAA CTCGCCTACA AAAAGGTTGG GGATGGGAAC
CCACTAAGGC TTTGGAAAGC CTCAGTTGAA GTTGAAGCCC CTCCATCAGT TGTCCTGAAC
CGGGTGCTGA GAGAACGTCA CCTTTGGGAC GAGGATTTCT TGCAGTGGAA GGTGGTTGAG
AGCCTGGACA AGCAGACGGA AGTTTACCAG TATGTTTTGA ACACCATGGC TCCTCACCCT
GTCCGAGACT TTGTTGTTCT CAGGACGTGG AGGACGGATT TGCCCAAGGG GATGTGCATG
CTGGTTGCCA TCTCTGTGGA GCATGAAGAG GCTCCTCTCA TGGGAGCTGT GCGAGCCATC
GTGATGGACT CCCAGTACTT GATAGAGCCC TGCGGCTCGG GGAAAGCCAG GCTGACCCAC
ATCTGCAGGA TTGACCTAAA AGGACATTCC CCAGAGTGGT ACAACAAAGG CTTTGGACAT
CTGTGTGCAG CAGAAGTTGC CAGGATCAGA AACTCATTTC AACCTCTGAT TGCTGAGGGA
CCAGAAACAA AAATCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd25114 Clone ID Related Accession (Same CDS sequence) XM_030274269.1 Accession Version XM_030274269.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3465bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product stAR-related lipid transfer protein 13 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
3421ATGTCATGGC TTATGAAGAA ACTGGAACGG TTGAACTTAG ATATTGAAGA AGCTCTGAGT
GCTGGCTCTT CTCCCTCCAG TACTCCTTCT AAAAGGCACA AGCAACTGTG CCCTATTCAA
GTAGAGACAG GCCTTTATGG AGATTATCAA GAAAAAGGAT CTTGGAAAAA TAGAAGAGGA
GACTACCAGT ATCTAAATTG TTTACCTTAC CGAGTGTTGA CTGGAGCACG GCCTAAATCT
GATATGCTGT TTCAGAAGCT GTGCAAGGAA AAAGCAGAAA TTGAAGCAAA GGAAGCGTGT
GACTGGTTAC GTGCAGCTGG ATTTCCCCAA TATGCTCAAT TCTATGAGGA CTCCCAGTTT
CCCATTGACA TTGCTGCAGT AAAGAAAGAT CATGATTTTC TTGACAAGGA CCTTGTAGAA
CCTCTTTGCA GACGACTGAA CACACTGAAC AAGTGCGCCT CAATGAAACT CGATGTGAAC
TTCCAAAGAA AAAAGAGTGA AGATTCAGAT GAAGAAGATC TCTGTGCTAT CAGTAATAAA
TGGACTTTTC AAAGAACCAG CAAAAGATGG TCTCGGGTGG ACGACATTGA CACTCTGCTT
CACCGATCCG ACAGACATGG CTCTTCTGGG GACATTAAAA TGAAAAACAC GACAAGCAGT
GAGAGCGTCC TTACAGATCT GAGTGAACCT GAGCTCTCAT CAATTCACAG CGAGAGCAGT
GGGGGCAGTG ACAACAGGAG CCAATCTGGC ACCACCAGCG CTGCCAGGGA GGCCTGTGAC
TGCTCTGCCC ATCATGATGT GGAAAGCACC CTGGTGCAGG ACTCTGCTGC AATAATCACC
GCCCCATCCC CCAAGGACGG CCTGAAGAAT GAAAATCCAA CACGAGCCAG AGCAAAAACC
TTTCTAAAAC GCATGGAGAC ACTAAAAGCA AAAGCTGTGC ATGGAAAACT AAAAGGCTCG
GGAAGAACAG GTCCTTTAGA GATCAGTGGA CCAGTTCTCC AGTTTGAGCC AAAATCCTTG
AAAGACATGC ACTGTGTACA GATTGTCAAT GGCGATCTTC AAAATCTGGG GCAAGATTCA
GTCAAAAGAG GGCTTCCCTT TTCTGCCAAA TCCAGCAGTG ACAGCAGTCA GTCCGAAAAC
AGCAGCAGTG GAGTGAGCAC GCCATGTCTG AAGGAACACA AGTGCCATGA AGCAAACAAG
AGAGGTGGGA TGTACCTGGA GGACCTGGAT GTTCTGGCAG GAACGGCCTT ACGGCAAGTG
GTGGACCAAA ACCGCAAAAA TGAATTTCAT TCCCAGGAGA ACTTGGTTGT GCACATTCCC
AAGGATCACA AACCGGGGAC CTTCCCAAAG GCACTTTCTA TCGAAAGCCT CTCACCTACA
GACAATAGTA ACAGTGTAAA CTGGAGGACG GGCAGCATCT CTTTGGGAAA GCAGAACTGC
TCTACTCCAA AGGAATCTGG ACTGATGGCT TGCTGTCCTA AAGAGAGCAG AATTAGTATT
TATGACAATG TGCCAGGTTC CCACTTGTAT GCTAGTACTG GGGACCTCCT GGACATAGAG
AAAGATGTCC TTTTTCCTCA GTTAGATGAC ATTTTGCAAC ATGTCAATGG ACTGCAGGAG
GTGGTAGATG GCTGGTCAAA GAAGCTGTTG CCAGGTCTGC CGGTTGGTGA CGTGTCGGTC
AGGGAATCCC CATCATTGCC TTTCCAGTCG CCTACACAGA TCACTCTCGA TTTTGAAGGA
AACTCTGTGT CCGATGGCCG AACCACCCCA AGTGACATGG ACAGAGATGG AACATCCCTG
AATGAATCCG AAGCCACTGG TGTTAGGGAC AGGAGGGACT CTGGGGTGGG AGCATCTCTC
ACAAGGCCAA GCAGGCAATT ACGATGGCAA AGTTTCCAAA TCTCTCATCG CCTGAGCCGC
TCCATTGCGT CGCTTCACAT CAGCAACCAG TCAGCAGCCC AGCTGAATCT ACTACAAAAA
TTCTCTCTGC TTCGTCTCAC TGCCATCATG GAAAAGTACT CCATGTCAAA CAAACATGGC
TGGACCTGGT CTGTGCCAAA GTTCATGAAG AGGATGAAAG TCCCTGACTA CAAGGACAAG
AACGTCTTTG GTGTGCCCCT GATAGTTCAC GTTCAGAGAA CGGGGCAGCC TCTTCCCCAG
AGCATACAAC AAGCCCTGCG CTACCTACGG AGCAACTGTC TAGACCAGGT GGGTCTGTTT
CGGAAATCTG GAGTGAAATC CCGAATCCAG GCCCTGCGTC AGATGAACGA GAGCTCCCCA
GAAAACGTCA GCTATGAAGA CCAGTCCGCA TACGATGTGG CTGACATGGT CAAGCAATTC
TTCAGAGACT TGCCAGAACC TCTCCTCACA AGTAAACTAG GAGAGACTTT TCTGCACATC
TATCAATACG TGCCCAAGGA GCAGCGGCTG CAGGCGGTGC AGGCAGCAAT CATGCTCATG
GCCGACGAGA ACAGGGAGGT TCTGCAGACT CTGCTCTGCT TCCTCAGCGA CGTCACCTCC
GTGGAGGAAA ATCAGATGAC TCCCATGAAC ATCGCTGTTT GTCTGGCCCC TTCCCTCTTC
CATCTCAATA TAGTGAAGAA AGAAAGCTCA CCAAGAGTAA TACAGAAAAA ATATGCAACA
GGGAAGCCAG ATCAGAAGGA CCTCAGTGAA AACCTGGCAG CTACTCAGGG ACTTGCTCAC
ATGATAATGG AATGCAACAA ACTTTTTGAG GTCCCACATG AGATGATCAC CCAATCCCGA
AACTCCTATG TCGATGCAGA AGTGCATTCT CCTACCCTGG ATGAGCTTGG GAAACAAGTG
GATGAGGAAG GAGGGAACTA TCAGATGTAC CTGGAAACTC TCATGCAGAA TCTCCAGAAA
GAAGCAAAAG AGAAATTCAA AGGATGGGTC ACATGTTCCA GTGTAGAGAA CACAGAACTC
GCCTACAAAA AGGTTGGGGA TGGGAACCCA CTAAGGCTTT GGAAAGCCTC AGTTGAAGTT
GAAGCCCCTC CATCAGTTGT CCTGAACCGG GTGCTGAGAG AACGTCACCT TTGGGACGAG
GATTTCTTGC AGTGGAAGGT GGTTGAGAGC CTGGACAAGC AGACGGAAGT TTACCAGTAT
GTTTTGAACA CCATGGCTCC TCACCCTGTC CGAGACTTTG TTGTTCTCAG GACGTGGAGG
ACGGATTTGC CCAAGGGGAT GTGCATGCTG GTTGCCATCT CTGTGGAGCA TGAAGAGGCT
CCTCTCATGG GAGCTGTGCG AGCCATCGTG ATGGACTCCC AGTACTTGAT AGAGCCCTGC
GGCTCGGGGA AAGCCAGGCT GACCCACATC TGCAGGATTG ACCTAAAAGG ACATTCCCCA
GAGTGGTACA ACAAAGGCTT TGGACATCTG TGTGCAGCAG AAGTTGCCAG GATCAGAAAC
TCATTTCAAC CTCTGATTGC TGAGGGACCA GAAACAAAAA TCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030130129.1 CDS 250..3714 Translation
Target ORF information:
RefSeq Version XM_030274269.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata StAR related lipid transfer domain containing 13 (STARD13), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030274269.1
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
3421ATGTCATGGC TTATGAAGAA ACTGGAACGG TTGAACTTAG ATATTGAAGA AGCTCTGAGT
GCTGGCTCTT CTCCCTCCAG TACTCCTTCT AAAAGGCACA AGCAACTGTG CCCTATTCAA
GTAGAGACAG GCCTTTATGG AGATTATCAA GAAAAAGGAT CTTGGAAAAA TAGAAGAGGA
GACTACCAGT ATCTAAATTG TTTACCTTAC CGAGTGTTGA CTGGAGCACG GCCTAAATCT
GATATGCTGT TTCAGAAGCT GTGCAAGGAA AAAGCAGAAA TTGAAGCAAA GGAAGCGTGT
GACTGGTTAC GTGCAGCTGG ATTTCCCCAA TATGCTCAAT TCTATGAGGA CTCCCAGTTT
CCCATTGACA TTGCTGCAGT AAAGAAAGAT CATGATTTTC TTGACAAGGA CCTTGTAGAA
CCTCTTTGCA GACGACTGAA CACACTGAAC AAGTGCGCCT CAATGAAACT CGATGTGAAC
TTCCAAAGAA AAAAGAGTGA AGATTCAGAT GAAGAAGATC TCTGTGCTAT CAGTAATAAA
TGGACTTTTC AAAGAACCAG CAAAAGATGG TCTCGGGTGG ACGACATTGA CACTCTGCTT
CACCGATCCG ACAGACATGG CTCTTCTGGG GACATTAAAA TGAAAAACAC GACAAGCAGT
GAGAGCGTCC TTACAGATCT GAGTGAACCT GAGCTCTCAT CAATTCACAG CGAGAGCAGT
GGGGGCAGTG ACAACAGGAG CCAATCTGGC ACCACCAGCG CTGCCAGGGA GGCCTGTGAC
TGCTCTGCCC ATCATGATGT GGAAAGCACC CTGGTGCAGG ACTCTGCTGC AATAATCACC
GCCCCATCCC CCAAGGACGG CCTGAAGAAT GAAAATCCAA CACGAGCCAG AGCAAAAACC
TTTCTAAAAC GCATGGAGAC ACTAAAAGCA AAAGCTGTGC ATGGAAAACT AAAAGGCTCG
GGAAGAACAG GTCCTTTAGA GATCAGTGGA CCAGTTCTCC AGTTTGAGCC AAAATCCTTG
AAAGACATGC ACTGTGTACA GATTGTCAAT GGCGATCTTC AAAATCTGGG GCAAGATTCA
GTCAAAAGAG GGCTTCCCTT TTCTGCCAAA TCCAGCAGTG ACAGCAGTCA GTCCGAAAAC
AGCAGCAGTG GAGTGAGCAC GCCATGTCTG AAGGAACACA AGTGCCATGA AGCAAACAAG
AGAGGTGGGA TGTACCTGGA GGACCTGGAT GTTCTGGCAG GAACGGCCTT ACGGCAAGTG
GTGGACCAAA ACCGCAAAAA TGAATTTCAT TCCCAGGAGA ACTTGGTTGT GCACATTCCC
AAGGATCACA AACCGGGGAC CTTCCCAAAG GCACTTTCTA TCGAAAGCCT CTCACCTACA
GACAATAGTA ACAGTGTAAA CTGGAGGACG GGCAGCATCT CTTTGGGAAA GCAGAACTGC
TCTACTCCAA AGGAATCTGG ACTGATGGCT TGCTGTCCTA AAGAGAGCAG AATTAGTATT
TATGACAATG TGCCAGGTTC CCACTTGTAT GCTAGTACTG GGGACCTCCT GGACATAGAG
AAAGATGTCC TTTTTCCTCA GTTAGATGAC ATTTTGCAAC ATGTCAATGG ACTGCAGGAG
GTGGTAGATG GCTGGTCAAA GAAGCTGTTG CCAGGTCTGC CGGTTGGTGA CGTGTCGGTC
AGGGAATCCC CATCATTGCC TTTCCAGTCG CCTACACAGA TCACTCTCGA TTTTGAAGGA
AACTCTGTGT CCGATGGCCG AACCACCCCA AGTGACATGG ACAGAGATGG AACATCCCTG
AATGAATCCG AAGCCACTGG TGTTAGGGAC AGGAGGGACT CTGGGGTGGG AGCATCTCTC
ACAAGGCCAA GCAGGCAATT ACGATGGCAA AGTTTCCAAA TCTCTCATCG CCTGAGCCGC
TCCATTGCGT CGCTTCACAT CAGCAACCAG TCAGCAGCCC AGCTGAATCT ACTACAAAAA
TTCTCTCTGC TTCGTCTCAC TGCCATCATG GAAAAGTACT CCATGTCAAA CAAACATGGC
TGGACCTGGT CTGTGCCAAA GTTCATGAAG AGGATGAAAG TCCCTGACTA CAAGGACAAG
AACGTCTTTG GTGTGCCCCT GATAGTTCAC GTTCAGAGAA CGGGGCAGCC TCTTCCCCAG
AGCATACAAC AAGCCCTGCG CTACCTACGG AGCAACTGTC TAGACCAGGT GGGTCTGTTT
CGGAAATCTG GAGTGAAATC CCGAATCCAG GCCCTGCGTC AGATGAACGA GAGCTCCCCA
GAAAACGTCA GCTATGAAGA CCAGTCCGCA TACGATGTGG CTGACATGGT CAAGCAATTC
TTCAGAGACT TGCCAGAACC TCTCCTCACA AGTAAACTAG GAGAGACTTT TCTGCACATC
TATCAATACG TGCCCAAGGA GCAGCGGCTG CAGGCGGTGC AGGCAGCAAT CATGCTCATG
GCCGACGAGA ACAGGGAGGT TCTGCAGACT CTGCTCTGCT TCCTCAGCGA CGTCACCTCC
GTGGAGGAAA ATCAGATGAC TCCCATGAAC ATCGCTGTTT GTCTGGCCCC TTCCCTCTTC
CATCTCAATA TAGTGAAGAA AGAAAGCTCA CCAAGAGTAA TACAGAAAAA ATATGCAACA
GGGAAGCCAG ATCAGAAGGA CCTCAGTGAA AACCTGGCAG CTACTCAGGG ACTTGCTCAC
ATGATAATGG AATGCAACAA ACTTTTTGAG GTCCCACATG AGATGATCAC CCAATCCCGA
AACTCCTATG TCGATGCAGA AGTGCATTCT CCTACCCTGG ATGAGCTTGG GAAACAAGTG
GATGAGGAAG GAGGGAACTA TCAGATGTAC CTGGAAACTC TCATGCAGAA TCTCCAGAAA
GAAGCAAAAG AGAAATTCAA AGGATGGGTC ACATGTTCCA GTGTAGAGAA CACAGAACTC
GCCTACAAAA AGGTTGGGGA TGGGAACCCA CTAAGGCTTT GGAAAGCCTC AGTTGAAGTT
GAAGCCCCTC CATCAGTTGT CCTGAACCGG GTGCTGAGAG AACGTCACCT TTGGGACGAG
GATTTCTTGC AGTGGAAGGT GGTTGAGAGC CTGGACAAGC AGACGGAAGT TTACCAGTAT
GTTTTGAACA CCATGGCTCC TCACCCTGTC CGAGACTTTG TTGTTCTCAG GACGTGGAGG
ACGGATTTGC CCAAGGGGAT GTGCATGCTG GTTGCCATCT CTGTGGAGCA TGAAGAGGCT
CCTCTCATGG GAGCTGTGCG AGCCATCGTG ATGGACTCCC AGTACTTGAT AGAGCCCTGC
GGCTCGGGGA AAGCCAGGCT GACCCACATC TGCAGGATTG ACCTAAAAGG ACATTCCCCA
GAGTGGTACA ACAAAGGCTT TGGACATCTG TGTGCAGCAG AAGTTGCCAG GATCAGAAAC
TCATTTCAAC CTCTGATTGC TGAGGGACCA GAAACAAAAA TCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd25115 Clone ID Related Accession (Same CDS sequence) XM_002195719.3 Accession Version XM_002195719.3 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3357bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product stAR-related lipid transfer protein 13 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_002195719.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
3301ATGCTGAAGC AGGTGCCCCG GGCCGCGGGC ACCGCCTGTT TCTACCTGAA CGCGGTGTCC
CCCGAGGGCC AGGAGCTCTT CTGGCGCTGC GATCCGCCCG CCCGGCGCCC TCCCTACAGG
ACCAGCAGGA TTCTCGCCCG GCACCAGCTG GTGACGAAAA TTCAGCAAGA AATTGAAGCA
AAGGAAGCGT GTGACTGGTT ACGTGCAGCT GGATTTCCCC AATATGCTCA ATTCTATGAG
GACTCCCAGT TTCCCATTGA CATTGCTGCA GTAAAGAAAG ATCATGATTT TCTTGACAAG
GACCTTGTAG AACCTCTTTG CAGACGACTG AACACACTGA ACAAGTGCGC CTCAATGAAA
CTCGATGTGA ACTTCCAAAG AAAAAAGAGT GAAGATTCAG ATGAAGAAGA TCTCTGTGCT
ATCAGTAATA AATGGACTTT TCAAAGAACC AGCAAAAGAT GGTCTCGGGT GGACGACATT
GACACTCTGC TTCACCGATC CGACAGACAT GGCTCTTCTG GGGACATTAA AATGAAAAAC
ACGACAAGCA GTGAGAGCGT CCTTACAGAT CTGAGTGAAC CTGAGCTCTC ATCAATTCAC
AGCGAGAGCA GTGGGGGCAG TGACAACAGG AGCCAATCTG GCACCACCAG CGCTGCCAGG
GAGGCCTGTG ACTGCTCTGC CCATCATGAT GTGGAAAGCA CCCTGGTGCA GGACTCTGCT
GCAATAATCA CCGCCCCATC CCCCAAGGAC GGCCTGAAGA ATGAAAATCC AACACGAGCC
AGAGCAAAAA CCTTTCTAAA ACGCATGGAG ACACTAAAAG CAAAAGCTGT GCATGGAAAA
CTAAAAGGCT CGGGAAGAAC AGGTCCTTTA GAGATCAGTG GACCAGTTCT CCAGTTTGAG
CCAAAATCCT TGAAAGACAT GCACTGTGTA CAGATTGTCA ATGGCGATCT TCAAAATCTG
GGGCAAGATT CAGTCAAAAG AGGGCTTCCC TTTTCTGCCA AATCCAGCAG TGACAGCAGT
CAGTCCGAAA ACAGCAGCAG TGGAGTGAGC ACGCCATGTC TGAAGGAACA CAAGTGCCAT
GAAGCAAACA AGAGAGGTGG GATGTACCTG GAGGACCTGG ATGTTCTGGC AGGAACGGCC
TTACGGCAAG TGGTGGACCA AAACCGCAAA AATGAATTTC ATTCCCAGGA GAACTTGGTT
GTGCACATTC CCAAGGATCA CAAACCGGGG ACCTTCCCAA AGGCACTTTC TATCGAAAGC
CTCTCACCTA CAGACAATAG TAACAGTGTA AACTGGAGGA CGGGCAGCAT CTCTTTGGGA
AAGCAGAACT GCTCTACTCC AAAGGAATCT GGACTGATGG CTTGCTGTCC TAAAGAGAGC
AGAATTAGTA TTTATGACAA TGTGCCAGGT TCCCACTTGT ATGCTAGTAC TGGGGACCTC
CTGGACATAG AGAAAGATGT CCTTTTTCCT CAGTTAGATG ACATTTTGCA ACATGTCAAT
GGACTGCAGG AGGTGGTAGA TGGCTGGTCA AAGAAGCTGT TGCCAGGTCT GCCGGTTGGT
GACGTGTCGG TCAGGGAATC CCCATCATTG CCTTTCCAGT CGCCTACACA GATCACTCTC
GATTTTGAAG GAAACTCTGT GTCCGATGGC CGAACCACCC CAAGTGACAT GGACAGAGAT
GGAACATCCC TGAATGAATC CGAAGCCACT GGTGTTAGGG ACAGGAGGGA CTCTGGGGTG
GGAGCATCTC TCACAAGGCC AAGCAGGCAA TTACGATGGC AAAGTTTCCA AATCTCTCAT
CGCCTGAGCC GCTCCATTGC GTCGCTTCAC ATCAGCAACC AGTCAGCAGC CCAGCTGAAT
CTACTACAAA AATTCTCTCT GCTTCGTCTC ACTGCCATCA TGGAAAAGTA CTCCATGTCA
AACAAACATG GCTGGACCTG GTCTGTGCCA AAGTTCATGA AGAGGATGAA AGTCCCTGAC
TACAAGGACA AGAACGTCTT TGGTGTGCCC CTGATAGTTC ACGTTCAGAG AACGGGGCAG
CCTCTTCCCC AGAGCATACA ACAAGCCCTG CGCTACCTAC GGAGCAACTG TCTAGACCAG
GTGGGTCTGT TTCGGAAATC TGGAGTGAAA TCCCGAATCC AGGCCCTGCG TCAGATGAAC
GAGAGCTCCC CAGAAAACGT CAGCTATGAA GACCAGTCCG CATACGATGT GGCTGACATG
GTCAAGCAAT TCTTCAGAGA CTTGCCAGAA CCTCTCCTCA CAAGTAAACT AGGAGAGACT
TTTCTGCACA TCTATCAATA CGTGCCCAAG GAGCAGCGGC TGCAGGCGGT GCAGGCAGCA
ATCATGCTCA TGGCCGACGA GAACAGGGAG GTTCTGCAGA CTCTGCTCTG CTTCCTCAGC
GACGTCACCT CCGTGGAGGA AAATCAGATG ACTCCCATGA ACATCGCTGT TTGTCTGGCC
CCTTCCCTCT TCCATCTCAA TATAGTGAAG AAAGAAAGCT CACCAAGAGT AATACAGAAA
AAATATGCAA CAGGGAAGCC AGATCAGAAG GACCTCAGTG AAAACCTGGC AGCTACTCAG
GGACTTGCTC ACATGATAAT GGAATGCAAC AAACTTTTTG AGGTCCCACA TGAGATGATC
ACCCAATCCC GAAACTCCTA TGTCGATGCA GAAGTGCATT CTCCTACCCT GGATGAGCTT
GGGAAACAAG TGGATGAGGA AGGAGGGAAC TATCAGATGT ACCTGGAAAC TCTCATGCAG
AATCTCCAGA AAGAAGCAAA AGAGAAATTC AAAGGATGGG TCACATGTTC CAGTGTAGAG
AACACAGAAC TCGCCTACAA AAAGGTTGGG GATGGGAACC CACTAAGGCT TTGGAAAGCC
TCAGTTGAAG TTGAAGCCCC TCCATCAGTT GTCCTGAACC GGGTGCTGAG AGAACGTCAC
CTTTGGGACG AGGATTTCTT GCAGTGGAAG GTGGTTGAGA GCCTGGACAA GCAGACGGAA
GTTTACCAGT ATGTTTTGAA CACCATGGCT CCTCACCCTG TCCGAGACTT TGTTGTTCTC
AGGACGTGGA GGACGGATTT GCCCAAGGGG ATGTGCATGC TGGTTGCCAT CTCTGTGGAG
CATGAAGAGG CTCCTCTCAT GGGAGCTGTG CGAGCCATCG TGATGGACTC CCAGTACTTG
ATAGAGCCCT GCGGCTCGGG GAAAGCCAGG CTGACCCACA TCTGCAGGAT TGACCTAAAA
GGACATTCCC CAGAGTGGTA CAACAAAGGC TTTGGACATC TGTGTGCAGC AGAAGTTGCC
AGGATCAGAA ACTCATTTCA ACCTCTGATT GCTGAGGGAC CAGAAACAAA AATCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002195755.1 CDS 181..3537 Translation
Target ORF information:
RefSeq Version XM_002195719.3 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata StAR related lipid transfer domain containing 13 (STARD13), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_002195719.3
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
3301ATGCTGAAGC AGGTGCCCCG GGCCGCGGGC ACCGCCTGTT TCTACCTGAA CGCGGTGTCC
CCCGAGGGCC AGGAGCTCTT CTGGCGCTGC GATCCGCCCG CCCGGCGCCC TCCCTACAGG
ACCAGCAGGA TTCTCGCCCG GCACCAGCTG GTGACGAAAA TTCAGCAAGA AATTGAAGCA
AAGGAAGCGT GTGACTGGTT ACGTGCAGCT GGATTTCCCC AATATGCTCA ATTCTATGAG
GACTCCCAGT TTCCCATTGA CATTGCTGCA GTAAAGAAAG ATCATGATTT TCTTGACAAG
GACCTTGTAG AACCTCTTTG CAGACGACTG AACACACTGA ACAAGTGCGC CTCAATGAAA
CTCGATGTGA ACTTCCAAAG AAAAAAGAGT GAAGATTCAG ATGAAGAAGA TCTCTGTGCT
ATCAGTAATA AATGGACTTT TCAAAGAACC AGCAAAAGAT GGTCTCGGGT GGACGACATT
GACACTCTGC TTCACCGATC CGACAGACAT GGCTCTTCTG GGGACATTAA AATGAAAAAC
ACGACAAGCA GTGAGAGCGT CCTTACAGAT CTGAGTGAAC CTGAGCTCTC ATCAATTCAC
AGCGAGAGCA GTGGGGGCAG TGACAACAGG AGCCAATCTG GCACCACCAG CGCTGCCAGG
GAGGCCTGTG ACTGCTCTGC CCATCATGAT GTGGAAAGCA CCCTGGTGCA GGACTCTGCT
GCAATAATCA CCGCCCCATC CCCCAAGGAC GGCCTGAAGA ATGAAAATCC AACACGAGCC
AGAGCAAAAA CCTTTCTAAA ACGCATGGAG ACACTAAAAG CAAAAGCTGT GCATGGAAAA
CTAAAAGGCT CGGGAAGAAC AGGTCCTTTA GAGATCAGTG GACCAGTTCT CCAGTTTGAG
CCAAAATCCT TGAAAGACAT GCACTGTGTA CAGATTGTCA ATGGCGATCT TCAAAATCTG
GGGCAAGATT CAGTCAAAAG AGGGCTTCCC TTTTCTGCCA AATCCAGCAG TGACAGCAGT
CAGTCCGAAA ACAGCAGCAG TGGAGTGAGC ACGCCATGTC TGAAGGAACA CAAGTGCCAT
GAAGCAAACA AGAGAGGTGG GATGTACCTG GAGGACCTGG ATGTTCTGGC AGGAACGGCC
TTACGGCAAG TGGTGGACCA AAACCGCAAA AATGAATTTC ATTCCCAGGA GAACTTGGTT
GTGCACATTC CCAAGGATCA CAAACCGGGG ACCTTCCCAA AGGCACTTTC TATCGAAAGC
CTCTCACCTA CAGACAATAG TAACAGTGTA AACTGGAGGA CGGGCAGCAT CTCTTTGGGA
AAGCAGAACT GCTCTACTCC AAAGGAATCT GGACTGATGG CTTGCTGTCC TAAAGAGAGC
AGAATTAGTA TTTATGACAA TGTGCCAGGT TCCCACTTGT ATGCTAGTAC TGGGGACCTC
CTGGACATAG AGAAAGATGT CCTTTTTCCT CAGTTAGATG ACATTTTGCA ACATGTCAAT
GGACTGCAGG AGGTGGTAGA TGGCTGGTCA AAGAAGCTGT TGCCAGGTCT GCCGGTTGGT
GACGTGTCGG TCAGGGAATC CCCATCATTG CCTTTCCAGT CGCCTACACA GATCACTCTC
GATTTTGAAG GAAACTCTGT GTCCGATGGC CGAACCACCC CAAGTGACAT GGACAGAGAT
GGAACATCCC TGAATGAATC CGAAGCCACT GGTGTTAGGG ACAGGAGGGA CTCTGGGGTG
GGAGCATCTC TCACAAGGCC AAGCAGGCAA TTACGATGGC AAAGTTTCCA AATCTCTCAT
CGCCTGAGCC GCTCCATTGC GTCGCTTCAC ATCAGCAACC AGTCAGCAGC CCAGCTGAAT
CTACTACAAA AATTCTCTCT GCTTCGTCTC ACTGCCATCA TGGAAAAGTA CTCCATGTCA
AACAAACATG GCTGGACCTG GTCTGTGCCA AAGTTCATGA AGAGGATGAA AGTCCCTGAC
TACAAGGACA AGAACGTCTT TGGTGTGCCC CTGATAGTTC ACGTTCAGAG AACGGGGCAG
CCTCTTCCCC AGAGCATACA ACAAGCCCTG CGCTACCTAC GGAGCAACTG TCTAGACCAG
GTGGGTCTGT TTCGGAAATC TGGAGTGAAA TCCCGAATCC AGGCCCTGCG TCAGATGAAC
GAGAGCTCCC CAGAAAACGT CAGCTATGAA GACCAGTCCG CATACGATGT GGCTGACATG
GTCAAGCAAT TCTTCAGAGA CTTGCCAGAA CCTCTCCTCA CAAGTAAACT AGGAGAGACT
TTTCTGCACA TCTATCAATA CGTGCCCAAG GAGCAGCGGC TGCAGGCGGT GCAGGCAGCA
ATCATGCTCA TGGCCGACGA GAACAGGGAG GTTCTGCAGA CTCTGCTCTG CTTCCTCAGC
GACGTCACCT CCGTGGAGGA AAATCAGATG ACTCCCATGA ACATCGCTGT TTGTCTGGCC
CCTTCCCTCT TCCATCTCAA TATAGTGAAG AAAGAAAGCT CACCAAGAGT AATACAGAAA
AAATATGCAA CAGGGAAGCC AGATCAGAAG GACCTCAGTG AAAACCTGGC AGCTACTCAG
GGACTTGCTC ACATGATAAT GGAATGCAAC AAACTTTTTG AGGTCCCACA TGAGATGATC
ACCCAATCCC GAAACTCCTA TGTCGATGCA GAAGTGCATT CTCCTACCCT GGATGAGCTT
GGGAAACAAG TGGATGAGGA AGGAGGGAAC TATCAGATGT ACCTGGAAAC TCTCATGCAG
AATCTCCAGA AAGAAGCAAA AGAGAAATTC AAAGGATGGG TCACATGTTC CAGTGTAGAG
AACACAGAAC TCGCCTACAA AAAGGTTGGG GATGGGAACC CACTAAGGCT TTGGAAAGCC
TCAGTTGAAG TTGAAGCCCC TCCATCAGTT GTCCTGAACC GGGTGCTGAG AGAACGTCAC
CTTTGGGACG AGGATTTCTT GCAGTGGAAG GTGGTTGAGA GCCTGGACAA GCAGACGGAA
GTTTACCAGT ATGTTTTGAA CACCATGGCT CCTCACCCTG TCCGAGACTT TGTTGTTCTC
AGGACGTGGA GGACGGATTT GCCCAAGGGG ATGTGCATGC TGGTTGCCAT CTCTGTGGAG
CATGAAGAGG CTCCTCTCAT GGGAGCTGTG CGAGCCATCG TGATGGACTC CCAGTACTTG
ATAGAGCCCT GCGGCTCGGG GAAAGCCAGG CTGACCCACA TCTGCAGGAT TGACCTAAAA
GGACATTCCC CAGAGTGGTA CAACAAAGGC TTTGGACATC TGTGTGCAGC AGAAGTTGCC
AGGATCAGAA ACTCATTTCA ACCTCTGATT GCTGAGGGAC CAGAAACAAA AATCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd25116 Clone ID Related Accession (Same CDS sequence) XM_030274289.1 Accession Version XM_030274289.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3312bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product stAR-related lipid transfer protein 13 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
3301ATGAGCAGCC AGCGCCGCCC GGCCAAGGCG CAGCTCCGGA GGTCGCTGAG CGAGCAGCTG
CGGGACTCCA CCGCCAAAGC CTGGGACTTG CTGTGGAGGA ATGTCCGGGA GCGGCGGCTC
GCAGAAATTG AAGCAAAGGA AGCGTGTGAC TGGTTACGTG CAGCTGGATT TCCCCAATAT
GCTCAATTCT ATGAGGACTC CCAGTTTCCC ATTGACATTG CTGCAGTAAA GAAAGATCAT
GATTTTCTTG ACAAGGACCT TGTAGAACCT CTTTGCAGAC GACTGAACAC ACTGAACAAG
TGCGCCTCAA TGAAACTCGA TGTGAACTTC CAAAGAAAAA AGAGTGAAGA TTCAGATGAA
GAAGATCTCT GTGCTATCAG TAATAAATGG ACTTTTCAAA GAACCAGCAA AAGATGGTCT
CGGGTGGACG ACATTGACAC TCTGCTTCAC CGATCCGACA GACATGGCTC TTCTGGGGAC
ATTAAAATGA AAAACACGAC AAGCAGTGAG AGCGTCCTTA CAGATCTGAG TGAACCTGAG
CTCTCATCAA TTCACAGCGA GAGCAGTGGG GGCAGTGACA ACAGGAGCCA ATCTGGCACC
ACCAGCGCTG CCAGGGAGGC CTGTGACTGC TCTGCCCATC ATGATGTGGA AAGCACCCTG
GTGCAGGACT CTGCTGCAAT AATCACCGCC CCATCCCCCA AGGACGGCCT GAAGAATGAA
AATCCAACAC GAGCCAGAGC AAAAACCTTT CTAAAACGCA TGGAGACACT AAAAGCAAAA
GCTGTGCATG GAAAACTAAA AGGCTCGGGA AGAACAGGTC CTTTAGAGAT CAGTGGACCA
GTTCTCCAGT TTGAGCCAAA ATCCTTGAAA GACATGCACT GTGTACAGAT TGTCAATGGC
GATCTTCAAA ATCTGGGGCA AGATTCAGTC AAAAGAGGGC TTCCCTTTTC TGCCAAATCC
AGCAGTGACA GCAGTCAGTC CGAAAACAGC AGCAGTGGAG TGAGCACGCC ATGTCTGAAG
GAACACAAGT GCCATGAAGC AAACAAGAGA GGTGGGATGT ACCTGGAGGA CCTGGATGTT
CTGGCAGGAA CGGCCTTACG GCAAGTGGTG GACCAAAACC GCAAAAATGA ATTTCATTCC
CAGGAGAACT TGGTTGTGCA CATTCCCAAG GATCACAAAC CGGGGACCTT CCCAAAGGCA
CTTTCTATCG AAAGCCTCTC ACCTACAGAC AATAGTAACA GTGTAAACTG GAGGACGGGC
AGCATCTCTT TGGGAAAGCA GAACTGCTCT ACTCCAAAGG AATCTGGACT GATGGCTTGC
TGTCCTAAAG AGAGCAGAAT TAGTATTTAT GACAATGTGC CAGGTTCCCA CTTGTATGCT
AGTACTGGGG ACCTCCTGGA CATAGAGAAA GATGTCCTTT TTCCTCAGTT AGATGACATT
TTGCAACATG TCAATGGACT GCAGGAGGTG GTAGATGGCT GGTCAAAGAA GCTGTTGCCA
GGTCTGCCGG TTGGTGACGT GTCGGTCAGG GAATCCCCAT CATTGCCTTT CCAGTCGCCT
ACACAGATCA CTCTCGATTT TGAAGGAAAC TCTGTGTCCG ATGGCCGAAC CACCCCAAGT
GACATGGACA GAGATGGAAC ATCCCTGAAT GAATCCGAAG CCACTGGTGT TAGGGACAGG
AGGGACTCTG GGGTGGGAGC ATCTCTCACA AGGCCAAGCA GGCAATTACG ATGGCAAAGT
TTCCAAATCT CTCATCGCCT GAGCCGCTCC ATTGCGTCGC TTCACATCAG CAACCAGTCA
GCAGCCCAGC TGAATCTACT ACAAAAATTC TCTCTGCTTC GTCTCACTGC CATCATGGAA
AAGTACTCCA TGTCAAACAA ACATGGCTGG ACCTGGTCTG TGCCAAAGTT CATGAAGAGG
ATGAAAGTCC CTGACTACAA GGACAAGAAC GTCTTTGGTG TGCCCCTGAT AGTTCACGTT
CAGAGAACGG GGCAGCCTCT TCCCCAGAGC ATACAACAAG CCCTGCGCTA CCTACGGAGC
AACTGTCTAG ACCAGGTGGG TCTGTTTCGG AAATCTGGAG TGAAATCCCG AATCCAGGCC
CTGCGTCAGA TGAACGAGAG CTCCCCAGAA AACGTCAGCT ATGAAGACCA GTCCGCATAC
GATGTGGCTG ACATGGTCAA GCAATTCTTC AGAGACTTGC CAGAACCTCT CCTCACAAGT
AAACTAGGAG AGACTTTTCT GCACATCTAT CAATACGTGC CCAAGGAGCA GCGGCTGCAG
GCGGTGCAGG CAGCAATCAT GCTCATGGCC GACGAGAACA GGGAGGTTCT GCAGACTCTG
CTCTGCTTCC TCAGCGACGT CACCTCCGTG GAGGAAAATC AGATGACTCC CATGAACATC
GCTGTTTGTC TGGCCCCTTC CCTCTTCCAT CTCAATATAG TGAAGAAAGA AAGCTCACCA
AGAGTAATAC AGAAAAAATA TGCAACAGGG AAGCCAGATC AGAAGGACCT CAGTGAAAAC
CTGGCAGCTA CTCAGGGACT TGCTCACATG ATAATGGAAT GCAACAAACT TTTTGAGGTC
CCACATGAGA TGATCACCCA ATCCCGAAAC TCCTATGTCG ATGCAGAAGT GCATTCTCCT
ACCCTGGATG AGCTTGGGAA ACAAGTGGAT GAGGAAGGAG GGAACTATCA GATGTACCTG
GAAACTCTCA TGCAGAATCT CCAGAAAGAA GCAAAAGAGA AATTCAAAGG ATGGGTCACA
TGTTCCAGTG TAGAGAACAC AGAACTCGCC TACAAAAAGG TTGGGGATGG GAACCCACTA
AGGCTTTGGA AAGCCTCAGT TGAAGTTGAA GCCCCTCCAT CAGTTGTCCT GAACCGGGTG
CTGAGAGAAC GTCACCTTTG GGACGAGGAT TTCTTGCAGT GGAAGGTGGT TGAGAGCCTG
GACAAGCAGA CGGAAGTTTA CCAGTATGTT TTGAACACCA TGGCTCCTCA CCCTGTCCGA
GACTTTGTTG TTCTCAGGAC GTGGAGGACG GATTTGCCCA AGGGGATGTG CATGCTGGTT
GCCATCTCTG TGGAGCATGA AGAGGCTCCT CTCATGGGAG CTGTGCGAGC CATCGTGATG
GACTCCCAGT ACTTGATAGA GCCCTGCGGC TCGGGGAAAG CCAGGCTGAC CCACATCTGC
AGGATTGACC TAAAAGGACA TTCCCCAGAG TGGTACAACA AAGGCTTTGG ACATCTGTGT
GCAGCAGAAG TTGCCAGGAT CAGAAACTCA TTTCAACCTC TGATTGCTGA GGGACCAGAA
ACAAAAATCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030130149.1 CDS 152..3463 Translation
Target ORF information:
RefSeq Version XM_030274289.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata StAR related lipid transfer domain containing 13 (STARD13), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030274289.1
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
3301ATGAGCAGCC AGCGCCGCCC GGCCAAGGCG CAGCTCCGGA GGTCGCTGAG CGAGCAGCTG
CGGGACTCCA CCGCCAAAGC CTGGGACTTG CTGTGGAGGA ATGTCCGGGA GCGGCGGCTC
GCAGAAATTG AAGCAAAGGA AGCGTGTGAC TGGTTACGTG CAGCTGGATT TCCCCAATAT
GCTCAATTCT ATGAGGACTC CCAGTTTCCC ATTGACATTG CTGCAGTAAA GAAAGATCAT
GATTTTCTTG ACAAGGACCT TGTAGAACCT CTTTGCAGAC GACTGAACAC ACTGAACAAG
TGCGCCTCAA TGAAACTCGA TGTGAACTTC CAAAGAAAAA AGAGTGAAGA TTCAGATGAA
GAAGATCTCT GTGCTATCAG TAATAAATGG ACTTTTCAAA GAACCAGCAA AAGATGGTCT
CGGGTGGACG ACATTGACAC TCTGCTTCAC CGATCCGACA GACATGGCTC TTCTGGGGAC
ATTAAAATGA AAAACACGAC AAGCAGTGAG AGCGTCCTTA CAGATCTGAG TGAACCTGAG
CTCTCATCAA TTCACAGCGA GAGCAGTGGG GGCAGTGACA ACAGGAGCCA ATCTGGCACC
ACCAGCGCTG CCAGGGAGGC CTGTGACTGC TCTGCCCATC ATGATGTGGA AAGCACCCTG
GTGCAGGACT CTGCTGCAAT AATCACCGCC CCATCCCCCA AGGACGGCCT GAAGAATGAA
AATCCAACAC GAGCCAGAGC AAAAACCTTT CTAAAACGCA TGGAGACACT AAAAGCAAAA
GCTGTGCATG GAAAACTAAA AGGCTCGGGA AGAACAGGTC CTTTAGAGAT CAGTGGACCA
GTTCTCCAGT TTGAGCCAAA ATCCTTGAAA GACATGCACT GTGTACAGAT TGTCAATGGC
GATCTTCAAA ATCTGGGGCA AGATTCAGTC AAAAGAGGGC TTCCCTTTTC TGCCAAATCC
AGCAGTGACA GCAGTCAGTC CGAAAACAGC AGCAGTGGAG TGAGCACGCC ATGTCTGAAG
GAACACAAGT GCCATGAAGC AAACAAGAGA GGTGGGATGT ACCTGGAGGA CCTGGATGTT
CTGGCAGGAA CGGCCTTACG GCAAGTGGTG GACCAAAACC GCAAAAATGA ATTTCATTCC
CAGGAGAACT TGGTTGTGCA CATTCCCAAG GATCACAAAC CGGGGACCTT CCCAAAGGCA
CTTTCTATCG AAAGCCTCTC ACCTACAGAC AATAGTAACA GTGTAAACTG GAGGACGGGC
AGCATCTCTT TGGGAAAGCA GAACTGCTCT ACTCCAAAGG AATCTGGACT GATGGCTTGC
TGTCCTAAAG AGAGCAGAAT TAGTATTTAT GACAATGTGC CAGGTTCCCA CTTGTATGCT
AGTACTGGGG ACCTCCTGGA CATAGAGAAA GATGTCCTTT TTCCTCAGTT AGATGACATT
TTGCAACATG TCAATGGACT GCAGGAGGTG GTAGATGGCT GGTCAAAGAA GCTGTTGCCA
GGTCTGCCGG TTGGTGACGT GTCGGTCAGG GAATCCCCAT CATTGCCTTT CCAGTCGCCT
ACACAGATCA CTCTCGATTT TGAAGGAAAC TCTGTGTCCG ATGGCCGAAC CACCCCAAGT
GACATGGACA GAGATGGAAC ATCCCTGAAT GAATCCGAAG CCACTGGTGT TAGGGACAGG
AGGGACTCTG GGGTGGGAGC ATCTCTCACA AGGCCAAGCA GGCAATTACG ATGGCAAAGT
TTCCAAATCT CTCATCGCCT GAGCCGCTCC ATTGCGTCGC TTCACATCAG CAACCAGTCA
GCAGCCCAGC TGAATCTACT ACAAAAATTC TCTCTGCTTC GTCTCACTGC CATCATGGAA
AAGTACTCCA TGTCAAACAA ACATGGCTGG ACCTGGTCTG TGCCAAAGTT CATGAAGAGG
ATGAAAGTCC CTGACTACAA GGACAAGAAC GTCTTTGGTG TGCCCCTGAT AGTTCACGTT
CAGAGAACGG GGCAGCCTCT TCCCCAGAGC ATACAACAAG CCCTGCGCTA CCTACGGAGC
AACTGTCTAG ACCAGGTGGG TCTGTTTCGG AAATCTGGAG TGAAATCCCG AATCCAGGCC
CTGCGTCAGA TGAACGAGAG CTCCCCAGAA AACGTCAGCT ATGAAGACCA GTCCGCATAC
GATGTGGCTG ACATGGTCAA GCAATTCTTC AGAGACTTGC CAGAACCTCT CCTCACAAGT
AAACTAGGAG AGACTTTTCT GCACATCTAT CAATACGTGC CCAAGGAGCA GCGGCTGCAG
GCGGTGCAGG CAGCAATCAT GCTCATGGCC GACGAGAACA GGGAGGTTCT GCAGACTCTG
CTCTGCTTCC TCAGCGACGT CACCTCCGTG GAGGAAAATC AGATGACTCC CATGAACATC
GCTGTTTGTC TGGCCCCTTC CCTCTTCCAT CTCAATATAG TGAAGAAAGA AAGCTCACCA
AGAGTAATAC AGAAAAAATA TGCAACAGGG AAGCCAGATC AGAAGGACCT CAGTGAAAAC
CTGGCAGCTA CTCAGGGACT TGCTCACATG ATAATGGAAT GCAACAAACT TTTTGAGGTC
CCACATGAGA TGATCACCCA ATCCCGAAAC TCCTATGTCG ATGCAGAAGT GCATTCTCCT
ACCCTGGATG AGCTTGGGAA ACAAGTGGAT GAGGAAGGAG GGAACTATCA GATGTACCTG
GAAACTCTCA TGCAGAATCT CCAGAAAGAA GCAAAAGAGA AATTCAAAGG ATGGGTCACA
TGTTCCAGTG TAGAGAACAC AGAACTCGCC TACAAAAAGG TTGGGGATGG GAACCCACTA
AGGCTTTGGA AAGCCTCAGT TGAAGTTGAA GCCCCTCCAT CAGTTGTCCT GAACCGGGTG
CTGAGAGAAC GTCACCTTTG GGACGAGGAT TTCTTGCAGT GGAAGGTGGT TGAGAGCCTG
GACAAGCAGA CGGAAGTTTA CCAGTATGTT TTGAACACCA TGGCTCCTCA CCCTGTCCGA
GACTTTGTTG TTCTCAGGAC GTGGAGGACG GATTTGCCCA AGGGGATGTG CATGCTGGTT
GCCATCTCTG TGGAGCATGA AGAGGCTCCT CTCATGGGAG CTGTGCGAGC CATCGTGATG
GACTCCCAGT ACTTGATAGA GCCCTGCGGC TCGGGGAAAG CCAGGCTGAC CCACATCTGC
AGGATTGACC TAAAAGGACA TTCCCCAGAG TGGTACAACA AAGGCTTTGG ACATCTGTGT
GCAGCAGAAG TTGCCAGGAT CAGAAACTCA TTTCAACCTC TGATTGCTGA GGGACCAGAA
ACAAAAATCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd25117 Clone ID Related Accession (Same CDS sequence) XM_030274297.1 Accession Version XM_030274297.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3198bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product stAR-related lipid transfer protein 13 isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
3181ATGACCATCC AAATTGAAGC AAAGGAAGCG TGTGACTGGT TACGTGCAGC TGGATTTCCC
CAATATGCTC AATTCTATGA GGACTCCCAG TTTCCCATTG ACATTGCTGC AGTAAAGAAA
GATCATGATT TTCTTGACAA GGACCTTGTA GAACCTCTTT GCAGACGACT GAACACACTG
AACAAGTGCG CCTCAATGAA ACTCGATGTG AACTTCCAAA GAAAAAAGAG TGAAGATTCA
GATGAAGAAG ATCTCTGTGC TATCAGTAAT AAATGGACTT TTCAAAGAAC CAGCAAAAGA
TGGTCTCGGG TGGACGACAT TGACACTCTG CTTCACCGAT CCGACAGACA TGGCTCTTCT
GGGGACATTA AAATGAAAAA CACGACAAGC AGTGAGAGCG TCCTTACAGA TCTGAGTGAA
CCTGAGCTCT CATCAATTCA CAGCGAGAGC AGTGGGGGCA GTGACAACAG GAGCCAATCT
GGCACCACCA GCGCTGCCAG GGAGGCCTGT GACTGCTCTG CCCATCATGA TGTGGAAAGC
ACCCTGGTGC AGGACTCTGC TGCAATAATC ACCGCCCCAT CCCCCAAGGA CGGCCTGAAG
AATGAAAATC CAACACGAGC CAGAGCAAAA ACCTTTCTAA AACGCATGGA GACACTAAAA
GCAAAAGCTG TGCATGGAAA ACTAAAAGGC TCGGGAAGAA CAGGTCCTTT AGAGATCAGT
GGACCAGTTC TCCAGTTTGA GCCAAAATCC TTGAAAGACA TGCACTGTGT ACAGATTGTC
AATGGCGATC TTCAAAATCT GGGGCAAGAT TCAGTCAAAA GAGGGCTTCC CTTTTCTGCC
AAATCCAGCA GTGACAGCAG TCAGTCCGAA AACAGCAGCA GTGGAGTGAG CACGCCATGT
CTGAAGGAAC ACAAGTGCCA TGAAGCAAAC AAGAGAGGTG GGATGTACCT GGAGGACCTG
GATGTTCTGG CAGGAACGGC CTTACGGCAA GTGGTGGACC AAAACCGCAA AAATGAATTT
CATTCCCAGG AGAACTTGGT TGTGCACATT CCCAAGGATC ACAAACCGGG GACCTTCCCA
AAGGCACTTT CTATCGAAAG CCTCTCACCT ACAGACAATA GTAACAGTGT AAACTGGAGG
ACGGGCAGCA TCTCTTTGGG AAAGCAGAAC TGCTCTACTC CAAAGGAATC TGGACTGATG
GCTTGCTGTC CTAAAGAGAG CAGAATTAGT ATTTATGACA ATGTGCCAGG TTCCCACTTG
TATGCTAGTA CTGGGGACCT CCTGGACATA GAGAAAGATG TCCTTTTTCC TCAGTTAGAT
GACATTTTGC AACATGTCAA TGGACTGCAG GAGGTGGTAG ATGGCTGGTC AAAGAAGCTG
TTGCCAGGTC TGCCGGTTGG TGACGTGTCG GTCAGGGAAT CCCCATCATT GCCTTTCCAG
TCGCCTACAC AGATCACTCT CGATTTTGAA GGAAACTCTG TGTCCGATGG CCGAACCACC
CCAAGTGACA TGGACAGAGA TGGAACATCC CTGAATGAAT CCGAAGCCAC TGGTGTTAGG
GACAGGAGGG ACTCTGGGGT GGGAGCATCT CTCACAAGGC CAAGCAGGCA ATTACGATGG
CAAAGTTTCC AAATCTCTCA TCGCCTGAGC CGCTCCATTG CGTCGCTTCA CATCAGCAAC
CAGTCAGCAG CCCAGCTGAA TCTACTACAA AAATTCTCTC TGCTTCGTCT CACTGCCATC
ATGGAAAAGT ACTCCATGTC AAACAAACAT GGCTGGACCT GGTCTGTGCC AAAGTTCATG
AAGAGGATGA AAGTCCCTGA CTACAAGGAC AAGAACGTCT TTGGTGTGCC CCTGATAGTT
CACGTTCAGA GAACGGGGCA GCCTCTTCCC CAGAGCATAC AACAAGCCCT GCGCTACCTA
CGGAGCAACT GTCTAGACCA GGTGGGTCTG TTTCGGAAAT CTGGAGTGAA ATCCCGAATC
CAGGCCCTGC GTCAGATGAA CGAGAGCTCC CCAGAAAACG TCAGCTATGA AGACCAGTCC
GCATACGATG TGGCTGACAT GGTCAAGCAA TTCTTCAGAG ACTTGCCAGA ACCTCTCCTC
ACAAGTAAAC TAGGAGAGAC TTTTCTGCAC ATCTATCAAT ACGTGCCCAA GGAGCAGCGG
CTGCAGGCGG TGCAGGCAGC AATCATGCTC ATGGCCGACG AGAACAGGGA GGTTCTGCAG
ACTCTGCTCT GCTTCCTCAG CGACGTCACC TCCGTGGAGG AAAATCAGAT GACTCCCATG
AACATCGCTG TTTGTCTGGC CCCTTCCCTC TTCCATCTCA ATATAGTGAA GAAAGAAAGC
TCACCAAGAG TAATACAGAA AAAATATGCA ACAGGGAAGC CAGATCAGAA GGACCTCAGT
GAAAACCTGG CAGCTACTCA GGGACTTGCT CACATGATAA TGGAATGCAA CAAACTTTTT
GAGGTCCCAC ATGAGATGAT CACCCAATCC CGAAACTCCT ATGTCGATGC AGAAGTGCAT
TCTCCTACCC TGGATGAGCT TGGGAAACAA GTGGATGAGG AAGGAGGGAA CTATCAGATG
TACCTGGAAA CTCTCATGCA GAATCTCCAG AAAGAAGCAA AAGAGAAATT CAAAGGATGG
GTCACATGTT CCAGTGTAGA GAACACAGAA CTCGCCTACA AAAAGGTTGG GGATGGGAAC
CCACTAAGGC TTTGGAAAGC CTCAGTTGAA GTTGAAGCCC CTCCATCAGT TGTCCTGAAC
CGGGTGCTGA GAGAACGTCA CCTTTGGGAC GAGGATTTCT TGCAGTGGAA GGTGGTTGAG
AGCCTGGACA AGCAGACGGA AGTTTACCAG TATGTTTTGA ACACCATGGC TCCTCACCCT
GTCCGAGACT TTGTTGTTCT CAGGACGTGG AGGACGGATT TGCCCAAGGG GATGTGCATG
CTGGTTGCCA TCTCTGTGGA GCATGAAGAG GCTCCTCTCA TGGGAGCTGT GCGAGCCATC
GTGATGGACT CCCAGTACTT GATAGAGCCC TGCGGCTCGG GGAAAGCCAG GCTGACCCAC
ATCTGCAGGA TTGACCTAAA AGGACATTCC CCAGAGTGGT ACAACAAAGG CTTTGGACAT
CTGTGTGCAG CAGAAGTTGC CAGGATCAGA AACTCATTTC AACCTCTGAT TGCTGAGGGA
CCAGAAACAA AAATCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030130157.1 CDS 91..3288 Translation
Target ORF information:
RefSeq Version XM_030274297.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata StAR related lipid transfer domain containing 13 (STARD13), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030274297.1
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
3181ATGACCATCC AAATTGAAGC AAAGGAAGCG TGTGACTGGT TACGTGCAGC TGGATTTCCC
CAATATGCTC AATTCTATGA GGACTCCCAG TTTCCCATTG ACATTGCTGC AGTAAAGAAA
GATCATGATT TTCTTGACAA GGACCTTGTA GAACCTCTTT GCAGACGACT GAACACACTG
AACAAGTGCG CCTCAATGAA ACTCGATGTG AACTTCCAAA GAAAAAAGAG TGAAGATTCA
GATGAAGAAG ATCTCTGTGC TATCAGTAAT AAATGGACTT TTCAAAGAAC CAGCAAAAGA
TGGTCTCGGG TGGACGACAT TGACACTCTG CTTCACCGAT CCGACAGACA TGGCTCTTCT
GGGGACATTA AAATGAAAAA CACGACAAGC AGTGAGAGCG TCCTTACAGA TCTGAGTGAA
CCTGAGCTCT CATCAATTCA CAGCGAGAGC AGTGGGGGCA GTGACAACAG GAGCCAATCT
GGCACCACCA GCGCTGCCAG GGAGGCCTGT GACTGCTCTG CCCATCATGA TGTGGAAAGC
ACCCTGGTGC AGGACTCTGC TGCAATAATC ACCGCCCCAT CCCCCAAGGA CGGCCTGAAG
AATGAAAATC CAACACGAGC CAGAGCAAAA ACCTTTCTAA AACGCATGGA GACACTAAAA
GCAAAAGCTG TGCATGGAAA ACTAAAAGGC TCGGGAAGAA CAGGTCCTTT AGAGATCAGT
GGACCAGTTC TCCAGTTTGA GCCAAAATCC TTGAAAGACA TGCACTGTGT ACAGATTGTC
AATGGCGATC TTCAAAATCT GGGGCAAGAT TCAGTCAAAA GAGGGCTTCC CTTTTCTGCC
AAATCCAGCA GTGACAGCAG TCAGTCCGAA AACAGCAGCA GTGGAGTGAG CACGCCATGT
CTGAAGGAAC ACAAGTGCCA TGAAGCAAAC AAGAGAGGTG GGATGTACCT GGAGGACCTG
GATGTTCTGG CAGGAACGGC CTTACGGCAA GTGGTGGACC AAAACCGCAA AAATGAATTT
CATTCCCAGG AGAACTTGGT TGTGCACATT CCCAAGGATC ACAAACCGGG GACCTTCCCA
AAGGCACTTT CTATCGAAAG CCTCTCACCT ACAGACAATA GTAACAGTGT AAACTGGAGG
ACGGGCAGCA TCTCTTTGGG AAAGCAGAAC TGCTCTACTC CAAAGGAATC TGGACTGATG
GCTTGCTGTC CTAAAGAGAG CAGAATTAGT ATTTATGACA ATGTGCCAGG TTCCCACTTG
TATGCTAGTA CTGGGGACCT CCTGGACATA GAGAAAGATG TCCTTTTTCC TCAGTTAGAT
GACATTTTGC AACATGTCAA TGGACTGCAG GAGGTGGTAG ATGGCTGGTC AAAGAAGCTG
TTGCCAGGTC TGCCGGTTGG TGACGTGTCG GTCAGGGAAT CCCCATCATT GCCTTTCCAG
TCGCCTACAC AGATCACTCT CGATTTTGAA GGAAACTCTG TGTCCGATGG CCGAACCACC
CCAAGTGACA TGGACAGAGA TGGAACATCC CTGAATGAAT CCGAAGCCAC TGGTGTTAGG
GACAGGAGGG ACTCTGGGGT GGGAGCATCT CTCACAAGGC CAAGCAGGCA ATTACGATGG
CAAAGTTTCC AAATCTCTCA TCGCCTGAGC CGCTCCATTG CGTCGCTTCA CATCAGCAAC
CAGTCAGCAG CCCAGCTGAA TCTACTACAA AAATTCTCTC TGCTTCGTCT CACTGCCATC
ATGGAAAAGT ACTCCATGTC AAACAAACAT GGCTGGACCT GGTCTGTGCC AAAGTTCATG
AAGAGGATGA AAGTCCCTGA CTACAAGGAC AAGAACGTCT TTGGTGTGCC CCTGATAGTT
CACGTTCAGA GAACGGGGCA GCCTCTTCCC CAGAGCATAC AACAAGCCCT GCGCTACCTA
CGGAGCAACT GTCTAGACCA GGTGGGTCTG TTTCGGAAAT CTGGAGTGAA ATCCCGAATC
CAGGCCCTGC GTCAGATGAA CGAGAGCTCC CCAGAAAACG TCAGCTATGA AGACCAGTCC
GCATACGATG TGGCTGACAT GGTCAAGCAA TTCTTCAGAG ACTTGCCAGA ACCTCTCCTC
ACAAGTAAAC TAGGAGAGAC TTTTCTGCAC ATCTATCAAT ACGTGCCCAA GGAGCAGCGG
CTGCAGGCGG TGCAGGCAGC AATCATGCTC ATGGCCGACG AGAACAGGGA GGTTCTGCAG
ACTCTGCTCT GCTTCCTCAG CGACGTCACC TCCGTGGAGG AAAATCAGAT GACTCCCATG
AACATCGCTG TTTGTCTGGC CCCTTCCCTC TTCCATCTCA ATATAGTGAA GAAAGAAAGC
TCACCAAGAG TAATACAGAA AAAATATGCA ACAGGGAAGC CAGATCAGAA GGACCTCAGT
GAAAACCTGG CAGCTACTCA GGGACTTGCT CACATGATAA TGGAATGCAA CAAACTTTTT
GAGGTCCCAC ATGAGATGAT CACCCAATCC CGAAACTCCT ATGTCGATGC AGAAGTGCAT
TCTCCTACCC TGGATGAGCT TGGGAAACAA GTGGATGAGG AAGGAGGGAA CTATCAGATG
TACCTGGAAA CTCTCATGCA GAATCTCCAG AAAGAAGCAA AAGAGAAATT CAAAGGATGG
GTCACATGTT CCAGTGTAGA GAACACAGAA CTCGCCTACA AAAAGGTTGG GGATGGGAAC
CCACTAAGGC TTTGGAAAGC CTCAGTTGAA GTTGAAGCCC CTCCATCAGT TGTCCTGAAC
CGGGTGCTGA GAGAACGTCA CCTTTGGGAC GAGGATTTCT TGCAGTGGAA GGTGGTTGAG
AGCCTGGACA AGCAGACGGA AGTTTACCAG TATGTTTTGA ACACCATGGC TCCTCACCCT
GTCCGAGACT TTGTTGTTCT CAGGACGTGG AGGACGGATT TGCCCAAGGG GATGTGCATG
CTGGTTGCCA TCTCTGTGGA GCATGAAGAG GCTCCTCTCA TGGGAGCTGT GCGAGCCATC
GTGATGGACT CCCAGTACTT GATAGAGCCC TGCGGCTCGG GGAAAGCCAG GCTGACCCAC
ATCTGCAGGA TTGACCTAAA AGGACATTCC CCAGAGTGGT ACAACAAAGG CTTTGGACAT
CTGTGTGCAG CAGAAGTTGC CAGGATCAGA AACTCATTTC AACCTCTGAT TGCTGAGGGA
CCAGAAACAA AAATCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd25118 Clone ID Related Accession (Same CDS sequence) XM_030274302.1 Accession Version XM_030274302.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3192bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product stAR-related lipid transfer protein 13 isoform X7 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
3181ATGGAAACTA ACATCTATGA AGAAGAACAG GGCTCACCTT ATCTTACATC TGCCGAGTGT
CTGGGAACTC CAAAGGAAGC CAAGTATGAA GAATACCAAA GAAAGACAGA AAATCAGACA
AGTCCATATG AATTTCAGAA TTCATTATTG GAACCTGAGC TAAGCTTGCT GTCTGTGTCA
TCCTTATTGG ACAACAATGA GACATCCTTA CAATTTGGCA TGGCTGCAGG GCGTGCCAGT
GCCACCAGCC AGCCTGAGAC AAAGCACCTT TGTGGAGAAT TATCTTGTTC TACAAAGCAC
ACGTCAAAGG AAGATCATTT AAACCTTCCC AGGAACACAG AATGGCCAGT CCTCACAGGA
AAAAATTCAG ATAAGAAACC AGAAATAAAT TATGAGATCA GAGTCATAGA ACACAAACCA
TGTGCTATCA CATTTTCTGA TTTTGAATTT TTATCACATG AAGCTGACAC TAAGCTCCAT
ATTTGTGAGG CAGGAAAAGC AGATGATTTT TCTTCTGAAG AGGAAGAGAA AGGTAACAGA
GGTGATAATG ACACATTTAC AGAACTGCCA CTTTATGACA CATTTTTCAA AGGTCTTCAG
AGAAGGAATG TTTCCCAAAG AAAGCAAGCT CAACATGAAC TTACTAAATA TCAGCACATC
TGTCATTTAG AAGACTGCAA TAATAATTCT GAAAAGGCAT TGAAGGACCA TGACAAAGAA
GAAAAACACA TGGGGCTGGA GACCCAACCA GAAAAAGAAT CTGAATGGCC AGACTCTATG
TCATGGCTTA TGAAGAAACT GGAACGGTTG AACTTAGATA TTGAAGAAGC TCTGAGTGCT
GGCTCTTCTC CCTCCAGTAC TCCTTCTAAA AGGCACAAGC AACTGTGCCC TATTCAAGTA
GAGACAGGCC TTTATGGAGA TTATCAAGAA AAAGGATCTT GGAAAAATAG AAGAGGAGAC
TACCAGTATC TAAATTGTTT ACCTTACCGA GTGTTGACTG GAGCACGGCC TAAATCTGAT
ATGCTGTTTC AGAAGCTGTG CAAGGAAAAA GCAGAAATTG AAGCAAAGGA AGCGTGTGAC
TGGTTACGTG CAGCTGGATT TCCCCAATAT GCTCAATTCT ATGAGGACTC CCAGTTTCCC
ATTGACATTG CTGCAGTAAA GAAAGATCAT GATTTTCTTG ACAAGGACCT TGTAGAACCT
CTTTGCAGAC GACTGAACAC ACTGAACAAG TGCGCCTCAA TGAAACTCGA TGTGAACTTC
CAAAGAAAAA AGAGTGAAGA TTCAGATGAA GAAGATCTCT GTGCTATCAG TAATAAATGG
ACTTTTCAAA GAACCAGCAA AAGATGGTCT CGGGTGGACG ACATTGACAC TCTGCTTCAC
CGATCCGACA GACATGGCTC TTCTGGGGAC ATTAAAATGA AAAACACGAC AAGCAGTGAG
AGCGTCCTTA CAGATCTGAG TGAACCTGAG CTCTCATCAA TTCACAGCGA GAGCAGTGGG
GGCAGTGACA ACAGGAGCCA ATCTGGCACC ACCAGCGCTG CCAGGGAGGC CTGTGACTGC
TCTGCCCATC ATGATGTGGA AAGCACCCTG GTGCAGGACT CTGCTGCAAT AATCACCGCC
CCATCCCCCA AGGACGGCCT GAAGAATGAA AATCCAACAC GAGCCAGAGC AAAAACCTTT
CTAAAACGCA TGGAGACACT AAAAGCAAAA GCTGTGCATG GAAAACTAAA AGGCTCGGGA
AGAACAGGTC CTTTAGAGAT CAGTGGACCA GTTCTCCAGT TTGAGCCAAA ATCCTTGAAA
GACATGCACT GTGTACAGAT TGTCAATGGC GATCTTCAAA ATCTGGGGCA AGATTCAGTC
AAAAGAGGGC TTCCCTTTTC TGCCAAATCC AGCAGTGACA GCAGTCAGTC CGAAAACAGC
AGCAGTGGAG TGAGCACGCC ATGTCTGAAG GAACACAAGT GCCATGAAGC AAACAAGAGA
GGTGGGATGT ACCTGGAGGA CCTGGATGTT CTGGCAGGAA CGGCCTTACG GCAAGTGGTG
GACCAAAACC GCAAAAATGA ATTTCATTCC CAGGAGAACT TGGTTGTGCA CATTCCCAAG
GATCACAAAC CGGGGACCTT CCCAAAGGCA CTTTCTATCG AAAGCCTCTC ACCTACAGAC
AATAGTAACA GTGTAAACTG GAGGACGGGC AGCATCTCTT TGGGAAAGCA GAACTGCTCT
ACTCCAAAGG AATCTGGACT GATGGCTTGC TGTCCTAAAG AGAGCAGAAT TAGTATTTAT
GACAATGTGC CAGGTTCCCA CTTGTATGCT AGTACTGGGG ACCTCCTGGA CATAGAGAAA
GATGTCCTTT TTCCTCAGTT AGATGACATT TTGCAACATG TCAATGGACT GCAGGAGGTG
GTAGATGGCT GGTCAAAGAA GCTGTTGCCA GGTCTGCCGG TTGGTGACGT GTCGGTCAGG
GAATCCCCAT CATTGCCTTT CCAGTCGCCT ACACAGATCA CTCTCGATTT TGAAGGAAAC
TCTGTGTCCG ATGGCCGAAC CACCCCAAGT GACATGGACA GAGATGGAAC ATCCCTGAAT
GAATCCGAAG CCACTGGTGT TAGGGACAGG AGGGACTCTG GGGTGGGAGC ATCTCTCACA
AGGCCAAGCA GGCAATTACG ATGGCAAAGT TTCCAAATCT CTCATCGCCT GAGCCGCTCC
ATTGCGTCGC TTCACATCAG CAACCAGTCA GCAGCCCAGC TGAATCTACT ACAAAAATTC
TCTCTGCTTC GTCTCACTGC CATCATGGAA AAGTACTCCA TGTCAAACAA ACATGGCTGG
ACCTGGTCTG TGCCAAAGTT CATGAAGAGG ATGAAAGTCC CTGACTACAA GGACAAGAAC
GTCTTTGGTG TGCCCCTGAT AGTTCACGTT CAGAGAACGG GGCAGCCTCT TCCCCAGAGC
ATACAACAAG CCCTGCGCTA CCTACGGAGC AACTGTCTAG ACCAGGTGGG TCTGTTTCGG
AAATCTGGAG TGAAATCCCG AATCCAGGCC CTGCGTCAGA TGAACGAGAG CTCCCCAGAA
AACGTCAGCT ATGAAGACCA GTCCGCATAC GATGTGGCTG ACATGGTCAA GCAATTCTTC
AGAGACTTGC CAGAACCTCT CCTCACAAGT AAACTAGGAG AGACTTTTCT GCACATCTAT
CAATGTCTTT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030130162.1 CDS 263..3454 Translation
Target ORF information:
RefSeq Version XM_030274302.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata StAR related lipid transfer domain containing 13 (STARD13), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030274302.1
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
3181ATGGAAACTA ACATCTATGA AGAAGAACAG GGCTCACCTT ATCTTACATC TGCCGAGTGT
CTGGGAACTC CAAAGGAAGC CAAGTATGAA GAATACCAAA GAAAGACAGA AAATCAGACA
AGTCCATATG AATTTCAGAA TTCATTATTG GAACCTGAGC TAAGCTTGCT GTCTGTGTCA
TCCTTATTGG ACAACAATGA GACATCCTTA CAATTTGGCA TGGCTGCAGG GCGTGCCAGT
GCCACCAGCC AGCCTGAGAC AAAGCACCTT TGTGGAGAAT TATCTTGTTC TACAAAGCAC
ACGTCAAAGG AAGATCATTT AAACCTTCCC AGGAACACAG AATGGCCAGT CCTCACAGGA
AAAAATTCAG ATAAGAAACC AGAAATAAAT TATGAGATCA GAGTCATAGA ACACAAACCA
TGTGCTATCA CATTTTCTGA TTTTGAATTT TTATCACATG AAGCTGACAC TAAGCTCCAT
ATTTGTGAGG CAGGAAAAGC AGATGATTTT TCTTCTGAAG AGGAAGAGAA AGGTAACAGA
GGTGATAATG ACACATTTAC AGAACTGCCA CTTTATGACA CATTTTTCAA AGGTCTTCAG
AGAAGGAATG TTTCCCAAAG AAAGCAAGCT CAACATGAAC TTACTAAATA TCAGCACATC
TGTCATTTAG AAGACTGCAA TAATAATTCT GAAAAGGCAT TGAAGGACCA TGACAAAGAA
GAAAAACACA TGGGGCTGGA GACCCAACCA GAAAAAGAAT CTGAATGGCC AGACTCTATG
TCATGGCTTA TGAAGAAACT GGAACGGTTG AACTTAGATA TTGAAGAAGC TCTGAGTGCT
GGCTCTTCTC CCTCCAGTAC TCCTTCTAAA AGGCACAAGC AACTGTGCCC TATTCAAGTA
GAGACAGGCC TTTATGGAGA TTATCAAGAA AAAGGATCTT GGAAAAATAG AAGAGGAGAC
TACCAGTATC TAAATTGTTT ACCTTACCGA GTGTTGACTG GAGCACGGCC TAAATCTGAT
ATGCTGTTTC AGAAGCTGTG CAAGGAAAAA GCAGAAATTG AAGCAAAGGA AGCGTGTGAC
TGGTTACGTG CAGCTGGATT TCCCCAATAT GCTCAATTCT ATGAGGACTC CCAGTTTCCC
ATTGACATTG CTGCAGTAAA GAAAGATCAT GATTTTCTTG ACAAGGACCT TGTAGAACCT
CTTTGCAGAC GACTGAACAC ACTGAACAAG TGCGCCTCAA TGAAACTCGA TGTGAACTTC
CAAAGAAAAA AGAGTGAAGA TTCAGATGAA GAAGATCTCT GTGCTATCAG TAATAAATGG
ACTTTTCAAA GAACCAGCAA AAGATGGTCT CGGGTGGACG ACATTGACAC TCTGCTTCAC
CGATCCGACA GACATGGCTC TTCTGGGGAC ATTAAAATGA AAAACACGAC AAGCAGTGAG
AGCGTCCTTA CAGATCTGAG TGAACCTGAG CTCTCATCAA TTCACAGCGA GAGCAGTGGG
GGCAGTGACA ACAGGAGCCA ATCTGGCACC ACCAGCGCTG CCAGGGAGGC CTGTGACTGC
TCTGCCCATC ATGATGTGGA AAGCACCCTG GTGCAGGACT CTGCTGCAAT AATCACCGCC
CCATCCCCCA AGGACGGCCT GAAGAATGAA AATCCAACAC GAGCCAGAGC AAAAACCTTT
CTAAAACGCA TGGAGACACT AAAAGCAAAA GCTGTGCATG GAAAACTAAA AGGCTCGGGA
AGAACAGGTC CTTTAGAGAT CAGTGGACCA GTTCTCCAGT TTGAGCCAAA ATCCTTGAAA
GACATGCACT GTGTACAGAT TGTCAATGGC GATCTTCAAA ATCTGGGGCA AGATTCAGTC
AAAAGAGGGC TTCCCTTTTC TGCCAAATCC AGCAGTGACA GCAGTCAGTC CGAAAACAGC
AGCAGTGGAG TGAGCACGCC ATGTCTGAAG GAACACAAGT GCCATGAAGC AAACAAGAGA
GGTGGGATGT ACCTGGAGGA CCTGGATGTT CTGGCAGGAA CGGCCTTACG GCAAGTGGTG
GACCAAAACC GCAAAAATGA ATTTCATTCC CAGGAGAACT TGGTTGTGCA CATTCCCAAG
GATCACAAAC CGGGGACCTT CCCAAAGGCA CTTTCTATCG AAAGCCTCTC ACCTACAGAC
AATAGTAACA GTGTAAACTG GAGGACGGGC AGCATCTCTT TGGGAAAGCA GAACTGCTCT
ACTCCAAAGG AATCTGGACT GATGGCTTGC TGTCCTAAAG AGAGCAGAAT TAGTATTTAT
GACAATGTGC CAGGTTCCCA CTTGTATGCT AGTACTGGGG ACCTCCTGGA CATAGAGAAA
GATGTCCTTT TTCCTCAGTT AGATGACATT TTGCAACATG TCAATGGACT GCAGGAGGTG
GTAGATGGCT GGTCAAAGAA GCTGTTGCCA GGTCTGCCGG TTGGTGACGT GTCGGTCAGG
GAATCCCCAT CATTGCCTTT CCAGTCGCCT ACACAGATCA CTCTCGATTT TGAAGGAAAC
TCTGTGTCCG ATGGCCGAAC CACCCCAAGT GACATGGACA GAGATGGAAC ATCCCTGAAT
GAATCCGAAG CCACTGGTGT TAGGGACAGG AGGGACTCTG GGGTGGGAGC ATCTCTCACA
AGGCCAAGCA GGCAATTACG ATGGCAAAGT TTCCAAATCT CTCATCGCCT GAGCCGCTCC
ATTGCGTCGC TTCACATCAG CAACCAGTCA GCAGCCCAGC TGAATCTACT ACAAAAATTC
TCTCTGCTTC GTCTCACTGC CATCATGGAA AAGTACTCCA TGTCAAACAA ACATGGCTGG
ACCTGGTCTG TGCCAAAGTT CATGAAGAGG ATGAAAGTCC CTGACTACAA GGACAAGAAC
GTCTTTGGTG TGCCCCTGAT AGTTCACGTT CAGAGAACGG GGCAGCCTCT TCCCCAGAGC
ATACAACAAG CCCTGCGCTA CCTACGGAGC AACTGTCTAG ACCAGGTGGG TCTGTTTCGG
AAATCTGGAG TGAAATCCCG AATCCAGGCC CTGCGTCAGA TGAACGAGAG CTCCCCAGAA
AACGTCAGCT ATGAAGACCA GTCCGCATAC GATGTGGCTG ACATGGTCAA GCAATTCTTC
AGAGACTTGC CAGAACCTCT CCTCACAAGT AAACTAGGAG AGACTTTTCT GCACATCTAT
CAATGTCTTT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd25119 Clone ID Related Accession (Same CDS sequence) XM_012569805.2 Accession Version XM_012569805.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3003bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product stAR-related lipid transfer protein 13 isoform X8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012569805.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
3001ATGAAACTCG ATGTGAACTT CCAAAGAAAA AAGAGTGAAG ATTCAGATGA AGAAGATCTC
TGTGCTATCA GTAATAAATG GACTTTTCAA AGAACCAGCA AAAGATGGTC TCGGGTGGAC
GACATTGACA CTCTGCTTCA CCGATCCGAC AGACATGGCT CTTCTGGGGA CATTAAAATG
AAAAACACGA CAAGCAGTGA GAGCGTCCTT ACAGATCTGA GTGAACCTGA GCTCTCATCA
ATTCACAGCG AGAGCAGTGG GGGCAGTGAC AACAGGAGCC AATCTGGCAC CACCAGCGCT
GCCAGGGAGG CCTGTGACTG CTCTGCCCAT CATGATGTGG AAAGCACCCT GGTGCAGGAC
TCTGCTGCAA TAATCACCGC CCCATCCCCC AAGGACGGCC TGAAGAATGA AAATCCAACA
CGAGCCAGAG CAAAAACCTT TCTAAAACGC ATGGAGACAC TAAAAGCAAA AGCTGTGCAT
GGAAAACTAA AAGGCTCGGG AAGAACAGGT CCTTTAGAGA TCAGTGGACC AGTTCTCCAG
TTTGAGCCAA AATCCTTGAA AGACATGCAC TGTGTACAGA TTGTCAATGG CGATCTTCAA
AATCTGGGGC AAGATTCAGT CAAAAGAGGG CTTCCCTTTT CTGCCAAATC CAGCAGTGAC
AGCAGTCAGT CCGAAAACAG CAGCAGTGGA GTGAGCACGC CATGTCTGAA GGAACACAAG
TGCCATGAAG CAAACAAGAG AGGTGGGATG TACCTGGAGG ACCTGGATGT TCTGGCAGGA
ACGGCCTTAC GGCAAGTGGT GGACCAAAAC CGCAAAAATG AATTTCATTC CCAGGAGAAC
TTGGTTGTGC ACATTCCCAA GGATCACAAA CCGGGGACCT TCCCAAAGGC ACTTTCTATC
GAAAGCCTCT CACCTACAGA CAATAGTAAC AGTGTAAACT GGAGGACGGG CAGCATCTCT
TTGGGAAAGC AGAACTGCTC TACTCCAAAG GAATCTGGAC TGATGGCTTG CTGTCCTAAA
GAGAGCAGAA TTAGTATTTA TGACAATGTG CCAGGTTCCC ACTTGTATGC TAGTACTGGG
GACCTCCTGG ACATAGAGAA AGATGTCCTT TTTCCTCAGT TAGATGACAT TTTGCAACAT
GTCAATGGAC TGCAGGAGGT GGTAGATGGC TGGTCAAAGA AGCTGTTGCC AGGTCTGCCG
GTTGGTGACG TGTCGGTCAG GGAATCCCCA TCATTGCCTT TCCAGTCGCC TACACAGATC
ACTCTCGATT TTGAAGGAAA CTCTGTGTCC GATGGCCGAA CCACCCCAAG TGACATGGAC
AGAGATGGAA CATCCCTGAA TGAATCCGAA GCCACTGGTG TTAGGGACAG GAGGGACTCT
GGGGTGGGAG CATCTCTCAC AAGGCCAAGC AGGCAATTAC GATGGCAAAG TTTCCAAATC
TCTCATCGCC TGAGCCGCTC CATTGCGTCG CTTCACATCA GCAACCAGTC AGCAGCCCAG
CTGAATCTAC TACAAAAATT CTCTCTGCTT CGTCTCACTG CCATCATGGA AAAGTACTCC
ATGTCAAACA AACATGGCTG GACCTGGTCT GTGCCAAAGT TCATGAAGAG GATGAAAGTC
CCTGACTACA AGGACAAGAA CGTCTTTGGT GTGCCCCTGA TAGTTCACGT TCAGAGAACG
GGGCAGCCTC TTCCCCAGAG CATACAACAA GCCCTGCGCT ACCTACGGAG CAACTGTCTA
GACCAGGTGG GTCTGTTTCG GAAATCTGGA GTGAAATCCC GAATCCAGGC CCTGCGTCAG
ATGAACGAGA GCTCCCCAGA AAACGTCAGC TATGAAGACC AGTCCGCATA CGATGTGGCT
GACATGGTCA AGCAATTCTT CAGAGACTTG CCAGAACCTC TCCTCACAAG TAAACTAGGA
GAGACTTTTC TGCACATCTA TCAATACGTG CCCAAGGAGC AGCGGCTGCA GGCGGTGCAG
GCAGCAATCA TGCTCATGGC CGACGAGAAC AGGGAGGTTC TGCAGACTCT GCTCTGCTTC
CTCAGCGACG TCACCTCCGT GGAGGAAAAT CAGATGACTC CCATGAACAT CGCTGTTTGT
CTGGCCCCTT CCCTCTTCCA TCTCAATATA GTGAAGAAAG AAAGCTCACC AAGAGTAATA
CAGAAAAAAT ATGCAACAGG GAAGCCAGAT CAGAAGGACC TCAGTGAAAA CCTGGCAGCT
ACTCAGGGAC TTGCTCACAT GATAATGGAA TGCAACAAAC TTTTTGAGGT CCCACATGAG
ATGATCACCC AATCCCGAAA CTCCTATGTC GATGCAGAAG TGCATTCTCC TACCCTGGAT
GAGCTTGGGA AACAAGTGGA TGAGGAAGGA GGGAACTATC AGATGTACCT GGAAACTCTC
ATGCAGAATC TCCAGAAAGA AGCAAAAGAG AAATTCAAAG GATGGGTCAC ATGTTCCAGT
GTAGAGAACA CAGAACTCGC CTACAAAAAG GTTGGGGATG GGAACCCACT AAGGCTTTGG
AAAGCCTCAG TTGAAGTTGA AGCCCCTCCA TCAGTTGTCC TGAACCGGGT GCTGAGAGAA
CGTCACCTTT GGGACGAGGA TTTCTTGCAG TGGAAGGTGG TTGAGAGCCT GGACAAGCAG
ACGGAAGTTT ACCAGTATGT TTTGAACACC ATGGCTCCTC ACCCTGTCCG AGACTTTGTT
GTTCTCAGGA CGTGGAGGAC GGATTTGCCC AAGGGGATGT GCATGCTGGT TGCCATCTCT
GTGGAGCATG AAGAGGCTCC TCTCATGGGA GCTGTGCGAG CCATCGTGAT GGACTCCCAG
TACTTGATAG AGCCCTGCGG CTCGGGGAAA GCCAGGCTGA CCCACATCTG CAGGATTGAC
CTAAAAGGAC ATTCCCCAGA GTGGTACAAC AAAGGCTTTG GACATCTGTG TGCAGCAGAA
GTTGCCAGGA TCAGAAACTC ATTTCAACCT CTGATTGCTG AGGGACCAGA AACAAAAATC
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012425259.1 CDS 1091..4093 Translation
Target ORF information:
RefSeq Version XM_012569805.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata StAR related lipid transfer domain containing 13 (STARD13), transcript variant X8, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012569805.2
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
3001ATGAAACTCG ATGTGAACTT CCAAAGAAAA AAGAGTGAAG ATTCAGATGA AGAAGATCTC
TGTGCTATCA GTAATAAATG GACTTTTCAA AGAACCAGCA AAAGATGGTC TCGGGTGGAC
GACATTGACA CTCTGCTTCA CCGATCCGAC AGACATGGCT CTTCTGGGGA CATTAAAATG
AAAAACACGA CAAGCAGTGA GAGCGTCCTT ACAGATCTGA GTGAACCTGA GCTCTCATCA
ATTCACAGCG AGAGCAGTGG GGGCAGTGAC AACAGGAGCC AATCTGGCAC CACCAGCGCT
GCCAGGGAGG CCTGTGACTG CTCTGCCCAT CATGATGTGG AAAGCACCCT GGTGCAGGAC
TCTGCTGCAA TAATCACCGC CCCATCCCCC AAGGACGGCC TGAAGAATGA AAATCCAACA
CGAGCCAGAG CAAAAACCTT TCTAAAACGC ATGGAGACAC TAAAAGCAAA AGCTGTGCAT
GGAAAACTAA AAGGCTCGGG AAGAACAGGT CCTTTAGAGA TCAGTGGACC AGTTCTCCAG
TTTGAGCCAA AATCCTTGAA AGACATGCAC TGTGTACAGA TTGTCAATGG CGATCTTCAA
AATCTGGGGC AAGATTCAGT CAAAAGAGGG CTTCCCTTTT CTGCCAAATC CAGCAGTGAC
AGCAGTCAGT CCGAAAACAG CAGCAGTGGA GTGAGCACGC CATGTCTGAA GGAACACAAG
TGCCATGAAG CAAACAAGAG AGGTGGGATG TACCTGGAGG ACCTGGATGT TCTGGCAGGA
ACGGCCTTAC GGCAAGTGGT GGACCAAAAC CGCAAAAATG AATTTCATTC CCAGGAGAAC
TTGGTTGTGC ACATTCCCAA GGATCACAAA CCGGGGACCT TCCCAAAGGC ACTTTCTATC
GAAAGCCTCT CACCTACAGA CAATAGTAAC AGTGTAAACT GGAGGACGGG CAGCATCTCT
TTGGGAAAGC AGAACTGCTC TACTCCAAAG GAATCTGGAC TGATGGCTTG CTGTCCTAAA
GAGAGCAGAA TTAGTATTTA TGACAATGTG CCAGGTTCCC ACTTGTATGC TAGTACTGGG
GACCTCCTGG ACATAGAGAA AGATGTCCTT TTTCCTCAGT TAGATGACAT TTTGCAACAT
GTCAATGGAC TGCAGGAGGT GGTAGATGGC TGGTCAAAGA AGCTGTTGCC AGGTCTGCCG
GTTGGTGACG TGTCGGTCAG GGAATCCCCA TCATTGCCTT TCCAGTCGCC TACACAGATC
ACTCTCGATT TTGAAGGAAA CTCTGTGTCC GATGGCCGAA CCACCCCAAG TGACATGGAC
AGAGATGGAA CATCCCTGAA TGAATCCGAA GCCACTGGTG TTAGGGACAG GAGGGACTCT
GGGGTGGGAG CATCTCTCAC AAGGCCAAGC AGGCAATTAC GATGGCAAAG TTTCCAAATC
TCTCATCGCC TGAGCCGCTC CATTGCGTCG CTTCACATCA GCAACCAGTC AGCAGCCCAG
CTGAATCTAC TACAAAAATT CTCTCTGCTT CGTCTCACTG CCATCATGGA AAAGTACTCC
ATGTCAAACA AACATGGCTG GACCTGGTCT GTGCCAAAGT TCATGAAGAG GATGAAAGTC
CCTGACTACA AGGACAAGAA CGTCTTTGGT GTGCCCCTGA TAGTTCACGT TCAGAGAACG
GGGCAGCCTC TTCCCCAGAG CATACAACAA GCCCTGCGCT ACCTACGGAG CAACTGTCTA
GACCAGGTGG GTCTGTTTCG GAAATCTGGA GTGAAATCCC GAATCCAGGC CCTGCGTCAG
ATGAACGAGA GCTCCCCAGA AAACGTCAGC TATGAAGACC AGTCCGCATA CGATGTGGCT
GACATGGTCA AGCAATTCTT CAGAGACTTG CCAGAACCTC TCCTCACAAG TAAACTAGGA
GAGACTTTTC TGCACATCTA TCAATACGTG CCCAAGGAGC AGCGGCTGCA GGCGGTGCAG
GCAGCAATCA TGCTCATGGC CGACGAGAAC AGGGAGGTTC TGCAGACTCT GCTCTGCTTC
CTCAGCGACG TCACCTCCGT GGAGGAAAAT CAGATGACTC CCATGAACAT CGCTGTTTGT
CTGGCCCCTT CCCTCTTCCA TCTCAATATA GTGAAGAAAG AAAGCTCACC AAGAGTAATA
CAGAAAAAAT ATGCAACAGG GAAGCCAGAT CAGAAGGACC TCAGTGAAAA CCTGGCAGCT
ACTCAGGGAC TTGCTCACAT GATAATGGAA TGCAACAAAC TTTTTGAGGT CCCACATGAG
ATGATCACCC AATCCCGAAA CTCCTATGTC GATGCAGAAG TGCATTCTCC TACCCTGGAT
GAGCTTGGGA AACAAGTGGA TGAGGAAGGA GGGAACTATC AGATGTACCT GGAAACTCTC
ATGCAGAATC TCCAGAAAGA AGCAAAAGAG AAATTCAAAG GATGGGTCAC ATGTTCCAGT
GTAGAGAACA CAGAACTCGC CTACAAAAAG GTTGGGGATG GGAACCCACT AAGGCTTTGG
AAAGCCTCAG TTGAAGTTGA AGCCCCTCCA TCAGTTGTCC TGAACCGGGT GCTGAGAGAA
CGTCACCTTT GGGACGAGGA TTTCTTGCAG TGGAAGGTGG TTGAGAGCCT GGACAAGCAG
ACGGAAGTTT ACCAGTATGT TTTGAACACC ATGGCTCCTC ACCCTGTCCG AGACTTTGTT
GTTCTCAGGA CGTGGAGGAC GGATTTGCCC AAGGGGATGT GCATGCTGGT TGCCATCTCT
GTGGAGCATG AAGAGGCTCC TCTCATGGGA GCTGTGCGAG CCATCGTGAT GGACTCCCAG
TACTTGATAG AGCCCTGCGG CTCGGGGAAA GCCAGGCTGA CCCACATCTG CAGGATTGAC
CTAAAAGGAC ATTCCCCAGA GTGGTACAAC AAAGGCTTTG GACATCTGTG TGCAGCAGAA
GTTGCCAGGA TCAGAAACTC ATTTCAACCT CTGATTGCTG AGGGACCAGA AACAAAAATC
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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