| Gene Symbol | U2SURP |
| Entrez Gene ID | 100228212 |
| Full Name | U2 snRNP associated SURP domain containing |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
- REAGENT SERVICES Hot!
-
PRODUCTS
-
Most Popular Reagents
-
Instruments
-
Antibodies
-
ELISA Kits
-
Protein Electrophoresis and Blotting
-
Protein and Antibody Purification
-
Recombinant Proteins
-
Molecular Biology
-
Stable Cell Lines
-
Cell Isolation and Activation
-
IVD Raw Materials
-
Therapy Applications
-
Resources
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Anti-Camelid VHH]()
MonoRab™ Anti-VHH Antibodies
-
![ELISA Kits]()
ELISA Kits
-
![Precast Gels]()
SurePAGE™ Precast Gels
-
![Quatro ProAb Automated Protein and Antibody Purification System]()
AmMag™ Quatro ProAb Automated Protein and Antibody Purification System
-
![Target Proteins]()
Target Proteins
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Stable Cell Lines]()
Stable Cell Lines
-
![Cell Isolation and Activation]()
Cell Isolation and Activation
-
![Quick
Order]()
Quick Order
-
![Quick
Order]()
Quick Order
- APPLICATIONS
- RESOURCES
- ABOUT US
U2SURP cDNA ORF clone, Taeniopygia guttata(zebra finch)
-
Gene
-
Clones
gRNAs
The following U2SURP gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the U2SURP 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.
-
Reference Sequences (Refseq)
CloneID OTd18700 Clone ID Related Accession (Same CDS sequence) XM_012575539.1 Accession Version XM_012575539.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2964bp)
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 U2 snRNP-associated SURP motif-containing protein isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002199036.1) and transcript sequence (DQ214567.1) 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## ##RefSeq-Attributes-START## assembly gap :: added 60 transcript bases to patch genome assembly gap ##RefSeq-Attributes-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
2941ATGGCGGAGA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGGGAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TCCTTTGAAG AAAGGAGAGA AGGAAAAGAA AAAGAGTAAT
TTGGAACTTT TTAAAGAAGA ATTAAAGCAA ATCCAAGAGG AGCGTGATGA AAGGCACAAA
ACAAAAGGTA GATTGAGTCG TTTTGAACCA CCCCAGTCTG ATTCAGATGG TCAGCGGCGT
TCAATGGATG CTCCTTCAAG AAGAAACAGA TCATCTGGTG TACTGGATGA TTATGCACCA
GGGTCACATG ATGTTGGCGA TCCAAGCACA ACAAATTTGT ATCTGGGAAA CATCAATCCT
CAGATGAATG AAGAGATGTT ATGTCAAGAA TTTGGACGCT TTGGACCATT AGCGAGTGTT
AAAATTATGT GGCCAAGAAC TGATGAAGAA AGAGCAAGAG AAAGAAATTG TGGCTTTGTT
GCCTTTATGA ACAGAAGAGA TGCTGAAAGA GCATTGAAGA ATTTAAATGG CAAGATGATT
ATGTCTTTTG AAATGAAGCT GGGCTGGGGC AAAGCTGTAC CTATACCACC ACATCCAATC
TACATTCCGC CTTCCATGAT GGAGCACACC CTGCCGCCGC CCCCGTCAGG ACTGCCTTTC
AATGCCCAGC CTAGGGAGAG GTTGAAGAAT CCTAATGCTC CAATGTTGCC ACCACCAAAA
AACAAGGAAG ATTTTGAGAA GACTCTGTCG CAAGCCATAG TCAAAGTGGT TATCCCAACA
GAAAGGAATT TGCTCGCTTT GATACATCGA ATGATAGAGT TTGTGGTTCG GGAAGGGCCC
ATGTTCGAAG CCATGATCAT GAACCGAGAA ATCAACAACC CAATGTTCAG GTTTTTATTT
GAAAACCAGA CTCCAGCCCA TGTGTATTAT AGATGGAAGC TTTATTCAAT TCTTCAGGGG
GATGCTCCAA CCAAGTGGAG GACAGAAGAT TTTCGTATGT TCAAAAATGG ATCCTTCTGG
AGGCCACCAC CATTGAATCC ATACCTGCAC GGGATGTCAG AAGAGCAAGA AACGGAAGCG
TTTGTGGAGG AACCGAACAA GAAGGGTGCA CTTAAGGAAG AACAGAGGGA CAAACTAGAG
GAAATTCTAC GTGGGTTAAC ACCTCGGAAG AACGACATTG GTGACGCAAT GGTTTTCTGT
CTAAATAATG CGGAAGCTGC TGAAGAAATT GTGGACTGCA TTACAGAGTC ATTGTCCATC
CTCAAGACTC CTCTTCCTAA GAAGATTGCA AGATTGTATC TAGTGTCAGA TGTATTATAC
AACTCTTCAG CTAAAGTTGC CAATGCTTCC TACTATAGAA AATTTTTTGA AACAAAATTA
TGTCAGATAT TCTCTGATCT CAATGCTACT TACCGTACAA TACAAGGCCA TTTACAGTCT
GAAAATTTCA AGCAACGGGT GATGACATGC TTCCGAGCAT GGGAAGACTG GGCAATCTAT
CCAGAACCAT TTCTGATCAA ACTACAGAAT ATTTTCTTGG GACTTGTAAA TATCATGGAA
GATAAAGAAA CAGAGGAAGT ACCAGATGAT CTTGATGGTG CTCCCATTGA GGAAGAGCTC
GATGGTGCTC CACTAGAAGA TGTGGATGGA ATTCCTATTG ATGCTGCTCC TATTGATGAT
CTGGATGGAG TACCAATTAA ATCACTGGAT GATGACCTTG ATGGAGTTCC TTTGGATACA
ACTGAAGACT CAAAAAAGAA TGAGCCTATA TTTAAAGTTG CCCCTTCAAA GTGGGAAGCA
GTGGATGAAT CGGAACTGGA AGCTCAAGCT GTTACTACTT CTAAGTGGGA GCTTTTTGAC
CAACATGAAG AATCTGAGGA GGAGGAAATT CAAAATCAAG AAGAAGAAAG TGAAGATGAA
GAAGACACAC AGAGTTCCAA GTCAGAAGAA CAACACATGT ATTCCAATCC TATTAAAGAG
GAAATGCCTG AATCCAAGTC ATCAGTCAAG TACTCAGAAA TGAGTGAAGA AAAGCGTGCC
AAACTCAGAG AGATAGAGCT TAAGGTGATG AAGTTTCAGG ATGAGTTAGA GTCTGGGAAA
AGACCCAAGA AGCCAGGCCA GAGTTTTCAG GAACAGGTTG AACACTATAG AGACAAGCTG
CTCCAGAGGG AAAAAGAAAA AGAGATGGAA AGAGAACGGG ACAGAGACAA AAAGGACAAA
GAAAAGTCTG AGACCAGGTC CAAAGATAAG AAGGAAAAAG AGGAATGTAC ACCAACACGA
AAAGAGAGGA AAAGGCGGCA CAGCGCTTCC CCCAGCCCGT CCCGCAGCAG CGGCAGCCGC
CGGGCCAAGT CGCCCTCGCC CAAATCCGAG CGCTCTGAGC GCTCCGAGCG CTCCCACAAG
GAGAGCTCCC GCTCCCGCTC CTCACACAAA GATTCTCCCA GAGATGTCAG TAAAAAAGGC
AAAAGGTCGC CATCTGGCTC CAGGACACCC AAAAGATCAA GAAGATCACG ATCCAGATCC
CCAAAAAAGT CAGGGAAAAA ATCCAGGTCT CAGTCCCGTT CTCCTCACAG ATCTCACAAG
AAGTCAAAGA AAAGCAAACA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012430993.1 CDS 11..2974 Translation 
Target ORF information:
RefSeq Version XM_012575539.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata U2 snRNP-associated SURP domain containing (U2SURP), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_012575539.1
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
2941ATGGCGGAGA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGGGAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TCCTTTGAAG AAAGGAGAGA AGGAAAAGAA AAAGAGTAAT
TTGGAACTTT TTAAAGAAGA ATTAAAGCAA ATCCAAGAGG AGCGTGATGA AAGGCACAAA
ACAAAAGGTA GATTGAGTCG TTTTGAACCA CCCCAGTCTG ATTCAGATGG TCAGCGGCGT
TCAATGGATG CTCCTTCAAG AAGAAACAGA TCATCTGGTG TACTGGATGA TTATGCACCA
GGGTCACATG ATGTTGGCGA TCCAAGCACA ACAAATTTGT ATCTGGGAAA CATCAATCCT
CAGATGAATG AAGAGATGTT ATGTCAAGAA TTTGGACGCT TTGGACCATT AGCGAGTGTT
AAAATTATGT GGCCAAGAAC TGATGAAGAA AGAGCAAGAG AAAGAAATTG TGGCTTTGTT
GCCTTTATGA ACAGAAGAGA TGCTGAAAGA GCATTGAAGA ATTTAAATGG CAAGATGATT
ATGTCTTTTG AAATGAAGCT GGGCTGGGGC AAAGCTGTAC CTATACCACC ACATCCAATC
TACATTCCGC CTTCCATGAT GGAGCACACC CTGCCGCCGC CCCCGTCAGG ACTGCCTTTC
AATGCCCAGC CTAGGGAGAG GTTGAAGAAT CCTAATGCTC CAATGTTGCC ACCACCAAAA
AACAAGGAAG ATTTTGAGAA GACTCTGTCG CAAGCCATAG TCAAAGTGGT TATCCCAACA
GAAAGGAATT TGCTCGCTTT GATACATCGA ATGATAGAGT TTGTGGTTCG GGAAGGGCCC
ATGTTCGAAG CCATGATCAT GAACCGAGAA ATCAACAACC CAATGTTCAG GTTTTTATTT
GAAAACCAGA CTCCAGCCCA TGTGTATTAT AGATGGAAGC TTTATTCAAT TCTTCAGGGG
GATGCTCCAA CCAAGTGGAG GACAGAAGAT TTTCGTATGT TCAAAAATGG ATCCTTCTGG
AGGCCACCAC CATTGAATCC ATACCTGCAC GGGATGTCAG AAGAGCAAGA AACGGAAGCG
TTTGTGGAGG AACCGAACAA GAAGGGTGCA CTTAAGGAAG AACAGAGGGA CAAACTAGAG
GAAATTCTAC GTGGGTTAAC ACCTCGGAAG AACGACATTG GTGACGCAAT GGTTTTCTGT
CTAAATAATG CGGAAGCTGC TGAAGAAATT GTGGACTGCA TTACAGAGTC ATTGTCCATC
CTCAAGACTC CTCTTCCTAA GAAGATTGCA AGATTGTATC TAGTGTCAGA TGTATTATAC
AACTCTTCAG CTAAAGTTGC CAATGCTTCC TACTATAGAA AATTTTTTGA AACAAAATTA
TGTCAGATAT TCTCTGATCT CAATGCTACT TACCGTACAA TACAAGGCCA TTTACAGTCT
GAAAATTTCA AGCAACGGGT GATGACATGC TTCCGAGCAT GGGAAGACTG GGCAATCTAT
CCAGAACCAT TTCTGATCAA ACTACAGAAT ATTTTCTTGG GACTTGTAAA TATCATGGAA
GATAAAGAAA CAGAGGAAGT ACCAGATGAT CTTGATGGTG CTCCCATTGA GGAAGAGCTC
GATGGTGCTC CACTAGAAGA TGTGGATGGA ATTCCTATTG ATGCTGCTCC TATTGATGAT
CTGGATGGAG TACCAATTAA ATCACTGGAT GATGACCTTG ATGGAGTTCC TTTGGATACA
ACTGAAGACT CAAAAAAGAA TGAGCCTATA TTTAAAGTTG CCCCTTCAAA GTGGGAAGCA
GTGGATGAAT CGGAACTGGA AGCTCAAGCT GTTACTACTT CTAAGTGGGA GCTTTTTGAC
CAACATGAAG AATCTGAGGA GGAGGAAATT CAAAATCAAG AAGAAGAAAG TGAAGATGAA
GAAGACACAC AGAGTTCCAA GTCAGAAGAA CAACACATGT ATTCCAATCC TATTAAAGAG
GAAATGCCTG AATCCAAGTC ATCAGTCAAG TACTCAGAAA TGAGTGAAGA AAAGCGTGCC
AAACTCAGAG AGATAGAGCT TAAGGTGATG AAGTTTCAGG ATGAGTTAGA GTCTGGGAAA
AGACCCAAGA AGCCAGGCCA GAGTTTTCAG GAACAGGTTG AACACTATAG AGACAAGCTG
CTCCAGAGGG AAAAAGAAAA AGAGATGGAA AGAGAACGGG ACAGAGACAA AAAGGACAAA
GAAAAGTCTG AGACCAGGTC CAAAGATAAG AAGGAAAAAG AGGAATGTAC ACCAACACGA
AAAGAGAGGA AAAGGCGGCA CAGCGCTTCC CCCAGCCCGT CCCGCAGCAG CGGCAGCCGC
CGGGCCAAGT CGCCCTCGCC CAAATCCGAG CGCTCTGAGC GCTCCGAGCG CTCCCACAAG
GAGAGCTCCC GCTCCCGCTC CTCACACAAA GATTCTCCCA GAGATGTCAG TAAAAAAGGC
AAAAGGTCGC CATCTGGCTC CAGGACACCC AAAAGATCAA GAAGATCACG ATCCAGATCC
CCAAAAAAGT CAGGGAAAAA ATCCAGGTCT CAGTCCCGTT CTCCTCACAG ATCTCACAAG
AAGTCAAAGA AAAGCAAACA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd18701 Clone ID Related Accession (Same CDS sequence) XM_012575540.1 Accession Version XM_012575540.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2961bp)
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 U2 snRNP-associated SURP motif-containing protein isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002199036.1) and transcript sequence (DQ214567.1) 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## ##RefSeq-Attributes-START## assembly gap :: added 60 transcript bases to patch genome assembly gap ##RefSeq-Attributes-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
2941ATGGCGGAGA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGGGAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TCCTTTGAAG AAAGGAGAGA AGGAAAAGAA AAAGAGTAAT
TTGGAACTTT TTAAAGAAGA ATTAAAGCAA ATCCAAGAGG AGCGTGATGA AAGGCACAAA
ACAAAAGGTA GATTGAGTCG TTTTGAACCA CCCCAGTCTG ATTCAGATGG TCAGCGGCGT
TCAATGGATG CTCCTTCAAG AAGAAACAGA TCATCTGTAC TGGATGATTA TGCACCAGGG
TCACATGATG TTGGCGATCC AAGCACAACA AATTTGTATC TGGGAAACAT CAATCCTCAG
ATGAATGAAG AGATGTTATG TCAAGAATTT GGACGCTTTG GACCATTAGC GAGTGTTAAA
ATTATGTGGC CAAGAACTGA TGAAGAAAGA GCAAGAGAAA GAAATTGTGG CTTTGTTGCC
TTTATGAACA GAAGAGATGC TGAAAGAGCA TTGAAGAATT TAAATGGCAA GATGATTATG
TCTTTTGAAA TGAAGCTGGG CTGGGGCAAA GCTGTACCTA TACCACCACA TCCAATCTAC
ATTCCGCCTT CCATGATGGA GCACACCCTG CCGCCGCCCC CGTCAGGACT GCCTTTCAAT
GCCCAGCCTA GGGAGAGGTT GAAGAATCCT AATGCTCCAA TGTTGCCACC ACCAAAAAAC
AAGGAAGATT TTGAGAAGAC TCTGTCGCAA GCCATAGTCA AAGTGGTTAT CCCAACAGAA
AGGAATTTGC TCGCTTTGAT ACATCGAATG ATAGAGTTTG TGGTTCGGGA AGGGCCCATG
TTCGAAGCCA TGATCATGAA CCGAGAAATC AACAACCCAA TGTTCAGGTT TTTATTTGAA
AACCAGACTC CAGCCCATGT GTATTATAGA TGGAAGCTTT ATTCAATTCT TCAGGGGGAT
GCTCCAACCA AGTGGAGGAC AGAAGATTTT CGTATGTTCA AAAATGGATC CTTCTGGAGG
CCACCACCAT TGAATCCATA CCTGCACGGG ATGTCAGAAG AGCAAGAAAC GGAAGCGTTT
GTGGAGGAAC CGAACAAGAA GGGTGCACTT AAGGAAGAAC AGAGGGACAA ACTAGAGGAA
ATTCTACGTG GGTTAACACC TCGGAAGAAC GACATTGGTG ACGCAATGGT TTTCTGTCTA
AATAATGCGG AAGCTGCTGA AGAAATTGTG GACTGCATTA CAGAGTCATT GTCCATCCTC
AAGACTCCTC TTCCTAAGAA GATTGCAAGA TTGTATCTAG TGTCAGATGT ATTATACAAC
TCTTCAGCTA AAGTTGCCAA TGCTTCCTAC TATAGAAAAT TTTTTGAAAC AAAATTATGT
CAGATATTCT CTGATCTCAA TGCTACTTAC CGTACAATAC AAGGCCATTT ACAGTCTGAA
AATTTCAAGC AACGGGTGAT GACATGCTTC CGAGCATGGG AAGACTGGGC AATCTATCCA
GAACCATTTC TGATCAAACT ACAGAATATT TTCTTGGGAC TTGTAAATAT CATGGAAGAT
AAAGAAACAG AGGAAGTACC AGATGATCTT GATGGTGCTC CCATTGAGGA AGAGCTCGAT
GGTGCTCCAC TAGAAGATGT GGATGGAATT CCTATTGATG CTGCTCCTAT TGATGATCTG
GATGGAGTAC CAATTAAATC ACTGGATGAT GACCTTGATG GAGTTCCTTT GGATACAACT
GAAGACTCAA AAAAGAATGA GCCTATATTT AAAGTTGCCC CTTCAAAGTG GGAAGCAGTG
GATGAATCGG AACTGGAAGC TCAAGCTGTT ACTACTTCTA AGTGGGAGCT TTTTGACCAA
CATGAAGAAT CTGAGGAGGA GGAAATTCAA AATCAAGAAG AAGAAAGTGA AGATGAAGAA
GACACACAGA GTTCCAAGTC AGAAGAACAA CACATGTATT CCAATCCTAT TAAAGAGGAA
ATGCCTGAAT CCAAGTCATC AGTCAAGTAC TCAGAAATGA GTGAAGAAAA GCGTGCCAAA
CTCAGAGAGA TAGAGCTTAA GGTGATGAAG TTTCAGGATG AGTTAGAGTC TGGGAAAAGA
CCCAAGAAGC CAGGCCAGAG TTTTCAGGAA CAGGTTGAAC ACTATAGAGA CAAGCTGCTC
CAGAGGGAAA AAGAAAAAGA GATGGAAAGA GAACGGGACA GAGACAAAAA GGACAAAGAA
AAGTCTGAGA CCAGGTCCAA AGATAAGAAG GAAAAAGAGG AATGTACACC AACACGAAAA
GAGAGGAAAA GGCGGCACAG CGCTTCCCCC AGCCCGTCCC GCAGCAGCGG CAGCCGCCGG
GCCAAGTCGC CCTCGCCCAA ATCCGAGCGC TCTGAGCGCT CCGAGCGCTC CCACAAGGAG
AGCTCCCGCT CCCGCTCCTC ACACAAAGAT TCTCCCAGAG ATGTCAGTAA AAAAGGCAAA
AGGTCGCCAT CTGGCTCCAG GACACCCAAA AGATCAAGAA GATCACGATC CAGATCCCCA
AAAAAGTCAG GGAAAAAATC CAGGTCTCAG TCCCGTTCTC CTCACAGATC TCACAAGAAG
TCAAAGAAAA GCAAACACTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012430994.1 CDS 11..2971 Translation
Target ORF information:
RefSeq Version XM_012575540.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata U2 snRNP-associated SURP domain containing (U2SURP), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012575540.1
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
2941ATGGCGGAGA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGGGAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TCCTTTGAAG AAAGGAGAGA AGGAAAAGAA AAAGAGTAAT
TTGGAACTTT TTAAAGAAGA ATTAAAGCAA ATCCAAGAGG AGCGTGATGA AAGGCACAAA
ACAAAAGGTA GATTGAGTCG TTTTGAACCA CCCCAGTCTG ATTCAGATGG TCAGCGGCGT
TCAATGGATG CTCCTTCAAG AAGAAACAGA TCATCTGTAC TGGATGATTA TGCACCAGGG
TCACATGATG TTGGCGATCC AAGCACAACA AATTTGTATC TGGGAAACAT CAATCCTCAG
ATGAATGAAG AGATGTTATG TCAAGAATTT GGACGCTTTG GACCATTAGC GAGTGTTAAA
ATTATGTGGC CAAGAACTGA TGAAGAAAGA GCAAGAGAAA GAAATTGTGG CTTTGTTGCC
TTTATGAACA GAAGAGATGC TGAAAGAGCA TTGAAGAATT TAAATGGCAA GATGATTATG
TCTTTTGAAA TGAAGCTGGG CTGGGGCAAA GCTGTACCTA TACCACCACA TCCAATCTAC
ATTCCGCCTT CCATGATGGA GCACACCCTG CCGCCGCCCC CGTCAGGACT GCCTTTCAAT
GCCCAGCCTA GGGAGAGGTT GAAGAATCCT AATGCTCCAA TGTTGCCACC ACCAAAAAAC
AAGGAAGATT TTGAGAAGAC TCTGTCGCAA GCCATAGTCA AAGTGGTTAT CCCAACAGAA
AGGAATTTGC TCGCTTTGAT ACATCGAATG ATAGAGTTTG TGGTTCGGGA AGGGCCCATG
TTCGAAGCCA TGATCATGAA CCGAGAAATC AACAACCCAA TGTTCAGGTT TTTATTTGAA
AACCAGACTC CAGCCCATGT GTATTATAGA TGGAAGCTTT ATTCAATTCT TCAGGGGGAT
GCTCCAACCA AGTGGAGGAC AGAAGATTTT CGTATGTTCA AAAATGGATC CTTCTGGAGG
CCACCACCAT TGAATCCATA CCTGCACGGG ATGTCAGAAG AGCAAGAAAC GGAAGCGTTT
GTGGAGGAAC CGAACAAGAA GGGTGCACTT AAGGAAGAAC AGAGGGACAA ACTAGAGGAA
ATTCTACGTG GGTTAACACC TCGGAAGAAC GACATTGGTG ACGCAATGGT TTTCTGTCTA
AATAATGCGG AAGCTGCTGA AGAAATTGTG GACTGCATTA CAGAGTCATT GTCCATCCTC
AAGACTCCTC TTCCTAAGAA GATTGCAAGA TTGTATCTAG TGTCAGATGT ATTATACAAC
TCTTCAGCTA AAGTTGCCAA TGCTTCCTAC TATAGAAAAT TTTTTGAAAC AAAATTATGT
CAGATATTCT CTGATCTCAA TGCTACTTAC CGTACAATAC AAGGCCATTT ACAGTCTGAA
AATTTCAAGC AACGGGTGAT GACATGCTTC CGAGCATGGG AAGACTGGGC AATCTATCCA
GAACCATTTC TGATCAAACT ACAGAATATT TTCTTGGGAC TTGTAAATAT CATGGAAGAT
AAAGAAACAG AGGAAGTACC AGATGATCTT GATGGTGCTC CCATTGAGGA AGAGCTCGAT
GGTGCTCCAC TAGAAGATGT GGATGGAATT CCTATTGATG CTGCTCCTAT TGATGATCTG
GATGGAGTAC CAATTAAATC ACTGGATGAT GACCTTGATG GAGTTCCTTT GGATACAACT
GAAGACTCAA AAAAGAATGA GCCTATATTT AAAGTTGCCC CTTCAAAGTG GGAAGCAGTG
GATGAATCGG AACTGGAAGC TCAAGCTGTT ACTACTTCTA AGTGGGAGCT TTTTGACCAA
CATGAAGAAT CTGAGGAGGA GGAAATTCAA AATCAAGAAG AAGAAAGTGA AGATGAAGAA
GACACACAGA GTTCCAAGTC AGAAGAACAA CACATGTATT CCAATCCTAT TAAAGAGGAA
ATGCCTGAAT CCAAGTCATC AGTCAAGTAC TCAGAAATGA GTGAAGAAAA GCGTGCCAAA
CTCAGAGAGA TAGAGCTTAA GGTGATGAAG TTTCAGGATG AGTTAGAGTC TGGGAAAAGA
CCCAAGAAGC CAGGCCAGAG TTTTCAGGAA CAGGTTGAAC ACTATAGAGA CAAGCTGCTC
CAGAGGGAAA AAGAAAAAGA GATGGAAAGA GAACGGGACA GAGACAAAAA GGACAAAGAA
AAGTCTGAGA CCAGGTCCAA AGATAAGAAG GAAAAAGAGG AATGTACACC AACACGAAAA
GAGAGGAAAA GGCGGCACAG CGCTTCCCCC AGCCCGTCCC GCAGCAGCGG CAGCCGCCGG
GCCAAGTCGC CCTCGCCCAA ATCCGAGCGC TCTGAGCGCT CCGAGCGCTC CCACAAGGAG
AGCTCCCGCT CCCGCTCCTC ACACAAAGAT TCTCCCAGAG ATGTCAGTAA AAAAGGCAAA
AGGTCGCCAT CTGGCTCCAG GACACCCAAA AGATCAAGAA GATCACGATC CAGATCCCCA
AAAAAGTCAG GGAAAAAATC CAGGTCTCAG TCCCGTTCTC CTCACAGATC TCACAAGAAG
TCAAAGAAAA GCAAACACTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd52370 Clone ID Related Accession (Same CDS sequence) XM_012575540.2 Accession Version XM_012575540.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2961bp)
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 U2 snRNP-associated SURP motif-containing protein isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) 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_012575540.1. ##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
2941ATGGCGGACA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGTCAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TCCTTTGAAG AAAGGAGAGA AGGAAAAGAA AAAGAGTAAT
TTGGAACTTT TTAAAGAAGA ATTAAAGCAA ATCCAAGAGG AGCGTGATGA AAGGCACAAA
ACAAAAGGTA GATTGAGTCG TTTTGAACCA CCCCAGTCTG ATTCAGATGG TCAGCGGCGT
TCAATGGATG CTCCTTCAAG AAGAAACAGA TCATCTGTAC TGGATGATTA TGCACCAGGG
TCACATGATG TTGGCGATCC AAGCACAACA AATTTGTATC TGGGAAACAT CAATCCTCAG
ATGAATGAAG AGATGTTATG TCAAGAATTT GGACGCTTTG GACCATTAGC GAGTGTTAAA
ATTATGTGGC CAAGAACTGA TGAAGAAAGA GCAAGAGAAA GAAATTGTGG CTTTGTTGCC
TTTATGAACA GAAGAGATGC TGAAAGAGCA TTGAAGAATT TAAATGGCAA GATGATTATG
TCTTTTGAAA TGAAGCTGGG CTGGGGCAAA GCTGTACCTA TACCACCACA TCCAATCTAC
ATTCCGCCTT CCATGATGGA GCACACCCTG CCGCCGCCCC CGTCAGGACT GCCTTTCAAT
GCCCAGCCTA GGGAGAGGTT GAAGAATCCT AATGCTCCAA TGTTGCCACC ACCAAAAAAC
AAGGAAGATT TTGAGAAGAC TCTGTCGCAA GCCATAGTCA AAGTGGTTAT CCCAACAGAA
AGGAATTTGC TCGCTTTGAT ACATCGAATG ATAGAGTTTG TGGTTCGGGA AGGGCCCATG
TTCGAAGCCA TGATCATGAA CCGAGAAATC AACAACCCAA TGTTCAGGTT TTTATTTGAA
AACCAGACTC CAGCCCATGT GTATTATAGA TGGAAGCTTT ATTCAATTCT TCAGGGGGAT
GCTCCAACCA AGTGGAGGAC AGAAGATTTT CGTATGTTCA AAAATGGATC CTTCTGGAGG
CCACCACCAT TGAATCCATA CCTGCACGGG ATGTCAGAAG AGCAAGAAAC GGAAGCGTTT
GTGGAGGAAC CGAACAAGAA GGGTGCACTT AAGGAAGAAC AGAGGGACAA ACTAGAGGAA
ATTCTACGTG GGTTAACACC TCGGAAGAAC GACATTGGTG ACGCAATGGT TTTCTGTCTA
AATAATGCGG AAGCTGCTGA AGAAATTGTG GACTGCATTA CAGAGTCATT GTCCATCCTC
AAGACTCCTC TTCCTAAGAA GATTGCAAGA TTGTATCTAG TGTCAGATGT ATTATACAAC
TCTTCAGCTA AAGTTGCCAA TGCTTCCTAC TATAGAAAAT TTTTTGAAAC AAAATTATGT
CAGATATTCT CTGATCTCAA TGCTACTTAC CGTACAATAC AAGGCCATTT ACAGTCTGAA
AATTTCAAGC AACGGGTGAT GACATGCTTC CGAGCATGGG AAGACTGGGC AATCTATCCA
GAACCATTTC TGATCAAACT ACAGAATATT TTCTTGGGAC TTGTAAATAT CATGGAAGAT
AAAGAAACAG AGGAAGTACC AGATGATCTT GATGGTGCTC CCATTGAGGA AGAGCTCGAT
GGTGCTCCAC TAGAAGATGT GGATGGAATT CCTATTGATG CTGCTCCTAT TGATGATCTG
GATGGAGTAC CAATTAAATC ACTGGATGAT GACCTTGATG GAGTTCCTTT GGATACAACT
GAAGACTCAA AAAAGAATGA GCCTATATTT AAAGTTGCCC CTTCAAAGTG GGAAGCAGTG
GATGAATCGG AACTGGAAGC TCAAGCTGTT ACTACTTCTA AGTGGGAGCT TTTTGACCAA
CATGAAGAAT CTGAGGAGGA GGAAATTCAA AATCAAGAAG AAGAAAGTGA AGATGAAGAA
GACACACAGA GTTCCAAGTC AGAAGAACAA CACATGTATT CCAATCCTAT TAAAGAGGAA
ATGCCTGAAT CCAAGTCATC AGTCAAGTAC TCAGAAATGA GTGAAGAAAA GCGTGCCAAA
CTCAGAGAGA TAGAGCTTAA GGTGATGAAG TTTCAGGATG AGTTAGAGTC TGGGAAAAGA
CCCAAGAAGC CAGGCCAGAG TTTTCAGGAA CAGGTTGAAC ACTATAGAGA CAAGCTGCTC
CAGAGGGAAA AAGAAAAAGA GATGGAAAGA GAACGGGACA GAGACAAAAA GGACAAAGAA
AAGTCTGAGA CCAGGTCCAA AGATAAGAAG GAAAAAGAGG AATGTACACC AACACGAAAA
GAGAGGAAAA GGCGGCACAG CGCTTCCCCC AGCCCGTCCC GCAGCAGCGG CAGCCGCCGG
GCCAAGTCGC CCTCGCCCAA ATCCGAGCGC TCTGAGCGCT CCGAGCGCTC CCACAAGGAG
AGCTCCCGCT CCCGCTCCTC ACACAAAGAT TCTCCCAGAG ATGTCAGTAA AAAAGGCAAA
AGGTCGCCAT CTGGCTCCAG GACACCCAAA AGATCAAGAA GATCACGATC CAGATCCCCA
AAAAAGTCAG GGAAAAAATC CAGGTCTCAG TCCCGTTCTC CTCACAGATC TCACAAGAAG
TCAAAGAAAA GCAAACACTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012430994.2 CDS 58..3018 Translation
Target ORF information:
RefSeq Version XM_012575540.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata U2 snRNP associated SURP domain containing (U2SURP), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012575540.2
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
2941ATGGCGGACA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGTCAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TCCTTTGAAG AAAGGAGAGA AGGAAAAGAA AAAGAGTAAT
TTGGAACTTT TTAAAGAAGA ATTAAAGCAA ATCCAAGAGG AGCGTGATGA AAGGCACAAA
ACAAAAGGTA GATTGAGTCG TTTTGAACCA CCCCAGTCTG ATTCAGATGG TCAGCGGCGT
TCAATGGATG CTCCTTCAAG AAGAAACAGA TCATCTGTAC TGGATGATTA TGCACCAGGG
TCACATGATG TTGGCGATCC AAGCACAACA AATTTGTATC TGGGAAACAT CAATCCTCAG
ATGAATGAAG AGATGTTATG TCAAGAATTT GGACGCTTTG GACCATTAGC GAGTGTTAAA
ATTATGTGGC CAAGAACTGA TGAAGAAAGA GCAAGAGAAA GAAATTGTGG CTTTGTTGCC
TTTATGAACA GAAGAGATGC TGAAAGAGCA TTGAAGAATT TAAATGGCAA GATGATTATG
TCTTTTGAAA TGAAGCTGGG CTGGGGCAAA GCTGTACCTA TACCACCACA TCCAATCTAC
ATTCCGCCTT CCATGATGGA GCACACCCTG CCGCCGCCCC CGTCAGGACT GCCTTTCAAT
GCCCAGCCTA GGGAGAGGTT GAAGAATCCT AATGCTCCAA TGTTGCCACC ACCAAAAAAC
AAGGAAGATT TTGAGAAGAC TCTGTCGCAA GCCATAGTCA AAGTGGTTAT CCCAACAGAA
AGGAATTTGC TCGCTTTGAT ACATCGAATG ATAGAGTTTG TGGTTCGGGA AGGGCCCATG
TTCGAAGCCA TGATCATGAA CCGAGAAATC AACAACCCAA TGTTCAGGTT TTTATTTGAA
AACCAGACTC CAGCCCATGT GTATTATAGA TGGAAGCTTT ATTCAATTCT TCAGGGGGAT
GCTCCAACCA AGTGGAGGAC AGAAGATTTT CGTATGTTCA AAAATGGATC CTTCTGGAGG
CCACCACCAT TGAATCCATA CCTGCACGGG ATGTCAGAAG AGCAAGAAAC GGAAGCGTTT
GTGGAGGAAC CGAACAAGAA GGGTGCACTT AAGGAAGAAC AGAGGGACAA ACTAGAGGAA
ATTCTACGTG GGTTAACACC TCGGAAGAAC GACATTGGTG ACGCAATGGT TTTCTGTCTA
AATAATGCGG AAGCTGCTGA AGAAATTGTG GACTGCATTA CAGAGTCATT GTCCATCCTC
AAGACTCCTC TTCCTAAGAA GATTGCAAGA TTGTATCTAG TGTCAGATGT ATTATACAAC
TCTTCAGCTA AAGTTGCCAA TGCTTCCTAC TATAGAAAAT TTTTTGAAAC AAAATTATGT
CAGATATTCT CTGATCTCAA TGCTACTTAC CGTACAATAC AAGGCCATTT ACAGTCTGAA
AATTTCAAGC AACGGGTGAT GACATGCTTC CGAGCATGGG AAGACTGGGC AATCTATCCA
GAACCATTTC TGATCAAACT ACAGAATATT TTCTTGGGAC TTGTAAATAT CATGGAAGAT
AAAGAAACAG AGGAAGTACC AGATGATCTT GATGGTGCTC CCATTGAGGA AGAGCTCGAT
GGTGCTCCAC TAGAAGATGT GGATGGAATT CCTATTGATG CTGCTCCTAT TGATGATCTG
GATGGAGTAC CAATTAAATC ACTGGATGAT GACCTTGATG GAGTTCCTTT GGATACAACT
GAAGACTCAA AAAAGAATGA GCCTATATTT AAAGTTGCCC CTTCAAAGTG GGAAGCAGTG
GATGAATCGG AACTGGAAGC TCAAGCTGTT ACTACTTCTA AGTGGGAGCT TTTTGACCAA
CATGAAGAAT CTGAGGAGGA GGAAATTCAA AATCAAGAAG AAGAAAGTGA AGATGAAGAA
GACACACAGA GTTCCAAGTC AGAAGAACAA CACATGTATT CCAATCCTAT TAAAGAGGAA
ATGCCTGAAT CCAAGTCATC AGTCAAGTAC TCAGAAATGA GTGAAGAAAA GCGTGCCAAA
CTCAGAGAGA TAGAGCTTAA GGTGATGAAG TTTCAGGATG AGTTAGAGTC TGGGAAAAGA
CCCAAGAAGC CAGGCCAGAG TTTTCAGGAA CAGGTTGAAC ACTATAGAGA CAAGCTGCTC
CAGAGGGAAA AAGAAAAAGA GATGGAAAGA GAACGGGACA GAGACAAAAA GGACAAAGAA
AAGTCTGAGA CCAGGTCCAA AGATAAGAAG GAAAAAGAGG AATGTACACC AACACGAAAA
GAGAGGAAAA GGCGGCACAG CGCTTCCCCC AGCCCGTCCC GCAGCAGCGG CAGCCGCCGG
GCCAAGTCGC CCTCGCCCAA ATCCGAGCGC TCTGAGCGCT CCGAGCGCTC CCACAAGGAG
AGCTCCCGCT CCCGCTCCTC ACACAAAGAT TCTCCCAGAG ATGTCAGTAA AAAAGGCAAA
AGGTCGCCAT CTGGCTCCAG GACACCCAAA AGATCAAGAA GATCACGATC CAGATCCCCA
AAAAAGTCAG GGAAAAAATC CAGGTCTCAG TCCCGTTCTC CTCACAGATC TCACAAGAAG
TCAAAGAAAA GCAAACACTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd52371 Clone ID Related Accession (Same CDS sequence) XM_030280873.1 Accession Version XM_030280873.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2865bp)
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 U2 snRNP-associated SURP motif-containing protein isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) 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
2821ATGGAAAGTA AACTTAAAGC ATTCAGTATT GGCAAAATGA GTGCTGCCAA ACGTACTCTG
AGCAAGAAAG AGCAAGAAGA ATTAAAAAAG AAGGAGGATG AGAAGGCTGC TGCAGAAATT
TATGAAGAAT TCCTTGCTGC CTTTGAAGGA GGTGATGGTA ATAAAGTGAA AACATTTGTA
AGAGGAGGAA TCGTAAATGC ATCTAAAGAG GAGCATGAAA CAGATGAAAA ACGGGGTAAA
ATCTATAAAC CTTCATCACG ATTTTCAGAT CAAAAAAATC AACCAAGTCA GCCATCTAAT
GAGAAACCTC CGTCCCTCCT AATGATAGAA ACCAAAAAGC CTCCTTTGAA GAAAGGAGAG
AAGGAAAAGA AAAAGAGTAA TTTGGAACTT TTTAAAGAAG AATTAAAGCA AATCCAAGAG
GAGCGTGATG AAAGGCACAA AACAAAAGGT AGATTGAGTC GTTTTGAACC ACCCCAGTCT
GATTCAGATG GTCAGCGGCG TTCAATGGAT GCTCCTTCAA GAAGAAACAG ATCATCTGGT
GTACTGGATG ATTATGCACC AGGGTCACAT GATGTTGGCG ATCCAAGCAC AACAAATTTG
TATCTGGGAA ACATCAATCC TCAGATGAAT GAAGAGATGT TATGTCAAGA ATTTGGACGC
TTTGGACCAT TAGCGAGTGT TAAAATTATG TGGCCAAGAA CTGATGAAGA AAGAGCAAGA
GAAAGAAATT GTGGCTTTGT TGCCTTTATG AACAGAAGAG ATGCTGAAAG AGCATTGAAG
AATTTAAATG GCAAGATGAT TATGTCTTTT GAAATGAAGC TGGGCTGGGG CAAAGCTGTA
CCTATACCAC CACATCCAAT CTACATTCCG CCTTCCATGA TGGAGCACAC CCTGCCGCCG
CCCCCGTCAG GACTGCCTTT CAATGCCCAG CCTAGGGAGA GGTTGAAGAA TCCTAATGCT
CCAATGTTGC CACCACCAAA AAACAAGGAA GATTTTGAGA AGACTCTGTC GCAAGCCATA
GTCAAAGTGG TTATCCCAAC AGAAAGGAAT TTGCTCGCTT TGATACATCG AATGATAGAG
TTTGTGGTTC GGGAAGGGCC CATGTTCGAA GCCATGATCA TGAACCGAGA AATCAACAAC
CCAATGTTCA GGTTTTTATT TGAAAACCAG ACTCCAGCCC ATGTGTATTA TAGATGGAAG
CTTTATTCAA TTCTTCAGGG GGATGCTCCA ACCAAGTGGA GGACAGAAGA TTTTCGTATG
TTCAAAAATG GATCCTTCTG GAGGCCACCA CCATTGAATC CATACCTGCA CGGGATGTCA
GAAGAGCAAG AAACGGAAGC GTTTGTGGAG GAACCGAACA AGAAGGGTGC ACTTAAGGAA
GAACAGAGGG ACAAACTAGA GGAAATTCTA CGTGGGTTAA CACCTCGGAA GAACGACATT
GGTGACGCAA TGGTTTTCTG TCTAAATAAT GCGGAAGCTG CTGAAGAAAT TGTGGACTGC
ATTACAGAGT CATTGTCCAT CCTCAAGACT CCTCTTCCTA AGAAGATTGC AAGATTGTAT
CTAGTGTCAG ATGTATTATA CAACTCTTCA GCTAAAGTTG CCAATGCTTC CTACTATAGA
AAATTTTTTG AAACAAAATT ATGTCAGATA TTCTCTGATC TCAATGCTAC TTACCGTACA
ATACAAGGCC ATTTACAGTC TGAAAATTTC AAGCAACGGG TGATGACATG CTTCCGAGCA
TGGGAAGACT GGGCAATCTA TCCAGAACCA TTTCTGATCA AACTACAGAA TATTTTCTTG
GGACTTGTAA ATATCATGGA AGATAAAGAA ACAGAGGAAG TACCAGATGA TCTTGATGGT
GCTCCCATTG AGGAAGAGCT CGATGGTGCT CCACTAGAAG ATGTGGATGG AATTCCTATT
GATGCTGCTC CTATTGATGA TCTGGATGGA GTACCAATTA AATCACTGGA TGATGACCTT
GATGGAGTTC CTTTGGATAC AACTGAAGAC TCAAAAAAGA ATGAGCCTAT ATTTAAAGTT
GCCCCTTCAA AGTGGGAAGC AGTGGATGAA TCGGAACTGG AAGCTCAAGC TGTTACTACT
TCTAAGTGGG AGCTTTTTGA CCAACATGAA GAATCTGAGG AGGAGGAAAT TCAAAATCAA
GAAGAAGAAA GTGAAGATGA AGAAGACACA CAGAGTTCCA AGTCAGAAGA ACAACACATG
TATTCCAATC CTATTAAAGA GGAAATGCCT GAATCCAAGT CATCAGTCAA GTACTCAGAA
ATGAGTGAAG AAAAGCGTGC CAAACTCAGA GAGATAGAGC TTAAGGTGAT GAAGTTTCAG
GATGAGTTAG AGTCTGGGAA AAGACCCAAG AAGCCAGGCC AGAGTTTTCA GGAACAGGTT
GAACACTATA GAGACAAGCT GCTCCAGAGG GAAAAAGAAA AAGAGATGGA AAGAGAACGG
GACAGAGACA AAAAGGACAA AGAAAAGTCT GAGACCAGGT CCAAAGATAA GAAGGAAAAA
GAGGAATGTA CACCAACACG AAAAGAGAGG AAAAGGCGGC ACAGCGCTTC CCCCAGCCCG
TCCCGCAGCA GCGGCAGCCG CCGGGCCAAG TCGCCCTCGC CCAAATCCGA GCGCTCTGAG
CGCTCCGAGC GCTCCCACAA GGAGAGCTCC CGCTCCCGCT CCTCACACAA AGATTCTCCC
AGAGATGTCA GTAAAAAAGG CAAAAGGTCG CCATCTGGCT CCAGGACACC CAAAAGATCA
AGAAGATCAC GATCCAGATC CCCAAAAAAG TCAGGGAAAA AATCCAGGTC TCAGTCCCGT
TCTCCTCACA GATCTCACAA GAAGTCAAAG AAAAGCAAAC ACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030136733.1 CDS 309..3173 Translation
Target ORF information:
RefSeq Version XM_030280873.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata U2 snRNP associated SURP domain containing (U2SURP), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030280873.1
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
2821ATGGAAAGTA AACTTAAAGC ATTCAGTATT GGCAAAATGA GTGCTGCCAA ACGTACTCTG
AGCAAGAAAG AGCAAGAAGA ATTAAAAAAG AAGGAGGATG AGAAGGCTGC TGCAGAAATT
TATGAAGAAT TCCTTGCTGC CTTTGAAGGA GGTGATGGTA ATAAAGTGAA AACATTTGTA
AGAGGAGGAA TCGTAAATGC ATCTAAAGAG GAGCATGAAA CAGATGAAAA ACGGGGTAAA
ATCTATAAAC CTTCATCACG ATTTTCAGAT CAAAAAAATC AACCAAGTCA GCCATCTAAT
GAGAAACCTC CGTCCCTCCT AATGATAGAA ACCAAAAAGC CTCCTTTGAA GAAAGGAGAG
AAGGAAAAGA AAAAGAGTAA TTTGGAACTT TTTAAAGAAG AATTAAAGCA AATCCAAGAG
GAGCGTGATG AAAGGCACAA AACAAAAGGT AGATTGAGTC GTTTTGAACC ACCCCAGTCT
GATTCAGATG GTCAGCGGCG TTCAATGGAT GCTCCTTCAA GAAGAAACAG ATCATCTGGT
GTACTGGATG ATTATGCACC AGGGTCACAT GATGTTGGCG ATCCAAGCAC AACAAATTTG
TATCTGGGAA ACATCAATCC TCAGATGAAT GAAGAGATGT TATGTCAAGA ATTTGGACGC
TTTGGACCAT TAGCGAGTGT TAAAATTATG TGGCCAAGAA CTGATGAAGA AAGAGCAAGA
GAAAGAAATT GTGGCTTTGT TGCCTTTATG AACAGAAGAG ATGCTGAAAG AGCATTGAAG
AATTTAAATG GCAAGATGAT TATGTCTTTT GAAATGAAGC TGGGCTGGGG CAAAGCTGTA
CCTATACCAC CACATCCAAT CTACATTCCG CCTTCCATGA TGGAGCACAC CCTGCCGCCG
CCCCCGTCAG GACTGCCTTT CAATGCCCAG CCTAGGGAGA GGTTGAAGAA TCCTAATGCT
CCAATGTTGC CACCACCAAA AAACAAGGAA GATTTTGAGA AGACTCTGTC GCAAGCCATA
GTCAAAGTGG TTATCCCAAC AGAAAGGAAT TTGCTCGCTT TGATACATCG AATGATAGAG
TTTGTGGTTC GGGAAGGGCC CATGTTCGAA GCCATGATCA TGAACCGAGA AATCAACAAC
CCAATGTTCA GGTTTTTATT TGAAAACCAG ACTCCAGCCC ATGTGTATTA TAGATGGAAG
CTTTATTCAA TTCTTCAGGG GGATGCTCCA ACCAAGTGGA GGACAGAAGA TTTTCGTATG
TTCAAAAATG GATCCTTCTG GAGGCCACCA CCATTGAATC CATACCTGCA CGGGATGTCA
GAAGAGCAAG AAACGGAAGC GTTTGTGGAG GAACCGAACA AGAAGGGTGC ACTTAAGGAA
GAACAGAGGG ACAAACTAGA GGAAATTCTA CGTGGGTTAA CACCTCGGAA GAACGACATT
GGTGACGCAA TGGTTTTCTG TCTAAATAAT GCGGAAGCTG CTGAAGAAAT TGTGGACTGC
ATTACAGAGT CATTGTCCAT CCTCAAGACT CCTCTTCCTA AGAAGATTGC AAGATTGTAT
CTAGTGTCAG ATGTATTATA CAACTCTTCA GCTAAAGTTG CCAATGCTTC CTACTATAGA
AAATTTTTTG AAACAAAATT ATGTCAGATA TTCTCTGATC TCAATGCTAC TTACCGTACA
ATACAAGGCC ATTTACAGTC TGAAAATTTC AAGCAACGGG TGATGACATG CTTCCGAGCA
TGGGAAGACT GGGCAATCTA TCCAGAACCA TTTCTGATCA AACTACAGAA TATTTTCTTG
GGACTTGTAA ATATCATGGA AGATAAAGAA ACAGAGGAAG TACCAGATGA TCTTGATGGT
GCTCCCATTG AGGAAGAGCT CGATGGTGCT CCACTAGAAG ATGTGGATGG AATTCCTATT
GATGCTGCTC CTATTGATGA TCTGGATGGA GTACCAATTA AATCACTGGA TGATGACCTT
GATGGAGTTC CTTTGGATAC AACTGAAGAC TCAAAAAAGA ATGAGCCTAT ATTTAAAGTT
GCCCCTTCAA AGTGGGAAGC AGTGGATGAA TCGGAACTGG AAGCTCAAGC TGTTACTACT
TCTAAGTGGG AGCTTTTTGA CCAACATGAA GAATCTGAGG AGGAGGAAAT TCAAAATCAA
GAAGAAGAAA GTGAAGATGA AGAAGACACA CAGAGTTCCA AGTCAGAAGA ACAACACATG
TATTCCAATC CTATTAAAGA GGAAATGCCT GAATCCAAGT CATCAGTCAA GTACTCAGAA
ATGAGTGAAG AAAAGCGTGC CAAACTCAGA GAGATAGAGC TTAAGGTGAT GAAGTTTCAG
GATGAGTTAG AGTCTGGGAA AAGACCCAAG AAGCCAGGCC AGAGTTTTCA GGAACAGGTT
GAACACTATA GAGACAAGCT GCTCCAGAGG GAAAAAGAAA AAGAGATGGA AAGAGAACGG
GACAGAGACA AAAAGGACAA AGAAAAGTCT GAGACCAGGT CCAAAGATAA GAAGGAAAAA
GAGGAATGTA CACCAACACG AAAAGAGAGG AAAAGGCGGC ACAGCGCTTC CCCCAGCCCG
TCCCGCAGCA GCGGCAGCCG CCGGGCCAAG TCGCCCTCGC CCAAATCCGA GCGCTCTGAG
CGCTCCGAGC GCTCCCACAA GGAGAGCTCC CGCTCCCGCT CCTCACACAA AGATTCTCCC
AGAGATGTCA GTAAAAAAGG CAAAAGGTCG CCATCTGGCT CCAGGACACC CAAAAGATCA
AGAAGATCAC GATCCAGATC CCCAAAAAAG TCAGGGAAAA AATCCAGGTC TCAGTCCCGT
TCTCCTCACA GATCTCACAA GAAGTCAAAG AAAAGCAAAC ACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd52372 Clone ID Related Accession (Same CDS sequence) XM_030280876.1 Accession Version XM_030280876.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2787bp)
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 U2 snRNP-associated SURP motif-containing protein isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) 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
2761ATGGCGGACA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGTCAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TCCTTTGAAG AAAGGAGAGA AGGAAAAGAA AAAGAGTAAT
TTGGAACTTT TTAAAGAAGA ATTAAAGCAA ATCCAAGAGG AGCGTGATGA AAGGCACAAA
ACAAAAGGTA GATTGAGTCG TTTTGAACCA CCCCAGTCTG ATTCAGATGG TCAGCGGCGT
TCAATGGATG CTCCTTCAAG AAGAAACAGA TCATCTGGTG TACTGGATGA TTATGCACCA
GGGTCACATG ATGTTGGCGA TCCAAGCACA ACAAATTTGT ATCTGGGAAA CATCAATCCT
CAGATGAATG AAGAGATGTT ATGTCAAGAA TTTGGACGCT TTGGACCATT AGCGAGTGTT
AAAATTATGT GGCCAAGAAC TGATGAAGAA AGAGCAAGAG AAAGAAATTG TGGCTTTGTT
GCCTTTATGA ACAGAAGAGA TGCTGAAAGA GCATTGAAGA ATTTAAATGG CAAGATGATT
ATGTCTTTTG AAATGAAGCT GGGCTGGGGC AAAGCTGTAC CTATACCACC ACATCCAATC
TACATTCCGC CTTCCATGAT GGAGCACACC CTGCCGCCGC CCCCGTCAGG ACTGCCTTTC
AATGCCCAGC CTAGGGAGAG GTTGAAGAAT CCTAATGCTC CAATGTTGCC ACCACCAAAA
AACAAGGAAG ATTTTGAGAA GACTCTGTCG CAAGCCATAG TCAAAGTGGT TATCCCAACA
GAAAGGAATT TGCTCGCTTT GATACATCGA ATGATAGAGT TTGTGGTTCG GGAAGGGCCC
ATGTTCGAAG CCATGATCAT GAACCGAGAA ATCAACAACC CAATGTTCAG GTTTTTATTT
GAAAACCAGA CTCCAGCCCA TGTGTATTAT AGATGGAAGC TTTATTCAAT TCTTCAGGGG
GATGCTCCAA CCAAGTGGAG GACAGAAGAT TTTCGTATGT TCAAAAATGG ATCCTTCTGG
AGGCCACCAC CATTGAATCC ATACCTGCAC GGGATGTCAG AAGAGCAAGA AACGGAAGCG
TTTGTGGAGG AACCGAACAA GAAGGGTGCA CTTAAGGAAG AACAGAGGGA CAAACTAGAG
GAAATTCTAC GTGGGTTAAC ACCTCGGAAG AACGACATTG GTGACGCAAT GGTTTTCTGT
CTAAATAATG CGGAAGCTGC TGAAGAAATT GTGGACTGCA TTACAGAGTC ATTGTCCATC
CTCAAGACTC CTCTTCCTAA GAAGATTGCA AGATTGTATC TAGTGTCAGA TGTATTATAC
AACTCTTCAG CTAAAGTTGC CAATGCTTCC TACTATAGAA AATTTTTTGA AACAAAATTA
TGTCAGATAT TCTCTGATCT CAATGCTACT TACCGTACAA TACAAGGCCA TTTACAGTCT
GAAAATTTCA AGCAACGGGT GATGACATGC TTCCGAGCAT GGGAAGACTG GGCAATCTAT
CCAGAACCAT TTCTGATCAA ACTACAGAAT ATTTTCTTGG GACTTGTAAA TATCATGGAA
GATAAAGAAA CAGAGGAAGT ACCAGATGAT CTTGATGGTG CTCCCATTGA GGAAGAGCTC
GATGGTGCTC CACTAGAAGA TGTGGATGGA ATTCCTATTG ATGCTGCTCC TATTGATGAT
CTGGATGGAG TACCAATTAA ATCACTGGAT GATGACCTTG ATGGAGTTCC TTTGGATACA
ACTGAAGACT CAAAAAAGAA TGAGCCTATA TTTAAAGTTG CCCCTTCAAA GTGGGAAGCA
GTGGATGAAT CGGAACTGGA AGCTCAAGCT GTTACTACTT CTAAGTGGGA GCTTTTTGAC
CAACATGAAG AATCTGAGGA GGAGGAAATT CAAAATCAAG AAGAAGAAAG TGAAGATGAA
GAAGACACAC AGAGTTCCAA GTCAGAAGAA CAACACATGT ATTCCAATCC TATTAAAGAG
GAAATGCCTG AATCCAAGTC ATCAGTCAAG TACTCAGAAA TGAGTGAAGA AAAGCGTGCC
AAACTCAGAG AGATAGAGCT TAAGGTGATG AAGTTTCAGG ATGAGTTAGA GTCTGGGAAA
AGACCCAAGA AGCCAGGCCA GAGTTTTCAG GAACAGGTTG AACACTATAG AGACAAGCTG
CTCCAGAGGG AAAAAGAAAA AGAGATGGAA AGAGAACGGG ACAGAGACAA AAAGGACAAA
GAAAAGTCTG AGACCAGGTC CAAAGATAAG AAGGAAAAAG AGGAATGTAC ACCAACACGA
AAAGAGAGGT CGCCATCTGG CTCCAGGACA CCCAAAAGAT CAAGAAGATC ACGATCCAGA
TCCCCAAAAA AGTCAGGGAA AAAATCCAGG TCTCAGTCCC GTTCTCCTCA CAGATCTCAC
AAGAAGTCAA AGAAAAGCAA ACACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030136736.1 CDS 58..2844 Translation
Target ORF information:
RefSeq Version XM_030280876.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata U2 snRNP associated SURP domain containing (U2SURP), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030280876.1
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
2761ATGGCGGACA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGTCAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TCCTTTGAAG AAAGGAGAGA AGGAAAAGAA AAAGAGTAAT
TTGGAACTTT TTAAAGAAGA ATTAAAGCAA ATCCAAGAGG AGCGTGATGA AAGGCACAAA
ACAAAAGGTA GATTGAGTCG TTTTGAACCA CCCCAGTCTG ATTCAGATGG TCAGCGGCGT
TCAATGGATG CTCCTTCAAG AAGAAACAGA TCATCTGGTG TACTGGATGA TTATGCACCA
GGGTCACATG ATGTTGGCGA TCCAAGCACA ACAAATTTGT ATCTGGGAAA CATCAATCCT
CAGATGAATG AAGAGATGTT ATGTCAAGAA TTTGGACGCT TTGGACCATT AGCGAGTGTT
AAAATTATGT GGCCAAGAAC TGATGAAGAA AGAGCAAGAG AAAGAAATTG TGGCTTTGTT
GCCTTTATGA ACAGAAGAGA TGCTGAAAGA GCATTGAAGA ATTTAAATGG CAAGATGATT
ATGTCTTTTG AAATGAAGCT GGGCTGGGGC AAAGCTGTAC CTATACCACC ACATCCAATC
TACATTCCGC CTTCCATGAT GGAGCACACC CTGCCGCCGC CCCCGTCAGG ACTGCCTTTC
AATGCCCAGC CTAGGGAGAG GTTGAAGAAT CCTAATGCTC CAATGTTGCC ACCACCAAAA
AACAAGGAAG ATTTTGAGAA GACTCTGTCG CAAGCCATAG TCAAAGTGGT TATCCCAACA
GAAAGGAATT TGCTCGCTTT GATACATCGA ATGATAGAGT TTGTGGTTCG GGAAGGGCCC
ATGTTCGAAG CCATGATCAT GAACCGAGAA ATCAACAACC CAATGTTCAG GTTTTTATTT
GAAAACCAGA CTCCAGCCCA TGTGTATTAT AGATGGAAGC TTTATTCAAT TCTTCAGGGG
GATGCTCCAA CCAAGTGGAG GACAGAAGAT TTTCGTATGT TCAAAAATGG ATCCTTCTGG
AGGCCACCAC CATTGAATCC ATACCTGCAC GGGATGTCAG AAGAGCAAGA AACGGAAGCG
TTTGTGGAGG AACCGAACAA GAAGGGTGCA CTTAAGGAAG AACAGAGGGA CAAACTAGAG
GAAATTCTAC GTGGGTTAAC ACCTCGGAAG AACGACATTG GTGACGCAAT GGTTTTCTGT
CTAAATAATG CGGAAGCTGC TGAAGAAATT GTGGACTGCA TTACAGAGTC ATTGTCCATC
CTCAAGACTC CTCTTCCTAA GAAGATTGCA AGATTGTATC TAGTGTCAGA TGTATTATAC
AACTCTTCAG CTAAAGTTGC CAATGCTTCC TACTATAGAA AATTTTTTGA AACAAAATTA
TGTCAGATAT TCTCTGATCT CAATGCTACT TACCGTACAA TACAAGGCCA TTTACAGTCT
GAAAATTTCA AGCAACGGGT GATGACATGC TTCCGAGCAT GGGAAGACTG GGCAATCTAT
CCAGAACCAT TTCTGATCAA ACTACAGAAT ATTTTCTTGG GACTTGTAAA TATCATGGAA
GATAAAGAAA CAGAGGAAGT ACCAGATGAT CTTGATGGTG CTCCCATTGA GGAAGAGCTC
GATGGTGCTC CACTAGAAGA TGTGGATGGA ATTCCTATTG ATGCTGCTCC TATTGATGAT
CTGGATGGAG TACCAATTAA ATCACTGGAT GATGACCTTG ATGGAGTTCC TTTGGATACA
ACTGAAGACT CAAAAAAGAA TGAGCCTATA TTTAAAGTTG CCCCTTCAAA GTGGGAAGCA
GTGGATGAAT CGGAACTGGA AGCTCAAGCT GTTACTACTT CTAAGTGGGA GCTTTTTGAC
CAACATGAAG AATCTGAGGA GGAGGAAATT CAAAATCAAG AAGAAGAAAG TGAAGATGAA
GAAGACACAC AGAGTTCCAA GTCAGAAGAA CAACACATGT ATTCCAATCC TATTAAAGAG
GAAATGCCTG AATCCAAGTC ATCAGTCAAG TACTCAGAAA TGAGTGAAGA AAAGCGTGCC
AAACTCAGAG AGATAGAGCT TAAGGTGATG AAGTTTCAGG ATGAGTTAGA GTCTGGGAAA
AGACCCAAGA AGCCAGGCCA GAGTTTTCAG GAACAGGTTG AACACTATAG AGACAAGCTG
CTCCAGAGGG AAAAAGAAAA AGAGATGGAA AGAGAACGGG ACAGAGACAA AAAGGACAAA
GAAAAGTCTG AGACCAGGTC CAAAGATAAG AAGGAAAAAG AGGAATGTAC ACCAACACGA
AAAGAGAGGT CGCCATCTGG CTCCAGGACA CCCAAAAGAT CAAGAAGATC ACGATCCAGA
TCCCCAAAAA AGTCAGGGAA AAAATCCAGG TCTCAGTCCC GTTCTCCTCA CAGATCTCAC
AAGAAGTCAA AGAAAAGCAA ACACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd52373 Clone ID Related Accession (Same CDS sequence) XM_012575539.2 Accession Version XM_012575539.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2964bp)
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 U2 snRNP-associated SURP motif-containing protein isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) 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_012575539.1. ##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
2941ATGGCGGACA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGTCAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TCCTTTGAAG AAAGGAGAGA AGGAAAAGAA AAAGAGTAAT
TTGGAACTTT TTAAAGAAGA ATTAAAGCAA ATCCAAGAGG AGCGTGATGA AAGGCACAAA
ACAAAAGGTA GATTGAGTCG TTTTGAACCA CCCCAGTCTG ATTCAGATGG TCAGCGGCGT
TCAATGGATG CTCCTTCAAG AAGAAACAGA TCATCTGGTG TACTGGATGA TTATGCACCA
GGGTCACATG ATGTTGGCGA TCCAAGCACA ACAAATTTGT ATCTGGGAAA CATCAATCCT
CAGATGAATG AAGAGATGTT ATGTCAAGAA TTTGGACGCT TTGGACCATT AGCGAGTGTT
AAAATTATGT GGCCAAGAAC TGATGAAGAA AGAGCAAGAG AAAGAAATTG TGGCTTTGTT
GCCTTTATGA ACAGAAGAGA TGCTGAAAGA GCATTGAAGA ATTTAAATGG CAAGATGATT
ATGTCTTTTG AAATGAAGCT GGGCTGGGGC AAAGCTGTAC CTATACCACC ACATCCAATC
TACATTCCGC CTTCCATGAT GGAGCACACC CTGCCGCCGC CCCCGTCAGG ACTGCCTTTC
AATGCCCAGC CTAGGGAGAG GTTGAAGAAT CCTAATGCTC CAATGTTGCC ACCACCAAAA
AACAAGGAAG ATTTTGAGAA GACTCTGTCG CAAGCCATAG TCAAAGTGGT TATCCCAACA
GAAAGGAATT TGCTCGCTTT GATACATCGA ATGATAGAGT TTGTGGTTCG GGAAGGGCCC
ATGTTCGAAG CCATGATCAT GAACCGAGAA ATCAACAACC CAATGTTCAG GTTTTTATTT
GAAAACCAGA CTCCAGCCCA TGTGTATTAT AGATGGAAGC TTTATTCAAT TCTTCAGGGG
GATGCTCCAA CCAAGTGGAG GACAGAAGAT TTTCGTATGT TCAAAAATGG ATCCTTCTGG
AGGCCACCAC CATTGAATCC ATACCTGCAC GGGATGTCAG AAGAGCAAGA AACGGAAGCG
TTTGTGGAGG AACCGAACAA GAAGGGTGCA CTTAAGGAAG AACAGAGGGA CAAACTAGAG
GAAATTCTAC GTGGGTTAAC ACCTCGGAAG AACGACATTG GTGACGCAAT GGTTTTCTGT
CTAAATAATG CGGAAGCTGC TGAAGAAATT GTGGACTGCA TTACAGAGTC ATTGTCCATC
CTCAAGACTC CTCTTCCTAA GAAGATTGCA AGATTGTATC TAGTGTCAGA TGTATTATAC
AACTCTTCAG CTAAAGTTGC CAATGCTTCC TACTATAGAA AATTTTTTGA AACAAAATTA
TGTCAGATAT TCTCTGATCT CAATGCTACT TACCGTACAA TACAAGGCCA TTTACAGTCT
GAAAATTTCA AGCAACGGGT GATGACATGC TTCCGAGCAT GGGAAGACTG GGCAATCTAT
CCAGAACCAT TTCTGATCAA ACTACAGAAT ATTTTCTTGG GACTTGTAAA TATCATGGAA
GATAAAGAAA CAGAGGAAGT ACCAGATGAT CTTGATGGTG CTCCCATTGA GGAAGAGCTC
GATGGTGCTC CACTAGAAGA TGTGGATGGA ATTCCTATTG ATGCTGCTCC TATTGATGAT
CTGGATGGAG TACCAATTAA ATCACTGGAT GATGACCTTG ATGGAGTTCC TTTGGATACA
ACTGAAGACT CAAAAAAGAA TGAGCCTATA TTTAAAGTTG CCCCTTCAAA GTGGGAAGCA
GTGGATGAAT CGGAACTGGA AGCTCAAGCT GTTACTACTT CTAAGTGGGA GCTTTTTGAC
CAACATGAAG AATCTGAGGA GGAGGAAATT CAAAATCAAG AAGAAGAAAG TGAAGATGAA
GAAGACACAC AGAGTTCCAA GTCAGAAGAA CAACACATGT ATTCCAATCC TATTAAAGAG
GAAATGCCTG AATCCAAGTC ATCAGTCAAG TACTCAGAAA TGAGTGAAGA AAAGCGTGCC
AAACTCAGAG AGATAGAGCT TAAGGTGATG AAGTTTCAGG ATGAGTTAGA GTCTGGGAAA
AGACCCAAGA AGCCAGGCCA GAGTTTTCAG GAACAGGTTG AACACTATAG AGACAAGCTG
CTCCAGAGGG AAAAAGAAAA AGAGATGGAA AGAGAACGGG ACAGAGACAA AAAGGACAAA
GAAAAGTCTG AGACCAGGTC CAAAGATAAG AAGGAAAAAG AGGAATGTAC ACCAACACGA
AAAGAGAGGA AAAGGCGGCA CAGCGCTTCC CCCAGCCCGT CCCGCAGCAG CGGCAGCCGC
CGGGCCAAGT CGCCCTCGCC CAAATCCGAG CGCTCTGAGC GCTCCGAGCG CTCCCACAAG
GAGAGCTCCC GCTCCCGCTC CTCACACAAA GATTCTCCCA GAGATGTCAG TAAAAAAGGC
AAAAGGTCGC CATCTGGCTC CAGGACACCC AAAAGATCAA GAAGATCACG ATCCAGATCC
CCAAAAAAGT CAGGGAAAAA ATCCAGGTCT CAGTCCCGTT CTCCTCACAG ATCTCACAAG
AAGTCAAAGA AAAGCAAACA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012430993.2 CDS 147..3110 Translation
Target ORF information:
RefSeq Version XM_012575539.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata U2 snRNP associated SURP domain containing (U2SURP), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012575539.2
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
2941ATGGCGGACA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGTCAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TCCTTTGAAG AAAGGAGAGA AGGAAAAGAA AAAGAGTAAT
TTGGAACTTT TTAAAGAAGA ATTAAAGCAA ATCCAAGAGG AGCGTGATGA AAGGCACAAA
ACAAAAGGTA GATTGAGTCG TTTTGAACCA CCCCAGTCTG ATTCAGATGG TCAGCGGCGT
TCAATGGATG CTCCTTCAAG AAGAAACAGA TCATCTGGTG TACTGGATGA TTATGCACCA
GGGTCACATG ATGTTGGCGA TCCAAGCACA ACAAATTTGT ATCTGGGAAA CATCAATCCT
CAGATGAATG AAGAGATGTT ATGTCAAGAA TTTGGACGCT TTGGACCATT AGCGAGTGTT
AAAATTATGT GGCCAAGAAC TGATGAAGAA AGAGCAAGAG AAAGAAATTG TGGCTTTGTT
GCCTTTATGA ACAGAAGAGA TGCTGAAAGA GCATTGAAGA ATTTAAATGG CAAGATGATT
ATGTCTTTTG AAATGAAGCT GGGCTGGGGC AAAGCTGTAC CTATACCACC ACATCCAATC
TACATTCCGC CTTCCATGAT GGAGCACACC CTGCCGCCGC CCCCGTCAGG ACTGCCTTTC
AATGCCCAGC CTAGGGAGAG GTTGAAGAAT CCTAATGCTC CAATGTTGCC ACCACCAAAA
AACAAGGAAG ATTTTGAGAA GACTCTGTCG CAAGCCATAG TCAAAGTGGT TATCCCAACA
GAAAGGAATT TGCTCGCTTT GATACATCGA ATGATAGAGT TTGTGGTTCG GGAAGGGCCC
ATGTTCGAAG CCATGATCAT GAACCGAGAA ATCAACAACC CAATGTTCAG GTTTTTATTT
GAAAACCAGA CTCCAGCCCA TGTGTATTAT AGATGGAAGC TTTATTCAAT TCTTCAGGGG
GATGCTCCAA CCAAGTGGAG GACAGAAGAT TTTCGTATGT TCAAAAATGG ATCCTTCTGG
AGGCCACCAC CATTGAATCC ATACCTGCAC GGGATGTCAG AAGAGCAAGA AACGGAAGCG
TTTGTGGAGG AACCGAACAA GAAGGGTGCA CTTAAGGAAG AACAGAGGGA CAAACTAGAG
GAAATTCTAC GTGGGTTAAC ACCTCGGAAG AACGACATTG GTGACGCAAT GGTTTTCTGT
CTAAATAATG CGGAAGCTGC TGAAGAAATT GTGGACTGCA TTACAGAGTC ATTGTCCATC
CTCAAGACTC CTCTTCCTAA GAAGATTGCA AGATTGTATC TAGTGTCAGA TGTATTATAC
AACTCTTCAG CTAAAGTTGC CAATGCTTCC TACTATAGAA AATTTTTTGA AACAAAATTA
TGTCAGATAT TCTCTGATCT CAATGCTACT TACCGTACAA TACAAGGCCA TTTACAGTCT
GAAAATTTCA AGCAACGGGT GATGACATGC TTCCGAGCAT GGGAAGACTG GGCAATCTAT
CCAGAACCAT TTCTGATCAA ACTACAGAAT ATTTTCTTGG GACTTGTAAA TATCATGGAA
GATAAAGAAA CAGAGGAAGT ACCAGATGAT CTTGATGGTG CTCCCATTGA GGAAGAGCTC
GATGGTGCTC CACTAGAAGA TGTGGATGGA ATTCCTATTG ATGCTGCTCC TATTGATGAT
CTGGATGGAG TACCAATTAA ATCACTGGAT GATGACCTTG ATGGAGTTCC TTTGGATACA
ACTGAAGACT CAAAAAAGAA TGAGCCTATA TTTAAAGTTG CCCCTTCAAA GTGGGAAGCA
GTGGATGAAT CGGAACTGGA AGCTCAAGCT GTTACTACTT CTAAGTGGGA GCTTTTTGAC
CAACATGAAG AATCTGAGGA GGAGGAAATT CAAAATCAAG AAGAAGAAAG TGAAGATGAA
GAAGACACAC AGAGTTCCAA GTCAGAAGAA CAACACATGT ATTCCAATCC TATTAAAGAG
GAAATGCCTG AATCCAAGTC ATCAGTCAAG TACTCAGAAA TGAGTGAAGA AAAGCGTGCC
AAACTCAGAG AGATAGAGCT TAAGGTGATG AAGTTTCAGG ATGAGTTAGA GTCTGGGAAA
AGACCCAAGA AGCCAGGCCA GAGTTTTCAG GAACAGGTTG AACACTATAG AGACAAGCTG
CTCCAGAGGG AAAAAGAAAA AGAGATGGAA AGAGAACGGG ACAGAGACAA AAAGGACAAA
GAAAAGTCTG AGACCAGGTC CAAAGATAAG AAGGAAAAAG AGGAATGTAC ACCAACACGA
AAAGAGAGGA AAAGGCGGCA CAGCGCTTCC CCCAGCCCGT CCCGCAGCAG CGGCAGCCGC
CGGGCCAAGT CGCCCTCGCC CAAATCCGAG CGCTCTGAGC GCTCCGAGCG CTCCCACAAG
GAGAGCTCCC GCTCCCGCTC CTCACACAAA GATTCTCCCA GAGATGTCAG TAAAAAAGGC
AAAAGGTCGC CATCTGGCTC CAGGACACCC AAAAGATCAA GAAGATCACG ATCCAGATCC
CCAAAAAAGT CAGGGAAAAA ATCCAGGTCT CAGTCCCGTT CTCCTCACAG ATCTCACAAG
AAGTCAAAGA AAAGCAAACA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd52374 Clone ID Related Accession (Same CDS sequence) XM_030280877.1 , XM_030280878.1 Accession Version XM_030280877.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 1866bp)
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 U2 snRNP-associated SURP motif-containing protein isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) 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
1861ATGCTCCAAT GTTGCCACCA CCAAAAAACA AGGAAGATTT TGAGAAGGAA TTTGCTCGCT
TTGATACATC GAATGATAGA GTTTGTGGTT CGGGAAGGGC CCATGTTCGA AGCCATGATC
ATGAACCGAG AAATCAACAA CCCAATGTTC AGGTTTTTAT TTGAAAACCA GACTCCAGCC
CATGTGTATT ATAGATGGAA GCTTTATTCA ATTCTTCAGG GGGATGCTCC AACCAAGTGG
AGGACAGAAG ATTTTCGTAT GTTCAAAAAT GGATCCTTCT GGAGGCCACC ACCATTGAAT
CCATACCTGC ACGGGATGTC AGAAGAGCAA GAAACGGAAG CGTTTGTGGA GGAACCGAAC
AAGAAGGGTG CACTTAAGGA AGAACAGAGG GACAAACTAG AGGAAATTCT ACGTGGGTTA
ACACCTCGGA AGAACGACAT TGGTGACGCA ATGGTTTTCT GTCTAAATAA TGCGGAAGCT
GCTGAAGAAA TTGTGGACTG CATTACAGAG TCATTGTCCA TCCTCAAGAC TCCTCTTCCT
AAGAAGATTG CAAGATTGTA TCTAGTGTCA GATGTATTAT ACAACTCTTC AGCTAAAGTT
GCCAATGCTT CCTACTATAG AAAATTTTTT GAAACAAAAT TATGTCAGAT ATTCTCTGAT
CTCAATGCTA CTTACCGTAC AATACAAGGC CATTTACAGT CTGAAAATTT CAAGCAACGG
GTGATGACAT GCTTCCGAGC ATGGGAAGAC TGGGCAATCT ATCCAGAACC ATTTCTGATC
AAACTACAGA ATATTTTCTT GGGACTTGTA AATATCATGG AAGATAAAGA AACAGAGGAA
GTACCAGATG ATCTTGATGG TGCTCCCATT GAGGAAGAGC TCGATGGTGC TCCACTAGAA
GATGTGGATG GAATTCCTAT TGATGCTGCT CCTATTGATG ATCTGGATGG AGTACCAATT
AAATCACTGG ATGATGACCT TGATGGAGTT CCTTTGGATA CAACTGAAGA CTCAAAAAAG
AATGAGCCTA TATTTAAAGT TGCCCCTTCA AAGTGGGAAG CAGTGGATGA ATCGGAACTG
GAAGCTCAAG CTGTTACTAC TTCTAAGTGG GAGCTTTTTG ACCAACATGA AGAATCTGAG
GAGGAGGAAA TTCAAAATCA AGAAGAAGAA AGTGAAGATG AAGAAGACAC ACAGAGTTCC
AAGTCAGAAG AACAACACAT GTATTCCAAT CCTATTAAAG AGGAAATGCC TGAATCCAAG
TCATCAGTCA AGTACTCAGA AATGAGTGAA GAAAAGCGTG CCAAACTCAG AGAGATAGAG
CTTAAGGTGA TGAAGTTTCA GGATGAGTTA GAGTCTGGGA AAAGACCCAA GAAGCCAGGC
CAGAGTTTTC AGGAACAGGT TGAACACTAT AGAGACAAGC TGCTCCAGAG GGAAAAAGAA
AAAGAGATGG AAAGAGAACG GGACAGAGAC AAAAAGGACA AAGAAAAGTC TGAGACCAGG
TCCAAAGATA AGAAGGAAAA AGAGGAATGT ACACCAACAC GAAAAGAGAG GAAAAGGCGG
CACAGCGCTT CCCCCAGCCC GTCCCGCAGC AGCGGCAGCC GCCGGGCCAA GTCGCCCTCG
CCCAAATCCG AGCGCTCTGA GCGCTCCGAG CGCTCCCACA AGGAGAGCTC CCGCTCCCGC
TCCTCACACA AAGATTCTCC CAGAGATGTC AGTAAAAAAG GCAAAAGGTC GCCATCTGGC
TCCAGGACAC CCAAAAGATC AAGAAGATCA CGATCCAGAT CCCCAAAAAA GTCAGGGAAA
AAATCCAGGT CTCAGTCCCG TTCTCCTCAC AGATCTCACA AGAAGTCAAA GAAAAGCAAA
CACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030136737.1 CDS 1073..2938 Translation
Target ORF information:
RefSeq Version XM_030280877.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata U2 snRNP associated SURP domain containing (U2SURP), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030280877.1
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
1861ATGCTCCAAT GTTGCCACCA CCAAAAAACA AGGAAGATTT TGAGAAGGAA TTTGCTCGCT
TTGATACATC GAATGATAGA GTTTGTGGTT CGGGAAGGGC CCATGTTCGA AGCCATGATC
ATGAACCGAG AAATCAACAA CCCAATGTTC AGGTTTTTAT TTGAAAACCA GACTCCAGCC
CATGTGTATT ATAGATGGAA GCTTTATTCA ATTCTTCAGG GGGATGCTCC AACCAAGTGG
AGGACAGAAG ATTTTCGTAT GTTCAAAAAT GGATCCTTCT GGAGGCCACC ACCATTGAAT
CCATACCTGC ACGGGATGTC AGAAGAGCAA GAAACGGAAG CGTTTGTGGA GGAACCGAAC
AAGAAGGGTG CACTTAAGGA AGAACAGAGG GACAAACTAG AGGAAATTCT ACGTGGGTTA
ACACCTCGGA AGAACGACAT TGGTGACGCA ATGGTTTTCT GTCTAAATAA TGCGGAAGCT
GCTGAAGAAA TTGTGGACTG CATTACAGAG TCATTGTCCA TCCTCAAGAC TCCTCTTCCT
AAGAAGATTG CAAGATTGTA TCTAGTGTCA GATGTATTAT ACAACTCTTC AGCTAAAGTT
GCCAATGCTT CCTACTATAG AAAATTTTTT GAAACAAAAT TATGTCAGAT ATTCTCTGAT
CTCAATGCTA CTTACCGTAC AATACAAGGC CATTTACAGT CTGAAAATTT CAAGCAACGG
GTGATGACAT GCTTCCGAGC ATGGGAAGAC TGGGCAATCT ATCCAGAACC ATTTCTGATC
AAACTACAGA ATATTTTCTT GGGACTTGTA AATATCATGG AAGATAAAGA AACAGAGGAA
GTACCAGATG ATCTTGATGG TGCTCCCATT GAGGAAGAGC TCGATGGTGC TCCACTAGAA
GATGTGGATG GAATTCCTAT TGATGCTGCT CCTATTGATG ATCTGGATGG AGTACCAATT
AAATCACTGG ATGATGACCT TGATGGAGTT CCTTTGGATA CAACTGAAGA CTCAAAAAAG
AATGAGCCTA TATTTAAAGT TGCCCCTTCA AAGTGGGAAG CAGTGGATGA ATCGGAACTG
GAAGCTCAAG CTGTTACTAC TTCTAAGTGG GAGCTTTTTG ACCAACATGA AGAATCTGAG
GAGGAGGAAA TTCAAAATCA AGAAGAAGAA AGTGAAGATG AAGAAGACAC ACAGAGTTCC
AAGTCAGAAG AACAACACAT GTATTCCAAT CCTATTAAAG AGGAAATGCC TGAATCCAAG
TCATCAGTCA AGTACTCAGA AATGAGTGAA GAAAAGCGTG CCAAACTCAG AGAGATAGAG
CTTAAGGTGA TGAAGTTTCA GGATGAGTTA GAGTCTGGGA AAAGACCCAA GAAGCCAGGC
CAGAGTTTTC AGGAACAGGT TGAACACTAT AGAGACAAGC TGCTCCAGAG GGAAAAAGAA
AAAGAGATGG AAAGAGAACG GGACAGAGAC AAAAAGGACA AAGAAAAGTC TGAGACCAGG
TCCAAAGATA AGAAGGAAAA AGAGGAATGT ACACCAACAC GAAAAGAGAG GAAAAGGCGG
CACAGCGCTT CCCCCAGCCC GTCCCGCAGC AGCGGCAGCC GCCGGGCCAA GTCGCCCTCG
CCCAAATCCG AGCGCTCTGA GCGCTCCGAG CGCTCCCACA AGGAGAGCTC CCGCTCCCGC
TCCTCACACA AAGATTCTCC CAGAGATGTC AGTAAAAAAG GCAAAAGGTC GCCATCTGGC
TCCAGGACAC CCAAAAGATC AAGAAGATCA CGATCCAGAT CCCCAAAAAA GTCAGGGAAA
AAATCCAGGT CTCAGTCCCG TTCTCCTCAC AGATCTCACA AGAAGTCAAA GAAAAGCAAA
CACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd52374 Clone ID Related Accession (Same CDS sequence) XM_030280877.1 , XM_030280878.1 Accession Version XM_030280878.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 1866bp)
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 U2 snRNP-associated SURP motif-containing protein isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) 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
1861ATGCTCCAAT GTTGCCACCA CCAAAAAACA AGGAAGATTT TGAGAAGGAA TTTGCTCGCT
TTGATACATC GAATGATAGA GTTTGTGGTT CGGGAAGGGC CCATGTTCGA AGCCATGATC
ATGAACCGAG AAATCAACAA CCCAATGTTC AGGTTTTTAT TTGAAAACCA GACTCCAGCC
CATGTGTATT ATAGATGGAA GCTTTATTCA ATTCTTCAGG GGGATGCTCC AACCAAGTGG
AGGACAGAAG ATTTTCGTAT GTTCAAAAAT GGATCCTTCT GGAGGCCACC ACCATTGAAT
CCATACCTGC ACGGGATGTC AGAAGAGCAA GAAACGGAAG CGTTTGTGGA GGAACCGAAC
AAGAAGGGTG CACTTAAGGA AGAACAGAGG GACAAACTAG AGGAAATTCT ACGTGGGTTA
ACACCTCGGA AGAACGACAT TGGTGACGCA ATGGTTTTCT GTCTAAATAA TGCGGAAGCT
GCTGAAGAAA TTGTGGACTG CATTACAGAG TCATTGTCCA TCCTCAAGAC TCCTCTTCCT
AAGAAGATTG CAAGATTGTA TCTAGTGTCA GATGTATTAT ACAACTCTTC AGCTAAAGTT
GCCAATGCTT CCTACTATAG AAAATTTTTT GAAACAAAAT TATGTCAGAT ATTCTCTGAT
CTCAATGCTA CTTACCGTAC AATACAAGGC CATTTACAGT CTGAAAATTT CAAGCAACGG
GTGATGACAT GCTTCCGAGC ATGGGAAGAC TGGGCAATCT ATCCAGAACC ATTTCTGATC
AAACTACAGA ATATTTTCTT GGGACTTGTA AATATCATGG AAGATAAAGA AACAGAGGAA
GTACCAGATG ATCTTGATGG TGCTCCCATT GAGGAAGAGC TCGATGGTGC TCCACTAGAA
GATGTGGATG GAATTCCTAT TGATGCTGCT CCTATTGATG ATCTGGATGG AGTACCAATT
AAATCACTGG ATGATGACCT TGATGGAGTT CCTTTGGATA CAACTGAAGA CTCAAAAAAG
AATGAGCCTA TATTTAAAGT TGCCCCTTCA AAGTGGGAAG CAGTGGATGA ATCGGAACTG
GAAGCTCAAG CTGTTACTAC TTCTAAGTGG GAGCTTTTTG ACCAACATGA AGAATCTGAG
GAGGAGGAAA TTCAAAATCA AGAAGAAGAA AGTGAAGATG AAGAAGACAC ACAGAGTTCC
AAGTCAGAAG AACAACACAT GTATTCCAAT CCTATTAAAG AGGAAATGCC TGAATCCAAG
TCATCAGTCA AGTACTCAGA AATGAGTGAA GAAAAGCGTG CCAAACTCAG AGAGATAGAG
CTTAAGGTGA TGAAGTTTCA GGATGAGTTA GAGTCTGGGA AAAGACCCAA GAAGCCAGGC
CAGAGTTTTC AGGAACAGGT TGAACACTAT AGAGACAAGC TGCTCCAGAG GGAAAAAGAA
AAAGAGATGG AAAGAGAACG GGACAGAGAC AAAAAGGACA AAGAAAAGTC TGAGACCAGG
TCCAAAGATA AGAAGGAAAA AGAGGAATGT ACACCAACAC GAAAAGAGAG GAAAAGGCGG
CACAGCGCTT CCCCCAGCCC GTCCCGCAGC AGCGGCAGCC GCCGGGCCAA GTCGCCCTCG
CCCAAATCCG AGCGCTCTGA GCGCTCCGAG CGCTCCCACA AGGAGAGCTC CCGCTCCCGC
TCCTCACACA AAGATTCTCC CAGAGATGTC AGTAAAAAAG GCAAAAGGTC GCCATCTGGC
TCCAGGACAC CCAAAAGATC AAGAAGATCA CGATCCAGAT CCCCAAAAAA GTCAGGGAAA
AAATCCAGGT CTCAGTCCCG TTCTCCTCAC AGATCTCACA AGAAGTCAAA GAAAAGCAAA
CACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030136738.1 CDS 1061..2926 Translation
Target ORF information:
RefSeq Version XM_030280878.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata U2 snRNP associated SURP domain containing (U2SURP), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030280878.1
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
1861ATGCTCCAAT GTTGCCACCA CCAAAAAACA AGGAAGATTT TGAGAAGGAA TTTGCTCGCT
TTGATACATC GAATGATAGA GTTTGTGGTT CGGGAAGGGC CCATGTTCGA AGCCATGATC
ATGAACCGAG AAATCAACAA CCCAATGTTC AGGTTTTTAT TTGAAAACCA GACTCCAGCC
CATGTGTATT ATAGATGGAA GCTTTATTCA ATTCTTCAGG GGGATGCTCC AACCAAGTGG
AGGACAGAAG ATTTTCGTAT GTTCAAAAAT GGATCCTTCT GGAGGCCACC ACCATTGAAT
CCATACCTGC ACGGGATGTC AGAAGAGCAA GAAACGGAAG CGTTTGTGGA GGAACCGAAC
AAGAAGGGTG CACTTAAGGA AGAACAGAGG GACAAACTAG AGGAAATTCT ACGTGGGTTA
ACACCTCGGA AGAACGACAT TGGTGACGCA ATGGTTTTCT GTCTAAATAA TGCGGAAGCT
GCTGAAGAAA TTGTGGACTG CATTACAGAG TCATTGTCCA TCCTCAAGAC TCCTCTTCCT
AAGAAGATTG CAAGATTGTA TCTAGTGTCA GATGTATTAT ACAACTCTTC AGCTAAAGTT
GCCAATGCTT CCTACTATAG AAAATTTTTT GAAACAAAAT TATGTCAGAT ATTCTCTGAT
CTCAATGCTA CTTACCGTAC AATACAAGGC CATTTACAGT CTGAAAATTT CAAGCAACGG
GTGATGACAT GCTTCCGAGC ATGGGAAGAC TGGGCAATCT ATCCAGAACC ATTTCTGATC
AAACTACAGA ATATTTTCTT GGGACTTGTA AATATCATGG AAGATAAAGA AACAGAGGAA
GTACCAGATG ATCTTGATGG TGCTCCCATT GAGGAAGAGC TCGATGGTGC TCCACTAGAA
GATGTGGATG GAATTCCTAT TGATGCTGCT CCTATTGATG ATCTGGATGG AGTACCAATT
AAATCACTGG ATGATGACCT TGATGGAGTT CCTTTGGATA CAACTGAAGA CTCAAAAAAG
AATGAGCCTA TATTTAAAGT TGCCCCTTCA AAGTGGGAAG CAGTGGATGA ATCGGAACTG
GAAGCTCAAG CTGTTACTAC TTCTAAGTGG GAGCTTTTTG ACCAACATGA AGAATCTGAG
GAGGAGGAAA TTCAAAATCA AGAAGAAGAA AGTGAAGATG AAGAAGACAC ACAGAGTTCC
AAGTCAGAAG AACAACACAT GTATTCCAAT CCTATTAAAG AGGAAATGCC TGAATCCAAG
TCATCAGTCA AGTACTCAGA AATGAGTGAA GAAAAGCGTG CCAAACTCAG AGAGATAGAG
CTTAAGGTGA TGAAGTTTCA GGATGAGTTA GAGTCTGGGA AAAGACCCAA GAAGCCAGGC
CAGAGTTTTC AGGAACAGGT TGAACACTAT AGAGACAAGC TGCTCCAGAG GGAAAAAGAA
AAAGAGATGG AAAGAGAACG GGACAGAGAC AAAAAGGACA AAGAAAAGTC TGAGACCAGG
TCCAAAGATA AGAAGGAAAA AGAGGAATGT ACACCAACAC GAAAAGAGAG GAAAAGGCGG
CACAGCGCTT CCCCCAGCCC GTCCCGCAGC AGCGGCAGCC GCCGGGCCAA GTCGCCCTCG
CCCAAATCCG AGCGCTCTGA GCGCTCCGAG CGCTCCCACA AGGAGAGCTC CCGCTCCCGC
TCCTCACACA AAGATTCTCC CAGAGATGTC AGTAAAAAAG GCAAAAGGTC GCCATCTGGC
TCCAGGACAC CCAAAAGATC AAGAAGATCA CGATCCAGAT CCCCAAAAAA GTCAGGGAAA
AAATCCAGGT CTCAGTCCCG TTCTCCTCAC AGATCTCACA AGAAGTCAAA GAAAAGCAAA
CACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd52375 Clone ID Related Accession (Same CDS sequence) XM_030280879.1 Accession Version XM_030280879.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3006bp)
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 U2 snRNP-associated SURP motif-containing protein isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) 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
3001ATGGCGGACA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGTCAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TACCCTCCCC AAAAACAAAA ACAAACAAAC AACTTTGCCT
GGGCCTTTGA AGAAAGGAGA GAAGGAAAAG AAAAAGAGTA ATTTGGAACT TTTTAAAGAA
GAATTAAAGC AAATCCAAGA GGAGCGTGAT GAAAGGCACA AAACAAAAGG TAGATTGAGT
CGTTTTGAAC CACCCCAGTC TGATTCAGAT GGTCAGCGGC GTTCAATGGA TGCTCCTTCA
AGAAGAAACA GATCATCTGG TGTACTGGAT GATTATGCAC CAGGGTCACA TGATGTTGGC
GATCCAAGCA CAACAAATTT GTATCTGGGA AACATCAATC CTCAGATGAA TGAAGAGATG
TTATGTCAAG AATTTGGACG CTTTGGACCA TTAGCGAGTG TTAAAATTAT GTGGCCAAGA
ACTGATGAAG AAAGAGCAAG AGAAAGAAAT TGTGGCTTTG TTGCCTTTAT GAACAGAAGA
GATGCTGAAA GAGCATTGAA GAATTTAAAT GGCAAGATGA TTATGTCTTT TGAAATGAAG
CTGGGCTGGG GCAAAGCTGT ACCTATACCA CCACATCCAA TCTACATTCC GCCTTCCATG
ATGGAGCACA CCCTGCCGCC GCCCCCGTCA GGACTGCCTT TCAATGCCCA GCCTAGGGAG
AGGTTGAAGA ATCCTAATGC TCCAATGTTG CCACCACCAA AAAACAAGGA AGATTTTGAG
AAGACTCTGT CGCAAGCCAT AGTCAAAGTG GTTATCCCAA CAGAAAGGAA TTTGCTCGCT
TTGATACATC GAATGATAGA GTTTGTGGTT CGGGAAGGGC CCATGTTCGA AGCCATGATC
ATGAACCGAG AAATCAACAA CCCAATGTTC AGGTTTTTAT TTGAAAACCA GACTCCAGCC
CATGTGTATT ATAGATGGAA GCTTTATTCA ATTCTTCAGG GGGATGCTCC AACCAAGTGG
AGGACAGAAG ATTTTCGTAT GTTCAAAAAT GGATCCTTCT GGAGGCCACC ACCATTGAAT
CCATACCTGC ACGGGATGTC AGAAGAGCAA GAAACGGAAG CGTTTGTGGA GGAACCGAAC
AAGAAGGGTG CACTTAAGGA AGAACAGAGG GACAAACTAG AGGAAATTCT ACGTGGGTTA
ACACCTCGGA AGAACGACAT TGGTGACGCA ATGGTTTTCT GTCTAAATAA TGCGGAAGCT
GCTGAAGAAA TTGTGGACTG CATTACAGAG TCATTGTCCA TCCTCAAGAC TCCTCTTCCT
AAGAAGATTG CAAGATTGTA TCTAGTGTCA GATGTATTAT ACAACTCTTC AGCTAAAGTT
GCCAATGCTT CCTACTATAG AAAATTTTTT GAAACAAAAT TATGTCAGAT ATTCTCTGAT
CTCAATGCTA CTTACCGTAC AATACAAGGC CATTTACAGT CTGAAAATTT CAAGCAACGG
GTGATGACAT GCTTCCGAGC ATGGGAAGAC TGGGCAATCT ATCCAGAACC ATTTCTGATC
AAACTACAGA ATATTTTCTT GGGACTTGTA AATATCATGG AAGATAAAGA AACAGAGGAA
GTACCAGATG ATCTTGATGG TGCTCCCATT GAGGAAGAGC TCGATGGTGC TCCACTAGAA
GATGTGGATG GAATTCCTAT TGATGCTGCT CCTATTGATG ATCTGGATGG AGTACCAATT
AAATCACTGG ATGATGACCT TGATGGAGTT CCTTTGGATA CAACTGAAGA CTCAAAAAAG
AATGAGCCTA TATTTAAAGT TGCCCCTTCA AAGTGGGAAG CAGTGGATGA ATCGGAACTG
GAAGCTCAAG CTGTTACTAC TTCTAAGTGG GAGCTTTTTG ACCAACATGA AGAATCTGAG
GAGGAGGAAA TTCAAAATCA AGAAGAAGAA AGTGAAGATG AAGAAGACAC ACAGAGTTCC
AAGTCAGAAG AACAACACAT GTATTCCAAT CCTATTAAAG AGGAAATGCC TGAATCCAAG
TCATCAGTCA AGTACTCAGA AATGAGTGAA GAAAAGCGTG CCAAACTCAG AGAGATAGAG
CTTAAGGTGA TGAAGTTTCA GGATGAGTTA GAGTCTGGGA AAAGACCCAA GAAGCCAGGC
CAGAGTTTTC AGGAACAGGT TGAACACTAT AGAGACAAGC TGCTCCAGAG GGAAAAAGAA
AAAGAGATGG AAAGAGAACG GGACAGAGAC AAAAAGGACA AAGAAAAGTC TGAGACCAGG
TCCAAAGATA AGAAGGAAAA AGAGGAATGT ACACCAACAC GAAAAGAGAG GAAAAGGCGG
CACAGCGCTT CCCCCAGCCC GTCCCGCAGC AGCGGCAGCC GCCGGGCCAA GTCGCCCTCG
CCCAAATCCG AGCGCTCTGA GCGCTCCGAG CGCTCCCACA AGGAGAGCTC CCGCTCCCGC
TCCTCACACA AAGATTCTCC CAGAGATGTC AGTAAAAAAG GCAAAAGGTC GCCATCTGGC
TCCAGGACAC CCAAAAGATC AAGAAGATCA CGATCCAGAT CCCCAAAAAA GTCAGGGAAA
AAATCCAGGT CTCAGTCCCG TTCTCCTCAC AGATCTCACA AGAAGTCAAA GAAAAGCAAA
CACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030136739.1 CDS 58..3063 Translation
Target ORF information:
RefSeq Version XM_030280879.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata U2 snRNP associated SURP domain containing (U2SURP), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030280879.1
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
3001ATGGCGGACA AGGCGCCCGG CGGCTCGCAG AAACCCGCCG GGAAGGTCAG AGGGCCAGAT
GCAGTACATA CCACTGGATC TGCTGATTCA CATCCTCTAA TGGAAAGTAA ACTTAAAGCA
TTCAGTATTG GCAAAATGAG TGCTGCCAAA CGTACTCTGA GCAAGAAAGA GCAAGAAGAA
TTAAAAAAGA AGGAGGATGA GAAGGCTGCT GCAGAAATTT ATGAAGAATT CCTTGCTGCC
TTTGAAGGAG GTGATGGTAA TAAAGTGAAA ACATTTGTAA GAGGAGGAAT CGTAAATGCA
TCTAAAGAGG AGCATGAAAC AGATGAAAAA CGGGGTAAAA TCTATAAACC TTCATCACGA
TTTTCAGATC AAAAAAATCA ACCAAGTCAG CCATCTAATG AGAAACCTCC GTCCCTCCTA
ATGATAGAAA CCAAAAAGCC TACCCTCCCC AAAAACAAAA ACAAACAAAC AACTTTGCCT
GGGCCTTTGA AGAAAGGAGA GAAGGAAAAG AAAAAGAGTA ATTTGGAACT TTTTAAAGAA
GAATTAAAGC AAATCCAAGA GGAGCGTGAT GAAAGGCACA AAACAAAAGG TAGATTGAGT
CGTTTTGAAC CACCCCAGTC TGATTCAGAT GGTCAGCGGC GTTCAATGGA TGCTCCTTCA
AGAAGAAACA GATCATCTGG TGTACTGGAT GATTATGCAC CAGGGTCACA TGATGTTGGC
GATCCAAGCA CAACAAATTT GTATCTGGGA AACATCAATC CTCAGATGAA TGAAGAGATG
TTATGTCAAG AATTTGGACG CTTTGGACCA TTAGCGAGTG TTAAAATTAT GTGGCCAAGA
ACTGATGAAG AAAGAGCAAG AGAAAGAAAT TGTGGCTTTG TTGCCTTTAT GAACAGAAGA
GATGCTGAAA GAGCATTGAA GAATTTAAAT GGCAAGATGA TTATGTCTTT TGAAATGAAG
CTGGGCTGGG GCAAAGCTGT ACCTATACCA CCACATCCAA TCTACATTCC GCCTTCCATG
ATGGAGCACA CCCTGCCGCC GCCCCCGTCA GGACTGCCTT TCAATGCCCA GCCTAGGGAG
AGGTTGAAGA ATCCTAATGC TCCAATGTTG CCACCACCAA AAAACAAGGA AGATTTTGAG
AAGACTCTGT CGCAAGCCAT AGTCAAAGTG GTTATCCCAA CAGAAAGGAA TTTGCTCGCT
TTGATACATC GAATGATAGA GTTTGTGGTT CGGGAAGGGC CCATGTTCGA AGCCATGATC
ATGAACCGAG AAATCAACAA CCCAATGTTC AGGTTTTTAT TTGAAAACCA GACTCCAGCC
CATGTGTATT ATAGATGGAA GCTTTATTCA ATTCTTCAGG GGGATGCTCC AACCAAGTGG
AGGACAGAAG ATTTTCGTAT GTTCAAAAAT GGATCCTTCT GGAGGCCACC ACCATTGAAT
CCATACCTGC ACGGGATGTC AGAAGAGCAA GAAACGGAAG CGTTTGTGGA GGAACCGAAC
AAGAAGGGTG CACTTAAGGA AGAACAGAGG GACAAACTAG AGGAAATTCT ACGTGGGTTA
ACACCTCGGA AGAACGACAT TGGTGACGCA ATGGTTTTCT GTCTAAATAA TGCGGAAGCT
GCTGAAGAAA TTGTGGACTG CATTACAGAG TCATTGTCCA TCCTCAAGAC TCCTCTTCCT
AAGAAGATTG CAAGATTGTA TCTAGTGTCA GATGTATTAT ACAACTCTTC AGCTAAAGTT
GCCAATGCTT CCTACTATAG AAAATTTTTT GAAACAAAAT TATGTCAGAT ATTCTCTGAT
CTCAATGCTA CTTACCGTAC AATACAAGGC CATTTACAGT CTGAAAATTT CAAGCAACGG
GTGATGACAT GCTTCCGAGC ATGGGAAGAC TGGGCAATCT ATCCAGAACC ATTTCTGATC
AAACTACAGA ATATTTTCTT GGGACTTGTA AATATCATGG AAGATAAAGA AACAGAGGAA
GTACCAGATG ATCTTGATGG TGCTCCCATT GAGGAAGAGC TCGATGGTGC TCCACTAGAA
GATGTGGATG GAATTCCTAT TGATGCTGCT CCTATTGATG ATCTGGATGG AGTACCAATT
AAATCACTGG ATGATGACCT TGATGGAGTT CCTTTGGATA CAACTGAAGA CTCAAAAAAG
AATGAGCCTA TATTTAAAGT TGCCCCTTCA AAGTGGGAAG CAGTGGATGA ATCGGAACTG
GAAGCTCAAG CTGTTACTAC TTCTAAGTGG GAGCTTTTTG ACCAACATGA AGAATCTGAG
GAGGAGGAAA TTCAAAATCA AGAAGAAGAA AGTGAAGATG AAGAAGACAC ACAGAGTTCC
AAGTCAGAAG AACAACACAT GTATTCCAAT CCTATTAAAG AGGAAATGCC TGAATCCAAG
TCATCAGTCA AGTACTCAGA AATGAGTGAA GAAAAGCGTG CCAAACTCAG AGAGATAGAG
CTTAAGGTGA TGAAGTTTCA GGATGAGTTA GAGTCTGGGA AAAGACCCAA GAAGCCAGGC
CAGAGTTTTC AGGAACAGGT TGAACACTAT AGAGACAAGC TGCTCCAGAG GGAAAAAGAA
AAAGAGATGG AAAGAGAACG GGACAGAGAC AAAAAGGACA AAGAAAAGTC TGAGACCAGG
TCCAAAGATA AGAAGGAAAA AGAGGAATGT ACACCAACAC GAAAAGAGAG GAAAAGGCGG
CACAGCGCTT CCCCCAGCCC GTCCCGCAGC AGCGGCAGCC GCCGGGCCAA GTCGCCCTCG
CCCAAATCCG AGCGCTCTGA GCGCTCCGAG CGCTCCCACA AGGAGAGCTC CCGCTCCCGC
TCCTCACACA AAGATTCTCC CAGAGATGTC AGTAAAAAAG GCAAAAGGTC GCCATCTGGC
TCCAGGACAC CCAAAAGATC AAGAAGATCA CGATCCAGAT CCCCAAAAAA GTCAGGGAAA
AAATCCAGGT CTCAGTCCCG TTCTCCTCAC AGATCTCACA AGAAGTCAAA GAAAAGCAAA
CACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
PubMed
A molecular neuroethological approach for identifying and characterizing a cascade of behaviorally regulated genes.
Proceedings of the National Academy of Sciences of the United States of America103(41)15212-7(2006 Oct)
Wada K,Howard JT,McConnell P,Whitney O,Lints T,Rivas MV,Horita H,Patterson MA,White SA,Scharff C,Haesler S,Zhao S,Sakaguchi H,Hagiwara M,Shiraki T,Hirozane-Kishikawa T,Skene P,Hayashizaki Y,Carninci P,Jarvis ED
-
-
Most Popular Services
-
Services & Products
-
News & Blogs
- Peptide-targeted HIV vaccine could be a winner
- Controlling Endotoxin Contamination in Bioprocessing
- Combinatorial therapy for epithelial ovarian cancer
- New Study Shows How Chimpanzees Can Spontaneously Learn
- An Inhalable Protection from SARS-CoV-2 Infection
- What is antibody drug discovery?
- An improved phage display strategy for improving protein solubility
- Developing a Much-Needed New Shot for Lyme Disease with mRNA
-
-
-
PubMed
-
