| Gene Symbol | SOS2 |
| Entrez Gene ID | 100232589 |
| Full Name | SOS Ras/Rho guanine nucleotide exchange factor 2 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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SOS2 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following SOS2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SOS2 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 OTd10721 Clone ID Related Accession (Same CDS sequence) XM_002200434.2 Accession Version XM_002200434.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4185bp)
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 son of sevenless homolog 2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198757.1) 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_002200434.1. ##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## ##RefSeq-Attributes-START## ab initio :: 6% of CDS bases ##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
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141ATGCCTCCAG GTAAGAAGAG GAACATCATC CAGGCAGGGC AAAACACAGC CTGCAGCCAA
CGACATGCAA ACGCCGCTGC AGCCATACAA GTTCCTAACG AGGAGAACGG CCCGAAAAAG
CGCGGCCTAT TCGTGCCCGC CTTGCGCAAG GTGCAGCAGC AGGTTCACCC CAACCTGTCA
GCCAAGGAGG ATTCCCTGTT CTACATTGAG GAGCTGATCC TGCAGCTGCT GCACAAACTG
TGCATCGCCC AGCCACGCAC GGTGCAGGAT GTGGAGGTGC AGCAGCAGGT TCACCCCAAC
CTGTCAGCCA AGGAGGATTC CCTGTTCTAC ATTGAGGAGC TGATCCTGCA GCTGCTGCAC
AAACTGTGCA TCGCCCAGCC ACGCACGGTG CAGGATGTGG AGGAGCGGGT CCAGAAGACG
TTTCCCCACC CCATAGACAA GTGGGCCATC GCTGATGCGC AGTCGGCCAT CGAGAAACGG
AAAAGAAGGA ACCCCCTCCT GCTCCCTGTG GAGAAAATCC ATCCCTTACT GAAGGAGGTC
CTGGGCTACA AGGTGGATTA CCATGTCTCT CTTTATATTG TGGCTGTCTT GGAATATATC
TCAGCTGACA TTTTAAAGCT GGCTGGAAAC TATGTTTTCA ATATCCGACA CTTTGAGATC
TCCCAGCAGG ACATTAAAGT ATCAATGTGT GCTGATAAGG TTTTGATGGA TATGTTTGAT
CAGGACGAGA TTGGGTTGGT TTCCCTGTGT GAGGACGAGC CCTCCTCTTC TGGGGAGCTC
AACTACTACG ACCTGGTGAG AAATGAGATT GCAGAAGAAA GGCAATACCT GAGGGAGCTG
AACCTGATCA TCAAAGTATT TCGGGAAGCT TTTCTGTCCA ACAGGAGACT CTTCACACCT
CATGACATTG ATGTGATATT CAGCAACATT TCAGACATCC ACGAGCTGAC AGTGAAGCTT
TTGGGATTGA TTGAGGACAC TGTGGAAATG ACAGATGAAA GCAGCCCTCA CCCTCTGGCT
GGCAGCTGCT TTGAGGACCT GGCAGAGGAG CAAGCCTTTG ATCCATATGA AACCTTGTCC
CAGGATATTC TTTCTCCACA ATTTCATGAG CATTTTAACA ACTTAATGGC CAAACCTGCT
GTGGCTCTCC ACTTCCAGTC CACAGCTGAA GGATTTAAGG AGGCTGTCCA GTATGTCCTG
CCTCGCCTCA TGCTGATCCC AGTCTATCAC TGCTTGCACT ACTTTGAGTT GCTGCAGCAA
TTGCAGGAGT GCAGTGAGGA TGAAGAGGAC AGGGAGTGCC TGAAGCAGGC CATCACTGCC
CTGCTGAACC TGCAGTGCAG CATGGAGCGC ATCTACAGCA AGCACTCCCC GCGGCGCCGG
CCCGGGGAGC CGGTCTGTCG CTTCTACCAC CGGCAGATCA GAAGCAAACA CTTGGCCATC
AAGAAAATGA ACGAAATCCA GAAAAACATC GACGGCTGGG AAGGCAAAGA CATCGGCCAG
TGCTGCAACG AGTTCATCAT GGAAGGAGGG CTGACAAAAA TCGGGGCCAA GCACGAGCGC
CACATCTTCC TCTTCGACGG TTTGCTGATC AGCTGCAAAA CCAACCACGG GCAGTCGCGG
CTGCCCGGCT ACAGCAGCGC CGAGTACAGG CTCAAGGAGA AGATCGTCAT GAGGAAGATG
CAGGTGGTGG ACAAGGAGGA CACGGCAGAG TACAGGCACG CCTTCGAGCT GGTGTCCAAG
GACGACAGCA GCGTCCTGTT CGCCGCCAGG TCGGCCGAGG AGAAGAGCAC GTGGATGGCG
GCGCTGATCT CGCTGCAGTA CCGCAGCACC CTGGACAGGA TGCTGGACTC GGTGCTGCTG
CAGGAGGAGA ACGAGCAGCC CCTGAGGCTG CCCAGCCCCA GCGTGTATCG TTTCGTGGTG
GAGGACTCCG AGGAGAACAT TGTTTTTGAG GACAACTTGC AGAGCAGGAA TGGAATTCCC
ATCATCAAAG GGGGCACGGT GGTGAAGCTC ATCGAGAGGC TGACCTACCA TATGTATGCA
GATCCTAACT TTGTTCGGAC TTTCCTGACC ACCTATCGCT CCTTTTGCAA GCCCCAGGAG
CTGCTGAGTT TGCTGATAGA AAGGTTCGAG ATCCCTGAGC CTGAGCCCAC GGAGGCAGAC
AGGCTGGCCA TCGAGAAGGG GGAGCAGCCC ATCAGCGCCG ACCTGAAGCG CTTCCGCAAG
GAATACGTGC AGCCCGTGCA GCTCAGAATA CTGAATGTTT TCCGGCACTG GGTCGAGCAC
CATTTTTATG ATTTTGAGAG GGATCTGGAG CTGCTGGAGA GGCTGGAGAC CTTCATTTCC
AGTGTCAGAG GAAAATCCAT GAAGAAGTGG GTGGAGTCCA TTGCTAAAAT CATCAAGAGG
AAGAAAGCCC AGGCAGATGG GGTGAGCCAC AACATCACCT TCGAGAGCCC CCCGCCGCCG
CTGGAGTGGC ACCTGTGGCG CGTGGGGCAC AGCGAGGCCC TGGAGCTGAT GACGCTGCAC
CCCATCGAGA TCGCCCGGCA GCTCACCCTG CTCGAGTCCG ACCTGTACAG GGCTGTGCAG
CCTTCTGAAC TCGTTGGCAG TGTGTGGACG AAGGAAGATA AGGAAATCAA CTCCCCAAAT
CTCCTGAAAA TGATTCGTCA CACTACAAAT CTCACTCTGT GGTTTGAAAA GTGCATCGTG
GAAACAGAGA ACTTTGAGGA GCGAGTGGCT GTGCTGAGCA GGATCATAGA AATCCTGCAG
GTTTTCCAAG ACCTCAATAA TTTCAATGGT GTTCTGGAGA TTGTCAGTGC TGTGAACTCT
GTCTCAGTGT ACAGGCTGGA CCACACATTT GAGGCACTCC AGGAAAGGAA AAAGAGAGTT
TTGGATGAAG CAGTAGAATT AAGCCAAGAT CATTTTAAGA AGTATTTAGC TAAGCTCAAG
TCAATCAACC CTCCCTGTGT GCCTTTTTTT GGAATATACC TAACAAATAT CTTGAAGACA
GAAGAAGGGA ATCCTGACTT CCTTAAAAGA CAAGGGAAAG AATTAATTAA CTTCAGTAAG
AGGAGAAAAG TGGCTGAAAT TACAGGAGAA ATTCAGCAGT ATCAAAACCA GCCCTACTGC
TTACGGGTTG AGCCAGAAAT CCGGAAATTC TTTGAAAATC TCAATCCCAT GGGGAAGATA
CCAGAAAAAG AGTTTACAGA TTATCTGTTC AACAAGTCCT TAGAGATTGA ACCTCGGAAC
TGCAAGCAAC CACCTCGATT TCCCAGGAAA ACAACGTATC CCCTGAAATC CCCTGGGATC
AGGCCCAACA CGGGCAGGCA CGGCTCCACC TCGGGCACGC TGAGGAGCCA CCCCCTGCCC
CTGGAAAAGG AGCCCAGCAA GATCAGCTTC AGCAGGATCA CCGAGGCCGA GCAGGAGACC
ACAGCATCGG CACCGACCTC CCCCAACACC CCCTCAACGC CGCCCGTGTC GGCGTCCTCG
GAGTTCAGCG TCTTCTTGGA CATTGATCTC AACAGTTCTT ATGGTAACAA CAGCATCTTC
GCTCCTGTGA ACTTGCCTCC ATCGAAGACT TTCTTCAGCT CCTGGGGAAG CTTTCCTAAA
CTGAGTGATG AACCTCAGAA CCCTCCTCCA CTTCCTCCAC GAAAAAAGAT GGATCAGGAT
GCTTCCAATG CTAAGGGAAA TTCCAAGTCG GATGACGATC CTCCAGCAAT CCCCCCTCGG
CAGCCGCCTC CTCCAAAGAT CCAACCTCGC GTTCCTGCTT ACAGCGGCCC CCTGGAGCAG
CCCCTGCACA GCCCTCCTCC TCCGCCCCCC CGGGACCCCG TCCCCGACAC CCCACCGCCG
GTGCCGCTCC GGCCGCCCGA GCACTTCATC AACTGCCCCC TGAGCCTGCA GCCGCCGCCG
CTGGGACGCT TCCCCCGGGA TCCCGAGTGG CTGCGGGAGG CCGGCTCCGG CCCCAGCTCC
CCGGGCACCC CTCCCAGCAC CCCCTCTCCC CGGGTGCTGC GCCGCTGCTG CGTCCTCAGC
GCCAGCCACA ACAACCTGGC GCAGCCGCCC GTGCCCCCCG TGCCGCCCCG GCACAACTCC
AGCCCCCAGC TACCAAAACT GCCACCAAAG ACTTACAAAA GGGAGCTCTC CCACCCTCCT
TTGCACAGAC TGTCTTTGCT AGAAAATGCA GAAACGCCTC AATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002200470.1 CDS 1..4185 Translation 
Target ORF information:
RefSeq Version XM_002200434.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata son of sevenless homolog 2 (Drosophila) (SOS2), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002200434.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141ATGCCTCCAG GTAAGAAGAG GAACATCATC CAGGCAGGGC AAAACACAGC CTGCAGCCAA
CGACATGCAA ACGCCGCTGC AGCCATACAA GTTCCTAACG AGGAGAACGG CCCGAAAAAG
CGCGGCCTAT TCGTGCCCGC CTTGCGCAAG GTGCAGCAGC AGGTTCACCC CAACCTGTCA
GCCAAGGAGG ATTCCCTGTT CTACATTGAG GAGCTGATCC TGCAGCTGCT GCACAAACTG
TGCATCGCCC AGCCACGCAC GGTGCAGGAT GTGGAGGTGC AGCAGCAGGT TCACCCCAAC
CTGTCAGCCA AGGAGGATTC CCTGTTCTAC ATTGAGGAGC TGATCCTGCA GCTGCTGCAC
AAACTGTGCA TCGCCCAGCC ACGCACGGTG CAGGATGTGG AGGAGCGGGT CCAGAAGACG
TTTCCCCACC CCATAGACAA GTGGGCCATC GCTGATGCGC AGTCGGCCAT CGAGAAACGG
AAAAGAAGGA ACCCCCTCCT GCTCCCTGTG GAGAAAATCC ATCCCTTACT GAAGGAGGTC
CTGGGCTACA AGGTGGATTA CCATGTCTCT CTTTATATTG TGGCTGTCTT GGAATATATC
TCAGCTGACA TTTTAAAGCT GGCTGGAAAC TATGTTTTCA ATATCCGACA CTTTGAGATC
TCCCAGCAGG ACATTAAAGT ATCAATGTGT GCTGATAAGG TTTTGATGGA TATGTTTGAT
CAGGACGAGA TTGGGTTGGT TTCCCTGTGT GAGGACGAGC CCTCCTCTTC TGGGGAGCTC
AACTACTACG ACCTGGTGAG AAATGAGATT GCAGAAGAAA GGCAATACCT GAGGGAGCTG
AACCTGATCA TCAAAGTATT TCGGGAAGCT TTTCTGTCCA ACAGGAGACT CTTCACACCT
CATGACATTG ATGTGATATT CAGCAACATT TCAGACATCC ACGAGCTGAC AGTGAAGCTT
TTGGGATTGA TTGAGGACAC TGTGGAAATG ACAGATGAAA GCAGCCCTCA CCCTCTGGCT
GGCAGCTGCT TTGAGGACCT GGCAGAGGAG CAAGCCTTTG ATCCATATGA AACCTTGTCC
CAGGATATTC TTTCTCCACA ATTTCATGAG CATTTTAACA ACTTAATGGC CAAACCTGCT
GTGGCTCTCC ACTTCCAGTC CACAGCTGAA GGATTTAAGG AGGCTGTCCA GTATGTCCTG
CCTCGCCTCA TGCTGATCCC AGTCTATCAC TGCTTGCACT ACTTTGAGTT GCTGCAGCAA
TTGCAGGAGT GCAGTGAGGA TGAAGAGGAC AGGGAGTGCC TGAAGCAGGC CATCACTGCC
CTGCTGAACC TGCAGTGCAG CATGGAGCGC ATCTACAGCA AGCACTCCCC GCGGCGCCGG
CCCGGGGAGC CGGTCTGTCG CTTCTACCAC CGGCAGATCA GAAGCAAACA CTTGGCCATC
AAGAAAATGA ACGAAATCCA GAAAAACATC GACGGCTGGG AAGGCAAAGA CATCGGCCAG
TGCTGCAACG AGTTCATCAT GGAAGGAGGG CTGACAAAAA TCGGGGCCAA GCACGAGCGC
CACATCTTCC TCTTCGACGG TTTGCTGATC AGCTGCAAAA CCAACCACGG GCAGTCGCGG
CTGCCCGGCT ACAGCAGCGC CGAGTACAGG CTCAAGGAGA AGATCGTCAT GAGGAAGATG
CAGGTGGTGG ACAAGGAGGA CACGGCAGAG TACAGGCACG CCTTCGAGCT GGTGTCCAAG
GACGACAGCA GCGTCCTGTT CGCCGCCAGG TCGGCCGAGG AGAAGAGCAC GTGGATGGCG
GCGCTGATCT CGCTGCAGTA CCGCAGCACC CTGGACAGGA TGCTGGACTC GGTGCTGCTG
CAGGAGGAGA ACGAGCAGCC CCTGAGGCTG CCCAGCCCCA GCGTGTATCG TTTCGTGGTG
GAGGACTCCG AGGAGAACAT TGTTTTTGAG GACAACTTGC AGAGCAGGAA TGGAATTCCC
ATCATCAAAG GGGGCACGGT GGTGAAGCTC ATCGAGAGGC TGACCTACCA TATGTATGCA
GATCCTAACT TTGTTCGGAC TTTCCTGACC ACCTATCGCT CCTTTTGCAA GCCCCAGGAG
CTGCTGAGTT TGCTGATAGA AAGGTTCGAG ATCCCTGAGC CTGAGCCCAC GGAGGCAGAC
AGGCTGGCCA TCGAGAAGGG GGAGCAGCCC ATCAGCGCCG ACCTGAAGCG CTTCCGCAAG
GAATACGTGC AGCCCGTGCA GCTCAGAATA CTGAATGTTT TCCGGCACTG GGTCGAGCAC
CATTTTTATG ATTTTGAGAG GGATCTGGAG CTGCTGGAGA GGCTGGAGAC CTTCATTTCC
AGTGTCAGAG GAAAATCCAT GAAGAAGTGG GTGGAGTCCA TTGCTAAAAT CATCAAGAGG
AAGAAAGCCC AGGCAGATGG GGTGAGCCAC AACATCACCT TCGAGAGCCC CCCGCCGCCG
CTGGAGTGGC ACCTGTGGCG CGTGGGGCAC AGCGAGGCCC TGGAGCTGAT GACGCTGCAC
CCCATCGAGA TCGCCCGGCA GCTCACCCTG CTCGAGTCCG ACCTGTACAG GGCTGTGCAG
CCTTCTGAAC TCGTTGGCAG TGTGTGGACG AAGGAAGATA AGGAAATCAA CTCCCCAAAT
CTCCTGAAAA TGATTCGTCA CACTACAAAT CTCACTCTGT GGTTTGAAAA GTGCATCGTG
GAAACAGAGA ACTTTGAGGA GCGAGTGGCT GTGCTGAGCA GGATCATAGA AATCCTGCAG
GTTTTCCAAG ACCTCAATAA TTTCAATGGT GTTCTGGAGA TTGTCAGTGC TGTGAACTCT
GTCTCAGTGT ACAGGCTGGA CCACACATTT GAGGCACTCC AGGAAAGGAA AAAGAGAGTT
TTGGATGAAG CAGTAGAATT AAGCCAAGAT CATTTTAAGA AGTATTTAGC TAAGCTCAAG
TCAATCAACC CTCCCTGTGT GCCTTTTTTT GGAATATACC TAACAAATAT CTTGAAGACA
GAAGAAGGGA ATCCTGACTT CCTTAAAAGA CAAGGGAAAG AATTAATTAA CTTCAGTAAG
AGGAGAAAAG TGGCTGAAAT TACAGGAGAA ATTCAGCAGT ATCAAAACCA GCCCTACTGC
TTACGGGTTG AGCCAGAAAT CCGGAAATTC TTTGAAAATC TCAATCCCAT GGGGAAGATA
CCAGAAAAAG AGTTTACAGA TTATCTGTTC AACAAGTCCT TAGAGATTGA ACCTCGGAAC
TGCAAGCAAC CACCTCGATT TCCCAGGAAA ACAACGTATC CCCTGAAATC CCCTGGGATC
AGGCCCAACA CGGGCAGGCA CGGCTCCACC TCGGGCACGC TGAGGAGCCA CCCCCTGCCC
CTGGAAAAGG AGCCCAGCAA GATCAGCTTC AGCAGGATCA CCGAGGCCGA GCAGGAGACC
ACAGCATCGG CACCGACCTC CCCCAACACC CCCTCAACGC CGCCCGTGTC GGCGTCCTCG
GAGTTCAGCG TCTTCTTGGA CATTGATCTC AACAGTTCTT ATGGTAACAA CAGCATCTTC
GCTCCTGTGA ACTTGCCTCC ATCGAAGACT TTCTTCAGCT CCTGGGGAAG CTTTCCTAAA
CTGAGTGATG AACCTCAGAA CCCTCCTCCA CTTCCTCCAC GAAAAAAGAT GGATCAGGAT
GCTTCCAATG CTAAGGGAAA TTCCAAGTCG GATGACGATC CTCCAGCAAT CCCCCCTCGG
CAGCCGCCTC CTCCAAAGAT CCAACCTCGC GTTCCTGCTT ACAGCGGCCC CCTGGAGCAG
CCCCTGCACA GCCCTCCTCC TCCGCCCCCC CGGGACCCCG TCCCCGACAC CCCACCGCCG
GTGCCGCTCC GGCCGCCCGA GCACTTCATC AACTGCCCCC TGAGCCTGCA GCCGCCGCCG
CTGGGACGCT TCCCCCGGGA TCCCGAGTGG CTGCGGGAGG CCGGCTCCGG CCCCAGCTCC
CCGGGCACCC CTCCCAGCAC CCCCTCTCCC CGGGTGCTGC GCCGCTGCTG CGTCCTCAGC
GCCAGCCACA ACAACCTGGC GCAGCCGCCC GTGCCCCCCG TGCCGCCCCG GCACAACTCC
AGCCCCCAGC TACCAAAACT GCCACCAAAG ACTTACAAAA GGGAGCTCTC CCACCCTCCT
TTGCACAGAC TGTCTTTGCT AGAAAATGCA GAAACGCCTC AATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd47826 Clone ID Related Accession (Same CDS sequence) XM_030275300.1 Accession Version XM_030275300.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3996bp)
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 son of sevenless homolog 2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044217.1) 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
3961ATGCAGCCGC CGCCGCAGCC CTACGAGTTC CTGGGCGAGG AGAACGGCCC GAAATGGCGC
GGCCTCTTCG TGCCCGCCCT GCGCAAGGTG CAGCAGCAGG TTCACCCCAA CCTGTCAGCC
AAGGAGGATT CCCTGTTCTA CATTGAGGAG CTGATCCTGC AGCTGCTGCA CAAACTGTGC
ATCGCCCAGC CACGCACGGT GCAGGATGTG GAGGAGCGGG TCCAGAAGAC GTTTCCCCAC
CCCATAGACA AGTGGGCCAT CGCTGATGCT CAGTCGGCCA TCGAGAAACG GAAAAGAAGG
AACCCCCTCC TGCTCCCTGT GGACAAAATC CATCCCTTAC TGAAGGAGGT CCTGGGCTAC
AAGGTGGATT ACCATGTCTC TCTTTATATT GTGGCTGTCT TGGAATATAT CTCAGCTGAC
ATTTTAAAGC TGGCTGGAAA TTATGTTTTC AATATCCGAC ACTTTGAGAT CTCCCAGCAG
GACATTAAAG TATCAATGTG TGCTGATAAG GTTTTGATGG ATATGTTTGA TCAGGACGAG
ATTGGGTTGG TTTCCCTGTG TGAGGACGAG CCCTCCTCTT CTGGGGAGCT CAACTACTAC
GACCTGGTGA GAAATGAGAT TGCAGAAGAA AGGCAATACC TGAGGGAGCT GAACCTGATC
ATCAAAGTAT TTCGGGAAGC TTTTCTGTCC AACAGGAGAC TCTTCACACC TCATGACATT
GATGTGATAT TCAGCAACAT TTCAGACATC CACGAGCTGA CAGTGAAGCT TTTGGGATTG
ATTGAGGACA CTGTGGAAAT GACAGATGAA AGCAGCCCTC ACCCTCTGGC TGGCAGCTGC
TTTGAGGACC TGGCAGAGGA GCAAGCCTTT GATCCATATG AAACCTTGTC CCAGGATATT
CTTTCTCCAC AATTTCATGA GCATTTTAAC AACTTAATGG CCAAACCTGC TGTGGCTCTC
CACTTCCAGT CCACAGCTGA AGGATTTAAG GAGGCTGTCC AGTATGTCCT GCCTCGCCTC
ATGCTGATCC CAGTCTATCA CTGCTTGCAC TACTTTGAGT TGCTGCAGCA ATTGCAGGAG
TGCAGTGAGG ATGAAGAGGA CAGGGAGTGC CTGAAGCAGG CCATCACTGC CCTGCTGAAC
CTGCAGTGCA GCATGGAGCG CATCTACAGC AAGCACTCCC CGCGGCGCCG GCCCGGGGAG
CCGGTCTGTC GCTTCTACCA CCGGCAGATC AGAAGCAAAC ACTTGGCCAT CAAGAAAATG
AACGAAATCC AGAAAAACAT CGACGGCTGG GAAGGCAAAG ACATCGGCCA GTGCTGCAAC
GAGTTCATCA TGGAAGGAGG GCTGACAAAA ATCGGGGCCA AGCACGAGCG CCACATCTTC
CTCTTCGACG GTTTGCTGAT CAGCTGCAAA ACCAACCACG GGCAGTCGCG GCTGCCCGGC
TACAGCAGCG CCGAGTACAG GCTCAAGGAG AAGATCGTCA TGAGGAAGAT GCAGGTGGTG
GACAAGGAGG ACACGGCAGA GTACAGGCAC GCCTTCGAGC TGGTGTCCAA GGACGACAGC
AGCGTCCTGT TCGCCGCCAG GTCGGCCGAG GAGAAGAGCA CGTGGATGGC GGCGCTGATC
TCGCTGCAGT ACCGCAGCAC CCTGGACAGG ATGCTGGACT CGGTGCTGCT GCAGGAGGAG
AACGAGCAGC CCCTGAGGCT GCCCAGCCCC AGCGTGTATC GTTTCGTGGT GGAGGACTCC
GAGGAGAACA TTGTTTTTGA GGACAACTTG CAGAGCAGGA ATGGAATTCC CATCATCAAA
GGGGGCACGG TGGTGAAGCT CATCGAGAGG CTGACCTACC ATATGTATGC AGATCCTAAC
TTTGTTCGGA CTTTCCTGAC CACCTATCGC TCCTTTTGCA AGCCCCAGGA GCTGCTGAGT
TTGCTGATAG AAAGGTTCGA GATCCCTGAG CCTGAGCCCA CGGAGGCAGA CAGGCTGGCC
ATCGAGAAGG GGGAGCAGCC CATCAGCGCC GACCTGAAGC GCTTCCGCAA GGAATACGTG
CAGCCCGTGC AGCTCAGAAT ACTGAATGTT TTCCGGCACT GGGTCGAGCA CCATTTTTAT
GATTTTGAGA GGGATCTGGA GCTGCTGGAG AGGCTGGAGA CCTTCATTTC CAGTGTCAGA
GGAAAATCCA TGAAGAAGTG GGTGGAGTCC ATTGCTAAAA TCATCAAGAG GAAGAAAGCC
CAGGCAGATG GGGTGAGCCA CAACATCACC TTCGAGAGCC CCCCGCCGCC GCTGGAGTGG
CACCTGTGGC GCGTGGGGCA CAGCGAGGCC CTGGAGCTGA TGACGCTGCA CCCCATCGAG
ATCGCCCGGC AGCTCACCCT GCTCGAGTCC GACCTGTACA GGGCTGTGCA GCCTTCTGAA
CTCGTTGGCA GTGTGTGGAC GAAGGAAGAT AAGGAAATCA ACTCCCCAAA TCTCCTGAAA
ATGATTCGTC ACACTACAAA TCTCACTCTG TGGTTTGAAA AGTGCATCGT GGAAACAGAG
AACTTTGAGG AGCGAGTGGC TGTGCTGAGC AGGATCATAG AAATCCTGCA GGTTTTCCAA
GACCTCAATA ATTTCAATGG TGTTCTGGAG ATTGTCAGTG CTGTGAACTC TGTCTCAGTG
TACAGGCTGG ACCACACATT TGAGGCACTC CAGGAAAGGA AAAAGAGAGT TTTGGATGAA
GCAGTAGAAT TAAGCCAAGA TCATTTTAAG AAGTATTTAG CTAAGCTCAA GTCAATCAAC
CCTCCCTGTG TGCCTTTTTT TGGAATATAC CTAACAAATA TCTTGAAGAC AGAAGAAGGG
AATCCTGACT TCCTTAAAAG ACAAGGGAAA GAATTAATTA ACTTCAGTAA GAGGAGAAAA
GTGGCTGAAA TTACAGGAGA AATTCAGCAG TATCAAAACC AGCCCTACTG CTTACGGGTT
GAGCCAGAAA TCCGGAAATT CTTTGAAAAT CTCAATCCCA TGGGGAAGAT ACCAGAAAAA
GAGTTTACAG ATTATCTGTT CAACAAGTCC TTAGAGATTG AACCTCGGAA CTGCAAGCAA
CCACCTCGAT TTCCCAGGAA AACAACGTAT CCCCTGAAAT CCCCCGGGAT CAGGCCCAAC
ACGGGCAGGC ACGGCTCCAC CTCGGGCACG CTGCGGAGCC ACCCCCTGCC CCTGGAAAAG
GAGCCCAGCA AGATCAGCTT CAGCAGGATC ACCGAGGCCG AGCAGGAGAC CACAGCATCG
GCACCGACCT CCCCCAACAC CCCCTCAACG CCGCCCGTGT CGGCGTCCTC GGAGTTCAGC
GTCTTCTTGG ACATTGATCT CAACAGTTCT TATGGTAACA ACAGCATCTT CGCTCCTGTG
AACTTGCCTC CATCGAAGAC TTTCTTCAGC TCCTGGGGGA GCTTTCCTAA ACTGAGTGAT
GAACCTCAGA ACCCTCCTCC ACTTCCTCCA CGAAAAAAGA TGGATCAGGA TGCTTCCAAT
GCTAAGGGAA ATTCCAAGTC GGATGACGAT CCTCCAGCAA TCCCCCCTCG GCAGCCGCCT
CCTCCAAAGA TCCAACCTCG CGTTCCTGCT TACAGCGGCC CCCTGGAGCA GCCCCTGCAC
AGCCCTCCTC CTCCGCCCCC CCGGGACCCC GTCCCCGACA CCCCACCGCC GGTGCCGCTC
CGGCCGCCCG AGCACTTCAT CAACTGCCCC CTGAGCCTGC AGCCGCCGCC GCTGGGACGC
TTCCCCCGGG ATCCCGAGTG GCTGCGGGAG GCCGGCTCCG GCCCCAGCTC CCCGGGCACC
CCTCCCAGCA CCCCCTCTCC CCGGGTGCTG CGCCGCTGCT GCGTCCTCAG CGCCAGCCAC
AACAACCTGG CGCAGCCGCC CGTGCCCCCC GTGCCGCCCC GGCACAACTC CAGCCCCCAG
CTACCAAAAC TGCCACCAAA GACTTACAAA AGGGAGCTCT CCCACCCTCC TTTGCACAGA
CTGTCTTTGC TAGAAAATGC AGAAACGCCT CAATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030131160.1 CDS 62..4057 Translation
Target ORF information:
RefSeq Version XM_030275300.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SOS Ras/Rho guanine nucleotide exchange factor 2 (SOS2), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030275300.1
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
3961ATGCAGCCGC CGCCGCAGCC CTACGAGTTC CTGGGCGAGG AGAACGGCCC GAAATGGCGC
GGCCTCTTCG TGCCCGCCCT GCGCAAGGTG CAGCAGCAGG TTCACCCCAA CCTGTCAGCC
AAGGAGGATT CCCTGTTCTA CATTGAGGAG CTGATCCTGC AGCTGCTGCA CAAACTGTGC
ATCGCCCAGC CACGCACGGT GCAGGATGTG GAGGAGCGGG TCCAGAAGAC GTTTCCCCAC
CCCATAGACA AGTGGGCCAT CGCTGATGCT CAGTCGGCCA TCGAGAAACG GAAAAGAAGG
AACCCCCTCC TGCTCCCTGT GGACAAAATC CATCCCTTAC TGAAGGAGGT CCTGGGCTAC
AAGGTGGATT ACCATGTCTC TCTTTATATT GTGGCTGTCT TGGAATATAT CTCAGCTGAC
ATTTTAAAGC TGGCTGGAAA TTATGTTTTC AATATCCGAC ACTTTGAGAT CTCCCAGCAG
GACATTAAAG TATCAATGTG TGCTGATAAG GTTTTGATGG ATATGTTTGA TCAGGACGAG
ATTGGGTTGG TTTCCCTGTG TGAGGACGAG CCCTCCTCTT CTGGGGAGCT CAACTACTAC
GACCTGGTGA GAAATGAGAT TGCAGAAGAA AGGCAATACC TGAGGGAGCT GAACCTGATC
ATCAAAGTAT TTCGGGAAGC TTTTCTGTCC AACAGGAGAC TCTTCACACC TCATGACATT
GATGTGATAT TCAGCAACAT TTCAGACATC CACGAGCTGA CAGTGAAGCT TTTGGGATTG
ATTGAGGACA CTGTGGAAAT GACAGATGAA AGCAGCCCTC ACCCTCTGGC TGGCAGCTGC
TTTGAGGACC TGGCAGAGGA GCAAGCCTTT GATCCATATG AAACCTTGTC CCAGGATATT
CTTTCTCCAC AATTTCATGA GCATTTTAAC AACTTAATGG CCAAACCTGC TGTGGCTCTC
CACTTCCAGT CCACAGCTGA AGGATTTAAG GAGGCTGTCC AGTATGTCCT GCCTCGCCTC
ATGCTGATCC CAGTCTATCA CTGCTTGCAC TACTTTGAGT TGCTGCAGCA ATTGCAGGAG
TGCAGTGAGG ATGAAGAGGA CAGGGAGTGC CTGAAGCAGG CCATCACTGC CCTGCTGAAC
CTGCAGTGCA GCATGGAGCG CATCTACAGC AAGCACTCCC CGCGGCGCCG GCCCGGGGAG
CCGGTCTGTC GCTTCTACCA CCGGCAGATC AGAAGCAAAC ACTTGGCCAT CAAGAAAATG
AACGAAATCC AGAAAAACAT CGACGGCTGG GAAGGCAAAG ACATCGGCCA GTGCTGCAAC
GAGTTCATCA TGGAAGGAGG GCTGACAAAA ATCGGGGCCA AGCACGAGCG CCACATCTTC
CTCTTCGACG GTTTGCTGAT CAGCTGCAAA ACCAACCACG GGCAGTCGCG GCTGCCCGGC
TACAGCAGCG CCGAGTACAG GCTCAAGGAG AAGATCGTCA TGAGGAAGAT GCAGGTGGTG
GACAAGGAGG ACACGGCAGA GTACAGGCAC GCCTTCGAGC TGGTGTCCAA GGACGACAGC
AGCGTCCTGT TCGCCGCCAG GTCGGCCGAG GAGAAGAGCA CGTGGATGGC GGCGCTGATC
TCGCTGCAGT ACCGCAGCAC CCTGGACAGG ATGCTGGACT CGGTGCTGCT GCAGGAGGAG
AACGAGCAGC CCCTGAGGCT GCCCAGCCCC AGCGTGTATC GTTTCGTGGT GGAGGACTCC
GAGGAGAACA TTGTTTTTGA GGACAACTTG CAGAGCAGGA ATGGAATTCC CATCATCAAA
GGGGGCACGG TGGTGAAGCT CATCGAGAGG CTGACCTACC ATATGTATGC AGATCCTAAC
TTTGTTCGGA CTTTCCTGAC CACCTATCGC TCCTTTTGCA AGCCCCAGGA GCTGCTGAGT
TTGCTGATAG AAAGGTTCGA GATCCCTGAG CCTGAGCCCA CGGAGGCAGA CAGGCTGGCC
ATCGAGAAGG GGGAGCAGCC CATCAGCGCC GACCTGAAGC GCTTCCGCAA GGAATACGTG
CAGCCCGTGC AGCTCAGAAT ACTGAATGTT TTCCGGCACT GGGTCGAGCA CCATTTTTAT
GATTTTGAGA GGGATCTGGA GCTGCTGGAG AGGCTGGAGA CCTTCATTTC CAGTGTCAGA
GGAAAATCCA TGAAGAAGTG GGTGGAGTCC ATTGCTAAAA TCATCAAGAG GAAGAAAGCC
CAGGCAGATG GGGTGAGCCA CAACATCACC TTCGAGAGCC CCCCGCCGCC GCTGGAGTGG
CACCTGTGGC GCGTGGGGCA CAGCGAGGCC CTGGAGCTGA TGACGCTGCA CCCCATCGAG
ATCGCCCGGC AGCTCACCCT GCTCGAGTCC GACCTGTACA GGGCTGTGCA GCCTTCTGAA
CTCGTTGGCA GTGTGTGGAC GAAGGAAGAT AAGGAAATCA ACTCCCCAAA TCTCCTGAAA
ATGATTCGTC ACACTACAAA TCTCACTCTG TGGTTTGAAA AGTGCATCGT GGAAACAGAG
AACTTTGAGG AGCGAGTGGC TGTGCTGAGC AGGATCATAG AAATCCTGCA GGTTTTCCAA
GACCTCAATA ATTTCAATGG TGTTCTGGAG ATTGTCAGTG CTGTGAACTC TGTCTCAGTG
TACAGGCTGG ACCACACATT TGAGGCACTC CAGGAAAGGA AAAAGAGAGT TTTGGATGAA
GCAGTAGAAT TAAGCCAAGA TCATTTTAAG AAGTATTTAG CTAAGCTCAA GTCAATCAAC
CCTCCCTGTG TGCCTTTTTT TGGAATATAC CTAACAAATA TCTTGAAGAC AGAAGAAGGG
AATCCTGACT TCCTTAAAAG ACAAGGGAAA GAATTAATTA ACTTCAGTAA GAGGAGAAAA
GTGGCTGAAA TTACAGGAGA AATTCAGCAG TATCAAAACC AGCCCTACTG CTTACGGGTT
GAGCCAGAAA TCCGGAAATT CTTTGAAAAT CTCAATCCCA TGGGGAAGAT ACCAGAAAAA
GAGTTTACAG ATTATCTGTT CAACAAGTCC TTAGAGATTG AACCTCGGAA CTGCAAGCAA
CCACCTCGAT TTCCCAGGAA AACAACGTAT CCCCTGAAAT CCCCCGGGAT CAGGCCCAAC
ACGGGCAGGC ACGGCTCCAC CTCGGGCACG CTGCGGAGCC ACCCCCTGCC CCTGGAAAAG
GAGCCCAGCA AGATCAGCTT CAGCAGGATC ACCGAGGCCG AGCAGGAGAC CACAGCATCG
GCACCGACCT CCCCCAACAC CCCCTCAACG CCGCCCGTGT CGGCGTCCTC GGAGTTCAGC
GTCTTCTTGG ACATTGATCT CAACAGTTCT TATGGTAACA ACAGCATCTT CGCTCCTGTG
AACTTGCCTC CATCGAAGAC TTTCTTCAGC TCCTGGGGGA GCTTTCCTAA ACTGAGTGAT
GAACCTCAGA ACCCTCCTCC ACTTCCTCCA CGAAAAAAGA TGGATCAGGA TGCTTCCAAT
GCTAAGGGAA ATTCCAAGTC GGATGACGAT CCTCCAGCAA TCCCCCCTCG GCAGCCGCCT
CCTCCAAAGA TCCAACCTCG CGTTCCTGCT TACAGCGGCC CCCTGGAGCA GCCCCTGCAC
AGCCCTCCTC CTCCGCCCCC CCGGGACCCC GTCCCCGACA CCCCACCGCC GGTGCCGCTC
CGGCCGCCCG AGCACTTCAT CAACTGCCCC CTGAGCCTGC AGCCGCCGCC GCTGGGACGC
TTCCCCCGGG ATCCCGAGTG GCTGCGGGAG GCCGGCTCCG GCCCCAGCTC CCCGGGCACC
CCTCCCAGCA CCCCCTCTCC CCGGGTGCTG CGCCGCTGCT GCGTCCTCAG CGCCAGCCAC
AACAACCTGG CGCAGCCGCC CGTGCCCCCC GTGCCGCCCC GGCACAACTC CAGCCCCCAG
CTACCAAAAC TGCCACCAAA GACTTACAAA AGGGAGCTCT CCCACCCTCC TTTGCACAGA
CTGTCTTTGC TAGAAAATGC AGAAACGCCT CAATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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