| Gene Symbol | TTHERM_00467950 |
| Entrez Gene ID | 7830491 |
| Full Name | Sm protein |
| Gene Type | protein-coding |
| Organism | Tetrahymena thermophila SB210 |
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TTHERM_00467950 cDNA ORF clone, Tetrahymena thermophila SB210
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Gene
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Clones
gRNAs
The following TTHERM_00467950 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TTHERM_00467950 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 OTe59815 Clone ID Related Accession (Same CDS sequence) XM_001025090.2 Accession Version XM_001025090.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4326bp)
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 1433692800000 Organism Tetrahymena thermophila SB210 Product Sm protein Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_002476155). On May 1, 2007 this sequence version replaced XM_001025090.1. COMPLETENESS: incomplete on both ends.
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321ATGTTATCTA TGCAAACCTA GACTTAACTT CAAAATAATT CAATAGTTAA AAATAATAAT
AGCAGTGCAT TAAATGATAA ATACTCAGAG CAGGAGTATT CAAACTACAT TGATTCCTCT
GATGTTGTCA TTTAGATCTA TAAAAACTCT TCTGCTGTAG GCTTAGAAAA GTATTTTTTA
AAAATAGAGG AGTGGCTTGA TAGACCTTTG AATTCATAGG AAGAAAATAA ACCATATGTG
ATAGAGGCAG ATGAAGGTGT AGGCAAAAAA ACTCTCCTTG TGAAATGGAT GGAATATCAT
GAAACTAAAA AGAAAAAGAG ATATCCAGAT ATAATTCTTT CACATTTTGC TTCATCGGGA
GGTAACAATG CTAATTACTT CTTTGCAATT TATAGAATCC TCAATAAGCT CCGTGAAGCC
TTAGATATCT AACAAAAAGT TGAATTGTTA GAAGAAAAGC TAAGAAAATA TTTTTCGTAT
TGGCTAAATC ACTGCAGTGA TAAATTAGAG AAGCAACTTA AATATGGAGA AAAGGTTAAT
TACGATAAAG TTATTATAAT CATAGAAGGT ATTGATCAGT TCATAGATTA ATAATATAAC
AAGGAAGCAA ATGTAGCATT TTGGTTACCA AAGTTTTTCC CTGAACATAT TAAATTAATT
GTCACTTGTG ATAAGAGCTC ATAAGCCAAT TCTTATTTTA GAAGTATTGG ATGTGATATT
TTGAAGATTC CTGTTGAAGT TAGCATAGTG CAGAATATGA TAGATAGACA CTCTAAGCGT
CCTTTATTTA TAAATGACAC ACTTAAAGAG AAGCACATAA ATTTCCTGAA ACATTTTGAT
GAAAAGTGCA AAAATTAAAG TTTTTATAAG ATATTTTTAT GCTCTTTGTT ACCTTACCCT
GTAGATGATA TCATCACCTA GCAAGATATT CCTGAAGGAA CTTTTGAGAA AATATTTGAA
AAATTGGATT ATGATAAGTT GGCTGAAGTT AAAGATTTCA ATTAGCTCAT CGAATTTATT
TTAGATTTTT ACTCTAACTC TTTAATGAAT AAAGACAAAT TTATTAAGTT GCTTAGAGTA
TTTACTCTAA CATAAAAAGG TTTGACTATT GAAGAAATTA TGGGAGTTAC CTTGATAACA
GAAGATGAAT GGAAGCTTTT CCTTGCTTGC TTTAAAGTTT TTATATTAAG CTATAAAGGT
ATGTGGATAA TGAATAATGA TGCTCTCAAA AAGGTAATAA ACGAGAAATT CAAATAAGAC
CAAACATAAC TTAGACTGTT GCATTAAGAT ATAGCCTAAA TTTTGGGTAA AATAACACCT
AATTCTATTC GTAAATTAGA GGAACAAACA TACCACTTGT TTATGAGCAA AGATCATTTC
AAGCTAAAAG AAATCATTTC AGCAATAGAA AACTTTTTGT TACTTTTTAA CCCAAATAAC
AAATATGACC TCTGTCGCTA TTGGTAGAAT TTAGAAGAAT AAGGCTTTGA TCCTGTCATT
GAATATAATA AAGCTATCGA AGGATTTGAA ATGCATTATC ATCCTAGCAG TTAAGATGTA
TTCAGAATTA TTGTTTAGAT TTCAAGATTC TTAAAGGAAT TTTCAGATTT CGAAACATAT
TTTACTCCTG AATTTCGTCA CCCACCAGTA AAGGGAACAT ATGAAGAGTT AGATGACATT
GGTTTATTGA GAGAGCTTCT AGGTTTACAA ATTTTTACAC CTACAGAAGC TGAAGAAGGA
GATAAACCTA TTGATCTTGA TAAATTTTAG CGTACTCCTG AAGAAAAGAT TGCTGACAAA
AAGGAAAGAA TGAAACACAA AAATAAAAAA GAATCTACTT TAAAAAAGAA AAGTGATTAA
GATGATCCTT ATGGCGAAAC TTAAAAGTCT TCAAATAACC AACAAATTTA AAAGAAAGAA
AAGAAACCAA AAAAATTTAT GATTCTTTCA AAAATAGAAG CTCTGAATGT TGACATACCT
AGCTCACGTG AATAGTTTAG AAAATTTTAT GAAAACCAAA TTAAAGAAAT AATGAAGTAA
AATAATCAAA ATCACACTGA AGAAAATGAA AACGAAGATG GAGATGAAGA GTCATCTAGT
TCTGGTGATG AAGATTCTGA AAATGTGGAG TTAAAAACAG AAAATTAAAA TGGTGGTATG
CCTAGCTTTA TTGATAAAGA TAAATCAAAG AAAAAGAAGA AATGTCATCC TTAAATTATT
ACTCTAAGTC AGCTCAGAGA GTCTTACTAT CTAAAGGAGA GATTGCCAAC AAATTACTAC
TATAAAAGAT GGCTTTGGGT ATAATTCCCA TGGGCATGCT TATCTTTAAA GTGTGACTAC
TCTGCTAAGC TAAAGGAATG TTTTTCATCT CCTATTGAAT ATATGAGTGT AAAAAAAGAA
AAAGAGTTTA CTAAGTAGGC TTTGAAGATT GCTATTGAGG CGAAATTGAA AAAATAGATG
ATGTATAAAA AGTAAAATAT GAGCGATTCT CAATCTATGA TTAAGCCTAT TGGTGGTGGA
GATTCCATCC TTATCAAGAC TAATGCGAGT TATTAAAATC TTCCTTCATT AAATACAAAT
AGAAAAACTA AATCGCTTCT TAATCAAAGC AACAGTTAAA ATATCAATGT AGGATAGAGC
AGTTTACAAC CTAATGGTAA AGAAGGTACC TAAACTATAG CAATGAAAAG AAATTTAAGA
CATTCAAATG GATAGTCTCC TTTCTACATA ACTGATGAAT ATCTTAATTA AAATACCTTA
AATAGAGAGC TAGAGATTAC TCACGCGAAT ACCACAACTG GAGCTGGAGC TCAAAATATT
AATTTGAATC AATCGTAAAC CTATAATCTC CAAAATACAT CTAAAATTCT TGAAAAAAGT
AGAGTTTTTA AAGATAAAAG CAGATTTTTT GATCCTATTT CTAGCATTTA AGACTCACAA
AATTTATCTA CTATACTCCC AAGACTAAAG TCAAATATAG CAACTCACTC AAACAAGGAA
TTATACTTAC TTGAGTAATA GGCATTAGAT ATGAAAAAGG AACTTGATCA TTTGATCCAC
ACAAATAAAT GTTTAGCTAA AAACTTGAAA GAGCTAAAAG TCCATGAACA TATTTAGCAT
AAATATGGTA CAAATCCTGA GAAAGTAGAT GATGCTCAAA CAAGAATAAT GGACCTTGAA
AAAAATATTT CTGAGACTGA AGAAAACTAT TTGCTTGGAT TAATGCAGAT AGAGAGATTA
AAAAGTATAT TAAAAATTTG TGAAGACAAC AAATAGTAAA ACGAAGATTG GATTAGAAAT
TTAAATATGC TTTTATCAAA CTTCCGTAAA GTAATTAAAC AGGAGCAAGA AGATATTAAA
TCAATTAAGG AAGAATGCAA TTAGCTATAG AAGCTAAACA AAGAGTACGT TATTGTCTTT
TAGGAAAAGA TGGATGCTCA GAAAACTCTT ATCAATTAGA TAAACAAATA AATTAAGAGC
AAAGAAAAAT TTGATTCGAT GTTCGTTAAA ACAGACAATA TGATTGAGTA AAGTGCTATC
GAGTAAGTAG AAAAACTTAA ATCTGATCTC AAAGGATAGG ATAATCGTAA AAAGTAAAAA
GATAAATAGA GTTAACTCGA AAAGAATTCA AAGTAAATAT TAGAATAGCT CGAAAAGGCT
GAAGCATAAT ATTAAAAGTT AAAATAAGTC ATAGATATTT CTGACCCTAA CTACTCAAGC
TCTGAGAAAT TCTAATTCCT ATTAACAGCT AGAGAAAAAA GAGATGACCT TACTGCTATA
GTCCTTTAAA GATAGGATGT TATTTCAAAC TTAAAATAAA GACTTGAAGA TAAGTAAAGC
TACTTAGAAA CTGTGAAAAA AGCTTATTCT TCTGTTGCAA AAGAATAAGA TTCTTAAGGA
CAGAACCAAA ATGGAAATGA ACAAAGTAGT GAAGAAGGAC CTAATCAAGA AGATTTATCT
GAAGAAGATT ACCTTTAAAA AATTGCAAAT TTAGAAAGCC AATACGAAAA TAAGCAGAGA
TAATACAATA AATTACAATA AGTTAGATTG TCTGCTTCAA TGACAATTTC TACTATTTAG
AGAAAATTGC AAATAGAACA AGCAACCGAT GTGCGTGGAA CTATAGATTT CTCAGATGAA
AGTATAATAG CTAATCTTGA TGATAAAATG GTAAAAATCA AAGAATAATT ACCAGCTGAA
GAATATGAAC TATTTGTAAA TGGAAAATAT GATTTTTCTA AAGTTTATCG TAAATTAATT
ACAAACATTG GTATTCCCGA TTATGACGAT GATTAGGCAG ATATCCTCTC TAATAGAGAA
ATTTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001025090.2 CDS 1..4326 Translation 
Target ORF information:
RefSeq Version XM_001025090.2 Organism Tetrahymena thermophila SB210 Definition Tetrahymena thermophila SB210 Sm protein partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_001025090.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321ATGTTATCTA TGCAAACCTA GACTTAACTT CAAAATAATT CAATAGTTAA AAATAATAAT
AGCAGTGCAT TAAATGATAA ATACTCAGAG CAGGAGTATT CAAACTACAT TGATTCCTCT
GATGTTGTCA TTTAGATCTA TAAAAACTCT TCTGCTGTAG GCTTAGAAAA GTATTTTTTA
AAAATAGAGG AGTGGCTTGA TAGACCTTTG AATTCATAGG AAGAAAATAA ACCATATGTG
ATAGAGGCAG ATGAAGGTGT AGGCAAAAAA ACTCTCCTTG TGAAATGGAT GGAATATCAT
GAAACTAAAA AGAAAAAGAG ATATCCAGAT ATAATTCTTT CACATTTTGC TTCATCGGGA
GGTAACAATG CTAATTACTT CTTTGCAATT TATAGAATCC TCAATAAGCT CCGTGAAGCC
TTAGATATCT AACAAAAAGT TGAATTGTTA GAAGAAAAGC TAAGAAAATA TTTTTCGTAT
TGGCTAAATC ACTGCAGTGA TAAATTAGAG AAGCAACTTA AATATGGAGA AAAGGTTAAT
TACGATAAAG TTATTATAAT CATAGAAGGT ATTGATCAGT TCATAGATTA ATAATATAAC
AAGGAAGCAA ATGTAGCATT TTGGTTACCA AAGTTTTTCC CTGAACATAT TAAATTAATT
GTCACTTGTG ATAAGAGCTC ATAAGCCAAT TCTTATTTTA GAAGTATTGG ATGTGATATT
TTGAAGATTC CTGTTGAAGT TAGCATAGTG CAGAATATGA TAGATAGACA CTCTAAGCGT
CCTTTATTTA TAAATGACAC ACTTAAAGAG AAGCACATAA ATTTCCTGAA ACATTTTGAT
GAAAAGTGCA AAAATTAAAG TTTTTATAAG ATATTTTTAT GCTCTTTGTT ACCTTACCCT
GTAGATGATA TCATCACCTA GCAAGATATT CCTGAAGGAA CTTTTGAGAA AATATTTGAA
AAATTGGATT ATGATAAGTT GGCTGAAGTT AAAGATTTCA ATTAGCTCAT CGAATTTATT
TTAGATTTTT ACTCTAACTC TTTAATGAAT AAAGACAAAT TTATTAAGTT GCTTAGAGTA
TTTACTCTAA CATAAAAAGG TTTGACTATT GAAGAAATTA TGGGAGTTAC CTTGATAACA
GAAGATGAAT GGAAGCTTTT CCTTGCTTGC TTTAAAGTTT TTATATTAAG CTATAAAGGT
ATGTGGATAA TGAATAATGA TGCTCTCAAA AAGGTAATAA ACGAGAAATT CAAATAAGAC
CAAACATAAC TTAGACTGTT GCATTAAGAT ATAGCCTAAA TTTTGGGTAA AATAACACCT
AATTCTATTC GTAAATTAGA GGAACAAACA TACCACTTGT TTATGAGCAA AGATCATTTC
AAGCTAAAAG AAATCATTTC AGCAATAGAA AACTTTTTGT TACTTTTTAA CCCAAATAAC
AAATATGACC TCTGTCGCTA TTGGTAGAAT TTAGAAGAAT AAGGCTTTGA TCCTGTCATT
GAATATAATA AAGCTATCGA AGGATTTGAA ATGCATTATC ATCCTAGCAG TTAAGATGTA
TTCAGAATTA TTGTTTAGAT TTCAAGATTC TTAAAGGAAT TTTCAGATTT CGAAACATAT
TTTACTCCTG AATTTCGTCA CCCACCAGTA AAGGGAACAT ATGAAGAGTT AGATGACATT
GGTTTATTGA GAGAGCTTCT AGGTTTACAA ATTTTTACAC CTACAGAAGC TGAAGAAGGA
GATAAACCTA TTGATCTTGA TAAATTTTAG CGTACTCCTG AAGAAAAGAT TGCTGACAAA
AAGGAAAGAA TGAAACACAA AAATAAAAAA GAATCTACTT TAAAAAAGAA AAGTGATTAA
GATGATCCTT ATGGCGAAAC TTAAAAGTCT TCAAATAACC AACAAATTTA AAAGAAAGAA
AAGAAACCAA AAAAATTTAT GATTCTTTCA AAAATAGAAG CTCTGAATGT TGACATACCT
AGCTCACGTG AATAGTTTAG AAAATTTTAT GAAAACCAAA TTAAAGAAAT AATGAAGTAA
AATAATCAAA ATCACACTGA AGAAAATGAA AACGAAGATG GAGATGAAGA GTCATCTAGT
TCTGGTGATG AAGATTCTGA AAATGTGGAG TTAAAAACAG AAAATTAAAA TGGTGGTATG
CCTAGCTTTA TTGATAAAGA TAAATCAAAG AAAAAGAAGA AATGTCATCC TTAAATTATT
ACTCTAAGTC AGCTCAGAGA GTCTTACTAT CTAAAGGAGA GATTGCCAAC AAATTACTAC
TATAAAAGAT GGCTTTGGGT ATAATTCCCA TGGGCATGCT TATCTTTAAA GTGTGACTAC
TCTGCTAAGC TAAAGGAATG TTTTTCATCT CCTATTGAAT ATATGAGTGT AAAAAAAGAA
AAAGAGTTTA CTAAGTAGGC TTTGAAGATT GCTATTGAGG CGAAATTGAA AAAATAGATG
ATGTATAAAA AGTAAAATAT GAGCGATTCT CAATCTATGA TTAAGCCTAT TGGTGGTGGA
GATTCCATCC TTATCAAGAC TAATGCGAGT TATTAAAATC TTCCTTCATT AAATACAAAT
AGAAAAACTA AATCGCTTCT TAATCAAAGC AACAGTTAAA ATATCAATGT AGGATAGAGC
AGTTTACAAC CTAATGGTAA AGAAGGTACC TAAACTATAG CAATGAAAAG AAATTTAAGA
CATTCAAATG GATAGTCTCC TTTCTACATA ACTGATGAAT ATCTTAATTA AAATACCTTA
AATAGAGAGC TAGAGATTAC TCACGCGAAT ACCACAACTG GAGCTGGAGC TCAAAATATT
AATTTGAATC AATCGTAAAC CTATAATCTC CAAAATACAT CTAAAATTCT TGAAAAAAGT
AGAGTTTTTA AAGATAAAAG CAGATTTTTT GATCCTATTT CTAGCATTTA AGACTCACAA
AATTTATCTA CTATACTCCC AAGACTAAAG TCAAATATAG CAACTCACTC AAACAAGGAA
TTATACTTAC TTGAGTAATA GGCATTAGAT ATGAAAAAGG AACTTGATCA TTTGATCCAC
ACAAATAAAT GTTTAGCTAA AAACTTGAAA GAGCTAAAAG TCCATGAACA TATTTAGCAT
AAATATGGTA CAAATCCTGA GAAAGTAGAT GATGCTCAAA CAAGAATAAT GGACCTTGAA
AAAAATATTT CTGAGACTGA AGAAAACTAT TTGCTTGGAT TAATGCAGAT AGAGAGATTA
AAAAGTATAT TAAAAATTTG TGAAGACAAC AAATAGTAAA ACGAAGATTG GATTAGAAAT
TTAAATATGC TTTTATCAAA CTTCCGTAAA GTAATTAAAC AGGAGCAAGA AGATATTAAA
TCAATTAAGG AAGAATGCAA TTAGCTATAG AAGCTAAACA AAGAGTACGT TATTGTCTTT
TAGGAAAAGA TGGATGCTCA GAAAACTCTT ATCAATTAGA TAAACAAATA AATTAAGAGC
AAAGAAAAAT TTGATTCGAT GTTCGTTAAA ACAGACAATA TGATTGAGTA AAGTGCTATC
GAGTAAGTAG AAAAACTTAA ATCTGATCTC AAAGGATAGG ATAATCGTAA AAAGTAAAAA
GATAAATAGA GTTAACTCGA AAAGAATTCA AAGTAAATAT TAGAATAGCT CGAAAAGGCT
GAAGCATAAT ATTAAAAGTT AAAATAAGTC ATAGATATTT CTGACCCTAA CTACTCAAGC
TCTGAGAAAT TCTAATTCCT ATTAACAGCT AGAGAAAAAA GAGATGACCT TACTGCTATA
GTCCTTTAAA GATAGGATGT TATTTCAAAC TTAAAATAAA GACTTGAAGA TAAGTAAAGC
TACTTAGAAA CTGTGAAAAA AGCTTATTCT TCTGTTGCAA AAGAATAAGA TTCTTAAGGA
CAGAACCAAA ATGGAAATGA ACAAAGTAGT GAAGAAGGAC CTAATCAAGA AGATTTATCT
GAAGAAGATT ACCTTTAAAA AATTGCAAAT TTAGAAAGCC AATACGAAAA TAAGCAGAGA
TAATACAATA AATTACAATA AGTTAGATTG TCTGCTTCAA TGACAATTTC TACTATTTAG
AGAAAATTGC AAATAGAACA AGCAACCGAT GTGCGTGGAA CTATAGATTT CTCAGATGAA
AGTATAATAG CTAATCTTGA TGATAAAATG GTAAAAATCA AAGAATAATT ACCAGCTGAA
GAATATGAAC TATTTGTAAA TGGAAAATAT GATTTTTCTA AAGTTTATCG TAAATTAATT
ACAAACATTG GTATTCCCGA TTATGACGAT GATTAGGCAG ATATCCTCTC TAATAGAGAA
ATTTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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