| Gene Symbol | TTHERM_00998950 |
| Entrez Gene ID | 7839630 |
| Full Name | PH domain protein |
| Gene Type | protein-coding |
| Organism | Tetrahymena thermophila SB210 |
- 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
TTHERM_00998950 cDNA ORF clone, Tetrahymena thermophila SB210
-
Gene
-
Clones
gRNAs
The following TTHERM_00998950 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TTHERM_00998950 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 OTe49816 Clone ID Related Accession (Same CDS sequence) XM_001030906.2 Accession Version XM_001030906.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 6273bp)
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 PH domain 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_002476366). On Jun 9, 2015 this sequence version replaced XM_001030906.1. 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
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241ATGAATCCTA TTCCTATTTC AAACTCAAAT TCATTTTTGG GTTTCGTCCC ATCAATGGTA
ATTTAGCATT TGCATGAGAA AAGTATCAAA AAAGATAAAA TTAATTTGCC AGAAAAGTAA
TCACTAAAAT CTGTTGTTAT GTTTGCTGAT ATTAGTGGAT TTACAAATCT AACAGAAACT
TTAAGTAAAA GAGGTCCAGA AGGCGCTGAA ATTATTGCTT TTGCCATTAA TCGTTATATG
GAATTGATGG TCAAAGAAAT AGGGCGGTCT GGAGGTGATA TTTTTAAATT TGCAGGTGAT
GCAATGATTG TTGTTTGGCC TCCACCCAAG CATGAAAACC AGCTATAAAA TACCTGCCGT
TAAGCTGTTT AGGCGGCACT TTCAATTTAA TCCAAATTAG ATAATATGAA TATCACTGAT
GGTGTTAAAT TATCAGTTAA AATTGGTTTT GGTGTAGGAG ATTTTTCAAT TATATACGTT
GGTGGTATTT TTGGCAGAGC CGAATATCTT CCAGCAGGAG ATCCACTTAC CTAAGCTTTC
AGCGCAGAGC ACGAAGCTGA ATCAGGTGGT GTTATTAACT GTTCTCAGTA GATCTACGAC
TTAATTTAAA ATCATTTTGA ATGCAAAGTA AAGAATGCTG ACCACAAGAT ATATTAAGTT
TTGAAAGTTA AAGAAAAAGT TATGGTCAAA GCTGATGCGA TGATGATTAA AGATAAAATG
AGAGCTTCAG ATATAGAAAA AATTAAGTCA GGAGTATTAT AATATGTACC ACGTTCTCTC
TAAGCTTACA TTTAATACGA ATAAGAATAA TGGAGTTCAG AATTGAGAGT AGTTACAATT
ATGTTTATGA ATATAGGTAT TGATTTATCT GATTGCGCTG ATGAAGAAGG TTTAAACAAA
ATTTAAAAGG TTATACAAAT TATCCAAAAG TGTGTATACA TGTATGAAGG TTCTTTAAAT
AAATTTTTGA TGGATGACAA AGGTTCTACT TTAATTGTTG TCTTTGGTTT ACCTCCTATT
ACACATTAAG ATGATGCTGT AAGAGCAGTA CTCTGTTCTT ATGCAATCAA AAACTAGCTA
AGAAAATAAA GTTGTAAATG CAGTATTGGA ATTGGTACAG GTTTAGTTTT TGCTGGTGTT
GTTGGTACTA GTGGTAACAG AAGAGAGTAT TCAGTTATTG GTGATAGTGT TAATTTATCA
GCTCGTATTA TGTAAAAAGC ATGCGAATAA TAAGATGAAA ATTTCAAAAT ATTGTGCTCA
GAAGCAACAA TGAAACAAGC TCAAAATAAA ATATCATTTA AATTTAAAGA TTCATATAAA
TTTAAGGGAA AATCTGTCTA TCTTCCAATT TACTACCCTC TTGATTTAAA TGACAAGTAA
CTAAGTGAGT TAGATAGAGA AAATAGATTC CCTTCTCTAA GAACTCATCT ATTTGCTTTC
CCGATGGATC CTGAAGAAAA AAAGCTCAAA AAAAAATTTT TTAATTTTAT GCACGGGAAG
AGTAGAGCAG AGTAACTTTA TGAAGCAAAG CATCAAGTGC AAAAATTTTT AGAATACTGT
GAATTGACAA CTGGCAATCA AATTCTAAAA GGTTGTCTCA TCATTCAAGG AGACATGGGT
ATGGGAAAGA GTCTCTTTTT AAGAAATTTG ATTTACGAAA CTCAGGCACA TATCGATAAA
AGTAGTAAAA AAATATAATA TGAATATAAT GAAAGACCTA GAATAATAGT TTCCAATCTT
GATCCTTCAA ATAAATTCAA AAAGATGAAT ATCATGCGTT CAGTTCTTAA AGAAATAATT
TCAATTATAG AATAAAGAGT ATATGAACAA AGTCAGCTCT AACAGTTATT TGGTGAAAAA
AAATATAATC AAATATTCAA AAAAGATAAA GATGGAGACT CTAAAAATAG ATAAGTTCTT
GATGACAGAA AGTATTTCAA AATAGCTAAT TTTATAGATA AAGGAATATT TCAATCGGAC
AGTATCAGAA TAGGCGATAA CTCAAATAAA GATTATTAAA AAAGAATATA AGATTTTAAA
GAAATTTGTG GTTTAACTGA ATATAACTAT GTAGAAAATT TCCCACCTCC CTTCAATACT
TTGAAAGAAA AAGAATTCAA AGAAAGACAC AAAGAAGAAA AGAAATAACT TTCAAAATTA
GCCCTTGAAA TCTTTTCAAT TTACTTTTGT CAAACTTTAT AAAAAGGCTC TAGAAAAGAC
TCTACTACTT CTATTGGTAG TCAAGAAAGT AACAATGACT CACAAAGAAG ATATAGAGAA
AAAATAGCTC CTCTTGTTTT ATGTCTTGAA GATCTCCAAT ATGCTGATCC TTACTCTTTC
AAATTGTTAA AAGACATTCT TAAAAAATTT GATAGAGTCT TTATTATCGG AGCCATGAGA
AATGCTTCTA TAGAAAAACC TAGTTTCCCA ACTCCCTTCC TTCCACCTTA GGAGGTATAA
AATTAGAATT TCATAATGTA AGTTAAAGAA ACTTTATATG ATGCAGAGCA CAGAAACATG
GATAACGATT CATTCAACTC TGATATTGAT AAATAAACAG ATTTGTGCAA AATAATTGAA
ATCAATGGGT TACCTATGGA TGAAATAAAA TAGATAATAA AGGAAGTTTA TAATTTAGAG
AAACTAAGTT ATATACAAAA AAAAGTCTAA TAAATAGAAA CTTAAGGAAA TAATAATTAA
AATATATAAA ATGGAAATGG ACACCAAGAA CAGCATATTG TGAATTAAAT GCAGAATAAT
TAGTATAATA AAAAATTAGA ATAAGAAATT AAACTGAAAG AGAAGATAAC TGAATACGAA
AAAGATAATT TTAGCTATCT TTTCTTTTCT AAAATTAAAA ATGAACTTGC ATATTTCCCT
GACCATCTTT TTCACAATTT TTTGTACTTG AAAACATCAG GAAATCCTTT AACTGCTTTA
CATTTGATAG ATAACTTACT TAAATAGAAG CTTCTTATCA TTAAAGACTT TAACTTTAAA
CCAAATACCC CAGAAATCGA GGATGAGCTA AATAACATTT ATAATTATGA TGAATTAGAA
CCTAAAACTG GATATATCAC TCCTCATCTT AAAAAAGCAA TTTTGCTCGA AGATTTGGTA
ACTATCGATG TTCCTTTATG TAAATACAAT GTGAATACTC CAATACAGGA TAAACTAGGA
TGCTTGGATT TGCTTATTTT AAAAATAGCA AGTGTGATTG GAGATATTTT TGATTTGTAA
ACTCTGATCA AAGTGCACCC ATTTGGAAAT GTATTAAAAA CAGATAAATT AGTTGAAGCT
CTAAATGCTT TAACTGATTA AAATATTTTA GAAGTCATAG ACTAAAATGA GAACAACGTC
ATTTATAGAT TCTGTCATTC ATTTGTAAGG GAAACTCTCT ATTAGCGATT GATTTATACA
TAAAGGAGAT AAATTCATTT GATTGTTGCA GAAACTTTCT AAAATACCTT GTCTCTTCCA
TACAACGAAG AAGAAGACAT TGAAAAACTT AAATATTAAT GGCTACTTGG AGAAAATTCT
AAAGACATAT CTATTGATAA TCTACCTCAT AAGGCTAAAA GATCTATTAT TGTTAAAAAG
ATTTAATCTC AACTCACGGC ATCTGCAAGT AGCGCTAATA CCATGATTAA AGAGGATTAT
TTATATAAGA AATCAGACTT CAGTAAATAT AGCTGGGCGG AGCGTTTTGT ATTGATGAGC
ACAAAGGATA TTAGGTATTA CTATAATAGA GAGGATTCTA AAGAAAAACC AGAAGAATAT
TTAGGAGCTA TTCCTCTAAG ATTTATTTAT GAAGTTAATA TGCTTGATCC TAAATAATAT
GGTAGATCAG ATTATCCTTT TATCATTAAA GCAAGTAATT GGTATAAAAA AACTAAATAA
TGTTCAAAGA GAGATTTCTT CTTCACATGT AAAACTTAAG AATAATATGA AGAATGGTAC
ATTTATTTGA ATATTGCTAA AACGAAAGCC CTTTAAGATG AATTCCATAG AGAGTATGGT
AAAGTAAACA TCTTAAAAGG AGGTTTGGAT ATTGATGTAA CAATCAAAAA TTTAATTGAA
TAAAAAAAGT CTCAGATTTC TACCAAAATA GATGCTGCTA AAAGATAAAG AAGAAATACA
TACCTTTCAG GCAGCAGTCC TAGCAACAAG AAATACAAAG ACAAACCAAA AGATATCGAC
AACACTGAGG AGTAAAACCA AAATCAGTAA AAAATATAAG AAAGTTTAAA GCAAATGCTG
GAAATTTTCA TAAAAAGAGG GATGATTCTC TTTTTTAGTC AGCTATTTGC CTAGTCCTAC
CATACTTAGG ATGGTATCAG AACTTTTGGG GAAACCACCA AAGCTTTTAG GACAATACCT
TTTGAACCAA TTTAATTGTA ACATAGCAAC TACAGGTCCT AAAATAGTAT TTCACATAAA
GCTTCTGTTG ATTATGAAGA TTCAGATGGA CTTTCAAAGG GAAATAGCCC AATATCTTCA
ATTAATCCTG CTTTTGCTAT GATAAATAAA AATGTAATTT TAGATGACTA AGGAAACAAA
AAGAGAGTAA CTATTTTAGT AAATTCAGAT AATAATTCGC CTTCTCATAG ACCTAAAAAT
GAACCACGTA AATCTATTCT CATGAAGAGT AGTGGAGTTT CTACTATATT TGGGCTAAAC
GAAAGCTAAG GCTATCAAAG CTAAACACCC TCCGAAACTA ATATTCCTGT AAATGGCTCT
AAAAACTACA ATTTAGAACA GGATAATACT CCAAGTAAAA TAGTACTGAG CAAAGTAGCA
TGTGATAATG AAGAAAATTC TTCAGCTACT ATTCAAAATG CTAATAATAA TATGCCAGGT
GGAATCAGTT CAACTTCCAA AAATCATAAT TATGATAATT CTGAAAATAG GTCCCCTTCC
AAGCCACCCT TGCAATAATC AAAGTAACCA GCCCTACCTC CTTAGTTGAA GCAATAAATT
CAAGCAATAT CTTAAAGACC TTAGTATGTG GAAAATTCAT ATGAAGAAGA AAATTAATAA
AAATATTTTC AAAATGGTTC TTAAAATAGT ATGAAGAGAC CACTTTTATA ATCGTCTTCA
CCACCGTTAA AATATAATGA AAATGAACTA ACATAACCTA AACTGCTAGT GAATGATAAA
GTAGAAGAGT TTGATGGTGT TGGAGGACTC TAATTTAAAA ATAGATAAGA AAATTAATCA
CCAGAGCAAA GTCCTCCTTC AAGTTATAGA AGGAGTGTAT CACCTAATAA TTTACCAAAC
AATAGCAGAT TTAATGTTAA TGCTAAAATC ACAAATAATG TAGTTGATAT GAAGAGATCA
AGCACTCAGA GCACTTTGAA TCCCATGTTG AATGCTCAAA CAAACAACAC AAATAGCTTT
TACAATACAA ATAATCAAAG CTATCTATTG AGCATGAACT CTTCGCCATC AATTAATCCT
TAATCTAACT CTATGATAAA TTAAAATAGT TTCAACTTGT ATAATGACAA AAGTTAAAAC
TAAAATATCA ATGACTTTTC TAGAAATTAA TTTGATGACA CTATTTAAAG CACTTATAAA
TAGAATCACT TTAATAATTC GCAAATTAGG CATCCATCAT CTTTGAATTA AATCGGAAAT
TAATTTATAA GCTCTAAGCA AAGCGAATAG TTCTATGAAG AGGAATAAAG CAGAATCAGA
GTTCTGTCAG GAAATTAAAA TATTTAATCT GACTTCCAAA AAAAGATGAA TAACAACAAC
TCATCTAGAA TCAGCAAAAT TTCATAATAA AACGACATGG TTCCCATATC CAAAATCAAT
AACATCTATG GAGACAAAAC TTACCTAGCA AAAGCTCTGA AGGTCTAAAA TCCTATTAAG
GGTGATCTAA AATTAGAAGA GGGGAGTATG TATGAAGTTA AAATAAGCAA AAATTTGAAT
TAAGAATATG TTTAAATAGT TGCTAATAAT AAATCAGGTA TATTCAAGAA GGAGATATTC
AAATTTATCA ATAATCCTGA ATTGAATACC TATTAATTTA GTGCTAGTAA GTATACTCCT
AGCTAAAGTA TGGGATACGA TTATCCTTAA TAAAGACAAG TAGATAATAT ACCACTCACC
AATTCTTTGA ATATGGACAG CTAAAATTTA TCTAGTTATT AATAAATGGA TTATTCTAAA
TAAATTCCTC TCTCAAATGT CACTCCAATA TCCATGTACC AAAGATCATT TTAAAGAAAC
ATCTAAAAAA ATAATTAAAG CCAATACTTT TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001030906.2 CDS 1..6273 Translation 
Target ORF information:
RefSeq Version XM_001030906.2 Organism Tetrahymena thermophila SB210 Definition Tetrahymena thermophila SB210 PH domain protein partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_001030906.2
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
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241ATGAATCCTA TTCCTATTTC AAACTCAAAT TCATTTTTGG GTTTCGTCCC ATCAATGGTA
ATTTAGCATT TGCATGAGAA AAGTATCAAA AAAGATAAAA TTAATTTGCC AGAAAAGTAA
TCACTAAAAT CTGTTGTTAT GTTTGCTGAT ATTAGTGGAT TTACAAATCT AACAGAAACT
TTAAGTAAAA GAGGTCCAGA AGGCGCTGAA ATTATTGCTT TTGCCATTAA TCGTTATATG
GAATTGATGG TCAAAGAAAT AGGGCGGTCT GGAGGTGATA TTTTTAAATT TGCAGGTGAT
GCAATGATTG TTGTTTGGCC TCCACCCAAG CATGAAAACC AGCTATAAAA TACCTGCCGT
TAAGCTGTTT AGGCGGCACT TTCAATTTAA TCCAAATTAG ATAATATGAA TATCACTGAT
GGTGTTAAAT TATCAGTTAA AATTGGTTTT GGTGTAGGAG ATTTTTCAAT TATATACGTT
GGTGGTATTT TTGGCAGAGC CGAATATCTT CCAGCAGGAG ATCCACTTAC CTAAGCTTTC
AGCGCAGAGC ACGAAGCTGA ATCAGGTGGT GTTATTAACT GTTCTCAGTA GATCTACGAC
TTAATTTAAA ATCATTTTGA ATGCAAAGTA AAGAATGCTG ACCACAAGAT ATATTAAGTT
TTGAAAGTTA AAGAAAAAGT TATGGTCAAA GCTGATGCGA TGATGATTAA AGATAAAATG
AGAGCTTCAG ATATAGAAAA AATTAAGTCA GGAGTATTAT AATATGTACC ACGTTCTCTC
TAAGCTTACA TTTAATACGA ATAAGAATAA TGGAGTTCAG AATTGAGAGT AGTTACAATT
ATGTTTATGA ATATAGGTAT TGATTTATCT GATTGCGCTG ATGAAGAAGG TTTAAACAAA
ATTTAAAAGG TTATACAAAT TATCCAAAAG TGTGTATACA TGTATGAAGG TTCTTTAAAT
AAATTTTTGA TGGATGACAA AGGTTCTACT TTAATTGTTG TCTTTGGTTT ACCTCCTATT
ACACATTAAG ATGATGCTGT AAGAGCAGTA CTCTGTTCTT ATGCAATCAA AAACTAGCTA
AGAAAATAAA GTTGTAAATG CAGTATTGGA ATTGGTACAG GTTTAGTTTT TGCTGGTGTT
GTTGGTACTA GTGGTAACAG AAGAGAGTAT TCAGTTATTG GTGATAGTGT TAATTTATCA
GCTCGTATTA TGTAAAAAGC ATGCGAATAA TAAGATGAAA ATTTCAAAAT ATTGTGCTCA
GAAGCAACAA TGAAACAAGC TCAAAATAAA ATATCATTTA AATTTAAAGA TTCATATAAA
TTTAAGGGAA AATCTGTCTA TCTTCCAATT TACTACCCTC TTGATTTAAA TGACAAGTAA
CTAAGTGAGT TAGATAGAGA AAATAGATTC CCTTCTCTAA GAACTCATCT ATTTGCTTTC
CCGATGGATC CTGAAGAAAA AAAGCTCAAA AAAAAATTTT TTAATTTTAT GCACGGGAAG
AGTAGAGCAG AGTAACTTTA TGAAGCAAAG CATCAAGTGC AAAAATTTTT AGAATACTGT
GAATTGACAA CTGGCAATCA AATTCTAAAA GGTTGTCTCA TCATTCAAGG AGACATGGGT
ATGGGAAAGA GTCTCTTTTT AAGAAATTTG ATTTACGAAA CTCAGGCACA TATCGATAAA
AGTAGTAAAA AAATATAATA TGAATATAAT GAAAGACCTA GAATAATAGT TTCCAATCTT
GATCCTTCAA ATAAATTCAA AAAGATGAAT ATCATGCGTT CAGTTCTTAA AGAAATAATT
TCAATTATAG AATAAAGAGT ATATGAACAA AGTCAGCTCT AACAGTTATT TGGTGAAAAA
AAATATAATC AAATATTCAA AAAAGATAAA GATGGAGACT CTAAAAATAG ATAAGTTCTT
GATGACAGAA AGTATTTCAA AATAGCTAAT TTTATAGATA AAGGAATATT TCAATCGGAC
AGTATCAGAA TAGGCGATAA CTCAAATAAA GATTATTAAA AAAGAATATA AGATTTTAAA
GAAATTTGTG GTTTAACTGA ATATAACTAT GTAGAAAATT TCCCACCTCC CTTCAATACT
TTGAAAGAAA AAGAATTCAA AGAAAGACAC AAAGAAGAAA AGAAATAACT TTCAAAATTA
GCCCTTGAAA TCTTTTCAAT TTACTTTTGT CAAACTTTAT AAAAAGGCTC TAGAAAAGAC
TCTACTACTT CTATTGGTAG TCAAGAAAGT AACAATGACT CACAAAGAAG ATATAGAGAA
AAAATAGCTC CTCTTGTTTT ATGTCTTGAA GATCTCCAAT ATGCTGATCC TTACTCTTTC
AAATTGTTAA AAGACATTCT TAAAAAATTT GATAGAGTCT TTATTATCGG AGCCATGAGA
AATGCTTCTA TAGAAAAACC TAGTTTCCCA ACTCCCTTCC TTCCACCTTA GGAGGTATAA
AATTAGAATT TCATAATGTA AGTTAAAGAA ACTTTATATG ATGCAGAGCA CAGAAACATG
GATAACGATT CATTCAACTC TGATATTGAT AAATAAACAG ATTTGTGCAA AATAATTGAA
ATCAATGGGT TACCTATGGA TGAAATAAAA TAGATAATAA AGGAAGTTTA TAATTTAGAG
AAACTAAGTT ATATACAAAA AAAAGTCTAA TAAATAGAAA CTTAAGGAAA TAATAATTAA
AATATATAAA ATGGAAATGG ACACCAAGAA CAGCATATTG TGAATTAAAT GCAGAATAAT
TAGTATAATA AAAAATTAGA ATAAGAAATT AAACTGAAAG AGAAGATAAC TGAATACGAA
AAAGATAATT TTAGCTATCT TTTCTTTTCT AAAATTAAAA ATGAACTTGC ATATTTCCCT
GACCATCTTT TTCACAATTT TTTGTACTTG AAAACATCAG GAAATCCTTT AACTGCTTTA
CATTTGATAG ATAACTTACT TAAATAGAAG CTTCTTATCA TTAAAGACTT TAACTTTAAA
CCAAATACCC CAGAAATCGA GGATGAGCTA AATAACATTT ATAATTATGA TGAATTAGAA
CCTAAAACTG GATATATCAC TCCTCATCTT AAAAAAGCAA TTTTGCTCGA AGATTTGGTA
ACTATCGATG TTCCTTTATG TAAATACAAT GTGAATACTC CAATACAGGA TAAACTAGGA
TGCTTGGATT TGCTTATTTT AAAAATAGCA AGTGTGATTG GAGATATTTT TGATTTGTAA
ACTCTGATCA AAGTGCACCC ATTTGGAAAT GTATTAAAAA CAGATAAATT AGTTGAAGCT
CTAAATGCTT TAACTGATTA AAATATTTTA GAAGTCATAG ACTAAAATGA GAACAACGTC
ATTTATAGAT TCTGTCATTC ATTTGTAAGG GAAACTCTCT ATTAGCGATT GATTTATACA
TAAAGGAGAT AAATTCATTT GATTGTTGCA GAAACTTTCT AAAATACCTT GTCTCTTCCA
TACAACGAAG AAGAAGACAT TGAAAAACTT AAATATTAAT GGCTACTTGG AGAAAATTCT
AAAGACATAT CTATTGATAA TCTACCTCAT AAGGCTAAAA GATCTATTAT TGTTAAAAAG
ATTTAATCTC AACTCACGGC ATCTGCAAGT AGCGCTAATA CCATGATTAA AGAGGATTAT
TTATATAAGA AATCAGACTT CAGTAAATAT AGCTGGGCGG AGCGTTTTGT ATTGATGAGC
ACAAAGGATA TTAGGTATTA CTATAATAGA GAGGATTCTA AAGAAAAACC AGAAGAATAT
TTAGGAGCTA TTCCTCTAAG ATTTATTTAT GAAGTTAATA TGCTTGATCC TAAATAATAT
GGTAGATCAG ATTATCCTTT TATCATTAAA GCAAGTAATT GGTATAAAAA AACTAAATAA
TGTTCAAAGA GAGATTTCTT CTTCACATGT AAAACTTAAG AATAATATGA AGAATGGTAC
ATTTATTTGA ATATTGCTAA AACGAAAGCC CTTTAAGATG AATTCCATAG AGAGTATGGT
AAAGTAAACA TCTTAAAAGG AGGTTTGGAT ATTGATGTAA CAATCAAAAA TTTAATTGAA
TAAAAAAAGT CTCAGATTTC TACCAAAATA GATGCTGCTA AAAGATAAAG AAGAAATACA
TACCTTTCAG GCAGCAGTCC TAGCAACAAG AAATACAAAG ACAAACCAAA AGATATCGAC
AACACTGAGG AGTAAAACCA AAATCAGTAA AAAATATAAG AAAGTTTAAA GCAAATGCTG
GAAATTTTCA TAAAAAGAGG GATGATTCTC TTTTTTAGTC AGCTATTTGC CTAGTCCTAC
CATACTTAGG ATGGTATCAG AACTTTTGGG GAAACCACCA AAGCTTTTAG GACAATACCT
TTTGAACCAA TTTAATTGTA ACATAGCAAC TACAGGTCCT AAAATAGTAT TTCACATAAA
GCTTCTGTTG ATTATGAAGA TTCAGATGGA CTTTCAAAGG GAAATAGCCC AATATCTTCA
ATTAATCCTG CTTTTGCTAT GATAAATAAA AATGTAATTT TAGATGACTA AGGAAACAAA
AAGAGAGTAA CTATTTTAGT AAATTCAGAT AATAATTCGC CTTCTCATAG ACCTAAAAAT
GAACCACGTA AATCTATTCT CATGAAGAGT AGTGGAGTTT CTACTATATT TGGGCTAAAC
GAAAGCTAAG GCTATCAAAG CTAAACACCC TCCGAAACTA ATATTCCTGT AAATGGCTCT
AAAAACTACA ATTTAGAACA GGATAATACT CCAAGTAAAA TAGTACTGAG CAAAGTAGCA
TGTGATAATG AAGAAAATTC TTCAGCTACT ATTCAAAATG CTAATAATAA TATGCCAGGT
GGAATCAGTT CAACTTCCAA AAATCATAAT TATGATAATT CTGAAAATAG GTCCCCTTCC
AAGCCACCCT TGCAATAATC AAAGTAACCA GCCCTACCTC CTTAGTTGAA GCAATAAATT
CAAGCAATAT CTTAAAGACC TTAGTATGTG GAAAATTCAT ATGAAGAAGA AAATTAATAA
AAATATTTTC AAAATGGTTC TTAAAATAGT ATGAAGAGAC CACTTTTATA ATCGTCTTCA
CCACCGTTAA AATATAATGA AAATGAACTA ACATAACCTA AACTGCTAGT GAATGATAAA
GTAGAAGAGT TTGATGGTGT TGGAGGACTC TAATTTAAAA ATAGATAAGA AAATTAATCA
CCAGAGCAAA GTCCTCCTTC AAGTTATAGA AGGAGTGTAT CACCTAATAA TTTACCAAAC
AATAGCAGAT TTAATGTTAA TGCTAAAATC ACAAATAATG TAGTTGATAT GAAGAGATCA
AGCACTCAGA GCACTTTGAA TCCCATGTTG AATGCTCAAA CAAACAACAC AAATAGCTTT
TACAATACAA ATAATCAAAG CTATCTATTG AGCATGAACT CTTCGCCATC AATTAATCCT
TAATCTAACT CTATGATAAA TTAAAATAGT TTCAACTTGT ATAATGACAA AAGTTAAAAC
TAAAATATCA ATGACTTTTC TAGAAATTAA TTTGATGACA CTATTTAAAG CACTTATAAA
TAGAATCACT TTAATAATTC GCAAATTAGG CATCCATCAT CTTTGAATTA AATCGGAAAT
TAATTTATAA GCTCTAAGCA AAGCGAATAG TTCTATGAAG AGGAATAAAG CAGAATCAGA
GTTCTGTCAG GAAATTAAAA TATTTAATCT GACTTCCAAA AAAAGATGAA TAACAACAAC
TCATCTAGAA TCAGCAAAAT TTCATAATAA AACGACATGG TTCCCATATC CAAAATCAAT
AACATCTATG GAGACAAAAC TTACCTAGCA AAAGCTCTGA AGGTCTAAAA TCCTATTAAG
GGTGATCTAA AATTAGAAGA GGGGAGTATG TATGAAGTTA AAATAAGCAA AAATTTGAAT
TAAGAATATG TTTAAATAGT TGCTAATAAT AAATCAGGTA TATTCAAGAA GGAGATATTC
AAATTTATCA ATAATCCTGA ATTGAATACC TATTAATTTA GTGCTAGTAA GTATACTCCT
AGCTAAAGTA TGGGATACGA TTATCCTTAA TAAAGACAAG TAGATAATAT ACCACTCACC
AATTCTTTGA ATATGGACAG CTAAAATTTA TCTAGTTATT AATAAATGGA TTATTCTAAA
TAAATTCCTC TCTCAAATGT CACTCCAATA TCCATGTACC AAAGATCATT TTAAAGAAAC
ATCTAAAAAA ATAATTAAAG CCAATACTTT TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
PubMed
-
-
Most Popular Services
-
Services & Products
- Endotoxin Removal
- Hormones
- High-Precision DNA Mutant Library Services
- Signalling by NGF
- Alzheimer’s Disease Pathway Targets
- p38 MAPK Signaling Pathway (Downstream)
- UTY (Ubiquitously transcribed tetratricopeptide repeat containing, Y-linked) gene, Homo sapiens
- Hybridoma Cell Culture Antibody Production Services
-
News & Blogs
- Uncovering Nucleic Acid Payload and Size of Lipid Nanoparticles via a Single Nanoparticle Analyzer
- New Study Shows That Alcohol Helps Foreign Language Skills
- Scientists Successfully Turned Skin Cells into Stem Cells Using CRISPR Genome Editing
- Antibody-drug Conjugate, a Potential Trojan Horse to Fight Cancer
- Controlling Endotoxin Contamination in Bioprocessing
- The cause of heart disease is linked to a specific type of foreign lipid
- GenScript’s Codon Optimization faciliates new finding in base editor
- Enabling Non-Viral T Cell Engineering with ssDNA HDR Templates
-
-
-
PubMed
-
