mRNA and Protein(s)
mRNA |
Protein |
Name |
NM_128972.2 |
NP_180968.2 |
Transcription elongation factor Spt5 |
NM_001336495.1 |
NP_001324132.1 |
Transcription elongation factor Spt5 |
Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP005021 |
XP_001231045.2 |
Caenorhabditis elegans (roundworm) |
spt-5 |
NP_502283.1 |
Xenopus tropicalis (tropical clawed frog) |
supt5h |
NP_001123796.1 |
Canis lupus familiaris (dog) |
SUPT5H |
XP_005616644.1 |
Mus musculus (house mouse) |
Supt5 |
NP_038704.1 |
Gallus gallus (chicken) |
SUPT5H |
NP_001026555.1 |
Neurospora crassa |
NCU06929 |
XP_959276.2 |
|
SUPT5H |
XP_001088495.1 |
Bos taurus (cattle) |
SUPT5H |
NP_001076908.2 |
Rattus norvegicus (Norway rat) |
Supt5h |
NP_001100967.2 |
Schizosaccharomyces pombe (fission yeast) |
spt5 |
NP_593191.1 |
Arabidopsis thaliana (thale cress) |
AT2G34210 |
NP_180968.2 |
Oryza sativa (rice) |
Os02g0772000 |
NP_001173159.1 |
Saccharomyces cerevisiae (baker's yeast) |
SPT5 |
NP_013703.1 |
Eremothecium gossypii |
AGOS_ADR187W |
NP_984283.2 |
Homo sapiens (human) |
SUPT5H |
NP_001104490.1 |
Pan troglodytes (chimpanzee) |
SUPT5H |
XP_512652.3 |
Danio rerio (zebrafish) |
supt5h |
NP_571748.2 |
Drosophila melanogaster (fruit fly) |
Spt5 |
NP_652610.1 |
Kluyveromyces lactis |
KLLA0B00891g |
XP_451570.1 |
Magnaporthe oryzae (rice blast fungus) |
MGG_12268 |
XP_003715018.1 |
Arabidopsis thaliana (thale cress) |
GTA2 |
NP_192575.3 |
Related articles in PubMed
Sequence and analysis of chromosome 2 of the plant Arabidopsis thaliana.
Lin X, Kaul S, Rounsley S, Shea TP, Benito MI, Town CD, Fujii CY, Mason T, Bowman CL, Barnstead M, Feldblyum TV, Buell CR, Ketchum KA, Lee J, Ronning CM, Koo HL, Moffat KS, Cronin LA, Shen M, Pai G, Van Aken S, Umayam L, Tallon LJ, Gill JE, Adams MD, Carrera AJ, Creasy TH, Goodman HM, Somerville CR, Copenhaver GP, Preuss D, Nierman WC, White O, Eisen JA, Salzberg SL, Fraser CM, Venter JC
Nature402(6763)761-8(1999 Dec)
GeneRIFs: Gene References Into Functions What's a GeneRIF?
The following AT2G34210 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AT2G34210 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.
CloneID |
OAb08718 |
Clone ID Related Accession (Same CDS sequence) |
NM_128972.2
|
Accession Version |
NM_128972.2 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 2970bp)
Protein sequence
SNP |
Vector |
pcDNA3.1+/C-(K)DYK or customized vector |
User Manual |
Clone information |
Clone Map |
MSDS |
Tag on pcDNA3.1+/C-(K)DYK |
C terminal DYKDDDDK tags |
ORF Insert Method |
CloneEZ™ Seamless cloning technology |
Insert Structure |
linear |
Update Date |
2019-02-13 |
Organism |
Arabidopsis thaliana(thale cress) |
Product |
Transcription elongation factor Spt5 |
Comment |
Comment: REVIEWED REFSEQ: This record has been curated by TAIR and Araport. This record is derived from an annotated genomic sequence (NC_003071). On Apr 24, 2008 this sequence version replaced NM_128972.1. 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
| ATGTCTCAGT ACTCAGACGA CGATTATTCA CATGAAGATG ACTCGGAGAT GGAGGATGAG GACGAAGAAG ACGAATATGA ACCCAGAAGT AGCCGCAAAG GAAGATCAGG GAAGAAAAGG GGAAGATCAA ATTCAGATTC CGATGGTCGG CGAGGGAGTA AAAAGAAGTC TTCGGGCTCC GCCTTCATTG ACTGGGAGGT TGAGGTAGAT GACGACGTCG AAGACGACGA TGATGATGTG GACGTTGAAG ACGGTAAGCA ACAGTTGAAA TTTGGGGATT TTTCTCTTTG TTTCATTGTA AGTGGTGAAG CTGACCTTCC TAATGAGGAT TCTGATCATC GTAGGCAATA TTACCAACGG GGGTTTCATC CTCATGAAGA AGATGTCGAC GAGTTGGAAA AGAGAACTTT GGAAAGATTG TCTACGAAAT ATGCAAAGGA TGATTATGAG CTTGATGATG TTAACGACGT TGATCAACAA GCGCTTTTGC CATCAGTCCG TGACCCTAAA CTGTGGCTGG TGAAATGTGC GATTGGACGT GAAAGAGAAG TTGCTGTTTG TCTTATGCAA AAAATCGTAG ATAGAGGATC AGAGTTCAAG ATTAGATCTG CTATTGCTCT TGATCATCTT CAAAACTATG TATATATTGA AGCGGATATG GAAGCTCATG TGAAAGAGGC TATCAAGGGC ATGCGGAATA TTTATGCTAA TCAGAAGATT TTGCTTGTCC CCATAAAAGA AATGACTGCT GTTCTTTCTG TCGAGAGTAA AGCAATCGAT TTATCCCGTG ACTCGTGGGT TAGAATGAAA CTTGGGATAT ATAAGGGTGA TCTAGCTCAG GTGGTTGATG TTGATAATGT ACGTAAGAGG GTCACAGTCA AGTTGATCCC AAGAATTGAT CTGCAGGCTC TAGCCAATAA GCTGGAAGGA ACAGAGAATG TCAAGAAGAA AGCTTTTGCT CCACCTCCAC GTTTCATGAA CATTGATGAG GCAAGGGAAC TTCACATACG TGTTGAGCAC CGGCGTGATC CAATGACGGG TGACTACTTT GAGAATATCG GTGGAATGCT TTTCAAAGAT GGTTTTCTTT ACAAGAAAGT ATCGACGAAG TCCATTGCTG CTCAGAATGT AACACCAACC TTCGATGAAC TTGAAAGATT CAAGAGACCA AATGAAAATG GGGAGATCGA CTTCGTTGAT GAGTCGACTT TATTTGCAAA TAGAAAGAAG GGTCATTTCA TGAAAGGTGA TGCGGTTATT GTGATCAAGG GGGATCTTAA AAACTTGAAG GGCTGGATTG AGAAAGTAGA TGAAGAGAAT GTCCTTATCA GATCAGAGAT GAAAGATCTT CCTAATCCTA TTGCGGTTAA TGGGAGAGAG CTTTGTAAAT ACTTTGAACC TGGAAATTTT GTGAAGGTTG TGTCTGGCAT CCATGAAGGA GGAACTGGCA TGATTGTCAA AGTTGATCAG CATATGCTTA TCATTCTGTC TGATACAACC AAAGAACATA TTTGCGTCTT CGCTGATCAT GTTGCCAAGA GTGCAGAAGT GACTAAAGGT GTCACAAAAA TTGGGGACTA TGAACTTCAT GATCTTGTGA TTCTAAGTGA CTTTAGCTTT GGAGTAATCC TAAAACTTGA TAGTGAAGCT ATCCAGATTC TTAAAGGGGT TCCTGACAGC TCAGAGGTCT CTATTGTCAA AGCCAGCGAA ATAAAATACA AAATTTGGAA GAAAATCAAT GTGCAAGACC GTTACAAAAA TGTCGTCGCG GTGAAAGATG TTGTCAGGGT CATTGAGGGT CCTAGCAAAG GTAAACAAGG TCCAGTGGTG CAAATCTACA AAGGAGTGTT GTTTATACAT GACCGGCATA ACCTTGAACA CACTGGATTT ATCTGCACTA GATGCTCATC TTGTGTTCTT GCTGGTGGCA ATTTCAAGAC ACCAGCCCTG GTTCCTCCAT CTCCAAGGAG ATTCCAACGG GCAGACATGG GATATAACCC TGGAGCTGGA GGGAGACATC AGGGTGGACG AGGGAGAAGG GGTGACGATC ATTTGGTAGG TACTTATGTC AAAATTCGTC TGGGGCCTTT CAAGGGATAT AGTGGGCGTT TAGTTGAAGT CAAAGATAAG CTAGTGCGTG TGGAACTTGA GGCCAAGATT GTGACAGTTG AGCGGAAGGC GATATCAGAT ATGACTGATA ATGTAGTCGC AACCCCGCAG TATAATATGG GAAGCCAAAC TCCTATGCAT CCTTCCCGGA CTCCACTTCA TCCCTGTATG ACTCCAATGC GGCATTCTGG AGCTACACCT ATCCATGATG GAATGAGGAC ACCTATGCGT GGTAGAGCTT GGAATCCTTA CATGCCTATG AGTCCTCCTA GGGATAACTG GGAAGATGGG AACCCGGGAT CATGGGGAAC AAGTCCATAT GAAGCAGCTA CGCCTGGATC AGATTGGGGT AGTAGTACTC CTGGTCGTAG TAGTTACAGA GATGCCGGAA CACCAATAAA CAATGCTAAT GCCCCAAGTC CTATGACACC AAGCTCAACT TCCTACTTAC CTACCACACC CGGAGGACAA GCAATGACTC CTGGAACCGA TCTCGATGTC ATGTCTCTTG ATATAGGTGG AGATGCAGAA ACCAGGTTCA TACCCGGTAT ATTGGTCAAT GTACACAAAG CTGGAGAGGA TAGAAATCCC GGTGTTATTC GAGATGTTCT TCCGGATGGC TCCTGTGTAG TCGCACTTGG ACACAGAGGT GAAGGCGAGA CGATAAGAGC GACACAGAAC AAAGTGAGCC TAGTTTGTCC GAAGAAGAAC GAACGTGTGA AGATTCTTGG AGGCAAGTAT TGTGGTTCAA CAGCTAAGGT CATTGGTGAG GACGGTCAGG ACGGTATAGT TAAGCTAGAT GAAAGTCTCG ATATCAAGAT ATTGAAGCTG ACTATATTAG CCAAGTTAGT TCATGAGTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
NP_180968.2 |
CDS | 1..2970 |
Translation | |
Target ORF information:
RefSeq Version | NM_128972.2 |
Organism | Arabidopsis thaliana(thale cress) |
Definition | Arabidopsis thaliana Transcription elongation factor Spt5 (AT2G34210), partial mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
NM_128972.2 |
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
| ATGTCTCAGT ACTCAGACGA CGATTATTCA CATGAAGATG ACTCGGAGAT GGAGGATGAG GACGAAGAAG ACGAATATGA ACCCAGAAGT AGCCGCAAAG GAAGATCAGG GAAGAAAAGG GGAAGATCAA ATTCAGATTC CGATGGTCGG CGAGGGAGTA AAAAGAAGTC TTCGGGCTCC GCCTTCATTG ACTGGGAGGT TGAGGTAGAT GACGACGTCG AAGACGACGA TGATGATGTG GACGTTGAAG ACGGTAAGCA ACAGTTGAAA TTTGGGGATT TTTCTCTTTG TTTCATTGTA AGTGGTGAAG CTGACCTTCC TAATGAGGAT TCTGATCATC GTAGGCAATA TTACCAACGG GGGTTTCATC CTCATGAAGA AGATGTCGAC GAGTTGGAAA AGAGAACTTT GGAAAGATTG TCTACGAAAT ATGCAAAGGA TGATTATGAG CTTGATGATG TTAACGACGT TGATCAACAA GCGCTTTTGC CATCAGTCCG TGACCCTAAA CTGTGGCTGG TGAAATGTGC GATTGGACGT GAAAGAGAAG TTGCTGTTTG TCTTATGCAA AAAATCGTAG ATAGAGGATC AGAGTTCAAG ATTAGATCTG CTATTGCTCT TGATCATCTT CAAAACTATG TATATATTGA AGCGGATATG GAAGCTCATG TGAAAGAGGC TATCAAGGGC ATGCGGAATA TTTATGCTAA TCAGAAGATT TTGCTTGTCC CCATAAAAGA AATGACTGCT GTTCTTTCTG TCGAGAGTAA AGCAATCGAT TTATCCCGTG ACTCGTGGGT TAGAATGAAA CTTGGGATAT ATAAGGGTGA TCTAGCTCAG GTGGTTGATG TTGATAATGT ACGTAAGAGG GTCACAGTCA AGTTGATCCC AAGAATTGAT CTGCAGGCTC TAGCCAATAA GCTGGAAGGA ACAGAGAATG TCAAGAAGAA AGCTTTTGCT CCACCTCCAC GTTTCATGAA CATTGATGAG GCAAGGGAAC TTCACATACG TGTTGAGCAC CGGCGTGATC CAATGACGGG TGACTACTTT GAGAATATCG GTGGAATGCT TTTCAAAGAT GGTTTTCTTT ACAAGAAAGT ATCGACGAAG TCCATTGCTG CTCAGAATGT AACACCAACC TTCGATGAAC TTGAAAGATT CAAGAGACCA AATGAAAATG GGGAGATCGA CTTCGTTGAT GAGTCGACTT TATTTGCAAA TAGAAAGAAG GGTCATTTCA TGAAAGGTGA TGCGGTTATT GTGATCAAGG GGGATCTTAA AAACTTGAAG GGCTGGATTG AGAAAGTAGA TGAAGAGAAT GTCCTTATCA GATCAGAGAT GAAAGATCTT CCTAATCCTA TTGCGGTTAA TGGGAGAGAG CTTTGTAAAT ACTTTGAACC TGGAAATTTT GTGAAGGTTG TGTCTGGCAT CCATGAAGGA GGAACTGGCA TGATTGTCAA AGTTGATCAG CATATGCTTA TCATTCTGTC TGATACAACC AAAGAACATA TTTGCGTCTT CGCTGATCAT GTTGCCAAGA GTGCAGAAGT GACTAAAGGT GTCACAAAAA TTGGGGACTA TGAACTTCAT GATCTTGTGA TTCTAAGTGA CTTTAGCTTT GGAGTAATCC TAAAACTTGA TAGTGAAGCT ATCCAGATTC TTAAAGGGGT TCCTGACAGC TCAGAGGTCT CTATTGTCAA AGCCAGCGAA ATAAAATACA AAATTTGGAA GAAAATCAAT GTGCAAGACC GTTACAAAAA TGTCGTCGCG GTGAAAGATG TTGTCAGGGT CATTGAGGGT CCTAGCAAAG GTAAACAAGG TCCAGTGGTG CAAATCTACA AAGGAGTGTT GTTTATACAT GACCGGCATA ACCTTGAACA CACTGGATTT ATCTGCACTA GATGCTCATC TTGTGTTCTT GCTGGTGGCA ATTTCAAGAC ACCAGCCCTG GTTCCTCCAT CTCCAAGGAG ATTCCAACGG GCAGACATGG GATATAACCC TGGAGCTGGA GGGAGACATC AGGGTGGACG AGGGAGAAGG GGTGACGATC ATTTGGTAGG TACTTATGTC AAAATTCGTC TGGGGCCTTT CAAGGGATAT AGTGGGCGTT TAGTTGAAGT CAAAGATAAG CTAGTGCGTG TGGAACTTGA GGCCAAGATT GTGACAGTTG AGCGGAAGGC GATATCAGAT ATGACTGATA ATGTAGTCGC AACCCCGCAG TATAATATGG GAAGCCAAAC TCCTATGCAT CCTTCCCGGA CTCCACTTCA TCCCTGTATG ACTCCAATGC GGCATTCTGG AGCTACACCT ATCCATGATG GAATGAGGAC ACCTATGCGT GGTAGAGCTT GGAATCCTTA CATGCCTATG AGTCCTCCTA GGGATAACTG GGAAGATGGG AACCCGGGAT CATGGGGAAC AAGTCCATAT GAAGCAGCTA CGCCTGGATC AGATTGGGGT AGTAGTACTC CTGGTCGTAG TAGTTACAGA GATGCCGGAA CACCAATAAA CAATGCTAAT GCCCCAAGTC CTATGACACC AAGCTCAACT TCCTACTTAC CTACCACACC CGGAGGACAA GCAATGACTC CTGGAACCGA TCTCGATGTC ATGTCTCTTG ATATAGGTGG AGATGCAGAA ACCAGGTTCA TACCCGGTAT ATTGGTCAAT GTACACAAAG CTGGAGAGGA TAGAAATCCC GGTGTTATTC GAGATGTTCT TCCGGATGGC TCCTGTGTAG TCGCACTTGG ACACAGAGGT GAAGGCGAGA CGATAAGAGC GACACAGAAC AAAGTGAGCC TAGTTTGTCC GAAGAAGAAC GAACGTGTGA AGATTCTTGG AGGCAAGTAT TGTGGTTCAA CAGCTAAGGT CATTGGTGAG GACGGTCAGG ACGGTATAGT TAAGCTAGAT GAAAGTCTCG ATATCAAGAT ATTGAAGCTG ACTATATTAG CCAAGTTAGT TCATGAGTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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
| ATGTCTCAGT ACTCAGACGA CGATTATTCA CATGAAGATG ACTCGGAGAT GGAGGATGAG GACGAAGAAG ACGAATATGA ACCCAGAAGT AGCCGCAAAG GAAGATCAGG GAAGAAAAGG GGAAGATCAA ATTCAGATTC CGATGGTCGG CGAGGGAGTA AAAAGAAGTC TTCGGGCTCC GCCTTCATTG ACTGGGAGGT TGAGGTAGAT GACGACGTCG AAGACGACGA TGATGATGTG GACGTTGAAG ACGGTTTCAT TGTAAGTGGT GAAGCTGACC TTCCTAATGA GGATTCTGAT CATCGTAGGC AATATTACCA ACGGGGGTTT CATCCTCATG AAGAAGATGT CGACGAGTTG GAAAAGAGAA CTTTGGAAAG ATTGTCTACG AAATATGCAA AGGATGATTA TGAGCTTGAT GATGTTAACG ACGTTGATCA ACAAGCGCTT TTGCCATCAG TCCGTGACCC TAAACTGTGG CTGGTGAAAT GTGCGATTGG ACGTGAAAGA GAAGTTGCTG TTTGTCTTAT GCAAAAAATC GTAGATAGAG GATCAGAGTT CAAGATTAGA TCTGCTATTG CTCTTGATCA TCTTCAAAAC TATGTATATA TTGAAGCGGA TATGGAAGCT CATGTGAAAG AGGCTATCAA GGGCATGCGG AATATTTATG CTAATCAGAA GATTTTGCTT GTCCCCATAA AAGAAATGAC TGCTGTTCTT TCTGTCGAGA GTAAAGCAAT CGATTTATCC CGTGACTCGT GGGTTAGAAT GAAACTTGGG ATATATAAGG GTGATCTAGC TCAGGTGGTT GATGTTGATA ATGTACGTAA GAGGGTCACA GTCAAGTTGA TCCCAAGAAT TGATCTGCAG GCTCTAGCCA ATAAGCTGGA AGGAACAGAG AATGTCAAGA AGAAAGCTTT TGCTCCACCT CCACGTTTCA TGAACATTGA TGAGGCAAGG GAACTTCACA TACGTGTTGA GCACCGGCGT GATCCAATGA CGGGTGACTA CTTTGAGAAT ATCGGTGGAA TGCTTTTCAA AGATGGTTTT CTTTACAAGA AAGTATCGAC GAAGTCCATT GCTGCTCAGA ATGTAACACC AACCTTCGAT GAACTTGAAA GATTCAAGAG ACCAAATGAA AATGGGGAGA TCGACTTCGT TGATGAGTCG ACTTTATTTG CAAATAGAAA GAAGGGTCAT TTCATGAAAG GTGATGCGGT TATTGTGATC AAGGGGGATC TTAAAAACTT GAAGGGCTGG ATTGAGAAAG TAGATGAAGA GAATGTCCTT ATCAGATCAG AGATGAAAGA TCTTCCTAAT CCTATTGCGG TTAATGGGAG AGAGCTTTGT AAATACTTTG AACCTGGAAA TTTTGTGAAG GTTGTGTCTG GCATCCATGA AGGAGGAACT GGCATGATTG TCAAAGTTGA TCAGCATATG CTTATCATTC TGTCTGATAC AACCAAAGAA CATATTTGCG TCTTCGCTGA TCATGTTGCC AAGAGTGCAG AAGTGACTAA AGGTGTCACA AAAATTGGGG ACTATGAACT TCATGATCTT GTGATTCTAA GTGACTTTAG CTTTGGAGTA ATCCTAAAAC TTGATAGTGA AGCTATCCAG ATTCTTAAAG GGGTTCCTGA CAGCTCAGAG GTCTCTATTG TCAAAGCCAG CGAAATAAAA TACAAAATTT GGAAGAAAAT CAATGTGCAA GACCGTTACA AAAATGTCGT CGCGGTGAAA GATGTTGTCA GGGTCATTGA GGGTCCTAGC AAAGGTAAAC AAGGTCCAGT GGTGCAAATC TACAAAGGAG TGTTGTTTAT ACATGACCGG CATAACCTTG AACACACTGG ATTTATCTGC ACTAGATGCT CATCTTGTGT TCTTGCTGGT GGCAATTTCA AGACACCAGC CCTGGTTCCT CCATCTCCAA GGAGATTCCA ACGGGCAGAC ATGGGATATA ACCCTGGAGC TGGAGGGAGA CATCAGGGTG GACGAGGGAG AAGGGGTGAC GATCATTTGG TAGGTACTTA TGTCAAAATT CGTCTGGGGC CTTTCAAGGG ATATAGTGGG CGTTTAGTTG AAGTCAAAGA TAAGCTAGTG CGTGTGGAAC TTGAGGCCAA GATTGTGACA GTTGAGCGGA AGGCGATATC AGATATGACT GATAATGTAG TCGCAACCCC GCAGTATAAT ATGGGAAGCC AAACTCCTAT GCATCCTTCC CGGACTCCAC TTCATCCCTG TATGACTCCA ATGCGGCATT CTGGAGCTAC ACCTATCCAT GATGGAATGA GGACACCTAT GCGTGGTAGA GCTTGGAATC CTTACATGCC TATGAGTCCT CCTAGGGATA ACTGGGAAGA TGGGAACCCG GGATCATGGG GAACAAGTCC ATATGAAGCA GCTACGCCTG GATCAGATTG GGGTAGTAGT ACTCCTGGTC GTAGTAGTTA CAGAGATGCC GGAACACCAA TAAACAATGC TAATGCCCCA AGTCCTATGA CACCAAGCTC AACTTCCTAC TTACCTACCA CACCCGGAGG ACAAGCAATG ACTCCTGGAA CCGATCTCGA TGTCATGTCT CTTGATATAG GTGGAGATGC AGAAACCAGG TTCATACCCG GTATATTGGT CAATGTACAC AAAGCTGGAG AGGATAGAAA TCCCGGTGTT ATTCGAGATG TTCTTCCGGA TGGCTCCTGT GTAGTCGCAC TTGGACACAG AGGTGAAGGC GAGACGATAA GAGCGACACA GAACAAAGTG AGCCTAGTTT GTCCGAAGAA GAACGAACGT GTGAAGATTC TTGGAGGCAA GTATTGTGGT TCAACAGCTA AGGTCATTGG TGAGGACGGT CAGGACGGTA TAGTTAAGCT AGATGAAAGT CTCGATATCA AGATATTGAA GCTGACTATA TTAGCCAAGT TAGTTCATGA GTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
NP_001324132.1 |
CDS | 1..2934 |
Translation | |
Target ORF information:
RefSeq Version | NM_001336495.1 |
Organism | Arabidopsis thaliana(thale cress) |
Definition | Arabidopsis thaliana Transcription elongation factor Spt5 (AT2G34210), partial mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
NM_001336495.1 |
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
| ATGTCTCAGT ACTCAGACGA CGATTATTCA CATGAAGATG ACTCGGAGAT GGAGGATGAG GACGAAGAAG ACGAATATGA ACCCAGAAGT AGCCGCAAAG GAAGATCAGG GAAGAAAAGG GGAAGATCAA ATTCAGATTC CGATGGTCGG CGAGGGAGTA AAAAGAAGTC TTCGGGCTCC GCCTTCATTG ACTGGGAGGT TGAGGTAGAT GACGACGTCG AAGACGACGA TGATGATGTG GACGTTGAAG ACGGTTTCAT TGTAAGTGGT GAAGCTGACC TTCCTAATGA GGATTCTGAT CATCGTAGGC AATATTACCA ACGGGGGTTT CATCCTCATG AAGAAGATGT CGACGAGTTG GAAAAGAGAA CTTTGGAAAG ATTGTCTACG AAATATGCAA AGGATGATTA TGAGCTTGAT GATGTTAACG ACGTTGATCA ACAAGCGCTT TTGCCATCAG TCCGTGACCC TAAACTGTGG CTGGTGAAAT GTGCGATTGG ACGTGAAAGA GAAGTTGCTG TTTGTCTTAT GCAAAAAATC GTAGATAGAG GATCAGAGTT CAAGATTAGA TCTGCTATTG CTCTTGATCA TCTTCAAAAC TATGTATATA TTGAAGCGGA TATGGAAGCT CATGTGAAAG AGGCTATCAA GGGCATGCGG AATATTTATG CTAATCAGAA GATTTTGCTT GTCCCCATAA AAGAAATGAC TGCTGTTCTT TCTGTCGAGA GTAAAGCAAT CGATTTATCC CGTGACTCGT GGGTTAGAAT GAAACTTGGG ATATATAAGG GTGATCTAGC TCAGGTGGTT GATGTTGATA ATGTACGTAA GAGGGTCACA GTCAAGTTGA TCCCAAGAAT TGATCTGCAG GCTCTAGCCA ATAAGCTGGA AGGAACAGAG AATGTCAAGA AGAAAGCTTT TGCTCCACCT CCACGTTTCA TGAACATTGA TGAGGCAAGG GAACTTCACA TACGTGTTGA GCACCGGCGT GATCCAATGA CGGGTGACTA CTTTGAGAAT ATCGGTGGAA TGCTTTTCAA AGATGGTTTT CTTTACAAGA AAGTATCGAC GAAGTCCATT GCTGCTCAGA ATGTAACACC AACCTTCGAT GAACTTGAAA GATTCAAGAG ACCAAATGAA AATGGGGAGA TCGACTTCGT TGATGAGTCG ACTTTATTTG CAAATAGAAA GAAGGGTCAT TTCATGAAAG GTGATGCGGT TATTGTGATC AAGGGGGATC TTAAAAACTT GAAGGGCTGG ATTGAGAAAG TAGATGAAGA GAATGTCCTT ATCAGATCAG AGATGAAAGA TCTTCCTAAT CCTATTGCGG TTAATGGGAG AGAGCTTTGT AAATACTTTG AACCTGGAAA TTTTGTGAAG GTTGTGTCTG GCATCCATGA AGGAGGAACT GGCATGATTG TCAAAGTTGA TCAGCATATG CTTATCATTC TGTCTGATAC AACCAAAGAA CATATTTGCG TCTTCGCTGA TCATGTTGCC AAGAGTGCAG AAGTGACTAA AGGTGTCACA AAAATTGGGG ACTATGAACT TCATGATCTT GTGATTCTAA GTGACTTTAG CTTTGGAGTA ATCCTAAAAC TTGATAGTGA AGCTATCCAG ATTCTTAAAG GGGTTCCTGA CAGCTCAGAG GTCTCTATTG TCAAAGCCAG CGAAATAAAA TACAAAATTT GGAAGAAAAT CAATGTGCAA GACCGTTACA AAAATGTCGT CGCGGTGAAA GATGTTGTCA GGGTCATTGA GGGTCCTAGC AAAGGTAAAC AAGGTCCAGT GGTGCAAATC TACAAAGGAG TGTTGTTTAT ACATGACCGG CATAACCTTG AACACACTGG ATTTATCTGC ACTAGATGCT CATCTTGTGT TCTTGCTGGT GGCAATTTCA AGACACCAGC CCTGGTTCCT CCATCTCCAA GGAGATTCCA ACGGGCAGAC ATGGGATATA ACCCTGGAGC TGGAGGGAGA CATCAGGGTG GACGAGGGAG AAGGGGTGAC GATCATTTGG TAGGTACTTA TGTCAAAATT CGTCTGGGGC CTTTCAAGGG ATATAGTGGG CGTTTAGTTG AAGTCAAAGA TAAGCTAGTG CGTGTGGAAC TTGAGGCCAA GATTGTGACA GTTGAGCGGA AGGCGATATC AGATATGACT GATAATGTAG TCGCAACCCC GCAGTATAAT ATGGGAAGCC AAACTCCTAT GCATCCTTCC CGGACTCCAC TTCATCCCTG TATGACTCCA ATGCGGCATT CTGGAGCTAC ACCTATCCAT GATGGAATGA GGACACCTAT GCGTGGTAGA GCTTGGAATC CTTACATGCC TATGAGTCCT CCTAGGGATA ACTGGGAAGA TGGGAACCCG GGATCATGGG GAACAAGTCC ATATGAAGCA GCTACGCCTG GATCAGATTG GGGTAGTAGT ACTCCTGGTC GTAGTAGTTA CAGAGATGCC GGAACACCAA TAAACAATGC TAATGCCCCA AGTCCTATGA CACCAAGCTC AACTTCCTAC TTACCTACCA CACCCGGAGG ACAAGCAATG ACTCCTGGAA CCGATCTCGA TGTCATGTCT CTTGATATAG GTGGAGATGC AGAAACCAGG TTCATACCCG GTATATTGGT CAATGTACAC AAAGCTGGAG AGGATAGAAA TCCCGGTGTT ATTCGAGATG TTCTTCCGGA TGGCTCCTGT GTAGTCGCAC TTGGACACAG AGGTGAAGGC GAGACGATAA GAGCGACACA GAACAAAGTG AGCCTAGTTT GTCCGAAGAA GAACGAACGT GTGAAGATTC TTGGAGGCAA GTATTGTGGT TCAACAGCTA AGGTCATTGG TGAGGACGGT CAGGACGGTA TAGTTAAGCT AGATGAAAGT CTCGATATCA AGATATTGAA GCTGACTATA TTAGCCAAGT TAGTTCATGA GTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
 |
Sequence and analysis of chromosome 2 of the plant Arabidopsis thaliana.
Nature402(6763)761-8(1999 Dec)
Lin X,Kaul S,Rounsley S,Shea TP,Benito MI,Town CD,Fujii CY,Mason T,Bowman CL,Barnstead M,Feldblyum TV,Buell CR,Ketchum KA,Lee J,Ronning CM,Koo HL,Moffat KS,Cronin LA,Shen M,Pai G,Van Aken S,Umayam L,Tallon LJ,Gill JE,Adams MD,Carrera AJ,Creasy TH,Goodman HM,Somerville CR,Copenhaver GP,Preuss D,Nierman WC,White O,Eisen JA,Salzberg SL,Fraser CM,Venter JC |