THO2 cDNA ORF clone, Micromonas commoda

Gene
Clones
gRNAs

Summary

Gene Symbol	THO2
Entrez Gene ID	8246123
Full Name	hypothetical protein
Gene Type	protein-coding
Organism	Micromonas commoda

mRNA and Protein(s)

mRNA	Protein	Name
XM_002504522.1	XP_002504568.1	predicted protein

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas.
Worden AZ, Lee JH, Mock T, Rouzé P, Simmons MP, Aerts AL, Allen AE, Cuvelier ML, Derelle E, Everett MV, Foulon E, Grimwood J, Gundlach H, Henrissat B, Napoli C, McDonald SM, Parker MS, Rombauts S, Salamov A, Von Dassow P, Badger JH, Coutinho PM, Demir E, Dubchak I, Gentemann C, Eikrem W, Gready JE, John U, Lanier W, Lindquist EA, Lucas S, Mayer KF, Moreau H, Not F, Otillar R, Panaud O, Pangilinan J, Paulsen I, Piegu B, Poliakov A, Robbens S, Schmutz J, Toulza E, Wyss T, Zelensky A, Zhou K, Armbrust EV, Bhattacharya D, Goodenough UW, Van de Peer Y, Grigoriev IV
Science (New York, N.Y.)324(5924)268-72(2009 Apr)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following THO2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the THO2 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	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OMg05011	XM_002504522.1 Latest version!	Micromonas commoda predicted protein (THO2), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

THO2 ( XM_002504522.1 ) cDNA ORF clone, Micromonas commoda -> XP_002504568.1 Micromonas commoda predicted protein (THO2), partial mRNA.

Price & Availability↑

CloneID	OMg05011
Clone ID Related Accession (Same CDS sequence)	XM_002504522.1
Accession Version	XM_002504522.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4422bp) 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	1498060800000
Organism	Micromonas commoda
Product	predicted 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 (NC_013046). COMPLETENESS: incomplete on both ends.

ATGGCGTCCT ACCCCGGCAT CAAGGCGACG CTCGTCACCG GCGATGTGAT CGGCAAGATC 
AAGGCCGGCA AGGCGGTGAC CGGCGTGGAC GCGACGAAGG CGCGCAGGTA TCTCGTCGAG 
CTCTGCTGGA GCGTGCTCCG CGATGAGCTC GACCCGAGCG ACGTGGCGCC GGCGATCCGC 
GGCGCCTTCC AGGACCACGC GGTCGCGTCC TCGAACTTCG CGGACGTCAT CTGGCTCGCG 
TCGCTGGAAA CCGAGATGCT CCCGGACGTT CGCTCGAAAC TTGTGGAGCT CGCCAAGGCG 
CTCTGCGACG GCGACAGGGG CGGCGGCGAG CCTCTGCTGA CGCGCGAGCT CCTCATCGAG 
AGGTGCGAGG GAGAGTTCCT GGAGGAGTGC GGCCTCATCC CGTCCTCCGT CGGGTGGAAG 
AAGAAGGAGG TTCGCATCAA CACCAGGCTC GTCTACACCC AAAACAAGTT CAACCTGCTG 
CGGGAAGAGA GCGAAGGATA CTCCAAGCTG ATCACCGCGC TGGCGGAGTT TGGGCGATCG 
GGCGACGGCG TCGCCGCCGC CGCCGTCAGG TCGGTGCAAT CGCTCATCGG GTACTTTGAC 
CTCGACCCCA ACCGGGCGTT GGACCTCGTG CTGGACGCGT ACGAACACGC GCCGACGCAG 
GACGGCTTCA TGGAGCTGCT GGGTCTGTTC CGTAAGGGTG CGCACGCGCA GGTGCTCGGT 
TTCAAGTTTC AGAACCACGC CAAGGCGAGC GAGGCGGCGG CAAACGCCGC CGCGAACAGA 
GCCGAAGCGG ATGACAGCGA CGGCGAGGAG GGTGAGGAGG GCGAGGAGGG TGAGGAGGGC 
GAGGAGGAGG AGGGCGAGGC CGCCGCGGGA GATGCCAAGG ACGGGGGCAA CAGACGAAAA 
ACGGCGGACG ACAAGGGCGA CAAGCCAATG AGGGCTAAGA GACGAGAGAA CGAAGCCGAG 
CCGATTCCGG AGACCCCCGC GAGTCTGTAC GCCTTGGCTG CTAAATTGGT GGGAGCGGGT 
GTCGTCGATC TCGACGCCTT GTACGCGCAT CTGTCCCCGA CGGACGATGC CGCGGTGGAG 
CGGCACGTCG CCAACGTGGA GACCCGATTG AACGCCGCGA AGAGGATCGG GGCCGTGAAC 
CTTCTGGCCA AGGCTGACGA CTCCAAGGCT GAATCTTCCG CGCCGGATCC GTACACGGTG 
GCGATCACGC CCCCTAACGA CCCGCGGGAC CAGAAGCTGG GGTTATTGCG GGGGTTCCTG 
GCGGTCGGAG ACGTGGACGG CGCGACGGCG ATGATCGGGC GGCTCAAGAA CCTCGGCCTC 
GACCCCGCCG AGGACCCGGA GGTTCAGAGG GCGCTCTGCG AAACCCTGAA GGCGACAATC 
GCCGAGTGTT ACGGACTCGC CGCGCCGGCG GGCGCCAAGG CTGCCGTCGA AGCCAGGGGG 
GACACCGCCG GCATGGAGGC GCCCGATGCG AAGGGTGCGC TCATGCCCGA CGAGGCGTTC 
GAGCGTCTGA GGCTCTTGGG ACCGTACGTG GCGTCTGACG TCGCGTTACA CACGAGGCTG 
GTTCGATGCG TCCGGCATCA CATGATCGCC GCGTCGCTCG CCGGGGACAA GGAAGCCGCG 
GCCAAGGGCG AGGAGGCGAT GGGTTCGAGC CTGATCCCCG CGCTGGGTCT GATACACGCG 
AACCCCGGCG CGGTGTTCGA GACCTGGAGC GTTCTGGAAC TCCTTCCGGT GACGACCCGG 
TTCCGGCTCT ACTCTGAGTG GAAGTCCTCA TTCGAACGCG ACCCAGGGTC CGCGCTCGAG 
ACGAGGCGAC CGCAGTTCGC AGCCGCGAAG CGCGTGGCGG AGCAGGACAC CATGAAGGTC 
ATGCGACGTT TGAGCAAGGA AAACGTCAAG GAATTCGGGC GCAAGCTGGC TAAAAGCGCT 
CACGGCAACC CTCTCGCGGT GATGTCTTCA ATCGCGGTTC AGATTGAAGC CTACACAAAC 
ATGATCGCGC CGGTGTGCGA CGCGTTCAAG TACCTCACGC CTCTCGGGTA CGACGTGTTA 
ACATTCGTGA TCATCGAGAA GCTCGCGGAA GGGAGGGAGA AACTCAAGGA CGACGGTCAG 
AACGTGTCGT TGTGGCTCAG CGCTCTCGCC ACCTTTTGCG GCCACCTCGC CAAGAAGTAC 
AGCGCCATCG AGCTCAGCGC GCTGCTTCAG TACCTGGTCA ACACCCTCAA GGATAACCAG 
AGCCTCGATC TGCTGGTACT GAAGGAGCTC ATCACGCGTA TGACGGGCAA GGAGTCCCTC 
GAGGACATGT CCGATGCCCA GGTTGAGGCC ATGGCGGGCG GTGAGACGCT CAGGTCCGAG 
GCTATCAACT TCAACAACGA CATGGCGCCC AAGGCGAGGG CCAAGGGCGT GGCCCGGCTG 
AAGGAGGCGT TGCAGAAGGG AACGCTGGGC GGGGACCCGC TCACGGTGCC TCTTCTCGTG 
CTCATCGCGC AAACGCGGCA GGCGATCATA TTCAAGACCG ACTCGAAGCA TTTGAAGCTC 
GTTTCGCAGC TGTACGACGG GTGCCAGGAG ACTTTCTTCC ATTACTGCGA CTTTTTGGAG 
CAGGCCTTCG ATGACCAGGA GTATGCCGCC ACCGTTCCCT CACTCAAAGC TCTGGTGCAC 
GATTACGGGT TGGAGCCCGG CGTGGCGTTT CATATCTATC GACCCGTGTT GAGGCACCTC 
AAACCGCGGC CGACGCCGAG CAAGGACAAG AGCGTCGACG AGTGCAACGA ATCCGTCGCG 
CTGGACATCG GCGGGGTGAA GATGACTTGG AAGGAACTCC TCGAGACTGT TCGCGGCATG 
CTCCCCGAGG AGACCTGGGC GGATATATCA CCCGAGCTCT ACCTCGCGTT CTGGTCGTTA 
ACCCTGTACG ACCTTTACGT GCCCCGCGCG AGGTACGAGG CCGAGGTGGA CAAGTGCCGA 
GCCGCGCTCG ACGTCCTCGA CAATCAACGC GACTCCGGCA CCAGGGATGA GCAGGCGAAG 
AGAAAGAAGG AGAAGGACCG TTTGAAGGAC CTCATCGATA AGTTGCAGAA GGAACTGGAC 
GCGCAGGAAC GCGCGGTGGC GGCGCGCACG AAGCGGCTCA TGATCGAGAA GGATCAGTAC 
CTTGTGGATT TGCCCAACCA CGGCAACACC GTGGGCAGAC TGGTGGAACA GTGCGTGTTC 
CCGCGCTGCG TTTTTTCACA CGCGGATGCC ATGTATTGCG CCAGATTTGT GGAACGACTG 
CACCTGCTGG ATACGCCGTA CTTCGCCACG GTGCAGCACT ACAACCTCAC GCTCACTGTC 
GTGGCGCAGC TCGTGTTCAG CTGCACGGAG TACGAGGCTG GCCGGCTAGG TAAGTTCCTC 
AACGAGACCC TCACCCAGTT GTCGGTGTGG AAGGGCGACG AAGCCACCTA CGAAAAAGAG 
TGCACCGCGG TGAGCGGCTT CAACATGAAA TTCGCGGATC CGTCGTCGAA GAAGGTTTCG 
TACGAGGAGT TCGTCAAGCT CGTGTACAAG TGGCACCTTC GCATCGCGAA GTCGTTCCTC 
TCGTGCCTGG AGGGTGACAA CTACCTCGAG ATTCGCAACT CGCTGATGGT GCTCACGAAG 
GTTGTCAAAG TTTTCCCGGC TATTTCCAGA ATCGGGGCAC ACATTCTCCG TAAGGTGGAG 
AAGATCAAGG AAAACGACGA GCGCGGGGAC CTGAAGACCA TGGCGGCGCG ATACCTGGCC 
ATGTTGCAGC GGGAGAAGCC CGGGTGGAAG GCTGATAACC ATTTCAACCC TTACTTACCC 
CCCGATCCGA AGGAGAAGGA AAAGGAGGAG AGGGAACGCA AGGCGAAGGA GGAGGCCGCG 
TCCAAGGGTG GCGGCGGATC CAAGCGCGGC CGCGGCGGCG ACGGCAAGGG AGGCAAGGAT 
GCCTCGCTCA ACGCGGACGC TCAGGAATTC ACGCCGGGCA AGGATAACGC CAAGAAGGAA 
GAGAAGAAGA AGGACGAGAG AAGCGACCGG AACGTCCGCG GCGGATCCTC GAAAACGTCC 
GACGCTTCCA ACAAGAAGGA CGACGTCGGG AGCAAGGGAA GCGGCGGAGG CGGCGGCGGC 
CGGGGCGGCG ACAGGGACCG GAACACGCGT GACGTGCGCG GTGGTTCCAA AGACACCGTC 
GATAATAAGG GTGCGGATAA CAAGCGACGG AGAGACGACG ACCGCGGAGA GGACAACGGC 
GACAACAAGC GACCTCGAAA GTCGGAGGAT GTCAGCCGCG GCGGCGGCGG GCGCGGACGC 
GGGAGGGACG AGGAACCCCC GCCGCGCGGC GGGAGGGGCG GCGGGAGGGA TACCAGCAGG 
GACCGCGGCG GGCACCAGGA CGACCGCAGG ACTGGAGGCG GGCGTAACGT CCGAGGAGGA 
GGAGGTGGAG GCGGTAGACC CGCCCCTCGA GGCAGACGGT AG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_002504568.1
CDS	1..4422
Translation	MASYPGIKATLVTGDVIGKIKAGKAVTGVDATKARRYLVELCWSVLRDELDPSDVAPAIRGAFQDHAVASSNFADVIWLASLETEMLPDVRSKLVELAKALCDGDRGGGEPLLTRELLIERCEGEFLEECGLIPSSVGWKKKEVRINTRLVYTQNKFNLLREESEGYSKLITALAEFGRSGDGVAAAAVRSVQSLIGYFDLDPNRALDLVLDAYEHAPTQDGFMELLGLFRKGAHAQVLGFKFQNHAKASEAAANAAANRAEADDSDGEEGEEGEEGEEGEEEEGEAAAGDAKDGGNRRKTADDKGDKPMRAKRRENEAEPIPETPASLYALAAKLVGAGVVDLDALYAHLSPTDDAAVERHVANVETRLNAAKRIGAVNLLAKADDSKAESSAPDPYTVAITPPNDPRDQKLGLLRGFLAVGDVDGATAMIGRLKNLGLDPAEDPEVQRALCETLKATIAECYGLAAPAGAKAAVEARGDTAGMEAPDAKGALMPDEAFERLRLLGPYVASDVALHTRLVRCVRHHMIAASLAGDKEAAAKGEEAMGSSLIPALGLIHANPGAVFETWSVLELLPVTTRFRLYSEWKSSFERDPGSALETRRPQFAAAKRVAEQDTMKVMRRLSKENVKEFGRKLAKSAHGNPLAVMSSIAVQIEAYTNMIAPVCDAFKYLTPLGYDVLTFVIIEKLAEGREKLKDDGQNVSLWLSALATFCGHLAKKYSAIELSALLQYLVNTLKDNQSLDLLVLKELITRMTGKESLEDMSDAQVEAMAGGETLRSEAINFNNDMAPKARAKGVARLKEALQKGTLGGDPLTVPLLVLIAQTRQAIIFKTDSKHLKLVSQLYDGCQETFFHYCDFLEQAFDDQEYAATVPSLKALVHDYGLEPGVAFHIYRPVLRHLKPRPTPSKDKSVDECNESVALDIGGVKMTWKELLETVRGMLPEETWADISPELYLAFWSLTLYDLYVPRARYEAEVDKCRAALDVLDNQRDSGTRDEQAKRKKEKDRLKDLIDKLQKELDAQERAVAARTKRLMIEKDQYLVDLPNHGNTVGRLVEQCVFPRCVFSHADAMYCARFVERLHLLDTPYFATVQHYNLTLTVVAQLVFSCTEYEAGRLGKFLNETLTQLSVWKGDEATYEKECTAVSGFNMKFADPSSKKVSYEEFVKLVYKWHLRIAKSFLSCLEGDNYLEIRNSLMVLTKVVKVFPAISRIGAHILRKVEKIKENDERGDLKTMAARYLAMLQREKPGWKADNHFNPYLPPDPKEKEKEERERKAKEEAASKGGGGSKRGRGGDGKGGKDASLNADAQEFTPGKDNAKKEEKKKDERSDRNVRGGSSKTSDASNKKDDVGSKGSGGGGGGRGGDRDRNTRDVRGGSKDTVDNKGADNKRRRDDDRGEDNGDNKRPRKSEDVSRGGGGRGRGRDEEPPPRGGRGGGRDTSRDRGGHQDDRRTGGGRNVRGGGGGGGRPAPRGRR

Target ORF information:

RefSeq Version	XM_002504522.1
Organism	Micromonas commoda
Definition	Micromonas commoda predicted protein (THO2), partial mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_002504522.1

ORF Insert Sequence:

ATGGCGTCCT ACCCCGGCAT CAAGGCGACG CTCGTCACCG GCGATGTGAT CGGCAAGATC 
AAGGCCGGCA AGGCGGTGAC CGGCGTGGAC GCGACGAAGG CGCGCAGGTA TCTCGTCGAG 
CTCTGCTGGA GCGTGCTCCG CGATGAGCTC GACCCGAGCG ACGTGGCGCC GGCGATCCGC 
GGCGCCTTCC AGGACCACGC GGTCGCGTCC TCGAACTTCG CGGACGTCAT CTGGCTCGCG 
TCGCTGGAAA CCGAGATGCT CCCGGACGTT CGCTCGAAAC TTGTGGAGCT CGCCAAGGCG 
CTCTGCGACG GCGACAGGGG CGGCGGCGAG CCTCTGCTGA CGCGCGAGCT CCTCATCGAG 
AGGTGCGAGG GAGAGTTCCT GGAGGAGTGC GGCCTCATCC CGTCCTCCGT CGGGTGGAAG 
AAGAAGGAGG TTCGCATCAA CACCAGGCTC GTCTACACCC AAAACAAGTT CAACCTGCTG 
CGGGAAGAGA GCGAAGGATA CTCCAAGCTG ATCACCGCGC TGGCGGAGTT TGGGCGATCG 
GGCGACGGCG TCGCCGCCGC CGCCGTCAGG TCGGTGCAAT CGCTCATCGG GTACTTTGAC 
CTCGACCCCA ACCGGGCGTT GGACCTCGTG CTGGACGCGT ACGAACACGC GCCGACGCAG 
GACGGCTTCA TGGAGCTGCT GGGTCTGTTC CGTAAGGGTG CGCACGCGCA GGTGCTCGGT 
TTCAAGTTTC AGAACCACGC CAAGGCGAGC GAGGCGGCGG CAAACGCCGC CGCGAACAGA 
GCCGAAGCGG ATGACAGCGA CGGCGAGGAG GGTGAGGAGG GCGAGGAGGG TGAGGAGGGC 
GAGGAGGAGG AGGGCGAGGC CGCCGCGGGA GATGCCAAGG ACGGGGGCAA CAGACGAAAA 
ACGGCGGACG ACAAGGGCGA CAAGCCAATG AGGGCTAAGA GACGAGAGAA CGAAGCCGAG 
CCGATTCCGG AGACCCCCGC GAGTCTGTAC GCCTTGGCTG CTAAATTGGT GGGAGCGGGT 
GTCGTCGATC TCGACGCCTT GTACGCGCAT CTGTCCCCGA CGGACGATGC CGCGGTGGAG 
CGGCACGTCG CCAACGTGGA GACCCGATTG AACGCCGCGA AGAGGATCGG GGCCGTGAAC 
CTTCTGGCCA AGGCTGACGA CTCCAAGGCT GAATCTTCCG CGCCGGATCC GTACACGGTG 
GCGATCACGC CCCCTAACGA CCCGCGGGAC CAGAAGCTGG GGTTATTGCG GGGGTTCCTG 
GCGGTCGGAG ACGTGGACGG CGCGACGGCG ATGATCGGGC GGCTCAAGAA CCTCGGCCTC 
GACCCCGCCG AGGACCCGGA GGTTCAGAGG GCGCTCTGCG AAACCCTGAA GGCGACAATC 
GCCGAGTGTT ACGGACTCGC CGCGCCGGCG GGCGCCAAGG CTGCCGTCGA AGCCAGGGGG 
GACACCGCCG GCATGGAGGC GCCCGATGCG AAGGGTGCGC TCATGCCCGA CGAGGCGTTC 
GAGCGTCTGA GGCTCTTGGG ACCGTACGTG GCGTCTGACG TCGCGTTACA CACGAGGCTG 
GTTCGATGCG TCCGGCATCA CATGATCGCC GCGTCGCTCG CCGGGGACAA GGAAGCCGCG 
GCCAAGGGCG AGGAGGCGAT GGGTTCGAGC CTGATCCCCG CGCTGGGTCT GATACACGCG 
AACCCCGGCG CGGTGTTCGA GACCTGGAGC GTTCTGGAAC TCCTTCCGGT GACGACCCGG 
TTCCGGCTCT ACTCTGAGTG GAAGTCCTCA TTCGAACGCG ACCCAGGGTC CGCGCTCGAG 
ACGAGGCGAC CGCAGTTCGC AGCCGCGAAG CGCGTGGCGG AGCAGGACAC CATGAAGGTC 
ATGCGACGTT TGAGCAAGGA AAACGTCAAG GAATTCGGGC GCAAGCTGGC TAAAAGCGCT 
CACGGCAACC CTCTCGCGGT GATGTCTTCA ATCGCGGTTC AGATTGAAGC CTACACAAAC 
ATGATCGCGC CGGTGTGCGA CGCGTTCAAG TACCTCACGC CTCTCGGGTA CGACGTGTTA 
ACATTCGTGA TCATCGAGAA GCTCGCGGAA GGGAGGGAGA AACTCAAGGA CGACGGTCAG 
AACGTGTCGT TGTGGCTCAG CGCTCTCGCC ACCTTTTGCG GCCACCTCGC CAAGAAGTAC 
AGCGCCATCG AGCTCAGCGC GCTGCTTCAG TACCTGGTCA ACACCCTCAA GGATAACCAG 
AGCCTCGATC TGCTGGTACT GAAGGAGCTC ATCACGCGTA TGACGGGCAA GGAGTCCCTC 
GAGGACATGT CCGATGCCCA GGTTGAGGCC ATGGCGGGCG GTGAGACGCT CAGGTCCGAG 
GCTATCAACT TCAACAACGA CATGGCGCCC AAGGCGAGGG CCAAGGGCGT GGCCCGGCTG 
AAGGAGGCGT TGCAGAAGGG AACGCTGGGC GGGGACCCGC TCACGGTGCC TCTTCTCGTG 
CTCATCGCGC AAACGCGGCA GGCGATCATA TTCAAGACCG ACTCGAAGCA TTTGAAGCTC 
GTTTCGCAGC TGTACGACGG GTGCCAGGAG ACTTTCTTCC ATTACTGCGA CTTTTTGGAG 
CAGGCCTTCG ATGACCAGGA GTATGCCGCC ACCGTTCCCT CACTCAAAGC TCTGGTGCAC 
GATTACGGGT TGGAGCCCGG CGTGGCGTTT CATATCTATC GACCCGTGTT GAGGCACCTC 
AAACCGCGGC CGACGCCGAG CAAGGACAAG AGCGTCGACG AGTGCAACGA ATCCGTCGCG 
CTGGACATCG GCGGGGTGAA GATGACTTGG AAGGAACTCC TCGAGACTGT TCGCGGCATG 
CTCCCCGAGG AGACCTGGGC GGATATATCA CCCGAGCTCT ACCTCGCGTT CTGGTCGTTA 
ACCCTGTACG ACCTTTACGT GCCCCGCGCG AGGTACGAGG CCGAGGTGGA CAAGTGCCGA 
GCCGCGCTCG ACGTCCTCGA CAATCAACGC GACTCCGGCA CCAGGGATGA GCAGGCGAAG 
AGAAAGAAGG AGAAGGACCG TTTGAAGGAC CTCATCGATA AGTTGCAGAA GGAACTGGAC 
GCGCAGGAAC GCGCGGTGGC GGCGCGCACG AAGCGGCTCA TGATCGAGAA GGATCAGTAC 
CTTGTGGATT TGCCCAACCA CGGCAACACC GTGGGCAGAC TGGTGGAACA GTGCGTGTTC 
CCGCGCTGCG TTTTTTCACA CGCGGATGCC ATGTATTGCG CCAGATTTGT GGAACGACTG 
CACCTGCTGG ATACGCCGTA CTTCGCCACG GTGCAGCACT ACAACCTCAC GCTCACTGTC 
GTGGCGCAGC TCGTGTTCAG CTGCACGGAG TACGAGGCTG GCCGGCTAGG TAAGTTCCTC 
AACGAGACCC TCACCCAGTT GTCGGTGTGG AAGGGCGACG AAGCCACCTA CGAAAAAGAG 
TGCACCGCGG TGAGCGGCTT CAACATGAAA TTCGCGGATC CGTCGTCGAA GAAGGTTTCG 
TACGAGGAGT TCGTCAAGCT CGTGTACAAG TGGCACCTTC GCATCGCGAA GTCGTTCCTC 
TCGTGCCTGG AGGGTGACAA CTACCTCGAG ATTCGCAACT CGCTGATGGT GCTCACGAAG 
GTTGTCAAAG TTTTCCCGGC TATTTCCAGA ATCGGGGCAC ACATTCTCCG TAAGGTGGAG 
AAGATCAAGG AAAACGACGA GCGCGGGGAC CTGAAGACCA TGGCGGCGCG ATACCTGGCC 
ATGTTGCAGC GGGAGAAGCC CGGGTGGAAG GCTGATAACC ATTTCAACCC TTACTTACCC 
CCCGATCCGA AGGAGAAGGA AAAGGAGGAG AGGGAACGCA AGGCGAAGGA GGAGGCCGCG 
TCCAAGGGTG GCGGCGGATC CAAGCGCGGC CGCGGCGGCG ACGGCAAGGG AGGCAAGGAT 
GCCTCGCTCA ACGCGGACGC TCAGGAATTC ACGCCGGGCA AGGATAACGC CAAGAAGGAA 
GAGAAGAAGA AGGACGAGAG AAGCGACCGG AACGTCCGCG GCGGATCCTC GAAAACGTCC 
GACGCTTCCA ACAAGAAGGA CGACGTCGGG AGCAAGGGAA GCGGCGGAGG CGGCGGCGGC 
CGGGGCGGCG ACAGGGACCG GAACACGCGT GACGTGCGCG GTGGTTCCAA AGACACCGTC 
GATAATAAGG GTGCGGATAA CAAGCGACGG AGAGACGACG ACCGCGGAGA GGACAACGGC 
GACAACAAGC GACCTCGAAA GTCGGAGGAT GTCAGCCGCG GCGGCGGCGG GCGCGGACGC 
GGGAGGGACG AGGAACCCCC GCCGCGCGGC GGGAGGGGCG GCGGGAGGGA TACCAGCAGG 
GACCGCGGCG GGCACCAGGA CGACCGCAGG ACTGGAGGCG GGCGTAACGT CCGAGGAGGA 
GGAGGTGGAG GCGGTAGACC CGCCCCTCGA GGCAGACGGT AG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

PubMed

Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas.
Science (New York, N.Y.)324(5924)268-72(2009 Apr)
Worden AZ,Lee JH,Mock T,Rouzé P,Simmons MP,Aerts AL,Allen AE,Cuvelier ML,Derelle E,Everett MV,Foulon E,Grimwood J,Gundlach H,Henrissat B,Napoli C,McDonald SM,Parker MS,Rombauts S,Salamov A,Von Dassow P,Badger JH,Coutinho PM,Demir E,Dubchak I,Gentemann C,Eikrem W,Gready JE,John U,Lanier W,Lindquist EA,Lucas S,Mayer KF,Moreau H,Not F,Otillar R,Panaud O,Pangilinan J,Paulsen I,Piegu B,Poliakov A,Robbens S,Schmutz J,Toulza E,Wyss T,Zelensky A,Zhou K,Armbrust EV,Bhattacharya D,Goodenough UW,Van de Peer Y,Grigoriev IV

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THO2 cDNA ORF clone, Micromonas commoda

Gene

Clones

gRNAs

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

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