MICPUN_93773 cDNA ORF clone, Micromonas commoda

Gene
Clones
gRNAs

Summary

Gene Symbol	MICPUN_93773
Entrez Gene ID	8241851
Full Name	predicted protein
Gene Type	protein-coding
Organism	Micromonas commoda

mRNA and Protein(s)

mRNA	Protein	Name
XM_002501037.1	XP_002501083.1	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 MICPUN_93773 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MICPUN_93773 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
OMg01259	XM_002501037.1 Latest version!	Micromonas commoda predicted protein partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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** 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)

MICPUN_93773 ( XM_002501037.1 ) cDNA ORF clone, Micromonas commoda -> XP_002501083.1 Micromonas commoda predicted protein partial mRNA.

Price & Availability↑

CloneID	OMg01259
Clone ID Related Accession (Same CDS sequence)	XM_002501037.1
Accession Version	XM_002501037.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4014bp) 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_013040). COMPLETENESS: incomplete on the 5' end.

ATGCTCGCCG ACGAGGGCAT CGATTCGGAC ATCGAGGCCG AGGAGAACGA GCGATACAAC 
CGCCGACCGC GACCCGCGGA TGGACCGGTG GAGCGCTCCA CCGAGAACGG CTTCCTGGCG 
CGTCAGCCGT GCAGAGGCGC GCTCGTCGCG CCCACGTCGC ACGCGACCGG ATACAACACG 
CACGAGAAAC CCGACCACCA CCTCCAGCTG GACTTCGTCT ACGGCTACCG CGCGCACGAT 
TCCAGGCACA ACCTGGTGTA CAACATCGAC GGACTGGTGA CCTACCCGGC GGCCGCCACC 
GGGATCGCCT ACGACAGCCG CGAGCACACC CAGCAGTTCT TCACCATGCA CACCGACGAC 
ATCGTCTCGC TCGCCATGCA CCCGGACCGG GAGATCATGG CCACCGGACA GGTGGGCAAG 
GACCCCACCA TCTGCGTTTG GTCGTCCACC ACGTGCGAGC TGCTCGCGGA GCTGAAAGGG 
TTCCACCAGA GGGCCGTGGT GTCGCTATCG TTCGACGGCA CCGGCAAGTA CCTGGCATCC 
GTCGGTTTGG ACGACGACCA CTCGGTGGCC ATCTACGACT GGGCATCCAG GCGCATGGTC 
GCGAACAGCA AGGGGGACGA GAACAGGGTG TTCAACTGCG AGTACAACCC GTACGACGGG 
AGGTTGGTCA CGGGTGGGGT GAAGCACATA AAGTTCTGGG TGATGGAGGG CGGATACTTG 
GTCGGCAAGA GGGGCGTGTA CGGGCGCATG GGCGCGGTTT CGACCATCCT GTCCATCGCG 
TTTCACACCG ACGGCTCGAC GCTGACCGGG ACGCAGGGCG GGATCATCTA CCAGTGGGCG 
GACGGCGGCG AGCAGTGCAT CCAAAAGTTT GAGGCTCTGC ACCAGGGCCC GGTGCACGAC 
ATATTTGTCA ACGACGATTA CATCCTCACC GGCGGGAAGG ACGGGAAGGT TAATTTTTTC 
ACGCAGTACA TGGAGAAGGT GTTCACCATA GACATGGCCA AGGTGGTAGA GACCATCACG 
GATCTCCAGG GTAAGCCGCT CTGCAGCTAC GACGGAAAGG CGCCGTGCGT CAAGTCGCTG 
TTCATGGAGG GGACCCAGCT GCTCGTGGGC ACCAAGGGCA GCGAGATCTT TGAATTCGAC 
ATGAGCACCG AGGACAGCTG GAAGACGCGC CGACGGATCA TCACGCAGGG GCACAGCGCC 
GGGTACGACG ACAAGCGAAG GATTCAGACC AGCGAGCTGT GGGGTCTCAC GACGCACCCA 
TTCCTGCCCC AGTTCGTCAG CGCGGGCGAC GATAAGACAC TGCGCGTGTA CGATATGTAC 
CAGCGAAGGC AAATTGCGGT TAGGAACGTG AGCTCAAAGG TTCGGTCCGC GGCGTACTCG 
CCGGATGGAA AGTTCATCGC CGCCGGTTTC TTCGGCGGCG GCTTCATCGT CTTCGACACC 
AACACCGGCA ACGAGCTCAT CGCGAAGAAG CACAGGAGGG AGTGCATAGG CGACATCAAG 
TTCTCGCCCT CCGGCAGGTG GCTGGCCGTG GGAAGCCACG ATAACTTCGT GGATGTGTAT 
GACGCCTCGA GAAATTTCAA GCGCGTCGGC GTGTGCAAGG GTCACAGCAG CTACATCACC 
CACCTGGACT GGAGCGAGGA CAGCCGGTAC TTGCAAACAA ACAGCGGCGA CTATGAGCTG 
ATGTTCTGGG AGATTCCCGG GTGCGAGCAG GTCAAGTTTC CCACGGCGCT CAAGGACACG 
AAGTGGGACT CGTGGACCTC AACCCTGGGC TGGCCAGTGC AGGGCGTGTG GCCGAAGCAC 
GCAGACGGCA CGGACGTGAA CGCGTGCTGC CGCAGCGCAG ACGGCACCGT GGTGGCCACC 
GCGGACGACT TTGGTTTGGT AAAACTGTTC AGGTACCCCA GTGACGTGGG ACGGGCGGAT 
TACCACGGCT ACCTGGGCCA CAGCTCGCAC GTCACCAACT GCAGGTTCAG CTACAACGAC 
GAGTTTCTCA TAACCGTCGG AGGCAACGAC CGCTGCGCGT TCCAATGGCG GCACTACGAA 
GCGGACGAGG GGGACGAGGA GATGACGAGC GAGGTTGAGG AGGAGGTGCT GACGTCGGTG 
GAGGATTACG AGGATTTTTC AAAGACGAAC CAGGTTGTGC AGATGGTGAT GACGGGTCAC 
ATTAACGGGG TGCCGCAGTA CATGCCGCTC TCCTCGCTGG AGGCTAAGCC CAGCCGCGAG 
ATTCCGCAAG GGTCGGGGCT CGATCCCGCT GCGGAGCTCG AGTTTGTCCA CGGGTACCGA 
GCGCACGATA CCCGCGATAA TTTATTTTAC ACCGCCAGGG GCGAGGTGGT CTATCACACG 
GCGGCGCTCG GCATCGTGTA CAACCGCGAG AGCAACACCC AGCGATTCCT CGCGGATAAC 
CCCACGGTCG ACGGCATCAC CGGTCACACC GATGACATCC TGTGCTGCGC GAGGCACCCC 
ACCGGGAGCA TATTCGCAAC CGGCGAGGTC GGCAGGAACC CGAAGCTGAT TGTCTGGTCC 
AGCGACGACC CGCGGCGACC GCTTGCGATC CTCCAGGGCT TCCTCAAGAA GGCCATCGTG 
TCCGCGACGT TCTCCAGGGA CGGTACGCTG CTGTGTGCGG TGGGCGCGGA CGCGAACCAC 
TCGCTCGCGG TGTACAGGTG GCAGACGGGC ACGATGCTCG CGTCGGCGAA GGGTTCGCCC 
GAGAAGATTG TCACCGTCTC GTGGTCCCCG TTTCAGGACT ACGTGGTGAC GTGCGGCGTG 
AAGCACCTGA TGTTCTGGAG CACGTCTCCG TTTGTCGCGC GGAAGGCGCT GTTCTCCAAG 
CGGGGTAAGA TTCAGACCAT GCTGTGCTGC TGCTTTCCGG GCCCCGACAC CACCGTGGTG 
GGGACGCAGG ACGGAAGCCT CTATCTGTTC AAAGGGTACC AGCTCGCGAC GAACATGCGC 
CGGTGCCACC AGGTGACCCA CGCGGTCATC GCCACCAGGG ACGTCGTGAT ATCGGGTGGT 
AAGGAGGGCA AGGTTAAGTT TTGGACAATC GACCTGATGC AGTGCCTGAA GGAGGTTGAG 
ATTAACCACC CGCAGGCGAT GTCGGGGTGC ATCAAGGCGA TGCACCTGTC AGGGAGCATG 
CTCATCCTCG GGACCCGCAC TGGCGAGATT TACGAGATGG ACACCACCTC GTACACGTAC 
ACGCTGATGC TCCAGGGTCA CGGGTACGGA ACCGTGTGGG GGCTCGCCAC GCACCCGGGG 
GAGCATCAGA TGTGCACCGT GGGCGACGAC TGCACCGTGC GCGTGTGGGA CGTCGCCAGC 
CGAAGGATGG TCATGGTTCG CGATTTGGGC GCAAAGGGAA GGAGCGTCGC GTATCACCCG 
GATGGATCGC AGATTGCCAT CGGTCTCGCG GGCGGCGGGC TCGTGGTTCT CAGCGCGGAT 
AGTCTGGACA CCATACACGC CAAGAAGGAC AGGGAGGAGC CCATACACGA GCTCAAGTAC 
TCGCCGAACG GTCAGTACCT GGGCGTGGGT TCGCACGATA ATTACATCGA CGTGTACGAC 
GTGGGCAAGC AGTACGGACG CATGGGGGTC GCGAAGGGTC ACGCGAGCTA CATCCGGCAC 
ATAGACTGGT CCGAGGACAG CACCGTGATG CAGAGCAACT CCGGGGACTT TGAGATGCTC 
TTCTGGGAGA TGCCGAGCGG TAAGCAGATT AAGTTTCCGG CTGATACCAG GAACATGGAC 
TGGGCGACGT GGACGTGCGT CGCGGGCTGG CCAGTGCAGG GCATCTTGCC CCGATACTCC 
ATGGGCACCG ACGTGACCAC GTGCGATAGG AGCCACACCA GGACGGTCGT CGCGAGCGGG 
GACCAGTTCG GTATGCTCAA CATGTATCAG TACCCAGCGC ATAAGGGATG CGCAGGTCGA 
ACGTTTGGCG CGCACTCGGC CAAGGTGACA CAGGTGAGGT TCATGTTTGA CGACACCTAC 
CTCATCACGG TGGGTGCGGA CATGACGCTG TGTCAGTGGC GCATCGTGTT GTGA

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

RefSeq	XP_002501083.1
CDS	1..4014
Translation	MLADEGIDSDIEAEENERYNRRPRPADGPVERSTENGFLARQPCRGALVAPTSHATGYNTHEKPDHHLQLDFVYGYRAHDSRHNLVYNIDGLVTYPAAATGIAYDSREHTQQFFTMHTDDIVSLAMHPDREIMATGQVGKDPTICVWSSTTCELLAELKGFHQRAVVSLSFDGTGKYLASVGLDDDHSVAIYDWASRRMVANSKGDENRVFNCEYNPYDGRLVTGGVKHIKFWVMEGGYLVGKRGVYGRMGAVSTILSIAFHTDGSTLTGTQGGIIYQWADGGEQCIQKFEALHQGPVHDIFVNDDYILTGGKDGKVNFFTQYMEKVFTIDMAKVVETITDLQGKPLCSYDGKAPCVKSLFMEGTQLLVGTKGSEIFEFDMSTEDSWKTRRRIITQGHSAGYDDKRRIQTSELWGLTTHPFLPQFVSAGDDKTLRVYDMYQRRQIAVRNVSSKVRSAAYSPDGKFIAAGFFGGGFIVFDTNTGNELIAKKHRRECIGDIKFSPSGRWLAVGSHDNFVDVYDASRNFKRVGVCKGHSSYITHLDWSEDSRYLQTNSGDYELMFWEIPGCEQVKFPTALKDTKWDSWTSTLGWPVQGVWPKHADGTDVNACCRSADGTVVATADDFGLVKLFRYPSDVGRADYHGYLGHSSHVTNCRFSYNDEFLITVGGNDRCAFQWRHYEADEGDEEMTSEVEEEVLTSVEDYEDFSKTNQVVQMVMTGHINGVPQYMPLSSLEAKPSREIPQGSGLDPAAELEFVHGYRAHDTRDNLFYTARGEVVYHTAALGIVYNRESNTQRFLADNPTVDGITGHTDDILCCARHPTGSIFATGEVGRNPKLIVWSSDDPRRPLAILQGFLKKAIVSATFSRDGTLLCAVGADANHSLAVYRWQTGTMLASAKGSPEKIVTVSWSPFQDYVVTCGVKHLMFWSTSPFVARKALFSKRGKIQTMLCCCFPGPDTTVVGTQDGSLYLFKGYQLATNMRRCHQVTHAVIATRDVVISGGKEGKVKFWTIDLMQCLKEVEINHPQAMSGCIKAMHLSGSMLILGTRTGEIYEMDTTSYTYTLMLQGHGYGTVWGLATHPGEHQMCTVGDDCTVRVWDVASRRMVMVRDLGAKGRSVAYHPDGSQIAIGLAGGGLVVLSADSLDTIHAKKDREEPIHELKYSPNGQYLGVGSHDNYIDVYDVGKQYGRMGVAKGHASYIRHIDWSEDSTVMQSNSGDFEMLFWEMPSGKQIKFPADTRNMDWATWTCVAGWPVQGILPRYSMGTDVTTCDRSHTRTVVASGDQFGMLNMYQYPAHKGCAGRTFGAHSAKVTQVRFMFDDTYLITVGADMTLCQWRIVL

Target ORF information:

RefSeq Version	XM_002501037.1
Organism	Micromonas commoda
Definition	Micromonas commoda predicted protein partial mRNA.

Target ORF information:

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

XM_002501037.1

ORF Insert Sequence:

ATGCTCGCCG ACGAGGGCAT CGATTCGGAC ATCGAGGCCG AGGAGAACGA GCGATACAAC 
CGCCGACCGC GACCCGCGGA TGGACCGGTG GAGCGCTCCA CCGAGAACGG CTTCCTGGCG 
CGTCAGCCGT GCAGAGGCGC GCTCGTCGCG CCCACGTCGC ACGCGACCGG ATACAACACG 
CACGAGAAAC CCGACCACCA CCTCCAGCTG GACTTCGTCT ACGGCTACCG CGCGCACGAT 
TCCAGGCACA ACCTGGTGTA CAACATCGAC GGACTGGTGA CCTACCCGGC GGCCGCCACC 
GGGATCGCCT ACGACAGCCG CGAGCACACC CAGCAGTTCT TCACCATGCA CACCGACGAC 
ATCGTCTCGC TCGCCATGCA CCCGGACCGG GAGATCATGG CCACCGGACA GGTGGGCAAG 
GACCCCACCA TCTGCGTTTG GTCGTCCACC ACGTGCGAGC TGCTCGCGGA GCTGAAAGGG 
TTCCACCAGA GGGCCGTGGT GTCGCTATCG TTCGACGGCA CCGGCAAGTA CCTGGCATCC 
GTCGGTTTGG ACGACGACCA CTCGGTGGCC ATCTACGACT GGGCATCCAG GCGCATGGTC 
GCGAACAGCA AGGGGGACGA GAACAGGGTG TTCAACTGCG AGTACAACCC GTACGACGGG 
AGGTTGGTCA CGGGTGGGGT GAAGCACATA AAGTTCTGGG TGATGGAGGG CGGATACTTG 
GTCGGCAAGA GGGGCGTGTA CGGGCGCATG GGCGCGGTTT CGACCATCCT GTCCATCGCG 
TTTCACACCG ACGGCTCGAC GCTGACCGGG ACGCAGGGCG GGATCATCTA CCAGTGGGCG 
GACGGCGGCG AGCAGTGCAT CCAAAAGTTT GAGGCTCTGC ACCAGGGCCC GGTGCACGAC 
ATATTTGTCA ACGACGATTA CATCCTCACC GGCGGGAAGG ACGGGAAGGT TAATTTTTTC 
ACGCAGTACA TGGAGAAGGT GTTCACCATA GACATGGCCA AGGTGGTAGA GACCATCACG 
GATCTCCAGG GTAAGCCGCT CTGCAGCTAC GACGGAAAGG CGCCGTGCGT CAAGTCGCTG 
TTCATGGAGG GGACCCAGCT GCTCGTGGGC ACCAAGGGCA GCGAGATCTT TGAATTCGAC 
ATGAGCACCG AGGACAGCTG GAAGACGCGC CGACGGATCA TCACGCAGGG GCACAGCGCC 
GGGTACGACG ACAAGCGAAG GATTCAGACC AGCGAGCTGT GGGGTCTCAC GACGCACCCA 
TTCCTGCCCC AGTTCGTCAG CGCGGGCGAC GATAAGACAC TGCGCGTGTA CGATATGTAC 
CAGCGAAGGC AAATTGCGGT TAGGAACGTG AGCTCAAAGG TTCGGTCCGC GGCGTACTCG 
CCGGATGGAA AGTTCATCGC CGCCGGTTTC TTCGGCGGCG GCTTCATCGT CTTCGACACC 
AACACCGGCA ACGAGCTCAT CGCGAAGAAG CACAGGAGGG AGTGCATAGG CGACATCAAG 
TTCTCGCCCT CCGGCAGGTG GCTGGCCGTG GGAAGCCACG ATAACTTCGT GGATGTGTAT 
GACGCCTCGA GAAATTTCAA GCGCGTCGGC GTGTGCAAGG GTCACAGCAG CTACATCACC 
CACCTGGACT GGAGCGAGGA CAGCCGGTAC TTGCAAACAA ACAGCGGCGA CTATGAGCTG 
ATGTTCTGGG AGATTCCCGG GTGCGAGCAG GTCAAGTTTC CCACGGCGCT CAAGGACACG 
AAGTGGGACT CGTGGACCTC AACCCTGGGC TGGCCAGTGC AGGGCGTGTG GCCGAAGCAC 
GCAGACGGCA CGGACGTGAA CGCGTGCTGC CGCAGCGCAG ACGGCACCGT GGTGGCCACC 
GCGGACGACT TTGGTTTGGT AAAACTGTTC AGGTACCCCA GTGACGTGGG ACGGGCGGAT 
TACCACGGCT ACCTGGGCCA CAGCTCGCAC GTCACCAACT GCAGGTTCAG CTACAACGAC 
GAGTTTCTCA TAACCGTCGG AGGCAACGAC CGCTGCGCGT TCCAATGGCG GCACTACGAA 
GCGGACGAGG GGGACGAGGA GATGACGAGC GAGGTTGAGG AGGAGGTGCT GACGTCGGTG 
GAGGATTACG AGGATTTTTC AAAGACGAAC CAGGTTGTGC AGATGGTGAT GACGGGTCAC 
ATTAACGGGG TGCCGCAGTA CATGCCGCTC TCCTCGCTGG AGGCTAAGCC CAGCCGCGAG 
ATTCCGCAAG GGTCGGGGCT CGATCCCGCT GCGGAGCTCG AGTTTGTCCA CGGGTACCGA 
GCGCACGATA CCCGCGATAA TTTATTTTAC ACCGCCAGGG GCGAGGTGGT CTATCACACG 
GCGGCGCTCG GCATCGTGTA CAACCGCGAG AGCAACACCC AGCGATTCCT CGCGGATAAC 
CCCACGGTCG ACGGCATCAC CGGTCACACC GATGACATCC TGTGCTGCGC GAGGCACCCC 
ACCGGGAGCA TATTCGCAAC CGGCGAGGTC GGCAGGAACC CGAAGCTGAT TGTCTGGTCC 
AGCGACGACC CGCGGCGACC GCTTGCGATC CTCCAGGGCT TCCTCAAGAA GGCCATCGTG 
TCCGCGACGT TCTCCAGGGA CGGTACGCTG CTGTGTGCGG TGGGCGCGGA CGCGAACCAC 
TCGCTCGCGG TGTACAGGTG GCAGACGGGC ACGATGCTCG CGTCGGCGAA GGGTTCGCCC 
GAGAAGATTG TCACCGTCTC GTGGTCCCCG TTTCAGGACT ACGTGGTGAC GTGCGGCGTG 
AAGCACCTGA TGTTCTGGAG CACGTCTCCG TTTGTCGCGC GGAAGGCGCT GTTCTCCAAG 
CGGGGTAAGA TTCAGACCAT GCTGTGCTGC TGCTTTCCGG GCCCCGACAC CACCGTGGTG 
GGGACGCAGG ACGGAAGCCT CTATCTGTTC AAAGGGTACC AGCTCGCGAC GAACATGCGC 
CGGTGCCACC AGGTGACCCA CGCGGTCATC GCCACCAGGG ACGTCGTGAT ATCGGGTGGT 
AAGGAGGGCA AGGTTAAGTT TTGGACAATC GACCTGATGC AGTGCCTGAA GGAGGTTGAG 
ATTAACCACC CGCAGGCGAT GTCGGGGTGC ATCAAGGCGA TGCACCTGTC AGGGAGCATG 
CTCATCCTCG GGACCCGCAC TGGCGAGATT TACGAGATGG ACACCACCTC GTACACGTAC 
ACGCTGATGC TCCAGGGTCA CGGGTACGGA ACCGTGTGGG GGCTCGCCAC GCACCCGGGG 
GAGCATCAGA TGTGCACCGT GGGCGACGAC TGCACCGTGC GCGTGTGGGA CGTCGCCAGC 
CGAAGGATGG TCATGGTTCG CGATTTGGGC GCAAAGGGAA GGAGCGTCGC GTATCACCCG 
GATGGATCGC AGATTGCCAT CGGTCTCGCG GGCGGCGGGC TCGTGGTTCT CAGCGCGGAT 
AGTCTGGACA CCATACACGC CAAGAAGGAC AGGGAGGAGC CCATACACGA GCTCAAGTAC 
TCGCCGAACG GTCAGTACCT GGGCGTGGGT TCGCACGATA ATTACATCGA CGTGTACGAC 
GTGGGCAAGC AGTACGGACG CATGGGGGTC GCGAAGGGTC ACGCGAGCTA CATCCGGCAC 
ATAGACTGGT CCGAGGACAG CACCGTGATG CAGAGCAACT CCGGGGACTT TGAGATGCTC 
TTCTGGGAGA TGCCGAGCGG TAAGCAGATT AAGTTTCCGG CTGATACCAG GAACATGGAC 
TGGGCGACGT GGACGTGCGT CGCGGGCTGG CCAGTGCAGG GCATCTTGCC CCGATACTCC 
ATGGGCACCG ACGTGACCAC GTGCGATAGG AGCCACACCA GGACGGTCGT CGCGAGCGGG 
GACCAGTTCG GTATGCTCAA CATGTATCAG TACCCAGCGC ATAAGGGATG CGCAGGTCGA 
ACGTTTGGCG CGCACTCGGC CAAGGTGACA CAGGTGAGGT TCATGTTTGA CGACACCTAC 
CTCATCACGG TGGGTGCGGA CATGACGCTG TGTCAGTGGC GCATCGTGTT GTGA

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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MICPUN_93773 cDNA ORF clone, Micromonas commoda

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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