GWD2 cDNA ORF clone, Micromonas commoda

Gene
Clones
gRNAs

Summary

Gene Symbol	GWD2
Entrez Gene ID	8244147
Full Name	carbohydrate-binding module family 45 protein
Gene Type	protein-coding
Organism	Micromonas commoda

mRNA and Protein(s)

mRNA	Protein	Name
XM_002503176.1	XP_002503222.1	carbohydrate-binding module family 45 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 GWD2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GWD2 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
OMg03201	XM_002503176.1 Latest version!	Micromonas commoda carbohydrate-binding module family 45 protein (GWD2), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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)

GWD2 ( XM_002503176.1 ) cDNA ORF clone, Micromonas commoda -> XP_002503222.1 Micromonas commoda carbohydrate-binding module family 45 protein (GWD2), partial mRNA.

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CloneID	OMg03201
Clone ID Related Accession (Same CDS sequence)	XM_002503176.1
Accession Version	XM_002503176.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4260bp) 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	carbohydrate-binding module family 45 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_013043). COMPLETENESS: incomplete on the 5' end.

ATGATCGGCA TCCCCCTCCC CGAGGGAAGG CAGCTCATCG CCACCGTCAA GACCAACCCC 
CAGGGCGTCC ACACCATCAG CCTCCAGTGC GAGCCCAACG CGCCGTTGGG ACTCCTGCTC 
CACTGGGGCG TGATTCGCTC GGCGGTGTCC CAGGACTGGC AGCTCCTCCC GCCCGAGCTC 
AACCCGCCCG GGACGGTCGT GTACAAGCAA AAGGCGCTCC AGTCCCCGTT CCCGGCGTTC 
GGGGCCCTCC AGCTCGTCCT CGATCCCGGC GTCGATGCCG TGGAATTTTG CCTCAAGGTT 
GAGACCACCG GCGACTGGAT CAACGACCAC GGTAGGAACT TTCGCATCGA GCTCGGCGGA 
TCGCCCATGG GCGCGGGCGC CGCGCCCAGG GCTCCCACGA CGTCCAACTC GTTCGCGCCC 
GAGTACACCC TGGACGTGCG CATGCCGCCC ACGCCCGCGG GGTCATCCGC GGTGAACGAA 
CTCGCCGCGG GCCTCGACGT CCTCTTCGGC GTCGCCGCGT ACCTCCGATG GGAGCAGATG 
GGTAAGCCCC GCGTGGACGA GGACGAAAAA CACCGCATCT ACTCCGACGC CGTCAACCAC 
ATCACGCAGA GGCTGAACAG CGGCGAGAGC GTCGAGGCGC TGGAGACGGA GTTTGGGGTA 
CCCCCGGGAC TCGTGCGACA AACCGCGGCG CTCGCCGCGC CTCCGGCGGC GGCGCCCACG 
CAGGCCAAGC CGACGCCGCC CCCCGGGTTC ACCCCTCCGG CGCCGCCCAA GGCGGCGCCC 
GCTCCCGCGC CCAGTTACGG GTACGACGCC GCGCCCGCGC CCGCGCCGGC CAACGCCGTG 
AAGCTCATGG TCATCGAGGG CCGGCGCACC GCTCAGGGCA TGCTGCAGAT GATCGTCTTC 
GGCAGGTCCG ACCAGGGGAT CGTGCTGCAT TGGGCCGGGC TCGACCAGCC CGCCGGTGAG 
TGGAAGAATC CCCCGCACGG TTGGAGCTCG ATGCCCGAGA ACTCGTGGGG CACCGGCGGC 
GCGAGCTGGG AGACGGAGAT GGAGGCTCTG ACCACCGCCC GGGGCTGGCA CGCCGCCACC 
ATCGAGGCGC CGTGCGACCG CGACGGTCTC GTCTTCGTCA TCCGTACCGC CGACAGCGCG 
CACTGGATCA AGGACGACGG CCAGGACTTC ATGTGCTTCG CGGATGAGGC GACGACTCTG 
ACGGATGTCC GCGCCATCGT CAAGAGGCGC AAGGAAGAGG AGCGCGCGAG GCGCAAGGCG 
GAGAAAGAGG AGCAGAGGCG CCGCGAGCGC GAGCAACAGA GGTCTTCCCC GCAGAAGCTC 
AAGCGCGGGG GGCTCAGCAC CACCACCGTC AAGGAGGTCA AGATGCCCGC CAGGCCCGAG 
GTGATCAAGC GCAAGGACTG GAACCACGAC GAGATCAAGA TGCATCAGGG CGCGCTCGGC 
CACGCGGGCG CCGCCGGTAA CGTCGCGGGC GGGTCCGTCG ACAACATCTG CAACTCGGAG 
GAGGGCGCGA CGCGCTCGCT CATGCACCGC TTCAACATCG CGTCCGACCT CATCCCTCAG 
TGCAAGGGCG AGGGCGAGGC GGGCCTCGTC GCGATGGCGG TTTGGTTCCG CTTCATGGCG 
CTCAGGCAGC TGGTTTGGAA CAACGACTAC AACATCAAGC CCAGGGAAAT CTCCGCGGCC 
CAACTCAAGT GCACGACGCA GCTCGCGGCG CTGCACAAGG ACGACCCGGC GATGCGCGAC 
GTCACCCGCT TCATCATGGC CACCATCGGC CGCGGCGGCG ACGGAGACGT CGGCCAGCGC 
ATTCGCGACG AGATTCTCGT GGTTCAGCGC AACAACAACT GCATGGGTGG CATGATGGAG 
GAGTGGCACC AGAAACTCCA CAACAACACC TCGCCCGATG ACGTCCCCAT CTGCGAGGCG 
CTCATCAAGT TCATAGCCGC CGACTGCGAC ATCTCGGTTT ACTGGGACCA CCTCCACGCC 
AACGGCATCA CCAAGGAGCG CATGGCCAGC TACGATCGCA AGATTTGTGG CGAGCCCTCG 
TTCAAGCCCG ACCAGTACGA AGGCCTCACC CGCGACCTCA AGGAGTACCT CCGCACCCTC 
AAGGCTGTGC ATTCCGGCGC AGACCTCGAC TCCGCGGCGG AGAACGTCAT GGGCTACCAC 
CAGGATGCGT GCAAGGGCAA GGAGATCAAC ATGCCCCCCG TCACCGAGGT TGCCACCGAC 
CGCATGCGAA CGCTGCTGCA CAGCGCTCGC GGCTTCCGCG ACCTCGGCGA ACCCCTGCAC 
TCCATGGAGG CCATGTTGGA GGCTAGGCGC GAGCTCTGGA ACTGGACCAG GCCCGGAGGC 
TCCGACAACA GCCGCCTCAA GGATGTCATC TACCTGGATC TCGCGCTCGA GTCGGCGGTG 
CGGCAGGTTG TGGAGGCGAA TCTCTCCTCC ATGGCGACTC GCGCTCCGGT GGACGTCCTC 
AAGATGACCG GCCTCGCGCT CGAGAACCTG GCGCTGTCGT CCGGCGGTAA CGATGAGCTC 
GTCATTTGCC TGCAGCAGTG GCAGGGCGTG GTGGGCAGCG CCATGAACGG CGGAAACGAT 
TGGGCGCTCC AGGCCAAATC CGTGGTTGAC CGCGTGAACA ACGCGCTGGG CGAGGTTTCC 
CAGCGATACA TCAACGCGCT TCAGCCCACC GCGCACGCCA TGGGCGGCAG GCTCGGGGTC 
GACGGCCACG TCCTCGACAT ATTCTCCGAG GAGGTGGTCC GCGGCACGCC CGCGGCGCCC 
CTCTCGCAGA TGCTTCGCGC GCTGGACCCC AGGCTCCGCG AGATGTCCAA CATGGGCTCC 
TGGTCCATCA TCTCCCCCGT CGAAGCCGCG GGCGTCATCG AGGTCATCAA CGACCTCAAG 
GATGTCCAGA ACAAAACATA CTCCGTGCCC ACCGTGCTGG TGTCTCGCCG CGTGGGCGGC 
GAGGAGGACA TCCCGCCCGG CGTGGTGGGT CTCATCACCC CGGACATGCC CGACGTTCTC 
GCTCACACCT CGGTTCGCGC GAGGAACGAG CGCGTCCTCT TTGCCACCGT CTTTGACGCC 
GGTCGCATGT CCGAGCTGGA GGGCATGCAC GGCCAGGCTG TTAACTGCGC GCCGGTGGGG 
GCGGACGACC TGAGGATCAC GTCCGTGGAT CCGTCCTCGC TCGGTGCGGC GCCCGGTGCC 
GGGGCGGTGA ACATGTCCAT GTCGGCTCCC CCGAGCGGCG TTAACATCGC GAAGCGCGAG 
TTTATGGGCC GGTACGCGGT TCCCTCGCCC GAGTTTACCG GCGCGATCGT CGGAGGCAAG 
TCTAGGAACC TGCAGGAGCT CCGGGGCAGG CTTCCGGACT GGATCAATCT TCCCGCGCAG 
GTGGCGCTCC CGTTCTGCAC GTTCGACGCC GTGCTCGCGC ATCCCAACAA TGGTCACATC 
GCGCAGCACT TGCAGGGTCT GCGCCAGGAG TTGGAACACC TCGACTTTAG CAACCAGGCG 
GCGTTCCAGG ACCTTCTGGG CAGGATCCGC GCGTGCATCA TGCAGATGGT TCCCACGCCG 
GAGCTCGTGG ACGAGATGTC GCGGGCGTTC GCGGCGGAGC GGCTGCCGTG GCCCGAGGGT 
CACCTCGGGC CGGAGGGCGC GGGTGGGAGC GGCGCCGCGG CGCACGCGTG GGCCGCCGTC 
ACCGGCGTGT GGGCGTCCAA GTACAACGAT CGCGCCGTGC TGAGCTGCCG CAAGGCGGGT 
CTTAGCCACG AGAACGTGTC CATGGCGGTG CTGTGTCAGC CGGTGGTGCA GTCGCAGTAC 
GCATTCGTGC TGCACACCAC CAACCCGCAG ACTGGCGACC CCAACGAAAT TTACGGAGAG 
GTCGTCTGCG GCATGGGCGA GGCGCTCGTG GGTAACTTTC CGGGCCGTGC GCTGAGCTTC 
GTGGCGAGGA AGGACGATCT GACCAACGCC AGGGTGACCG GCTTCCCTTC CAAGGCGAAC 
GGGCTGTTCA CCGACGCGCC CACGCTCATC TTCCGCTCCG ACTCAAACGG CGAAGATCTG 
GAGGGCTTCG CGGGTGCGGG CCTATACGAC TCGATCCAGA TGCACGAGGC GAAGCTCAGG 
CCGGTGGACT ACTCCAGGGA TCCCATCGTG AGCGATGAGA CTTTCCGCGC GCAGGCGCTC 
GCGGCCATCG CGCACGCCGC GAACGAGATT GAACAGGCGC TCGGATCGCC GCAGGATATC 
GAGGGGTGCA TCGCGGCGGA TGGCGCTCTC TACGTGGTGC AGACGAGGCC GCAGGTGTGA

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

RefSeq	XP_002503222.1
CDS	1..4260
Translation	MIGIPLPEGRQLIATVKTNPQGVHTISLQCEPNAPLGLLLHWGVIRSAVSQDWQLLPPELNPPGTVVYKQKALQSPFPAFGALQLVLDPGVDAVEFCLKVETTGDWINDHGRNFRIELGGSPMGAGAAPRAPTTSNSFAPEYTLDVRMPPTPAGSSAVNELAAGLDVLFGVAAYLRWEQMGKPRVDEDEKHRIYSDAVNHITQRLNSGESVEALETEFGVPPGLVRQTAALAAPPAAAPTQAKPTPPPGFTPPAPPKAAPAPAPSYGYDAAPAPAPANAVKLMVIEGRRTAQGMLQMIVFGRSDQGIVLHWAGLDQPAGEWKNPPHGWSSMPENSWGTGGASWETEMEALTTARGWHAATIEAPCDRDGLVFVIRTADSAHWIKDDGQDFMCFADEATTLTDVRAIVKRRKEEERARRKAEKEEQRRREREQQRSSPQKLKRGGLSTTTVKEVKMPARPEVIKRKDWNHDEIKMHQGALGHAGAAGNVAGGSVDNICNSEEGATRSLMHRFNIASDLIPQCKGEGEAGLVAMAVWFRFMALRQLVWNNDYNIKPREISAAQLKCTTQLAALHKDDPAMRDVTRFIMATIGRGGDGDVGQRIRDEILVVQRNNNCMGGMMEEWHQKLHNNTSPDDVPICEALIKFIAADCDISVYWDHLHANGITKERMASYDRKICGEPSFKPDQYEGLTRDLKEYLRTLKAVHSGADLDSAAENVMGYHQDACKGKEINMPPVTEVATDRMRTLLHSARGFRDLGEPLHSMEAMLEARRELWNWTRPGGSDNSRLKDVIYLDLALESAVRQVVEANLSSMATRAPVDVLKMTGLALENLALSSGGNDELVICLQQWQGVVGSAMNGGNDWALQAKSVVDRVNNALGEVSQRYINALQPTAHAMGGRLGVDGHVLDIFSEEVVRGTPAAPLSQMLRALDPRLREMSNMGSWSIISPVEAAGVIEVINDLKDVQNKTYSVPTVLVSRRVGGEEDIPPGVVGLITPDMPDVLAHTSVRARNERVLFATVFDAGRMSELEGMHGQAVNCAPVGADDLRITSVDPSSLGAAPGAGAVNMSMSAPPSGVNIAKREFMGRYAVPSPEFTGAIVGGKSRNLQELRGRLPDWINLPAQVALPFCTFDAVLAHPNNGHIAQHLQGLRQELEHLDFSNQAAFQDLLGRIRACIMQMVPTPELVDEMSRAFAAERLPWPEGHLGPEGAGGSGAAAHAWAAVTGVWASKYNDRAVLSCRKAGLSHENVSMAVLCQPVVQSQYAFVLHTTNPQTGDPNEIYGEVVCGMGEALVGNFPGRALSFVARKDDLTNARVTGFPSKANGLFTDAPTLIFRSDSNGEDLEGFAGAGLYDSIQMHEAKLRPVDYSRDPIVSDETFRAQALAAIAHAANEIEQALGSPQDIEGCIAADGALYVVQTRPQV

Target ORF information:

RefSeq Version	XM_002503176.1
Organism	Micromonas commoda
Definition	Micromonas commoda carbohydrate-binding module family 45 protein (GWD2), partial mRNA.

Target ORF information:

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

XM_002503176.1

ORF Insert Sequence:

ATGATCGGCA TCCCCCTCCC CGAGGGAAGG CAGCTCATCG CCACCGTCAA GACCAACCCC 
CAGGGCGTCC ACACCATCAG CCTCCAGTGC GAGCCCAACG CGCCGTTGGG ACTCCTGCTC 
CACTGGGGCG TGATTCGCTC GGCGGTGTCC CAGGACTGGC AGCTCCTCCC GCCCGAGCTC 
AACCCGCCCG GGACGGTCGT GTACAAGCAA AAGGCGCTCC AGTCCCCGTT CCCGGCGTTC 
GGGGCCCTCC AGCTCGTCCT CGATCCCGGC GTCGATGCCG TGGAATTTTG CCTCAAGGTT 
GAGACCACCG GCGACTGGAT CAACGACCAC GGTAGGAACT TTCGCATCGA GCTCGGCGGA 
TCGCCCATGG GCGCGGGCGC CGCGCCCAGG GCTCCCACGA CGTCCAACTC GTTCGCGCCC 
GAGTACACCC TGGACGTGCG CATGCCGCCC ACGCCCGCGG GGTCATCCGC GGTGAACGAA 
CTCGCCGCGG GCCTCGACGT CCTCTTCGGC GTCGCCGCGT ACCTCCGATG GGAGCAGATG 
GGTAAGCCCC GCGTGGACGA GGACGAAAAA CACCGCATCT ACTCCGACGC CGTCAACCAC 
ATCACGCAGA GGCTGAACAG CGGCGAGAGC GTCGAGGCGC TGGAGACGGA GTTTGGGGTA 
CCCCCGGGAC TCGTGCGACA AACCGCGGCG CTCGCCGCGC CTCCGGCGGC GGCGCCCACG 
CAGGCCAAGC CGACGCCGCC CCCCGGGTTC ACCCCTCCGG CGCCGCCCAA GGCGGCGCCC 
GCTCCCGCGC CCAGTTACGG GTACGACGCC GCGCCCGCGC CCGCGCCGGC CAACGCCGTG 
AAGCTCATGG TCATCGAGGG CCGGCGCACC GCTCAGGGCA TGCTGCAGAT GATCGTCTTC 
GGCAGGTCCG ACCAGGGGAT CGTGCTGCAT TGGGCCGGGC TCGACCAGCC CGCCGGTGAG 
TGGAAGAATC CCCCGCACGG TTGGAGCTCG ATGCCCGAGA ACTCGTGGGG CACCGGCGGC 
GCGAGCTGGG AGACGGAGAT GGAGGCTCTG ACCACCGCCC GGGGCTGGCA CGCCGCCACC 
ATCGAGGCGC CGTGCGACCG CGACGGTCTC GTCTTCGTCA TCCGTACCGC CGACAGCGCG 
CACTGGATCA AGGACGACGG CCAGGACTTC ATGTGCTTCG CGGATGAGGC GACGACTCTG 
ACGGATGTCC GCGCCATCGT CAAGAGGCGC AAGGAAGAGG AGCGCGCGAG GCGCAAGGCG 
GAGAAAGAGG AGCAGAGGCG CCGCGAGCGC GAGCAACAGA GGTCTTCCCC GCAGAAGCTC 
AAGCGCGGGG GGCTCAGCAC CACCACCGTC AAGGAGGTCA AGATGCCCGC CAGGCCCGAG 
GTGATCAAGC GCAAGGACTG GAACCACGAC GAGATCAAGA TGCATCAGGG CGCGCTCGGC 
CACGCGGGCG CCGCCGGTAA CGTCGCGGGC GGGTCCGTCG ACAACATCTG CAACTCGGAG 
GAGGGCGCGA CGCGCTCGCT CATGCACCGC TTCAACATCG CGTCCGACCT CATCCCTCAG 
TGCAAGGGCG AGGGCGAGGC GGGCCTCGTC GCGATGGCGG TTTGGTTCCG CTTCATGGCG 
CTCAGGCAGC TGGTTTGGAA CAACGACTAC AACATCAAGC CCAGGGAAAT CTCCGCGGCC 
CAACTCAAGT GCACGACGCA GCTCGCGGCG CTGCACAAGG ACGACCCGGC GATGCGCGAC 
GTCACCCGCT TCATCATGGC CACCATCGGC CGCGGCGGCG ACGGAGACGT CGGCCAGCGC 
ATTCGCGACG AGATTCTCGT GGTTCAGCGC AACAACAACT GCATGGGTGG CATGATGGAG 
GAGTGGCACC AGAAACTCCA CAACAACACC TCGCCCGATG ACGTCCCCAT CTGCGAGGCG 
CTCATCAAGT TCATAGCCGC CGACTGCGAC ATCTCGGTTT ACTGGGACCA CCTCCACGCC 
AACGGCATCA CCAAGGAGCG CATGGCCAGC TACGATCGCA AGATTTGTGG CGAGCCCTCG 
TTCAAGCCCG ACCAGTACGA AGGCCTCACC CGCGACCTCA AGGAGTACCT CCGCACCCTC 
AAGGCTGTGC ATTCCGGCGC AGACCTCGAC TCCGCGGCGG AGAACGTCAT GGGCTACCAC 
CAGGATGCGT GCAAGGGCAA GGAGATCAAC ATGCCCCCCG TCACCGAGGT TGCCACCGAC 
CGCATGCGAA CGCTGCTGCA CAGCGCTCGC GGCTTCCGCG ACCTCGGCGA ACCCCTGCAC 
TCCATGGAGG CCATGTTGGA GGCTAGGCGC GAGCTCTGGA ACTGGACCAG GCCCGGAGGC 
TCCGACAACA GCCGCCTCAA GGATGTCATC TACCTGGATC TCGCGCTCGA GTCGGCGGTG 
CGGCAGGTTG TGGAGGCGAA TCTCTCCTCC ATGGCGACTC GCGCTCCGGT GGACGTCCTC 
AAGATGACCG GCCTCGCGCT CGAGAACCTG GCGCTGTCGT CCGGCGGTAA CGATGAGCTC 
GTCATTTGCC TGCAGCAGTG GCAGGGCGTG GTGGGCAGCG CCATGAACGG CGGAAACGAT 
TGGGCGCTCC AGGCCAAATC CGTGGTTGAC CGCGTGAACA ACGCGCTGGG CGAGGTTTCC 
CAGCGATACA TCAACGCGCT TCAGCCCACC GCGCACGCCA TGGGCGGCAG GCTCGGGGTC 
GACGGCCACG TCCTCGACAT ATTCTCCGAG GAGGTGGTCC GCGGCACGCC CGCGGCGCCC 
CTCTCGCAGA TGCTTCGCGC GCTGGACCCC AGGCTCCGCG AGATGTCCAA CATGGGCTCC 
TGGTCCATCA TCTCCCCCGT CGAAGCCGCG GGCGTCATCG AGGTCATCAA CGACCTCAAG 
GATGTCCAGA ACAAAACATA CTCCGTGCCC ACCGTGCTGG TGTCTCGCCG CGTGGGCGGC 
GAGGAGGACA TCCCGCCCGG CGTGGTGGGT CTCATCACCC CGGACATGCC CGACGTTCTC 
GCTCACACCT CGGTTCGCGC GAGGAACGAG CGCGTCCTCT TTGCCACCGT CTTTGACGCC 
GGTCGCATGT CCGAGCTGGA GGGCATGCAC GGCCAGGCTG TTAACTGCGC GCCGGTGGGG 
GCGGACGACC TGAGGATCAC GTCCGTGGAT CCGTCCTCGC TCGGTGCGGC GCCCGGTGCC 
GGGGCGGTGA ACATGTCCAT GTCGGCTCCC CCGAGCGGCG TTAACATCGC GAAGCGCGAG 
TTTATGGGCC GGTACGCGGT TCCCTCGCCC GAGTTTACCG GCGCGATCGT CGGAGGCAAG 
TCTAGGAACC TGCAGGAGCT CCGGGGCAGG CTTCCGGACT GGATCAATCT TCCCGCGCAG 
GTGGCGCTCC CGTTCTGCAC GTTCGACGCC GTGCTCGCGC ATCCCAACAA TGGTCACATC 
GCGCAGCACT TGCAGGGTCT GCGCCAGGAG TTGGAACACC TCGACTTTAG CAACCAGGCG 
GCGTTCCAGG ACCTTCTGGG CAGGATCCGC GCGTGCATCA TGCAGATGGT TCCCACGCCG 
GAGCTCGTGG ACGAGATGTC GCGGGCGTTC GCGGCGGAGC GGCTGCCGTG GCCCGAGGGT 
CACCTCGGGC CGGAGGGCGC GGGTGGGAGC GGCGCCGCGG CGCACGCGTG GGCCGCCGTC 
ACCGGCGTGT GGGCGTCCAA GTACAACGAT CGCGCCGTGC TGAGCTGCCG CAAGGCGGGT 
CTTAGCCACG AGAACGTGTC CATGGCGGTG CTGTGTCAGC CGGTGGTGCA GTCGCAGTAC 
GCATTCGTGC TGCACACCAC CAACCCGCAG ACTGGCGACC CCAACGAAAT TTACGGAGAG 
GTCGTCTGCG GCATGGGCGA GGCGCTCGTG GGTAACTTTC CGGGCCGTGC GCTGAGCTTC 
GTGGCGAGGA AGGACGATCT GACCAACGCC AGGGTGACCG GCTTCCCTTC CAAGGCGAAC 
GGGCTGTTCA CCGACGCGCC CACGCTCATC TTCCGCTCCG ACTCAAACGG CGAAGATCTG 
GAGGGCTTCG CGGGTGCGGG CCTATACGAC TCGATCCAGA TGCACGAGGC GAAGCTCAGG 
CCGGTGGACT ACTCCAGGGA TCCCATCGTG AGCGATGAGA CTTTCCGCGC GCAGGCGCTC 
GCGGCCATCG CGCACGCCGC GAACGAGATT GAACAGGCGC TCGGATCGCC GCAGGATATC 
GAGGGGTGCA TCGCGGCGGA TGGCGCTCTC TACGTGGTGC AGACGAGGCC GCAGGTGTGA

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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GWD2 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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