LOC104785820 cDNA ORF clone, Camelina sativa(false flax)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC104785820
Entrez Gene ID	104785820
Full Name	putative white-brown complex homolog protein 30
Gene Type	protein-coding
Organism	Camelina sativa(false flax)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010511105.1	XP_010509407.1	putative white-brown complex homolog protein 30 isoform X2
XM_010511104.1	XP_010509406.1	putative white-brown complex homolog protein 30 isoform X1

Pathways from BioSystems
Gene Ontology

The following LOC104785820 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC104785820 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
OCa227544	XM_010511105.1 Latest version!	Camelina sativa putative white-brown complex homolog protein 30 (LOC104785820), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OCa227543	XM_010511104.1 Latest version!	Camelina sativa putative white-brown complex homolog protein 30 (LOC104785820), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00

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)

LOC104785820 ( XM_010511105.1 ) cDNA ORF clone, Camelina sativa(false flax) -> XP_010509407.1 Camelina sativa putative white-brown complex homolog protein 30 (LOC104785820), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OCa227544
Clone ID Related Accession (Same CDS sequence)	XM_010511105.1
Accession Version	XM_010511105.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3249bp) 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	2016-11-28
Organism	Camelina sativa(false flax)
Product	putative white-brown complex homolog protein 30 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_025689.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Camelina sativa Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGAGTTA GGGTTGATGT TTGTCGGACA CAACACATCT TATTGTTCTT TGTTTTTTTG 
TTGAGTTTTA TATCTTTTGC ATTATGCCTG GATGGAGATG ATTATAGCAA GACAGGGAAC 
CCTAAAGTTC TTGTTTCCGT TACAAACCTT ATATATAGTC GACTTCAGAA TCTAAAGAAC 
GTCTTAAAGG CTGACGTTGA TCGAGATTTA GGATATTGCA TCAAAAATTT GAAGAACGAT 
TGGAATGAAG CATTTAACTT TGATAAAAAT CTTGACTTCT TAAGCAATTG TGTCAAAAGA 
ACTGATGGTG ACCTCACAAT TAGACTATGT ACAGCTGCTG AGATAAAGTT CTACTTCAAT 
AGTTTTGTTA GAAGAGATGA AGCAACAACG GTTCATGTAA GGCCTAACAT CAACTGCAAT 
TTAGCTAAAT GGGTTTCTGG ATGTGAGCCA GGATGGAGTT GCAATGCGGA TGACGATAAA 
AAATTTGATC TCAACAATGG AAAAGTTCTT CCCTCTAGAA CTCGTAAATG TCAACCCTGT 
TGTGAGGGTT TCTTTTGTCC ACAAGGTCTT GCTTGCATGA TACCGTGTCC ATTAGGCGCA 
TATTGCCCGC TTGCCAAGCT TAATAAAACA ACGGGAATTT GCGAGCCATA TAATTACCAG 
ATTCCTCCGG GAAAAGTGAA CCATACATGT GGTTCAGCAG ATAGTTGGGT TGATGCCGAG 
AGTAGTGGTG ATATGTTTTG TTCTCCAGGT TCATATTGCC CAACAACCAT TCGAAAGGTC 
ACTTGTAGTA GTGGGCATTA CTGCAGGCAA GGTTCTACTT CACAAAAACC ATGTTTCAAG 
CTCGCAACAT GTAATCCGAA TACCGCAAAC CAAAATATTC ATGCCTATGG AGCTATCTTA 
ATTGCATCAC TAAGTCTTGT GATGATCATG GTTTATAACT GTTCTGATCA AGTTCTTGCC 
ACTCGAGAGA AAAGGCAAGC AAAATCAAGA GAAGCTGCAG CAAGACACGC AAAAGAAACA 
ACACAAGCTC GAGAAAGGTG GAAAACTGCA AAAGATGTTG CCAAGAACCA AAAGTTGGGA 
TTGTCTGCAC AACTATCTCA GACATTTTCT CGCATGAAGT CTGCTAGGAA GGATGCCGCA 
CCAGCTAAAG CTTCTGGAAA GTCAAAAGAC AAGAAAAAAG AAGCAAGTAA TTTAACCAAG 
ATGATGAAAT CAATGGAGGA GAACTCGAGT AACAACGAAG GGTTTAACGT AGGAACTGGT 
AGTAAGCATG GGAAGAAGCC ACAAGCTCCA AAGGGTAAAC AACTACATAC TCAAAGCCAG 
ATTTTTAAGT ATGCATATGG TCAGATTGAG AAGGAGAAAG CTATGGAGCA AAACAATAAA 
AACTTGACAT TCTCTGGAGT CATTTCGATG GCCACTGACA CTGATATGAG GACTAGACCT 
GTTATAGAAG TTGCGTTTAA AGACTTAACT CTTACATTGA AGGGTAAACA TAAGCATATA 
TTGAGATCTG TTACGGGAAA GATCATGCCC GGTCGTGTCT CTGCCGTCAT GGGTCCATCA 
GGAGCTGGGA AAACTACATT TCTTTCTGCC TTGGCAGGAA AAACAACTGG ATGTACGAGG 
ACTGGTCTTA TCCTCATAAA TGGTAAAAAT GAATCCATAA ACTCATACAA GAAGATAACT 
GGATTTGTTC CACAAGATGA TGTTGTGCAT GGGAATCTTA CCGTCGAGGA GAACCTTCGG 
TTTAGCGCAA GATGCAGATT AAGTGCTTAT ATGTCAAAAG CAGACAAAGT GTTGATCATT 
GAAAGAGTGA TTGAAAGCTT AGGACTACAA CATGTAAGAG ACTCGTTGGT TGGTACGGTA 
GAGAAAAGAG GAATCTCTGG AGGACAGAGG AAACGAGTGA ACGTTGGTGT TGAAATGGTC 
ATGGAACCTT CTCTACTGAT ATTAGATGAA CCCACTACAG GTTTAGATAG TGCATCATCA 
CAGTTACTTC TTAGAGCACT TCGACGTGAA GCACTTGAAG GAGTTAACAT ATGTATGGTC 
GTGCATCAAC CCAGTTATAC GATGTACAAA ATGTTCGATG ATATGATAAT ACTAGCAAAA 
GGTGGTCTTA CCGTGTACCA TGGATCTGTC AAAAAAATCG AAGAATATTT TGCTGACATT 
GGGATCACCG TACCTGATCG TGTCAATCCT CCTGATCATT ATATAGATAT TCTTGAAGGC 
ATAGTGAAAC CAGATGGTGA TATAACAGTA GAGCAGCTTC CTGTGAGATG GATGTTACAC 
AATGGTTACC CTGTGCCTCA TGATATGTTG AAGCTTTGTG ATGGACTCCC TTCATCATCA 
TCTGGATCAG CTCAAGATGA ATCCTCTCAT AATTCTTTTA GTAATGATCT ATGGCAAGAT 
GTGAAAACTA ATGTGGAGAT CACGAAAGAT CAGTTGCAAC AAAATTACTC GAACTCTCAT 
GACAATTCTG ATCGAGTAAC TCCTACAGTA GGTCGACAAT ATAGATATTT TGTTGGAAGG 
GTTGGCAAAC AAAGACTTAG AGAAGCAAGA CTACAAGCGT TAGATTTCTT AATATTATTA 
GTTGCAGGAG CTTGTTTAGG AACTCTTGCT AAAGTGAACG ACGAGACCAT TGATACACTT 
GGCTACACAT ATACGATTAT AGCCGTCTCT CTTTTGTGTA AGATCTCAGC GTTGAGATCT 
TTCTCTGTGG ATAAAATACA ATATTGGAGA GAAAGTGCCG CTGGAATCAG CAGTTTGGCA 
CATTTTATGG CTAAAGACAC AATGGATCAT TTGAACACAT TTTTGAAACC TTTAGTGTAC 
TTGTCCATGT TCTACTTCTT CAACAACCCG AGATCTAGTT TCGAAGACAA CTACATTGTT 
CTAGTCTGCT TGGTCTACTG CGTTACGGGC ATGGCTTATG TATTTGCCAT ATTGTATAGT 
GCTAGTGCAG CCCAACTGTT GTCCGTGTTA GTACCCGTTG TAATGACTCT CATCGCGAAT 
CAAGATAAAG AAAGCATGGT TCTTAAGTAT CTCGGAAGCT TTTGCTACCC CAAATGGACT 
CTTGAAGCTT TTGTGCTTTC AAACGCTCAA AGGTACTCTG GAGTATGGGT GGTGACGCGA 
TGCAGCTCAC TGTCACAAAA CGGATATGAT CTTAGTGATT GGATATTATG TCTCATTGTT 
CTCATTCTCA TGGGACTAAT TTGCCGATTC ATAGCTTATT TCTGCATGGT TACATTCCAG 
AAAAAATAA

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

RefSeq	XP_010509407.1
CDS	277..3525
Translation	MRVRVDVCRTQHILLFFVFLLSFISFALCLDGDDYSKTGNPKVLVSVTNLIYSRLQNLKNVLKADVDRDLGYCIKNLKNDWNEAFNFDKNLDFLSNCVKRTDGDLTIRLCTAAEIKFYFNSFVRRDEATTVHVRPNINCNLAKWVSGCEPGWSCNADDDKKFDLNNGKVLPSRTRKCQPCCEGFFCPQGLACMIPCPLGAYCPLAKLNKTTGICEPYNYQIPPGKVNHTCGSADSWVDAESSGDMFCSPGSYCPTTIRKVTCSSGHYCRQGSTSQKPCFKLATCNPNTANQNIHAYGAILIASLSLVMIMVYNCSDQVLATREKRQAKSREAAARHAKETTQARERWKTAKDVAKNQKLGLSAQLSQTFSRMKSARKDAAPAKASGKSKDKKKEASNLTKMMKSMEENSSNNEGFNVGTGSKHGKKPQAPKGKQLHTQSQIFKYAYGQIEKEKAMEQNNKNLTFSGVISMATDTDMRTRPVIEVAFKDLTLTLKGKHKHILRSVTGKIMPGRVSAVMGPSGAGKTTFLSALAGKTTGCTRTGLILINGKNESINSYKKITGFVPQDDVVHGNLTVEENLRFSARCRLSAYMSKADKVLIIERVIESLGLQHVRDSLVGTVEKRGISGGQRKRVNVGVEMVMEPSLLILDEPTTGLDSASSQLLLRALRREALEGVNICMVVHQPSYTMYKMFDDMIILAKGGLTVYHGSVKKIEEYFADIGITVPDRVNPPDHYIDILEGIVKPDGDITVEQLPVRWMLHNGYPVPHDMLKLCDGLPSSSSGSAQDESSHNSFSNDLWQDVKTNVEITKDQLQQNYSNSHDNSDRVTPTVGRQYRYFVGRVGKQRLREARLQALDFLILLVAGACLGTLAKVNDETIDTLGYTYTIIAVSLLCKISALRSFSVDKIQYWRESAAGISSLAHFMAKDTMDHLNTFLKPLVYLSMFYFFNNPRSSFEDNYIVLVCLVYCVTGMAYVFAILYSASAAQLLSVLVPVVMTLIANQDKESMVLKYLGSFCYPKWTLEAFVLSNAQRYSGVWVVTRCSSLSQNGYDLSDWILCLIVLILMGLICRFIAYFCMVTFQKK

Target ORF information:

RefSeq Version	XM_010511105.1
Organism	Camelina sativa(false flax)
Definition	Camelina sativa putative white-brown complex homolog protein 30 (LOC104785820), transcript variant X2, mRNA.

Target ORF information:

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

XM_010511105.1

ORF Insert Sequence:

ATGAGAGTTA GGGTTGATGT TTGTCGGACA CAACACATCT TATTGTTCTT TGTTTTTTTG 
TTGAGTTTTA TATCTTTTGC ATTATGCCTG GATGGAGATG ATTATAGCAA GACAGGGAAC 
CCTAAAGTTC TTGTTTCCGT TACAAACCTT ATATATAGTC GACTTCAGAA TCTAAAGAAC 
GTCTTAAAGG CTGACGTTGA TCGAGATTTA GGATATTGCA TCAAAAATTT GAAGAACGAT 
TGGAATGAAG CATTTAACTT TGATAAAAAT CTTGACTTCT TAAGCAATTG TGTCAAAAGA 
ACTGATGGTG ACCTCACAAT TAGACTATGT ACAGCTGCTG AGATAAAGTT CTACTTCAAT 
AGTTTTGTTA GAAGAGATGA AGCAACAACG GTTCATGTAA GGCCTAACAT CAACTGCAAT 
TTAGCTAAAT GGGTTTCTGG ATGTGAGCCA GGATGGAGTT GCAATGCGGA TGACGATAAA 
AAATTTGATC TCAACAATGG AAAAGTTCTT CCCTCTAGAA CTCGTAAATG TCAACCCTGT 
TGTGAGGGTT TCTTTTGTCC ACAAGGTCTT GCTTGCATGA TACCGTGTCC ATTAGGCGCA 
TATTGCCCGC TTGCCAAGCT TAATAAAACA ACGGGAATTT GCGAGCCATA TAATTACCAG 
ATTCCTCCGG GAAAAGTGAA CCATACATGT GGTTCAGCAG ATAGTTGGGT TGATGCCGAG 
AGTAGTGGTG ATATGTTTTG TTCTCCAGGT TCATATTGCC CAACAACCAT TCGAAAGGTC 
ACTTGTAGTA GTGGGCATTA CTGCAGGCAA GGTTCTACTT CACAAAAACC ATGTTTCAAG 
CTCGCAACAT GTAATCCGAA TACCGCAAAC CAAAATATTC ATGCCTATGG AGCTATCTTA 
ATTGCATCAC TAAGTCTTGT GATGATCATG GTTTATAACT GTTCTGATCA AGTTCTTGCC 
ACTCGAGAGA AAAGGCAAGC AAAATCAAGA GAAGCTGCAG CAAGACACGC AAAAGAAACA 
ACACAAGCTC GAGAAAGGTG GAAAACTGCA AAAGATGTTG CCAAGAACCA AAAGTTGGGA 
TTGTCTGCAC AACTATCTCA GACATTTTCT CGCATGAAGT CTGCTAGGAA GGATGCCGCA 
CCAGCTAAAG CTTCTGGAAA GTCAAAAGAC AAGAAAAAAG AAGCAAGTAA TTTAACCAAG 
ATGATGAAAT CAATGGAGGA GAACTCGAGT AACAACGAAG GGTTTAACGT AGGAACTGGT 
AGTAAGCATG GGAAGAAGCC ACAAGCTCCA AAGGGTAAAC AACTACATAC TCAAAGCCAG 
ATTTTTAAGT ATGCATATGG TCAGATTGAG AAGGAGAAAG CTATGGAGCA AAACAATAAA 
AACTTGACAT TCTCTGGAGT CATTTCGATG GCCACTGACA CTGATATGAG GACTAGACCT 
GTTATAGAAG TTGCGTTTAA AGACTTAACT CTTACATTGA AGGGTAAACA TAAGCATATA 
TTGAGATCTG TTACGGGAAA GATCATGCCC GGTCGTGTCT CTGCCGTCAT GGGTCCATCA 
GGAGCTGGGA AAACTACATT TCTTTCTGCC TTGGCAGGAA AAACAACTGG ATGTACGAGG 
ACTGGTCTTA TCCTCATAAA TGGTAAAAAT GAATCCATAA ACTCATACAA GAAGATAACT 
GGATTTGTTC CACAAGATGA TGTTGTGCAT GGGAATCTTA CCGTCGAGGA GAACCTTCGG 
TTTAGCGCAA GATGCAGATT AAGTGCTTAT ATGTCAAAAG CAGACAAAGT GTTGATCATT 
GAAAGAGTGA TTGAAAGCTT AGGACTACAA CATGTAAGAG ACTCGTTGGT TGGTACGGTA 
GAGAAAAGAG GAATCTCTGG AGGACAGAGG AAACGAGTGA ACGTTGGTGT TGAAATGGTC 
ATGGAACCTT CTCTACTGAT ATTAGATGAA CCCACTACAG GTTTAGATAG TGCATCATCA 
CAGTTACTTC TTAGAGCACT TCGACGTGAA GCACTTGAAG GAGTTAACAT ATGTATGGTC 
GTGCATCAAC CCAGTTATAC GATGTACAAA ATGTTCGATG ATATGATAAT ACTAGCAAAA 
GGTGGTCTTA CCGTGTACCA TGGATCTGTC AAAAAAATCG AAGAATATTT TGCTGACATT 
GGGATCACCG TACCTGATCG TGTCAATCCT CCTGATCATT ATATAGATAT TCTTGAAGGC 
ATAGTGAAAC CAGATGGTGA TATAACAGTA GAGCAGCTTC CTGTGAGATG GATGTTACAC 
AATGGTTACC CTGTGCCTCA TGATATGTTG AAGCTTTGTG ATGGACTCCC TTCATCATCA 
TCTGGATCAG CTCAAGATGA ATCCTCTCAT AATTCTTTTA GTAATGATCT ATGGCAAGAT 
GTGAAAACTA ATGTGGAGAT CACGAAAGAT CAGTTGCAAC AAAATTACTC GAACTCTCAT 
GACAATTCTG ATCGAGTAAC TCCTACAGTA GGTCGACAAT ATAGATATTT TGTTGGAAGG 
GTTGGCAAAC AAAGACTTAG AGAAGCAAGA CTACAAGCGT TAGATTTCTT AATATTATTA 
GTTGCAGGAG CTTGTTTAGG AACTCTTGCT AAAGTGAACG ACGAGACCAT TGATACACTT 
GGCTACACAT ATACGATTAT AGCCGTCTCT CTTTTGTGTA AGATCTCAGC GTTGAGATCT 
TTCTCTGTGG ATAAAATACA ATATTGGAGA GAAAGTGCCG CTGGAATCAG CAGTTTGGCA 
CATTTTATGG CTAAAGACAC AATGGATCAT TTGAACACAT TTTTGAAACC TTTAGTGTAC 
TTGTCCATGT TCTACTTCTT CAACAACCCG AGATCTAGTT TCGAAGACAA CTACATTGTT 
CTAGTCTGCT TGGTCTACTG CGTTACGGGC ATGGCTTATG TATTTGCCAT ATTGTATAGT 
GCTAGTGCAG CCCAACTGTT GTCCGTGTTA GTACCCGTTG TAATGACTCT CATCGCGAAT 
CAAGATAAAG AAAGCATGGT TCTTAAGTAT CTCGGAAGCT TTTGCTACCC CAAATGGACT 
CTTGAAGCTT TTGTGCTTTC AAACGCTCAA AGGTACTCTG GAGTATGGGT GGTGACGCGA 
TGCAGCTCAC TGTCACAAAA CGGATATGAT CTTAGTGATT GGATATTATG TCTCATTGTT 
CTCATTCTCA TGGGACTAAT TTGCCGATTC ATAGCTTATT TCTGCATGGT TACATTCCAG 
AAAAAATAA

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

LOC104785820 ( XM_010511104.1 ) cDNA ORF clone, Camelina sativa(false flax) -> XP_010509406.1 Camelina sativa putative white-brown complex homolog protein 30 (LOC104785820), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OCa227543
Clone ID Related Accession (Same CDS sequence)	XM_010511104.1
Accession Version	XM_010511104.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3279bp) 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	2016-11-28
Organism	Camelina sativa(false flax)
Product	putative white-brown complex homolog protein 30 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_025689.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Camelina sativa Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGAGTTA GGGTTGATGT TTGTCGGACA CAACACATCT TATTGTTCTT TGTTTTTTTG 
TTGAGTTTTA TATCTTTTGC ATTATGCCTG GATGGAGATG ATTATAGCAA GACAGGGAAC 
CCTAAAGTTC TTGTTTCCGT TACAAACCTT ATATATAGTC GACTTCAGAA TCTAAAGAAC 
GTCTTAAAGG CTGACGTTGA TCGAGATTTA GGATATTGCA TCAAAAATTT GAAGAACGAT 
TGGAATGAAG CATTTAACTT TGATAAAAAT CTTGACTTCT TAAGCAATTG TGTCAAAAGA 
ACTGATGGTG ACCTCACAAT TAGACTATGT ACAGCTGCTG AGATAAAGTT CTACTTCAAT 
AGTTTTGTTA GAAGAGATGA AGCAACAACG GTTCATGTAA GGCCTAACAT CAACTGCAAT 
TTAGCTAAAT GGGTTTCTGG ATGTGAGCCA GGATGGAGTT GCAATGCGGA TGACGATAAA 
AAATTTGATC TCAACAATGG AAAAGTTCTT CCCTCTAGAA CTCGTAAATG TCAACCCTGT 
TGTGAGGGTT TCTTTTGTCC ACAAGGTCTT GCTTGCATGA TACCGTGTCC ATTAGGCGCA 
TATTGCCCGC TTGCCAAGCT TAATAAAACA ACGGGAATTT GCGAGCCATA TAATTACCAG 
ATTCCTCCGG GAAAAGTGAA CCATACATGT GGTTCAGCAG ATAGTTGGGT TGATGCCGAG 
AGTAGTGGTG ATATGTTTTG TTCTCCAGGT TCATATTGCC CAACAACCAT TCGAAAGGTC 
ACTTGTAGTA GTGGGCATTA CTGCAGGCAA GGTTCTACTT CACAAAAACC ATGTTTCAAG 
CTCGCAACAT GTAATCCGAA TACCGCAAAC CAAAATATTC ATGCCTATGG AGCTATCTTA 
ATTGCATCAC TAAGTCTTGT GATGATCATG GTTTATAACT GTTCTGATCA AGTTCTTGCC 
ACTCGAGAGA AAAGGCAAGC AAAATCAAGA GAAGCTGCAG CAAGACACGC AAAAGAAACA 
ACACAAGCTC GAGAAAGGTG GAAAACTGCA AAAGATGTTG CCAAGAACCA AAAGTTGGGA 
TTGTCTGCAC AACTATCTCA GACATTTTCT CGCATGAAGT CTGCTAGGAA GGATGCCGCA 
CCAGCTAAAG CTTCTGGAAA GTCAAAAGAC AAGAAAAAAG AAGCAAGTAA TTTAACCAAG 
ATGATGAAAT CAATGGAGGA GAACTCGAGT AACAACGAAG GGTTTAACGT AGGAACTGGT 
AGTAAGCATG GGAAGAAGCC ACAAGCTCCA AAGGGTAAAC AACTACATAC TCAAAGCCAG 
ATTTTTAAGT ATGCATATGG TCAGATTGAG AAGGAGAAAG CTATGGAGCA AAACAATAAA 
AACTTGACAT TCTCTGGAGT CATTTCGATG GCCACTGACA CTGATATGAG GACTAGACCT 
GTTATAGAAG TTGCGTTTAA AGACTTAACT CTTACATTGA AGGGTAAACA TAAGCATATA 
TTGAGATCTG TTACGGGAAA GATCATGCCC GGTCGTGTCT CTGCCGTCAT GGGTCCATCA 
GGAGCTGGGA AAACTACATT TCTTTCTGCC TTGGCAGGAA AAACAACTGG ATGTACGAGG 
ACTGGTCTTA TCCTCATAAA TGGTAAAAAT GAATCCATAA ACTCATACAA GAAGATAACT 
GGATTTGTTC CACAAGATGA TGTTGTGCAT GGGAATCTTA CCGTCGAGGA GAACCTTCGG 
TTTAGCGCAA GATGCAGATT AAGTGCTTAT ATGTCAAAAG CAGACAAAGT GTTGATCATT 
GAAAGAGTGA TTGAAAGCTT AGGACTACAA CATGTAAGAG ACTCGTTGGT TGGTACGGTA 
GAGAAAAGAG GAATCTCTGG AGGACAGAGG AAACGAGTGA ACGTTGGTGT TGAAATGGTC 
ATGGAACCTT CTCTACTGAT ATTAGATGAA CCCACTACAG GTTTAGATAG TGCATCATCA 
CAGTTACTTC TTAGAGCACT TCGACGTGAA GCACTTGAAG GAGTTAACAT ATGTATGGTC 
GTGCATCAAC CCAGTTATAC GATGTACAAA ATGTTCGATG ATATGATAAT ACTAGCAAAA 
GGTGGTCTTA CCGTGTACCA TGGATCTGTC AAAAAAATCG AAGAATATTT TGCTGACATT 
GGGATCACCG TACCTGATCG TGTCAATCCT CCTGATCATT ATATAGATAT TCTTGAAGGC 
ATAGTGAAAC CAGATGGTGA TATAACAGTA GAGCAGCTTC CTGTGAGATG GATGTTACAC 
AATGGTTACC CTGTGCCTCA TGATATGTTG AAGCTTTGTG ATGGACTCCC TTCATCATCA 
TCTGGATCAG CTCAAGATGA ATCCTCTCAT AATTCTTTTA CTCAAGATGA ATCCTCTCAT 
AATTCTTTTA GTAATGATCT ATGGCAAGAT GTGAAAACTA ATGTGGAGAT CACGAAAGAT 
CAGTTGCAAC AAAATTACTC GAACTCTCAT GACAATTCTG ATCGAGTAAC TCCTACAGTA 
GGTCGACAAT ATAGATATTT TGTTGGAAGG GTTGGCAAAC AAAGACTTAG AGAAGCAAGA 
CTACAAGCGT TAGATTTCTT AATATTATTA GTTGCAGGAG CTTGTTTAGG AACTCTTGCT 
AAAGTGAACG ACGAGACCAT TGATACACTT GGCTACACAT ATACGATTAT AGCCGTCTCT 
CTTTTGTGTA AGATCTCAGC GTTGAGATCT TTCTCTGTGG ATAAAATACA ATATTGGAGA 
GAAAGTGCCG CTGGAATCAG CAGTTTGGCA CATTTTATGG CTAAAGACAC AATGGATCAT 
TTGAACACAT TTTTGAAACC TTTAGTGTAC TTGTCCATGT TCTACTTCTT CAACAACCCG 
AGATCTAGTT TCGAAGACAA CTACATTGTT CTAGTCTGCT TGGTCTACTG CGTTACGGGC 
ATGGCTTATG TATTTGCCAT ATTGTATAGT GCTAGTGCAG CCCAACTGTT GTCCGTGTTA 
GTACCCGTTG TAATGACTCT CATCGCGAAT CAAGATAAAG AAAGCATGGT TCTTAAGTAT 
CTCGGAAGCT TTTGCTACCC CAAATGGACT CTTGAAGCTT TTGTGCTTTC AAACGCTCAA 
AGGTACTCTG GAGTATGGGT GGTGACGCGA TGCAGCTCAC TGTCACAAAA CGGATATGAT 
CTTAGTGATT GGATATTATG TCTCATTGTT CTCATTCTCA TGGGACTAAT TTGCCGATTC 
ATAGCTTATT TCTGCATGGT TACATTCCAG AAAAAATAA

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

RefSeq	XP_010509406.1
CDS	277..3555
Translation	MRVRVDVCRTQHILLFFVFLLSFISFALCLDGDDYSKTGNPKVLVSVTNLIYSRLQNLKNVLKADVDRDLGYCIKNLKNDWNEAFNFDKNLDFLSNCVKRTDGDLTIRLCTAAEIKFYFNSFVRRDEATTVHVRPNINCNLAKWVSGCEPGWSCNADDDKKFDLNNGKVLPSRTRKCQPCCEGFFCPQGLACMIPCPLGAYCPLAKLNKTTGICEPYNYQIPPGKVNHTCGSADSWVDAESSGDMFCSPGSYCPTTIRKVTCSSGHYCRQGSTSQKPCFKLATCNPNTANQNIHAYGAILIASLSLVMIMVYNCSDQVLATREKRQAKSREAAARHAKETTQARERWKTAKDVAKNQKLGLSAQLSQTFSRMKSARKDAAPAKASGKSKDKKKEASNLTKMMKSMEENSSNNEGFNVGTGSKHGKKPQAPKGKQLHTQSQIFKYAYGQIEKEKAMEQNNKNLTFSGVISMATDTDMRTRPVIEVAFKDLTLTLKGKHKHILRSVTGKIMPGRVSAVMGPSGAGKTTFLSALAGKTTGCTRTGLILINGKNESINSYKKITGFVPQDDVVHGNLTVEENLRFSARCRLSAYMSKADKVLIIERVIESLGLQHVRDSLVGTVEKRGISGGQRKRVNVGVEMVMEPSLLILDEPTTGLDSASSQLLLRALRREALEGVNICMVVHQPSYTMYKMFDDMIILAKGGLTVYHGSVKKIEEYFADIGITVPDRVNPPDHYIDILEGIVKPDGDITVEQLPVRWMLHNGYPVPHDMLKLCDGLPSSSSGSAQDESSHNSFTQDESSHNSFSNDLWQDVKTNVEITKDQLQQNYSNSHDNSDRVTPTVGRQYRYFVGRVGKQRLREARLQALDFLILLVAGACLGTLAKVNDETIDTLGYTYTIIAVSLLCKISALRSFSVDKIQYWRESAAGISSLAHFMAKDTMDHLNTFLKPLVYLSMFYFFNNPRSSFEDNYIVLVCLVYCVTGMAYVFAILYSASAAQLLSVLVPVVMTLIANQDKESMVLKYLGSFCYPKWTLEAFVLSNAQRYSGVWVVTRCSSLSQNGYDLSDWILCLIVLILMGLICRFIAYFCMVTFQKK

Target ORF information:

RefSeq Version	XM_010511104.1
Organism	Camelina sativa(false flax)
Definition	Camelina sativa putative white-brown complex homolog protein 30 (LOC104785820), transcript variant X1, mRNA.

Target ORF information:

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

XM_010511104.1

ORF Insert Sequence:

ATGAGAGTTA GGGTTGATGT TTGTCGGACA CAACACATCT TATTGTTCTT TGTTTTTTTG 
TTGAGTTTTA TATCTTTTGC ATTATGCCTG GATGGAGATG ATTATAGCAA GACAGGGAAC 
CCTAAAGTTC TTGTTTCCGT TACAAACCTT ATATATAGTC GACTTCAGAA TCTAAAGAAC 
GTCTTAAAGG CTGACGTTGA TCGAGATTTA GGATATTGCA TCAAAAATTT GAAGAACGAT 
TGGAATGAAG CATTTAACTT TGATAAAAAT CTTGACTTCT TAAGCAATTG TGTCAAAAGA 
ACTGATGGTG ACCTCACAAT TAGACTATGT ACAGCTGCTG AGATAAAGTT CTACTTCAAT 
AGTTTTGTTA GAAGAGATGA AGCAACAACG GTTCATGTAA GGCCTAACAT CAACTGCAAT 
TTAGCTAAAT GGGTTTCTGG ATGTGAGCCA GGATGGAGTT GCAATGCGGA TGACGATAAA 
AAATTTGATC TCAACAATGG AAAAGTTCTT CCCTCTAGAA CTCGTAAATG TCAACCCTGT 
TGTGAGGGTT TCTTTTGTCC ACAAGGTCTT GCTTGCATGA TACCGTGTCC ATTAGGCGCA 
TATTGCCCGC TTGCCAAGCT TAATAAAACA ACGGGAATTT GCGAGCCATA TAATTACCAG 
ATTCCTCCGG GAAAAGTGAA CCATACATGT GGTTCAGCAG ATAGTTGGGT TGATGCCGAG 
AGTAGTGGTG ATATGTTTTG TTCTCCAGGT TCATATTGCC CAACAACCAT TCGAAAGGTC 
ACTTGTAGTA GTGGGCATTA CTGCAGGCAA GGTTCTACTT CACAAAAACC ATGTTTCAAG 
CTCGCAACAT GTAATCCGAA TACCGCAAAC CAAAATATTC ATGCCTATGG AGCTATCTTA 
ATTGCATCAC TAAGTCTTGT GATGATCATG GTTTATAACT GTTCTGATCA AGTTCTTGCC 
ACTCGAGAGA AAAGGCAAGC AAAATCAAGA GAAGCTGCAG CAAGACACGC AAAAGAAACA 
ACACAAGCTC GAGAAAGGTG GAAAACTGCA AAAGATGTTG CCAAGAACCA AAAGTTGGGA 
TTGTCTGCAC AACTATCTCA GACATTTTCT CGCATGAAGT CTGCTAGGAA GGATGCCGCA 
CCAGCTAAAG CTTCTGGAAA GTCAAAAGAC AAGAAAAAAG AAGCAAGTAA TTTAACCAAG 
ATGATGAAAT CAATGGAGGA GAACTCGAGT AACAACGAAG GGTTTAACGT AGGAACTGGT 
AGTAAGCATG GGAAGAAGCC ACAAGCTCCA AAGGGTAAAC AACTACATAC TCAAAGCCAG 
ATTTTTAAGT ATGCATATGG TCAGATTGAG AAGGAGAAAG CTATGGAGCA AAACAATAAA 
AACTTGACAT TCTCTGGAGT CATTTCGATG GCCACTGACA CTGATATGAG GACTAGACCT 
GTTATAGAAG TTGCGTTTAA AGACTTAACT CTTACATTGA AGGGTAAACA TAAGCATATA 
TTGAGATCTG TTACGGGAAA GATCATGCCC GGTCGTGTCT CTGCCGTCAT GGGTCCATCA 
GGAGCTGGGA AAACTACATT TCTTTCTGCC TTGGCAGGAA AAACAACTGG ATGTACGAGG 
ACTGGTCTTA TCCTCATAAA TGGTAAAAAT GAATCCATAA ACTCATACAA GAAGATAACT 
GGATTTGTTC CACAAGATGA TGTTGTGCAT GGGAATCTTA CCGTCGAGGA GAACCTTCGG 
TTTAGCGCAA GATGCAGATT AAGTGCTTAT ATGTCAAAAG CAGACAAAGT GTTGATCATT 
GAAAGAGTGA TTGAAAGCTT AGGACTACAA CATGTAAGAG ACTCGTTGGT TGGTACGGTA 
GAGAAAAGAG GAATCTCTGG AGGACAGAGG AAACGAGTGA ACGTTGGTGT TGAAATGGTC 
ATGGAACCTT CTCTACTGAT ATTAGATGAA CCCACTACAG GTTTAGATAG TGCATCATCA 
CAGTTACTTC TTAGAGCACT TCGACGTGAA GCACTTGAAG GAGTTAACAT ATGTATGGTC 
GTGCATCAAC CCAGTTATAC GATGTACAAA ATGTTCGATG ATATGATAAT ACTAGCAAAA 
GGTGGTCTTA CCGTGTACCA TGGATCTGTC AAAAAAATCG AAGAATATTT TGCTGACATT 
GGGATCACCG TACCTGATCG TGTCAATCCT CCTGATCATT ATATAGATAT TCTTGAAGGC 
ATAGTGAAAC CAGATGGTGA TATAACAGTA GAGCAGCTTC CTGTGAGATG GATGTTACAC 
AATGGTTACC CTGTGCCTCA TGATATGTTG AAGCTTTGTG ATGGACTCCC TTCATCATCA 
TCTGGATCAG CTCAAGATGA ATCCTCTCAT AATTCTTTTA CTCAAGATGA ATCCTCTCAT 
AATTCTTTTA GTAATGATCT ATGGCAAGAT GTGAAAACTA ATGTGGAGAT CACGAAAGAT 
CAGTTGCAAC AAAATTACTC GAACTCTCAT GACAATTCTG ATCGAGTAAC TCCTACAGTA 
GGTCGACAAT ATAGATATTT TGTTGGAAGG GTTGGCAAAC AAAGACTTAG AGAAGCAAGA 
CTACAAGCGT TAGATTTCTT AATATTATTA GTTGCAGGAG CTTGTTTAGG AACTCTTGCT 
AAAGTGAACG ACGAGACCAT TGATACACTT GGCTACACAT ATACGATTAT AGCCGTCTCT 
CTTTTGTGTA AGATCTCAGC GTTGAGATCT TTCTCTGTGG ATAAAATACA ATATTGGAGA 
GAAAGTGCCG CTGGAATCAG CAGTTTGGCA CATTTTATGG CTAAAGACAC AATGGATCAT 
TTGAACACAT TTTTGAAACC TTTAGTGTAC TTGTCCATGT TCTACTTCTT CAACAACCCG 
AGATCTAGTT TCGAAGACAA CTACATTGTT CTAGTCTGCT TGGTCTACTG CGTTACGGGC 
ATGGCTTATG TATTTGCCAT ATTGTATAGT GCTAGTGCAG CCCAACTGTT GTCCGTGTTA 
GTACCCGTTG TAATGACTCT CATCGCGAAT CAAGATAAAG AAAGCATGGT TCTTAAGTAT 
CTCGGAAGCT TTTGCTACCC CAAATGGACT CTTGAAGCTT TTGTGCTTTC AAACGCTCAA 
AGGTACTCTG GAGTATGGGT GGTGACGCGA TGCAGCTCAC TGTCACAAAA CGGATATGAT 
CTTAGTGATT GGATATTATG TCTCATTGTT CTCATTCTCA TGGGACTAAT TTGCCGATTC 
ATAGCTTATT TCTGCATGGT TACATTCCAG AAAAAATAA