LOC100899003 cDNA ORF clone, Galendromus occidentalis(western predatory mite)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100899003
Entrez Gene ID	100899003
Full Name	putative exonuclease GOR
Gene Type	protein-coding
Organism	Galendromus occidentalis(western predatory mite)

mRNA and Protein(s)

mRNA	Protein	Name
XM_029112160.1	XP_028967993.1	RNA exonuclease 1 homolog
XM_018640453.1	XP_018495969.1	putative exonuclease GOR

Pathways from BioSystems
Gene Ontology

The following LOC100899003 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100899003 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
OGa155894	XM_029112160.1 Latest version!	Metaseiulus occidentalis RNA exonuclease 1 homolog (LOC100899003), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OGa60060	XM_018640453.1 Latest version!	Metaseiulus occidentalis putative exonuclease GOR (LOC100899003), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*Business Day

** 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)

LOC100899003 ( XM_029112160.1 ) cDNA ORF clone, Galendromus occidentalis(western predatory mite) -> XP_028967993.1 Metaseiulus occidentalis RNA exonuclease 1 homolog (LOC100899003), mRNA.

Price & Availability↑

CloneID	OGa155894
Clone ID Related Accession (Same CDS sequence)	XM_029112160.1
Accession Version	XM_029112160.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2505bp) 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	2019-05-06
Organism	Galendromus occidentalis(western predatory mite)
Product	RNA exonuclease 1 homolog
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003805473.1) 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 Name :: Galendromus occidentalis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 13% of CDS bases ##RefSeq-Attributes-END##

ATGTATCAAT CCAAGGGCAG GTTTTCAGCC ATCGTTTGCC CTCTGAGCGC CGAGTCTGAG 
TGTACTCGGC CGTACTGTCA TTTCAAGCAT GCGCCTCGAG AGATCGCACG AGCAGCTCCC 
GAGTCATGCG AGCTCGATAA GAGCTTCCAA ATCGCCGCAC CTGTACCGCT ACCATCAGCT 
GATCGGCGGC TCTCGGAGAC GGGTCCGCAA GTCGAAGTCG TCAGTCCGAA GATAGAACTC 
AAGATTCCAA AGAGCCATAT TCCTGCGATA AGGGTTCCAC AGTATCGGCC GACGCCCCTT 
GCCATTCTAC AGAAGCGCAA TCAAACTTCA TCAGCCAAAA CCGCAGGCTC GACAAGCTTG 
AAATCGTCGA AGCCATCGGC GTATACACCA CAATACGTCC CCAAGCCCGT TGTGAAGCCG 
AATGCCTCAT CCTCGCTTGA AGCGAAATTC TCATCCGATG AAGAAGATGA CAACGAAGAG 
GAAATACTTA AGGAGATTTT CCAGGAAGCT GAACCAGGTG GCACCGTCAA CGAAAACGAG 
GATATACAAC GGGTAGAAGT GAAAGACATC CGAGAACGAC CGGCGGAAAA AGACGTGACG 
GAATCTGGGA CGAAAGACGT CAAAGAAGAG CCCCCAATAA GTCGTCATGA GCATGTGGAC 
AAGAAGGTTG ATGATGTAAT CGAGTTGAGC GATGAAGACC CTGAAGCCGA GTGTTTGAGA 
TTGTTCCAAG AAGGGGGCGT CGTTCCTCAG CCCTCGCGAT CTGACTCCCC CGAGCCTCAG 
AGGGAACCGT CTAAAGTGAT TGAAATGGTG GGCACGACGC GCAAAAGGAT CGCGCATGAC 
CCGTCCCTGA AACCCAGCGT GGTTCCCAAA AAGATTATCA GACCCTCCCC GAGCCAACAA 
TTGGCGATGC GTCTCGAAGC CGTGGCGAGA TTCCAGAGAC AGAAGTCTTC GGAGTTTCCG 
TCATCTACAG TGATAGAAAG GAGAAGGATA GCCACTGTGT CATCTAGTTT GATCAAAGCC 
GTTGTGAATA AAAATAGTCT CCAGCTCCCG AAAGCCACGA CGCCCGCAAG CGCGAATGAG 
AGATCTCTTC CATCACCGCC CGTTCAGCGA GTGTCGTTGA ATGTTCCAAA ACCTCATGCG 
ACTAATCACG TCCAAACGAA GGGTGTGAAT CGCGTCGCTC ACCCTGCCGT TTTCCGCGCT 
CCGGCTCACG ACCCCGCCGC ACCACCTCGA CCGAGGATCC CTTTCGATTC AAAGGCTAAA 
GTTCCTGCTA ATGTTCGTCA AATGTATCTC GAGAAGTTGA TCGACGCGAA CAATCTGGCT 
TGTACTACTT ACGAGGAAAG TTATCAAAAG TCTTTGGACG AAGAGCGCGA TGCTTGTCAG 
CGCTCCAAAG ACAAGAAGGT CTATCTTAGC GTGATGGCGA ATCTGCTTGT CAAGATAAAG 
AAGCAGAGCG GCGAGATAAG GCCGGCAACG ACGACGACCC CGGCTCTGTC TCACGCGGAC 
ATCCTCGGCG GGCCCAAAGC CAAGAAGATG TCGTTTTCGA TCGAGAAGAA TCGCTTCCGA 
CGGCATGTCT CCGTGGAGAA CATCACAGAA GAACAATTCT ACGATCATCT TAAGGCAAAC 
TATTTAATGA CGCCGGCAGA GCTCGAAAGC ATGGGCTATC CCCGACCACA TGACAGCATG 
GCTGGGCGTG CTCAGTTTCG CAACGAAAAA GCTCTCACGG CGCCGCCTGA TCCCCGGCTC 
GGATCCGAGC GACTTTGCTG CAGATGTAAA AAAGTGTTCT TCGTCGACGA GAAAGGACTC 
TACGTGAAAC GGGAACTCTG CACATATCAT TGGGGCAAGA ATTGGACGCG GAGAGTCAAG 
AAAGGGAACA CGAGAGAGCA GCAGTACACT TGTTGCGACG CCGAGTCCGG AAGCGAAGGA 
TGCTGCGTGG CTCAAGGTCA CGTTTTCGAA AATCCACCTC TGACTGAAGA TGTCGGATAC 
TGCACAACAA TGACGTCGGA CTCATCGTAT CCTAAAAAAG TGTTCGCTCT GGATTGTGAG 
ATGATCTACA CGACCAAAGG CACGGAATTA GCCCGAGTGT CGGTCGTGGA CCTCAACATG 
AAAACCGTTT ACGAGACCAA GGTCATGCCG GAGAACCCGG TTCTCGACTA CAACACCCGG 
TTCAGTGGAT TAAAGATGGA GGATCTCGAG AAGTGTACCA CTTCGATATA CGAGGTTCAG 
GCCGTTCTGT TGAGTATGTT CTCTGCCGAT ACGATTTTGA TGGGCCACAG CTTGGAGTCG 
GATCTCAAAG CATTGAAGCT GATACACTCG ACCGTCGTCG ATACATCAAT GGTTTTCCCC 
CACAAAATGG GATTGCCCTA CAAGCGAGCT CTCAAGAACC TCCTCAAAGA GTATTGTCAA 
AAAATTATAC AGGATGGAGT CGACGGGCAC GACAGCGCTG AGGATGCGCG AGCTTGTATA 
GAACTGATGC TTCGGAAAGT TAAAGAAGAT CTCAAATCGA TGTGA

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

RefSeq	XP_028967993.1
CDS	1..2505
Translation	MYQSKGRFSAIVCPLSAESECTRPYCHFKHAPREIARAAPESCELDKSFQIAAPVPLPSADRRLSETGPQVEVVSPKIELKIPKSHIPAIRVPQYRPTPLAILQKRNQTSSAKTAGSTSLKSSKPSAYTPQYVPKPVVKPNASSSLEAKFSSDEEDDNEEEILKEIFQEAEPGGTVNENEDIQRVEVKDIRERPAEKDVTESGTKDVKEEPPISRHEHVDKKVDDVIELSDEDPEAECLRLFQEGGVVPQPSRSDSPEPQREPSKVIEMVGTTRKRIAHDPSLKPSVVPKKIIRPSPSQQLAMRLEAVARFQRQKSSEFPSSTVIERRRIATVSSSLIKAVVNKNSLQLPKATTPASANERSLPSPPVQRVSLNVPKPHATNHVQTKGVNRVAHPAVFRAPAHDPAAPPRPRIPFDSKAKVPANVRQMYLEKLIDANNLACTTYEESYQKSLDEERDACQRSKDKKVYLSVMANLLVKIKKQSGEIRPATTTTPALSHADILGGPKAKKMSFSIEKNRFRRHVSVENITEEQFYDHLKANYLMTPAELESMGYPRPHDSMAGRAQFRNEKALTAPPDPRLGSERLCCRCKKVFFVDEKGLYVKRELCTYHWGKNWTRRVKKGNTREQQYTCCDAESGSEGCCVAQGHVFENPPLTEDVGYCTTMTSDSSYPKKVFALDCEMIYTTKGTELARVSVVDLNMKTVYETKVMPENPVLDYNTRFSGLKMEDLEKCTTSIYEVQAVLLSMFSADTILMGHSLESDLKALKLIHSTVVDTSMVFPHKMGLPYKRALKNLLKEYCQKIIQDGVDGHDSAEDARACIELMLRKVKEDLKSM

Target ORF information:

RefSeq Version	XM_029112160.1
Organism	Galendromus occidentalis(western predatory mite)
Definition	Metaseiulus occidentalis RNA exonuclease 1 homolog (LOC100899003), mRNA.

Target ORF information:

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

XM_029112160.1

ORF Insert Sequence:

ATGTATCAAT CCAAGGGCAG GTTTTCAGCC ATCGTTTGCC CTCTGAGCGC CGAGTCTGAG 
TGTACTCGGC CGTACTGTCA TTTCAAGCAT GCGCCTCGAG AGATCGCACG AGCAGCTCCC 
GAGTCATGCG AGCTCGATAA GAGCTTCCAA ATCGCCGCAC CTGTACCGCT ACCATCAGCT 
GATCGGCGGC TCTCGGAGAC GGGTCCGCAA GTCGAAGTCG TCAGTCCGAA GATAGAACTC 
AAGATTCCAA AGAGCCATAT TCCTGCGATA AGGGTTCCAC AGTATCGGCC GACGCCCCTT 
GCCATTCTAC AGAAGCGCAA TCAAACTTCA TCAGCCAAAA CCGCAGGCTC GACAAGCTTG 
AAATCGTCGA AGCCATCGGC GTATACACCA CAATACGTCC CCAAGCCCGT TGTGAAGCCG 
AATGCCTCAT CCTCGCTTGA AGCGAAATTC TCATCCGATG AAGAAGATGA CAACGAAGAG 
GAAATACTTA AGGAGATTTT CCAGGAAGCT GAACCAGGTG GCACCGTCAA CGAAAACGAG 
GATATACAAC GGGTAGAAGT GAAAGACATC CGAGAACGAC CGGCGGAAAA AGACGTGACG 
GAATCTGGGA CGAAAGACGT CAAAGAAGAG CCCCCAATAA GTCGTCATGA GCATGTGGAC 
AAGAAGGTTG ATGATGTAAT CGAGTTGAGC GATGAAGACC CTGAAGCCGA GTGTTTGAGA 
TTGTTCCAAG AAGGGGGCGT CGTTCCTCAG CCCTCGCGAT CTGACTCCCC CGAGCCTCAG 
AGGGAACCGT CTAAAGTGAT TGAAATGGTG GGCACGACGC GCAAAAGGAT CGCGCATGAC 
CCGTCCCTGA AACCCAGCGT GGTTCCCAAA AAGATTATCA GACCCTCCCC GAGCCAACAA 
TTGGCGATGC GTCTCGAAGC CGTGGCGAGA TTCCAGAGAC AGAAGTCTTC GGAGTTTCCG 
TCATCTACAG TGATAGAAAG GAGAAGGATA GCCACTGTGT CATCTAGTTT GATCAAAGCC 
GTTGTGAATA AAAATAGTCT CCAGCTCCCG AAAGCCACGA CGCCCGCAAG CGCGAATGAG 
AGATCTCTTC CATCACCGCC CGTTCAGCGA GTGTCGTTGA ATGTTCCAAA ACCTCATGCG 
ACTAATCACG TCCAAACGAA GGGTGTGAAT CGCGTCGCTC ACCCTGCCGT TTTCCGCGCT 
CCGGCTCACG ACCCCGCCGC ACCACCTCGA CCGAGGATCC CTTTCGATTC AAAGGCTAAA 
GTTCCTGCTA ATGTTCGTCA AATGTATCTC GAGAAGTTGA TCGACGCGAA CAATCTGGCT 
TGTACTACTT ACGAGGAAAG TTATCAAAAG TCTTTGGACG AAGAGCGCGA TGCTTGTCAG 
CGCTCCAAAG ACAAGAAGGT CTATCTTAGC GTGATGGCGA ATCTGCTTGT CAAGATAAAG 
AAGCAGAGCG GCGAGATAAG GCCGGCAACG ACGACGACCC CGGCTCTGTC TCACGCGGAC 
ATCCTCGGCG GGCCCAAAGC CAAGAAGATG TCGTTTTCGA TCGAGAAGAA TCGCTTCCGA 
CGGCATGTCT CCGTGGAGAA CATCACAGAA GAACAATTCT ACGATCATCT TAAGGCAAAC 
TATTTAATGA CGCCGGCAGA GCTCGAAAGC ATGGGCTATC CCCGACCACA TGACAGCATG 
GCTGGGCGTG CTCAGTTTCG CAACGAAAAA GCTCTCACGG CGCCGCCTGA TCCCCGGCTC 
GGATCCGAGC GACTTTGCTG CAGATGTAAA AAAGTGTTCT TCGTCGACGA GAAAGGACTC 
TACGTGAAAC GGGAACTCTG CACATATCAT TGGGGCAAGA ATTGGACGCG GAGAGTCAAG 
AAAGGGAACA CGAGAGAGCA GCAGTACACT TGTTGCGACG CCGAGTCCGG AAGCGAAGGA 
TGCTGCGTGG CTCAAGGTCA CGTTTTCGAA AATCCACCTC TGACTGAAGA TGTCGGATAC 
TGCACAACAA TGACGTCGGA CTCATCGTAT CCTAAAAAAG TGTTCGCTCT GGATTGTGAG 
ATGATCTACA CGACCAAAGG CACGGAATTA GCCCGAGTGT CGGTCGTGGA CCTCAACATG 
AAAACCGTTT ACGAGACCAA GGTCATGCCG GAGAACCCGG TTCTCGACTA CAACACCCGG 
TTCAGTGGAT TAAAGATGGA GGATCTCGAG AAGTGTACCA CTTCGATATA CGAGGTTCAG 
GCCGTTCTGT TGAGTATGTT CTCTGCCGAT ACGATTTTGA TGGGCCACAG CTTGGAGTCG 
GATCTCAAAG CATTGAAGCT GATACACTCG ACCGTCGTCG ATACATCAAT GGTTTTCCCC 
CACAAAATGG GATTGCCCTA CAAGCGAGCT CTCAAGAACC TCCTCAAAGA GTATTGTCAA 
AAAATTATAC AGGATGGAGT CGACGGGCAC GACAGCGCTG AGGATGCGCG AGCTTGTATA 
GAACTGATGC TTCGGAAAGT TAAAGAAGAT CTCAAATCGA TGTGA

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

LOC100899003 ( XM_018640453.1 ) cDNA ORF clone, Galendromus occidentalis(western predatory mite) -> XP_018495969.1 Metaseiulus occidentalis putative exonuclease GOR (LOC100899003), mRNA.

Price & Availability↑

CloneID	OGa60060
Clone ID Related Accession (Same CDS sequence)	XM_018640453.1
Accession Version	XM_018640453.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2703bp) 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	2016-10-11
Organism	Galendromus occidentalis(western predatory mite)
Product	putative exonuclease GOR
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003805473.1) 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 :: Metaseiulus occidentalis 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## ##RefSeq-Attributes-START## ab initio :: 39% of CDS bases ##RefSeq-Attributes-END##

ATGCGCCTCG AGAGATCGCA CGAGCAGTAT CGGCCGACGC CCCTTGCCAT TCTACAGAAG 
CGCAATCAAA CTTCATCAGC CAAAACCGCA GGCTCGACAA GCTTGAAATC GTCGAAGCCA 
TCGGCGTATA CACCACAATA CGTCCCCAAG CCCGTTGTGA AGCCGAATGC CTCATCCTCG 
CTTGAAGCGA AATTCTCATC CGATGAAGAA GATGACAACG AAGAGGAAAT ACTTAAGGAG 
ATTTTCCAGG AAGCTGAACC AGGTGGCACC GTCAACGAAA ACGAGGATAT ACAACGGGTA 
GAAGTGAAAG ACATCCGAGA ACGACCGGCG GAAAAAGACG TGACGGAATC TGGGACGAAA 
GACGTCAAAG AAGAGCCCCC AATAAGTCGT CATGAGCATG TGGACAAGAA GAGCAAAAGC 
GAATCGAGGT CCAATCCTCG CAACGAGCAT CGACACTCTT TATCGTCGTC TTCTTCTCAC 
AAATCGTCGA GAGACCATCA TCATCGGTCA TCGTCATCAT CATCATCCGC GACATCGTCG 
TCAAATCGAA AGAAGAGCAA CTGTGATAAA TCTGAGAGAA CGTCATTGGA AAGCTCGAAA 
AAACCCAGCG ATCGAAGCAC CCTCCCTTCT GATGGTAGTT CGAAGGACGG GAAGCGTACC 
AAGCCATCCT CCTCAAAGTC ATCCCACGGG TCCTCCAGAA GTAAATCGGA GAACAAGTCG 
AGGAAATCCT CATCGGCTCA AAGTCCCCCG AGGCAACCTT CCACTTCCAA AAAATCGCGC 
GAGAGCTCGG GTAGTAGCAA GCGAAAGAGA GCTGATACCA GCGATTGTGA AGAAGAGTCG 
GAAGTATTCC CGGGAGAAAC CATGAAAGAT GATGTAATCG AGTTGAGCGA TGAAGACCCT 
GAAGCCGAGT GTTTGAGATT GTTCCAAGAA GGGGGCGTCG TTCCTCAGCC CTCGCGATCT 
GACTCCCCCG AGCCTCAGAG GGAACCGTCT AAAGTGATTG AAATGGTGGG CACGACGCGC 
AAAAGGATCG CGCATGACCC GTCCCTGAAA CCCAGCGTGG TTCCCAAAAA GATTATCAGA 
CCCTCCCCGA GCCAACAATT GGCGATGCGT CTCGAAGCCG TGGCGAGATT CCAGAGACAG 
AAGTCTTCGG AGTTTCCGTC ATCTACAGTG ATAGAAAGGA GAAGGATAGC CACTGTGTCA 
TCTAGTTTGA TCAAAGCCGT TGTGAATAAA AATAGTCTCC AGCTCCCGAA AGCCACGACG 
CCCGCAAGCG CGAATGAGAG ATCTCTTCCA TCACCGCCCG TTCAGCGAGT GTCGTTGAAT 
GTTCCAAAAC CTCATGCGAC TAATCACGTC CAAACGAAGG GTGTGAATCG CGTCGCTCAC 
CCTGCCGTTT TCCGCGCTCC GGCTCACGAC CCCGCCGCAC CACCTCGACC GAGGATCCCT 
TTCGATTCAA AGGCTAAAGT TCCTGCTAAT GTTCGTCAAA TGTATCTCGA GAAGTTGATC 
GACGCGAACA ATCTGGCTTG TACTACTTAC GAGGAAAGTT ATCAAAAGTC TTTGGACGAA 
GAGCGCGATG CTTGTCAGCG CTCCAAAGAC AAGAAGGTCT ATCTTAGCGT GATGGCGAAT 
CTGCTTGTCA AGATAAAGAA GCAGAGCGGC GAGATAAGGC CGGCAACGAC GACGACCCCG 
GCTCTGTCTC ACGCGGACAT CCTCGGCGGG CCCAAAGCCA AGAAGATGTC GTTTTCGATC 
GAGAAGAATC GCTTCCGACG GCATGTCTCC GTGGAGAACA TCACAGAAGA ACAATTCTAC 
GATCATCTTA AGGCAAACTA TTTAATGACG CCGGCAGAGC TCGAAAGCAT GGGCTATCCC 
CGACCACATG ACAGCATGGC TGGGCGTGCT CAGTTTCGCA ACGAAAAAGC TCTCACGGCG 
CCGCCTGATC CCCGGCTCGG ATCCGAGCGA CTTTGCTGCA GATGTAAAAA AGTGTTCTTC 
GTCGACGAGA AAGGACTCTA CGTGAAACGG GAACTCTGCA CATATCATTG GGGCAAGAAT 
TGGACGCGGA GAGTCAAGAA AGGGAACACG AGAGAGCAGC AGTACACTTG TTGCGACGCC 
GAGTCCGGAA GCGAAGGATG CTGCGTGGCT CAAGGTCACG TTTTCGAAAA TCCACCTCTG 
ACTGAAGATG TCGGATACTG CACAACAATG ACGTCGGACT CATCGTATCC TAAAAAAGTG 
TTCGCTCTGG ATTGTGAGAT GATCTACACG ACCAAAGGCA CGGAATTAGC CCGAGTGTCG 
GTCGTGGACC TCAACATGAA AACCGTTTAC GAGACCAAGG TCATGCCGGA GAACCCGGTT 
CTCGACTACA ACACCCGGTT CAGTGGATTA AAGATGGAGG ATCTCGAGAA GTGTACCACT 
TCGATATACG AGGTTCAGGC CGTTCTGTTG AGTATGTTCT CTGCCGATAC GATTTTGATG 
GGCCACAGCT TGGAGTCGGA TCTCAAAGCA TTGAAGCTGA TACACTCGAC CGTCGTCGAT 
ACATCAATGG TTTTCCCCCA CAAAATGGGA TTGCCCTACA AGCGAGCTCT CAAGAACCTC 
CTCAAAGAGT ATTGTCAAAA AATTATACAG GATGGAGTCG ACGGGCACGA CAGCGCTGAG 
GATGCGCGAG CTTGTATAGA ACTGATGCTT CGGAAAGTTA AAGAAGATCT CAAATCGATG 
TGA

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

RefSeq	XP_018495969.1
CDS	1..2703
Translation	MRLERSHEQYRPTPLAILQKRNQTSSAKTAGSTSLKSSKPSAYTPQYVPKPVVKPNASSSLEAKFSSDEEDDNEEEILKEIFQEAEPGGTVNENEDIQRVEVKDIRERPAEKDVTESGTKDVKEEPPISRHEHVDKKSKSESRSNPRNEHRHSLSSSSSHKSSRDHHHRSSSSSSSATSSSNRKKSNCDKSERTSLESSKKPSDRSTLPSDGSSKDGKRTKPSSSKSSHGSSRSKSENKSRKSSSAQSPPRQPSTSKKSRESSGSSKRKRADTSDCEEESEVFPGETMKDDVIELSDEDPEAECLRLFQEGGVVPQPSRSDSPEPQREPSKVIEMVGTTRKRIAHDPSLKPSVVPKKIIRPSPSQQLAMRLEAVARFQRQKSSEFPSSTVIERRRIATVSSSLIKAVVNKNSLQLPKATTPASANERSLPSPPVQRVSLNVPKPHATNHVQTKGVNRVAHPAVFRAPAHDPAAPPRPRIPFDSKAKVPANVRQMYLEKLIDANNLACTTYEESYQKSLDEERDACQRSKDKKVYLSVMANLLVKIKKQSGEIRPATTTTPALSHADILGGPKAKKMSFSIEKNRFRRHVSVENITEEQFYDHLKANYLMTPAELESMGYPRPHDSMAGRAQFRNEKALTAPPDPRLGSERLCCRCKKVFFVDEKGLYVKRELCTYHWGKNWTRRVKKGNTREQQYTCCDAESGSEGCCVAQGHVFENPPLTEDVGYCTTMTSDSSYPKKVFALDCEMIYTTKGTELARVSVVDLNMKTVYETKVMPENPVLDYNTRFSGLKMEDLEKCTTSIYEVQAVLLSMFSADTILMGHSLESDLKALKLIHSTVVDTSMVFPHKMGLPYKRALKNLLKEYCQKIIQDGVDGHDSAEDARACIELMLRKVKEDLKSM

Target ORF information:

RefSeq Version	XM_018640453.1
Organism	Galendromus occidentalis(western predatory mite)
Definition	Metaseiulus occidentalis putative exonuclease GOR (LOC100899003), mRNA.

Target ORF information:

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

XM_018640453.1

ORF Insert Sequence:

ATGCGCCTCG AGAGATCGCA CGAGCAGTAT CGGCCGACGC CCCTTGCCAT TCTACAGAAG 
CGCAATCAAA CTTCATCAGC CAAAACCGCA GGCTCGACAA GCTTGAAATC GTCGAAGCCA 
TCGGCGTATA CACCACAATA CGTCCCCAAG CCCGTTGTGA AGCCGAATGC CTCATCCTCG 
CTTGAAGCGA AATTCTCATC CGATGAAGAA GATGACAACG AAGAGGAAAT ACTTAAGGAG 
ATTTTCCAGG AAGCTGAACC AGGTGGCACC GTCAACGAAA ACGAGGATAT ACAACGGGTA 
GAAGTGAAAG ACATCCGAGA ACGACCGGCG GAAAAAGACG TGACGGAATC TGGGACGAAA 
GACGTCAAAG AAGAGCCCCC AATAAGTCGT CATGAGCATG TGGACAAGAA GAGCAAAAGC 
GAATCGAGGT CCAATCCTCG CAACGAGCAT CGACACTCTT TATCGTCGTC TTCTTCTCAC 
AAATCGTCGA GAGACCATCA TCATCGGTCA TCGTCATCAT CATCATCCGC GACATCGTCG 
TCAAATCGAA AGAAGAGCAA CTGTGATAAA TCTGAGAGAA CGTCATTGGA AAGCTCGAAA 
AAACCCAGCG ATCGAAGCAC CCTCCCTTCT GATGGTAGTT CGAAGGACGG GAAGCGTACC 
AAGCCATCCT CCTCAAAGTC ATCCCACGGG TCCTCCAGAA GTAAATCGGA GAACAAGTCG 
AGGAAATCCT CATCGGCTCA AAGTCCCCCG AGGCAACCTT CCACTTCCAA AAAATCGCGC 
GAGAGCTCGG GTAGTAGCAA GCGAAAGAGA GCTGATACCA GCGATTGTGA AGAAGAGTCG 
GAAGTATTCC CGGGAGAAAC CATGAAAGAT GATGTAATCG AGTTGAGCGA TGAAGACCCT 
GAAGCCGAGT GTTTGAGATT GTTCCAAGAA GGGGGCGTCG TTCCTCAGCC CTCGCGATCT 
GACTCCCCCG AGCCTCAGAG GGAACCGTCT AAAGTGATTG AAATGGTGGG CACGACGCGC 
AAAAGGATCG CGCATGACCC GTCCCTGAAA CCCAGCGTGG TTCCCAAAAA GATTATCAGA 
CCCTCCCCGA GCCAACAATT GGCGATGCGT CTCGAAGCCG TGGCGAGATT CCAGAGACAG 
AAGTCTTCGG AGTTTCCGTC ATCTACAGTG ATAGAAAGGA GAAGGATAGC CACTGTGTCA 
TCTAGTTTGA TCAAAGCCGT TGTGAATAAA AATAGTCTCC AGCTCCCGAA AGCCACGACG 
CCCGCAAGCG CGAATGAGAG ATCTCTTCCA TCACCGCCCG TTCAGCGAGT GTCGTTGAAT 
GTTCCAAAAC CTCATGCGAC TAATCACGTC CAAACGAAGG GTGTGAATCG CGTCGCTCAC 
CCTGCCGTTT TCCGCGCTCC GGCTCACGAC CCCGCCGCAC CACCTCGACC GAGGATCCCT 
TTCGATTCAA AGGCTAAAGT TCCTGCTAAT GTTCGTCAAA TGTATCTCGA GAAGTTGATC 
GACGCGAACA ATCTGGCTTG TACTACTTAC GAGGAAAGTT ATCAAAAGTC TTTGGACGAA 
GAGCGCGATG CTTGTCAGCG CTCCAAAGAC AAGAAGGTCT ATCTTAGCGT GATGGCGAAT 
CTGCTTGTCA AGATAAAGAA GCAGAGCGGC GAGATAAGGC CGGCAACGAC GACGACCCCG 
GCTCTGTCTC ACGCGGACAT CCTCGGCGGG CCCAAAGCCA AGAAGATGTC GTTTTCGATC 
GAGAAGAATC GCTTCCGACG GCATGTCTCC GTGGAGAACA TCACAGAAGA ACAATTCTAC 
GATCATCTTA AGGCAAACTA TTTAATGACG CCGGCAGAGC TCGAAAGCAT GGGCTATCCC 
CGACCACATG ACAGCATGGC TGGGCGTGCT CAGTTTCGCA ACGAAAAAGC TCTCACGGCG 
CCGCCTGATC CCCGGCTCGG ATCCGAGCGA CTTTGCTGCA GATGTAAAAA AGTGTTCTTC 
GTCGACGAGA AAGGACTCTA CGTGAAACGG GAACTCTGCA CATATCATTG GGGCAAGAAT 
TGGACGCGGA GAGTCAAGAA AGGGAACACG AGAGAGCAGC AGTACACTTG TTGCGACGCC 
GAGTCCGGAA GCGAAGGATG CTGCGTGGCT CAAGGTCACG TTTTCGAAAA TCCACCTCTG 
ACTGAAGATG TCGGATACTG CACAACAATG ACGTCGGACT CATCGTATCC TAAAAAAGTG 
TTCGCTCTGG ATTGTGAGAT GATCTACACG ACCAAAGGCA CGGAATTAGC CCGAGTGTCG 
GTCGTGGACC TCAACATGAA AACCGTTTAC GAGACCAAGG TCATGCCGGA GAACCCGGTT 
CTCGACTACA ACACCCGGTT CAGTGGATTA AAGATGGAGG ATCTCGAGAA GTGTACCACT 
TCGATATACG AGGTTCAGGC CGTTCTGTTG AGTATGTTCT CTGCCGATAC GATTTTGATG 
GGCCACAGCT TGGAGTCGGA TCTCAAAGCA TTGAAGCTGA TACACTCGAC CGTCGTCGAT 
ACATCAATGG TTTTCCCCCA CAAAATGGGA TTGCCCTACA AGCGAGCTCT CAAGAACCTC 
CTCAAAGAGT ATTGTCAAAA AATTATACAG GATGGAGTCG ACGGGCACGA CAGCGCTGAG 
GATGCGCGAG CTTGTATAGA ACTGATGCTT CGGAAAGTTA AAGAAGATCT CAAATCGATG 
TGA