LOC100902219 cDNA ORF clone, Galendromus occidentalis(western predatory mite)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100902219
Entrez Gene ID	100902219
Full Name	zinc finger protein 598
Gene Type	protein-coding
Organism	Galendromus occidentalis(western predatory mite)

mRNA and Protein(s)

mRNA	Protein	Name
XM_003745423.1	XP_003745471.1	zinc finger protein 598
XM_029112065.1	XP_028967898.1	E3 ubiquitin-protein ligase ZNF598

Pathways from BioSystems
Gene Ontology

The following LOC100902219 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100902219 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
OGa155787	XM_029112065.1 Latest version!	Metaseiulus occidentalis E3 ubiquitin-protein ligase ZNF598 (LOC100902219), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OGa59729	XM_003745423.1 Latest version!	Metaseiulus occidentalis zinc finger protein 598 (LOC100902219), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00

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)

LOC100902219 ( XM_029112065.1 ) cDNA ORF clone, Galendromus occidentalis(western predatory mite) -> XP_028967898.1 Metaseiulus occidentalis E3 ubiquitin-protein ligase ZNF598 (LOC100902219), mRNA.

Price & Availability↑

CloneID	OGa155787
Clone ID Related Accession (Same CDS sequence)	XM_029112065.1
Accession Version	XM_029112065.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2430bp) 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	E3 ubiquitin-protein ligase ZNF598
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003805471.1) 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 :: 6% of CDS bases ##RefSeq-Attributes-END##

ATGACTATCG ATACCGGGTA TTCGGTGTCA CACCTGGAGT CTTTGCAGGA TAAGGAACGA 
ACATGTCAGC GTTCCGTGGA CGAGGGTACG CGCGCTCCCG GAGACCTCCA GGACCTCACC 
GCAAATCAAG TGGATTGCAA GGACTCTTCT TCGCTTGAAT CGTCAGCGAA CGAGTGCTTC 
GTTTGCTGCC GCGAAATCAA AGTCTTCGCG GTCGGTTTGT GTGATCACCC CGTGTGTCAC 
ATTTGCTCGA CAAGACTCCG TGTACTATGC GAGACCAACG AATGCCCGGT TTGCCGCGCC 
GACATAGATG AAGTGTTCTT CGTGGCTGGA ATTTCCACCT TCGAAGATTT GAGAAATAAG 
GAAATGCACT CGAAGGCGGA GGAATTCGGC ATATCGTTCG AGACAGAAGA AATTTCTTCA 
GAATACAGCG AACTCCTGAC CAACAAGTGC TATGAATGTG TACGACGAGC AAACATATCT 
GAACGCAGTG GAGAACGTAG TCATCCCCCG GCGTGTTATG GAAATTTCGA CGCTCTTCGG 
GATCACGTAC AGCGCGACCA TAAGAGATAT TTTTGTGACC TCTGTGTAGA ACACCTCAAG 
CTCTTCACAT TCGAACGACA AGCATACTCC AAGAGCGACT TGCGACGACA TCTGCGAGAA 
GGAGACCTCA ACGACAAGTC TCATAAGGGC CATCCTCGTT GTGACTTCTG TGATATCCAT 
TATCTCGATA AAGATGAGCT GTACAAACAT CTGAAAGTCG ATCATTTTTC GTGCTTCATC 
TGCCAGCGGG ATAATGCCGC GTGTCGCTTG CAACAATACT ATGCGGCATA CGAAGACCTG 
CATCAGCATT TCTTGAGAGA TCATTTCGTA TGCGATCAAG GAGAATGCGC AACGGAGCGT 
TTTGTGGCTT TCGAGACGAA GCTCGAATAT AAGGCGCACG TGGCCACCAA ACATTCGGAC 
TCGCTTAGCC GAGATGAACA GCGAGCCGCG CGGAGTTTGG TCGAAGACTT CGCGATGTCT 
CCACCTGCAA GAGACACGTT CAGAGGGGAT AATTCCGGCG TTGGAGCTCG ACGAGGGAAC 
AGAGATAATC ACAGAGACCG TTTGACATCT GGCAGAGGGA GAGGACGGCG ACCCTCACTT 
GAGCGGATCG CCGATCAAGA GGACGGAGCC CGGTCAGTTC AGCCTGTGGA CACGACGTCC 
ACCGCCGACT TTCCGAGTTT ATCTGGAAAC CCTTCGATCA GCCGCCCCTT GATACCCACA 
CCGAGGTACT CTGCGAAAAT GAATTCGCCG ATGAATTCCG CAGACGAGTT TCCTTCATTA 
GGTGAATCTG TGGACTCCAC CCCATCGACA TCACATACGT GGTTCAAGCC GATCGTCAGG 
GAGAAATCGA AAGCTGGACG CCCCATTCAG AAGACGGCCC TCACAGCCTT GTCTGGTACT 
CAATATAAGG CTCCGCATGC CCCGGTCCAA TGTTCTAAAA TAACGTCGGA GACATTCCCG 
AGCCTCCCGC AGCCGGTCGG TGATTCGGAT TTCGGTAAAG TTTTGAAACC TCTTCCGGTC 
GGCAAGAAAC ACGCTAAGGA GCGCCAAGCT AAGGCTATTC GGACGAAGAC ACCGATGGGC 
GTTTCCACGA GCGTTGGTAT GAACTCTTCG TCCTCGAAGA AGCAACAGAG TTTCGCCCCG 
ACCAATCATT CGAATTCGAA AACTCCAGCA GCTTTCAGAC TGACCGATGT CTCGAGGAGT 
CGTCTCGAAA GTGGTGTGAA TCGCTTGAAC ATCGCGAATA CACATACGTC TCCATCGGAT 
CTCGATCTCA AGTCCCCAAG TGCTTCGTGG GCGGCAAACA CGGACCCAGG ACCCGAGCAA 
CAGGTGCAAC AGCTCCGGAG TGAGAAAAAG GCCAGACAAA AACTTCCAAG AGAAGAGGAT 
TTCCCGTCAC TCGGTCCCGC CGAGCCGGAG CCTGCGGAGC CCGGCAATTT CTTCCGGCCA 
CCGAGGTCCA AGTATAGAGG AATCAGGCCT GGAGAGCAAG GCCAAGAAAA TCGCTCAAAC 
GATGACTTCA TCCAGCCACC AAACTTCACA AAGAGGACGA CTGAATTCCT GGGATTGCTC 
AAGCTTCTGC TGAATGGTAA CGCCGAACAC GTGACCGAAT ATCGACTCTT GATGACGAAT 
TTCCGTAAGG GCCTAATCTC CGGCGAGGAA TTCGTACACG GCTGCCTGCA GTTATTCGGC 
GACAGCTGCG AGTTTACGAA AGTGTTCGTC GAGTTGGTAT GCCTCATTCC CGATATTGAG 
AAGCAAAACG AGCTGATAGA GCTATACGAT AATCTGAAAA CGGAATACGG CATGCAAAAG 
AAAACGAACG GCCGAGATTG GACGCGCTGT TCTGAATGTG GTCAGATCAC GATCCCCGAG 
GACGCACAAG CTCACCAGAA GGCACATTGA

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

RefSeq	XP_028967898.1
CDS	1..2430
Translation	MTIDTGYSVSHLESLQDKERTCQRSVDEGTRAPGDLQDLTANQVDCKDSSSLESSANECFVCCREIKVFAVGLCDHPVCHICSTRLRVLCETNECPVCRADIDEVFFVAGISTFEDLRNKEMHSKAEEFGISFETEEISSEYSELLTNKCYECVRRANISERSGERSHPPACYGNFDALRDHVQRDHKRYFCDLCVEHLKLFTFERQAYSKSDLRRHLREGDLNDKSHKGHPRCDFCDIHYLDKDELYKHLKVDHFSCFICQRDNAACRLQQYYAAYEDLHQHFLRDHFVCDQGECATERFVAFETKLEYKAHVATKHSDSLSRDEQRAARSLVEDFAMSPPARDTFRGDNSGVGARRGNRDNHRDRLTSGRGRGRRPSLERIADQEDGARSVQPVDTTSTADFPSLSGNPSISRPLIPTPRYSAKMNSPMNSADEFPSLGESVDSTPSTSHTWFKPIVREKSKAGRPIQKTALTALSGTQYKAPHAPVQCSKITSETFPSLPQPVGDSDFGKVLKPLPVGKKHAKERQAKAIRTKTPMGVSTSVGMNSSSSKKQQSFAPTNHSNSKTPAAFRLTDVSRSRLESGVNRLNIANTHTSPSDLDLKSPSASWAANTDPGPEQQVQQLRSEKKARQKLPREEDFPSLGPAEPEPAEPGNFFRPPRSKYRGIRPGEQGQENRSNDDFIQPPNFTKRTTEFLGLLKLLLNGNAEHVTEYRLLMTNFRKGLISGEEFVHGCLQLFGDSCEFTKVFVELVCLIPDIEKQNELIELYDNLKTEYGMQKKTNGRDWTRCSECGQITIPEDAQAHQKAH

Target ORF information:

RefSeq Version	XM_029112065.1
Organism	Galendromus occidentalis(western predatory mite)
Definition	Metaseiulus occidentalis E3 ubiquitin-protein ligase ZNF598 (LOC100902219), mRNA.

Target ORF information:

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

XM_029112065.1

ORF Insert Sequence:

ATGACTATCG ATACCGGGTA TTCGGTGTCA CACCTGGAGT CTTTGCAGGA TAAGGAACGA 
ACATGTCAGC GTTCCGTGGA CGAGGGTACG CGCGCTCCCG GAGACCTCCA GGACCTCACC 
GCAAATCAAG TGGATTGCAA GGACTCTTCT TCGCTTGAAT CGTCAGCGAA CGAGTGCTTC 
GTTTGCTGCC GCGAAATCAA AGTCTTCGCG GTCGGTTTGT GTGATCACCC CGTGTGTCAC 
ATTTGCTCGA CAAGACTCCG TGTACTATGC GAGACCAACG AATGCCCGGT TTGCCGCGCC 
GACATAGATG AAGTGTTCTT CGTGGCTGGA ATTTCCACCT TCGAAGATTT GAGAAATAAG 
GAAATGCACT CGAAGGCGGA GGAATTCGGC ATATCGTTCG AGACAGAAGA AATTTCTTCA 
GAATACAGCG AACTCCTGAC CAACAAGTGC TATGAATGTG TACGACGAGC AAACATATCT 
GAACGCAGTG GAGAACGTAG TCATCCCCCG GCGTGTTATG GAAATTTCGA CGCTCTTCGG 
GATCACGTAC AGCGCGACCA TAAGAGATAT TTTTGTGACC TCTGTGTAGA ACACCTCAAG 
CTCTTCACAT TCGAACGACA AGCATACTCC AAGAGCGACT TGCGACGACA TCTGCGAGAA 
GGAGACCTCA ACGACAAGTC TCATAAGGGC CATCCTCGTT GTGACTTCTG TGATATCCAT 
TATCTCGATA AAGATGAGCT GTACAAACAT CTGAAAGTCG ATCATTTTTC GTGCTTCATC 
TGCCAGCGGG ATAATGCCGC GTGTCGCTTG CAACAATACT ATGCGGCATA CGAAGACCTG 
CATCAGCATT TCTTGAGAGA TCATTTCGTA TGCGATCAAG GAGAATGCGC AACGGAGCGT 
TTTGTGGCTT TCGAGACGAA GCTCGAATAT AAGGCGCACG TGGCCACCAA ACATTCGGAC 
TCGCTTAGCC GAGATGAACA GCGAGCCGCG CGGAGTTTGG TCGAAGACTT CGCGATGTCT 
CCACCTGCAA GAGACACGTT CAGAGGGGAT AATTCCGGCG TTGGAGCTCG ACGAGGGAAC 
AGAGATAATC ACAGAGACCG TTTGACATCT GGCAGAGGGA GAGGACGGCG ACCCTCACTT 
GAGCGGATCG CCGATCAAGA GGACGGAGCC CGGTCAGTTC AGCCTGTGGA CACGACGTCC 
ACCGCCGACT TTCCGAGTTT ATCTGGAAAC CCTTCGATCA GCCGCCCCTT GATACCCACA 
CCGAGGTACT CTGCGAAAAT GAATTCGCCG ATGAATTCCG CAGACGAGTT TCCTTCATTA 
GGTGAATCTG TGGACTCCAC CCCATCGACA TCACATACGT GGTTCAAGCC GATCGTCAGG 
GAGAAATCGA AAGCTGGACG CCCCATTCAG AAGACGGCCC TCACAGCCTT GTCTGGTACT 
CAATATAAGG CTCCGCATGC CCCGGTCCAA TGTTCTAAAA TAACGTCGGA GACATTCCCG 
AGCCTCCCGC AGCCGGTCGG TGATTCGGAT TTCGGTAAAG TTTTGAAACC TCTTCCGGTC 
GGCAAGAAAC ACGCTAAGGA GCGCCAAGCT AAGGCTATTC GGACGAAGAC ACCGATGGGC 
GTTTCCACGA GCGTTGGTAT GAACTCTTCG TCCTCGAAGA AGCAACAGAG TTTCGCCCCG 
ACCAATCATT CGAATTCGAA AACTCCAGCA GCTTTCAGAC TGACCGATGT CTCGAGGAGT 
CGTCTCGAAA GTGGTGTGAA TCGCTTGAAC ATCGCGAATA CACATACGTC TCCATCGGAT 
CTCGATCTCA AGTCCCCAAG TGCTTCGTGG GCGGCAAACA CGGACCCAGG ACCCGAGCAA 
CAGGTGCAAC AGCTCCGGAG TGAGAAAAAG GCCAGACAAA AACTTCCAAG AGAAGAGGAT 
TTCCCGTCAC TCGGTCCCGC CGAGCCGGAG CCTGCGGAGC CCGGCAATTT CTTCCGGCCA 
CCGAGGTCCA AGTATAGAGG AATCAGGCCT GGAGAGCAAG GCCAAGAAAA TCGCTCAAAC 
GATGACTTCA TCCAGCCACC AAACTTCACA AAGAGGACGA CTGAATTCCT GGGATTGCTC 
AAGCTTCTGC TGAATGGTAA CGCCGAACAC GTGACCGAAT ATCGACTCTT GATGACGAAT 
TTCCGTAAGG GCCTAATCTC CGGCGAGGAA TTCGTACACG GCTGCCTGCA GTTATTCGGC 
GACAGCTGCG AGTTTACGAA AGTGTTCGTC GAGTTGGTAT GCCTCATTCC CGATATTGAG 
AAGCAAAACG AGCTGATAGA GCTATACGAT AATCTGAAAA CGGAATACGG CATGCAAAAG 
AAAACGAACG GCCGAGATTG GACGCGCTGT TCTGAATGTG GTCAGATCAC GATCCCCGAG 
GACGCACAAG CTCACCAGAA GGCACATTGA

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

LOC100902219 ( XM_003745423.1 ) cDNA ORF clone, Galendromus occidentalis(western predatory mite) -> XP_003745471.1 Metaseiulus occidentalis zinc finger protein 598 (LOC100902219), mRNA.

Price & Availability↑

CloneID	OGa59729
Clone ID Related Accession (Same CDS sequence)	XM_003745423.1
Accession Version	XM_003745423.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2388bp) 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	zinc finger protein 598
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003805471.1) 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 :: 11% of CDS bases ##RefSeq-Attributes-END##

ATGACTATCG ATACCGGGTA TTCGGTGTCA CACCTGGAGT CTTTGCAGGA TAAGGAACGA 
ACATGTCAGC GTTCCGTGGA CGAGGGTACG CGCGCTCCCG GAGACCTCCA GGACCTCACC 
GCAACGAACG AGTGCTTCGT TTGCTGCCGC GAAATCAAAG TCTTCGCGGT CGGTTTGTGT 
GATCACCCCG TGTGTCACAT TTGCTCGACA AGACTCCGTG TACTATGCGA GACCAACGAA 
TGCCCGGTTT GCCGCGCCGA CATAGATGAA GTGTTCTTCG TGGCTGGAAT TTCCACCTTC 
GAAGATTTGA GAAATAAGGA AATGCACTCG AAGGCGGAGG AATTCGGCAT ATCGTTCGAG 
ACAGAAGAAA TTTCTTCAGA ATACAGCGAA CTCCTGACCA ACAAGTGCTA TGAATGTGTA 
CGACGAGCAA ACATATCTGA ACGCAGTGGA GAACGTAGTC ATCCCCCGGC GTGTTATGGA 
AATTTCGACG CTCTTCGGGA TCACGTACAG CGCGACCATA AGAGATATTT TTGTGACCTC 
TGTGTAGAAC ACCTCAAGCT CTTCACATTC GAACGACAAG CATACTCCAA GAGCGACTTG 
CGACGACATC TGCGAGAAGG AGACCTCAAC GACAAGTCTC ATAAGGGCCA TCCTCGTTGT 
GACTTCTGTG ATATCCATTA TCTCGATAAA GATGAGCTGT ACAAACATCT GAAAGTCGAT 
CATTTTTCGT GCTTCATCTG CCAGCGGGAT AATGCCGCGT GTCGCTTGCA ACAATACTAT 
GCGGCATACG AAGACCTGCA TCAGCATTTC TTGAGAGATC ATTTCGTATG CGATCAAGGA 
GAATGCGCAA CGGAGCGTTT TGTGGCTTTC GAGACGAAGC TCGAATATAA GGCGCACGTG 
GCCACCAAAC ATTCGGACTC GCTTAGCCGA GATGAACAGC GAGCCGCGCG GAGTTTGGTC 
GAAGACTTCG CGATGTCTCC ACCTGCAAGA GACACGTTCA GAGGGGATAA TTCCGGCGTT 
GGAGCTCGAC GAGGGAACAG AGATAATCAC AGAGACCGTT TGACATCTGG CAGAGGGAGA 
GGACGGCGAC CCTCACTTGA GCGGATCGCC GATCAAGAGG ACGGAGCCCG GTCAGTTCAG 
CCTGTGGACA CGACGTCCAC CGCCGACTTT CCGAGTTTAT CTGGAAACCC TTCGATCAGC 
CGCCCCTTGA TACCCACACC GAGGTACTCT GCGAAAATGA ATTCGCCGAT GAATTCCGCA 
GACGAGTTTC CTTCATTAGG TGAATCTGTG GACTCCACCC CATCGACATC ACATACGTGG 
TTCAAGCCGA TCGTCAGGGA GAAATCGAAA GCTGGACGCC CCATTCAGAA GACGGCCCTC 
ACAGCCTTGT CTGGTACTCA ATATAAGGCT CCGCATGCCC CGGTCCAATG TTCTAAAATA 
ACGTCGGAGA CATTCCCGAG CCTCCCGCAG CCGGTCGGTG ATTCGGATTT CGGTAAAGTT 
TTGAAACCTC TTCCGGTCGG CAAGAAACAC GCTAAGGAGC GCCAAGCTAA GGCTATTCGG 
ACGAAGACAC CGATGGGCGT TTCCACGAGC GTTGGTATGA ACTCTTCGTC CTCGAAGAAG 
CAACAGAGTT TCGCCCCGAC CAATCATTCG AATTCGAAAA CTCCAGCAGC TTTCAGACTG 
ACCGATGTCT CGAGGAGTCG TCTCGAAAGT GGTGTGAATC GCTTGAACAT CGCGAATACA 
CATACGTCTC CATCGGATCT CGATCTCAAG TCCCCAAGTG CTTCGTGGGC GGCAAACACG 
GACCCAGGAC CCGAGCAACA GGTGCAACAG CTCCGGAGTG AGAAAAAGGC CAGACAAAAA 
CTTCCAAGAG AAGAGGATTT CCCGTCACTC GGTCCCGCCG AGCCGGAGCC TGCGGAGCCC 
GGCAATTTCT TCCGGCCACC GAGGTCCAAG TATAGAGGAA TCAGGCCTGG AGAGCAAGGC 
CAAGAAAATC GCTCAAACGA TGACTTCATC CAGCCACCAA ACTTCACAAA GAGGACGACT 
GAATTCCTGG GATTGCTCAA GCTTCTGCTG AATGGTAACG CCGAACACGT GACCGAATAT 
CGACTCTTGA TGACGAATTT CCGTAAGGGC CTAATCTCCG GCGAGGAATT CGTACACGGC 
TGCCTGCAGT TATTCGGCGA CAGCTGCGAG TTTACGAAAG TGTTCGTCGA GTTGGTATGC 
CTCATTCCCG ATATTGAGAA GCAAAACGAG CTGATAGAGC TATACGATAA TCTGAAAACG 
GAATACGGCA TGCAAAAGAA AACGAACGGC CGAGATTGGA CGCGCTGTTC TGAATGTGGT 
CAGATCACGA TCCCCGAGGA CGCACAAGCT CACCAGAAGG CACATTGA

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

RefSeq	XP_003745471.1
CDS	1..2388
Translation	MTIDTGYSVSHLESLQDKERTCQRSVDEGTRAPGDLQDLTATNECFVCCREIKVFAVGLCDHPVCHICSTRLRVLCETNECPVCRADIDEVFFVAGISTFEDLRNKEMHSKAEEFGISFETEEISSEYSELLTNKCYECVRRANISERSGERSHPPACYGNFDALRDHVQRDHKRYFCDLCVEHLKLFTFERQAYSKSDLRRHLREGDLNDKSHKGHPRCDFCDIHYLDKDELYKHLKVDHFSCFICQRDNAACRLQQYYAAYEDLHQHFLRDHFVCDQGECATERFVAFETKLEYKAHVATKHSDSLSRDEQRAARSLVEDFAMSPPARDTFRGDNSGVGARRGNRDNHRDRLTSGRGRGRRPSLERIADQEDGARSVQPVDTTSTADFPSLSGNPSISRPLIPTPRYSAKMNSPMNSADEFPSLGESVDSTPSTSHTWFKPIVREKSKAGRPIQKTALTALSGTQYKAPHAPVQCSKITSETFPSLPQPVGDSDFGKVLKPLPVGKKHAKERQAKAIRTKTPMGVSTSVGMNSSSSKKQQSFAPTNHSNSKTPAAFRLTDVSRSRLESGVNRLNIANTHTSPSDLDLKSPSASWAANTDPGPEQQVQQLRSEKKARQKLPREEDFPSLGPAEPEPAEPGNFFRPPRSKYRGIRPGEQGQENRSNDDFIQPPNFTKRTTEFLGLLKLLLNGNAEHVTEYRLLMTNFRKGLISGEEFVHGCLQLFGDSCEFTKVFVELVCLIPDIEKQNELIELYDNLKTEYGMQKKTNGRDWTRCSECGQITIPEDAQAHQKAH

Target ORF information:

RefSeq Version	XM_003745423.1
Organism	Galendromus occidentalis(western predatory mite)
Definition	Metaseiulus occidentalis zinc finger protein 598 (LOC100902219), mRNA.

Target ORF information:

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

XM_003745423.1

ORF Insert Sequence:

ATGACTATCG ATACCGGGTA TTCGGTGTCA CACCTGGAGT CTTTGCAGGA TAAGGAACGA 
ACATGTCAGC GTTCCGTGGA CGAGGGTACG CGCGCTCCCG GAGACCTCCA GGACCTCACC 
GCAACGAACG AGTGCTTCGT TTGCTGCCGC GAAATCAAAG TCTTCGCGGT CGGTTTGTGT 
GATCACCCCG TGTGTCACAT TTGCTCGACA AGACTCCGTG TACTATGCGA GACCAACGAA 
TGCCCGGTTT GCCGCGCCGA CATAGATGAA GTGTTCTTCG TGGCTGGAAT TTCCACCTTC 
GAAGATTTGA GAAATAAGGA AATGCACTCG AAGGCGGAGG AATTCGGCAT ATCGTTCGAG 
ACAGAAGAAA TTTCTTCAGA ATACAGCGAA CTCCTGACCA ACAAGTGCTA TGAATGTGTA 
CGACGAGCAA ACATATCTGA ACGCAGTGGA GAACGTAGTC ATCCCCCGGC GTGTTATGGA 
AATTTCGACG CTCTTCGGGA TCACGTACAG CGCGACCATA AGAGATATTT TTGTGACCTC 
TGTGTAGAAC ACCTCAAGCT CTTCACATTC GAACGACAAG CATACTCCAA GAGCGACTTG 
CGACGACATC TGCGAGAAGG AGACCTCAAC GACAAGTCTC ATAAGGGCCA TCCTCGTTGT 
GACTTCTGTG ATATCCATTA TCTCGATAAA GATGAGCTGT ACAAACATCT GAAAGTCGAT 
CATTTTTCGT GCTTCATCTG CCAGCGGGAT AATGCCGCGT GTCGCTTGCA ACAATACTAT 
GCGGCATACG AAGACCTGCA TCAGCATTTC TTGAGAGATC ATTTCGTATG CGATCAAGGA 
GAATGCGCAA CGGAGCGTTT TGTGGCTTTC GAGACGAAGC TCGAATATAA GGCGCACGTG 
GCCACCAAAC ATTCGGACTC GCTTAGCCGA GATGAACAGC GAGCCGCGCG GAGTTTGGTC 
GAAGACTTCG CGATGTCTCC ACCTGCAAGA GACACGTTCA GAGGGGATAA TTCCGGCGTT 
GGAGCTCGAC GAGGGAACAG AGATAATCAC AGAGACCGTT TGACATCTGG CAGAGGGAGA 
GGACGGCGAC CCTCACTTGA GCGGATCGCC GATCAAGAGG ACGGAGCCCG GTCAGTTCAG 
CCTGTGGACA CGACGTCCAC CGCCGACTTT CCGAGTTTAT CTGGAAACCC TTCGATCAGC 
CGCCCCTTGA TACCCACACC GAGGTACTCT GCGAAAATGA ATTCGCCGAT GAATTCCGCA 
GACGAGTTTC CTTCATTAGG TGAATCTGTG GACTCCACCC CATCGACATC ACATACGTGG 
TTCAAGCCGA TCGTCAGGGA GAAATCGAAA GCTGGACGCC CCATTCAGAA GACGGCCCTC 
ACAGCCTTGT CTGGTACTCA ATATAAGGCT CCGCATGCCC CGGTCCAATG TTCTAAAATA 
ACGTCGGAGA CATTCCCGAG CCTCCCGCAG CCGGTCGGTG ATTCGGATTT CGGTAAAGTT 
TTGAAACCTC TTCCGGTCGG CAAGAAACAC GCTAAGGAGC GCCAAGCTAA GGCTATTCGG 
ACGAAGACAC CGATGGGCGT TTCCACGAGC GTTGGTATGA ACTCTTCGTC CTCGAAGAAG 
CAACAGAGTT TCGCCCCGAC CAATCATTCG AATTCGAAAA CTCCAGCAGC TTTCAGACTG 
ACCGATGTCT CGAGGAGTCG TCTCGAAAGT GGTGTGAATC GCTTGAACAT CGCGAATACA 
CATACGTCTC CATCGGATCT CGATCTCAAG TCCCCAAGTG CTTCGTGGGC GGCAAACACG 
GACCCAGGAC CCGAGCAACA GGTGCAACAG CTCCGGAGTG AGAAAAAGGC CAGACAAAAA 
CTTCCAAGAG AAGAGGATTT CCCGTCACTC GGTCCCGCCG AGCCGGAGCC TGCGGAGCCC 
GGCAATTTCT TCCGGCCACC GAGGTCCAAG TATAGAGGAA TCAGGCCTGG AGAGCAAGGC 
CAAGAAAATC GCTCAAACGA TGACTTCATC CAGCCACCAA ACTTCACAAA GAGGACGACT 
GAATTCCTGG GATTGCTCAA GCTTCTGCTG AATGGTAACG CCGAACACGT GACCGAATAT 
CGACTCTTGA TGACGAATTT CCGTAAGGGC CTAATCTCCG GCGAGGAATT CGTACACGGC 
TGCCTGCAGT TATTCGGCGA CAGCTGCGAG TTTACGAAAG TGTTCGTCGA GTTGGTATGC 
CTCATTCCCG ATATTGAGAA GCAAAACGAG CTGATAGAGC TATACGATAA TCTGAAAACG 
GAATACGGCA TGCAAAAGAA AACGAACGGC CGAGATTGGA CGCGCTGTTC TGAATGTGGT 
CAGATCACGA TCCCCGAGGA CGCACAAGCT CACCAGAAGG CACATTGA