LOC103508375 cDNA ORF clone, Diaphorina citri(Asian citrus psyllid)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC103508375
Entrez Gene ID	103508375
Full Name	tyrosine-protein phosphatase Lar-like
Gene Type	protein-coding
Organism	Diaphorina citri(Asian citrus psyllid)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008472920.2	XP_008471142.1	tyrosine-protein phosphatase Lar-like
XM_026822994.1	XP_026678795.1	receptor-type tyrosine-protein phosphatase S-like

Pathways from BioSystems
Gene Ontology

The following LOC103508375 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC103508375 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
ODi209415	XM_026822994.1 Latest version!	Diaphorina citri receptor-type tyrosine-protein phosphatase S-like (LOC103508375), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$307.30 $439.00
ODi76850	XM_008472920.2 Latest version!	Diaphorina citri tyrosine-protein phosphatase Lar-like (LOC103508375), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00

ORF Online Only Promotion

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

LOC103508375 ( XM_026822994.1 ) cDNA ORF clone, Diaphorina citri(Asian citrus psyllid) -> XP_026678795.1 Diaphorina citri receptor-type tyrosine-protein phosphatase S-like (LOC103508375), mRNA.

Price & Availability↑

CloneID	ODi209415
Clone ID Related Accession (Same CDS sequence)	XM_026822994.1
Accession Version	XM_026822994.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1860bp) 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	2018-10-21
Organism	Diaphorina citri(Asian citrus psyllid)
Product	receptor-type tyrosine-protein phosphatase S-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007377827.1) 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 :: Diaphorina citri Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCGGGCG AAATCATGAC CTCACACGCA CCGTCGGACC CTGTAGAAAT GCGCCGACTC 
AACTTTCAGA CCCCGGGGAT GGTATCGCAC CCCCCTATAC CTATCAGTCG ACTCGCCCAA 
CATATTGAGA ACCTGAAGGC CAATGATAAC TTGAAATTCT CACAGGAATA TGAGTCTATC 
GAGCCGGGTC AGCAGTTCAC ATGGGATCAC TCCAGCATGG AAATGAACAA GGCCAAGAAC 
CGCTACGCCA ACGTGATAGC TTACGATCAC AGTCGAGTCA TACTGTCCAC GGTAGACGGC 
ATTCCGGGAA GTGACTACAT TAACGCCAAC TATTGTGACG GGTATCGGAA ACACAACGCT 
TATGTGGCTA CTCAGGGTCC TCTGCAAGAA ACACTGGGCG ATTTCTGGCG CATGGTCTGG 
GAGCTTCGGT CGGTCACCAT CGTGATGATG ACCAAACTAG AAGAACGAAC CAGGATCAAG 
TGTGACCAAT ACTGGCCCAG TAGGGGTACG GAGACCTATG GTCATATTAC CGTCACCCTA 
CAAGATGTAC AAGAGCTAGC TTCGTATTGT ATACGGACCT TTATGATCAA CAAGGGTGCG 
GATTCAGAGC GTCGAGAAAT CAAGCAGCTT CAATTCACTG CCTGGCCTGA TCATGGGGTA 
CCAGAACATC CCGCCCCCTT CCTTCTATTC CTGAGACGAG TTCGTGCTAT GAACCCGGGC 
ACCAACTCTC TAGAATCCTC CGGAGTGAAT CTACCCGTAG GTCCACTTAT CGTGCACTGC 
AGCGCTGGTG TCGGACGCAC AGGGTGTTTC ATTGTTATAG ACGCTATGAT CGAGCGAATC 
AAGCACGACA AAACGGTGGA TATATATGGT CACGTGACTT GTCTGCGCGC GCAGCGGAAC 
TATATGGTTC AGACGGAGGA CCAGTATATG TTCATACACG ATGCGTTGCT AGAGGCCGTG 
CTGTGTGGGA ACACTGAGAT ACCAGCCAGA TCCCTGCACG TCCACATCCA GAAGCTCATG 
TCCATGGAGG TGGGAGACAC GAGTACCGGT ATGGAGTTGG AGTTCAAGAA GCTATCTAAC 
ATCCGCGCCG AACCATCCCG GTTTATATCC GCCTCCTTAC CTTGTAACAA ACATAAGAAC 
CGTCTGGTAC ACATCCTACC TGTGGAGAGC AGCCGTGTGT GTCTAACCCC CGTGCGAGGT 
ATCGAAGGTT CAGATTATAT CAACGCTAGT TTCATCGATG GTTACCGACT TCGGTCCGCC 
TACATTGCCA CCCAGGGACC TTTGGCGGAC ACGACAGAAG ACTTTTGGCG GATGCTCTGG 
GAACACAACT CCACCATTGT CGTCATGCTG ACCAAACTCA AGGAAATGGG ACGGGAGAAG 
TGTCATCAAT ACTGGCCCAG TGAGAGGTCT ATCCGTTATG AATGGTTTGT GGTAGAGCCT 
ATAGCTGAAT ACAATATGCC ACAGTATGTA CTGAGGGAGT TCAAGGTCAC AGACGCTCGA 
GATGCTACCT CGCGGACGTT AAGACAATTC CAGCTCATTG ATTGGCCGGA ACAGGGCGTG 
CCCAAGAGCG GAGATGGATT CATTGATTTC ATTGGGCAGG TGCACAAAAC CAAGGAGCAA 
TTTGGTCAGG ATGGTCCTAT CACTGTACAT TGCAGTGCCG GAGTGGGCAG GACAGGCGTA 
TTCATAACCC TGAGTATAGT GCTGGAGCGT ATGCAATATG AAGGGGTGAT AGATTTGTTC 
CAAACGGTGC GAATACTGCG CACCCAGCGG CCTGCCATGG TACAGACAGA GGAGCAGTAC 
CAGTTCTGTT ACCACGCGGC CCTGGAGTAC CTTGGTTCGT TCGATCACTA CACCAACTGA

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

RefSeq	XP_026678795.1
CDS	34..1893
Translation	MSGEIMTSHAPSDPVEMRRLNFQTPGMVSHPPIPISRLAQHIENLKANDNLKFSQEYESIEPGQQFTWDHSSMEMNKAKNRYANVIAYDHSRVILSTVDGIPGSDYINANYCDGYRKHNAYVATQGPLQETLGDFWRMVWELRSVTIVMMTKLEERTRIKCDQYWPSRGTETYGHITVTLQDVQELASYCIRTFMINKGADSERREIKQLQFTAWPDHGVPEHPAPFLLFLRRVRAMNPGTNSLESSGVNLPVGPLIVHCSAGVGRTGCFIVIDAMIERIKHDKTVDIYGHVTCLRAQRNYMVQTEDQYMFIHDALLEAVLCGNTEIPARSLHVHIQKLMSMEVGDTSTGMELEFKKLSNIRAEPSRFISASLPCNKHKNRLVHILPVESSRVCLTPVRGIEGSDYINASFIDGYRLRSAYIATQGPLADTTEDFWRMLWEHNSTIVVMLTKLKEMGREKCHQYWPSERSIRYEWFVVEPIAEYNMPQYVLREFKVTDARDATSRTLRQFQLIDWPEQGVPKSGDGFIDFIGQVHKTKEQFGQDGPITVHCSAGVGRTGVFITLSIVLERMQYEGVIDLFQTVRILRTQRPAMVQTEEQYQFCYHAALEYLGSFDHYTN

Target ORF information:

RefSeq Version	XM_026822994.1
Organism	Diaphorina citri(Asian citrus psyllid)
Definition	Diaphorina citri receptor-type tyrosine-protein phosphatase S-like (LOC103508375), mRNA.

Target ORF information:

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

XM_026822994.1

ORF Insert Sequence:

ATGTCGGGCG AAATCATGAC CTCACACGCA CCGTCGGACC CTGTAGAAAT GCGCCGACTC 
AACTTTCAGA CCCCGGGGAT GGTATCGCAC CCCCCTATAC CTATCAGTCG ACTCGCCCAA 
CATATTGAGA ACCTGAAGGC CAATGATAAC TTGAAATTCT CACAGGAATA TGAGTCTATC 
GAGCCGGGTC AGCAGTTCAC ATGGGATCAC TCCAGCATGG AAATGAACAA GGCCAAGAAC 
CGCTACGCCA ACGTGATAGC TTACGATCAC AGTCGAGTCA TACTGTCCAC GGTAGACGGC 
ATTCCGGGAA GTGACTACAT TAACGCCAAC TATTGTGACG GGTATCGGAA ACACAACGCT 
TATGTGGCTA CTCAGGGTCC TCTGCAAGAA ACACTGGGCG ATTTCTGGCG CATGGTCTGG 
GAGCTTCGGT CGGTCACCAT CGTGATGATG ACCAAACTAG AAGAACGAAC CAGGATCAAG 
TGTGACCAAT ACTGGCCCAG TAGGGGTACG GAGACCTATG GTCATATTAC CGTCACCCTA 
CAAGATGTAC AAGAGCTAGC TTCGTATTGT ATACGGACCT TTATGATCAA CAAGGGTGCG 
GATTCAGAGC GTCGAGAAAT CAAGCAGCTT CAATTCACTG CCTGGCCTGA TCATGGGGTA 
CCAGAACATC CCGCCCCCTT CCTTCTATTC CTGAGACGAG TTCGTGCTAT GAACCCGGGC 
ACCAACTCTC TAGAATCCTC CGGAGTGAAT CTACCCGTAG GTCCACTTAT CGTGCACTGC 
AGCGCTGGTG TCGGACGCAC AGGGTGTTTC ATTGTTATAG ACGCTATGAT CGAGCGAATC 
AAGCACGACA AAACGGTGGA TATATATGGT CACGTGACTT GTCTGCGCGC GCAGCGGAAC 
TATATGGTTC AGACGGAGGA CCAGTATATG TTCATACACG ATGCGTTGCT AGAGGCCGTG 
CTGTGTGGGA ACACTGAGAT ACCAGCCAGA TCCCTGCACG TCCACATCCA GAAGCTCATG 
TCCATGGAGG TGGGAGACAC GAGTACCGGT ATGGAGTTGG AGTTCAAGAA GCTATCTAAC 
ATCCGCGCCG AACCATCCCG GTTTATATCC GCCTCCTTAC CTTGTAACAA ACATAAGAAC 
CGTCTGGTAC ACATCCTACC TGTGGAGAGC AGCCGTGTGT GTCTAACCCC CGTGCGAGGT 
ATCGAAGGTT CAGATTATAT CAACGCTAGT TTCATCGATG GTTACCGACT TCGGTCCGCC 
TACATTGCCA CCCAGGGACC TTTGGCGGAC ACGACAGAAG ACTTTTGGCG GATGCTCTGG 
GAACACAACT CCACCATTGT CGTCATGCTG ACCAAACTCA AGGAAATGGG ACGGGAGAAG 
TGTCATCAAT ACTGGCCCAG TGAGAGGTCT ATCCGTTATG AATGGTTTGT GGTAGAGCCT 
ATAGCTGAAT ACAATATGCC ACAGTATGTA CTGAGGGAGT TCAAGGTCAC AGACGCTCGA 
GATGCTACCT CGCGGACGTT AAGACAATTC CAGCTCATTG ATTGGCCGGA ACAGGGCGTG 
CCCAAGAGCG GAGATGGATT CATTGATTTC ATTGGGCAGG TGCACAAAAC CAAGGAGCAA 
TTTGGTCAGG ATGGTCCTAT CACTGTACAT TGCAGTGCCG GAGTGGGCAG GACAGGCGTA 
TTCATAACCC TGAGTATAGT GCTGGAGCGT ATGCAATATG AAGGGGTGAT AGATTTGTTC 
CAAACGGTGC GAATACTGCG CACCCAGCGG CCTGCCATGG TACAGACAGA GGAGCAGTAC 
CAGTTCTGTT ACCACGCGGC CCTGGAGTAC CTTGGTTCGT TCGATCACTA CACCAACTGA

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

LOC103508375 ( XM_008472920.2 ) cDNA ORF clone, Diaphorina citri(Asian citrus psyllid) -> XP_008471142.1 Diaphorina citri tyrosine-protein phosphatase Lar-like (LOC103508375), mRNA.

Price & Availability↑

CloneID	ODi76850
Clone ID Related Accession (Same CDS sequence)	XM_008472920.2
Accession Version	XM_008472920.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4989bp) 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	2016-06-29
Organism	Diaphorina citri(Asian citrus psyllid)
Product	tyrosine-protein phosphatase Lar-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007377827.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 30, 2016 this sequence version replaced XM_008472920.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Diaphorina citri Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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##

ATGTTGAAGG AAGAGCCCGA AGTTACTATC GAGTTGGTGT GGTCACAACC AACACAGACC 
TACGGAGAAA TCCTGGGTTA TCGGGTCAAG TATGGTGTTC GGGAACATAC CCTGAAAGAG 
AACTTGGTCA ACAGTAAAAA CATGTCCTTC CTCATTACCA ATCTAGAACG TGGTGTCGAG 
TATGAATTCC GCATCGCAGG CCAGAACCAC ATCGGCTACG GCCAGGAGAC GGTCCGATAC 
TACACCACCC CCGAGGGTCC CCCCACGGGG CCCCCGGCCA ACATTTCGCA CCACTTCCAA 
ACCCCGGACG TGGTCTGTAT CACGTGGGAT CCGCCCCTGA GGACGCACCG TAATGGACAG 
ATCGTGCTGT ACAACGTCAA GTTCCACAAG AAGATAGACG CGAACAATGT CATTCATAGG 
AACACAACGC AGACCAAGGC CGTTTTCTCG AATCTAGAAG AGGGCATCGA GTACAGCGCC 
GAAGTGCAGG CCATCACCAA GGCAGGCCCC GGCCCCTGGA GCCCCAAGCT GAGCCTGATG 
ACGGCCCGTG ACATGGTGAG GGCCCCCCTC GGGGTGAAGG CCCTGGCTAC TAGTGATCAG 
AGTGTAGAGG TGTGGTGGAA ACCTGTGCCC GCTGGCCGGG GCAAGATACT GGGCTACCAG 
ATATTCTACA CGATGACCGC GGTTGAAGAT CTGGATGAAT GGTCGCAGAA GTCGGTACCT 
CTGACGGAAT CCGCTGAATT GACGTCCCTG GAGAAATTCA CTGAGTATGC TGTAGCTGTG 
GCCGCTAGAA CTGTCAATGG GTTGGGCCGG CTATCAGGCA AGGTAACTGT GAAAGTAAAA 
CCAGAAGACG TACCTCTCAG CCTGCGTGCT CACGATGTTT CAACACACAG TATGACATTG 
TCCTGGTCTC CTCCTATCAA ACTGAATCCT GTTAAATATA AGATCTCTCT GGACGCCGTC 
AAGGAGTTTG TAGATTCACA AGGTATCACT CAAACTCAGA TAGTACCTAG ACGTACCCTC 
TTCCTGGAAC CTACAGAAAC TGAATGCACC ATTAGTGAAC TGTCACCTTT CACTACGTAC 
AGTGTCAATA TAAGTCAAGT GTACACACAG AATGCTGAGA TGAGACCTCT CGGCTGTAGT 
ATGATCCTCA TTTCCTACGA TGAGAATGAA GGACCTCTCA TTTACAAAAC AGACCCAGCC 
GGATACTATT GCTCCTTCAA AGCTGTCAGT GTTGGTGTTA AAACAACTGA AGCCAACAGT 
TATCTAGAGA AGAAATTCAA GAAGAAGACC AACTACACAG GAGATGAAAC TATTCAGTTG 
GCCATTTCTT GTCTTTCTCA TGTGTTGTCA GTGGATTTCA AACCAACAGA GATTGAAGTT 
GCTGTGGTAT CAAAAGACAA TCCATTGTTC ACCGTTCTGT CTGTGGAAGA CCTGCGTGCT 
CACGATGTTT CAACACACAG TATGACATTG TCCTGGTCTC CTCCTATCAA ACTGAATCCT 
GTTAAATATA AGATCTCTCT GGACGCCGTC AAGGAGTTTG TAGATTCACA AGGTATCACT 
CAAACTCAGA TAGTACCCAG ACGTACCCTC TTCCTGGAAC CTACAGAAAC CGAATGCACC 
ATTAGTGAAC TGTCACCTTT CACTACGTAC AGTGTCAATA TAAGTGCTAT CCCAGGAGAC 
AACCAATACA AGCCAAGCAC CAGAATAAGC GTCACTACTC AGATGGCTGC TCCTCAACCC 
CTGACATTTC TGTATTATCC ACGGTCTTCC AGCTTCAAGA GACGTCAGCC ACGCAAGTAC 
CCGGAATCTT CGGCCGTCAC TCGGCCTCTC ATGTCGGGCG AAATCATGAC CTCACACGCA 
CCGTCGGACC CTGTAGAAAT GCGCCGACTC AACTTTCAGA CCCCGGGGAT GGTATCGCAC 
CCCCCTATAC CTATCAGTCG ACTCGCCCAA CATATTGAGA ACCTGAAGGC CAATGATAAC 
TTGAAATTCT CACAGGAATA TGAGTCTATC GAGCCGGGAC AGCAGTTCAC ATGGGATCAT 
TCCAGCATGG AAATGAACAA GGCAAAGAAC CGCTATGCCA ACGTGATAGC TTACGATCAT 
AGTCGAGTCA TACTGTCCAC GGTAGACGGC ATTCCGGGAA GTGACTACAT TAACGCCAAC 
TATTGTGACG GGTATCGGAA ACACAACGCT TATGTGGCTA CTCAGGGTCC TCTGCAAGAA 
ACACTGGGCG ATTTCTGGCG CATGGTCTGG GAGCTTCGGT CAGTCACCAT CGTGATGATG 
ACCAAACTAG AAGAACGAAC CAGGATCAAG TGTGACCAAT ACTGGCCCAG TAGGGGTACC 
GAGACCTATG GTCATATTAC CGTCACCCTG CAAGATGTAC AAGAGCTAGC TTCGTATTGT 
ATACGGACCT TTATGATCAA CAAAGGTGCG GATTCAGAGC GTCGTGAAAT CAAGCAGCTT 
CAATTCACTG CCTGGCCTGA TCATGGGGTA CCAGAACATC CCGCCCCGTT CCTTCTGTTC 
CTGAGACGAG TACGTGCTAT GAACCCTGGC ACCAATTCTC TAGAATCATC CGGAGTGAAT 
CTACCCGTAG GTCCACTTAT CGTGCACTGC AGCGCTGGTG TCGGACGCAC AGGGTGTTTC 
ATTGTTATAG ACGCTATGAT CGAGCGAATC AAGCACGACA AAACGGTGGA TATATACGGT 
CACGTGACTT GTCTGCGCGC GCAGCGGAAC TATATGGTAC AGACGGAGGA CCAGTATATG 
TTCATACACG ATGCGTTGCT AGAGGCCGTG CTGTGTGGGA ACACTGAGAT ACCAGCCAGA 
TCCCTGCACG TCCACATCCA GAAGCTCATG TCCATGGAGG TGGGAGACAC GAGTACCGGT 
ATGGAGTTAG AGTTCAAGAA GCTATCCAAC ATCCGCGCCG AACCATCCCG CTTTATATCC 
GCCTCCCTAC CTTGTAACAA ACATAAGAAC CGTCTGGTAC ACATCCTACC TGTGGAGAGC 
AGCCGTGTGT GTCTAACCCC CGTGCGAGGA GATGGATTCA TTGATTTCAT TGGGCAGGTG 
CACAAAACCA AGGAGCAATT TGGTCAGGAT GGTCCTATCA CTGTACATTG CAGTTGTGAT 
AATAACCGGG ACGGGGGCGA AATCATGACC TCACACGCAC CGTCGGACCC TGTAGAAATG 
CGCCGACTCA ACTTTCAGAC CCCGGGGATG GTATCGCACC CCCCTATACC TATCAGTCGA 
CTCGCCCAAC ATATTGAGAA CCTGAAGGCC AATGATAACT TGAAATTCTC ACAGGAATAT 
GAGTCTATCG AGCCGGGACA GCAGTTCACA TGGGATCATT CCAGCATGGA AATGAACAAG 
GCAAAGAACC GCTATGCCAA CGTGATAGCT TACGATCATA GTCGAGTCAT ACTGTCCACG 
GTAGACGGCA TTCCGGGAAG TGACTACATT AACGCCAACT ATTGTGACGG GTATCGGAAA 
CACAACGCTT ATGTGGCTAC TCAGGGTCCT CTGCAAGAAA CACTGGGCGA TTTCTGGCGC 
ATGGTCTGGG AGCTTCGGTC GGTCACCATC GTGATGATGA CCAAACTAGA AGAACGAACC 
AGGATCAAGT GTGACCAATA CTGGCCCAGT AGGGGTACGG AGACCTATGG TCATATTACC 
GTCACCCTAC AAGATGTACA AGAGCTAGCT TCGTATTGTA TACGGACCTT TATGATCAAC 
AAGGGTGCGG ATTCAGAGCG TCGAGAAATC AAGCAGCTTC AATTCACTGC CTGGCCTGAT 
CATGGGGTAC CAGAACATCC CGCCCCCTTC CTTCTATTCC TGAGACGAGT TCGTGCTATG 
AACCCGGGCA CCAACTCTCT AGAATCCTCC GGAGTGAATC TACCCGTAGG TCCACTTATC 
GTGCACTGCA GCGCTGGTGT CGGACGCACA GGGTGTTTCA TTGTTATAGA CGCTATGATC 
GAGCGAATCA AGCACGACAA AACGGTGGAT ATATATGGTC ACGTGACTTG TCTGCGCGCG 
CAGCGGAACT ATATGGTTCA GACGGAGGAC CAGTATATGT TCATACACGA TGCGTTGCTA 
GAGGCCGTGC TGTGTGGGAA CACTGAGATA CCAGCCAGAT CCCTGCACGT CCACATCCAG 
AAGCTCATGT CCATGGAGGT GGGAGACACG AGTACCGGTA TGGAGTTGGA GTTCAAGAAG 
CTATCTAACA TCCGCGCCGA ACCATCCCGG TTTATATCCG CCTCCTTACC TTGTAACAAA 
CATAAGAACC GTCTGGTACA CATCCTACCT GTGGAGAGCA GCCGTGTGTG TCTAACCCCC 
GTGCGAGGTA TCGAAGGTTC AGATTATATC AACGCTAGTT TCATCGATGG TTACCGACTT 
CGGTCCGCCT ACATTGCCAC CCAGGGACCT TTGGCGGACA CGACAGAAGA CTTTTGGCGG 
ATGCTCTGGG AACACAACTC CACCATTGTC GTCATGCTGA CCAAACTCAA GGAAATGGGA 
CGGGAGAAGT GTCATCAATA CTGGCCCAGT GAGAGGTCTA TCCGTTATGA ATGGTTTGTG 
GTAGAGCCTA TAGCTGAATA CAATATGCCA CAGTATGTAC TGAGGGAGTT CAAGGTCACA 
GACGCTCGAG ATGCTACCTC GCGGACGTTA AGACAATTCC AGCTCATTGA TTGGCCGGAA 
CAGGGCGTGC CCAAGAGCGG AGATGGATTC ATTGATTTCA TTGGGCAGGT GCACAAAACC 
AAGGAGCAAT TTGGTCAGGA TGGTCCTATC ACTGTACATT GCAGTGCCGG AGTGGGCAGG 
ACAGGCGTAT TCATAACCCT GAGTATAGTG CTGGAGCGTA TGCAATATGA AGGGGTGATA 
GATTTGTTCC AAACGGTGCG AATACTGCGC ACCCAGCGGC CTGCCATGGT ACAGACAGAG 
GAGCAGTACC AGTTCTGTTA CCACGCGGCC CTGGAGTACC TTGGTTCGTT CGATCACTAC 
ACCAACTGA

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

RefSeq	XP_008471142.1
CDS	1..4989
Translation	MLKEEPEVTIELVWSQPTQTYGEILGYRVKYGVREHTLKENLVNSKNMSFLITNLERGVEYEFRIAGQNHIGYGQETVRYYTTPEGPPTGPPANISHHFQTPDVVCITWDPPLRTHRNGQIVLYNVKFHKKIDANNVIHRNTTQTKAVFSNLEEGIEYSAEVQAITKAGPGPWSPKLSLMTARDMVRAPLGVKALATSDQSVEVWWKPVPAGRGKILGYQIFYTMTAVEDLDEWSQKSVPLTESAELTSLEKFTEYAVAVAARTVNGLGRLSGKVTVKVKPEDVPLSLRAHDVSTHSMTLSWSPPIKLNPVKYKISLDAVKEFVDSQGITQTQIVPRRTLFLEPTETECTISELSPFTTYSVNISQVYTQNAEMRPLGCSMILISYDENEGPLIYKTDPAGYYCSFKAVSVGVKTTEANSYLEKKFKKKTNYTGDETIQLAISCLSHVLSVDFKPTEIEVAVVSKDNPLFTVLSVEDLRAHDVSTHSMTLSWSPPIKLNPVKYKISLDAVKEFVDSQGITQTQIVPRRTLFLEPTETECTISELSPFTTYSVNISAIPGDNQYKPSTRISVTTQMAAPQPLTFLYYPRSSSFKRRQPRKYPESSAVTRPLMSGEIMTSHAPSDPVEMRRLNFQTPGMVSHPPIPISRLAQHIENLKANDNLKFSQEYESIEPGQQFTWDHSSMEMNKAKNRYANVIAYDHSRVILSTVDGIPGSDYINANYCDGYRKHNAYVATQGPLQETLGDFWRMVWELRSVTIVMMTKLEERTRIKCDQYWPSRGTETYGHITVTLQDVQELASYCIRTFMINKGADSERREIKQLQFTAWPDHGVPEHPAPFLLFLRRVRAMNPGTNSLESSGVNLPVGPLIVHCSAGVGRTGCFIVIDAMIERIKHDKTVDIYGHVTCLRAQRNYMVQTEDQYMFIHDALLEAVLCGNTEIPARSLHVHIQKLMSMEVGDTSTGMELEFKKLSNIRAEPSRFISASLPCNKHKNRLVHILPVESSRVCLTPVRGDGFIDFIGQVHKTKEQFGQDGPITVHCSCDNNRDGGEIMTSHAPSDPVEMRRLNFQTPGMVSHPPIPISRLAQHIENLKANDNLKFSQEYESIEPGQQFTWDHSSMEMNKAKNRYANVIAYDHSRVILSTVDGIPGSDYINANYCDGYRKHNAYVATQGPLQETLGDFWRMVWELRSVTIVMMTKLEERTRIKCDQYWPSRGTETYGHITVTLQDVQELASYCIRTFMINKGADSERREIKQLQFTAWPDHGVPEHPAPFLLFLRRVRAMNPGTNSLESSGVNLPVGPLIVHCSAGVGRTGCFIVIDAMIERIKHDKTVDIYGHVTCLRAQRNYMVQTEDQYMFIHDALLEAVLCGNTEIPARSLHVHIQKLMSMEVGDTSTGMELEFKKLSNIRAEPSRFISASLPCNKHKNRLVHILPVESSRVCLTPVRGIEGSDYINASFIDGYRLRSAYIATQGPLADTTEDFWRMLWEHNSTIVVMLTKLKEMGREKCHQYWPSERSIRYEWFVVEPIAEYNMPQYVLREFKVTDARDATSRTLRQFQLIDWPEQGVPKSGDGFIDFIGQVHKTKEQFGQDGPITVHCSAGVGRTGVFITLSIVLERMQYEGVIDLFQTVRILRTQRPAMVQTEEQYQFCYHAALEYLGSFDHYTN

Target ORF information:

RefSeq Version	XM_008472920.2
Organism	Diaphorina citri(Asian citrus psyllid)
Definition	Diaphorina citri tyrosine-protein phosphatase Lar-like (LOC103508375), mRNA.

Target ORF information:

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

XM_008472920.2

ORF Insert Sequence:

ATGTTGAAGG AAGAGCCCGA AGTTACTATC GAGTTGGTGT GGTCACAACC AACACAGACC 
TACGGAGAAA TCCTGGGTTA TCGGGTCAAG TATGGTGTTC GGGAACATAC CCTGAAAGAG 
AACTTGGTCA ACAGTAAAAA CATGTCCTTC CTCATTACCA ATCTAGAACG TGGTGTCGAG 
TATGAATTCC GCATCGCAGG CCAGAACCAC ATCGGCTACG GCCAGGAGAC GGTCCGATAC 
TACACCACCC CCGAGGGTCC CCCCACGGGG CCCCCGGCCA ACATTTCGCA CCACTTCCAA 
ACCCCGGACG TGGTCTGTAT CACGTGGGAT CCGCCCCTGA GGACGCACCG TAATGGACAG 
ATCGTGCTGT ACAACGTCAA GTTCCACAAG AAGATAGACG CGAACAATGT CATTCATAGG 
AACACAACGC AGACCAAGGC CGTTTTCTCG AATCTAGAAG AGGGCATCGA GTACAGCGCC 
GAAGTGCAGG CCATCACCAA GGCAGGCCCC GGCCCCTGGA GCCCCAAGCT GAGCCTGATG 
ACGGCCCGTG ACATGGTGAG GGCCCCCCTC GGGGTGAAGG CCCTGGCTAC TAGTGATCAG 
AGTGTAGAGG TGTGGTGGAA ACCTGTGCCC GCTGGCCGGG GCAAGATACT GGGCTACCAG 
ATATTCTACA CGATGACCGC GGTTGAAGAT CTGGATGAAT GGTCGCAGAA GTCGGTACCT 
CTGACGGAAT CCGCTGAATT GACGTCCCTG GAGAAATTCA CTGAGTATGC TGTAGCTGTG 
GCCGCTAGAA CTGTCAATGG GTTGGGCCGG CTATCAGGCA AGGTAACTGT GAAAGTAAAA 
CCAGAAGACG TACCTCTCAG CCTGCGTGCT CACGATGTTT CAACACACAG TATGACATTG 
TCCTGGTCTC CTCCTATCAA ACTGAATCCT GTTAAATATA AGATCTCTCT GGACGCCGTC 
AAGGAGTTTG TAGATTCACA AGGTATCACT CAAACTCAGA TAGTACCTAG ACGTACCCTC 
TTCCTGGAAC CTACAGAAAC TGAATGCACC ATTAGTGAAC TGTCACCTTT CACTACGTAC 
AGTGTCAATA TAAGTCAAGT GTACACACAG AATGCTGAGA TGAGACCTCT CGGCTGTAGT 
ATGATCCTCA TTTCCTACGA TGAGAATGAA GGACCTCTCA TTTACAAAAC AGACCCAGCC 
GGATACTATT GCTCCTTCAA AGCTGTCAGT GTTGGTGTTA AAACAACTGA AGCCAACAGT 
TATCTAGAGA AGAAATTCAA GAAGAAGACC AACTACACAG GAGATGAAAC TATTCAGTTG 
GCCATTTCTT GTCTTTCTCA TGTGTTGTCA GTGGATTTCA AACCAACAGA GATTGAAGTT 
GCTGTGGTAT CAAAAGACAA TCCATTGTTC ACCGTTCTGT CTGTGGAAGA CCTGCGTGCT 
CACGATGTTT CAACACACAG TATGACATTG TCCTGGTCTC CTCCTATCAA ACTGAATCCT 
GTTAAATATA AGATCTCTCT GGACGCCGTC AAGGAGTTTG TAGATTCACA AGGTATCACT 
CAAACTCAGA TAGTACCCAG ACGTACCCTC TTCCTGGAAC CTACAGAAAC CGAATGCACC 
ATTAGTGAAC TGTCACCTTT CACTACGTAC AGTGTCAATA TAAGTGCTAT CCCAGGAGAC 
AACCAATACA AGCCAAGCAC CAGAATAAGC GTCACTACTC AGATGGCTGC TCCTCAACCC 
CTGACATTTC TGTATTATCC ACGGTCTTCC AGCTTCAAGA GACGTCAGCC ACGCAAGTAC 
CCGGAATCTT CGGCCGTCAC TCGGCCTCTC ATGTCGGGCG AAATCATGAC CTCACACGCA 
CCGTCGGACC CTGTAGAAAT GCGCCGACTC AACTTTCAGA CCCCGGGGAT GGTATCGCAC 
CCCCCTATAC CTATCAGTCG ACTCGCCCAA CATATTGAGA ACCTGAAGGC CAATGATAAC 
TTGAAATTCT CACAGGAATA TGAGTCTATC GAGCCGGGAC AGCAGTTCAC ATGGGATCAT 
TCCAGCATGG AAATGAACAA GGCAAAGAAC CGCTATGCCA ACGTGATAGC TTACGATCAT 
AGTCGAGTCA TACTGTCCAC GGTAGACGGC ATTCCGGGAA GTGACTACAT TAACGCCAAC 
TATTGTGACG GGTATCGGAA ACACAACGCT TATGTGGCTA CTCAGGGTCC TCTGCAAGAA 
ACACTGGGCG ATTTCTGGCG CATGGTCTGG GAGCTTCGGT CAGTCACCAT CGTGATGATG 
ACCAAACTAG AAGAACGAAC CAGGATCAAG TGTGACCAAT ACTGGCCCAG TAGGGGTACC 
GAGACCTATG GTCATATTAC CGTCACCCTG CAAGATGTAC AAGAGCTAGC TTCGTATTGT 
ATACGGACCT TTATGATCAA CAAAGGTGCG GATTCAGAGC GTCGTGAAAT CAAGCAGCTT 
CAATTCACTG CCTGGCCTGA TCATGGGGTA CCAGAACATC CCGCCCCGTT CCTTCTGTTC 
CTGAGACGAG TACGTGCTAT GAACCCTGGC ACCAATTCTC TAGAATCATC CGGAGTGAAT 
CTACCCGTAG GTCCACTTAT CGTGCACTGC AGCGCTGGTG TCGGACGCAC AGGGTGTTTC 
ATTGTTATAG ACGCTATGAT CGAGCGAATC AAGCACGACA AAACGGTGGA TATATACGGT 
CACGTGACTT GTCTGCGCGC GCAGCGGAAC TATATGGTAC AGACGGAGGA CCAGTATATG 
TTCATACACG ATGCGTTGCT AGAGGCCGTG CTGTGTGGGA ACACTGAGAT ACCAGCCAGA 
TCCCTGCACG TCCACATCCA GAAGCTCATG TCCATGGAGG TGGGAGACAC GAGTACCGGT 
ATGGAGTTAG AGTTCAAGAA GCTATCCAAC ATCCGCGCCG AACCATCCCG CTTTATATCC 
GCCTCCCTAC CTTGTAACAA ACATAAGAAC CGTCTGGTAC ACATCCTACC TGTGGAGAGC 
AGCCGTGTGT GTCTAACCCC CGTGCGAGGA GATGGATTCA TTGATTTCAT TGGGCAGGTG 
CACAAAACCA AGGAGCAATT TGGTCAGGAT GGTCCTATCA CTGTACATTG CAGTTGTGAT 
AATAACCGGG ACGGGGGCGA AATCATGACC TCACACGCAC CGTCGGACCC TGTAGAAATG 
CGCCGACTCA ACTTTCAGAC CCCGGGGATG GTATCGCACC CCCCTATACC TATCAGTCGA 
CTCGCCCAAC ATATTGAGAA CCTGAAGGCC AATGATAACT TGAAATTCTC ACAGGAATAT 
GAGTCTATCG AGCCGGGACA GCAGTTCACA TGGGATCATT CCAGCATGGA AATGAACAAG 
GCAAAGAACC GCTATGCCAA CGTGATAGCT TACGATCATA GTCGAGTCAT ACTGTCCACG 
GTAGACGGCA TTCCGGGAAG TGACTACATT AACGCCAACT ATTGTGACGG GTATCGGAAA 
CACAACGCTT ATGTGGCTAC TCAGGGTCCT CTGCAAGAAA CACTGGGCGA TTTCTGGCGC 
ATGGTCTGGG AGCTTCGGTC GGTCACCATC GTGATGATGA CCAAACTAGA AGAACGAACC 
AGGATCAAGT GTGACCAATA CTGGCCCAGT AGGGGTACGG AGACCTATGG TCATATTACC 
GTCACCCTAC AAGATGTACA AGAGCTAGCT TCGTATTGTA TACGGACCTT TATGATCAAC 
AAGGGTGCGG ATTCAGAGCG TCGAGAAATC AAGCAGCTTC AATTCACTGC CTGGCCTGAT 
CATGGGGTAC CAGAACATCC CGCCCCCTTC CTTCTATTCC TGAGACGAGT TCGTGCTATG 
AACCCGGGCA CCAACTCTCT AGAATCCTCC GGAGTGAATC TACCCGTAGG TCCACTTATC 
GTGCACTGCA GCGCTGGTGT CGGACGCACA GGGTGTTTCA TTGTTATAGA CGCTATGATC 
GAGCGAATCA AGCACGACAA AACGGTGGAT ATATATGGTC ACGTGACTTG TCTGCGCGCG 
CAGCGGAACT ATATGGTTCA GACGGAGGAC CAGTATATGT TCATACACGA TGCGTTGCTA 
GAGGCCGTGC TGTGTGGGAA CACTGAGATA CCAGCCAGAT CCCTGCACGT CCACATCCAG 
AAGCTCATGT CCATGGAGGT GGGAGACACG AGTACCGGTA TGGAGTTGGA GTTCAAGAAG 
CTATCTAACA TCCGCGCCGA ACCATCCCGG TTTATATCCG CCTCCTTACC TTGTAACAAA 
CATAAGAACC GTCTGGTACA CATCCTACCT GTGGAGAGCA GCCGTGTGTG TCTAACCCCC 
GTGCGAGGTA TCGAAGGTTC AGATTATATC AACGCTAGTT TCATCGATGG TTACCGACTT 
CGGTCCGCCT ACATTGCCAC CCAGGGACCT TTGGCGGACA CGACAGAAGA CTTTTGGCGG 
ATGCTCTGGG AACACAACTC CACCATTGTC GTCATGCTGA CCAAACTCAA GGAAATGGGA 
CGGGAGAAGT GTCATCAATA CTGGCCCAGT GAGAGGTCTA TCCGTTATGA ATGGTTTGTG 
GTAGAGCCTA TAGCTGAATA CAATATGCCA CAGTATGTAC TGAGGGAGTT CAAGGTCACA 
GACGCTCGAG ATGCTACCTC GCGGACGTTA AGACAATTCC AGCTCATTGA TTGGCCGGAA 
CAGGGCGTGC CCAAGAGCGG AGATGGATTC ATTGATTTCA TTGGGCAGGT GCACAAAACC 
AAGGAGCAAT TTGGTCAGGA TGGTCCTATC ACTGTACATT GCAGTGCCGG AGTGGGCAGG 
ACAGGCGTAT TCATAACCCT GAGTATAGTG CTGGAGCGTA TGCAATATGA AGGGGTGATA 
GATTTGTTCC AAACGGTGCG AATACTGCGC ACCCAGCGGC CTGCCATGGT ACAGACAGAG 
GAGCAGTACC AGTTCTGTTA CCACGCGGCC CTGGAGTACC TTGGTTCGTT CGATCACTAC 
ACCAACTGA