LOC102206996 cDNA ORF clone, Pundamilia nyererei

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC102206996
Entrez Gene ID	102206996
Full Name	SLIT-ROBO Rho GTPase-activating protein 3-like
Gene Type	protein-coding
Organism	Pundamilia nyererei

mRNA and Protein(s)

mRNA	Protein	Name
XM_005724500.1	XP_005724557.1	SLIT-ROBO Rho GTPase-activating protein 3-like isoform X1
XM_005724499.1	XP_005724556.1	SLIT-ROBO Rho GTPase-activating protein 3-like isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC102206996 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC102206996 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
OPu55821	XM_005724500.1 Latest version!	Pundamilia nyererei SLIT-ROBO Rho GTPase-activating protein 3-like (LOC102206996), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OPu55822	XM_005724499.1 Latest version!	Pundamilia nyererei SLIT-ROBO Rho GTPase-activating protein 3-like (LOC102206996), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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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)

LOC102206996 ( XM_005724500.1 ) cDNA ORF clone, Pundamilia nyererei -> XP_005724557.1 Pundamilia nyererei SLIT-ROBO Rho GTPase-activating protein 3-like (LOC102206996), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPu55821
Clone ID Related Accession (Same CDS sequence)	XM_005724500.1
Accession Version	XM_005724500.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3258bp) 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	2015-08-30
Organism	Pundamilia nyererei
Product	SLIT-ROBO Rho GTPase-activating protein 3-like isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005187413.1) 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 :: Pundamilia nyererei Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCATCTC AGGCGAAAGT CAAGAAGGAC AAAGAGATTA TTGCCGAATA TGAGACCCAA 
GTGAAAGAGA TCCGTAACCA GCTGGTGGAG CAGTTCCGCT GTCTGGAGCA GCAGTCCGAG 
TCCCGGCTGC AGCTGCTGCA GGACCTGCAG GAGTTCTTCC GCAGAAAGGC CGAGCTCCAG 
CTTGAGTACT CCAGAGGCCT GGACAAACTG GCTGAGCGCT ACTCCTCCAA GATCCGCTCC 
TCCAGAGAGC ACCAGCACTT CAAGAAAGAT CAAAATCTCC TCTCCACTGT GAACTGCTGG 
TATTTGGTCT TGGATCAAAC CCGACGCGAG AGCAAAGACC ACGCCACACT CAGCGACATC 
TACAACAACA ACGTCATTGT CCGTTTGGCG CACGTGGGTG AAGATGTCAT CAGACTTTTC 
AAAAAGAGTA AAGACATCGG CGTACAGATG CATGAAGAGT TAGTGAAAGT CACCAATGAA 
CTGTACACGG TGATGAAGAC GTACCACATG TACCACACTG AGAGTCTCAG TGCTGAGAGC 
AAACTGAAGG AGGCAGAAAA GCAGGAGGAG AAGCACATTG GCAAGGCTAA TGACATTGGC 
CTGCGTTATG GCTACGATGA TCGTCCACAG CGTCGAAGTT CTGTAAAGAA AATGGAGAAA 
CTGAAGGAGA AGAGACAAGC CAAGTACTCT GAAAACAAGA TGAAATGCAC AAAGGCCCGG 
AATGACTATC TTCTCAATCT GGCAGCTACT AATGCCCTGG TGGCCAAATA CTACATCCAC 
GATGTCTCAG ACATGATAGA TTGTTGCGAC TTAGGGTACC ATGCAAGCTT AGCACGCACC 
TTGAGAACCT ACCTTTCTGC AGAATATAGT CTAGAAACTT CTCGGCACGA AGGGTTGGAC 
TTATTGGAGG GAGCAGTGGA TGCCATGGAC ACCAGAGGAG ACAAGCTGAA GTTTATGGAC 
ACACATTGCC AGATCTTCTG TCCTCCTGCA TGCTTTGACT ATCAGCCACA CATGGGAGAT 
GAGGTGTGTC AAGTGAGTGC ACAGCAGCCT GTCCAGACAG AACTCTTGAT GCGCTACCAC 
CAGCTGCAAT CACGTCTGGC CACACTAAAA ATAGAAAATG AAGAGGTGAG GAAGACTCTT 
GACGCCACCT TGCAGACCCT CCATGATATG CTTACTGTGG AGGACTTTGA TGTTTCAGAG 
GCTTTCCAGC ACAGCCAATC CACAGAGTCT GTGAAATCAG CCTCATCTGA CTCTTACATG 
AGCAAGGCAA ACATCGCCAA AAGACGAGCC AATCAACAAG AGACTGAGGG CTTCTACTTT 
ACTAAATACA AGGAGTACTT GAATGGCAGC AATCTCATTG TCAAACTGCA GGCTAAGCAT 
GACCTTCTGA AGCAGACGCT AGGAGAAGGG GAGAGGGCTG AATATGGAAC AACGAGGGGA 
AGACGGAATG TCCGTGCGAG GAGTCAGGAT TCAGGCCAGC CTATACCAGC GGTGGTTGAG 
AGCTGTATTC GATACATCAA CCTGTATGGT CTTCAGCAGC AAGGTATATT TCGAGTTCCA 
GGATCCCAGG TCGAAGTCAA TGATATTAAA AATGCATTTG AAAGAGGAGA AGATCCACTG 
ATGGATGATC AGACAGATCA TGATATTAAC TCTGTGGCGG GAGTTCTTAA GCTTTACTTC 
CGGGGGTTGG AAAACCCCCT GTTCCCTAAA GAGCGTTTCG CCGACCTCAT ATCCACTACC 
AAGCTTGACT CTGGTGCAGA AAGAGCTCAT CACCTTCAGC AGATAATCGT GACTCTTCCG 
CGGCCTGTGA TCATCGTCAT GAGATACCTG TTTGCATTTC TAAACCATCT TTCCCAGTAC 
AGCGATGAGA ACATGATGGA CCCCTACAAT CTCGCTATTT GCTTTGGCCC CACACTGATG 
CCCATACCAG ATGACCAAGA TCCTGTGGCC TGCCAAGCAC ATGTTAATGA GATCATTAAG 
ACAATCATCA TCCACCATGA GGTCATCTTT CCAACCCAGC GAGAACTGGA GGGACCTGTG 
TATGAGAAGT GCATGGCTGG AGGGGACGAA TACTGTGAAA GCCCCCACAG TGAACCAGGA 
GCTCTGGATG AGATTGACAA TGGTACCGGG CCTAACACAA GTGATGATGA ATTGGAGCAA 
ATCGAAGCCA TAGCCAAATT TGACTACGTG GGCCGAAGTC CAAGAGAGCT GTCCTTTAAG 
AAGGGAGCCT CTCTGCTGCT CTACCTGCGA GCTTCTCAGG ACTGGTGGGA AGGGCGACAT 
AATGGTGTGG ATGGGCTGAT CCCACATCAA TACATTGTGG TACAAGACAT GGACGACGCG 
TTCTCAGAGA GCATTCATCG GACTGAGAGT GAGACCAGCA GTGGGCCGCA CCACGATGAC 
AGAACCTCAT CAAGGAATGA GCGTCAGTCT CCTTGTGAAC ACACACCTGA GAACCGCTTT 
GGACCAGCAT TAGGAAGGGT GCGAGTGCGA TCAGATGGCG CTGCAGCTCC ACGCCATAGG 
AACGGCGCCG ACAGCCTGAG CCCCACCAGA GCTGCTGATC TACCCCCCAG GGTTATGCCT 
CGCCCCCAGA GTCCACACAA AATAGCTGTC AGCAGGGGTC TAACTGACAG TCCCGAGAAA 
CGCCGTCTCA CCACATTTGG CAGCGCTGGC TGCATCAGCC ACCCTGATAG AAAGGCGTTT 
GTCGACAGCC ACTCTCAAAG ATCATCACCA AGCACCACCC GGCATGCAAG TTTAGGAGAC 
CACAAGGCTC TTGAGACCGA GGCACTCGCT GAGGATATAG AGAAAACAAT GAATACAGCC 
CTGCATGAGT TGCGTGAGTT GGAGAGGCAG AATGTAGCCA AGCACGCGCC TGACGTTGTG 
CTCGACACAT TGGAGCCGCT TAAGCACCCT GTTGGAGTGC AGGAGGTGTC TGCCAGCCCT 
CTCCATACCA TGGTGATCAG GGATCCAGAT GCAGCCCAGC GACGCAGCAG TAGTAGCTCC 
TCATCTGAGA CTATGACCAC TTTTAAGCCC GCTCTGTCAG TCCGTAGACC AAGTGCTCCT 
TTAAGGCCCC CGCCTGTCAG ACCTGTTCGA CCGGCTCCTG TGATTGGACA GGGCCAAGGA 
CCTCACCGCT CCAGCAGCTC CAGTTCGTCT GGTTTGGGCA GCCCGAGCAT TACTCCCACT 
GACAGGGTCT TCCCCAAAGC ACCGTCTCCA TCACCATCCA CCTCCTCTTC TTCCTCGGAC 
AAACAAGGTA ACATGTAG

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

RefSeq	XP_005724557.1
CDS	420..3677
Translation	MSSQAKVKKDKEIIAEYETQVKEIRNQLVEQFRCLEQQSESRLQLLQDLQEFFRRKAELQLEYSRGLDKLAERYSSKIRSSREHQHFKKDQNLLSTVNCWYLVLDQTRRESKDHATLSDIYNNNVIVRLAHVGEDVIRLFKKSKDIGVQMHEELVKVTNELYTVMKTYHMYHTESLSAESKLKEAEKQEEKHIGKANDIGLRYGYDDRPQRRSSVKKMEKLKEKRQAKYSENKMKCTKARNDYLLNLAATNALVAKYYIHDVSDMIDCCDLGYHASLARTLRTYLSAEYSLETSRHEGLDLLEGAVDAMDTRGDKLKFMDTHCQIFCPPACFDYQPHMGDEVCQVSAQQPVQTELLMRYHQLQSRLATLKIENEEVRKTLDATLQTLHDMLTVEDFDVSEAFQHSQSTESVKSASSDSYMSKANIAKRRANQQETEGFYFTKYKEYLNGSNLIVKLQAKHDLLKQTLGEGERAEYGTTRGRRNVRARSQDSGQPIPAVVESCIRYINLYGLQQQGIFRVPGSQVEVNDIKNAFERGEDPLMDDQTDHDINSVAGVLKLYFRGLENPLFPKERFADLISTTKLDSGAERAHHLQQIIVTLPRPVIIVMRYLFAFLNHLSQYSDENMMDPYNLAICFGPTLMPIPDDQDPVACQAHVNEIIKTIIIHHEVIFPTQRELEGPVYEKCMAGGDEYCESPHSEPGALDEIDNGTGPNTSDDELEQIEAIAKFDYVGRSPRELSFKKGASLLLYLRASQDWWEGRHNGVDGLIPHQYIVVQDMDDAFSESIHRTESETSSGPHHDDRTSSRNERQSPCEHTPENRFGPALGRVRVRSDGAAAPRHRNGADSLSPTRAADLPPRVMPRPQSPHKIAVSRGLTDSPEKRRLTTFGSAGCISHPDRKAFVDSHSQRSSPSTTRHASLGDHKALETEALAEDIEKTMNTALHELRELERQNVAKHAPDVVLDTLEPLKHPVGVQEVSASPLHTMVIRDPDAAQRRSSSSSSSETMTTFKPALSVRRPSAPLRPPPVRPVRPAPVIGQGQGPHRSSSSSSSGLGSPSITPTDRVFPKAPSPSPSTSSSSSDKQGNM

Target ORF information:

RefSeq Version	XM_005724500.1
Organism	Pundamilia nyererei
Definition	Pundamilia nyererei SLIT-ROBO Rho GTPase-activating protein 3-like (LOC102206996), transcript variant X1, mRNA.

Target ORF information:

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

XM_005724500.1

ORF Insert Sequence:

ATGTCATCTC AGGCGAAAGT CAAGAAGGAC AAAGAGATTA TTGCCGAATA TGAGACCCAA 
GTGAAAGAGA TCCGTAACCA GCTGGTGGAG CAGTTCCGCT GTCTGGAGCA GCAGTCCGAG 
TCCCGGCTGC AGCTGCTGCA GGACCTGCAG GAGTTCTTCC GCAGAAAGGC CGAGCTCCAG 
CTTGAGTACT CCAGAGGCCT GGACAAACTG GCTGAGCGCT ACTCCTCCAA GATCCGCTCC 
TCCAGAGAGC ACCAGCACTT CAAGAAAGAT CAAAATCTCC TCTCCACTGT GAACTGCTGG 
TATTTGGTCT TGGATCAAAC CCGACGCGAG AGCAAAGACC ACGCCACACT CAGCGACATC 
TACAACAACA ACGTCATTGT CCGTTTGGCG CACGTGGGTG AAGATGTCAT CAGACTTTTC 
AAAAAGAGTA AAGACATCGG CGTACAGATG CATGAAGAGT TAGTGAAAGT CACCAATGAA 
CTGTACACGG TGATGAAGAC GTACCACATG TACCACACTG AGAGTCTCAG TGCTGAGAGC 
AAACTGAAGG AGGCAGAAAA GCAGGAGGAG AAGCACATTG GCAAGGCTAA TGACATTGGC 
CTGCGTTATG GCTACGATGA TCGTCCACAG CGTCGAAGTT CTGTAAAGAA AATGGAGAAA 
CTGAAGGAGA AGAGACAAGC CAAGTACTCT GAAAACAAGA TGAAATGCAC AAAGGCCCGG 
AATGACTATC TTCTCAATCT GGCAGCTACT AATGCCCTGG TGGCCAAATA CTACATCCAC 
GATGTCTCAG ACATGATAGA TTGTTGCGAC TTAGGGTACC ATGCAAGCTT AGCACGCACC 
TTGAGAACCT ACCTTTCTGC AGAATATAGT CTAGAAACTT CTCGGCACGA AGGGTTGGAC 
TTATTGGAGG GAGCAGTGGA TGCCATGGAC ACCAGAGGAG ACAAGCTGAA GTTTATGGAC 
ACACATTGCC AGATCTTCTG TCCTCCTGCA TGCTTTGACT ATCAGCCACA CATGGGAGAT 
GAGGTGTGTC AAGTGAGTGC ACAGCAGCCT GTCCAGACAG AACTCTTGAT GCGCTACCAC 
CAGCTGCAAT CACGTCTGGC CACACTAAAA ATAGAAAATG AAGAGGTGAG GAAGACTCTT 
GACGCCACCT TGCAGACCCT CCATGATATG CTTACTGTGG AGGACTTTGA TGTTTCAGAG 
GCTTTCCAGC ACAGCCAATC CACAGAGTCT GTGAAATCAG CCTCATCTGA CTCTTACATG 
AGCAAGGCAA ACATCGCCAA AAGACGAGCC AATCAACAAG AGACTGAGGG CTTCTACTTT 
ACTAAATACA AGGAGTACTT GAATGGCAGC AATCTCATTG TCAAACTGCA GGCTAAGCAT 
GACCTTCTGA AGCAGACGCT AGGAGAAGGG GAGAGGGCTG AATATGGAAC AACGAGGGGA 
AGACGGAATG TCCGTGCGAG GAGTCAGGAT TCAGGCCAGC CTATACCAGC GGTGGTTGAG 
AGCTGTATTC GATACATCAA CCTGTATGGT CTTCAGCAGC AAGGTATATT TCGAGTTCCA 
GGATCCCAGG TCGAAGTCAA TGATATTAAA AATGCATTTG AAAGAGGAGA AGATCCACTG 
ATGGATGATC AGACAGATCA TGATATTAAC TCTGTGGCGG GAGTTCTTAA GCTTTACTTC 
CGGGGGTTGG AAAACCCCCT GTTCCCTAAA GAGCGTTTCG CCGACCTCAT ATCCACTACC 
AAGCTTGACT CTGGTGCAGA AAGAGCTCAT CACCTTCAGC AGATAATCGT GACTCTTCCG 
CGGCCTGTGA TCATCGTCAT GAGATACCTG TTTGCATTTC TAAACCATCT TTCCCAGTAC 
AGCGATGAGA ACATGATGGA CCCCTACAAT CTCGCTATTT GCTTTGGCCC CACACTGATG 
CCCATACCAG ATGACCAAGA TCCTGTGGCC TGCCAAGCAC ATGTTAATGA GATCATTAAG 
ACAATCATCA TCCACCATGA GGTCATCTTT CCAACCCAGC GAGAACTGGA GGGACCTGTG 
TATGAGAAGT GCATGGCTGG AGGGGACGAA TACTGTGAAA GCCCCCACAG TGAACCAGGA 
GCTCTGGATG AGATTGACAA TGGTACCGGG CCTAACACAA GTGATGATGA ATTGGAGCAA 
ATCGAAGCCA TAGCCAAATT TGACTACGTG GGCCGAAGTC CAAGAGAGCT GTCCTTTAAG 
AAGGGAGCCT CTCTGCTGCT CTACCTGCGA GCTTCTCAGG ACTGGTGGGA AGGGCGACAT 
AATGGTGTGG ATGGGCTGAT CCCACATCAA TACATTGTGG TACAAGACAT GGACGACGCG 
TTCTCAGAGA GCATTCATCG GACTGAGAGT GAGACCAGCA GTGGGCCGCA CCACGATGAC 
AGAACCTCAT CAAGGAATGA GCGTCAGTCT CCTTGTGAAC ACACACCTGA GAACCGCTTT 
GGACCAGCAT TAGGAAGGGT GCGAGTGCGA TCAGATGGCG CTGCAGCTCC ACGCCATAGG 
AACGGCGCCG ACAGCCTGAG CCCCACCAGA GCTGCTGATC TACCCCCCAG GGTTATGCCT 
CGCCCCCAGA GTCCACACAA AATAGCTGTC AGCAGGGGTC TAACTGACAG TCCCGAGAAA 
CGCCGTCTCA CCACATTTGG CAGCGCTGGC TGCATCAGCC ACCCTGATAG AAAGGCGTTT 
GTCGACAGCC ACTCTCAAAG ATCATCACCA AGCACCACCC GGCATGCAAG TTTAGGAGAC 
CACAAGGCTC TTGAGACCGA GGCACTCGCT GAGGATATAG AGAAAACAAT GAATACAGCC 
CTGCATGAGT TGCGTGAGTT GGAGAGGCAG AATGTAGCCA AGCACGCGCC TGACGTTGTG 
CTCGACACAT TGGAGCCGCT TAAGCACCCT GTTGGAGTGC AGGAGGTGTC TGCCAGCCCT 
CTCCATACCA TGGTGATCAG GGATCCAGAT GCAGCCCAGC GACGCAGCAG TAGTAGCTCC 
TCATCTGAGA CTATGACCAC TTTTAAGCCC GCTCTGTCAG TCCGTAGACC AAGTGCTCCT 
TTAAGGCCCC CGCCTGTCAG ACCTGTTCGA CCGGCTCCTG TGATTGGACA GGGCCAAGGA 
CCTCACCGCT CCAGCAGCTC CAGTTCGTCT GGTTTGGGCA GCCCGAGCAT TACTCCCACT 
GACAGGGTCT TCCCCAAAGC ACCGTCTCCA TCACCATCCA CCTCCTCTTC TTCCTCGGAC 
AAACAAGGTA ACATGTAG

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

LOC102206996 ( XM_005724499.1 ) cDNA ORF clone, Pundamilia nyererei -> XP_005724556.1 Pundamilia nyererei SLIT-ROBO Rho GTPase-activating protein 3-like (LOC102206996), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPu55822
Clone ID Related Accession (Same CDS sequence)	XM_005724499.1
Accession Version	XM_005724499.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3330bp) 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	2015-08-30
Organism	Pundamilia nyererei
Product	SLIT-ROBO Rho GTPase-activating protein 3-like isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005187413.1) 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 :: Pundamilia nyererei Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCATCTC AGGCGAAAGT CAAGAAGGAC AAAGAGATTA TTGCCGAATA TGAGACCCAA 
GTGAAAGAGA TCCGTAACCA GCTGGTGGAG CAGTTCCGCT GTCTGGAGCA GCAGTCCGAG 
TCCCGGCTGC AGCTGCTGCA GGACCTGCAG GAGTTCTTCC GCAGAAAGGC CGAGCTCCAG 
CTTGAGTACT CCAGAGGCCT GGACAAACTG GCTGAGCGCT ACTCCTCCAA GATCCGCTCC 
TCCAGAGAGC ACCAGCACTT CAAGAAAGAT CAAAATCTCC TCTCCACTGT GAACTGCTGG 
TATTTGGTCT TGGATCAAAC CCGACGCGAG AGCAAAGACC ACGCCACACT CAGCGACATC 
TACAACAACA ACGTCATTGT CCGTTTGGCG CACGTGGGTG AAGATGTCAT CAGACTTTTC 
AAAAAGAGTA AAGACATCGG CGTACAGATG CATGAAGAGT TAGTGAAAGT CACCAATGAA 
CTGTACACGG TGATGAAGAC GTACCACATG TACCACACTG AGAGTCTCAG TGCTGAGAGC 
AAACTGAAGG AGGCAGAAAA GCAGGAGGAG AAGCACATTG GCAAGGCTAA TGACATTGGC 
CTGCGTTATG GCTACGATGA TCGTCCACAG CGTCGAAGTT CTGTAAAGAA AATGGAGAAA 
CTGAAGGAGA AGAGACAAGC CAAGTACTCT GAAAACAAGA TGAAATGCAC AAAGGCCCGG 
AATGACTATC TTCTCAATCT GGCAGCTACT AATGCCCTGG TGGCCAAATA CTACATCCAC 
GATGTCTCAG ACATGATAGA TTGTTGCGAC TTAGGGTACC ATGCAAGCTT AGCACGCACC 
TTGAGAACCT ACCTTTCTGC AGAATATAGT CTAGAAACTT CTCGGCACGA AGGGTTGGAC 
TTATTGGAGG GAGCAGTGGA TGCCATGGAC ACCAGAGGAG ACAAGCTGAA GTTTATGGAC 
ACACATTGCC AGATCTTCTG TCCTCCTGCA TGCTTTGACT ATCAGCCACA CATGGGAGAT 
GAGGTGTGTC AAGTGAGTGC ACAGCAGCCT GTCCAGACAG AACTCTTGAT GCGCTACCAC 
CAGCTGCAAT CACGTCTGGC CACACTAAAA ATAGAAAATG AAGAGGTGAG GAAGACTCTT 
GACGCCACCT TGCAGACCCT CCATGATATG CTTACTGTGG AGGACTTTGA TGTTTCAGAG 
GCTTTCCAGC ACAGCCAATC CACAGAGTCT GTGAAATCAG CCTCATCTGA CTCTTACATG 
AGCAAGGCAA ACATCGCCAA AAGACGAGCC AATCAACAAG AGACTGAGGG CTTCTACTTT 
ACTAAATACA AGGAGTACTT GAATGGCAGC AATCTCATTG TCAAACTGCA GGCTAAGCAT 
GACCTTCTGA AGCAGACGCT AGGAGAAGGG GAGAGGGCTG AATATGGAAC AACGAGGCCC 
CCAACTCTTC CCCCTAAACC CCAGAGAATG CGGAAGTGTA GACCTCGCTC CATTTTTAAC 
CCTAGGCTGT TTAACGGCAA TATGGAGGCC TTCATTCAGG ATTCAGGCCA GCCTATACCA 
GCGGTGGTTG AGAGCTGTAT TCGATACATC AACCTGTATG GTCTTCAGCA GCAAGGTATA 
TTTCGAGTTC CAGGATCCCA GGTCGAAGTC AATGATATTA AAAATGCATT TGAAAGAGGA 
GAAGATCCAC TGATGGATGA TCAGACAGAT CATGATATTA ACTCTGTGGC GGGAGTTCTT 
AAGCTTTACT TCCGGGGGTT GGAAAACCCC CTGTTCCCTA AAGAGCGTTT CGCCGACCTC 
ATATCCACTA CCAAGCTTGA CTCTGGTGCA GAAAGAGCTC ATCACCTTCA GCAGATAATC 
GTGACTCTTC CGCGGCCTGT GATCATCGTC ATGAGATACC TGTTTGCATT TCTAAACCAT 
CTTTCCCAGT ACAGCGATGA GAACATGATG GACCCCTACA ATCTCGCTAT TTGCTTTGGC 
CCCACACTGA TGCCCATACC AGATGACCAA GATCCTGTGG CCTGCCAAGC ACATGTTAAT 
GAGATCATTA AGACAATCAT CATCCACCAT GAGGTCATCT TTCCAACCCA GCGAGAACTG 
GAGGGACCTG TGTATGAGAA GTGCATGGCT GGAGGGGACG AATACTGTGA AAGCCCCCAC 
AGTGAACCAG GAGCTCTGGA TGAGATTGAC AATGGTACCG GGCCTAACAC AAGTGATGAT 
GAATTGGAGC AAATCGAAGC CATAGCCAAA TTTGACTACG TGGGCCGAAG TCCAAGAGAG 
CTGTCCTTTA AGAAGGGAGC CTCTCTGCTG CTCTACCTGC GAGCTTCTCA GGACTGGTGG 
GAAGGGCGAC ATAATGGTGT GGATGGGCTG ATCCCACATC AATACATTGT GGTACAAGAC 
ATGGACGACG CGTTCTCAGA GAGCATTCAT CGGACTGAGA GTGAGACCAG CAGTGGGCCG 
CACCACGATG ACAGAACCTC ATCAAGGAAT GAGCGTCAGT CTCCTTGTGA ACACACACCT 
GAGAACCGCT TTGGACCAGC ATTAGGAAGG GTGCGAGTGC GATCAGATGG CGCTGCAGCT 
CCACGCCATA GGAACGGCGC CGACAGCCTG AGCCCCACCA GAGCTGCTGA TCTACCCCCC 
AGGGTTATGC CTCGCCCCCA GAGTCCACAC AAAATAGCTG TCAGCAGGGG TCTAACTGAC 
AGTCCCGAGA AACGCCGTCT CACCACATTT GGCAGCGCTG GCTGCATCAG CCACCCTGAT 
AGAAAGGCGT TTGTCGACAG CCACTCTCAA AGATCATCAC CAAGCACCAC CCGGCATGCA 
AGTTTAGGAG ACCACAAGGC TCTTGAGACC GAGGCACTCG CTGAGGATAT AGAGAAAACA 
ATGAATACAG CCCTGCATGA GTTGCGTGAG TTGGAGAGGC AGAATGTAGC CAAGCACGCG 
CCTGACGTTG TGCTCGACAC ATTGGAGCCG CTTAAGCACC CTGTTGGAGT GCAGGAGGTG 
TCTGCCAGCC CTCTCCATAC CATGGTGATC AGGGATCCAG ATGCAGCCCA GCGACGCAGC 
AGTAGTAGCT CCTCATCTGA GACTATGACC ACTTTTAAGC CCGCTCTGTC AGTCCGTAGA 
CCAAGTGCTC CTTTAAGGCC CCCGCCTGTC AGACCTGTTC GACCGGCTCC TGTGATTGGA 
CAGGGCCAAG GACCTCACCG CTCCAGCAGC TCCAGTTCGT CTGGTTTGGG CAGCCCGAGC 
ATTACTCCCA CTGACAGGGT CTTCCCCAAA GCACCGTCTC CATCACCATC CACCTCCTCT 
TCTTCCTCGG ACAAACAAGG TAACATGTAG

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

RefSeq	XP_005724556.1
CDS	420..3749
Translation	MSSQAKVKKDKEIIAEYETQVKEIRNQLVEQFRCLEQQSESRLQLLQDLQEFFRRKAELQLEYSRGLDKLAERYSSKIRSSREHQHFKKDQNLLSTVNCWYLVLDQTRRESKDHATLSDIYNNNVIVRLAHVGEDVIRLFKKSKDIGVQMHEELVKVTNELYTVMKTYHMYHTESLSAESKLKEAEKQEEKHIGKANDIGLRYGYDDRPQRRSSVKKMEKLKEKRQAKYSENKMKCTKARNDYLLNLAATNALVAKYYIHDVSDMIDCCDLGYHASLARTLRTYLSAEYSLETSRHEGLDLLEGAVDAMDTRGDKLKFMDTHCQIFCPPACFDYQPHMGDEVCQVSAQQPVQTELLMRYHQLQSRLATLKIENEEVRKTLDATLQTLHDMLTVEDFDVSEAFQHSQSTESVKSASSDSYMSKANIAKRRANQQETEGFYFTKYKEYLNGSNLIVKLQAKHDLLKQTLGEGERAEYGTTRPPTLPPKPQRMRKCRPRSIFNPRLFNGNMEAFIQDSGQPIPAVVESCIRYINLYGLQQQGIFRVPGSQVEVNDIKNAFERGEDPLMDDQTDHDINSVAGVLKLYFRGLENPLFPKERFADLISTTKLDSGAERAHHLQQIIVTLPRPVIIVMRYLFAFLNHLSQYSDENMMDPYNLAICFGPTLMPIPDDQDPVACQAHVNEIIKTIIIHHEVIFPTQRELEGPVYEKCMAGGDEYCESPHSEPGALDEIDNGTGPNTSDDELEQIEAIAKFDYVGRSPRELSFKKGASLLLYLRASQDWWEGRHNGVDGLIPHQYIVVQDMDDAFSESIHRTESETSSGPHHDDRTSSRNERQSPCEHTPENRFGPALGRVRVRSDGAAAPRHRNGADSLSPTRAADLPPRVMPRPQSPHKIAVSRGLTDSPEKRRLTTFGSAGCISHPDRKAFVDSHSQRSSPSTTRHASLGDHKALETEALAEDIEKTMNTALHELRELERQNVAKHAPDVVLDTLEPLKHPVGVQEVSASPLHTMVIRDPDAAQRRSSSSSSSETMTTFKPALSVRRPSAPLRPPPVRPVRPAPVIGQGQGPHRSSSSSSSGLGSPSITPTDRVFPKAPSPSPSTSSSSSDKQGNM

Target ORF information:

RefSeq Version	XM_005724499.1
Organism	Pundamilia nyererei
Definition	Pundamilia nyererei SLIT-ROBO Rho GTPase-activating protein 3-like (LOC102206996), transcript variant X2, mRNA.

Target ORF information:

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

XM_005724499.1

ORF Insert Sequence:

ATGTCATCTC AGGCGAAAGT CAAGAAGGAC AAAGAGATTA TTGCCGAATA TGAGACCCAA 
GTGAAAGAGA TCCGTAACCA GCTGGTGGAG CAGTTCCGCT GTCTGGAGCA GCAGTCCGAG 
TCCCGGCTGC AGCTGCTGCA GGACCTGCAG GAGTTCTTCC GCAGAAAGGC CGAGCTCCAG 
CTTGAGTACT CCAGAGGCCT GGACAAACTG GCTGAGCGCT ACTCCTCCAA GATCCGCTCC 
TCCAGAGAGC ACCAGCACTT CAAGAAAGAT CAAAATCTCC TCTCCACTGT GAACTGCTGG 
TATTTGGTCT TGGATCAAAC CCGACGCGAG AGCAAAGACC ACGCCACACT CAGCGACATC 
TACAACAACA ACGTCATTGT CCGTTTGGCG CACGTGGGTG AAGATGTCAT CAGACTTTTC 
AAAAAGAGTA AAGACATCGG CGTACAGATG CATGAAGAGT TAGTGAAAGT CACCAATGAA 
CTGTACACGG TGATGAAGAC GTACCACATG TACCACACTG AGAGTCTCAG TGCTGAGAGC 
AAACTGAAGG AGGCAGAAAA GCAGGAGGAG AAGCACATTG GCAAGGCTAA TGACATTGGC 
CTGCGTTATG GCTACGATGA TCGTCCACAG CGTCGAAGTT CTGTAAAGAA AATGGAGAAA 
CTGAAGGAGA AGAGACAAGC CAAGTACTCT GAAAACAAGA TGAAATGCAC AAAGGCCCGG 
AATGACTATC TTCTCAATCT GGCAGCTACT AATGCCCTGG TGGCCAAATA CTACATCCAC 
GATGTCTCAG ACATGATAGA TTGTTGCGAC TTAGGGTACC ATGCAAGCTT AGCACGCACC 
TTGAGAACCT ACCTTTCTGC AGAATATAGT CTAGAAACTT CTCGGCACGA AGGGTTGGAC 
TTATTGGAGG GAGCAGTGGA TGCCATGGAC ACCAGAGGAG ACAAGCTGAA GTTTATGGAC 
ACACATTGCC AGATCTTCTG TCCTCCTGCA TGCTTTGACT ATCAGCCACA CATGGGAGAT 
GAGGTGTGTC AAGTGAGTGC ACAGCAGCCT GTCCAGACAG AACTCTTGAT GCGCTACCAC 
CAGCTGCAAT CACGTCTGGC CACACTAAAA ATAGAAAATG AAGAGGTGAG GAAGACTCTT 
GACGCCACCT TGCAGACCCT CCATGATATG CTTACTGTGG AGGACTTTGA TGTTTCAGAG 
GCTTTCCAGC ACAGCCAATC CACAGAGTCT GTGAAATCAG CCTCATCTGA CTCTTACATG 
AGCAAGGCAA ACATCGCCAA AAGACGAGCC AATCAACAAG AGACTGAGGG CTTCTACTTT 
ACTAAATACA AGGAGTACTT GAATGGCAGC AATCTCATTG TCAAACTGCA GGCTAAGCAT 
GACCTTCTGA AGCAGACGCT AGGAGAAGGG GAGAGGGCTG AATATGGAAC AACGAGGCCC 
CCAACTCTTC CCCCTAAACC CCAGAGAATG CGGAAGTGTA GACCTCGCTC CATTTTTAAC 
CCTAGGCTGT TTAACGGCAA TATGGAGGCC TTCATTCAGG ATTCAGGCCA GCCTATACCA 
GCGGTGGTTG AGAGCTGTAT TCGATACATC AACCTGTATG GTCTTCAGCA GCAAGGTATA 
TTTCGAGTTC CAGGATCCCA GGTCGAAGTC AATGATATTA AAAATGCATT TGAAAGAGGA 
GAAGATCCAC TGATGGATGA TCAGACAGAT CATGATATTA ACTCTGTGGC GGGAGTTCTT 
AAGCTTTACT TCCGGGGGTT GGAAAACCCC CTGTTCCCTA AAGAGCGTTT CGCCGACCTC 
ATATCCACTA CCAAGCTTGA CTCTGGTGCA GAAAGAGCTC ATCACCTTCA GCAGATAATC 
GTGACTCTTC CGCGGCCTGT GATCATCGTC ATGAGATACC TGTTTGCATT TCTAAACCAT 
CTTTCCCAGT ACAGCGATGA GAACATGATG GACCCCTACA ATCTCGCTAT TTGCTTTGGC 
CCCACACTGA TGCCCATACC AGATGACCAA GATCCTGTGG CCTGCCAAGC ACATGTTAAT 
GAGATCATTA AGACAATCAT CATCCACCAT GAGGTCATCT TTCCAACCCA GCGAGAACTG 
GAGGGACCTG TGTATGAGAA GTGCATGGCT GGAGGGGACG AATACTGTGA AAGCCCCCAC 
AGTGAACCAG GAGCTCTGGA TGAGATTGAC AATGGTACCG GGCCTAACAC AAGTGATGAT 
GAATTGGAGC AAATCGAAGC CATAGCCAAA TTTGACTACG TGGGCCGAAG TCCAAGAGAG 
CTGTCCTTTA AGAAGGGAGC CTCTCTGCTG CTCTACCTGC GAGCTTCTCA GGACTGGTGG 
GAAGGGCGAC ATAATGGTGT GGATGGGCTG ATCCCACATC AATACATTGT GGTACAAGAC 
ATGGACGACG CGTTCTCAGA GAGCATTCAT CGGACTGAGA GTGAGACCAG CAGTGGGCCG 
CACCACGATG ACAGAACCTC ATCAAGGAAT GAGCGTCAGT CTCCTTGTGA ACACACACCT 
GAGAACCGCT TTGGACCAGC ATTAGGAAGG GTGCGAGTGC GATCAGATGG CGCTGCAGCT 
CCACGCCATA GGAACGGCGC CGACAGCCTG AGCCCCACCA GAGCTGCTGA TCTACCCCCC 
AGGGTTATGC CTCGCCCCCA GAGTCCACAC AAAATAGCTG TCAGCAGGGG TCTAACTGAC 
AGTCCCGAGA AACGCCGTCT CACCACATTT GGCAGCGCTG GCTGCATCAG CCACCCTGAT 
AGAAAGGCGT TTGTCGACAG CCACTCTCAA AGATCATCAC CAAGCACCAC CCGGCATGCA 
AGTTTAGGAG ACCACAAGGC TCTTGAGACC GAGGCACTCG CTGAGGATAT AGAGAAAACA 
ATGAATACAG CCCTGCATGA GTTGCGTGAG TTGGAGAGGC AGAATGTAGC CAAGCACGCG 
CCTGACGTTG TGCTCGACAC ATTGGAGCCG CTTAAGCACC CTGTTGGAGT GCAGGAGGTG 
TCTGCCAGCC CTCTCCATAC CATGGTGATC AGGGATCCAG ATGCAGCCCA GCGACGCAGC 
AGTAGTAGCT CCTCATCTGA GACTATGACC ACTTTTAAGC CCGCTCTGTC AGTCCGTAGA 
CCAAGTGCTC CTTTAAGGCC CCCGCCTGTC AGACCTGTTC GACCGGCTCC TGTGATTGGA 
CAGGGCCAAG GACCTCACCG CTCCAGCAGC TCCAGTTCGT CTGGTTTGGG CAGCCCGAGC 
ATTACTCCCA CTGACAGGGT CTTCCCCAAA GCACCGTCTC CATCACCATC CACCTCCTCT 
TCTTCCTCGG ACAAACAAGG TAACATGTAG