GUCY2D cDNA ORF clone, Equus caballus(horse)

Gene
Clones
gRNAs

Summary

Gene Symbol	GUCY2D
Entrez Gene ID	100073037
Full Name	guanylate cyclase 2D, retinal
General protein information	Preferred Names guanylate cyclase 2D, retinal Names retinal guanylyl cyclase 1 membrane guanylate cyclase 2D
Gene Type	protein-coding
Organism	Equus caballus(horse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005597760.2	XP_005597817.1	retinal guanylyl cyclase 1
XM_023653728.1	XP_023509496.1	retinal guanylyl cyclase 1

Pathways from BioSystems
Gene Ontology

The following GUCY2D gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GUCY2D 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
OHb02842	XM_005597760.2 Latest version!	Equus caballus guanylate cyclase 2D, membrane (retina-specific) (GUCY2D), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHb46075	XM_023653728.1 Latest version!	Equus caballus guanylate cyclase 2D, retinal (GUCY2D), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

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)

GUCY2D ( XM_005597760.2 ) cDNA ORF clone, Equus caballus(horse) -> XP_005597817.1 Equus caballus guanylate cyclase 2D, membrane (retina-specific) (GUCY2D), mRNA.

Price & Availability↑

CloneID	OHb02842
Clone ID Related Accession (Same CDS sequence)	XM_005597760.2
Accession Version	XM_005597760.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2589bp) 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	1447862400000
Organism	Equus caballus(horse)
Product	retinal guanylyl cyclase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_001867366.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 20, 2015 this sequence version replaced XM_005597760.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Equus caballus Annotation Release 102 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##

ATGGTGATGC ACTCCGTGCT GCTGGGCGGC GAGGAGCAGC GCTGCCTACT GGAGGCTGCA 
GAGGAGCTGG GCCTGGCTGA TGGCTCCCTG GTCTTCCTGC CCTTTGACAC GCTCCACTAC 
GCCTTGTCCC CAGGCCCGGA GGCCTTGGCG GTACTTGCCA ACAACTCCCA GCTTCGCAGG 
GCCCATGATG CGGTGCTCAC CCTCACGCGC CACTGTCCCC TGGGAGGCAG CGTGCTGGAC 
AGCCTGCGCA GGGCCCAAGA GCACCAGGAG CTGCCCTCTG ACCTCAATCT GCAGCAGGTA 
TCCCCACTCT TCGGCACCAT CTACGACGCG GTCTACTTGT TGGCGGGGGG CGTGGCGCGG 
GCGCGGGCAG CTGCAGGTGG CAGCTGGGTG TCCGGAGCAG CCGTGGCCCA CCACGTCCGG 
GATGCTCAGG TCCCCGGCTT CTGCGGGGCC CTGGGAGGAG CCGAGGAGCC CCAGTTTGTG 
CTGCTGGACA CGGATGCGGC GGGGGACCGG CTGTTCGCCA CATACATGCT GGACCCCACC 
CGAGGCTCCC TCTGGTCGGC TGGGACCCCG GTGCATTTTC CTAGAGGGGG ACGGGGGCCT 
GGGCCGGACC CCTGGTGCTG GTTTGACCCA GACGACATCT GCAACGGAGG AGTGGAGCCC 
CGCCTCGTCT TTATCGGCTT CCTCCTGGCC GTTGGGATGG GGCTGGCAGG GGTCTTCCTG 
GCCCATTATG TGAGGCACCG GCTCCTTCAC ATCCAAATGG CCTCCGGCCC CAACAAGATC 
ATCCTGACTC TGGACGACAT CACCTTCCTC CACCCTCAGG GGGGCAGCTC TCGAAAGGTG 
ATCCAGGGGA GTCGATCGAG TCTGGCTGCC CGCAGCGTGT CAGACATTCG CAGCGTCCCC 
AGCCAGCCCA TGGATAGCTC CAACATTGGC CTCTATGAGG GAGACTGGGT TTGGCTGAAG 
AAATTCCCAG GGGATCAGCA CATCGCTATC CGCCCAGCAA CCAAGACAGC CTTCTCCAAG 
CTCCGGGAGC TCCGGCACGA GAACGTGGCT CTCTACCTGG GGCTTTTCCT GGCGGGGGGA 
AGCAGCGGCG CCGCGGCTCC CAGGGAAGGC ATGCTGGCTG TGGTCTCAGA GCACTGTGCC 
CGGGGCTCCC TCCACGACCT CCTCGCCCAG AGAGACATAA AGCTGGACTG GATGTTCAAG 
TCCTCCCTCC TACTGGACCT CATCAAGGGA ATGAGGTATT TGCACCATCG AGGCGTGGCT 
CACGGGCGGC TGAAGTCACG GAACTGCGTG GTGGACGGGA GGTTCGTGCT TAAAGTCACC 
GACCACGGCC ACGGGCGACT GCTGGAAGCG CAGAAGGTGT TACCGGAGCC TCCCAGCGCG 
GAGGACCAGC TATGGACAGC CCCAGAGCTG CTTCGGGACC CAGCCCTGGA GCGCCAGGGA 
ACGCTGGCCG GCGATGTCTT CAGCCTGGGC ATCATCATTC AGGAGGTCGT GTGCCGCAGC 
ACCCCCTACG CCATGCTGGA GCTGACTCCC GAGGAAGTGG TGCAGAGGTT GCAGAGCCCC 
CCACCGCTGT GTCGGCCCTC GGTGTCCATG GACCAGGCAC CCATGGAGTG CATCCAGCTG 
ATGAAACAGT GCTGGGCAGA GCAGCCGGAC CTTCGGCCTT CCATGGACCG CACCTTTGAC 
CTGTTCAAGA GCATCAACAA GGGCCGGAAG ACGAACATCA TCGACTCAAT GCTGCGGATG 
CTGGAACAGT ACTCTAGTAA CCTGGAGGAC CTGATCCGGG AGCGCACAGA GGAACTGGAG 
CTGGAAAAGC AGAAGACAGA CCGCCTGCTG ACGCAGATGC TGCCTCCGTC TGTGGCTGAA 
GCCCTGAAGA TGGGGACACC TGTGGAGCCT GAGTACTTTG AGGAGGTGAC ACTGTACTTT 
AGTGACATCG TGGGTTTCAC CACCATCTCA GCCATGAGTG AGCCCATCGA AGTGGTAGAC 
CTGCTCAATG ACCTCTACAC GCTGTTTGAT GCCATCATTG GCTCCCACGA TGTCTACAAG 
GTGGAGACAA TTGGGGACGC CTATATGGTG GCCTCGGGGC TGCCCCAGCG CAATGGGCAG 
CGGCACGCGG CAGAGATCGC AAATATGGCG TTGGACATCC TCAGTGCTGT GGGGTCCTTT 
CGCATGCGCC ACATGCCCGA GGTGCCCGTG CGCATCCGTA TCGGCCTGCA CTCGGGCCCG 
TGCGTGGCGG GCGTGGTGGG CCTCACCATG CCGCGGTACT GCCTGTTTGG GGACACGGTG 
AACACTGCCT CGCGCATGGA GTCCACCGGT CTGCCTTACC GCATCCACGT GAACATGAGC 
ACTGTGCGGA TTCTTCGCGC TCTGGATGAG GGCTTCCAGG TGGAGGTGCG AGGCCGCACG 
GAGCTGAAGG GCAAGGGCGT CGAGGACACG TACTGGCTAG TGGGTAGACG CGGCTTCAAC 
AAGCCTATCC CCAAACCGCC TGACCTGCAA CCGGGGGCCA GCAACCACGG CATCAGCCTG 
CAGGAGATTC CCCCGGAGCG GCGCCAAAAG CTGGAGAAGG CGAGGCCGGG CCAGTTCTCC 
GGAAAGTGA

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

RefSeq	XP_005597817.1
CDS	1..2589
Translation	MVMHSVLLGGEEQRCLLEAAEELGLADGSLVFLPFDTLHYALSPGPEALAVLANNSQLRRAHDAVLTLTRHCPLGGSVLDSLRRAQEHQELPSDLNLQQVSPLFGTIYDAVYLLAGGVARARAAAGGSWVSGAAVAHHVRDAQVPGFCGALGGAEEPQFVLLDTDAAGDRLFATYMLDPTRGSLWSAGTPVHFPRGGRGPGPDPWCWFDPDDICNGGVEPRLVFIGFLLAVGMGLAGVFLAHYVRHRLLHIQMASGPNKIILTLDDITFLHPQGGSSRKVIQGSRSSLAARSVSDIRSVPSQPMDSSNIGLYEGDWVWLKKFPGDQHIAIRPATKTAFSKLRELRHENVALYLGLFLAGGSSGAAAPREGMLAVVSEHCARGSLHDLLAQRDIKLDWMFKSSLLLDLIKGMRYLHHRGVAHGRLKSRNCVVDGRFVLKVTDHGHGRLLEAQKVLPEPPSAEDQLWTAPELLRDPALERQGTLAGDVFSLGIIIQEVVCRSTPYAMLELTPEEVVQRLQSPPPLCRPSVSMDQAPMECIQLMKQCWAEQPDLRPSMDRTFDLFKSINKGRKTNIIDSMLRMLEQYSSNLEDLIRERTEELELEKQKTDRLLTQMLPPSVAEALKMGTPVEPEYFEEVTLYFSDIVGFTTISAMSEPIEVVDLLNDLYTLFDAIIGSHDVYKVETIGDAYMVASGLPQRNGQRHAAEIANMALDILSAVGSFRMRHMPEVPVRIRIGLHSGPCVAGVVGLTMPRYCLFGDTVNTASRMESTGLPYRIHVNMSTVRILRALDEGFQVEVRGRTELKGKGVEDTYWLVGRRGFNKPIPKPPDLQPGASNHGISLQEIPPERRQKLEKARPGQFSGK

Target ORF information:

RefSeq Version	XM_005597760.2
Organism	Equus caballus(horse)
Definition	Equus caballus guanylate cyclase 2D, membrane (retina-specific) (GUCY2D), mRNA.

Target ORF information:

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

XM_005597760.2

ORF Insert Sequence:

ATGGTGATGC ACTCCGTGCT GCTGGGCGGC GAGGAGCAGC GCTGCCTACT GGAGGCTGCA 
GAGGAGCTGG GCCTGGCTGA TGGCTCCCTG GTCTTCCTGC CCTTTGACAC GCTCCACTAC 
GCCTTGTCCC CAGGCCCGGA GGCCTTGGCG GTACTTGCCA ACAACTCCCA GCTTCGCAGG 
GCCCATGATG CGGTGCTCAC CCTCACGCGC CACTGTCCCC TGGGAGGCAG CGTGCTGGAC 
AGCCTGCGCA GGGCCCAAGA GCACCAGGAG CTGCCCTCTG ACCTCAATCT GCAGCAGGTA 
TCCCCACTCT TCGGCACCAT CTACGACGCG GTCTACTTGT TGGCGGGGGG CGTGGCGCGG 
GCGCGGGCAG CTGCAGGTGG CAGCTGGGTG TCCGGAGCAG CCGTGGCCCA CCACGTCCGG 
GATGCTCAGG TCCCCGGCTT CTGCGGGGCC CTGGGAGGAG CCGAGGAGCC CCAGTTTGTG 
CTGCTGGACA CGGATGCGGC GGGGGACCGG CTGTTCGCCA CATACATGCT GGACCCCACC 
CGAGGCTCCC TCTGGTCGGC TGGGACCCCG GTGCATTTTC CTAGAGGGGG ACGGGGGCCT 
GGGCCGGACC CCTGGTGCTG GTTTGACCCA GACGACATCT GCAACGGAGG AGTGGAGCCC 
CGCCTCGTCT TTATCGGCTT CCTCCTGGCC GTTGGGATGG GGCTGGCAGG GGTCTTCCTG 
GCCCATTATG TGAGGCACCG GCTCCTTCAC ATCCAAATGG CCTCCGGCCC CAACAAGATC 
ATCCTGACTC TGGACGACAT CACCTTCCTC CACCCTCAGG GGGGCAGCTC TCGAAAGGTG 
ATCCAGGGGA GTCGATCGAG TCTGGCTGCC CGCAGCGTGT CAGACATTCG CAGCGTCCCC 
AGCCAGCCCA TGGATAGCTC CAACATTGGC CTCTATGAGG GAGACTGGGT TTGGCTGAAG 
AAATTCCCAG GGGATCAGCA CATCGCTATC CGCCCAGCAA CCAAGACAGC CTTCTCCAAG 
CTCCGGGAGC TCCGGCACGA GAACGTGGCT CTCTACCTGG GGCTTTTCCT GGCGGGGGGA 
AGCAGCGGCG CCGCGGCTCC CAGGGAAGGC ATGCTGGCTG TGGTCTCAGA GCACTGTGCC 
CGGGGCTCCC TCCACGACCT CCTCGCCCAG AGAGACATAA AGCTGGACTG GATGTTCAAG 
TCCTCCCTCC TACTGGACCT CATCAAGGGA ATGAGGTATT TGCACCATCG AGGCGTGGCT 
CACGGGCGGC TGAAGTCACG GAACTGCGTG GTGGACGGGA GGTTCGTGCT TAAAGTCACC 
GACCACGGCC ACGGGCGACT GCTGGAAGCG CAGAAGGTGT TACCGGAGCC TCCCAGCGCG 
GAGGACCAGC TATGGACAGC CCCAGAGCTG CTTCGGGACC CAGCCCTGGA GCGCCAGGGA 
ACGCTGGCCG GCGATGTCTT CAGCCTGGGC ATCATCATTC AGGAGGTCGT GTGCCGCAGC 
ACCCCCTACG CCATGCTGGA GCTGACTCCC GAGGAAGTGG TGCAGAGGTT GCAGAGCCCC 
CCACCGCTGT GTCGGCCCTC GGTGTCCATG GACCAGGCAC CCATGGAGTG CATCCAGCTG 
ATGAAACAGT GCTGGGCAGA GCAGCCGGAC CTTCGGCCTT CCATGGACCG CACCTTTGAC 
CTGTTCAAGA GCATCAACAA GGGCCGGAAG ACGAACATCA TCGACTCAAT GCTGCGGATG 
CTGGAACAGT ACTCTAGTAA CCTGGAGGAC CTGATCCGGG AGCGCACAGA GGAACTGGAG 
CTGGAAAAGC AGAAGACAGA CCGCCTGCTG ACGCAGATGC TGCCTCCGTC TGTGGCTGAA 
GCCCTGAAGA TGGGGACACC TGTGGAGCCT GAGTACTTTG AGGAGGTGAC ACTGTACTTT 
AGTGACATCG TGGGTTTCAC CACCATCTCA GCCATGAGTG AGCCCATCGA AGTGGTAGAC 
CTGCTCAATG ACCTCTACAC GCTGTTTGAT GCCATCATTG GCTCCCACGA TGTCTACAAG 
GTGGAGACAA TTGGGGACGC CTATATGGTG GCCTCGGGGC TGCCCCAGCG CAATGGGCAG 
CGGCACGCGG CAGAGATCGC AAATATGGCG TTGGACATCC TCAGTGCTGT GGGGTCCTTT 
CGCATGCGCC ACATGCCCGA GGTGCCCGTG CGCATCCGTA TCGGCCTGCA CTCGGGCCCG 
TGCGTGGCGG GCGTGGTGGG CCTCACCATG CCGCGGTACT GCCTGTTTGG GGACACGGTG 
AACACTGCCT CGCGCATGGA GTCCACCGGT CTGCCTTACC GCATCCACGT GAACATGAGC 
ACTGTGCGGA TTCTTCGCGC TCTGGATGAG GGCTTCCAGG TGGAGGTGCG AGGCCGCACG 
GAGCTGAAGG GCAAGGGCGT CGAGGACACG TACTGGCTAG TGGGTAGACG CGGCTTCAAC 
AAGCCTATCC CCAAACCGCC TGACCTGCAA CCGGGGGCCA GCAACCACGG CATCAGCCTG 
CAGGAGATTC CCCCGGAGCG GCGCCAAAAG CTGGAGAAGG CGAGGCCGGG CCAGTTCTCC 
GGAAAGTGA

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

GUCY2D ( XM_023653728.1 ) cDNA ORF clone, Equus caballus(horse) -> XP_023509496.1 Equus caballus guanylate cyclase 2D, retinal (GUCY2D), mRNA.

Price & Availability↑

CloneID	OHb46075
Clone ID Related Accession (Same CDS sequence)	XM_023653728.1
Accession Version	XM_023653728.1 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	1516550400000
Organism	Equus caballus(horse)
Product	retinal guanylyl cyclase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_009154.3) 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 :: Equus caballus Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACCGCCT GCGCTCTCCT TGCCGGTGGA CTTCCCGACC CCCGGCTCTG CGCCCCCGCG 
CGGTGGCCTC GGTCTCCGCC CGGCCTTCTC CGGACCCTGC CCCGGCCCTG GCCTCGGCTC 
CGGCTCCTGC TGCTGCTGCT TCTCCTGCCG CCCTCCGTCC TCTCCGCCGT ATTCAGAGTC 
GGGGTGCTGG GGCCCTGGGC CTGCGACCCC ATCTTTGCCC GCGCCCGCCC GGAGCTGGCC 
GCCCGCCTGG CCGCCGCCCG CCTGAACCAC GACCCTGCCC TGGAAGGCGG GCCCCGCTTC 
GAGGTGGCGC TGCTGCCCGA GCCGTGCCGG ACGCCAGGCT CGCTGGGGGC GGTGTCCTCC 
GCGCTGGCCC GCGTCTCCGG CCTCGTGGGT CCCGTGAACC CTGCAGCCTG CCGGCCGGCC 
GAGCTACTAG CCCAAGAGGC GGGGGTCACG CTGGTGCCCT GGGGCTGCCC TGGGACGCGA 
GCGGCGGGCA CCACGGCTCC GGCCGTGACA CCTGCGGCGG ACGCCCTCTA CGCCCTCCTT 
CGCGAGTTCC GCTGGGCGCA TGTGGCCTTG GTCACCGCCC CCCAGGACCT GTGGGTGGAG 
GCGGGACGCG CACTGTCCAC CGCACTCAGG GCCCGGGGGC TGCCCGTTGC CCTAGTGACT 
TCCATGGAGC CCTCGGACCT ATCTGGGGCC CGGGAGGCCC TGAGGAGGGT CCGGGACGGG 
CCCAGAGTCA GAGCAGTGAT CATGGTGATG CACTCCGTGC TGCTGGGCGG CGAGGAGCAG 
CGCTGCCTAC TGGAGGCTGC AGAGGAGCTG GGCCTGGCTG ATGGCTCCCT GGTCTTCCTG 
CCCTTTGACA CGCTCCACTA CGCCTTGTCC CCAGGCCCGG AGGCCTTGGC GGTACTTGCC 
AACAACTCCC AGCTTCGCAG GGCCCATGAT GCGGTGCTCA CCCTCACGCG CCACTGTCCC 
CCGGGAGGCA GCGTGCTGGA CAGCCTGCGC AGGGCCCAAG AGCACCAGGA GCTGCCCTCT 
GACCTCAATC TGCAGCAGGT ATCCCCACTC TTCGGCACCA TCTACGACGC GGTCTACTTG 
TTGGCGGGGG GCGTGGCGCG GGCGCGGGCA GCTGCAGGTG GCAGCTGGGT GTCCGGAGCA 
GCCGTGGCCC ACCACGTCCG GGATGCTCAG GTCCCCGGCT TCTGCGGGGC CCTGGGAGGA 
GCCGAGGAGC CCCAGTTTGT GCTGCTGGAC ACGGATGCGG CGGGGGACCG GCTGTTCGCC 
ACATACATGC TGGACCCCAC CCGAGGCTCC CTCTGGTCGG CTGGGACCCC GGTGCATTTT 
CCTAGAGGGG GACGGGGGCC TGGGCCGGAC CCCTGGTGCT GGTTTGACCC AGACGACATC 
TGCAACGGAG GAGTGGAGCC CCGCCTCGTC TTTATCGGCT TCCTCCTGGC CGTTGGGATG 
GGGCTGGCAG GGGTCTTCCT GGCCCATTAT GTGAGGCACC GGCTCCTTCA CATCCAAATG 
GCCTCCGGCC CCAACAAGAT CATCCTGACT CTGGACGACA TCACCTTCCT CCACCCTCAG 
GGGGGCAGCT CTCGAAAGGT GATCCAGGGG AGTCGATCGA GTCTGGCTGC CCGCAGCGTG 
TCAGACATTC GCAGCGTCCC CAGCCAGCCC ATGGATAGCT CCAACATTGG CCTCTATGAG 
GGAGACTGGG TTTGGCTGAA GAAATTCCCA GGGGATCAGC ACATCGCTAT CCGCCCAGCA 
ACCAAGACAG CCTTCTCCAA GCTCCGGGAG CTCCGGCACG AGAACGTGGC TCTCTACCTG 
GGGCTTTTCC TGGCGGGGGG AAGCAGCGGC GCCGCGGCTC CCAGGGAAGG CATGCTGGCT 
GTGGTCTCAG AGCACTGTGC CCGGGGCTCC CTCCACGACC TCCTCGCCCA GAGAGACATA 
AAGCTGGACT GGATGTTCAA GTCCTCCCTC CTACTGGACC TCATCAAGGG AATGAGGTAT 
TTGCACCATC GAGGCGTGGC TCACGGGCGG CTGAAGTCAC GGAACTGCGT GGTGGACGGG 
AGGTTCGTGC TTAAAGTCAC CGACCACGGC CACGGGCGAC TGCTGGAAGC GCAGAAGGTG 
TTACCGGAGA CTCCCAGCGC GGAGGACCAG CTATGGACAG CCCCAGAGCT GCTTCGGGAC 
CCAGCCCTGG AGCGCCAGGG AACGCTGGCC GGCGATGTCT TCAGCCTGGG CATCATCATT 
CAGGAGGTCG TGTGCCGCAG CACCCCCTAC GCCATGCTGG AGCTGACTCC CGAGGAAGTG 
GTGCAGAGGT TGCAGAGCCC CCCACCGCTG TGTCGGCCCT CGGTGTCCAT GGACCAGGCA 
CCCATGGAGT GCATCCAGCT GATGAAACAG TGCTGGGCAG AGCAGCCGGA CCTTCGGCCT 
TCCATGGACC GCACCTTTGA CCTGTTCAAG AGCATCAACA AGGGCCGGAA GACGAACATC 
ATCGACTCAA TGCTGCGGAT GCTGGAACAG TACTCTAGTA ACCTGGAGGA CCTGATCCGG 
GAGCGCACAG AGGAACTGGA GCTGGAAAAG CAGAAGACAG ACCGCCTGCT GACGCAGATG 
CTGCCTCCGT CTGTGGCTGA AGCCCTGAAG ATGGGGACAC CTGTGGAGCC TGAGTACTTT 
GAGGAGGTGA CACTGTACTT TAGTGACATC GTGGGTTTCA CCACCATCTC AGCCATGAGT 
GAGCCCATCG AAGTGGTAGA CCTGCTCAAT GACCTCTACA CGCTGTTTGA TGCCATCATT 
GGCTCCCACG ATGTCTACAA GGTGGAGACA ATTGGGGACG CCTATATGGT GGCCTCGGGG 
CTGCCCCAGC GCAATGGGCA GCGGCACGCG GCAGAGATCG CAAATATGGC GTTGGACATC 
CTCAGTGCTG TGGGGTCCTT TCGCATGCGC CACATGCCCG AGGTGCCCGT GCGCATCCGT 
ATCGGCCTGC ACTCGGGCCC GTGCGTGGCG GGCGTGGTGG GCCTCACCAT GCCGCGGTAC 
TGCCTGTTTG GGGACACGGT GAACACTGCC TCGCGCATGG AGTCCACCGG TCTGCCTTAC 
CGCATCCACG TGAACATGAG CACTGTGCGG ATTCTTCGCG CTCTGGATGA GGGCTTCCAG 
GTGGAGGTGC GAGGCCGCAC GGAGCTGAAG GGCAAGGGCG TCGAGGACAC GTACTGGCTA 
GTGGGTAGAC GCGGCTTCAA CAAGCCTATC CCCAAACCGC CTGACCTGCA ACCGGGGGCC 
AGCAACCACG GCATCAGCCT GCAGGAGATT CCCCCGGAGC GGCGCCAAAA GCTGGAGAAG 
GCGAGGCCGG GCCAGTTCTC CGGAAAGTGA

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

RefSeq	XP_023509496.1
CDS	503..3832
Translation	MTACALLAGGLPDPRLCAPARWPRSPPGLLRTLPRPWPRLRLLLLLLLLPPSVLSAVFRVGVLGPWACDPIFARARPELAARLAAARLNHDPALEGGPRFEVALLPEPCRTPGSLGAVSSALARVSGLVGPVNPAACRPAELLAQEAGVTLVPWGCPGTRAAGTTAPAVTPAADALYALLREFRWAHVALVTAPQDLWVEAGRALSTALRARGLPVALVTSMEPSDLSGAREALRRVRDGPRVRAVIMVMHSVLLGGEEQRCLLEAAEELGLADGSLVFLPFDTLHYALSPGPEALAVLANNSQLRRAHDAVLTLTRHCPPGGSVLDSLRRAQEHQELPSDLNLQQVSPLFGTIYDAVYLLAGGVARARAAAGGSWVSGAAVAHHVRDAQVPGFCGALGGAEEPQFVLLDTDAAGDRLFATYMLDPTRGSLWSAGTPVHFPRGGRGPGPDPWCWFDPDDICNGGVEPRLVFIGFLLAVGMGLAGVFLAHYVRHRLLHIQMASGPNKIILTLDDITFLHPQGGSSRKVIQGSRSSLAARSVSDIRSVPSQPMDSSNIGLYEGDWVWLKKFPGDQHIAIRPATKTAFSKLRELRHENVALYLGLFLAGGSSGAAAPREGMLAVVSEHCARGSLHDLLAQRDIKLDWMFKSSLLLDLIKGMRYLHHRGVAHGRLKSRNCVVDGRFVLKVTDHGHGRLLEAQKVLPETPSAEDQLWTAPELLRDPALERQGTLAGDVFSLGIIIQEVVCRSTPYAMLELTPEEVVQRLQSPPPLCRPSVSMDQAPMECIQLMKQCWAEQPDLRPSMDRTFDLFKSINKGRKTNIIDSMLRMLEQYSSNLEDLIRERTEELELEKQKTDRLLTQMLPPSVAEALKMGTPVEPEYFEEVTLYFSDIVGFTTISAMSEPIEVVDLLNDLYTLFDAIIGSHDVYKVETIGDAYMVASGLPQRNGQRHAAEIANMALDILSAVGSFRMRHMPEVPVRIRIGLHSGPCVAGVVGLTMPRYCLFGDTVNTASRMESTGLPYRIHVNMSTVRILRALDEGFQVEVRGRTELKGKGVEDTYWLVGRRGFNKPIPKPPDLQPGASNHGISLQEIPPERRQKLEKARPGQFSGK

Target ORF information:

RefSeq Version	XM_023653728.1
Organism	Equus caballus(horse)
Definition	Equus caballus guanylate cyclase 2D, retinal (GUCY2D), mRNA.

Target ORF information:

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

XM_023653728.1

ORF Insert Sequence:

ATGACCGCCT GCGCTCTCCT TGCCGGTGGA CTTCCCGACC CCCGGCTCTG CGCCCCCGCG 
CGGTGGCCTC GGTCTCCGCC CGGCCTTCTC CGGACCCTGC CCCGGCCCTG GCCTCGGCTC 
CGGCTCCTGC TGCTGCTGCT TCTCCTGCCG CCCTCCGTCC TCTCCGCCGT ATTCAGAGTC 
GGGGTGCTGG GGCCCTGGGC CTGCGACCCC ATCTTTGCCC GCGCCCGCCC GGAGCTGGCC 
GCCCGCCTGG CCGCCGCCCG CCTGAACCAC GACCCTGCCC TGGAAGGCGG GCCCCGCTTC 
GAGGTGGCGC TGCTGCCCGA GCCGTGCCGG ACGCCAGGCT CGCTGGGGGC GGTGTCCTCC 
GCGCTGGCCC GCGTCTCCGG CCTCGTGGGT CCCGTGAACC CTGCAGCCTG CCGGCCGGCC 
GAGCTACTAG CCCAAGAGGC GGGGGTCACG CTGGTGCCCT GGGGCTGCCC TGGGACGCGA 
GCGGCGGGCA CCACGGCTCC GGCCGTGACA CCTGCGGCGG ACGCCCTCTA CGCCCTCCTT 
CGCGAGTTCC GCTGGGCGCA TGTGGCCTTG GTCACCGCCC CCCAGGACCT GTGGGTGGAG 
GCGGGACGCG CACTGTCCAC CGCACTCAGG GCCCGGGGGC TGCCCGTTGC CCTAGTGACT 
TCCATGGAGC CCTCGGACCT ATCTGGGGCC CGGGAGGCCC TGAGGAGGGT CCGGGACGGG 
CCCAGAGTCA GAGCAGTGAT CATGGTGATG CACTCCGTGC TGCTGGGCGG CGAGGAGCAG 
CGCTGCCTAC TGGAGGCTGC AGAGGAGCTG GGCCTGGCTG ATGGCTCCCT GGTCTTCCTG 
CCCTTTGACA CGCTCCACTA CGCCTTGTCC CCAGGCCCGG AGGCCTTGGC GGTACTTGCC 
AACAACTCCC AGCTTCGCAG GGCCCATGAT GCGGTGCTCA CCCTCACGCG CCACTGTCCC 
CCGGGAGGCA GCGTGCTGGA CAGCCTGCGC AGGGCCCAAG AGCACCAGGA GCTGCCCTCT 
GACCTCAATC TGCAGCAGGT ATCCCCACTC TTCGGCACCA TCTACGACGC GGTCTACTTG 
TTGGCGGGGG GCGTGGCGCG GGCGCGGGCA GCTGCAGGTG GCAGCTGGGT GTCCGGAGCA 
GCCGTGGCCC ACCACGTCCG GGATGCTCAG GTCCCCGGCT TCTGCGGGGC CCTGGGAGGA 
GCCGAGGAGC CCCAGTTTGT GCTGCTGGAC ACGGATGCGG CGGGGGACCG GCTGTTCGCC 
ACATACATGC TGGACCCCAC CCGAGGCTCC CTCTGGTCGG CTGGGACCCC GGTGCATTTT 
CCTAGAGGGG GACGGGGGCC TGGGCCGGAC CCCTGGTGCT GGTTTGACCC AGACGACATC 
TGCAACGGAG GAGTGGAGCC CCGCCTCGTC TTTATCGGCT TCCTCCTGGC CGTTGGGATG 
GGGCTGGCAG GGGTCTTCCT GGCCCATTAT GTGAGGCACC GGCTCCTTCA CATCCAAATG 
GCCTCCGGCC CCAACAAGAT CATCCTGACT CTGGACGACA TCACCTTCCT CCACCCTCAG 
GGGGGCAGCT CTCGAAAGGT GATCCAGGGG AGTCGATCGA GTCTGGCTGC CCGCAGCGTG 
TCAGACATTC GCAGCGTCCC CAGCCAGCCC ATGGATAGCT CCAACATTGG CCTCTATGAG 
GGAGACTGGG TTTGGCTGAA GAAATTCCCA GGGGATCAGC ACATCGCTAT CCGCCCAGCA 
ACCAAGACAG CCTTCTCCAA GCTCCGGGAG CTCCGGCACG AGAACGTGGC TCTCTACCTG 
GGGCTTTTCC TGGCGGGGGG AAGCAGCGGC GCCGCGGCTC CCAGGGAAGG CATGCTGGCT 
GTGGTCTCAG AGCACTGTGC CCGGGGCTCC CTCCACGACC TCCTCGCCCA GAGAGACATA 
AAGCTGGACT GGATGTTCAA GTCCTCCCTC CTACTGGACC TCATCAAGGG AATGAGGTAT 
TTGCACCATC GAGGCGTGGC TCACGGGCGG CTGAAGTCAC GGAACTGCGT GGTGGACGGG 
AGGTTCGTGC TTAAAGTCAC CGACCACGGC CACGGGCGAC TGCTGGAAGC GCAGAAGGTG 
TTACCGGAGA CTCCCAGCGC GGAGGACCAG CTATGGACAG CCCCAGAGCT GCTTCGGGAC 
CCAGCCCTGG AGCGCCAGGG AACGCTGGCC GGCGATGTCT TCAGCCTGGG CATCATCATT 
CAGGAGGTCG TGTGCCGCAG CACCCCCTAC GCCATGCTGG AGCTGACTCC CGAGGAAGTG 
GTGCAGAGGT TGCAGAGCCC CCCACCGCTG TGTCGGCCCT CGGTGTCCAT GGACCAGGCA 
CCCATGGAGT GCATCCAGCT GATGAAACAG TGCTGGGCAG AGCAGCCGGA CCTTCGGCCT 
TCCATGGACC GCACCTTTGA CCTGTTCAAG AGCATCAACA AGGGCCGGAA GACGAACATC 
ATCGACTCAA TGCTGCGGAT GCTGGAACAG TACTCTAGTA ACCTGGAGGA CCTGATCCGG 
GAGCGCACAG AGGAACTGGA GCTGGAAAAG CAGAAGACAG ACCGCCTGCT GACGCAGATG 
CTGCCTCCGT CTGTGGCTGA AGCCCTGAAG ATGGGGACAC CTGTGGAGCC TGAGTACTTT 
GAGGAGGTGA CACTGTACTT TAGTGACATC GTGGGTTTCA CCACCATCTC AGCCATGAGT 
GAGCCCATCG AAGTGGTAGA CCTGCTCAAT GACCTCTACA CGCTGTTTGA TGCCATCATT 
GGCTCCCACG ATGTCTACAA GGTGGAGACA ATTGGGGACG CCTATATGGT GGCCTCGGGG 
CTGCCCCAGC GCAATGGGCA GCGGCACGCG GCAGAGATCG CAAATATGGC GTTGGACATC 
CTCAGTGCTG TGGGGTCCTT TCGCATGCGC CACATGCCCG AGGTGCCCGT GCGCATCCGT 
ATCGGCCTGC ACTCGGGCCC GTGCGTGGCG GGCGTGGTGG GCCTCACCAT GCCGCGGTAC 
TGCCTGTTTG GGGACACGGT GAACACTGCC TCGCGCATGG AGTCCACCGG TCTGCCTTAC 
CGCATCCACG TGAACATGAG CACTGTGCGG ATTCTTCGCG CTCTGGATGA GGGCTTCCAG 
GTGGAGGTGC GAGGCCGCAC GGAGCTGAAG GGCAAGGGCG TCGAGGACAC GTACTGGCTA 
GTGGGTAGAC GCGGCTTCAA CAAGCCTATC CCCAAACCGC CTGACCTGCA ACCGGGGGCC 
AGCAACCACG GCATCAGCCT GCAGGAGATT CCCCCGGAGC GGCGCCAAAA GCTGGAGAAG 
GCGAGGCCGG GCCAGTTCTC CGGAAAGTGA

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

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GUCY2D cDNA ORF clone, Equus caballus(horse)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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