Ano8 cDNA ORF clone, Cavia porcellus(domestic guinea pig)

Gene
Clones
gRNAs

Summary

Gene Symbol	Ano8
Entrez Gene ID	100733011
Full Name	anoctamin 8
Gene Type	protein-coding
Organism	Cavia porcellus(domestic guinea pig)

mRNA and Protein(s)

mRNA	Protein	Name
XM_013146406.2	XP_013001860.2	anoctamin-8
XM_013146406.1	XP_013001860.1	anoctamin-8

Pathways from BioSystems
Gene Ontology

The following Ano8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ano8 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
ODo37519	XM_013146406.1 Latest version!	Cavia porcellus anoctamin 8 (Ano8), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
ODo42124	XM_013146406.2 Latest version!	Cavia porcellus anoctamin 8 (Ano8), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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
30% OFF

*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)

Ano8 ( XM_013146406.1 ) cDNA ORF clone, Cavia porcellus(domestic guinea pig) -> XP_013001860.1 Cavia porcellus anoctamin 8 (Ano8), mRNA.

Price & Availability↑

CloneID	ODo37519
Clone ID Related Accession (Same CDS sequence)	XM_013146406.1
Accession Version	XM_013146406.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3966bp) 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	1436716800000
Organism	Cavia porcellus(domestic guinea pig)
Product	anoctamin-8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_176333.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Cavia porcellus Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGCGGAGC CCACCTCGAG CGCCGGGGGC GCGGTCCTGG ACGCGGAGCG GGACAAGCGA 
CCCCCGCCAG AGGGCGAGCC TGCGGCCCCC GCCTCCGGAG TGCTAGAGAA GCTCTTCGGG 
AAGCGGCTGC TTCAGGCGGG GCGCTACCTC GTGTCCCACA AAGCATGGAT GAAGACGGTG 
CCCACGGAGA ACTGCGACGT GCTCATGACC TTCCCAGACA CGACCGACGA CCACACGCTG 
CTCTGGCTAC TGAACCACAT CCGCGTGGGC ATCCCCGAGC TCATCGTGCA AGTCCGCCAC 
CATCGCCACA CACGCGCCTA CGCCTTCTTC GTCACCGCCA CTTACGAGAG CCTGCTCAGA 
GGCGCCGATG AGCTGGGGCT GCGCAAGGCC GTGAAGGCCG AGTTCGGCGG CGGTACCCGA 
GGCTTCTCCT GCGAAGAGGA CTTCATCTAC GAGAACGTAG AGAGCGAGAT GCGCTTCTTC 
ACCTCCCAGG AGCGCCAGAG CATCATCCGT TTCTGGCTGC AGAACCTGCG CGCCAAGCAA 
GGGGAGGCCT TGCACAACGT GCGCTTCCTG GAAGACCAGC CAATCATCCC CGAGCTGGCG 
GCCCGCGGGA TCATCCAGCA GGTGTTCCCT GTGCATGAGC AGCGCATCCT GAACCGCCTC 
ATGAAGTCCT GGGTGCAGGC GGTGTGTGAA AATCAGCCTC TAGACGACAT CTGCGACTAC 
TTCGGCGTGA AGATTGCCAT GTATTTTGCC TGGCTGGGCT TCTACACATC TGCAATGGTA 
TACCCAGCTG TCTTTGGCTC TGTGCTATAC ACGTTCACAG AGGCTGACCA GACAAGCCGT 
GACGTGTCCT GCGTAGTTTT TGCTCTCTTC AATGTGATCT GGTCAACACT GTTCTTGGAG 
GAGTGGAAAC GGAGGGGTGC AGAGCTGGCC TACAAGTGGG GGACGCTGGA CTCACCTGGG 
GAGGCTGTGG AGGAGCCACG TCCCCAGTTC AGGGGCGTGC GCCGCATCAG CCCAGTGACC 
CACGCCGAGG AGTTCTACTA CCCACCCTGG AAGCGGCTGC TCTTTCAGCT GCTCGTGAGC 
CTGCCCCTCT GCCTGGCCTG CCTGGCCTGC GTCTTCCTAC TCATGCTCGG CTGCTTCCAG 
CTGCAGGAGC TGGTACTGCA CGTGAAAGGG CTGCCGCGCC TGGCCCACTT CCTGCCCAAG 
GTCGTGCTGG CCCTGTTGGT TAGTGTGAGC GCCGAGGGCT ACAAGAAGCT AGCCATCTGG 
CTCAATGACA TGGAGAATTA CCGGCTGGAG AGTGCCTATG AGAAGCATCT CATCATCAAG 
GTTGTTTTGT TCCAGTTTGT CAATTCCTAC CTGAGCCTCT TCTACATCGG CTTCTACCTC 
AAGGACATGG AGCGTCTCAA GGAGGTGAGA CTGCGCCAGC GGCAGCCACG AGGGGCCGGA 
CCTGGCCCAG GGGTCCCAGG GCTCCCAGGG TTCCCGGTCT CTCCCCTCCC TCCTCCATCC 
TTCTCTCCTC TCTGTCCGTC CGTCCATTTG TATGTCCTCT CTCTGCCTGT CCATCTGTCT 
GTCCATCTGT TCGTCGGTCC CTCCACAGCT CCTGCTCGTC CTGTCCCTGT CCCAGAGCCT 
CGAGCGGCAG CTGCGGGCAG TTCTGGTCCC GCTCGTGGCC CTGCGGTTCC GCCTACTCCT 
CCTCTCCCTC CAGGGCCTCC TGCTCTCAGC CCGGGCCAAA GTACGGGCAG GTGGCAAGGC 
CATGGGCCTG GCCGGGTGGG CGGGAGCTGT GCTGGGCGCA TGTGCAGAGG GGCTGGGGTG 
CCGAGGATCC ATGCAGCAGA TGAGCCCAGG GCCTCAGGTG CCCAAGAGCC CTGGGGGTGG 
AGTGTTCCGT GCCATGCCCA CGTGCTTCTC CAAGGGCAGC AGCAGGGCGG GGGCCGAAGG 
TGTCTCAGCG GGGGTTGTGG GGCACCCGAG GAGGAGGAGG AGACAAGCGC TGTGGAGAGC 
AGGCCAGCAG GGGAGGGAGG GGAGGTGCGG GAAGGGCCTG GGGGTGCCGA GGACGAGGAG 
GAGGAGGACG ACGAGGATGA GGATGATGAC GATGAGGGTG AGGATGGTGG GCTGCTGGAC 
TGCGGGCTCC GGCTGAAGAA GGTCAGCTTT GCCGAGCGGG GGGCCGGGCG GCACCGGCCT 
GGGCCCAGCC CAGAAGCCCT CCTGGAAGAG GGCAGTCCCA CCATGGTGGA GAGGGGGCTG 
GAGCCAGCCA TGTTCACCCT GGCCGAGGAT GACGATGACG AGGCAGAGGG GCTTCCCAGG 
ATCCCTGAGT GCGAGCCCCC AACCATCCTG CTCCGTCGGG CTGGGGGCGA GAGCCAGGAC 
CAAGGCCCCG AGGGAGGCCA AGACCCAGAC CCTGGACCAG GTGACCCAGC AGCCAGACAG 
AAGCGGCAGA ACCGCTCCTC TTGGATCGAT CCACCAGAGG AGGAGCACTC ACCCCAGCTT 
ACCCAGGCAG AGCTGGAAAG CTGCATGAAG AAGTATGAGG ACACCTTCCA GGACTACCAG 
GAGATGTTCG TGCAGTTCGG CTACGTTGTG CTCTTCTCAT CCGCCTTCCC ATTGGCCGCG 
CTCTGCGCCC TGATCAACAA CCTCATCGAG ATCCGCAGCG ACGCCTTCAA GCTGTGCACT 
GGCCTGCAGC GGCCCTTTGG CCAGCGTGTG GAGAGCATTG GCCAATGGCA GAAGGTGATG 
GAGGCCATGG GCGTGTTGGC CATCGTGGTG AACTGCTACC TCATCGGGCA ATGCGGGCAG 
CTGCAGCGTC TCTTCCCCTG GCTGAGCCCA GAAGCGGCCA TCGTGTCTGT GGTGGTGCTC 
GAGCACTTTG CTTTGCTCCT CAAGTACCTC ATCCATGTGG CTATTCCTGA CATCCCAGGC 
TGGGTGGCTG AGGAAATGGC CAAGCTTGAG TACCAGCGAC GAGAGGCCTT CAAGAGACAC 
GAACGCCAGG CCCAGCACCG CTACCAGCAG CAGCAGCGGC GGCGGCGGGA GGAGGAGGAG 
CGGCAGCGCC ACGCAGAGCA CCACACCCGC AGGGAGCGTG AGGCCGGCCG GGATGAGGCG 
AGGGCCGAGG GTTCCGGGTC AGACGCCGTG AACTCTGAGA AGACTTCGGC AAAGGCCAAG 
GGCAGTGGTG TGGGCAGCCA TGGGCAGGAG CGGCCCAAGC GCCCTGGGTC CCTGCTGGCA 
TCCAACAACG TCATGAAGCT GAAGCAGATC ATCCCACTGC AGGGCAAGTT CCTGTCATCG 
GGGGCCACAG CCGGCTCAGG GGGTGCTGCT GCGGGCCCCA CACCCAGGCC AGCCCCTGCC 
CAGTCACCCA CCGGCGGGGA CACCCGCCTA CCCGCCTTCC TCAGCTTCAA GTTCCTCAAG 
TCTCCTGAGG CCCGGCGGGA CCCTGAGCGC AGCCACTCAC CCCCTAAGGC CTTCCACGCC 
ACCAAGCTCT TCCCCTTCGG TGGGGCGCGG GCCGAGACCA ACGGGGCAGG TACAGGCGGC 
CAGGCCCGGC AGGACACGGC CCCCGGTGGT GGCAGCAGTG GTGGCAGCCG GGCCCCGAGG 
AGCGGGCTTG CAGAGGAGGC CTCGGCTGAG GAGCGAGAAG CGCCCCGGCC CGAAGAAGAA 
AGCTCAGGGA CAGCGCCAGG CCCTGAGGGC ACCCCTGCCC TCCACACGCG CCGCAGCCGG 
AGCCCTGTGC CTCGCTCCCA GCCCCCGACG CCACCTGCGG GCTGTTGGCA GTGGGACCCA 
CCCTGGGGCT GTGGGGGCGA GGCCGCTGCC CCCCACCTGA GCCCACCGGC CGCCACCACC 
GAGTGCCCAC CCTGCGCCCT GGCTGTGCCC GCGCCCCCAC CACAGCCCCT ACCAGGGGAC 
GTCAGCTTCT ACAGCCTCCC GCTGCTGCTG CCACCGCCGC CGTTGGAGCC CCCAGAGGCC 
CCTGATCCTG GCCCTGGGCC CAGCCCCAGC CCTCAAGCAG TGTGCTGGCC AGGGGGCTGG 
CACTAG

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

RefSeq	XP_013001860.1
CDS	163..4128
Translation	MAEPTSSAGGAVLDAERDKRPPPEGEPAAPASGVLEKLFGKRLLQAGRYLVSHKAWMKTVPTENCDVLMTFPDTTDDHTLLWLLNHIRVGIPELIVQVRHHRHTRAYAFFVTATYESLLRGADELGLRKAVKAEFGGGTRGFSCEEDFIYENVESEMRFFTSQERQSIIRFWLQNLRAKQGEALHNVRFLEDQPIIPELAARGIIQQVFPVHEQRILNRLMKSWVQAVCENQPLDDICDYFGVKIAMYFAWLGFYTSAMVYPAVFGSVLYTFTEADQTSRDVSCVVFALFNVIWSTLFLEEWKRRGAELAYKWGTLDSPGEAVEEPRPQFRGVRRISPVTHAEEFYYPPWKRLLFQLLVSLPLCLACLACVFLLMLGCFQLQELVLHVKGLPRLAHFLPKVVLALLVSVSAEGYKKLAIWLNDMENYRLESAYEKHLIIKVVLFQFVNSYLSLFYIGFYLKDMERLKEVRLRQRQPRGAGPGPGVPGLPGFPVSPLPPPSFSPLCPSVHLYVLSLPVHLSVHLFVGPSTAPARPVPVPEPRAAAAGSSGPARGPAVPPTPPLPPGPPALSPGQSTGRWQGHGPGRVGGSCAGRMCRGAGVPRIHAADEPRASGAQEPWGWSVPCHAHVLLQGQQQGGGRRCLSGGCGAPEEEEETSAVESRPAGEGGEVREGPGGAEDEEEEDDEDEDDDDEGEDGGLLDCGLRLKKVSFAERGAGRHRPGPSPEALLEEGSPTMVERGLEPAMFTLAEDDDDEAEGLPRIPECEPPTILLRRAGGESQDQGPEGGQDPDPGPGDPAARQKRQNRSSWIDPPEEEHSPQLTQAELESCMKKYEDTFQDYQEMFVQFGYVVLFSSAFPLAALCALINNLIEIRSDAFKLCTGLQRPFGQRVESIGQWQKVMEAMGVLAIVVNCYLIGQCGQLQRLFPWLSPEAAIVSVVVLEHFALLLKYLIHVAIPDIPGWVAEEMAKLEYQRREAFKRHERQAQHRYQQQQRRRREEEERQRHAEHHTRREREAGRDEARAEGSGSDAVNSEKTSAKAKGSGVGSHGQERPKRPGSLLASNNVMKLKQIIPLQGKFLSSGATAGSGGAAAGPTPRPAPAQSPTGGDTRLPAFLSFKFLKSPEARRDPERSHSPPKAFHATKLFPFGGARAETNGAGTGGQARQDTAPGGGSSGGSRAPRSGLAEEASAEEREAPRPEEESSGTAPGPEGTPALHTRRSRSPVPRSQPPTPPAGCWQWDPPWGCGGEAAAPHLSPPAATTECPPCALAVPAPPPQPLPGDVSFYSLPLLLPPPPLEPPEAPDPGPGPSPSPQAVCWPGGWH

Target ORF information:

RefSeq Version	XM_013146406.1
Organism	Cavia porcellus(domestic guinea pig)
Definition	Cavia porcellus anoctamin 8 (Ano8), mRNA.

Target ORF information:

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

XM_013146406.1

ORF Insert Sequence:

ATGGCGGAGC CCACCTCGAG CGCCGGGGGC GCGGTCCTGG ACGCGGAGCG GGACAAGCGA 
CCCCCGCCAG AGGGCGAGCC TGCGGCCCCC GCCTCCGGAG TGCTAGAGAA GCTCTTCGGG 
AAGCGGCTGC TTCAGGCGGG GCGCTACCTC GTGTCCCACA AAGCATGGAT GAAGACGGTG 
CCCACGGAGA ACTGCGACGT GCTCATGACC TTCCCAGACA CGACCGACGA CCACACGCTG 
CTCTGGCTAC TGAACCACAT CCGCGTGGGC ATCCCCGAGC TCATCGTGCA AGTCCGCCAC 
CATCGCCACA CACGCGCCTA CGCCTTCTTC GTCACCGCCA CTTACGAGAG CCTGCTCAGA 
GGCGCCGATG AGCTGGGGCT GCGCAAGGCC GTGAAGGCCG AGTTCGGCGG CGGTACCCGA 
GGCTTCTCCT GCGAAGAGGA CTTCATCTAC GAGAACGTAG AGAGCGAGAT GCGCTTCTTC 
ACCTCCCAGG AGCGCCAGAG CATCATCCGT TTCTGGCTGC AGAACCTGCG CGCCAAGCAA 
GGGGAGGCCT TGCACAACGT GCGCTTCCTG GAAGACCAGC CAATCATCCC CGAGCTGGCG 
GCCCGCGGGA TCATCCAGCA GGTGTTCCCT GTGCATGAGC AGCGCATCCT GAACCGCCTC 
ATGAAGTCCT GGGTGCAGGC GGTGTGTGAA AATCAGCCTC TAGACGACAT CTGCGACTAC 
TTCGGCGTGA AGATTGCCAT GTATTTTGCC TGGCTGGGCT TCTACACATC TGCAATGGTA 
TACCCAGCTG TCTTTGGCTC TGTGCTATAC ACGTTCACAG AGGCTGACCA GACAAGCCGT 
GACGTGTCCT GCGTAGTTTT TGCTCTCTTC AATGTGATCT GGTCAACACT GTTCTTGGAG 
GAGTGGAAAC GGAGGGGTGC AGAGCTGGCC TACAAGTGGG GGACGCTGGA CTCACCTGGG 
GAGGCTGTGG AGGAGCCACG TCCCCAGTTC AGGGGCGTGC GCCGCATCAG CCCAGTGACC 
CACGCCGAGG AGTTCTACTA CCCACCCTGG AAGCGGCTGC TCTTTCAGCT GCTCGTGAGC 
CTGCCCCTCT GCCTGGCCTG CCTGGCCTGC GTCTTCCTAC TCATGCTCGG CTGCTTCCAG 
CTGCAGGAGC TGGTACTGCA CGTGAAAGGG CTGCCGCGCC TGGCCCACTT CCTGCCCAAG 
GTCGTGCTGG CCCTGTTGGT TAGTGTGAGC GCCGAGGGCT ACAAGAAGCT AGCCATCTGG 
CTCAATGACA TGGAGAATTA CCGGCTGGAG AGTGCCTATG AGAAGCATCT CATCATCAAG 
GTTGTTTTGT TCCAGTTTGT CAATTCCTAC CTGAGCCTCT TCTACATCGG CTTCTACCTC 
AAGGACATGG AGCGTCTCAA GGAGGTGAGA CTGCGCCAGC GGCAGCCACG AGGGGCCGGA 
CCTGGCCCAG GGGTCCCAGG GCTCCCAGGG TTCCCGGTCT CTCCCCTCCC TCCTCCATCC 
TTCTCTCCTC TCTGTCCGTC CGTCCATTTG TATGTCCTCT CTCTGCCTGT CCATCTGTCT 
GTCCATCTGT TCGTCGGTCC CTCCACAGCT CCTGCTCGTC CTGTCCCTGT CCCAGAGCCT 
CGAGCGGCAG CTGCGGGCAG TTCTGGTCCC GCTCGTGGCC CTGCGGTTCC GCCTACTCCT 
CCTCTCCCTC CAGGGCCTCC TGCTCTCAGC CCGGGCCAAA GTACGGGCAG GTGGCAAGGC 
CATGGGCCTG GCCGGGTGGG CGGGAGCTGT GCTGGGCGCA TGTGCAGAGG GGCTGGGGTG 
CCGAGGATCC ATGCAGCAGA TGAGCCCAGG GCCTCAGGTG CCCAAGAGCC CTGGGGGTGG 
AGTGTTCCGT GCCATGCCCA CGTGCTTCTC CAAGGGCAGC AGCAGGGCGG GGGCCGAAGG 
TGTCTCAGCG GGGGTTGTGG GGCACCCGAG GAGGAGGAGG AGACAAGCGC TGTGGAGAGC 
AGGCCAGCAG GGGAGGGAGG GGAGGTGCGG GAAGGGCCTG GGGGTGCCGA GGACGAGGAG 
GAGGAGGACG ACGAGGATGA GGATGATGAC GATGAGGGTG AGGATGGTGG GCTGCTGGAC 
TGCGGGCTCC GGCTGAAGAA GGTCAGCTTT GCCGAGCGGG GGGCCGGGCG GCACCGGCCT 
GGGCCCAGCC CAGAAGCCCT CCTGGAAGAG GGCAGTCCCA CCATGGTGGA GAGGGGGCTG 
GAGCCAGCCA TGTTCACCCT GGCCGAGGAT GACGATGACG AGGCAGAGGG GCTTCCCAGG 
ATCCCTGAGT GCGAGCCCCC AACCATCCTG CTCCGTCGGG CTGGGGGCGA GAGCCAGGAC 
CAAGGCCCCG AGGGAGGCCA AGACCCAGAC CCTGGACCAG GTGACCCAGC AGCCAGACAG 
AAGCGGCAGA ACCGCTCCTC TTGGATCGAT CCACCAGAGG AGGAGCACTC ACCCCAGCTT 
ACCCAGGCAG AGCTGGAAAG CTGCATGAAG AAGTATGAGG ACACCTTCCA GGACTACCAG 
GAGATGTTCG TGCAGTTCGG CTACGTTGTG CTCTTCTCAT CCGCCTTCCC ATTGGCCGCG 
CTCTGCGCCC TGATCAACAA CCTCATCGAG ATCCGCAGCG ACGCCTTCAA GCTGTGCACT 
GGCCTGCAGC GGCCCTTTGG CCAGCGTGTG GAGAGCATTG GCCAATGGCA GAAGGTGATG 
GAGGCCATGG GCGTGTTGGC CATCGTGGTG AACTGCTACC TCATCGGGCA ATGCGGGCAG 
CTGCAGCGTC TCTTCCCCTG GCTGAGCCCA GAAGCGGCCA TCGTGTCTGT GGTGGTGCTC 
GAGCACTTTG CTTTGCTCCT CAAGTACCTC ATCCATGTGG CTATTCCTGA CATCCCAGGC 
TGGGTGGCTG AGGAAATGGC CAAGCTTGAG TACCAGCGAC GAGAGGCCTT CAAGAGACAC 
GAACGCCAGG CCCAGCACCG CTACCAGCAG CAGCAGCGGC GGCGGCGGGA GGAGGAGGAG 
CGGCAGCGCC ACGCAGAGCA CCACACCCGC AGGGAGCGTG AGGCCGGCCG GGATGAGGCG 
AGGGCCGAGG GTTCCGGGTC AGACGCCGTG AACTCTGAGA AGACTTCGGC AAAGGCCAAG 
GGCAGTGGTG TGGGCAGCCA TGGGCAGGAG CGGCCCAAGC GCCCTGGGTC CCTGCTGGCA 
TCCAACAACG TCATGAAGCT GAAGCAGATC ATCCCACTGC AGGGCAAGTT CCTGTCATCG 
GGGGCCACAG CCGGCTCAGG GGGTGCTGCT GCGGGCCCCA CACCCAGGCC AGCCCCTGCC 
CAGTCACCCA CCGGCGGGGA CACCCGCCTA CCCGCCTTCC TCAGCTTCAA GTTCCTCAAG 
TCTCCTGAGG CCCGGCGGGA CCCTGAGCGC AGCCACTCAC CCCCTAAGGC CTTCCACGCC 
ACCAAGCTCT TCCCCTTCGG TGGGGCGCGG GCCGAGACCA ACGGGGCAGG TACAGGCGGC 
CAGGCCCGGC AGGACACGGC CCCCGGTGGT GGCAGCAGTG GTGGCAGCCG GGCCCCGAGG 
AGCGGGCTTG CAGAGGAGGC CTCGGCTGAG GAGCGAGAAG CGCCCCGGCC CGAAGAAGAA 
AGCTCAGGGA CAGCGCCAGG CCCTGAGGGC ACCCCTGCCC TCCACACGCG CCGCAGCCGG 
AGCCCTGTGC CTCGCTCCCA GCCCCCGACG CCACCTGCGG GCTGTTGGCA GTGGGACCCA 
CCCTGGGGCT GTGGGGGCGA GGCCGCTGCC CCCCACCTGA GCCCACCGGC CGCCACCACC 
GAGTGCCCAC CCTGCGCCCT GGCTGTGCCC GCGCCCCCAC CACAGCCCCT ACCAGGGGAC 
GTCAGCTTCT ACAGCCTCCC GCTGCTGCTG CCACCGCCGC CGTTGGAGCC CCCAGAGGCC 
CCTGATCCTG GCCCTGGGCC CAGCCCCAGC CCTCAAGCAG TGTGCTGGCC AGGGGGCTGG 
CACTAG

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

Ano8 ( XM_013146406.2 ) cDNA ORF clone, Cavia porcellus(domestic guinea pig) -> XP_013001860.2 Cavia porcellus anoctamin 8 (Ano8), mRNA.

Price & Availability↑

CloneID	ODo42124
Clone ID Related Accession (Same CDS sequence)	XM_013146406.2
Accession Version	XM_013146406.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4266bp) 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	1516204800000
Organism	Cavia porcellus(domestic guinea pig)
Product	anoctamin-8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_176333.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jan 19, 2018 this sequence version replaced XM_013146406.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Cavia porcellus 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGCACCTTG GTGCGGGCGG AGACAAGCAC CAGAGATTAG ACTGGGCGGG CGGCGATGAA 
GCCCAGAGAA CCACGCGGGC AGGCCCGAGA ACCAGAGTGT GCAGGCAGGC AGCGCTGAGA 
ACCAGAGTGA CGCGCTGGCT GGGAGGGAGC TGGCTCCGCG CGGGCGGGGA CGAGAAGCAG 
CGCCGGGAGC GGGGACGAAG CGGCGCGGGC GGGCGCGGCC TTTGTCTCAT CCGCGTTCGG 
CCCCATGCGC TCGCGGCCCC CCGGCGCCCG GGCCGCGCGC AAAGCTTGAC CCAACTCGCC 
ATGGCGGAGC CCACCTCGAG CGCCGGGGGC GCGGTCCTGG ACGCGGAGCG GGACAAGCGA 
CCCCCGCCAG AGGGCGAGCC TGCGGCCCCC GCCTCCGGAG TGCTAGAGAA GCTCTTCGGG 
AAGCGGCTGC TTCAGGCGGG GCGCTACCTC GTGTCCCACA AAGCATGGAT GAAGACGGTG 
CCCACGGAGA ACTGCGACGT GCTCATGACC TTCCCAGACA CGACCGACGA CCACACGCTG 
CTCTGGCTAC TGAACCACAT CCGCGTGGGC ATCCCCGAGC TCATCGTGCA AGTCCGCCAC 
CATCGCCACA CACGCGCCTA CGCCTTCTTC GTCACCGCCA CTTACGAGAG CCTGCTCAGA 
GGCGCCGATG AGCTGGGGCT GCGCAAGGCC GTGAAGGCCG AGTTCGGCGG CGGTACCCGA 
GGCTTCTCCT GCGAAGAGGA CTTCATCTAC GAGAACGTAG AGAGCGAGAT GCGCTTCTTC 
ACCTCCCAGG AGCGCCAGAG CATCATCCGT TTCTGGCTGC AGAACCTGCG CGCCAAGCAA 
GGGGAGGCCT TGCACAACGT GCGCTTCCTG GAAGACCAGC CAATCATCCC CGAGCTGGCG 
GCCCGCGGGA TCATCCAGCA GGTGTTCCCT GTGCATGAGC AGCGCATCCT GAACCGCCTC 
ATGAAGTCCT GGGTGCAGGC GGTGTGTGAA AATCAGCCTC TAGACGACAT CTGCGACTAC 
TTCGGCGTGA AGATTGCCAT GTATTTTGCC TGGCTGGGCT TCTACACATC TGCAATGGTA 
TACCCAGCTG TCTTTGGCTC TGTGCTATAC ACGTTCACAG AGGCTGACCA GACAAGCCGT 
GACGTGTCCT GCGTAGTTTT TGCTCTCTTC AATGTGATCT GGTCAACACT GTTCTTGGAG 
GAGTGGAAAC GGAGGGGTGC AGAGCTGGCC TACAAGTGGG GGACGCTGGA CTCACCTGGG 
GAGGCTGTGG AGGAGCCACG TCCCCAGTTC AGGGGCGTGC GCCGCATCAG CCCAGTGACC 
CACGCCGAGG AGTTCTACTA CCCACCCTGG AAGCGGCTGC TCTTTCAGCT GCTCGTGAGC 
CTGCCCCTCT GCCTGGCCTG CCTGGCCTGC GTCTTCCTAC TCATGCTCGG CTGCTTCCAG 
CTGCAGGAGC TGGTACTGCA CGTGAAAGGG CTGCCGCGCC TGGCCCACTT CCTGCCCAAG 
GTCGTGCTGG CCCTGTTGGT TAGTGTGAGC GCCGAGGGCT ACAAGAAGCT AGCCATCTGG 
CTCAATGACA TGGAGAATTA CCGGCTGGAG AGTGCCTATG AGAAGCATCT CATCATCAAG 
GTTGTTTTGT TCCAGTTTGT CAATTCCTAC CTGAGCCTCT TCTACATCGG CTTCTACCTC 
AAGGACATGG AGCGTCTCAA GGAGGTGAGA CTGCGCCAGC GGCAGCCACG AGGGGCCGGA 
CCTGGCCCAG GGGTCCCAGG GCTCCCAGGG TTCCCGGTCT CTCCCCTCCC TCCTCCATCC 
TTCTCTCCTC TCTGTCCGTC CGTCCATTTG TATGTCCTCT CTCTGCCTGT CCATCTGTCT 
GTCCATCTGT TCGTCGGTCC CTCCACAGCT CCTGCTCGTC CTGTCCCTGT CCCAGAGCCT 
CGAGCGGCAG CTGCGGGCAG TTCTGGTCCC GCTCGTGGCC CTGCGGTTCC GCCTACTCCT 
CCTCTCCCTC CAGGGCCTCC TGCTCTCAGC CCGGGCCAAA GTACGGGCAG GTGGCAAGGC 
CATGGGCCTG GCCGGGTGGG CGGGAGCTGT GCTGGGCGCA TGTGCAGAGG GGCTGGGGTG 
CCGAGGATCC ATGCAGCAGA TGAGCCCAGG GCCTCAGGTG CCCAAGAGCC CTGGGGGTGG 
AGTGTTCCGT GCCATGCCCA CGTGCTTCTC CAAGGGCAGC AGCAGGGCGG GGGCCGAAGG 
TGTCTCAGCG GGGGTTGTGG GGCACCCGAG GAGGAGGAGG AGACAAGCGC TGTGGAGAGC 
AGGCCAGCAG GGGAGGGAGG GGAGGTGCGG GAAGGGCCTG GGGGTGCCGA GGACGAGGAG 
GAGGAGGACG ACGAGGATGA GGATGATGAC GATGAGGGTG AGGATGGTGG GCTGCTGGAC 
TGCGGGCTCC GGCTGAAGAA GGTCAGCTTT GCCGAGCGGG GGGCCGGGCG GCACCGGCCT 
GGGCCCAGCC CAGAAGCCCT CCTGGAAGAG GGCAGTCCCA CCATGGTGGA GAGGGGGCTG 
GAGCCAGCCA TGTTCACCCT GGCCGAGGAT GACGATGACG AGGCAGAGGG GCTTCCCAGG 
ATCCCTGAGT GCGAGCCCCC AACCATCCTG CTCCGTCGGG CTGGGGGCGA GAGCCAGGAC 
CAAGGCCCCG AGGGAGGCCA AGACCCAGAC CCTGGACCAG GTGACCCAGC AGCCAGACAG 
AAGCGGCAGA ACCGCTCCTC TTGGATCGAT CCACCAGAGG AGGAGCACTC ACCCCAGCTT 
ACCCAGGCAG AGCTGGAAAG CTGCATGAAG AAGTATGAGG ACACCTTCCA GGACTACCAG 
GAGATGTTCG TGCAGTTCGG CTACGTTGTG CTCTTCTCAT CCGCCTTCCC ATTGGCCGCG 
CTCTGCGCCC TGATCAACAA CCTCATCGAG ATCCGCAGCG ACGCCTTCAA GCTGTGCACT 
GGCCTGCAGC GGCCCTTTGG CCAGCGTGTG GAGAGCATTG GCCAATGGCA GAAGGTGATG 
GAGGCCATGG GCGTGTTGGC CATCGTGGTG AACTGCTACC TCATCGGGCA ATGCGGGCAG 
CTGCAGCGTC TCTTCCCCTG GCTGAGCCCA GAAGCGGCCA TCGTGTCTGT GGTGGTGCTC 
GAGCACTTTG CTTTGCTCCT CAAGTACCTC ATCCATGTGG CTATTCCTGA CATCCCAGGC 
TGGGTGGCTG AGGAAATGGC CAAGCTTGAG TACCAGCGAC GAGAGGCCTT CAAGAGACAC 
GAACGCCAGG CCCAGCACCG CTACCAGCAG CAGCAGCGGC GGCGGCGGGA GGAGGAGGAG 
CGGCAGCGCC ACGCAGAGCA CCACACCCGC AGGGAGCGTG AGGCCGGCCG GGATGAGGCG 
AGGGCCGAGG GTTCCGGGTC AGACGCCGTG AACTCTGAGA AGACTTCGGC AAAGGCCAAG 
GGCAGTGGTG TGGGCAGCCA TGGGCAGGAG CGGCCCAAGC GCCCTGGGTC CCTGCTGGCA 
TCCAACAACG TCATGAAGCT GAAGCAGATC ATCCCACTGC AGGGCAAGTT CCTGTCATCG 
GGGGCCACAG CCGGCTCAGG GGGTGCTGCT GCGGGCCCCA CACCCAGGCC AGCCCCTGCC 
CAGTCACCCA CCGGCGGGGA CACCCGCCTA CCCGCCTTCC TCAGCTTCAA GTTCCTCAAG 
TCTCCTGAGG CCCGGCGGGA CCCTGAGCGC AGCCACTCAC CCCCTAAGGC CTTCCACGCC 
ACCAAGCTCT TCCCCTTCGG TGGGGCGCGG GCCGAGACCA ACGGGGCAGG TACAGGCGGC 
CAGGCCCGGC AGGACACGGC CCCCGGTGGT GGCAGCAGTG GTGGCAGCCG GGCCCCGAGG 
AGCGGGCTTG CAGAGGAGGC CTCGGCTGAG GAGCGAGAAG CGCCCCGGCC CGAAGAAGAA 
AGCTCAGGGA CAGCGCCAGG CCCTGAGGGC ACCCCTGCCC TCCACACGCG CCGCAGCCGG 
AGCCCTGTGC CTCGCTCCCA GCCCCCGACG CCACCTGCGG GCTGTTGGCA GTGGGACCCA 
CCCTGGGGCT GTGGGGGCGA GGCCGCTGCC CCCCACCTGA GCCCACCGGC CGCCACCACC 
GAGTGCCCAC CCTGCGCCCT GGCTGTGCCC GCGCCCCCAC CACAGCCCCT ACCAGGGGAC 
GTCAGCTTCT ACAGCCTCCC GCTGCTGCTG CCACCGCCGC CGTTGGAGCC CCCAGAGGCC 
CCTGATCCTG GCCCTGGGCC CAGCCCCAGC CCTCAAGCAG TGTGCTGGCC AGGGGGCTGG 
CACTAG

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

RefSeq	XP_013001860.2
CDS	266..4531
Translation	MHLGAGGDKHQRLDWAGGDEAQRTTRAGPRTRVCRQAALRTRVTRWLGGSWLRAGGDEKQRRERGRSGAGGRGLCLIRVRPHALAAPRRPGRAQSLTQLAMAEPTSSAGGAVLDAERDKRPPPEGEPAAPASGVLEKLFGKRLLQAGRYLVSHKAWMKTVPTENCDVLMTFPDTTDDHTLLWLLNHIRVGIPELIVQVRHHRHTRAYAFFVTATYESLLRGADELGLRKAVKAEFGGGTRGFSCEEDFIYENVESEMRFFTSQERQSIIRFWLQNLRAKQGEALHNVRFLEDQPIIPELAARGIIQQVFPVHEQRILNRLMKSWVQAVCENQPLDDICDYFGVKIAMYFAWLGFYTSAMVYPAVFGSVLYTFTEADQTSRDVSCVVFALFNVIWSTLFLEEWKRRGAELAYKWGTLDSPGEAVEEPRPQFRGVRRISPVTHAEEFYYPPWKRLLFQLLVSLPLCLACLACVFLLMLGCFQLQELVLHVKGLPRLAHFLPKVVLALLVSVSAEGYKKLAIWLNDMENYRLESAYEKHLIIKVVLFQFVNSYLSLFYIGFYLKDMERLKEVRLRQRQPRGAGPGPGVPGLPGFPVSPLPPPSFSPLCPSVHLYVLSLPVHLSVHLFVGPSTAPARPVPVPEPRAAAAGSSGPARGPAVPPTPPLPPGPPALSPGQSTGRWQGHGPGRVGGSCAGRMCRGAGVPRIHAADEPRASGAQEPWGWSVPCHAHVLLQGQQQGGGRRCLSGGCGAPEEEEETSAVESRPAGEGGEVREGPGGAEDEEEEDDEDEDDDDEGEDGGLLDCGLRLKKVSFAERGAGRHRPGPSPEALLEEGSPTMVERGLEPAMFTLAEDDDDEAEGLPRIPECEPPTILLRRAGGESQDQGPEGGQDPDPGPGDPAARQKRQNRSSWIDPPEEEHSPQLTQAELESCMKKYEDTFQDYQEMFVQFGYVVLFSSAFPLAALCALINNLIEIRSDAFKLCTGLQRPFGQRVESIGQWQKVMEAMGVLAIVVNCYLIGQCGQLQRLFPWLSPEAAIVSVVVLEHFALLLKYLIHVAIPDIPGWVAEEMAKLEYQRREAFKRHERQAQHRYQQQQRRRREEEERQRHAEHHTRREREAGRDEARAEGSGSDAVNSEKTSAKAKGSGVGSHGQERPKRPGSLLASNNVMKLKQIIPLQGKFLSSGATAGSGGAAAGPTPRPAPAQSPTGGDTRLPAFLSFKFLKSPEARRDPERSHSPPKAFHATKLFPFGGARAETNGAGTGGQARQDTAPGGGSSGGSRAPRSGLAEEASAEEREAPRPEEESSGTAPGPEGTPALHTRRSRSPVPRSQPPTPPAGCWQWDPPWGCGGEAAAPHLSPPAATTECPPCALAVPAPPPQPLPGDVSFYSLPLLLPPPPLEPPEAPDPGPGPSPSPQAVCWPGGWH

Target ORF information:

RefSeq Version	XM_013146406.2
Organism	Cavia porcellus(domestic guinea pig)
Definition	Cavia porcellus anoctamin 8 (Ano8), mRNA.

Target ORF information:

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

XM_013146406.2

ORF Insert Sequence:

ATGCACCTTG GTGCGGGCGG AGACAAGCAC CAGAGATTAG ACTGGGCGGG CGGCGATGAA 
GCCCAGAGAA CCACGCGGGC AGGCCCGAGA ACCAGAGTGT GCAGGCAGGC AGCGCTGAGA 
ACCAGAGTGA CGCGCTGGCT GGGAGGGAGC TGGCTCCGCG CGGGCGGGGA CGAGAAGCAG 
CGCCGGGAGC GGGGACGAAG CGGCGCGGGC GGGCGCGGCC TTTGTCTCAT CCGCGTTCGG 
CCCCATGCGC TCGCGGCCCC CCGGCGCCCG GGCCGCGCGC AAAGCTTGAC CCAACTCGCC 
ATGGCGGAGC CCACCTCGAG CGCCGGGGGC GCGGTCCTGG ACGCGGAGCG GGACAAGCGA 
CCCCCGCCAG AGGGCGAGCC TGCGGCCCCC GCCTCCGGAG TGCTAGAGAA GCTCTTCGGG 
AAGCGGCTGC TTCAGGCGGG GCGCTACCTC GTGTCCCACA AAGCATGGAT GAAGACGGTG 
CCCACGGAGA ACTGCGACGT GCTCATGACC TTCCCAGACA CGACCGACGA CCACACGCTG 
CTCTGGCTAC TGAACCACAT CCGCGTGGGC ATCCCCGAGC TCATCGTGCA AGTCCGCCAC 
CATCGCCACA CACGCGCCTA CGCCTTCTTC GTCACCGCCA CTTACGAGAG CCTGCTCAGA 
GGCGCCGATG AGCTGGGGCT GCGCAAGGCC GTGAAGGCCG AGTTCGGCGG CGGTACCCGA 
GGCTTCTCCT GCGAAGAGGA CTTCATCTAC GAGAACGTAG AGAGCGAGAT GCGCTTCTTC 
ACCTCCCAGG AGCGCCAGAG CATCATCCGT TTCTGGCTGC AGAACCTGCG CGCCAAGCAA 
GGGGAGGCCT TGCACAACGT GCGCTTCCTG GAAGACCAGC CAATCATCCC CGAGCTGGCG 
GCCCGCGGGA TCATCCAGCA GGTGTTCCCT GTGCATGAGC AGCGCATCCT GAACCGCCTC 
ATGAAGTCCT GGGTGCAGGC GGTGTGTGAA AATCAGCCTC TAGACGACAT CTGCGACTAC 
TTCGGCGTGA AGATTGCCAT GTATTTTGCC TGGCTGGGCT TCTACACATC TGCAATGGTA 
TACCCAGCTG TCTTTGGCTC TGTGCTATAC ACGTTCACAG AGGCTGACCA GACAAGCCGT 
GACGTGTCCT GCGTAGTTTT TGCTCTCTTC AATGTGATCT GGTCAACACT GTTCTTGGAG 
GAGTGGAAAC GGAGGGGTGC AGAGCTGGCC TACAAGTGGG GGACGCTGGA CTCACCTGGG 
GAGGCTGTGG AGGAGCCACG TCCCCAGTTC AGGGGCGTGC GCCGCATCAG CCCAGTGACC 
CACGCCGAGG AGTTCTACTA CCCACCCTGG AAGCGGCTGC TCTTTCAGCT GCTCGTGAGC 
CTGCCCCTCT GCCTGGCCTG CCTGGCCTGC GTCTTCCTAC TCATGCTCGG CTGCTTCCAG 
CTGCAGGAGC TGGTACTGCA CGTGAAAGGG CTGCCGCGCC TGGCCCACTT CCTGCCCAAG 
GTCGTGCTGG CCCTGTTGGT TAGTGTGAGC GCCGAGGGCT ACAAGAAGCT AGCCATCTGG 
CTCAATGACA TGGAGAATTA CCGGCTGGAG AGTGCCTATG AGAAGCATCT CATCATCAAG 
GTTGTTTTGT TCCAGTTTGT CAATTCCTAC CTGAGCCTCT TCTACATCGG CTTCTACCTC 
AAGGACATGG AGCGTCTCAA GGAGGTGAGA CTGCGCCAGC GGCAGCCACG AGGGGCCGGA 
CCTGGCCCAG GGGTCCCAGG GCTCCCAGGG TTCCCGGTCT CTCCCCTCCC TCCTCCATCC 
TTCTCTCCTC TCTGTCCGTC CGTCCATTTG TATGTCCTCT CTCTGCCTGT CCATCTGTCT 
GTCCATCTGT TCGTCGGTCC CTCCACAGCT CCTGCTCGTC CTGTCCCTGT CCCAGAGCCT 
CGAGCGGCAG CTGCGGGCAG TTCTGGTCCC GCTCGTGGCC CTGCGGTTCC GCCTACTCCT 
CCTCTCCCTC CAGGGCCTCC TGCTCTCAGC CCGGGCCAAA GTACGGGCAG GTGGCAAGGC 
CATGGGCCTG GCCGGGTGGG CGGGAGCTGT GCTGGGCGCA TGTGCAGAGG GGCTGGGGTG 
CCGAGGATCC ATGCAGCAGA TGAGCCCAGG GCCTCAGGTG CCCAAGAGCC CTGGGGGTGG 
AGTGTTCCGT GCCATGCCCA CGTGCTTCTC CAAGGGCAGC AGCAGGGCGG GGGCCGAAGG 
TGTCTCAGCG GGGGTTGTGG GGCACCCGAG GAGGAGGAGG AGACAAGCGC TGTGGAGAGC 
AGGCCAGCAG GGGAGGGAGG GGAGGTGCGG GAAGGGCCTG GGGGTGCCGA GGACGAGGAG 
GAGGAGGACG ACGAGGATGA GGATGATGAC GATGAGGGTG AGGATGGTGG GCTGCTGGAC 
TGCGGGCTCC GGCTGAAGAA GGTCAGCTTT GCCGAGCGGG GGGCCGGGCG GCACCGGCCT 
GGGCCCAGCC CAGAAGCCCT CCTGGAAGAG GGCAGTCCCA CCATGGTGGA GAGGGGGCTG 
GAGCCAGCCA TGTTCACCCT GGCCGAGGAT GACGATGACG AGGCAGAGGG GCTTCCCAGG 
ATCCCTGAGT GCGAGCCCCC AACCATCCTG CTCCGTCGGG CTGGGGGCGA GAGCCAGGAC 
CAAGGCCCCG AGGGAGGCCA AGACCCAGAC CCTGGACCAG GTGACCCAGC AGCCAGACAG 
AAGCGGCAGA ACCGCTCCTC TTGGATCGAT CCACCAGAGG AGGAGCACTC ACCCCAGCTT 
ACCCAGGCAG AGCTGGAAAG CTGCATGAAG AAGTATGAGG ACACCTTCCA GGACTACCAG 
GAGATGTTCG TGCAGTTCGG CTACGTTGTG CTCTTCTCAT CCGCCTTCCC ATTGGCCGCG 
CTCTGCGCCC TGATCAACAA CCTCATCGAG ATCCGCAGCG ACGCCTTCAA GCTGTGCACT 
GGCCTGCAGC GGCCCTTTGG CCAGCGTGTG GAGAGCATTG GCCAATGGCA GAAGGTGATG 
GAGGCCATGG GCGTGTTGGC CATCGTGGTG AACTGCTACC TCATCGGGCA ATGCGGGCAG 
CTGCAGCGTC TCTTCCCCTG GCTGAGCCCA GAAGCGGCCA TCGTGTCTGT GGTGGTGCTC 
GAGCACTTTG CTTTGCTCCT CAAGTACCTC ATCCATGTGG CTATTCCTGA CATCCCAGGC 
TGGGTGGCTG AGGAAATGGC CAAGCTTGAG TACCAGCGAC GAGAGGCCTT CAAGAGACAC 
GAACGCCAGG CCCAGCACCG CTACCAGCAG CAGCAGCGGC GGCGGCGGGA GGAGGAGGAG 
CGGCAGCGCC ACGCAGAGCA CCACACCCGC AGGGAGCGTG AGGCCGGCCG GGATGAGGCG 
AGGGCCGAGG GTTCCGGGTC AGACGCCGTG AACTCTGAGA AGACTTCGGC AAAGGCCAAG 
GGCAGTGGTG TGGGCAGCCA TGGGCAGGAG CGGCCCAAGC GCCCTGGGTC CCTGCTGGCA 
TCCAACAACG TCATGAAGCT GAAGCAGATC ATCCCACTGC AGGGCAAGTT CCTGTCATCG 
GGGGCCACAG CCGGCTCAGG GGGTGCTGCT GCGGGCCCCA CACCCAGGCC AGCCCCTGCC 
CAGTCACCCA CCGGCGGGGA CACCCGCCTA CCCGCCTTCC TCAGCTTCAA GTTCCTCAAG 
TCTCCTGAGG CCCGGCGGGA CCCTGAGCGC AGCCACTCAC CCCCTAAGGC CTTCCACGCC 
ACCAAGCTCT TCCCCTTCGG TGGGGCGCGG GCCGAGACCA ACGGGGCAGG TACAGGCGGC 
CAGGCCCGGC AGGACACGGC CCCCGGTGGT GGCAGCAGTG GTGGCAGCCG GGCCCCGAGG 
AGCGGGCTTG CAGAGGAGGC CTCGGCTGAG GAGCGAGAAG CGCCCCGGCC CGAAGAAGAA 
AGCTCAGGGA CAGCGCCAGG CCCTGAGGGC ACCCCTGCCC TCCACACGCG CCGCAGCCGG 
AGCCCTGTGC CTCGCTCCCA GCCCCCGACG CCACCTGCGG GCTGTTGGCA GTGGGACCCA 
CCCTGGGGCT GTGGGGGCGA GGCCGCTGCC CCCCACCTGA GCCCACCGGC CGCCACCACC 
GAGTGCCCAC CCTGCGCCCT GGCTGTGCCC GCGCCCCCAC CACAGCCCCT ACCAGGGGAC 
GTCAGCTTCT ACAGCCTCCC GCTGCTGCTG CCACCGCCGC CGTTGGAGCC CCCAGAGGCC 
CCTGATCCTG GCCCTGGGCC CAGCCCCAGC CCTCAAGCAG TGTGCTGGCC AGGGGGCTGG 
CACTAG

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

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Ano8 cDNA ORF clone, Cavia porcellus(domestic guinea pig)

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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