ANO6 cDNA ORF clone, Myotis davidii

Gene
Clones
gRNAs

Summary

Gene Symbol	ANO6
Entrez Gene ID	102769754
Full Name	anoctamin 6
Gene Type	protein-coding
Organism	Myotis davidii

mRNA and Protein(s)

mRNA	Protein	Name
XM_006755573.2	XP_006755636.1	anoctamin-6

Pathways from BioSystems
Gene Ontology

The following ANO6 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ANO6 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
OMy68372	XM_006755573.2 Latest version!	Myotis davidii anoctamin 6 (ANO6), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

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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)

ANO6 ( XM_006755573.2 ) cDNA ORF clone, Myotis davidii -> XP_006755636.1 Myotis davidii anoctamin 6 (ANO6), mRNA.

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CloneID	OMy68372
Clone ID Related Accession (Same CDS sequence)	XM_006755573.2
Accession Version	XM_006755573.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2742bp) 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	2016-02-08
Organism	Myotis davidii
Product	anoctamin-6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006285049.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Feb 9, 2016 this sequence version replaced XM_006755573.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Myotis davidii Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGAGGCCGT CTGTCAGAGG TGTTCCTTCA TTTCCAGACC CCCCGAGCGT TCCTTTCCTC 
CTGGGATTTC TAATCACAGG TGGGCTGCGC TTCATTTACC CAGATGTGAG GGACGAGAGG 
AATGACCAGT GTTCTTCTAA AGCAGCCCTG ACTTCCCCGT GGAACCCAGT GTGGAGGCCC 
CGAATTAGCT TGTGCTCTTA TTCATGTGAT GTTCCCGCCT CCAAGAGGCC TTTTCTGAGA 
ACTCAGACTC ACCCGTCCGG TCTGGGGTTG GAAAACTTCG ATCAGATGGT TGGCTCCAGT 
TTTGGAACTC GGGAAAATCA GCCTGATTTC CGATCCCCGG AGTTTGAAGA ATTTAATGGG 
AAACCCAACT CACTCTATTT TAACGACGGC CAGCGAAGAA TCGACTTTGT TCTAGTGTAT 
GAAGATGAAA GTAGAAAAGA GAACAATAAA AAGGGTGCAA ATGAAAAACA AAGGAGAAAA 
AGACGAGCAT ATGAATCTAA CCTCATCCAT GATGGCCTGC AGCTAGAAGC AACCAGATCG 
GTTTTGGACG ACAAGCTGGT ATTTGTAAAG ATCCATGCCC CGTGGGAGGT GTTATGTACA 
TATGCGGAGC TAATGCACAT CAAATTGCCT CTGAAGCCCA ACGATCTGAA AACCCGCTCT 
TCAGCCTTCG ACAATTTCAA CTGGCTTGGC AAAGTCCTCC AAGTGGATGA AAGTATCATC 
AAGCCAGAGC AAGAATTTTT CACTGCCCCC TTTGAGAGGA GCCGGATGAA TGATTTTTAT 
ATTCGTGACA AAGATACCTT CTTTAACCCA GCCACCAGAA GCCGCATTGT TTACTTCATC 
CTCTCTCGAA TCAAGTATCA AGTAAGCGAC AACGTTAAAA AGTTTGGAAT TAACAAACTT 
GTGAGCTCTG GGATCTACAA GGCAGCTTTC CCTCTCCATG ATTGCAACTT CAGCTATCCG 
TCCGAGGACT TCACCTGCCC CAATGAACGG TACCTTCTCT ACAGGGAATG GGCTCATCCT 
CGAAGCATAT ACAAAAAACA GCCCTTGGAT CTCATCAGGA AATATTATGG AGAGAAGATC 
GGAATCTATT TTGCTTGGCT GGGCTATTAC ACGCAGATGC TCCTCCTGGC AGCAATAGTG 
GGTGTGGCTT GCTTTCTCTA CGGATATCTG AATCGAAATA ACTGCACTTG GAGCAAAGAA 
GTTTGTGATC CTGATATTGG CGGCACCATC ATAATGTGTC CTCAGTGTGA TAGGCTTTGT 
CCATTCTGGA AGCTCAATAT TACTTGCGAG TCCTCACAGA AATTGTGCAT CTTTGACAGT 
TTTGGAACCC TAGTCTTTGC AGTATTTATG GGGGTCTGGG TTACCTTGTT TCTGGAGTTC 
TGGAAGAGGC GCCAGGCAGA GCTTGAGTAT GAATGGGACA CGGTGGAGTT ACAGCAGGAA 
GAACAGCCCC GGCCAGAGTA TGAGGCCCGG TGTACTCACG TGGTGATAAA TGAGATCACG 
CAGGAAGAAG AGCGGGTTCC CTTCACTACC TGGGGGAAGT GCATTCGTGG CGTCCTCTGC 
GCCAGTGCTG TCTTGTTCTG GATCCTGCTG ATCATCGCCT CAGTCATTGG GATCATTGTC 
TACAGGCTCT CAGTGTTCAT TGTATTTTCT GCCAAACTTC CCAAGAACCT GAATGGAACA 
GACCCAATCC AGAAGTATCT GACCCCACAG ACAGCCACAT CCATCACCGC GTCCCTCATC 
AGCTTCGTCA TCATCATGAT CCTGAACACC ATCTATGAAA AAGTGGCAAT CATGATTACT 
AATTTTGGTA AGTTCCCACC AGAGTTTCAG TCGTGTCCGG GACATTTTCA GAACCTGGTG 
GAGATGGAGA CCTTTGGTCC TTTTGGCAGC TGGATCAAGA ATCTAATTGG ACGCTACCGC 
ACAGTTTCAG GTTCAGAAAT GGTAACCCCG AGATGGGAAC AGGACTACCA CCTGCAACTC 
ATGGGAAGAC TGGGATTATT TTACGAGTAT CTTGAAATGA TTATTCAGTT TGGCTTTGTC 
ACCTTATTTG TGGCCTCTTT TCCACTGGCC CCTCTGTTGG CTTTGGTGAA CAATATATTG 
GAAATACGAG TGGACGCGTG GAAAATGACT ACCCAGTACC GTCGCATGGT GCCAGAAAAA 
GCCCAGGACA TCGGAGCATG GCAGCCCATC ATGCAAGGAA TCGCAATTCT GGCTGTGGTA 
ACCAACGCCA TGATTATTGC TTTCACATCA GACATGATCC CCCGGCTGGT GTATTACTGG 
TCCTTTTCTG TCCCTCCCTA TGGGGACCAC CCCCACTACA CCATGGAGGG ATACATCAAC 
AATACTCTCT CCATCTTCAA AATCGCGGAC TTCAAAAACA GAAGCAAGGG AAATCCATAC 
ACTGGACTTG GTAACTACAC CACATGCAGG TATCGTGACT TCCGGTACCC TCCCGGACAC 
CCTCAGGAGT ATAAACACAA CATCTACTAC TGGCACGTGA TCGCAGCCAA GCTGGCTTTT 
ATCATTGTCA TGGAGCATGT CATCTACTCT GTGAAATTCT TCCTGTCATA TGCAATTCCA 
GACGTATCGA AAAGGACGAG GAGCAAGATC AAGAGAGAAA AATACCTAAC CCAAAAGCTT 
CTTCATGAGA ATCACCTCAA AGACATGACC AAAAATATGG GGGTCATCGC TGAGACCATA 
ATGGGAGCAG CAGATAACCA TTTACGACCC AAATTAGAAT AA

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

RefSeq	XP_006755636.1
CDS	16..2757
Translation	MRPSVRGVPSFPDPPSVPFLLGFLITGGLRFIYPDVRDERNDQCSSKAALTSPWNPVWRPRISLCSYSCDVPASKRPFLRTQTHPSGLGLENFDQMVGSSFGTRENQPDFRSPEFEEFNGKPNSLYFNDGQRRIDFVLVYEDESRKENNKKGANEKQRRKRRAYESNLIHDGLQLEATRSVLDDKLVFVKIHAPWEVLCTYAELMHIKLPLKPNDLKTRSSAFDNFNWLGKVLQVDESIIKPEQEFFTAPFERSRMNDFYIRDKDTFFNPATRSRIVYFILSRIKYQVSDNVKKFGINKLVSSGIYKAAFPLHDCNFSYPSEDFTCPNERYLLYREWAHPRSIYKKQPLDLIRKYYGEKIGIYFAWLGYYTQMLLLAAIVGVACFLYGYLNRNNCTWSKEVCDPDIGGTIIMCPQCDRLCPFWKLNITCESSQKLCIFDSFGTLVFAVFMGVWVTLFLEFWKRRQAELEYEWDTVELQQEEQPRPEYEARCTHVVINEITQEEERVPFTTWGKCIRGVLCASAVLFWILLIIASVIGIIVYRLSVFIVFSAKLPKNLNGTDPIQKYLTPQTATSITASLISFVIIMILNTIYEKVAIMITNFGKFPPEFQSCPGHFQNLVEMETFGPFGSWIKNLIGRYRTVSGSEMVTPRWEQDYHLQLMGRLGLFYEYLEMIIQFGFVTLFVASFPLAPLLALVNNILEIRVDAWKMTTQYRRMVPEKAQDIGAWQPIMQGIAILAVVTNAMIIAFTSDMIPRLVYYWSFSVPPYGDHPHYTMEGYINNTLSIFKIADFKNRSKGNPYTGLGNYTTCRYRDFRYPPGHPQEYKHNIYYWHVIAAKLAFIIVMEHVIYSVKFFLSYAIPDVSKRTRSKIKREKYLTQKLLHENHLKDMTKNMGVIAETIMGAADNHLRPKLE

Target ORF information:

RefSeq Version	XM_006755573.2
Organism	Myotis davidii
Definition	Myotis davidii anoctamin 6 (ANO6), mRNA.

Target ORF information:

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

XM_006755573.2

ORF Insert Sequence:

ATGAGGCCGT CTGTCAGAGG TGTTCCTTCA TTTCCAGACC CCCCGAGCGT TCCTTTCCTC 
CTGGGATTTC TAATCACAGG TGGGCTGCGC TTCATTTACC CAGATGTGAG GGACGAGAGG 
AATGACCAGT GTTCTTCTAA AGCAGCCCTG ACTTCCCCGT GGAACCCAGT GTGGAGGCCC 
CGAATTAGCT TGTGCTCTTA TTCATGTGAT GTTCCCGCCT CCAAGAGGCC TTTTCTGAGA 
ACTCAGACTC ACCCGTCCGG TCTGGGGTTG GAAAACTTCG ATCAGATGGT TGGCTCCAGT 
TTTGGAACTC GGGAAAATCA GCCTGATTTC CGATCCCCGG AGTTTGAAGA ATTTAATGGG 
AAACCCAACT CACTCTATTT TAACGACGGC CAGCGAAGAA TCGACTTTGT TCTAGTGTAT 
GAAGATGAAA GTAGAAAAGA GAACAATAAA AAGGGTGCAA ATGAAAAACA AAGGAGAAAA 
AGACGAGCAT ATGAATCTAA CCTCATCCAT GATGGCCTGC AGCTAGAAGC AACCAGATCG 
GTTTTGGACG ACAAGCTGGT ATTTGTAAAG ATCCATGCCC CGTGGGAGGT GTTATGTACA 
TATGCGGAGC TAATGCACAT CAAATTGCCT CTGAAGCCCA ACGATCTGAA AACCCGCTCT 
TCAGCCTTCG ACAATTTCAA CTGGCTTGGC AAAGTCCTCC AAGTGGATGA AAGTATCATC 
AAGCCAGAGC AAGAATTTTT CACTGCCCCC TTTGAGAGGA GCCGGATGAA TGATTTTTAT 
ATTCGTGACA AAGATACCTT CTTTAACCCA GCCACCAGAA GCCGCATTGT TTACTTCATC 
CTCTCTCGAA TCAAGTATCA AGTAAGCGAC AACGTTAAAA AGTTTGGAAT TAACAAACTT 
GTGAGCTCTG GGATCTACAA GGCAGCTTTC CCTCTCCATG ATTGCAACTT CAGCTATCCG 
TCCGAGGACT TCACCTGCCC CAATGAACGG TACCTTCTCT ACAGGGAATG GGCTCATCCT 
CGAAGCATAT ACAAAAAACA GCCCTTGGAT CTCATCAGGA AATATTATGG AGAGAAGATC 
GGAATCTATT TTGCTTGGCT GGGCTATTAC ACGCAGATGC TCCTCCTGGC AGCAATAGTG 
GGTGTGGCTT GCTTTCTCTA CGGATATCTG AATCGAAATA ACTGCACTTG GAGCAAAGAA 
GTTTGTGATC CTGATATTGG CGGCACCATC ATAATGTGTC CTCAGTGTGA TAGGCTTTGT 
CCATTCTGGA AGCTCAATAT TACTTGCGAG TCCTCACAGA AATTGTGCAT CTTTGACAGT 
TTTGGAACCC TAGTCTTTGC AGTATTTATG GGGGTCTGGG TTACCTTGTT TCTGGAGTTC 
TGGAAGAGGC GCCAGGCAGA GCTTGAGTAT GAATGGGACA CGGTGGAGTT ACAGCAGGAA 
GAACAGCCCC GGCCAGAGTA TGAGGCCCGG TGTACTCACG TGGTGATAAA TGAGATCACG 
CAGGAAGAAG AGCGGGTTCC CTTCACTACC TGGGGGAAGT GCATTCGTGG CGTCCTCTGC 
GCCAGTGCTG TCTTGTTCTG GATCCTGCTG ATCATCGCCT CAGTCATTGG GATCATTGTC 
TACAGGCTCT CAGTGTTCAT TGTATTTTCT GCCAAACTTC CCAAGAACCT GAATGGAACA 
GACCCAATCC AGAAGTATCT GACCCCACAG ACAGCCACAT CCATCACCGC GTCCCTCATC 
AGCTTCGTCA TCATCATGAT CCTGAACACC ATCTATGAAA AAGTGGCAAT CATGATTACT 
AATTTTGGTA AGTTCCCACC AGAGTTTCAG TCGTGTCCGG GACATTTTCA GAACCTGGTG 
GAGATGGAGA CCTTTGGTCC TTTTGGCAGC TGGATCAAGA ATCTAATTGG ACGCTACCGC 
ACAGTTTCAG GTTCAGAAAT GGTAACCCCG AGATGGGAAC AGGACTACCA CCTGCAACTC 
ATGGGAAGAC TGGGATTATT TTACGAGTAT CTTGAAATGA TTATTCAGTT TGGCTTTGTC 
ACCTTATTTG TGGCCTCTTT TCCACTGGCC CCTCTGTTGG CTTTGGTGAA CAATATATTG 
GAAATACGAG TGGACGCGTG GAAAATGACT ACCCAGTACC GTCGCATGGT GCCAGAAAAA 
GCCCAGGACA TCGGAGCATG GCAGCCCATC ATGCAAGGAA TCGCAATTCT GGCTGTGGTA 
ACCAACGCCA TGATTATTGC TTTCACATCA GACATGATCC CCCGGCTGGT GTATTACTGG 
TCCTTTTCTG TCCCTCCCTA TGGGGACCAC CCCCACTACA CCATGGAGGG ATACATCAAC 
AATACTCTCT CCATCTTCAA AATCGCGGAC TTCAAAAACA GAAGCAAGGG AAATCCATAC 
ACTGGACTTG GTAACTACAC CACATGCAGG TATCGTGACT TCCGGTACCC TCCCGGACAC 
CCTCAGGAGT ATAAACACAA CATCTACTAC TGGCACGTGA TCGCAGCCAA GCTGGCTTTT 
ATCATTGTCA TGGAGCATGT CATCTACTCT GTGAAATTCT TCCTGTCATA TGCAATTCCA 
GACGTATCGA AAAGGACGAG GAGCAAGATC AAGAGAGAAA AATACCTAAC CCAAAAGCTT 
CTTCATGAGA ATCACCTCAA AGACATGACC AAAAATATGG GGGTCATCGC TGAGACCATA 
ATGGGAGCAG CAGATAACCA TTTACGACCC AAATTAGAAT AA