KCNQ3 cDNA ORF clone, Calypte anna(Anna's hummingbird)

Gene
Clones
gRNAs

Summary

Gene Symbol	KCNQ3
Entrez Gene ID	103538913
Full Name	potassium voltage-gated channel subfamily Q member 3
Gene Type	protein-coding
Organism	Calypte anna(Anna's hummingbird)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030445250.1	XP_030301110.1	potassium voltage-gated channel subfamily KQT member 3
XM_008505364.1	XP_008503586.1	potassium voltage-gated channel subfamily KQT member 3

Pathways from BioSystems
Gene Ontology

The following KCNQ3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KCNQ3 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
OCa416633	XM_008505364.1 Latest version!	Calypte anna potassium voltage-gated channel, KQT-like subfamily, member 3 (KCNQ3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00
OCa813830	XM_030445250.1 Latest version!	Calypte anna potassium voltage-gated channel subfamily Q member 3 (KCNQ3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

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)

KCNQ3 ( XM_008505364.1 ) cDNA ORF clone, Calypte anna(Anna's hummingbird) -> XP_008503586.1 Calypte anna potassium voltage-gated channel, KQT-like subfamily, member 3 (KCNQ3), mRNA.

Price & Availability↑

CloneID	OCa416633
Clone ID Related Accession (Same CDS sequence)	XM_008505364.1
Accession Version	XM_008505364.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2394bp) 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	2014-07-09
Organism	Calypte anna(Anna's hummingbird)
Product	potassium voltage-gated channel subfamily KQT member 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007618952.1) 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 :: Calypte anna Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.0 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##

ATGAGGGAGG GGGGGGGAAA GCGGGGCCCG CCGGGACTGG GGCTGCTAGC GAAGACCCCC 
CTGAGCCGCC CGGTGAAGCG GAACCACGCC AAGTACCGAC GCATACAAAC TTTGATCTAC 
GACGCCCTGG AGCGGCCGCG GGGCTGGGCG CTGCTCTATC ACGCCTTCGT GTTTCTGATT 
GTCTTGGGGT GTTTGATCTT AGCTGTCCTG ACAACTTTCA AGGAGTATGA AACTGTTTCA 
GGAGACTGGC TTCTCTTGCT GGAAACTTTT GCCATTTTCA TCTTTGGAGC AGAGTTTGCC 
TTAAGAATCT GGGCTGCTGG GTGTTGCTGT CGCTACAAAG GATGGAGGGG GAGACTCAAA 
TTTGCCAGGA AGCCTTTGTG CATGCTGGAT ATCTTTGTGC TGATTGCTTC GGTGCCTGTG 
GTGGCTGTTG GGAACCAGGG CAATGTTCTG GCCACATCTC TCAGAAGCCT CCGCTTCCTT 
CAGATCCTAC GGATGCTCCG AATGGACAGG CGGGGCGGGA CATGGAAACT TTTGGGATCA 
GCCATTTGTG CACATAGCAA AGAGCTCATC ACTGCTTGGT ACATTGGGTT CCTGACACTC 
ATCCTATCTT CATTTCTTGT TTATCTGGTT GAAAAAGATG TTCCTGAAAA GGATGCTAAT 
GGGGTAGAGA TGAAGGAAGA GTTTGAAACC TATGCAGATG CACTGTGGTG GGGACTGATC 
ACCCTGGCTA CCATTGGTTA TGGTGACAAG ACCCCCAAAA CATGGGAGGG CCGGCTGATT 
GCAGCTACAT TCTCTCTCAT TGGAGTCTCC TTCTTTGCTC TTCCTGCAGG CATTTTGGGT 
TCAGGGCTGG CACTGAAGGT CCAGGAGCAG CATCGTCAAA AGCATTTTGA GAAAAGAAGA 
AAGCCAGCAG CTGAACTCAT TCAGGCTGCT TGGAGATACT ATGCTACAAA CCCCAACAGG 
ATTGATCTAG TTGCTACCTG GAGGTTTTAT GAATCAATTG TATCATTTCC ATTTTTCAGG 
AAAGAGCAAT TGGATGGTAC TGCCAGCCAA AAGCTGGGTC TCTTGGATCG GGTTCGTGGT 
ACCAATACTA AAGGAAAGCT ATTTACCCCT CTGAATGTAG ATGCCATTGA AGAAAGTCCT 
TCAAAAGAGC CTAAGAATGT TGTCTTGAAT AATAAGGAGC GTTTTCGCAC AGCATTCCGA 
ATGAAAGCGT ACGCCTTTTG GCAGAGCTCA GAAGATGCAG GAACAGGGGA ACCCATGGCA 
GAAGAGAGAG GAGACAGTGG TGACTTCCTT ATGGAAGACA TGATCCCCAC ATTCAAGACA 
GCCATCCGAG CTGTCAGAAT ACTACAGTTT CGTCTTTACA AAAAAAAATT CAAGGAGACT 
TTGAGGCCTT ATGATGTAAA GGATGTGATA GAGCAATACT CAGCAGGGCA TCTTGATATG 
CTTTCCAGAA TAAAGTATCT TCAGGCAAGA GTAGATATGA TTTTTACACC TGGACCTCCA 
TCTACTCCCA AGCATAAGAA ATCCCAAAAG GGAGGAGCTT TTTCTTACCC TTCACAACAG 
TCTCCCAGAA ATGAACCGTA CGTAGCCAAA GCATCTACAA CAGATACTGA AGACCAAAGT 
ATGATGGGCA AATTTGTTAA AGTTGAACGA CAGGTTAATG ACATGGGGAG GAAACTGGAT 
TTTCTTGTTG ACATGCATAT GCATCATATG GAACAGCTAC AAATACAAGT TGCTGAGATA 
AGTCCAATGA AAGAAACTGC TTCTCCTGCA AAGGAGAAGA GAGAAGATAA CAAGTATTCT 
GAATTAAAAA CAATAATATA TAAATATACT GAGCAGTGTG CTCATGAAAC TCCTTTCAAT 
TTCCAGCAGG TTCCAGTCAA CAAAGTGAGT CCTTATGGTT TCTCAGCACA TGGTCACACG 
ACTCATTCCC AACCTTTATC ATTAGGTGGG CAAAACTCTG CCAAACTGCA AGCTACTCCC 
TCCTCAACTT CATATGCAGA AAGGCCAACA GTTTTGCCTA TTTTTAAATT AATGGACTCC 
CAGGTTAGCT ACCACTCACA AGGAGACCTA CAAAGCTCTT CCTCAGACAA GGTGTCTCCA 
AGGCAGAGAA GGAGCTTAAC AAGAGACAGT GATACTCCAT TATCCCTTCT CTCCGTCAAC 
CATGAGGAAC TTGAGCGCTC CCCAAGTGGC TTCAGTATCT CCCAAGAGAG AGATGACTTC 
CCCTTTGGCC CCAACGGGGG CTCCTCGGCG TGGATGAGAG AGAAGCGGTA CCTGGCGGAG 
GGGGAAACGG ACACAGACAC CGACCCTTTC ACACCGAGTG GTTCCATGCC TCTGTCTTCT 
ACAGGAGATG GGATTTCAGA TTCCATATGG ACCCCATCAA ATAAGCCAGT TTAA

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

RefSeq	XP_008503586.1
CDS	1..2394
Translation	MREGGGKRGPPGLGLLAKTPLSRPVKRNHAKYRRIQTLIYDALERPRGWALLYHAFVFLIVLGCLILAVLTTFKEYETVSGDWLLLLETFAIFIFGAEFALRIWAAGCCCRYKGWRGRLKFARKPLCMLDIFVLIASVPVVAVGNQGNVLATSLRSLRFLQILRMLRMDRRGGTWKLLGSAICAHSKELITAWYIGFLTLILSSFLVYLVEKDVPEKDANGVEMKEEFETYADALWWGLITLATIGYGDKTPKTWEGRLIAATFSLIGVSFFALPAGILGSGLALKVQEQHRQKHFEKRRKPAAELIQAAWRYYATNPNRIDLVATWRFYESIVSFPFFRKEQLDGTASQKLGLLDRVRGTNTKGKLFTPLNVDAIEESPSKEPKNVVLNNKERFRTAFRMKAYAFWQSSEDAGTGEPMAEERGDSGDFLMEDMIPTFKTAIRAVRILQFRLYKKKFKETLRPYDVKDVIEQYSAGHLDMLSRIKYLQARVDMIFTPGPPSTPKHKKSQKGGAFSYPSQQSPRNEPYVAKASTTDTEDQSMMGKFVKVERQVNDMGRKLDFLVDMHMHHMEQLQIQVAEISPMKETASPAKEKREDNKYSELKTIIYKYTEQCAHETPFNFQQVPVNKVSPYGFSAHGHTTHSQPLSLGGQNSAKLQATPSSTSYAERPTVLPIFKLMDSQVSYHSQGDLQSSSSDKVSPRQRRSLTRDSDTPLSLLSVNHEELERSPSGFSISQERDDFPFGPNGGSSAWMREKRYLAEGETDTDTDPFTPSGSMPLSSTGDGISDSIWTPSNKPV

Target ORF information:

RefSeq Version	XM_008505364.1
Organism	Calypte anna(Anna's hummingbird)
Definition	Calypte anna potassium voltage-gated channel, KQT-like subfamily, member 3 (KCNQ3), mRNA.

Target ORF information:

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

XM_008505364.1

ORF Insert Sequence:

ATGAGGGAGG GGGGGGGAAA GCGGGGCCCG CCGGGACTGG GGCTGCTAGC GAAGACCCCC 
CTGAGCCGCC CGGTGAAGCG GAACCACGCC AAGTACCGAC GCATACAAAC TTTGATCTAC 
GACGCCCTGG AGCGGCCGCG GGGCTGGGCG CTGCTCTATC ACGCCTTCGT GTTTCTGATT 
GTCTTGGGGT GTTTGATCTT AGCTGTCCTG ACAACTTTCA AGGAGTATGA AACTGTTTCA 
GGAGACTGGC TTCTCTTGCT GGAAACTTTT GCCATTTTCA TCTTTGGAGC AGAGTTTGCC 
TTAAGAATCT GGGCTGCTGG GTGTTGCTGT CGCTACAAAG GATGGAGGGG GAGACTCAAA 
TTTGCCAGGA AGCCTTTGTG CATGCTGGAT ATCTTTGTGC TGATTGCTTC GGTGCCTGTG 
GTGGCTGTTG GGAACCAGGG CAATGTTCTG GCCACATCTC TCAGAAGCCT CCGCTTCCTT 
CAGATCCTAC GGATGCTCCG AATGGACAGG CGGGGCGGGA CATGGAAACT TTTGGGATCA 
GCCATTTGTG CACATAGCAA AGAGCTCATC ACTGCTTGGT ACATTGGGTT CCTGACACTC 
ATCCTATCTT CATTTCTTGT TTATCTGGTT GAAAAAGATG TTCCTGAAAA GGATGCTAAT 
GGGGTAGAGA TGAAGGAAGA GTTTGAAACC TATGCAGATG CACTGTGGTG GGGACTGATC 
ACCCTGGCTA CCATTGGTTA TGGTGACAAG ACCCCCAAAA CATGGGAGGG CCGGCTGATT 
GCAGCTACAT TCTCTCTCAT TGGAGTCTCC TTCTTTGCTC TTCCTGCAGG CATTTTGGGT 
TCAGGGCTGG CACTGAAGGT CCAGGAGCAG CATCGTCAAA AGCATTTTGA GAAAAGAAGA 
AAGCCAGCAG CTGAACTCAT TCAGGCTGCT TGGAGATACT ATGCTACAAA CCCCAACAGG 
ATTGATCTAG TTGCTACCTG GAGGTTTTAT GAATCAATTG TATCATTTCC ATTTTTCAGG 
AAAGAGCAAT TGGATGGTAC TGCCAGCCAA AAGCTGGGTC TCTTGGATCG GGTTCGTGGT 
ACCAATACTA AAGGAAAGCT ATTTACCCCT CTGAATGTAG ATGCCATTGA AGAAAGTCCT 
TCAAAAGAGC CTAAGAATGT TGTCTTGAAT AATAAGGAGC GTTTTCGCAC AGCATTCCGA 
ATGAAAGCGT ACGCCTTTTG GCAGAGCTCA GAAGATGCAG GAACAGGGGA ACCCATGGCA 
GAAGAGAGAG GAGACAGTGG TGACTTCCTT ATGGAAGACA TGATCCCCAC ATTCAAGACA 
GCCATCCGAG CTGTCAGAAT ACTACAGTTT CGTCTTTACA AAAAAAAATT CAAGGAGACT 
TTGAGGCCTT ATGATGTAAA GGATGTGATA GAGCAATACT CAGCAGGGCA TCTTGATATG 
CTTTCCAGAA TAAAGTATCT TCAGGCAAGA GTAGATATGA TTTTTACACC TGGACCTCCA 
TCTACTCCCA AGCATAAGAA ATCCCAAAAG GGAGGAGCTT TTTCTTACCC TTCACAACAG 
TCTCCCAGAA ATGAACCGTA CGTAGCCAAA GCATCTACAA CAGATACTGA AGACCAAAGT 
ATGATGGGCA AATTTGTTAA AGTTGAACGA CAGGTTAATG ACATGGGGAG GAAACTGGAT 
TTTCTTGTTG ACATGCATAT GCATCATATG GAACAGCTAC AAATACAAGT TGCTGAGATA 
AGTCCAATGA AAGAAACTGC TTCTCCTGCA AAGGAGAAGA GAGAAGATAA CAAGTATTCT 
GAATTAAAAA CAATAATATA TAAATATACT GAGCAGTGTG CTCATGAAAC TCCTTTCAAT 
TTCCAGCAGG TTCCAGTCAA CAAAGTGAGT CCTTATGGTT TCTCAGCACA TGGTCACACG 
ACTCATTCCC AACCTTTATC ATTAGGTGGG CAAAACTCTG CCAAACTGCA AGCTACTCCC 
TCCTCAACTT CATATGCAGA AAGGCCAACA GTTTTGCCTA TTTTTAAATT AATGGACTCC 
CAGGTTAGCT ACCACTCACA AGGAGACCTA CAAAGCTCTT CCTCAGACAA GGTGTCTCCA 
AGGCAGAGAA GGAGCTTAAC AAGAGACAGT GATACTCCAT TATCCCTTCT CTCCGTCAAC 
CATGAGGAAC TTGAGCGCTC CCCAAGTGGC TTCAGTATCT CCCAAGAGAG AGATGACTTC 
CCCTTTGGCC CCAACGGGGG CTCCTCGGCG TGGATGAGAG AGAAGCGGTA CCTGGCGGAG 
GGGGAAACGG ACACAGACAC CGACCCTTTC ACACCGAGTG GTTCCATGCC TCTGTCTTCT 
ACAGGAGATG GGATTTCAGA TTCCATATGG ACCCCATCAA ATAAGCCAGT TTAA

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

KCNQ3 ( XM_030445250.1 ) cDNA ORF clone, Calypte anna(Anna's hummingbird) -> XP_030301110.1 Calypte anna potassium voltage-gated channel subfamily Q member 3 (KCNQ3), mRNA.

Price & Availability↑

CloneID	OCa813830
Clone ID Related Accession (Same CDS sequence)	XM_030445250.1
Accession Version	XM_030445250.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2556bp) 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	2019-08-19
Organism	Calypte anna(Anna's hummingbird)
Product	potassium voltage-gated channel subfamily KQT member 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044245.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Calypte anna Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGCTGA AGTCTCGGCG AGGCGCGGCG GGCGGTAGCG GGGCCGGCGG GGCAGCGGCG 
GGGCGGCGGG GGACGGCGGG GGGCGGCGGC GACCCCGAGC AGGGCTCGCT GGCCCTGGGC 
ACCGGCACCG ACCGCGACGG GACGCTGCTG CTGGAGGGCG GCGGAAAGGA GGAGGGCGGC 
AAGCGGAGCC CGCCGGGACT GGGGCTGCTA GCGAAGACCC CCCTGAGCCG CCCGGTGAAG 
CGGAACCACG CCAAGTACCG ACGCATACAA ACTTTGATCT ACGACGCCCT GGAGCGGCCG 
CGGGGCTGGG CGCTGCTCTA TCACGCCTTC GTGTTTCTGA TTGTCTTGGG GTGTTTGATC 
TTAGCTGTCC TGACAACTTT CAAGGAGTAT GAAACTGTTT CAGGAGACTG GCTTCTCTTG 
CTGGAAACTT TTGCCATTTT CATCTTTGGA GCAGAGTTTG CCTTAAGAAT CTGGGCTGCT 
GGGTGTTGCT GTCGCTACAA AGGATGGAGG GGGAGACTCA AATTTGCCAG GAAGCCTTTG 
TGCATGCTGG ATATCTTTGT GCTGATTGCT TCGGTGCCTG TGGTGGCTGT TGGGAACCAG 
GGCAATGTTC TGGCCACATC TCTCAGAAGC CTCCGCTTCC TTCAGATCCT ACGGATGCTC 
CGAATGGACA GGCGGGGCGG GACATGGAAA CTTTTGGGAT CAGCCATTTG TGCACATAGC 
AAAGAGCTCA TCACTGCTTG GTACATTGGG TTCCTGACAC TCATCCTATC TTCATTTCTT 
GTTTATCTGG TTGAAAAAGA TGTTCCTGAA AAGGATGCTA ATGGGGTAGA GATGAAGGAA 
GAGTTTGAAA CCTATGCAGA TGCACTGTGG TGGGGACTGA TCACCCTGGC TACCATTGGT 
TATGGTGACA AGACCCCCAA AACATGGGAG GGCCGGCTGA TTGCAGCTAC ATTCTCTCTC 
ATTGGAGTCT CCTTCTTTGC TCTTCCTGCA GGCATTTTGG GTTCAGGGCT GGCACTGAAG 
GTCCAGGAGC AGCATCGTCA AAAGCATTTT GAGAAAAGAA GAAAGCCAGC AGCTGAACTC 
ATTCAGGCTG CTTGGAGATA CTATGCTACA AACCCCAACA GGATTGATCT AGTTGCTACC 
TGGAGGTTTT ATGAATCAAT TGTATCATTT CCATTTTTCA GGAAAGAGCA ATTGGATGGT 
ACTGCCAGCC AAAAGCTGGG TCTCTTGGAT CGGGTTCGTG GTACCAATAC TAAAGGAAAG 
CTATTTACCC CTCTGAATGT AGATGCCATT GAAGAAAGTC CTTCAAAAGA GCCTAAGAAT 
GTTGTCTTGA ATAATAAGGA GCGTTTTCGC ACAGCATTCC GAATGAAAGC GTACGCCTTT 
TGGCAGAGCT CAGAAGATGC AGGAACAGGG GAACCCATGG CAGAAGAGAG AGGAGACAGT 
GGTGACTTCC TTATGGAAGA CATGATCCCC ACATTCAAGA CAGCCATCCG AGCTGTCAGA 
ATACTACAGT TTCGTCTTTA CAAAAAAAAA TTCAAGGAGA CTTTGAGGCC TTATGATGTA 
AAGGATGTGA TAGAGCAATA CTCAGCAGGG CATCTTGATA TGCTTTCCAG AATAAAGTAT 
CTTCAGGCAA GAGTAGATAT GATTTTTACA CCTGGACCTC CATCTACTCC CAAGCATAAG 
AAATCCCAAA AGGGAGGAGC TTTTTCTTAC CCTTCACAAC AGTCTCCCAG AAATGAACCG 
TACGTAGCCA AAGCATCTAC AACAGATACT GAAGACCAAA GTATGATGGG CAAATTTGTT 
AAAGTTGAAC GACAGGTTAA TGACATGGGG AGGAAACTGG ATTTTCTTGT TGACATGCAT 
ATGCATCATA TGGAACAGCT ACAAATACAA GTTGCTGAGA TAAGTCCAAT GAAAGAAACT 
GCTTCTCCTG CAAAGGAGAA GAGAGAAGAT AACAAGTATT CTGAATTAAA AACAATAATA 
TATAAATATA CTGAGCAGTG TGCTCATGAA ACTCCTTTCA ATTTCCAGCA GGTTCCAGTC 
AACAAAGTGA GTCCTTATGG TTTCTCAGCA CATGGTCACA CGACTCATTC CCAACCTTTA 
TCATTAGGTG GGCAAAACTC TGCCAAACTG CAAGCTACTC CCTCCTCAAC TTCATATGCA 
GAAAGGCCAA CAGTTTTGCC TATTTTTAAA TTAATGGACT CCCAGGTTAG CTACCACTCA 
CAAGGAGACC TACAAAGCTC TTCCTCAGAC AAGGTGTCTC CAAGGCAGAG AAGGAGCTTA 
ACAAGAGACA GTGATACTCC ATTATCCCTT CTCTCCGTCA ACCATGAGGA ACTTGAGCGC 
TCCCCAAGTG GCTTCAGTAT CTCCCAAGAG AGAGATGACT TCCCCTTTGG CCCCAACGGG 
GGCTCCTCGG CGTGGATGAG AGAGAAGCGG TACCTGGCGG AGGGGGAAAC GGACACAGAC 
ACCGACCCTT TCACACCGAG TGGTTCCATG CCTCTGTCTT CTACAGGAGA TGGGATTTCA 
GATTCCATAT GGACCCCATC AAATAAGCCA GTTTAA

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

RefSeq	XP_030301110.1
CDS	4..2559
Translation	MGLKSRRGAAGGSGAGGAAAGRRGTAGGGGDPEQGSLALGTGTDRDGTLLLEGGGKEEGGKRSPPGLGLLAKTPLSRPVKRNHAKYRRIQTLIYDALERPRGWALLYHAFVFLIVLGCLILAVLTTFKEYETVSGDWLLLLETFAIFIFGAEFALRIWAAGCCCRYKGWRGRLKFARKPLCMLDIFVLIASVPVVAVGNQGNVLATSLRSLRFLQILRMLRMDRRGGTWKLLGSAICAHSKELITAWYIGFLTLILSSFLVYLVEKDVPEKDANGVEMKEEFETYADALWWGLITLATIGYGDKTPKTWEGRLIAATFSLIGVSFFALPAGILGSGLALKVQEQHRQKHFEKRRKPAAELIQAAWRYYATNPNRIDLVATWRFYESIVSFPFFRKEQLDGTASQKLGLLDRVRGTNTKGKLFTPLNVDAIEESPSKEPKNVVLNNKERFRTAFRMKAYAFWQSSEDAGTGEPMAEERGDSGDFLMEDMIPTFKTAIRAVRILQFRLYKKKFKETLRPYDVKDVIEQYSAGHLDMLSRIKYLQARVDMIFTPGPPSTPKHKKSQKGGAFSYPSQQSPRNEPYVAKASTTDTEDQSMMGKFVKVERQVNDMGRKLDFLVDMHMHHMEQLQIQVAEISPMKETASPAKEKREDNKYSELKTIIYKYTEQCAHETPFNFQQVPVNKVSPYGFSAHGHTTHSQPLSLGGQNSAKLQATPSSTSYAERPTVLPIFKLMDSQVSYHSQGDLQSSSSDKVSPRQRRSLTRDSDTPLSLLSVNHEELERSPSGFSISQERDDFPFGPNGGSSAWMREKRYLAEGETDTDTDPFTPSGSMPLSSTGDGISDSIWTPSNKPV

Target ORF information:

RefSeq Version	XM_030445250.1
Organism	Calypte anna(Anna's hummingbird)
Definition	Calypte anna potassium voltage-gated channel subfamily Q member 3 (KCNQ3), mRNA.

Target ORF information:

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

XM_030445250.1

ORF Insert Sequence:

ATGGGGCTGA AGTCTCGGCG AGGCGCGGCG GGCGGTAGCG GGGCCGGCGG GGCAGCGGCG 
GGGCGGCGGG GGACGGCGGG GGGCGGCGGC GACCCCGAGC AGGGCTCGCT GGCCCTGGGC 
ACCGGCACCG ACCGCGACGG GACGCTGCTG CTGGAGGGCG GCGGAAAGGA GGAGGGCGGC 
AAGCGGAGCC CGCCGGGACT GGGGCTGCTA GCGAAGACCC CCCTGAGCCG CCCGGTGAAG 
CGGAACCACG CCAAGTACCG ACGCATACAA ACTTTGATCT ACGACGCCCT GGAGCGGCCG 
CGGGGCTGGG CGCTGCTCTA TCACGCCTTC GTGTTTCTGA TTGTCTTGGG GTGTTTGATC 
TTAGCTGTCC TGACAACTTT CAAGGAGTAT GAAACTGTTT CAGGAGACTG GCTTCTCTTG 
CTGGAAACTT TTGCCATTTT CATCTTTGGA GCAGAGTTTG CCTTAAGAAT CTGGGCTGCT 
GGGTGTTGCT GTCGCTACAA AGGATGGAGG GGGAGACTCA AATTTGCCAG GAAGCCTTTG 
TGCATGCTGG ATATCTTTGT GCTGATTGCT TCGGTGCCTG TGGTGGCTGT TGGGAACCAG 
GGCAATGTTC TGGCCACATC TCTCAGAAGC CTCCGCTTCC TTCAGATCCT ACGGATGCTC 
CGAATGGACA GGCGGGGCGG GACATGGAAA CTTTTGGGAT CAGCCATTTG TGCACATAGC 
AAAGAGCTCA TCACTGCTTG GTACATTGGG TTCCTGACAC TCATCCTATC TTCATTTCTT 
GTTTATCTGG TTGAAAAAGA TGTTCCTGAA AAGGATGCTA ATGGGGTAGA GATGAAGGAA 
GAGTTTGAAA CCTATGCAGA TGCACTGTGG TGGGGACTGA TCACCCTGGC TACCATTGGT 
TATGGTGACA AGACCCCCAA AACATGGGAG GGCCGGCTGA TTGCAGCTAC ATTCTCTCTC 
ATTGGAGTCT CCTTCTTTGC TCTTCCTGCA GGCATTTTGG GTTCAGGGCT GGCACTGAAG 
GTCCAGGAGC AGCATCGTCA AAAGCATTTT GAGAAAAGAA GAAAGCCAGC AGCTGAACTC 
ATTCAGGCTG CTTGGAGATA CTATGCTACA AACCCCAACA GGATTGATCT AGTTGCTACC 
TGGAGGTTTT ATGAATCAAT TGTATCATTT CCATTTTTCA GGAAAGAGCA ATTGGATGGT 
ACTGCCAGCC AAAAGCTGGG TCTCTTGGAT CGGGTTCGTG GTACCAATAC TAAAGGAAAG 
CTATTTACCC CTCTGAATGT AGATGCCATT GAAGAAAGTC CTTCAAAAGA GCCTAAGAAT 
GTTGTCTTGA ATAATAAGGA GCGTTTTCGC ACAGCATTCC GAATGAAAGC GTACGCCTTT 
TGGCAGAGCT CAGAAGATGC AGGAACAGGG GAACCCATGG CAGAAGAGAG AGGAGACAGT 
GGTGACTTCC TTATGGAAGA CATGATCCCC ACATTCAAGA CAGCCATCCG AGCTGTCAGA 
ATACTACAGT TTCGTCTTTA CAAAAAAAAA TTCAAGGAGA CTTTGAGGCC TTATGATGTA 
AAGGATGTGA TAGAGCAATA CTCAGCAGGG CATCTTGATA TGCTTTCCAG AATAAAGTAT 
CTTCAGGCAA GAGTAGATAT GATTTTTACA CCTGGACCTC CATCTACTCC CAAGCATAAG 
AAATCCCAAA AGGGAGGAGC TTTTTCTTAC CCTTCACAAC AGTCTCCCAG AAATGAACCG 
TACGTAGCCA AAGCATCTAC AACAGATACT GAAGACCAAA GTATGATGGG CAAATTTGTT 
AAAGTTGAAC GACAGGTTAA TGACATGGGG AGGAAACTGG ATTTTCTTGT TGACATGCAT 
ATGCATCATA TGGAACAGCT ACAAATACAA GTTGCTGAGA TAAGTCCAAT GAAAGAAACT 
GCTTCTCCTG CAAAGGAGAA GAGAGAAGAT AACAAGTATT CTGAATTAAA AACAATAATA 
TATAAATATA CTGAGCAGTG TGCTCATGAA ACTCCTTTCA ATTTCCAGCA GGTTCCAGTC 
AACAAAGTGA GTCCTTATGG TTTCTCAGCA CATGGTCACA CGACTCATTC CCAACCTTTA 
TCATTAGGTG GGCAAAACTC TGCCAAACTG CAAGCTACTC CCTCCTCAAC TTCATATGCA 
GAAAGGCCAA CAGTTTTGCC TATTTTTAAA TTAATGGACT CCCAGGTTAG CTACCACTCA 
CAAGGAGACC TACAAAGCTC TTCCTCAGAC AAGGTGTCTC CAAGGCAGAG AAGGAGCTTA 
ACAAGAGACA GTGATACTCC ATTATCCCTT CTCTCCGTCA ACCATGAGGA ACTTGAGCGC 
TCCCCAAGTG GCTTCAGTAT CTCCCAAGAG AGAGATGACT TCCCCTTTGG CCCCAACGGG 
GGCTCCTCGG CGTGGATGAG AGAGAAGCGG TACCTGGCGG AGGGGGAAAC GGACACAGAC 
ACCGACCCTT TCACACCGAG TGGTTCCATG CCTCTGTCTT CTACAGGAGA TGGGATTTCA 
GATTCCATAT GGACCCCATC AAATAAGCCA GTTTAA