KCTD19 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	KCTD19
Entrez Gene ID	100472855
Full Name	potassium channel tetramerization domain containing 19
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019798858.1	XP_019654417.1	BTB/POZ domain-containing protein KCTD19 isoform X4
XM_019798857.1	XP_019654416.1	BTB/POZ domain-containing protein KCTD19 isoform X3
XM_019798855.1	XP_019654414.1	BTB/POZ domain-containing protein KCTD19 isoform X1
XM_019798856.1	XP_019654415.1	BTB/POZ domain-containing protein KCTD19 isoform X2
XM_019798859.1	XP_019654418.1	BTB/POZ domain-containing protein KCTD19 isoform X5

Pathways from BioSystems
Gene Ontology

The following KCTD19 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KCTD19 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)
OAc92267	XM_019798855.1 Latest version!	Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc92268	XM_019798856.1 Latest version!	Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc92269	XM_019798857.1 Latest version!	Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc92270	XM_019798858.1 Latest version!	Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc92271	XM_019798859.1 Latest version!	Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X5, 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)
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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)

KCTD19 ( XM_019798855.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654414.1 Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc92267
Clone ID Related Accession (Same CDS sequence)	XM_019798855.1
Accession Version	XM_019798855.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2874bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	BTB/POZ domain-containing protein KCTD19 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217546.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCTCAGC GTTTGGAGCT CTTGACTCTG AGACAAGGCA GTGGCCGGCA GGAGGAGCCT 
GGCATGCCTC ATGAATCAGC AGAGGATTTG TTTCATTTCA ACGTTGGGGG CTGGCATTTC 
TCAGTTCCCA GAAGCAAACT TGCTCAGTTT CCAGACTCCC TGCTATGGAA AGAGGCTTCA 
GCCTTGACCT CTTTGGAAAG CCAGAGGCTA TTCATCGACA GAGACGGTTC CACATTTAGG 
CATGTGCACT ATTACCTCTA CACTTCCAAA CTCTCCTTCT CCAGTTGTGC AGAACTGAAC 
TTACTCTATG AGCAAGCACT GGGTTTGCAG CTGATGCCTT TGTTGCAGAC TCTAGATAAT 
CTGAAGGAAG GGAAACACCA CCTACGTGTA CGGCCTGCAG ACATACCTGT TGCTGAGAGA 
GCATCTTTGA ACTACTGGCG AACATGGAAA TGTATCAGCA AACCCTCAGA ATTTCCTATA 
AAAAGCCCCG CCTTCACAGG CCTACATGAT AAGGCACCTT TGGGACTCAT GGACACACCA 
TTGTTAGACA CAGAAGAGGA AGTGCACTAC TGTTTTCTGC CCCTAGACCT AGTGGCCAAG 
TATCCAAGCC TGGTGACTGA AGACAATCTG CTGTGGCTGG CTGAGACTGT GGCCCTAATC 
GAGTGCGAGT GCAGCGAGTT CCGCTTCATT GTGAATTTTC TACGCTCACA GAAGATTTTA 
CTACCAGATA ATTTCTCCAA CATAGATGTG TTAGAAGCAG AAGTGGAAAT TCTGGAAATC 
CCTGAGCTCA CTGAAGCTGT AAGATTGTAC CGGATGAACA TGGGTGGCTG TTCCCGGACC 
TCTTGTCCTC CCCCAAGCCC TGGGAAGGGG GTGCGTGCAG CAGGCCTGGA GTCTGTGAAG 
CCGTTGTACA TGATGGCCCT GGGTCTGCTT GTCAAGTACC CAGACTCCGC ACTGGGACAG 
CTCCGCATCG AGAGCACGCT GGACGGCAGT AGACTGTACA TCACAGGGAA CGGGGTCCTC 
TTTCAGCATG TCAGGAACTG GCTGGGGACT TGTCGGCTGC CTCTGACTGA GACTATTTCC 
GAGGTGTACG AGCTTTGTGC CTTCCTGGAC AAGAGGGACA TCACCTATGA GCCAATGAAA 
GTGGCCCTGA AGACTCATCT GGAGCCGAGG ACTCTGGCAC CCGTGGATGT GCTCAATGAG 
GAGTGGACAG CAGAAATCAC CGTGTATTCC CCCCAACAGA TCATCAAAGT TTACGTCGGA 
AGCCACTGGT ATGCAACCAC CCTGCAGACC TTGCTGAAGT ATCCAGAACT TCTGTGCAAC 
CCTCAAAGAG TGTACTGGAT CACTTACGGG CAGACCCTGC TGATCCACGG GGATGGCCAA 
ATGTTCCGAC ACATTCTCAA CTTCCTGAGA CTTGGAAAAC TGTTTTTACC ATCTGAATTT 
AAGGAATGGC CCCTATTCTG CCAGGAGGTA GAGGAATACC ACATCCCATC CCTCTCAGAA 
GCTCTTGCCC AATGTGAGGC ATACAAGTCA TGGACCCAGG AGAAAGAATC TGAAAATGAA 
GAAGCTTTTC CCATCAGGAG GCTGCATGTG GTGACGGAAG GGCCAGGGTC ACTGGTGCAG 
TTCAGTAGAG ACGCCAAAGA AACCACAGCC TGCATGCCTG TAGACTTCCA AGACTGCAAT 
GACAGGACCC CATGGAACAA GGCCAAGGGG ACCCTGGCCA GATCCAGCCA GATGGAGGAG 
TCTGAGCAGT ACTCCCAGAC CATCCAGGTG TCTCTGTGCC GAGGTGCCAA GAGGGCGGGC 
AATCCCAGCA CATACTCCCA CTGTCCTGGC CTATGTGCCA ACCCTAGATA CTGGGGGGCC 
CACCCTGAGA GTCCTCCCAA GAAGAAATGC ACCACAGTCA ACCTCACACA GAAACCTGAA 
ACCAAAGACC CTCCTGTCAC CCCCATGCAA AAACTCATCT CCCTGGTGAG GGAATGGGAC 
ATGGTCAATT GCAAACAGTG GGAATTCCAG CCACTGCCAG TCCCCCGGAG CAGCTCCATG 
GAGGAGGCTA CCCTGCAGCT CCCTTTGGGA AGTGAGGCTC CTTCCCAGCC CAGCACCTCA 
GCTTCCTGGA AAGGCCATTC CACAGGCTCA GAGAAGGACC TGGGCGCACA GGCAGGGGCT 
GGAGCTGGAG CCAAAGACAA GTGGCCAGAG CCAACCTTTA AGCCGTACTT CCCTGTGAAA 
AGAGCTGTCA CACTGAAGGA CTGGGGCAAG CAGAAGCCAA GAGAGAAAGA AAGCCCTGGC 
CCTGAGCAGC CTCTGCCTGA GGCCAGTGAG GTAGATAATG CAGGGGTCAT CCTCAAAGTG 
GCCCATCCCC CCGTGGTGGG CAGCGATGGC TCCTGCATGT TCTTTGAGGA CAGCATCATC 
TACACCACAC AGATGGACAA CCTCAGGCAT ACACTGACTA CAGCTAGCCC CCAGCCCAGA 
GAGGTGACTT TCCTGAGTTT CTCTCTATCC TGGGAAGAGA TGTTTTATGC ACAAAAATGT 
CACCGCTTCC TGACTGACAT CATCCTGGAT TCCATCAGGC AAAAGGACCC CAAAGCCATG 
ACAGCCAAGG TGGTCTCCCT GACCAACCAG CTGTGGACCC TGCACATCAG CCCCAAGCAG 
TTTGTGGTGG ATTTGCTGGC CATCACCGGC TTCAAGGATG ACCGACACAC CCAGGAACGC 
CTGTACAGCT GGGTGGAGGT GAGGGCCACC TGTACCCCAC TGGGAATGCT GACCCTGTGG 
ACACCTCAAA TGGACACTGT CTTGCTGCAT GAGGGCCATG CAGCACTGCC CAGAAGGCAA 
GGCAGGCAGC TAACCTCTGG TCCCTGGTCC CAAGGAGGGA GAAACAATGG CTGA

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

RefSeq	XP_019654414.1
CDS	280..3153
Translation	MSQRLELLTLRQGSGRQEEPGMPHESAEDLFHFNVGGWHFSVPRSKLAQFPDSLLWKEASALTSLESQRLFIDRDGSTFRHVHYYLYTSKLSFSSCAELNLLYEQALGLQLMPLLQTLDNLKEGKHHLRVRPADIPVAERASLNYWRTWKCISKPSEFPIKSPAFTGLHDKAPLGLMDTPLLDTEEEVHYCFLPLDLVAKYPSLVTEDNLLWLAETVALIECECSEFRFIVNFLRSQKILLPDNFSNIDVLEAEVEILEIPELTEAVRLYRMNMGGCSRTSCPPPSPGKGVRAAGLESVKPLYMMALGLLVKYPDSALGQLRIESTLDGSRLYITGNGVLFQHVRNWLGTCRLPLTETISEVYELCAFLDKRDITYEPMKVALKTHLEPRTLAPVDVLNEEWTAEITVYSPQQIIKVYVGSHWYATTLQTLLKYPELLCNPQRVYWITYGQTLLIHGDGQMFRHILNFLRLGKLFLPSEFKEWPLFCQEVEEYHIPSLSEALAQCEAYKSWTQEKESENEEAFPIRRLHVVTEGPGSLVQFSRDAKETTACMPVDFQDCNDRTPWNKAKGTLARSSQMEESEQYSQTIQVSLCRGAKRAGNPSTYSHCPGLCANPRYWGAHPESPPKKKCTTVNLTQKPETKDPPVTPMQKLISLVREWDMVNCKQWEFQPLPVPRSSSMEEATLQLPLGSEAPSQPSTSASWKGHSTGSEKDLGAQAGAGAGAKDKWPEPTFKPYFPVKRAVTLKDWGKQKPREKESPGPEQPLPEASEVDNAGVILKVAHPPVVGSDGSCMFFEDSIIYTTQMDNLRHTLTTASPQPREVTFLSFSLSWEEMFYAQKCHRFLTDIILDSIRQKDPKAMTAKVVSLTNQLWTLHISPKQFVVDLLAITGFKDDRHTQERLYSWVEVRATCTPLGMLTLWTPQMDTVLLHEGHAALPRRQGRQLTSGPWSQGGRNNG

Target ORF information:

RefSeq Version	XM_019798855.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X1, mRNA.

Target ORF information:

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

XM_019798855.1

ORF Insert Sequence:

ATGTCTCAGC GTTTGGAGCT CTTGACTCTG AGACAAGGCA GTGGCCGGCA GGAGGAGCCT 
GGCATGCCTC ATGAATCAGC AGAGGATTTG TTTCATTTCA ACGTTGGGGG CTGGCATTTC 
TCAGTTCCCA GAAGCAAACT TGCTCAGTTT CCAGACTCCC TGCTATGGAA AGAGGCTTCA 
GCCTTGACCT CTTTGGAAAG CCAGAGGCTA TTCATCGACA GAGACGGTTC CACATTTAGG 
CATGTGCACT ATTACCTCTA CACTTCCAAA CTCTCCTTCT CCAGTTGTGC AGAACTGAAC 
TTACTCTATG AGCAAGCACT GGGTTTGCAG CTGATGCCTT TGTTGCAGAC TCTAGATAAT 
CTGAAGGAAG GGAAACACCA CCTACGTGTA CGGCCTGCAG ACATACCTGT TGCTGAGAGA 
GCATCTTTGA ACTACTGGCG AACATGGAAA TGTATCAGCA AACCCTCAGA ATTTCCTATA 
AAAAGCCCCG CCTTCACAGG CCTACATGAT AAGGCACCTT TGGGACTCAT GGACACACCA 
TTGTTAGACA CAGAAGAGGA AGTGCACTAC TGTTTTCTGC CCCTAGACCT AGTGGCCAAG 
TATCCAAGCC TGGTGACTGA AGACAATCTG CTGTGGCTGG CTGAGACTGT GGCCCTAATC 
GAGTGCGAGT GCAGCGAGTT CCGCTTCATT GTGAATTTTC TACGCTCACA GAAGATTTTA 
CTACCAGATA ATTTCTCCAA CATAGATGTG TTAGAAGCAG AAGTGGAAAT TCTGGAAATC 
CCTGAGCTCA CTGAAGCTGT AAGATTGTAC CGGATGAACA TGGGTGGCTG TTCCCGGACC 
TCTTGTCCTC CCCCAAGCCC TGGGAAGGGG GTGCGTGCAG CAGGCCTGGA GTCTGTGAAG 
CCGTTGTACA TGATGGCCCT GGGTCTGCTT GTCAAGTACC CAGACTCCGC ACTGGGACAG 
CTCCGCATCG AGAGCACGCT GGACGGCAGT AGACTGTACA TCACAGGGAA CGGGGTCCTC 
TTTCAGCATG TCAGGAACTG GCTGGGGACT TGTCGGCTGC CTCTGACTGA GACTATTTCC 
GAGGTGTACG AGCTTTGTGC CTTCCTGGAC AAGAGGGACA TCACCTATGA GCCAATGAAA 
GTGGCCCTGA AGACTCATCT GGAGCCGAGG ACTCTGGCAC CCGTGGATGT GCTCAATGAG 
GAGTGGACAG CAGAAATCAC CGTGTATTCC CCCCAACAGA TCATCAAAGT TTACGTCGGA 
AGCCACTGGT ATGCAACCAC CCTGCAGACC TTGCTGAAGT ATCCAGAACT TCTGTGCAAC 
CCTCAAAGAG TGTACTGGAT CACTTACGGG CAGACCCTGC TGATCCACGG GGATGGCCAA 
ATGTTCCGAC ACATTCTCAA CTTCCTGAGA CTTGGAAAAC TGTTTTTACC ATCTGAATTT 
AAGGAATGGC CCCTATTCTG CCAGGAGGTA GAGGAATACC ACATCCCATC CCTCTCAGAA 
GCTCTTGCCC AATGTGAGGC ATACAAGTCA TGGACCCAGG AGAAAGAATC TGAAAATGAA 
GAAGCTTTTC CCATCAGGAG GCTGCATGTG GTGACGGAAG GGCCAGGGTC ACTGGTGCAG 
TTCAGTAGAG ACGCCAAAGA AACCACAGCC TGCATGCCTG TAGACTTCCA AGACTGCAAT 
GACAGGACCC CATGGAACAA GGCCAAGGGG ACCCTGGCCA GATCCAGCCA GATGGAGGAG 
TCTGAGCAGT ACTCCCAGAC CATCCAGGTG TCTCTGTGCC GAGGTGCCAA GAGGGCGGGC 
AATCCCAGCA CATACTCCCA CTGTCCTGGC CTATGTGCCA ACCCTAGATA CTGGGGGGCC 
CACCCTGAGA GTCCTCCCAA GAAGAAATGC ACCACAGTCA ACCTCACACA GAAACCTGAA 
ACCAAAGACC CTCCTGTCAC CCCCATGCAA AAACTCATCT CCCTGGTGAG GGAATGGGAC 
ATGGTCAATT GCAAACAGTG GGAATTCCAG CCACTGCCAG TCCCCCGGAG CAGCTCCATG 
GAGGAGGCTA CCCTGCAGCT CCCTTTGGGA AGTGAGGCTC CTTCCCAGCC CAGCACCTCA 
GCTTCCTGGA AAGGCCATTC CACAGGCTCA GAGAAGGACC TGGGCGCACA GGCAGGGGCT 
GGAGCTGGAG CCAAAGACAA GTGGCCAGAG CCAACCTTTA AGCCGTACTT CCCTGTGAAA 
AGAGCTGTCA CACTGAAGGA CTGGGGCAAG CAGAAGCCAA GAGAGAAAGA AAGCCCTGGC 
CCTGAGCAGC CTCTGCCTGA GGCCAGTGAG GTAGATAATG CAGGGGTCAT CCTCAAAGTG 
GCCCATCCCC CCGTGGTGGG CAGCGATGGC TCCTGCATGT TCTTTGAGGA CAGCATCATC 
TACACCACAC AGATGGACAA CCTCAGGCAT ACACTGACTA CAGCTAGCCC CCAGCCCAGA 
GAGGTGACTT TCCTGAGTTT CTCTCTATCC TGGGAAGAGA TGTTTTATGC ACAAAAATGT 
CACCGCTTCC TGACTGACAT CATCCTGGAT TCCATCAGGC AAAAGGACCC CAAAGCCATG 
ACAGCCAAGG TGGTCTCCCT GACCAACCAG CTGTGGACCC TGCACATCAG CCCCAAGCAG 
TTTGTGGTGG ATTTGCTGGC CATCACCGGC TTCAAGGATG ACCGACACAC CCAGGAACGC 
CTGTACAGCT GGGTGGAGGT GAGGGCCACC TGTACCCCAC TGGGAATGCT GACCCTGTGG 
ACACCTCAAA TGGACACTGT CTTGCTGCAT GAGGGCCATG CAGCACTGCC CAGAAGGCAA 
GGCAGGCAGC TAACCTCTGG TCCCTGGTCC CAAGGAGGGA GAAACAATGG CTGA

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

KCTD19 ( XM_019798856.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654415.1 Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc92268
Clone ID Related Accession (Same CDS sequence)	XM_019798856.1
Accession Version	XM_019798856.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2832bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	BTB/POZ domain-containing protein KCTD19 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217546.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCTCAGC GTTTGGAGCT CTTGACTCTG AGACAAGGCA GTGGCCGGCA GGAGGAGCCT 
GGCATGCCTC ATGAATCAGC AGAGGATTTG TTTCATTTCA ACGTTGGGGG CTGGCATTTC 
TCAGTTCCCA GAAGCAAACT TGCTCAGTTT CCAGACTCCC TGCTATGGAA AGAGGCTTCA 
GCCTTGACCT CTTTGGAAAG CCAGAGGCTA TTCATCGACA GAGACGGTTC CACATTTAGG 
CATGTGCACT ATTACCTCTA CACTTCCAAA CTCTCCTTCT CCAGTTGTGC AGAACTGAAC 
TTACTCTATG AGCAAGCACT GGGTTTGCAG CTGATGCCTT TGTTGCAGAC TCTAGATAAT 
CTGAAGGAAG GGAAACACCA CCTACGTGTA CGGCCTGCAG ACATACCTGT TGCTGAGAGA 
GCATCTTTGA ACTACTGGCG AACATGGAAA TGTATCAGCA AACCCTCAGA ATTTCCTATA 
AAAAGCCCCG CCTTCACAGG CCTACATGAT AAGGCACCTT TGGGACTCAT GGACACACCA 
TTGTTAGACA CAGAAGAGGA AGTGCACTAC TGTTTTCTGC CCCTAGACCT AGTGGCCAAG 
TATCCAAGCC TGGTGACTGA AGACAATCTG CTGTGGCTGG CTGAGACTGT GGCCCTAATC 
GAGTGCGAGT GCAGCGAGTT CCGCTTCATT GTGAATTTTC TACGCTCACA GAAGATTTTA 
CTACCAGATA ATTTCTCCAA CATAGATGTG TTAGAAGCAG AAGTGGAAAT TCTGGAAATC 
CCTGAGCTCA CTGAAGCTGT AAGATTGTAC CGGATGAACA TGGGTGGCTG TTCCCGGACC 
TCTTGTCCTC CCCCAAGCCC TGGGAAGGGG GTGCGTGCAG CAGGCCTGGA GTCTGTGAAG 
CCGTTGTACA TGATGGCCCT GGGTCTGCTT GTCAAGTACC CAGACTCCGC ACTGGGACAG 
CTCCGCATCG AGAGCACGCT GGACGGCAGT AGACTGTACA TCACAGGGAA CGGGGTCCTC 
TTTCAGCATG TCAGGAACTG GCTGGGGACT TGTCGGCTGC CTCTGACTGA GACTATTTCC 
GAGGTGTACG AGCTTTGTGC CTTCCTGGAC AAGAGGGACA TCACCTATGA GCCAATGAAA 
GTGGCCCTGA AGACTCATCT GGAGCCGAGG ACTCTGGCAC CCGTGGATGT GCTCAATGAG 
GAGTGGACAG CAGAAATCAC CGTGTATTCC CCCCAACAGA TCATCAAAGT TTACGTCGGA 
AGCCACTGGT ATGCAACCAC CCTGCAGACC TTGCTGAAGT ATCCAGAACT TCTGTGCAAC 
CCTCAAAGAG TGTACTGGAT CACTTACGGG CAGACCCTGC TGATCCACGG GGATGGCCAA 
ATGTTCCGAC ACATTCTCAA CTTCCTGAGA CTTGGAAAAC TGTTTTTACC ATCTGAATTT 
AAGGAATGGC CCCTATTCTG CCAGGAGGTA GAGGAATACC ACATCCCATC CCTCTCAGAA 
GCTCTTGCCC AATGTGAGGC ATACAAGTCA TGGACCCAGG AGAAAGAATC TGAAAATGAA 
GAAGCTTTTC CCATCAGGAG GCTGCATGTG GTGACGGAAG GGCCAGGGTC ACTGGTGCAG 
TTCAGTAGAG ACGCCAAAGA AACCACAGCC TGCATGCCTG TAGACTTCCA AGACTGCAAT 
GACAGGACCC CATGGAACAA GGCCAAGGGG ACCCTGGCCA GATCCAGCCA GATGGAGGAG 
TCTGAGCAGT ACTCCCAGAC CATCCAGGTG TCTCTGTGCC GAGGTGCCAA GAGGGCGGGC 
AATCCCAGCA CATACTCCCA CTGTCCTGGC CTATGTGCCA ACCCTAGATA CTGGGGGGCC 
CACCCTGAGA GTCCTCCCAA GAAGAAATGC ACCACAGTCA ACCTCACACA GAAACCTGAA 
ACCAAAGACC CTCCTGTCAC CCCCATGCAA AAACTCATCT CCCTGGTGAG GGAATGGGAC 
ATGGTCAATT GCAAACAGTG GGAATTCCAG CCACTGCCAG TCCCCCGGAG CAGCTCCATG 
GAGGAGGCTA CCCTGCAGCT CCCTTTGGGA AGTGAGGCTC CTTCCCAGCC CAGCACCTCA 
GCTTCCTGGA AAGGCCATTC CACAGGCTCA GAGAAGGACC TGGGCGCACA GGCAGGGGCT 
GGAGCTGGAG CCAAAGACAA GTGGCCAGAG CCAACCTTTA AGCCGTACTT CCCTGTGAAA 
AGAGCTGTCA CACTGAAGGA CTGGGGCAAG CAGAAGCCAA GAGAGAAAGA AAGCCCTGGC 
CCTGAGCAGC CTCTGCCTGA GGCCAGTGAG GTAGATAATG CAGGGGTCAT CCTCAAAGTG 
GCCCATCCCC CCGTGGTGGG CAGCGATGGC TCCTGCATGT TCTTTGAGGA CAGCATCATC 
TACACCACAC AGATGGACAA CCTCAGGCAT ACACTGACTA CAGCTAGCCC CCAGCCCAGA 
GAGGTGACTT TCCTGAGTTT CTCTCTATCC TGGGAAGAGA TGTTTTATGC ACAAAAATGT 
CACCGCTTCC TGACTGACAT CATCCTGGAT TCCATCAGGC AAAAGGACCC CAAAGCCATG 
ACAGCCAAGG TGGTCTCCCT GACCAACCAG CTGTGGACCC TGCACATCAG CCCCAAGCAG 
TTTGTGGTGG ATTTGCTGGC CATCACCGGC TTCAAGGATG ACCGACACAC CCAGGAACGC 
CTGTACAGCT GGGTGGAGCT CACACTGCCT TTCGCCAGGA AATATGGTCG CTGCATGGAC 
CTGCTCATCC AGAGGGGCCT GTCTAGGTCT GTCTCTTACT CTATCCTGGG CAAGTACTTA 
CAAGAGGGCT AG

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

RefSeq	XP_019654415.1
CDS	280..3111
Translation	MSQRLELLTLRQGSGRQEEPGMPHESAEDLFHFNVGGWHFSVPRSKLAQFPDSLLWKEASALTSLESQRLFIDRDGSTFRHVHYYLYTSKLSFSSCAELNLLYEQALGLQLMPLLQTLDNLKEGKHHLRVRPADIPVAERASLNYWRTWKCISKPSEFPIKSPAFTGLHDKAPLGLMDTPLLDTEEEVHYCFLPLDLVAKYPSLVTEDNLLWLAETVALIECECSEFRFIVNFLRSQKILLPDNFSNIDVLEAEVEILEIPELTEAVRLYRMNMGGCSRTSCPPPSPGKGVRAAGLESVKPLYMMALGLLVKYPDSALGQLRIESTLDGSRLYITGNGVLFQHVRNWLGTCRLPLTETISEVYELCAFLDKRDITYEPMKVALKTHLEPRTLAPVDVLNEEWTAEITVYSPQQIIKVYVGSHWYATTLQTLLKYPELLCNPQRVYWITYGQTLLIHGDGQMFRHILNFLRLGKLFLPSEFKEWPLFCQEVEEYHIPSLSEALAQCEAYKSWTQEKESENEEAFPIRRLHVVTEGPGSLVQFSRDAKETTACMPVDFQDCNDRTPWNKAKGTLARSSQMEESEQYSQTIQVSLCRGAKRAGNPSTYSHCPGLCANPRYWGAHPESPPKKKCTTVNLTQKPETKDPPVTPMQKLISLVREWDMVNCKQWEFQPLPVPRSSSMEEATLQLPLGSEAPSQPSTSASWKGHSTGSEKDLGAQAGAGAGAKDKWPEPTFKPYFPVKRAVTLKDWGKQKPREKESPGPEQPLPEASEVDNAGVILKVAHPPVVGSDGSCMFFEDSIIYTTQMDNLRHTLTTASPQPREVTFLSFSLSWEEMFYAQKCHRFLTDIILDSIRQKDPKAMTAKVVSLTNQLWTLHISPKQFVVDLLAITGFKDDRHTQERLYSWVELTLPFARKYGRCMDLLIQRGLSRSVSYSILGKYLQEG

Target ORF information:

RefSeq Version	XM_019798856.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X2, mRNA.

Target ORF information:

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

XM_019798856.1

ORF Insert Sequence:

ATGTCTCAGC GTTTGGAGCT CTTGACTCTG AGACAAGGCA GTGGCCGGCA GGAGGAGCCT 
GGCATGCCTC ATGAATCAGC AGAGGATTTG TTTCATTTCA ACGTTGGGGG CTGGCATTTC 
TCAGTTCCCA GAAGCAAACT TGCTCAGTTT CCAGACTCCC TGCTATGGAA AGAGGCTTCA 
GCCTTGACCT CTTTGGAAAG CCAGAGGCTA TTCATCGACA GAGACGGTTC CACATTTAGG 
CATGTGCACT ATTACCTCTA CACTTCCAAA CTCTCCTTCT CCAGTTGTGC AGAACTGAAC 
TTACTCTATG AGCAAGCACT GGGTTTGCAG CTGATGCCTT TGTTGCAGAC TCTAGATAAT 
CTGAAGGAAG GGAAACACCA CCTACGTGTA CGGCCTGCAG ACATACCTGT TGCTGAGAGA 
GCATCTTTGA ACTACTGGCG AACATGGAAA TGTATCAGCA AACCCTCAGA ATTTCCTATA 
AAAAGCCCCG CCTTCACAGG CCTACATGAT AAGGCACCTT TGGGACTCAT GGACACACCA 
TTGTTAGACA CAGAAGAGGA AGTGCACTAC TGTTTTCTGC CCCTAGACCT AGTGGCCAAG 
TATCCAAGCC TGGTGACTGA AGACAATCTG CTGTGGCTGG CTGAGACTGT GGCCCTAATC 
GAGTGCGAGT GCAGCGAGTT CCGCTTCATT GTGAATTTTC TACGCTCACA GAAGATTTTA 
CTACCAGATA ATTTCTCCAA CATAGATGTG TTAGAAGCAG AAGTGGAAAT TCTGGAAATC 
CCTGAGCTCA CTGAAGCTGT AAGATTGTAC CGGATGAACA TGGGTGGCTG TTCCCGGACC 
TCTTGTCCTC CCCCAAGCCC TGGGAAGGGG GTGCGTGCAG CAGGCCTGGA GTCTGTGAAG 
CCGTTGTACA TGATGGCCCT GGGTCTGCTT GTCAAGTACC CAGACTCCGC ACTGGGACAG 
CTCCGCATCG AGAGCACGCT GGACGGCAGT AGACTGTACA TCACAGGGAA CGGGGTCCTC 
TTTCAGCATG TCAGGAACTG GCTGGGGACT TGTCGGCTGC CTCTGACTGA GACTATTTCC 
GAGGTGTACG AGCTTTGTGC CTTCCTGGAC AAGAGGGACA TCACCTATGA GCCAATGAAA 
GTGGCCCTGA AGACTCATCT GGAGCCGAGG ACTCTGGCAC CCGTGGATGT GCTCAATGAG 
GAGTGGACAG CAGAAATCAC CGTGTATTCC CCCCAACAGA TCATCAAAGT TTACGTCGGA 
AGCCACTGGT ATGCAACCAC CCTGCAGACC TTGCTGAAGT ATCCAGAACT TCTGTGCAAC 
CCTCAAAGAG TGTACTGGAT CACTTACGGG CAGACCCTGC TGATCCACGG GGATGGCCAA 
ATGTTCCGAC ACATTCTCAA CTTCCTGAGA CTTGGAAAAC TGTTTTTACC ATCTGAATTT 
AAGGAATGGC CCCTATTCTG CCAGGAGGTA GAGGAATACC ACATCCCATC CCTCTCAGAA 
GCTCTTGCCC AATGTGAGGC ATACAAGTCA TGGACCCAGG AGAAAGAATC TGAAAATGAA 
GAAGCTTTTC CCATCAGGAG GCTGCATGTG GTGACGGAAG GGCCAGGGTC ACTGGTGCAG 
TTCAGTAGAG ACGCCAAAGA AACCACAGCC TGCATGCCTG TAGACTTCCA AGACTGCAAT 
GACAGGACCC CATGGAACAA GGCCAAGGGG ACCCTGGCCA GATCCAGCCA GATGGAGGAG 
TCTGAGCAGT ACTCCCAGAC CATCCAGGTG TCTCTGTGCC GAGGTGCCAA GAGGGCGGGC 
AATCCCAGCA CATACTCCCA CTGTCCTGGC CTATGTGCCA ACCCTAGATA CTGGGGGGCC 
CACCCTGAGA GTCCTCCCAA GAAGAAATGC ACCACAGTCA ACCTCACACA GAAACCTGAA 
ACCAAAGACC CTCCTGTCAC CCCCATGCAA AAACTCATCT CCCTGGTGAG GGAATGGGAC 
ATGGTCAATT GCAAACAGTG GGAATTCCAG CCACTGCCAG TCCCCCGGAG CAGCTCCATG 
GAGGAGGCTA CCCTGCAGCT CCCTTTGGGA AGTGAGGCTC CTTCCCAGCC CAGCACCTCA 
GCTTCCTGGA AAGGCCATTC CACAGGCTCA GAGAAGGACC TGGGCGCACA GGCAGGGGCT 
GGAGCTGGAG CCAAAGACAA GTGGCCAGAG CCAACCTTTA AGCCGTACTT CCCTGTGAAA 
AGAGCTGTCA CACTGAAGGA CTGGGGCAAG CAGAAGCCAA GAGAGAAAGA AAGCCCTGGC 
CCTGAGCAGC CTCTGCCTGA GGCCAGTGAG GTAGATAATG CAGGGGTCAT CCTCAAAGTG 
GCCCATCCCC CCGTGGTGGG CAGCGATGGC TCCTGCATGT TCTTTGAGGA CAGCATCATC 
TACACCACAC AGATGGACAA CCTCAGGCAT ACACTGACTA CAGCTAGCCC CCAGCCCAGA 
GAGGTGACTT TCCTGAGTTT CTCTCTATCC TGGGAAGAGA TGTTTTATGC ACAAAAATGT 
CACCGCTTCC TGACTGACAT CATCCTGGAT TCCATCAGGC AAAAGGACCC CAAAGCCATG 
ACAGCCAAGG TGGTCTCCCT GACCAACCAG CTGTGGACCC TGCACATCAG CCCCAAGCAG 
TTTGTGGTGG ATTTGCTGGC CATCACCGGC TTCAAGGATG ACCGACACAC CCAGGAACGC 
CTGTACAGCT GGGTGGAGCT CACACTGCCT TTCGCCAGGA AATATGGTCG CTGCATGGAC 
CTGCTCATCC AGAGGGGCCT GTCTAGGTCT GTCTCTTACT CTATCCTGGG CAAGTACTTA 
CAAGAGGGCT AG

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

KCTD19 ( XM_019798857.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654416.1 Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAc92269
Clone ID Related Accession (Same CDS sequence)	XM_019798857.1
Accession Version	XM_019798857.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2826bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	BTB/POZ domain-containing protein KCTD19 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217546.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGAGC CTGGCATGCC TCATGAATCA GCAGAGGATT TGTTTCATTT CAACGTTGGG 
GGCTGGCATT TCTCAGTTCC CAGAAGCAAA CTTGCTCAGT TTCCAGACTC CCTGCTATGG 
AAAGAGGCTT CAGCCTTGAC CTCTTTGGAA AGCCAGAGGC TATTCATCGA CAGAGACGGT 
TCCACATTTA GGCATGTGCA CTATTACCTC TACACTTCCA AACTCTCCTT CTCCAGTTGT 
GCAGAACTGA ACTTACTCTA TGAGCAAGCA CTGGGTTTGC AGCTGATGCC TTTGTTGCAG 
ACTCTAGATA ATCTGAAGGA AGGGAAACAC CACCTACGTG TACGGCCTGC AGACATACCT 
GTTGCTGAGA GAGCATCTTT GAACTACTGG CGAACATGGA AATGTATCAG CAAACCCTCA 
GAATTTCCTA TAAAAAGCCC CGCCTTCACA GGCCTACATG ATAAGGCACC TTTGGGACTC 
ATGGACACAC CATTGTTAGA CACAGAAGAG GAAGTGCACT ACTGTTTTCT GCCCCTAGAC 
CTAGTGGCCA AGTATCCAAG CCTGGTGACT GAAGACAATC TGCTGTGGCT GGCTGAGACT 
GTGGCCCTAA TCGAGTGCGA GTGCAGCGAG TTCCGCTTCA TTGTGAATTT TCTACGCTCA 
CAGAAGATTT TACTACCAGA TAATTTCTCC AACATAGATG TGTTAGAAGC AGAAGTGGAA 
ATTCTGGAAA TCCCTGAGCT CACTGAAGCT GTAAGATTGT ACCGGATGAA CATGGGTGGC 
TGTTCCCGGA CCTCTTGTCC TCCCCCAAGC CCTGGGAAGG GGGTGCGTGC AGCAGGCCTG 
GAGTCTGTGA AGCCGTTGTA CATGATGGCC CTGGGTCTGC TTGTCAAGTA CCCAGACTCC 
GCACTGGGAC AGCTCCGCAT CGAGAGCACG CTGGACGGCA GTAGACTGTA CATCACAGGG 
AACGGGGTCC TCTTTCAGCA TGTCAGGAAC TGGCTGGGGA CTTGTCGGCT GCCTCTGACT 
GAGACTATTT CCGAGGTGTA CGAGCTTTGT GCCTTCCTGG ACAAGAGGGA CATCACCTAT 
GAGCCAATGA AAGTGGCCCT GAAGACTCAT CTGGAGCCGA GGACTCTGGC ACCCGTGGAT 
GTGCTCAATG AGGAGTGGAC AGCAGAAATC ACCGTGTATT CCCCCCAACA GATCATCAAA 
GTTTACGTCG GAAGCCACTG GTATGCAACC ACCCTGCAGA CCTTGCTGAA GTATCCAGAA 
CTTCTGTGCA ACCCTCAAAG AGTGTACTGG ATCACTTACG GGCAGACCCT GCTGATCCAC 
GGGGATGGCC AAATGTTCCG ACACATTCTC AACTTCCTGA GACTTGGAAA ACTGTTTTTA 
CCATCTGAAT TTAAGGAATG GCCCCTATTC TGCCAGGAGG TAGAGGAATA CCACATCCCA 
TCCCTCTCAG AAGCTCTTGC CCAATGTGAG GCATACAAGT CATGGACCCA GGAGAAAGAA 
TCTGAAAATG AAGAAGCTTT TCCCATCAGG AGGCTGCATG TGGTGACGGA AGGGCCAGGG 
TCACTGGTGC AGTTCAGTAG AGACGCCAAA GAAACCACAG CCTGCATGCC TGTAGACTTC 
CAAGACTGCA ATGACAGGAC CCCATGGAAC AAGGCCAAGG GGACCCTGGC CAGATCCAGC 
CAGATGGAGG AGTCTGAGCA GTACTCCCAG ACCATCCAGG TGTCTCTGTG CCGAGGTGCC 
AAGAGGGCGG GCAATCCCAG CACATACTCC CACTGTCCTG GCCTATGTGC CAACCCTAGA 
TACTGGGGGG CCCACCCTGA GAGTCCTCCC AAGAAGAAAT GCACCACAGT CAACCTCACA 
CAGAAACCTG AAACCAAAGA CCCTCCTGTC ACCCCCATGC AAAAACTCAT CTCCCTGGTG 
AGGGAATGGG ACATGGTCAA TTGCAAACAG TGGGAATTCC AGCCACTGCC AGTCCCCCGG 
AGCAGCTCCA TGGAGGAGGC TACCCTGCAG CTCCCTTTGG GAAGTGAGGC TCCTTCCCAG 
CCCAGCACCT CAGCTTCCTG GAAAGGCCAT TCCACAGGCT CAGAGAAGGA CCTGGGCGCA 
CAGGCAGGGG CTGGAGCTGG AGCCAAAGAC AAGTGGCCAG AGCCAACCTT TAAGCCGTAC 
TTCCCTGTGA AAAGAGCTGT CACACTGAAG GACTGGGGCA AGCAGAAGCC AAGAGAGAAA 
GAAAGCCCTG GCCCTGAGCA GCCTCTGCCT GAGGCCAGTG AGGTAGATAA TGCAGGGGTC 
ATCCTCAAAG TGGCCCATCC CCCCGTGGTG GGCAGCGATG GCTCCTGCAT GTTCTTTGAG 
GACAGCATCA TCTACACCAC ACAGATGGAC AACCTCAGGC ATACACTGAC TACAGCTAGC 
CCCCAGCCCA GAGAGGTGAC TTTCCTGAGT TTCTCTCTAT CCTGGGAAGA GATGTTTTAT 
GCACAAAAAT GTCACCGCTT CCTGACTGAC ATCATCCTGG ATTCCATCAG GCAAAAGGAC 
CCCAAAGCCA TGACAGCCAA GGTGGTCTCC CTGACCAACC AGCTGTGGAC CCTGCACATC 
AGCCCCAAGC AGTTTGTGGT GGATTTGCTG GCCATCACCG GCTTCAAGGA TGACCGACAC 
ACCCAGGAAC GCCTGTACAG CTGGGTGGAG GTGAGGGCCA CCTGTACCCC ACTGGGAATG 
CTGACCCTGT GGACACCTCA AATGGACACT GTCTTGCTGC ATGAGGGCCA TGCAGCACTG 
CCCAGAAGGC AAGGCAGGCA GCTAACCTCT GGTCCCTGGT CCCAAGGAGG GAGAAACAAT 
GGCTGA

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

RefSeq	XP_019654416.1
CDS	46..2871
Translation	MEEPGMPHESAEDLFHFNVGGWHFSVPRSKLAQFPDSLLWKEASALTSLESQRLFIDRDGSTFRHVHYYLYTSKLSFSSCAELNLLYEQALGLQLMPLLQTLDNLKEGKHHLRVRPADIPVAERASLNYWRTWKCISKPSEFPIKSPAFTGLHDKAPLGLMDTPLLDTEEEVHYCFLPLDLVAKYPSLVTEDNLLWLAETVALIECECSEFRFIVNFLRSQKILLPDNFSNIDVLEAEVEILEIPELTEAVRLYRMNMGGCSRTSCPPPSPGKGVRAAGLESVKPLYMMALGLLVKYPDSALGQLRIESTLDGSRLYITGNGVLFQHVRNWLGTCRLPLTETISEVYELCAFLDKRDITYEPMKVALKTHLEPRTLAPVDVLNEEWTAEITVYSPQQIIKVYVGSHWYATTLQTLLKYPELLCNPQRVYWITYGQTLLIHGDGQMFRHILNFLRLGKLFLPSEFKEWPLFCQEVEEYHIPSLSEALAQCEAYKSWTQEKESENEEAFPIRRLHVVTEGPGSLVQFSRDAKETTACMPVDFQDCNDRTPWNKAKGTLARSSQMEESEQYSQTIQVSLCRGAKRAGNPSTYSHCPGLCANPRYWGAHPESPPKKKCTTVNLTQKPETKDPPVTPMQKLISLVREWDMVNCKQWEFQPLPVPRSSSMEEATLQLPLGSEAPSQPSTSASWKGHSTGSEKDLGAQAGAGAGAKDKWPEPTFKPYFPVKRAVTLKDWGKQKPREKESPGPEQPLPEASEVDNAGVILKVAHPPVVGSDGSCMFFEDSIIYTTQMDNLRHTLTTASPQPREVTFLSFSLSWEEMFYAQKCHRFLTDIILDSIRQKDPKAMTAKVVSLTNQLWTLHISPKQFVVDLLAITGFKDDRHTQERLYSWVEVRATCTPLGMLTLWTPQMDTVLLHEGHAALPRRQGRQLTSGPWSQGGRNNG

Target ORF information:

RefSeq Version	XM_019798857.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X3, mRNA.

Target ORF information:

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

XM_019798857.1

ORF Insert Sequence:

ATGGAGGAGC CTGGCATGCC TCATGAATCA GCAGAGGATT TGTTTCATTT CAACGTTGGG 
GGCTGGCATT TCTCAGTTCC CAGAAGCAAA CTTGCTCAGT TTCCAGACTC CCTGCTATGG 
AAAGAGGCTT CAGCCTTGAC CTCTTTGGAA AGCCAGAGGC TATTCATCGA CAGAGACGGT 
TCCACATTTA GGCATGTGCA CTATTACCTC TACACTTCCA AACTCTCCTT CTCCAGTTGT 
GCAGAACTGA ACTTACTCTA TGAGCAAGCA CTGGGTTTGC AGCTGATGCC TTTGTTGCAG 
ACTCTAGATA ATCTGAAGGA AGGGAAACAC CACCTACGTG TACGGCCTGC AGACATACCT 
GTTGCTGAGA GAGCATCTTT GAACTACTGG CGAACATGGA AATGTATCAG CAAACCCTCA 
GAATTTCCTA TAAAAAGCCC CGCCTTCACA GGCCTACATG ATAAGGCACC TTTGGGACTC 
ATGGACACAC CATTGTTAGA CACAGAAGAG GAAGTGCACT ACTGTTTTCT GCCCCTAGAC 
CTAGTGGCCA AGTATCCAAG CCTGGTGACT GAAGACAATC TGCTGTGGCT GGCTGAGACT 
GTGGCCCTAA TCGAGTGCGA GTGCAGCGAG TTCCGCTTCA TTGTGAATTT TCTACGCTCA 
CAGAAGATTT TACTACCAGA TAATTTCTCC AACATAGATG TGTTAGAAGC AGAAGTGGAA 
ATTCTGGAAA TCCCTGAGCT CACTGAAGCT GTAAGATTGT ACCGGATGAA CATGGGTGGC 
TGTTCCCGGA CCTCTTGTCC TCCCCCAAGC CCTGGGAAGG GGGTGCGTGC AGCAGGCCTG 
GAGTCTGTGA AGCCGTTGTA CATGATGGCC CTGGGTCTGC TTGTCAAGTA CCCAGACTCC 
GCACTGGGAC AGCTCCGCAT CGAGAGCACG CTGGACGGCA GTAGACTGTA CATCACAGGG 
AACGGGGTCC TCTTTCAGCA TGTCAGGAAC TGGCTGGGGA CTTGTCGGCT GCCTCTGACT 
GAGACTATTT CCGAGGTGTA CGAGCTTTGT GCCTTCCTGG ACAAGAGGGA CATCACCTAT 
GAGCCAATGA AAGTGGCCCT GAAGACTCAT CTGGAGCCGA GGACTCTGGC ACCCGTGGAT 
GTGCTCAATG AGGAGTGGAC AGCAGAAATC ACCGTGTATT CCCCCCAACA GATCATCAAA 
GTTTACGTCG GAAGCCACTG GTATGCAACC ACCCTGCAGA CCTTGCTGAA GTATCCAGAA 
CTTCTGTGCA ACCCTCAAAG AGTGTACTGG ATCACTTACG GGCAGACCCT GCTGATCCAC 
GGGGATGGCC AAATGTTCCG ACACATTCTC AACTTCCTGA GACTTGGAAA ACTGTTTTTA 
CCATCTGAAT TTAAGGAATG GCCCCTATTC TGCCAGGAGG TAGAGGAATA CCACATCCCA 
TCCCTCTCAG AAGCTCTTGC CCAATGTGAG GCATACAAGT CATGGACCCA GGAGAAAGAA 
TCTGAAAATG AAGAAGCTTT TCCCATCAGG AGGCTGCATG TGGTGACGGA AGGGCCAGGG 
TCACTGGTGC AGTTCAGTAG AGACGCCAAA GAAACCACAG CCTGCATGCC TGTAGACTTC 
CAAGACTGCA ATGACAGGAC CCCATGGAAC AAGGCCAAGG GGACCCTGGC CAGATCCAGC 
CAGATGGAGG AGTCTGAGCA GTACTCCCAG ACCATCCAGG TGTCTCTGTG CCGAGGTGCC 
AAGAGGGCGG GCAATCCCAG CACATACTCC CACTGTCCTG GCCTATGTGC CAACCCTAGA 
TACTGGGGGG CCCACCCTGA GAGTCCTCCC AAGAAGAAAT GCACCACAGT CAACCTCACA 
CAGAAACCTG AAACCAAAGA CCCTCCTGTC ACCCCCATGC AAAAACTCAT CTCCCTGGTG 
AGGGAATGGG ACATGGTCAA TTGCAAACAG TGGGAATTCC AGCCACTGCC AGTCCCCCGG 
AGCAGCTCCA TGGAGGAGGC TACCCTGCAG CTCCCTTTGG GAAGTGAGGC TCCTTCCCAG 
CCCAGCACCT CAGCTTCCTG GAAAGGCCAT TCCACAGGCT CAGAGAAGGA CCTGGGCGCA 
CAGGCAGGGG CTGGAGCTGG AGCCAAAGAC AAGTGGCCAG AGCCAACCTT TAAGCCGTAC 
TTCCCTGTGA AAAGAGCTGT CACACTGAAG GACTGGGGCA AGCAGAAGCC AAGAGAGAAA 
GAAAGCCCTG GCCCTGAGCA GCCTCTGCCT GAGGCCAGTG AGGTAGATAA TGCAGGGGTC 
ATCCTCAAAG TGGCCCATCC CCCCGTGGTG GGCAGCGATG GCTCCTGCAT GTTCTTTGAG 
GACAGCATCA TCTACACCAC ACAGATGGAC AACCTCAGGC ATACACTGAC TACAGCTAGC 
CCCCAGCCCA GAGAGGTGAC TTTCCTGAGT TTCTCTCTAT CCTGGGAAGA GATGTTTTAT 
GCACAAAAAT GTCACCGCTT CCTGACTGAC ATCATCCTGG ATTCCATCAG GCAAAAGGAC 
CCCAAAGCCA TGACAGCCAA GGTGGTCTCC CTGACCAACC AGCTGTGGAC CCTGCACATC 
AGCCCCAAGC AGTTTGTGGT GGATTTGCTG GCCATCACCG GCTTCAAGGA TGACCGACAC 
ACCCAGGAAC GCCTGTACAG CTGGGTGGAG GTGAGGGCCA CCTGTACCCC ACTGGGAATG 
CTGACCCTGT GGACACCTCA AATGGACACT GTCTTGCTGC ATGAGGGCCA TGCAGCACTG 
CCCAGAAGGC AAGGCAGGCA GCTAACCTCT GGTCCCTGGT CCCAAGGAGG GAGAAACAAT 
GGCTGA

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

KCTD19 ( XM_019798858.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654417.1 Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAc92270
Clone ID Related Accession (Same CDS sequence)	XM_019798858.1
Accession Version	XM_019798858.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2823bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	BTB/POZ domain-containing protein KCTD19 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217546.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCTCAGC GTTTGGAGCT CTTGACTCTG AGACAAGGCA GTGGCCGGCA GGAGGAGCCT 
GGCATGCCTC ATGAATCAGC AGAGGATTTG TTTCATTTCA ACGTTGGGGG CTGGCATTTC 
TCAGTTCCCA GAAGCAAACT TGCTCAGTTT CCAGACTCCC TGCTATGGAA AGAGGCTTCA 
GCCTTGACCT CTTTGGAAAG CCAGAGGCTA TTCATCGACA GAGACGGTTC CACATTTAGG 
CATGTGCACT ATTACCTCTA CACTTCCAAA CTCTCCTTCT CCAGTTGTGC AGAACTGAAC 
TTACTCTATG AGCAAGCACT GGGTTTGCAG CTGATGCCTT TGTTGCAGAC TCTAGATAAT 
CTGAAGGAAG GGAAACACCA CCTACGTGTA CGGCCTGCAG ACATACCTGT TGCTGAGAGA 
GCATCTTTGA ACTACTGGCG AACATGGAAA TGTATCAGCA AACCCTCAGA ATTTCCTATA 
AAAAGCCCCG CCTTCACAGG CCTACATGAT AAGGCACCTT TGGGACTCAT GGACACACCA 
TTGTTAGACA CAGAAGAGGA AGTGCACTAC TGTTTTCTGC CCCTAGACCT AGTGGCCAAG 
TATCCAAGCC TGGTGACTGA AGACAATCTG CTGTGGCTGG CTGAGACTGT GGCCCTAATC 
GAGTGCGAGT GCAGCGAGTT CCGCTTCATT GTGAATTTTC TACGCTCACA GAAGATTTTA 
CTACCAGATA ATTTCTCCAA CATAGATGTG TTAGAAGCAG AAGTGGAAAT TCTGGAAATC 
CCTGAGCTCA CTGAAGCTGT AAGATTGTAC CGGATGAACA TGGGTGGCTG TTCCCGGACC 
TCTTGTCCTC CCCCAAGCCC TGGGAAGGGG GTGCGTGCAG CAGGCCTGGA GTCTGTGAAG 
CCGTTGTACA TGATGGCCCT GGGTCTGCTT GTCAAGTACC CAGACTCCGC ACTGGGACAG 
CTCCGCATCG AGAGCACGCT GGACGGCAGT AGACTGTACA TCACAGGGAA CGGGGTCCTC 
TTTCAGCATG TCAGGAACTG GCTGGGGACT TGTCGGCTGC CTCTGACTGA GACTATTTCC 
GAGGTGTACG AGCTTTGTGC CTTCCTGGAC AAGAGGGACA TCACCTATGA GCCAATGAAA 
GTGGCCCTGA AGACTCATCT GGAGCCGAGG ACTCTGGCAC CCGTGGATGT GCTCAATGAG 
GAGTGGACAG CAGAAATCAC CGTGTATTCC CCCCAACAGA TCATCAAAGT TTACGTCGGA 
AGCCACTGGT ATGCAACCAC CCTGCAGACC TTGCTGAAGT ATCCAGAACT TCTGTGCAAC 
CCTCAAAGAG TGTACTGGAT CACTTACGGG CAGACCCTGC TGATCCACGG GGATGGCCAA 
ATGTTCCGAC ACATTCTCAA CTTCCTGAGA CTTGGAAAAC TGTTTTTACC ATCTGAATTT 
AAGGAATGGC CCCTATTCTG CCAGGAGGTA GAGGAATACC ACATCCCATC CCTCTCAGAA 
GCTCTTGCCC AATGTGAGGC ATACAAGAGG CTGCATGTGG TGACGGAAGG GCCAGGGTCA 
CTGGTGCAGT TCAGTAGAGA CGCCAAAGAA ACCACAGCCT GCATGCCTGT AGACTTCCAA 
GACTGCAATG ACAGGACCCC ATGGAACAAG GCCAAGGGGA CCCTGGCCAG ATCCAGCCAG 
ATGGAGGAGT CTGAGCAGTA CTCCCAGACC ATCCAGGTGT CTCTGTGCCG AGGTGCCAAG 
AGGGCGGGCA ATCCCAGCAC ATACTCCCAC TGTCCTGGCC TATGTGCCAA CCCTAGATAC 
TGGGGGGCCC ACCCTGAGAG TCCTCCCAAG AAGAAATGCA CCACAGTCAA CCTCACACAG 
AAACCTGAAA CCAAAGACCC TCCTGTCACC CCCATGCAAA AACTCATCTC CCTGGTGAGG 
GAATGGGACA TGGTCAATTG CAAACAGTGG GAATTCCAGC CACTGCCAGT CCCCCGGAGC 
AGCTCCATGG AGGAGGCTAC CCTGCAGCTC CCTTTGGGAA GTGAGGCTCC TTCCCAGCCC 
AGCACCTCAG CTTCCTGGAA AGGCCATTCC ACAGGCTCAG AGAAGGACCT GGGCGCACAG 
GCAGGGGCTG GAGCTGGAGC CAAAGACAAG TGGCCAGAGC CAACCTTTAA GCCGTACTTC 
CCTGTGAAAA GAGCTGTCAC ACTGAAGGAC TGGGGCAAGC AGAAGCCAAG AGAGAAAGAA 
AGCCCTGGCC CTGAGCAGCC TCTGCCTGAG GCCAGTGAGG TAGATAATGC AGGGGTCATC 
CTCAAAGTGG CCCATCCCCC CGTGGTGGGC AGCGATGGCT CCTGCATGTT CTTTGAGGAC 
AGCATCATCT ACACCACACA GATGGACAAC CTCAGGCATA CACTGACTAC AGCTAGCCCC 
CAGCCCAGAG AGGTGACTTT CCTGAGTTTC TCTCTATCCT GGGAAGAGAT GTTTTATGCA 
CAAAAATGTC ACCGCTTCCT GACTGACATC ATCCTGGATT CCATCAGGCA AAAGGACCCC 
AAAGCCATGA CAGCCAAGGT GGTCTCCCTG ACCAACCAGC TGTGGACCCT GCACATCAGC 
CCCAAGCAGT TTGTGGTGGA TTTGCTGGCC ATCACCGGCT TCAAGGATGA CCGACACACC 
CAGGAACGCC TGTACAGCTG GGTGGAGGTG AGGGCCACCT GTACCCCACT GGGAATGCTG 
ACCCTGTGGA CACCTCAAAT GGACACTGTC TTGCTGCATG AGGGCCATGC AGCACTGCCC 
AGAAGGCAAG GCAGGCAGCT AACCTCTGGT CCCTGGTCCC AAGGAGGGAG AAACAATGGC 
TGA

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

RefSeq	XP_019654417.1
CDS	280..3102
Translation	MSQRLELLTLRQGSGRQEEPGMPHESAEDLFHFNVGGWHFSVPRSKLAQFPDSLLWKEASALTSLESQRLFIDRDGSTFRHVHYYLYTSKLSFSSCAELNLLYEQALGLQLMPLLQTLDNLKEGKHHLRVRPADIPVAERASLNYWRTWKCISKPSEFPIKSPAFTGLHDKAPLGLMDTPLLDTEEEVHYCFLPLDLVAKYPSLVTEDNLLWLAETVALIECECSEFRFIVNFLRSQKILLPDNFSNIDVLEAEVEILEIPELTEAVRLYRMNMGGCSRTSCPPPSPGKGVRAAGLESVKPLYMMALGLLVKYPDSALGQLRIESTLDGSRLYITGNGVLFQHVRNWLGTCRLPLTETISEVYELCAFLDKRDITYEPMKVALKTHLEPRTLAPVDVLNEEWTAEITVYSPQQIIKVYVGSHWYATTLQTLLKYPELLCNPQRVYWITYGQTLLIHGDGQMFRHILNFLRLGKLFLPSEFKEWPLFCQEVEEYHIPSLSEALAQCEAYKRLHVVTEGPGSLVQFSRDAKETTACMPVDFQDCNDRTPWNKAKGTLARSSQMEESEQYSQTIQVSLCRGAKRAGNPSTYSHCPGLCANPRYWGAHPESPPKKKCTTVNLTQKPETKDPPVTPMQKLISLVREWDMVNCKQWEFQPLPVPRSSSMEEATLQLPLGSEAPSQPSTSASWKGHSTGSEKDLGAQAGAGAGAKDKWPEPTFKPYFPVKRAVTLKDWGKQKPREKESPGPEQPLPEASEVDNAGVILKVAHPPVVGSDGSCMFFEDSIIYTTQMDNLRHTLTTASPQPREVTFLSFSLSWEEMFYAQKCHRFLTDIILDSIRQKDPKAMTAKVVSLTNQLWTLHISPKQFVVDLLAITGFKDDRHTQERLYSWVEVRATCTPLGMLTLWTPQMDTVLLHEGHAALPRRQGRQLTSGPWSQGGRNNG

Target ORF information:

RefSeq Version	XM_019798858.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X4, mRNA.

Target ORF information:

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

XM_019798858.1

ORF Insert Sequence:

ATGTCTCAGC GTTTGGAGCT CTTGACTCTG AGACAAGGCA GTGGCCGGCA GGAGGAGCCT 
GGCATGCCTC ATGAATCAGC AGAGGATTTG TTTCATTTCA ACGTTGGGGG CTGGCATTTC 
TCAGTTCCCA GAAGCAAACT TGCTCAGTTT CCAGACTCCC TGCTATGGAA AGAGGCTTCA 
GCCTTGACCT CTTTGGAAAG CCAGAGGCTA TTCATCGACA GAGACGGTTC CACATTTAGG 
CATGTGCACT ATTACCTCTA CACTTCCAAA CTCTCCTTCT CCAGTTGTGC AGAACTGAAC 
TTACTCTATG AGCAAGCACT GGGTTTGCAG CTGATGCCTT TGTTGCAGAC TCTAGATAAT 
CTGAAGGAAG GGAAACACCA CCTACGTGTA CGGCCTGCAG ACATACCTGT TGCTGAGAGA 
GCATCTTTGA ACTACTGGCG AACATGGAAA TGTATCAGCA AACCCTCAGA ATTTCCTATA 
AAAAGCCCCG CCTTCACAGG CCTACATGAT AAGGCACCTT TGGGACTCAT GGACACACCA 
TTGTTAGACA CAGAAGAGGA AGTGCACTAC TGTTTTCTGC CCCTAGACCT AGTGGCCAAG 
TATCCAAGCC TGGTGACTGA AGACAATCTG CTGTGGCTGG CTGAGACTGT GGCCCTAATC 
GAGTGCGAGT GCAGCGAGTT CCGCTTCATT GTGAATTTTC TACGCTCACA GAAGATTTTA 
CTACCAGATA ATTTCTCCAA CATAGATGTG TTAGAAGCAG AAGTGGAAAT TCTGGAAATC 
CCTGAGCTCA CTGAAGCTGT AAGATTGTAC CGGATGAACA TGGGTGGCTG TTCCCGGACC 
TCTTGTCCTC CCCCAAGCCC TGGGAAGGGG GTGCGTGCAG CAGGCCTGGA GTCTGTGAAG 
CCGTTGTACA TGATGGCCCT GGGTCTGCTT GTCAAGTACC CAGACTCCGC ACTGGGACAG 
CTCCGCATCG AGAGCACGCT GGACGGCAGT AGACTGTACA TCACAGGGAA CGGGGTCCTC 
TTTCAGCATG TCAGGAACTG GCTGGGGACT TGTCGGCTGC CTCTGACTGA GACTATTTCC 
GAGGTGTACG AGCTTTGTGC CTTCCTGGAC AAGAGGGACA TCACCTATGA GCCAATGAAA 
GTGGCCCTGA AGACTCATCT GGAGCCGAGG ACTCTGGCAC CCGTGGATGT GCTCAATGAG 
GAGTGGACAG CAGAAATCAC CGTGTATTCC CCCCAACAGA TCATCAAAGT TTACGTCGGA 
AGCCACTGGT ATGCAACCAC CCTGCAGACC TTGCTGAAGT ATCCAGAACT TCTGTGCAAC 
CCTCAAAGAG TGTACTGGAT CACTTACGGG CAGACCCTGC TGATCCACGG GGATGGCCAA 
ATGTTCCGAC ACATTCTCAA CTTCCTGAGA CTTGGAAAAC TGTTTTTACC ATCTGAATTT 
AAGGAATGGC CCCTATTCTG CCAGGAGGTA GAGGAATACC ACATCCCATC CCTCTCAGAA 
GCTCTTGCCC AATGTGAGGC ATACAAGAGG CTGCATGTGG TGACGGAAGG GCCAGGGTCA 
CTGGTGCAGT TCAGTAGAGA CGCCAAAGAA ACCACAGCCT GCATGCCTGT AGACTTCCAA 
GACTGCAATG ACAGGACCCC ATGGAACAAG GCCAAGGGGA CCCTGGCCAG ATCCAGCCAG 
ATGGAGGAGT CTGAGCAGTA CTCCCAGACC ATCCAGGTGT CTCTGTGCCG AGGTGCCAAG 
AGGGCGGGCA ATCCCAGCAC ATACTCCCAC TGTCCTGGCC TATGTGCCAA CCCTAGATAC 
TGGGGGGCCC ACCCTGAGAG TCCTCCCAAG AAGAAATGCA CCACAGTCAA CCTCACACAG 
AAACCTGAAA CCAAAGACCC TCCTGTCACC CCCATGCAAA AACTCATCTC CCTGGTGAGG 
GAATGGGACA TGGTCAATTG CAAACAGTGG GAATTCCAGC CACTGCCAGT CCCCCGGAGC 
AGCTCCATGG AGGAGGCTAC CCTGCAGCTC CCTTTGGGAA GTGAGGCTCC TTCCCAGCCC 
AGCACCTCAG CTTCCTGGAA AGGCCATTCC ACAGGCTCAG AGAAGGACCT GGGCGCACAG 
GCAGGGGCTG GAGCTGGAGC CAAAGACAAG TGGCCAGAGC CAACCTTTAA GCCGTACTTC 
CCTGTGAAAA GAGCTGTCAC ACTGAAGGAC TGGGGCAAGC AGAAGCCAAG AGAGAAAGAA 
AGCCCTGGCC CTGAGCAGCC TCTGCCTGAG GCCAGTGAGG TAGATAATGC AGGGGTCATC 
CTCAAAGTGG CCCATCCCCC CGTGGTGGGC AGCGATGGCT CCTGCATGTT CTTTGAGGAC 
AGCATCATCT ACACCACACA GATGGACAAC CTCAGGCATA CACTGACTAC AGCTAGCCCC 
CAGCCCAGAG AGGTGACTTT CCTGAGTTTC TCTCTATCCT GGGAAGAGAT GTTTTATGCA 
CAAAAATGTC ACCGCTTCCT GACTGACATC ATCCTGGATT CCATCAGGCA AAAGGACCCC 
AAAGCCATGA CAGCCAAGGT GGTCTCCCTG ACCAACCAGC TGTGGACCCT GCACATCAGC 
CCCAAGCAGT TTGTGGTGGA TTTGCTGGCC ATCACCGGCT TCAAGGATGA CCGACACACC 
CAGGAACGCC TGTACAGCTG GGTGGAGGTG AGGGCCACCT GTACCCCACT GGGAATGCTG 
ACCCTGTGGA CACCTCAAAT GGACACTGTC TTGCTGCATG AGGGCCATGC AGCACTGCCC 
AGAAGGCAAG GCAGGCAGCT AACCTCTGGT CCCTGGTCCC AAGGAGGGAG AAACAATGGC 
TGA

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

KCTD19 ( XM_019798859.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654418.1 Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X5, mRNA.

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CloneID	OAc92271
Clone ID Related Accession (Same CDS sequence)	XM_019798859.1
Accession Version	XM_019798859.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2730bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	BTB/POZ domain-containing protein KCTD19 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217546.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCTCAGC GTTTGGAGCT CTTGACTCTG AGACAAGGCA GTGGCCGGCA GGAGGAGCCT 
GGCATGCCTC ATGAATCAGC AGAGGATTTG TTTCATTTCA ACGTTGGGGG CTGGCATTTC 
TCAGTTCCCA GAAGCAAACT TGCTCAGTTT CCAGACTCCC TGCTATGGAA AGAGGCTTCA 
GCCTTGACCT CTTTGGAAAG CCAGAGGCTA TTCATCGACA GAGACGGTTC CACATTTAGG 
CATGTGCACT ATTACCTCTA CACTTCCAAA CTCTCCTTCT CCAGTTGTGC AGAACTGAAC 
TTACTCTATG AGCAAGCACT GGGTTTGCAG CTGATGCCTT TGTTGCAGAC TCTAGATAAT 
CTGAAGGAAG GGAAACACCA CCTACGTGTA CGGCCTGCAG ACATACCTGT TGCTGAGAGA 
GCATCTTTGA ACTACTGGCG AACATGGAAA TGTATCAGCA AACCCTCAGA ATTTCCTATA 
AAAAGCCCCG CCTTCACAGG CCTACATGAT AAGGCACCTT TGGGACTCAT GGACACACCA 
TTGTTAGACA CAGAAGAGGA AGTGCACTAC TGTTTTCTGC CCCTAGACCT AGTGGCCAAG 
TATCCAAGCC TGGTGACTGA AGACAATCTG CTGTGGCTGG CTGAGACTGT GGCCCTAATC 
GAGTGCGAGT GCAGCGAGTT CCGCTTCATT GTGAATTTTC TACGCTCACA GAAGATTTTA 
CTACCAGATA ATTTCTCCAA CATAGATGTG TTAGAAGCAG AAGTGGAAAT TCTGGAAATC 
CCTGAGCTCA CTGAAGCTGT AAGATTGTAC CGGATGAACA TGGGTGGCTG TTCCCGGACC 
TCTTGTCCTC CCCCAAGCCC TGGGAAGGGG GTGCGTGCAG CAGGCCTGGA GTCTGTGAAG 
CCGTTGTACA TGATGGCCCT GGGTCTGCTT GTCAAGTACC CAGACTCCGC ACTGGGACAG 
CTCCGCATCG AGAGCACGCT GGACGGCAGT AGACTGTACA TCACAGGGAA CGGGGTCCTC 
TTTCAGCATG TCAGGAACTG GCTGGGGACT TGTCGGCTGC CTCTGACTGA GACTATTTCC 
GAGGTGTACG AGCTTTGTGC CTTCCTGGAC AAGAGGGACA TCACCTATGA GCCAATGAAA 
GTGGCCCTGA AGACTCATCT GGAGCCGAGG ACTCTGGCAC CCGTGGATGT GCTCAATGAG 
GAGTGGACAG CAGAAATCAC CGTGTATTCC CCCCAACAGA TCATCAAAGT TTACGTCGGA 
AGCCACTGGT ATGCAACCAC CCTGCAGACC TTGCTGAAGT ATCCAGAACT TCTGTGCAAC 
CCTCAAAGAG TGTACTGGAT CACTTACGGG CAGACCCTGC TGATCCACGG GGATGGCCAA 
ATGTTCCGAC ACATTCTCAA CTTCCTGAGA CTTGGAAAAC TGTTTTTACC ATCTGAATTT 
AAGGAATGGC CCCTATTCTG CCAGGAGGTA GAGGAATACC ACATCCCATC CCTCTCAGAA 
GCTCTTGCCC AATGTGAGGC ATACAAGTCA TGGACCCAGG AGAAAGAATC TGAAAATGAA 
GAAGCTTTTC CCATCAGGAG GCTGCATGTG GTGACGGAAG GGCCAGGGTC ACTGGTGCAG 
TTCAGTAGAG ACGCCAAAGA AACCACAGCC TGCATGCCTG TAGACTTCCA AGACTGCAAT 
GACAGGACCC CATGGAACAA GGCCAAGGGG ACCCTGGCCA GATCCAGCCA GATGGAGGAG 
TCTGAGCAGT ACTCCCAGAC CATCCAGGTG TCTCTGTGCC GAGGTGCCAA GAGGGCGGGC 
AATCCCAGCA CATACTCCCA CTGTCCTGGC CTATGTGCCA ACCCTAGATA CTGGGGGGCC 
CACCCTGAGA GTCCTCCCAA GAAGAAATGC ACCACAGTCA ACCTCACACA GAAACCTGAA 
ACCAAAGACC CTCCTGTCAC CCCCATGCAA AAACTCATCT CCCTGGTGAG GGAATGGGAC 
ATGGTCAATT GCAAACAGTG GGAATTCCAG CCACTGCCAG TCCCCCGGAG CAGCTCCATG 
GAGGAGGCTA CCCTGCAGCT CCCTTTGGGA AGTGAGGCTC CTTCCCAGCC CAGCACCTCA 
GCTTCCTGGA AAGGCCATTC CACAGGCTCA GAGAAGGACC TGGGCGCACA GGCAGGGGCT 
GGAGCTGGAG CCAAAGACAA GTGGCCAGAG CCAACCTTTA AGCCGTACTT CCCTGTGAAA 
AGAGCTGTCA CACTGAAGGA CTGGGGCAAG CAGAAGCCAA GAGAGAAAGA AAGCCCTGGC 
CCTGAGCAGC CTCTGCCTGA GGCCAGTGAG GTAGATAATG CAGGGGTCAT CCTCAAAGTG 
GCCCATCCCC CCGTGGTGGG CAGCGATGGC TCCTGCATGT TCTTTGAGGA CAGCATCATC 
TACACCACAC AGATGGACAA CCTCAGGCAT ACACTGACTA CAGCTAGCCC CCAGCCCAGA 
GAGGTGACTT TCCTGAGTTT CTCTCTATCC TGGGAAGAGA TGTTTTATGC ACAAAAATGT 
CACCGCTTCC TGACTGACAT CATCCTGGAT TCCATCAGGC AAAAGGACCC CAAAGCCATG 
ACAGCCAAGG TGGTCTCCCT GACCAACCAG CTGTGGCTCA CACTGCCTTT CGCCAGGAAA 
TATGGTCGCT GCATGGACCT GCTCATCCAG AGGGGCCTGT CTAGGTCTGT CTCTTACTCT 
ATCCTGGGCA AGTACTTACA AGAGGGCTAG

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

RefSeq	XP_019654418.1
CDS	280..3009
Translation	MSQRLELLTLRQGSGRQEEPGMPHESAEDLFHFNVGGWHFSVPRSKLAQFPDSLLWKEASALTSLESQRLFIDRDGSTFRHVHYYLYTSKLSFSSCAELNLLYEQALGLQLMPLLQTLDNLKEGKHHLRVRPADIPVAERASLNYWRTWKCISKPSEFPIKSPAFTGLHDKAPLGLMDTPLLDTEEEVHYCFLPLDLVAKYPSLVTEDNLLWLAETVALIECECSEFRFIVNFLRSQKILLPDNFSNIDVLEAEVEILEIPELTEAVRLYRMNMGGCSRTSCPPPSPGKGVRAAGLESVKPLYMMALGLLVKYPDSALGQLRIESTLDGSRLYITGNGVLFQHVRNWLGTCRLPLTETISEVYELCAFLDKRDITYEPMKVALKTHLEPRTLAPVDVLNEEWTAEITVYSPQQIIKVYVGSHWYATTLQTLLKYPELLCNPQRVYWITYGQTLLIHGDGQMFRHILNFLRLGKLFLPSEFKEWPLFCQEVEEYHIPSLSEALAQCEAYKSWTQEKESENEEAFPIRRLHVVTEGPGSLVQFSRDAKETTACMPVDFQDCNDRTPWNKAKGTLARSSQMEESEQYSQTIQVSLCRGAKRAGNPSTYSHCPGLCANPRYWGAHPESPPKKKCTTVNLTQKPETKDPPVTPMQKLISLVREWDMVNCKQWEFQPLPVPRSSSMEEATLQLPLGSEAPSQPSTSASWKGHSTGSEKDLGAQAGAGAGAKDKWPEPTFKPYFPVKRAVTLKDWGKQKPREKESPGPEQPLPEASEVDNAGVILKVAHPPVVGSDGSCMFFEDSIIYTTQMDNLRHTLTTASPQPREVTFLSFSLSWEEMFYAQKCHRFLTDIILDSIRQKDPKAMTAKVVSLTNQLWLTLPFARKYGRCMDLLIQRGLSRSVSYSILGKYLQEG

Target ORF information:

RefSeq Version	XM_019798859.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca potassium channel tetramerization domain containing 19 (KCTD19), transcript variant X5, mRNA.

Target ORF information:

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

XM_019798859.1

ORF Insert Sequence:

ATGTCTCAGC GTTTGGAGCT CTTGACTCTG AGACAAGGCA GTGGCCGGCA GGAGGAGCCT 
GGCATGCCTC ATGAATCAGC AGAGGATTTG TTTCATTTCA ACGTTGGGGG CTGGCATTTC 
TCAGTTCCCA GAAGCAAACT TGCTCAGTTT CCAGACTCCC TGCTATGGAA AGAGGCTTCA 
GCCTTGACCT CTTTGGAAAG CCAGAGGCTA TTCATCGACA GAGACGGTTC CACATTTAGG 
CATGTGCACT ATTACCTCTA CACTTCCAAA CTCTCCTTCT CCAGTTGTGC AGAACTGAAC 
TTACTCTATG AGCAAGCACT GGGTTTGCAG CTGATGCCTT TGTTGCAGAC TCTAGATAAT 
CTGAAGGAAG GGAAACACCA CCTACGTGTA CGGCCTGCAG ACATACCTGT TGCTGAGAGA 
GCATCTTTGA ACTACTGGCG AACATGGAAA TGTATCAGCA AACCCTCAGA ATTTCCTATA 
AAAAGCCCCG CCTTCACAGG CCTACATGAT AAGGCACCTT TGGGACTCAT GGACACACCA 
TTGTTAGACA CAGAAGAGGA AGTGCACTAC TGTTTTCTGC CCCTAGACCT AGTGGCCAAG 
TATCCAAGCC TGGTGACTGA AGACAATCTG CTGTGGCTGG CTGAGACTGT GGCCCTAATC 
GAGTGCGAGT GCAGCGAGTT CCGCTTCATT GTGAATTTTC TACGCTCACA GAAGATTTTA 
CTACCAGATA ATTTCTCCAA CATAGATGTG TTAGAAGCAG AAGTGGAAAT TCTGGAAATC 
CCTGAGCTCA CTGAAGCTGT AAGATTGTAC CGGATGAACA TGGGTGGCTG TTCCCGGACC 
TCTTGTCCTC CCCCAAGCCC TGGGAAGGGG GTGCGTGCAG CAGGCCTGGA GTCTGTGAAG 
CCGTTGTACA TGATGGCCCT GGGTCTGCTT GTCAAGTACC CAGACTCCGC ACTGGGACAG 
CTCCGCATCG AGAGCACGCT GGACGGCAGT AGACTGTACA TCACAGGGAA CGGGGTCCTC 
TTTCAGCATG TCAGGAACTG GCTGGGGACT TGTCGGCTGC CTCTGACTGA GACTATTTCC 
GAGGTGTACG AGCTTTGTGC CTTCCTGGAC AAGAGGGACA TCACCTATGA GCCAATGAAA 
GTGGCCCTGA AGACTCATCT GGAGCCGAGG ACTCTGGCAC CCGTGGATGT GCTCAATGAG 
GAGTGGACAG CAGAAATCAC CGTGTATTCC CCCCAACAGA TCATCAAAGT TTACGTCGGA 
AGCCACTGGT ATGCAACCAC CCTGCAGACC TTGCTGAAGT ATCCAGAACT TCTGTGCAAC 
CCTCAAAGAG TGTACTGGAT CACTTACGGG CAGACCCTGC TGATCCACGG GGATGGCCAA 
ATGTTCCGAC ACATTCTCAA CTTCCTGAGA CTTGGAAAAC TGTTTTTACC ATCTGAATTT 
AAGGAATGGC CCCTATTCTG CCAGGAGGTA GAGGAATACC ACATCCCATC CCTCTCAGAA 
GCTCTTGCCC AATGTGAGGC ATACAAGTCA TGGACCCAGG AGAAAGAATC TGAAAATGAA 
GAAGCTTTTC CCATCAGGAG GCTGCATGTG GTGACGGAAG GGCCAGGGTC ACTGGTGCAG 
TTCAGTAGAG ACGCCAAAGA AACCACAGCC TGCATGCCTG TAGACTTCCA AGACTGCAAT 
GACAGGACCC CATGGAACAA GGCCAAGGGG ACCCTGGCCA GATCCAGCCA GATGGAGGAG 
TCTGAGCAGT ACTCCCAGAC CATCCAGGTG TCTCTGTGCC GAGGTGCCAA GAGGGCGGGC 
AATCCCAGCA CATACTCCCA CTGTCCTGGC CTATGTGCCA ACCCTAGATA CTGGGGGGCC 
CACCCTGAGA GTCCTCCCAA GAAGAAATGC ACCACAGTCA ACCTCACACA GAAACCTGAA 
ACCAAAGACC CTCCTGTCAC CCCCATGCAA AAACTCATCT CCCTGGTGAG GGAATGGGAC 
ATGGTCAATT GCAAACAGTG GGAATTCCAG CCACTGCCAG TCCCCCGGAG CAGCTCCATG 
GAGGAGGCTA CCCTGCAGCT CCCTTTGGGA AGTGAGGCTC CTTCCCAGCC CAGCACCTCA 
GCTTCCTGGA AAGGCCATTC CACAGGCTCA GAGAAGGACC TGGGCGCACA GGCAGGGGCT 
GGAGCTGGAG CCAAAGACAA GTGGCCAGAG CCAACCTTTA AGCCGTACTT CCCTGTGAAA 
AGAGCTGTCA CACTGAAGGA CTGGGGCAAG CAGAAGCCAA GAGAGAAAGA AAGCCCTGGC 
CCTGAGCAGC CTCTGCCTGA GGCCAGTGAG GTAGATAATG CAGGGGTCAT CCTCAAAGTG 
GCCCATCCCC CCGTGGTGGG CAGCGATGGC TCCTGCATGT TCTTTGAGGA CAGCATCATC 
TACACCACAC AGATGGACAA CCTCAGGCAT ACACTGACTA CAGCTAGCCC CCAGCCCAGA 
GAGGTGACTT TCCTGAGTTT CTCTCTATCC TGGGAAGAGA TGTTTTATGC ACAAAAATGT 
CACCGCTTCC TGACTGACAT CATCCTGGAT TCCATCAGGC AAAAGGACCC CAAAGCCATG 
ACAGCCAAGG TGGTCTCCCT GACCAACCAG CTGTGGCTCA CACTGCCTTT CGCCAGGAAA 
TATGGTCGCT GCATGGACCT GCTCATCCAG AGGGGCCTGT CTAGGTCTGT CTCTTACTCT 
ATCCTGGGCA AGTACTTACA AGAGGGCTAG

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

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KCTD19 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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