CCDC14 cDNA ORF clone, Pseudopodoces humilis(Tibetan ground-tit)

Gene
Clones
gRNAs

Summary

Gene Symbol	CCDC14
Entrez Gene ID	102099935
Full Name	coiled-coil domain containing 14
Gene Type	protein-coding
Organism	Pseudopodoces humilis(Tibetan ground-tit)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014249250.1	XP_014104725.1	coiled-coil domain-containing protein 14 isoform X2
XM_014249249.1	XP_014104724.1	coiled-coil domain-containing protein 14 isoform X1

Pathways from BioSystems
Gene Ontology

The following CCDC14 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC14 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
OPs09428	XM_014249249.1 Latest version!	Pseudopodoces humilis coiled-coil domain containing 14 (CCDC14), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OPs09429	XM_014249250.1 Latest version!	Pseudopodoces humilis coiled-coil domain containing 14 (CCDC14), transcript variant X2, 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)

CCDC14 ( XM_014249249.1 ) cDNA ORF clone, Pseudopodoces humilis(Tibetan ground-tit) -> XP_014104724.1 Pseudopodoces humilis coiled-coil domain containing 14 (CCDC14), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPs09428
Clone ID Related Accession (Same CDS sequence)	XM_014249249.1
Accession Version	XM_014249249.1 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	2015-09-20
Organism	Pseudopodoces humilis(Tibetan ground-tit)
Product	coiled-coil domain-containing protein 14 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005087560.1) 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 Version :: Pseudopodoces humilis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGCGC CGGGGGCTGC GCGGCCCCGC AAGGCTCTGT CTTCTGGAAG GCTGTCAGGA 
GCAGTTAAAC TAACAAATGG AAGAAATCAG TTTGGCTTAA GGAAAGAATG CCATTCTGAT 
GCAGAATTCT ATTCCACTGA ATCTGACAAT CAGGTTGATA CTATTCAGAA TGGACTTGAC 
CATTGTGCAG CTTTACTGAA GAATATCTTA CAAAAGGAAG CTACAGGAAG GGAGACTGTC 
AATAAACAAC CTGGGAAAAC AGCTACCTGT AAATTTACTT CCAAGCCTTT TCTAACCAAA 
GGAAACACCT CCAAGAAGAA AGGGTTGAAA AGAATCATTA CTCCTGCCCC TGTCCAAAAA 
GAAATTGTGC CAATATTAAA TAGAAAAATT GCCTCATCTA CCACACTTCC TACTGAGAAG 
GAACTTTCCA GTGCAGCAGA GAATCAGATG GTTCAATCAA TTCATGTGCC TTGCAATGAA 
CACTCTCCTG GGGTGTATCA GAAACTGTAT GAGCATGTGC AAACCCAGAT GTCTCTGATA 
ACTGGCCAGC CCACACAGAA GAGTAATGAA ATTCCTGCTG TAACTCCTTA TCCTACCTCG 
AACCAGGGAT GTCAAAATGT TACAGCTTTG AATTACCAGT TACCTACCTC CACATCAGCA 
CTGTCCCTGC AGCATTCAGC TAATCCTTTA TCCACTCATT CTAATATTTT TATGCAGGGT 
GGTCCTGTAG AGAGTGCCAA TGAATGTGTT CCGGAGATGG GAGGACCTGT GGTTTGCCCA 
GTGGTCGCTG CTGCTGCTGC ACAAATACAG TCTGGAACTG CTCCACCTGG TGTGATCCCT 
TGTACAGCAC CTGGAGCATC AACCCCTTCA GTGCCTGCTT TGATCCCAGC ATCCTCTGCC 
AGAGAGATGG CCCCAAGCCA AGAGCAGCAG ATGAAAGAAG CAGATGTGAT GTGGTGCATA 
CAAGCCCTGT TACAATCCAA TGAAATCCTG AATGGCAGGA CTGAACAGAG GAGCCATCAC 
CACTGTCCAG CAAAACATGA TGGCTCATGT GACACAGAGG AGGATACTTC TGAAGAGCAG 
AGTGAGGACA TGGTCAGTGA AGAAGATGAA TTGACTGTAC TTGACGTGTC TCCAGTGAAA 
GATACAAGCT GTAAGACAAG TTATGTGAGG AAAGTTCTAA AATCTAGAAA GGAAAGTCCA 
GAAGAAACAG CCCATAAAGT TAGGACTATA AAGCATCTTA TGGGTGAGCT CAGAGCGCTG 
GTAATAGATC AAGGTGACTC AGAAATGCTG AGGTTGATGA GTGAAATAGA AGACTCTGTA 
TCATTGCTGC CAGCTGTAGT GGGAAGTACA AATATTCAAG CTGAAATAGC TCTGGCTTTG 
CAGCCTCTGC GGAGTGAGAA TGCCCAGCTG CGCAGGAGAC TAAGAATATT AAACCAGCAA 
CTTAGGGGAC AAGAAAGCAG TGAGAAGACA TCTGGACAGA GCTGCAGCTA TGAATTGGTT 
TCTTTGCAGT CCTTGAATAT GATGCTCCAG AGTCAATTAA AAGAATCGCA GAAAGGCCTT 
GATTCACTGC AGGCTAAAAA TGAGGAACTA CTGAAAATAA TAGAAAGTCA GAAAGAAGAA 
AATAAACATC TTGGAAAAGG TATTCAAGAT AAAGAAGAAG AATTGCTAGA AAACAAACAG 
CATTATGACA TTCATTCCAC CAAGCTAAAG ATTGAAGTGG AAGAGGCATT AGGAACTGTG 
AAGAGCCTTC AGTTTAAGCT GGAAGCTTCA GAGAAAGAAA ATAAGATTTT GGGCATAACG 
TTACGTCAGC GTGATGCAGA AGTTAAGAGA TTGAGGGAAT TAACCAGAAC TTTGCAGGGC 
AGCATGGCCA AGCTTCTGTC TGACCTCACA GGGGACAGTG TCAGACCCAA ACCTGAAAAA 
GCTCTCTCAA AGTCTCTTTT GGAAGACCAT GAGAAGCAGA TGCAACCTGA GCTGTTTCCT 
GGGAGTACTT CAGTAATGAC TTACCTTAAA ACATTAGAAA TGGATCATAT TTTGATAGAT 
ACGGATCTTC AATTCCCAAA TAAAATTGGA GAAGTAGAAA TGCAAAATCT GTCCTATGAA 
AAGTTTGCTG CTGAAGGAAG TAAAATTAAC AGTACATTCA CAGAAGAACG AACTTCAGCT 
CCCAAAGGAC CACCAGCTCC ATTGAAGCAA GATGCAGAAA CAGGGAGTGA TTCTGGAACT 
TTACTAGATG ATCAAACCAA GTTGGATGAG ACAATTTATA TTCCACTGAC TAGCAGTGCC 
TCTAAAAAAC AGCAGTCAGT CTCTGGAAGG AGCAGTGTGC TACCCCAGAG CAGAGGGGCT 
TGTCAGAGGC TGGATTACCA CTGTGAGTTT CAAAGCTCTG TGCAGCAGTA TGGATGTGAG 
GATTCAGCTC TACTGGGTAA ATTAAATGCT GGATACAGTG TGAAAAACAG TGTGGAAAAC 
ACACTTGAAG TTACAGGGGA TAAAGCAAAG CCAGAAGGAG ACAAAGTCCA AGTGAGACCA 
AGAGGCATTC CAAGTGGGGC TGCAAAAGAT TTCATGGATA AACCAGACCA GCCTCAGCCT 
GGTACATACC CTTGTGCATC GATGCCATTT CCAACAGGGA TTTCTCAGAA AACAGGCAGT 
AAAGCAGCTG ATTTTAGTTG CATTTCATTT GATGATTTCT CAGGGAGGTC TGACTGGAGT 
GCATCTTCTT TCTCAACATT TACTTCTCGA GATGAAGAAG ACTTTAAAAA TAGCTTAGCA 
GCCTTGGATG CCAACATAGC CAGGTTACAA AGGACTCTGC AAAGTAACAT TAGGAAACAA 
TGA

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

RefSeq	XP_014104724.1
CDS	4..2826
Translation	MAAPGAARPRKALSSGRLSGAVKLTNGRNQFGLRKECHSDAEFYSTESDNQVDTIQNGLDHCAALLKNILQKEATGRETVNKQPGKTATCKFTSKPFLTKGNTSKKKGLKRIITPAPVQKEIVPILNRKIASSTTLPTEKELSSAAENQMVQSIHVPCNEHSPGVYQKLYEHVQTQMSLITGQPTQKSNEIPAVTPYPTSNQGCQNVTALNYQLPTSTSALSLQHSANPLSTHSNIFMQGGPVESANECVPEMGGPVVCPVVAAAAAQIQSGTAPPGVIPCTAPGASTPSVPALIPASSAREMAPSQEQQMKEADVMWCIQALLQSNEILNGRTEQRSHHHCPAKHDGSCDTEEDTSEEQSEDMVSEEDELTVLDVSPVKDTSCKTSYVRKVLKSRKESPEETAHKVRTIKHLMGELRALVIDQGDSEMLRLMSEIEDSVSLLPAVVGSTNIQAEIALALQPLRSENAQLRRRLRILNQQLRGQESSEKTSGQSCSYELVSLQSLNMMLQSQLKESQKGLDSLQAKNEELLKIIESQKEENKHLGKGIQDKEEELLENKQHYDIHSTKLKIEVEEALGTVKSLQFKLEASEKENKILGITLRQRDAEVKRLRELTRTLQGSMAKLLSDLTGDSVRPKPEKALSKSLLEDHEKQMQPELFPGSTSVMTYLKTLEMDHILIDTDLQFPNKIGEVEMQNLSYEKFAAEGSKINSTFTEERTSAPKGPPAPLKQDAETGSDSGTLLDDQTKLDETIYIPLTSSASKKQQSVSGRSSVLPQSRGACQRLDYHCEFQSSVQQYGCEDSALLGKLNAGYSVKNSVENTLEVTGDKAKPEGDKVQVRPRGIPSGAAKDFMDKPDQPQPGTYPCASMPFPTGISQKTGSKAADFSCISFDDFSGRSDWSASSFSTFTSRDEEDFKNSLAALDANIARLQRTLQSNIRKQ

Target ORF information:

RefSeq Version	XM_014249249.1
Organism	Pseudopodoces humilis(Tibetan ground-tit)
Definition	Pseudopodoces humilis coiled-coil domain containing 14 (CCDC14), transcript variant X1, mRNA.

Target ORF information:

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

XM_014249249.1

ORF Insert Sequence:

ATGGCTGCGC CGGGGGCTGC GCGGCCCCGC AAGGCTCTGT CTTCTGGAAG GCTGTCAGGA 
GCAGTTAAAC TAACAAATGG AAGAAATCAG TTTGGCTTAA GGAAAGAATG CCATTCTGAT 
GCAGAATTCT ATTCCACTGA ATCTGACAAT CAGGTTGATA CTATTCAGAA TGGACTTGAC 
CATTGTGCAG CTTTACTGAA GAATATCTTA CAAAAGGAAG CTACAGGAAG GGAGACTGTC 
AATAAACAAC CTGGGAAAAC AGCTACCTGT AAATTTACTT CCAAGCCTTT TCTAACCAAA 
GGAAACACCT CCAAGAAGAA AGGGTTGAAA AGAATCATTA CTCCTGCCCC TGTCCAAAAA 
GAAATTGTGC CAATATTAAA TAGAAAAATT GCCTCATCTA CCACACTTCC TACTGAGAAG 
GAACTTTCCA GTGCAGCAGA GAATCAGATG GTTCAATCAA TTCATGTGCC TTGCAATGAA 
CACTCTCCTG GGGTGTATCA GAAACTGTAT GAGCATGTGC AAACCCAGAT GTCTCTGATA 
ACTGGCCAGC CCACACAGAA GAGTAATGAA ATTCCTGCTG TAACTCCTTA TCCTACCTCG 
AACCAGGGAT GTCAAAATGT TACAGCTTTG AATTACCAGT TACCTACCTC CACATCAGCA 
CTGTCCCTGC AGCATTCAGC TAATCCTTTA TCCACTCATT CTAATATTTT TATGCAGGGT 
GGTCCTGTAG AGAGTGCCAA TGAATGTGTT CCGGAGATGG GAGGACCTGT GGTTTGCCCA 
GTGGTCGCTG CTGCTGCTGC ACAAATACAG TCTGGAACTG CTCCACCTGG TGTGATCCCT 
TGTACAGCAC CTGGAGCATC AACCCCTTCA GTGCCTGCTT TGATCCCAGC ATCCTCTGCC 
AGAGAGATGG CCCCAAGCCA AGAGCAGCAG ATGAAAGAAG CAGATGTGAT GTGGTGCATA 
CAAGCCCTGT TACAATCCAA TGAAATCCTG AATGGCAGGA CTGAACAGAG GAGCCATCAC 
CACTGTCCAG CAAAACATGA TGGCTCATGT GACACAGAGG AGGATACTTC TGAAGAGCAG 
AGTGAGGACA TGGTCAGTGA AGAAGATGAA TTGACTGTAC TTGACGTGTC TCCAGTGAAA 
GATACAAGCT GTAAGACAAG TTATGTGAGG AAAGTTCTAA AATCTAGAAA GGAAAGTCCA 
GAAGAAACAG CCCATAAAGT TAGGACTATA AAGCATCTTA TGGGTGAGCT CAGAGCGCTG 
GTAATAGATC AAGGTGACTC AGAAATGCTG AGGTTGATGA GTGAAATAGA AGACTCTGTA 
TCATTGCTGC CAGCTGTAGT GGGAAGTACA AATATTCAAG CTGAAATAGC TCTGGCTTTG 
CAGCCTCTGC GGAGTGAGAA TGCCCAGCTG CGCAGGAGAC TAAGAATATT AAACCAGCAA 
CTTAGGGGAC AAGAAAGCAG TGAGAAGACA TCTGGACAGA GCTGCAGCTA TGAATTGGTT 
TCTTTGCAGT CCTTGAATAT GATGCTCCAG AGTCAATTAA AAGAATCGCA GAAAGGCCTT 
GATTCACTGC AGGCTAAAAA TGAGGAACTA CTGAAAATAA TAGAAAGTCA GAAAGAAGAA 
AATAAACATC TTGGAAAAGG TATTCAAGAT AAAGAAGAAG AATTGCTAGA AAACAAACAG 
CATTATGACA TTCATTCCAC CAAGCTAAAG ATTGAAGTGG AAGAGGCATT AGGAACTGTG 
AAGAGCCTTC AGTTTAAGCT GGAAGCTTCA GAGAAAGAAA ATAAGATTTT GGGCATAACG 
TTACGTCAGC GTGATGCAGA AGTTAAGAGA TTGAGGGAAT TAACCAGAAC TTTGCAGGGC 
AGCATGGCCA AGCTTCTGTC TGACCTCACA GGGGACAGTG TCAGACCCAA ACCTGAAAAA 
GCTCTCTCAA AGTCTCTTTT GGAAGACCAT GAGAAGCAGA TGCAACCTGA GCTGTTTCCT 
GGGAGTACTT CAGTAATGAC TTACCTTAAA ACATTAGAAA TGGATCATAT TTTGATAGAT 
ACGGATCTTC AATTCCCAAA TAAAATTGGA GAAGTAGAAA TGCAAAATCT GTCCTATGAA 
AAGTTTGCTG CTGAAGGAAG TAAAATTAAC AGTACATTCA CAGAAGAACG AACTTCAGCT 
CCCAAAGGAC CACCAGCTCC ATTGAAGCAA GATGCAGAAA CAGGGAGTGA TTCTGGAACT 
TTACTAGATG ATCAAACCAA GTTGGATGAG ACAATTTATA TTCCACTGAC TAGCAGTGCC 
TCTAAAAAAC AGCAGTCAGT CTCTGGAAGG AGCAGTGTGC TACCCCAGAG CAGAGGGGCT 
TGTCAGAGGC TGGATTACCA CTGTGAGTTT CAAAGCTCTG TGCAGCAGTA TGGATGTGAG 
GATTCAGCTC TACTGGGTAA ATTAAATGCT GGATACAGTG TGAAAAACAG TGTGGAAAAC 
ACACTTGAAG TTACAGGGGA TAAAGCAAAG CCAGAAGGAG ACAAAGTCCA AGTGAGACCA 
AGAGGCATTC CAAGTGGGGC TGCAAAAGAT TTCATGGATA AACCAGACCA GCCTCAGCCT 
GGTACATACC CTTGTGCATC GATGCCATTT CCAACAGGGA TTTCTCAGAA AACAGGCAGT 
AAAGCAGCTG ATTTTAGTTG CATTTCATTT GATGATTTCT CAGGGAGGTC TGACTGGAGT 
GCATCTTCTT TCTCAACATT TACTTCTCGA GATGAAGAAG ACTTTAAAAA TAGCTTAGCA 
GCCTTGGATG CCAACATAGC CAGGTTACAA AGGACTCTGC AAAGTAACAT TAGGAAACAA 
TGA

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

CCDC14 ( XM_014249250.1 ) cDNA ORF clone, Pseudopodoces humilis(Tibetan ground-tit) -> XP_014104725.1 Pseudopodoces humilis coiled-coil domain containing 14 (CCDC14), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPs09429
Clone ID Related Accession (Same CDS sequence)	XM_014249250.1
Accession Version	XM_014249250.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2808bp) 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	2015-09-20
Organism	Pseudopodoces humilis(Tibetan ground-tit)
Product	coiled-coil domain-containing protein 14 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005087560.1) 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 Version :: Pseudopodoces humilis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGCGC CGGGGGCTGC GCGGCCCCGC AAGGCTCTGT CTTCTGGAAG GCTGTCAGGA 
GCAGTTAAAC TAACAAATGG AAGAAATCAG TTTGGCTTAA GGAAAGAATG CCATTCTGAT 
GCAGAATTCT ATTCCACTGA ATCTGACAAT CAGGTTGATA CTATTCAGAA TGGACTTGAC 
CATTGTGCAG CTTTACTGAA GAATATCTTA CAAAAGGAAG CTACAGGAAG GGAGACTGTC 
AATAAACAAC CTGGGAAAAC AGCTACCTGT AAATTTACTT CCAAGCCTTT TCTAACCAAA 
GGAAACACCT CCAAGAAGAA AGGGTTGAAA AGAATCATTA CTCCTGCCCC TGTCCAAAAA 
GAAATTGTGC CAATATTAAA TAGAAAAATT GCCTCATCTA CCACACTTCC TACTGAGAAG 
GAACTTTCCA GTGCAGCAGA GAATCAGATG GTTCAATCAA TTCATGTGCC TTGCAATGAA 
CACTCTCCTG GGGTGTATCA GAAACTGTAT GAGCATGTGC AAACCCAGAT GTCTCTGATA 
ACTGGCCAGC CCACACAGAA GAGTAATGAA ATTCCTGCTG TAACTCCTTA TCCTACCTCG 
AACCAGGGAT GTCAAAATGT TACAGCTTTG AATTACCAGT TACCTACCTC CACATCAGCA 
CTGTCCCTGC AGCATTCAGC TAATCCTTTA TCCACTCATT CTGGTGGTCC TGTAGAGAGT 
GCCAATGAAT GTGTTCCGGA GATGGGAGGA CCTGTGGTTT GCCCAGTGGT CGCTGCTGCT 
GCTGCACAAA TACAGTCTGG AACTGCTCCA CCTGGTGTGA TCCCTTGTAC AGCACCTGGA 
GCATCAACCC CTTCAGTGCC TGCTTTGATC CCAGCATCCT CTGCCAGAGA GATGGCCCCA 
AGCCAAGAGC AGCAGATGAA AGAAGCAGAT GTGATGTGGT GCATACAAGC CCTGTTACAA 
TCCAATGAAA TCCTGAATGG CAGGACTGAA CAGAGGAGCC ATCACCACTG TCCAGCAAAA 
CATGATGGCT CATGTGACAC AGAGGAGGAT ACTTCTGAAG AGCAGAGTGA GGACATGGTC 
AGTGAAGAAG ATGAATTGAC TGTACTTGAC GTGTCTCCAG TGAAAGATAC AAGCTGTAAG 
ACAAGTTATG TGAGGAAAGT TCTAAAATCT AGAAAGGAAA GTCCAGAAGA AACAGCCCAT 
AAAGTTAGGA CTATAAAGCA TCTTATGGGT GAGCTCAGAG CGCTGGTAAT AGATCAAGGT 
GACTCAGAAA TGCTGAGGTT GATGAGTGAA ATAGAAGACT CTGTATCATT GCTGCCAGCT 
GTAGTGGGAA GTACAAATAT TCAAGCTGAA ATAGCTCTGG CTTTGCAGCC TCTGCGGAGT 
GAGAATGCCC AGCTGCGCAG GAGACTAAGA ATATTAAACC AGCAACTTAG GGGACAAGAA 
AGCAGTGAGA AGACATCTGG ACAGAGCTGC AGCTATGAAT TGGTTTCTTT GCAGTCCTTG 
AATATGATGC TCCAGAGTCA ATTAAAAGAA TCGCAGAAAG GCCTTGATTC ACTGCAGGCT 
AAAAATGAGG AACTACTGAA AATAATAGAA AGTCAGAAAG AAGAAAATAA ACATCTTGGA 
AAAGGTATTC AAGATAAAGA AGAAGAATTG CTAGAAAACA AACAGCATTA TGACATTCAT 
TCCACCAAGC TAAAGATTGA AGTGGAAGAG GCATTAGGAA CTGTGAAGAG CCTTCAGTTT 
AAGCTGGAAG CTTCAGAGAA AGAAAATAAG ATTTTGGGCA TAACGTTACG TCAGCGTGAT 
GCAGAAGTTA AGAGATTGAG GGAATTAACC AGAACTTTGC AGGGCAGCAT GGCCAAGCTT 
CTGTCTGACC TCACAGGGGA CAGTGTCAGA CCCAAACCTG AAAAAGCTCT CTCAAAGTCT 
CTTTTGGAAG ACCATGAGAA GCAGATGCAA CCTGAGCTGT TTCCTGGGAG TACTTCAGTA 
ATGACTTACC TTAAAACATT AGAAATGGAT CATATTTTGA TAGATACGGA TCTTCAATTC 
CCAAATAAAA TTGGAGAAGT AGAAATGCAA AATCTGTCCT ATGAAAAGTT TGCTGCTGAA 
GGAAGTAAAA TTAACAGTAC ATTCACAGAA GAACGAACTT CAGCTCCCAA AGGACCACCA 
GCTCCATTGA AGCAAGATGC AGAAACAGGG AGTGATTCTG GAACTTTACT AGATGATCAA 
ACCAAGTTGG ATGAGACAAT TTATATTCCA CTGACTAGCA GTGCCTCTAA AAAACAGCAG 
TCAGTCTCTG GAAGGAGCAG TGTGCTACCC CAGAGCAGAG GGGCTTGTCA GAGGCTGGAT 
TACCACTGTG AGTTTCAAAG CTCTGTGCAG CAGTATGGAT GTGAGGATTC AGCTCTACTG 
GGTAAATTAA ATGCTGGATA CAGTGTGAAA AACAGTGTGG AAAACACACT TGAAGTTACA 
GGGGATAAAG CAAAGCCAGA AGGAGACAAA GTCCAAGTGA GACCAAGAGG CATTCCAAGT 
GGGGCTGCAA AAGATTTCAT GGATAAACCA GACCAGCCTC AGCCTGGTAC ATACCCTTGT 
GCATCGATGC CATTTCCAAC AGGGATTTCT CAGAAAACAG GCAGTAAAGC AGCTGATTTT 
AGTTGCATTT CATTTGATGA TTTCTCAGGG AGGTCTGACT GGAGTGCATC TTCTTTCTCA 
ACATTTACTT CTCGAGATGA AGAAGACTTT AAAAATAGCT TAGCAGCCTT GGATGCCAAC 
ATAGCCAGGT TACAAAGGAC TCTGCAAAGT AACATTAGGA AACAATGA

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

RefSeq	XP_014104725.1
CDS	4..2811
Translation	MAAPGAARPRKALSSGRLSGAVKLTNGRNQFGLRKECHSDAEFYSTESDNQVDTIQNGLDHCAALLKNILQKEATGRETVNKQPGKTATCKFTSKPFLTKGNTSKKKGLKRIITPAPVQKEIVPILNRKIASSTTLPTEKELSSAAENQMVQSIHVPCNEHSPGVYQKLYEHVQTQMSLITGQPTQKSNEIPAVTPYPTSNQGCQNVTALNYQLPTSTSALSLQHSANPLSTHSGGPVESANECVPEMGGPVVCPVVAAAAAQIQSGTAPPGVIPCTAPGASTPSVPALIPASSAREMAPSQEQQMKEADVMWCIQALLQSNEILNGRTEQRSHHHCPAKHDGSCDTEEDTSEEQSEDMVSEEDELTVLDVSPVKDTSCKTSYVRKVLKSRKESPEETAHKVRTIKHLMGELRALVIDQGDSEMLRLMSEIEDSVSLLPAVVGSTNIQAEIALALQPLRSENAQLRRRLRILNQQLRGQESSEKTSGQSCSYELVSLQSLNMMLQSQLKESQKGLDSLQAKNEELLKIIESQKEENKHLGKGIQDKEEELLENKQHYDIHSTKLKIEVEEALGTVKSLQFKLEASEKENKILGITLRQRDAEVKRLRELTRTLQGSMAKLLSDLTGDSVRPKPEKALSKSLLEDHEKQMQPELFPGSTSVMTYLKTLEMDHILIDTDLQFPNKIGEVEMQNLSYEKFAAEGSKINSTFTEERTSAPKGPPAPLKQDAETGSDSGTLLDDQTKLDETIYIPLTSSASKKQQSVSGRSSVLPQSRGACQRLDYHCEFQSSVQQYGCEDSALLGKLNAGYSVKNSVENTLEVTGDKAKPEGDKVQVRPRGIPSGAAKDFMDKPDQPQPGTYPCASMPFPTGISQKTGSKAADFSCISFDDFSGRSDWSASSFSTFTSRDEEDFKNSLAALDANIARLQRTLQSNIRKQ

Target ORF information:

RefSeq Version	XM_014249250.1
Organism	Pseudopodoces humilis(Tibetan ground-tit)
Definition	Pseudopodoces humilis coiled-coil domain containing 14 (CCDC14), transcript variant X2, mRNA.

Target ORF information:

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

XM_014249250.1

ORF Insert Sequence:

ATGGCTGCGC CGGGGGCTGC GCGGCCCCGC AAGGCTCTGT CTTCTGGAAG GCTGTCAGGA 
GCAGTTAAAC TAACAAATGG AAGAAATCAG TTTGGCTTAA GGAAAGAATG CCATTCTGAT 
GCAGAATTCT ATTCCACTGA ATCTGACAAT CAGGTTGATA CTATTCAGAA TGGACTTGAC 
CATTGTGCAG CTTTACTGAA GAATATCTTA CAAAAGGAAG CTACAGGAAG GGAGACTGTC 
AATAAACAAC CTGGGAAAAC AGCTACCTGT AAATTTACTT CCAAGCCTTT TCTAACCAAA 
GGAAACACCT CCAAGAAGAA AGGGTTGAAA AGAATCATTA CTCCTGCCCC TGTCCAAAAA 
GAAATTGTGC CAATATTAAA TAGAAAAATT GCCTCATCTA CCACACTTCC TACTGAGAAG 
GAACTTTCCA GTGCAGCAGA GAATCAGATG GTTCAATCAA TTCATGTGCC TTGCAATGAA 
CACTCTCCTG GGGTGTATCA GAAACTGTAT GAGCATGTGC AAACCCAGAT GTCTCTGATA 
ACTGGCCAGC CCACACAGAA GAGTAATGAA ATTCCTGCTG TAACTCCTTA TCCTACCTCG 
AACCAGGGAT GTCAAAATGT TACAGCTTTG AATTACCAGT TACCTACCTC CACATCAGCA 
CTGTCCCTGC AGCATTCAGC TAATCCTTTA TCCACTCATT CTGGTGGTCC TGTAGAGAGT 
GCCAATGAAT GTGTTCCGGA GATGGGAGGA CCTGTGGTTT GCCCAGTGGT CGCTGCTGCT 
GCTGCACAAA TACAGTCTGG AACTGCTCCA CCTGGTGTGA TCCCTTGTAC AGCACCTGGA 
GCATCAACCC CTTCAGTGCC TGCTTTGATC CCAGCATCCT CTGCCAGAGA GATGGCCCCA 
AGCCAAGAGC AGCAGATGAA AGAAGCAGAT GTGATGTGGT GCATACAAGC CCTGTTACAA 
TCCAATGAAA TCCTGAATGG CAGGACTGAA CAGAGGAGCC ATCACCACTG TCCAGCAAAA 
CATGATGGCT CATGTGACAC AGAGGAGGAT ACTTCTGAAG AGCAGAGTGA GGACATGGTC 
AGTGAAGAAG ATGAATTGAC TGTACTTGAC GTGTCTCCAG TGAAAGATAC AAGCTGTAAG 
ACAAGTTATG TGAGGAAAGT TCTAAAATCT AGAAAGGAAA GTCCAGAAGA AACAGCCCAT 
AAAGTTAGGA CTATAAAGCA TCTTATGGGT GAGCTCAGAG CGCTGGTAAT AGATCAAGGT 
GACTCAGAAA TGCTGAGGTT GATGAGTGAA ATAGAAGACT CTGTATCATT GCTGCCAGCT 
GTAGTGGGAA GTACAAATAT TCAAGCTGAA ATAGCTCTGG CTTTGCAGCC TCTGCGGAGT 
GAGAATGCCC AGCTGCGCAG GAGACTAAGA ATATTAAACC AGCAACTTAG GGGACAAGAA 
AGCAGTGAGA AGACATCTGG ACAGAGCTGC AGCTATGAAT TGGTTTCTTT GCAGTCCTTG 
AATATGATGC TCCAGAGTCA ATTAAAAGAA TCGCAGAAAG GCCTTGATTC ACTGCAGGCT 
AAAAATGAGG AACTACTGAA AATAATAGAA AGTCAGAAAG AAGAAAATAA ACATCTTGGA 
AAAGGTATTC AAGATAAAGA AGAAGAATTG CTAGAAAACA AACAGCATTA TGACATTCAT 
TCCACCAAGC TAAAGATTGA AGTGGAAGAG GCATTAGGAA CTGTGAAGAG CCTTCAGTTT 
AAGCTGGAAG CTTCAGAGAA AGAAAATAAG ATTTTGGGCA TAACGTTACG TCAGCGTGAT 
GCAGAAGTTA AGAGATTGAG GGAATTAACC AGAACTTTGC AGGGCAGCAT GGCCAAGCTT 
CTGTCTGACC TCACAGGGGA CAGTGTCAGA CCCAAACCTG AAAAAGCTCT CTCAAAGTCT 
CTTTTGGAAG ACCATGAGAA GCAGATGCAA CCTGAGCTGT TTCCTGGGAG TACTTCAGTA 
ATGACTTACC TTAAAACATT AGAAATGGAT CATATTTTGA TAGATACGGA TCTTCAATTC 
CCAAATAAAA TTGGAGAAGT AGAAATGCAA AATCTGTCCT ATGAAAAGTT TGCTGCTGAA 
GGAAGTAAAA TTAACAGTAC ATTCACAGAA GAACGAACTT CAGCTCCCAA AGGACCACCA 
GCTCCATTGA AGCAAGATGC AGAAACAGGG AGTGATTCTG GAACTTTACT AGATGATCAA 
ACCAAGTTGG ATGAGACAAT TTATATTCCA CTGACTAGCA GTGCCTCTAA AAAACAGCAG 
TCAGTCTCTG GAAGGAGCAG TGTGCTACCC CAGAGCAGAG GGGCTTGTCA GAGGCTGGAT 
TACCACTGTG AGTTTCAAAG CTCTGTGCAG CAGTATGGAT GTGAGGATTC AGCTCTACTG 
GGTAAATTAA ATGCTGGATA CAGTGTGAAA AACAGTGTGG AAAACACACT TGAAGTTACA 
GGGGATAAAG CAAAGCCAGA AGGAGACAAA GTCCAAGTGA GACCAAGAGG CATTCCAAGT 
GGGGCTGCAA AAGATTTCAT GGATAAACCA GACCAGCCTC AGCCTGGTAC ATACCCTTGT 
GCATCGATGC CATTTCCAAC AGGGATTTCT CAGAAAACAG GCAGTAAAGC AGCTGATTTT 
AGTTGCATTT CATTTGATGA TTTCTCAGGG AGGTCTGACT GGAGTGCATC TTCTTTCTCA 
ACATTTACTT CTCGAGATGA AGAAGACTTT AAAAATAGCT TAGCAGCCTT GGATGCCAAC 
ATAGCCAGGT TACAAAGGAC TCTGCAAAGT AACATTAGGA AACAATGA