CCDC18 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	CCDC18
Entrez Gene ID	100217765
Full Name	coiled-coil domain containing 18
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012575183.1	XP_012430637.1	LOW QUALITY PROTEIN: coiled-coil domain-containing protein 18
XM_012575183.2	XP_012430637.2	coiled-coil domain-containing protein 18

Pathways from BioSystems
Gene Ontology

The following CCDC18 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC18 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
OTd50979	XM_012575183.2 Latest version!	Taeniopygia guttata coiled-coil domain containing 18 (CCDC18), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd14124	XM_012575183.1 Latest version!	Taeniopygia guttata coiled-coil domain containing 18 (CCDC18), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$629.30 $899.00

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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)

CCDC18 ( XM_012575183.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430637.2 Taeniopygia guttata coiled-coil domain containing 18 (CCDC18), mRNA.

Price & Availability↑

CloneID	OTd50979
Clone ID Related Accession (Same CDS sequence)	XM_012575183.2
Accession Version	XM_012575183.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3303bp) 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	2019-08-08
Organism	Taeniopygia guttata(zebra finch)
Product	coiled-coil domain-containing protein 18
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044220.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012575183.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGTTATCGA TGGAATGTAG TATGTGGACT TGCTCTGGAA GTGATGCTGA TGATGACCTG 
CTAGCAAATG TGCAGTCATT ACAGAATCAG CTGAGGAGAA CTGAAAAAAA CCTACAAACT 
GTAGAGAAAG AGCTTTCCAG TACAGGGGAA CATTATGGCC ACTGCTTCAA TGAGGTCATC 
GACGTCCCTC TGGAGGACTT TGTACAGCCC AATTACGATT GCCAAGGCTT TTCCAGCTGT 
AGGAAGAATT CTGGGAGAAC ATTTCACCAG GATTTTCAAA GAAAATGCAA CTCTTACTCT 
GTATCCACAA CTTTGGATAA ACCTGTGGAA GAAAACGAAC AACTTCAGGA GCAGTTGGAT 
GCCCTTCATG AGCAAAATGC ATCTTTGACT TCTCAGAATC GCTACCTGAA GAACAGAGTG 
GAAACAATGA ACTTTGAATT GATGCAGTCA AAAACAAAAA TTTCATATCT TGAGGCTGCT 
TTAGCTACAC ATTTAATCAA CATCCCGAAG TTGAAAGAAC AGATTGTAAA TTTGGAAGCA 
GAAGTTTCAG CTCAAGATAA AATTCTGAAA GATGCAGAAG ATAGACTAGA TCAAAATCGG 
AAAACAGCAA TGGAAAGAGA ACACTTGTTG GAAAGATATC AAAAAGGCTA TAAAGTTCTG 
AAAATTGAGT TAATTGAACA AAGCAAGCAA GGAAAGAGAG CACAACAGCA AAGAAATGAA 
GCTTTGTTGA ACGTGGAGGA GCTGACAAGA GCTTTCATGA AGTATAAAGC AGAAATAACT 
GAAACATTAG AAAAGGCTAA AGCTGAAGAA GTAGTCTTGG GAGAACGTTT AATTAATTGT 
GAAAAAGAAA AAGAGACGCT GAATGAAAAG TGTATCAGCT ATAGAAAGGA TCTAGACATC 
CTAGAAGAGC AGCTAAGACA ATTAAAGGAA GAGAATCACA ACACAAAAGA AGAAATTAAA 
GGTTTAGAGG CAAAGAACAC TGAAATGACA TCAATGCTGA GTCAGTCTGA TCAGAAGATC 
ATCAAGCTTG AGAGTGAACT TTCTGAAAAA GGAGTAGTAC TTGAAGAGAA AAATGCTCTA 
TTAAGTGAAA ATGAAGAGCT GAGAGCACTT ACTGCACAGC AACATAACCA CTTGAAATTA 
TATCGTCAAG AAATAGAGGA TTCAAGGGAA GAGCTCAACA TACTAAAAAC CATTATTTCT 
CAGTTGTCTT TAGGTACATC TGAAGAGTTT AAATGGCACC ATTTCAAACA CCAGCTATTG 
AGTTCCTCAG CAAAAGAAGC TACCTCTGAA TCTTGTGGTG AATCAAGTAA ACCTTTGATT 
GCAGACTTAA GCATTAAACT GGCAATGAAA GAAGCAGAAA ATCAGAAACC TGGGGCAAAC 
TTAACTGTCT GTACTGGAGC TGAGCATCTT TCTAACGGTA TTGAAGGACA AGAAAACAAC 
AGGTTATGTG ACCTGGAAAC AGAGCCTGTC AAATTGATCA GAAATCCAGG AGAGAAGAGA 
AAATGTCAAG AGTTGGAACT TATAAGCAAA CAGTTTGAAA AGGTGAGGCA AAAATTCCAG 
AAAGAGATAG AAGAGCTACG CACTAAACTG ATAAAAGCAG ATGATGAGAA TTCTGCCTTG 
AGGACCAGCA TGGCTCAAAG AACCAGTCAG TTTCAAATCA TACAGGAAGA CCTATTGAAG 
AAGGCTTCAA GAACTAGTAG CTTAGAGAGA GAAATAAGAA AGAAGTCTTC TCAGCTTTCT 
GCACTTGAGA AACAGTTGGA AGAAAAGACT ATTGCTTATT CCACTGCTGC AGAAAGAAAT 
ACTGAGTTGG AACTGGAACT CATGGGAAAA AACAGATGCA TTCATGAGCT GGAAACAACT 
ATCAGTGAAG AACATGAGAA AATAACGTCT GCTTTTGAAA ATGAAAAGTT GCTTCACCTC 
GAGCAGCACA AAGAAATGGA GAAACAAATT GCTCTACTTC GCACACAGCT GGAGAAGAAA 
CAGCAACAAT TCATTGAACA AGATAAAATA ATATCTATTT TACAACAAGA GGTTATAAAC 
AAACAGCATC ACATTGAATC ATTGGATGGG CTGCTAATAG GAAACAGAGA GGAAATGGAA 
AATCAAAATG TCAAGAAAGA TCAAGGACTG AAGATGCTGG AAAGTCAGTT AACAGAAGAA 
AAAATCAAAG TACGACAACT TGAGTCAGCA CTAAAGGTAT GTAAGGAAGA AGTTGCACTG 
TATTTGAGTC AGTCACAAGA AAATAAGGAG ATGTTTGAAA ATCAGCTGAA AGAAAGGTCT 
GAAGAGCTTC ATTATTTACA GAAAGAAATA AAAATTAAAG GTCAGACTAT TCAGGACATG 
AGTGAACAAA ATATTCTCCT GCAACAAACT TTGCATCATC AGCAGCAAAT GTTACAGCAA 
GAAACTATTA GAAATGGGGA GTTGGAAGAT ACTCAAATTA AACTTGAAAA ACAGGTATCC 
AATTTGGAAA AAGAGCTTCA GAAGCAGAAA GCATGTGCAG AAGATGAGTT GAGAAGGGTG 
GAGGAGAAAC TATGCCTAGC TGCTCAGGAA GCAGACTTAA ACAGACAGAA GGTGGATGAA 
CTGAATTGTA CAATAAGCCA GATTAAATTG GAGATGGATC AGTGCAAAAA TGAACTTACT 
GGCATGGAAA AAGAAGTAGT GCAATTACAA CGAGATGGTG CAAACAAAGC ACTGCAGATA 
AATCAGTTGG ATATCACTCT GGAAGAAGCA AGATCAGAGC TCAATAGAAA GGCAAATGAG 
GTGAATGATT TTGAAGATAA GCTGCTTCAA AGCGAGACTT GCCACAGGAA AGCTTTACAG 
AAAATAGCAG AACTGGAATC TGCATTGCAG AATGCCTGTG GGGAATTAAA GATCACTTTA 
ACACAGCTTC AGGAGTTGCA AGGTGCATTA CAGAATGCAC AGTCCTCTCT GGAGGAGAAG 
AACATTGCTA TCATGGATCT ATCAACTGAG CTCAGGTATT GTAAGGATGA AATTGAAGAC 
AAAAAGCAGG AACTCCTTGA CATGGACCAA GCACTGAAAG AAAGGAATTG GGAACTGAAA 
CAAAGAGTAG CTCAGATTAC ACAATTGGAT ATGGCGGTTC GTGAGCATAA GGGAGAAATG 
GAGCAACAAA TAATTCAATT ACAGTGTAAT TTAGAGAAGT CAGAGTTGGA AATTAAGGAA 
TGCAATAAAC AGATTGAGAG CTTAGAGAAG AAACTCCAGC ATTCTAAAGA TGAGCTTCGT 
GAAAAAGAGT TTGAATTGCT CCAGAGAGAT CAGGAAATAA ATCAGCTGAA GAGAAAAAAA 
TGA

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

RefSeq	XP_012430637.2
CDS	31..3333
Translation	MLSMECSMWTCSGSDADDDLLANVQSLQNQLRRTEKNLQTVEKELSSTGEHYGHCFNEVIDVPLEDFVQPNYDCQGFSSCRKNSGRTFHQDFQRKCNSYSVSTTLDKPVEENEQLQEQLDALHEQNASLTSQNRYLKNRVETMNFELMQSKTKISYLEAALATHLINIPKLKEQIVNLEAEVSAQDKILKDAEDRLDQNRKTAMEREHLLERYQKGYKVLKIELIEQSKQGKRAQQQRNEALLNVEELTRAFMKYKAEITETLEKAKAEEVVLGERLINCEKEKETLNEKCISYRKDLDILEEQLRQLKEENHNTKEEIKGLEAKNTEMTSMLSQSDQKIIKLESELSEKGVVLEEKNALLSENEELRALTAQQHNHLKLYRQEIEDSREELNILKTIISQLSLGTSEEFKWHHFKHQLLSSSAKEATSESCGESSKPLIADLSIKLAMKEAENQKPGANLTVCTGAEHLSNGIEGQENNRLCDLETEPVKLIRNPGEKRKCQELELISKQFEKVRQKFQKEIEELRTKLIKADDENSALRTSMAQRTSQFQIIQEDLLKKASRTSSLEREIRKKSSQLSALEKQLEEKTIAYSTAAERNTELELELMGKNRCIHELETTISEEHEKITSAFENEKLLHLEQHKEMEKQIALLRTQLEKKQQQFIEQDKIISILQQEVINKQHHIESLDGLLIGNREEMENQNVKKDQGLKMLESQLTEEKIKVRQLESALKVCKEEVALYLSQSQENKEMFENQLKERSEELHYLQKEIKIKGQTIQDMSEQNILLQQTLHHQQQMLQQETIRNGELEDTQIKLEKQVSNLEKELQKQKACAEDELRRVEEKLCLAAQEADLNRQKVDELNCTISQIKLEMDQCKNELTGMEKEVVQLQRDGANKALQINQLDITLEEARSELNRKANEVNDFEDKLLQSETCHRKALQKIAELESALQNACGELKITLTQLQELQGALQNAQSSLEEKNIAIMDLSTELRYCKDEIEDKKQELLDMDQALKERNWELKQRVAQITQLDMAVREHKGEMEQQIIQLQCNLEKSELEIKECNKQIESLEKKLQHSKDELREKEFELLQRDQEINQLKRKK

Target ORF information:

RefSeq Version	XM_012575183.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata coiled-coil domain containing 18 (CCDC18), mRNA.

Target ORF information:

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

XM_012575183.2

ORF Insert Sequence:

ATGTTATCGA TGGAATGTAG TATGTGGACT TGCTCTGGAA GTGATGCTGA TGATGACCTG 
CTAGCAAATG TGCAGTCATT ACAGAATCAG CTGAGGAGAA CTGAAAAAAA CCTACAAACT 
GTAGAGAAAG AGCTTTCCAG TACAGGGGAA CATTATGGCC ACTGCTTCAA TGAGGTCATC 
GACGTCCCTC TGGAGGACTT TGTACAGCCC AATTACGATT GCCAAGGCTT TTCCAGCTGT 
AGGAAGAATT CTGGGAGAAC ATTTCACCAG GATTTTCAAA GAAAATGCAA CTCTTACTCT 
GTATCCACAA CTTTGGATAA ACCTGTGGAA GAAAACGAAC AACTTCAGGA GCAGTTGGAT 
GCCCTTCATG AGCAAAATGC ATCTTTGACT TCTCAGAATC GCTACCTGAA GAACAGAGTG 
GAAACAATGA ACTTTGAATT GATGCAGTCA AAAACAAAAA TTTCATATCT TGAGGCTGCT 
TTAGCTACAC ATTTAATCAA CATCCCGAAG TTGAAAGAAC AGATTGTAAA TTTGGAAGCA 
GAAGTTTCAG CTCAAGATAA AATTCTGAAA GATGCAGAAG ATAGACTAGA TCAAAATCGG 
AAAACAGCAA TGGAAAGAGA ACACTTGTTG GAAAGATATC AAAAAGGCTA TAAAGTTCTG 
AAAATTGAGT TAATTGAACA AAGCAAGCAA GGAAAGAGAG CACAACAGCA AAGAAATGAA 
GCTTTGTTGA ACGTGGAGGA GCTGACAAGA GCTTTCATGA AGTATAAAGC AGAAATAACT 
GAAACATTAG AAAAGGCTAA AGCTGAAGAA GTAGTCTTGG GAGAACGTTT AATTAATTGT 
GAAAAAGAAA AAGAGACGCT GAATGAAAAG TGTATCAGCT ATAGAAAGGA TCTAGACATC 
CTAGAAGAGC AGCTAAGACA ATTAAAGGAA GAGAATCACA ACACAAAAGA AGAAATTAAA 
GGTTTAGAGG CAAAGAACAC TGAAATGACA TCAATGCTGA GTCAGTCTGA TCAGAAGATC 
ATCAAGCTTG AGAGTGAACT TTCTGAAAAA GGAGTAGTAC TTGAAGAGAA AAATGCTCTA 
TTAAGTGAAA ATGAAGAGCT GAGAGCACTT ACTGCACAGC AACATAACCA CTTGAAATTA 
TATCGTCAAG AAATAGAGGA TTCAAGGGAA GAGCTCAACA TACTAAAAAC CATTATTTCT 
CAGTTGTCTT TAGGTACATC TGAAGAGTTT AAATGGCACC ATTTCAAACA CCAGCTATTG 
AGTTCCTCAG CAAAAGAAGC TACCTCTGAA TCTTGTGGTG AATCAAGTAA ACCTTTGATT 
GCAGACTTAA GCATTAAACT GGCAATGAAA GAAGCAGAAA ATCAGAAACC TGGGGCAAAC 
TTAACTGTCT GTACTGGAGC TGAGCATCTT TCTAACGGTA TTGAAGGACA AGAAAACAAC 
AGGTTATGTG ACCTGGAAAC AGAGCCTGTC AAATTGATCA GAAATCCAGG AGAGAAGAGA 
AAATGTCAAG AGTTGGAACT TATAAGCAAA CAGTTTGAAA AGGTGAGGCA AAAATTCCAG 
AAAGAGATAG AAGAGCTACG CACTAAACTG ATAAAAGCAG ATGATGAGAA TTCTGCCTTG 
AGGACCAGCA TGGCTCAAAG AACCAGTCAG TTTCAAATCA TACAGGAAGA CCTATTGAAG 
AAGGCTTCAA GAACTAGTAG CTTAGAGAGA GAAATAAGAA AGAAGTCTTC TCAGCTTTCT 
GCACTTGAGA AACAGTTGGA AGAAAAGACT ATTGCTTATT CCACTGCTGC AGAAAGAAAT 
ACTGAGTTGG AACTGGAACT CATGGGAAAA AACAGATGCA TTCATGAGCT GGAAACAACT 
ATCAGTGAAG AACATGAGAA AATAACGTCT GCTTTTGAAA ATGAAAAGTT GCTTCACCTC 
GAGCAGCACA AAGAAATGGA GAAACAAATT GCTCTACTTC GCACACAGCT GGAGAAGAAA 
CAGCAACAAT TCATTGAACA AGATAAAATA ATATCTATTT TACAACAAGA GGTTATAAAC 
AAACAGCATC ACATTGAATC ATTGGATGGG CTGCTAATAG GAAACAGAGA GGAAATGGAA 
AATCAAAATG TCAAGAAAGA TCAAGGACTG AAGATGCTGG AAAGTCAGTT AACAGAAGAA 
AAAATCAAAG TACGACAACT TGAGTCAGCA CTAAAGGTAT GTAAGGAAGA AGTTGCACTG 
TATTTGAGTC AGTCACAAGA AAATAAGGAG ATGTTTGAAA ATCAGCTGAA AGAAAGGTCT 
GAAGAGCTTC ATTATTTACA GAAAGAAATA AAAATTAAAG GTCAGACTAT TCAGGACATG 
AGTGAACAAA ATATTCTCCT GCAACAAACT TTGCATCATC AGCAGCAAAT GTTACAGCAA 
GAAACTATTA GAAATGGGGA GTTGGAAGAT ACTCAAATTA AACTTGAAAA ACAGGTATCC 
AATTTGGAAA AAGAGCTTCA GAAGCAGAAA GCATGTGCAG AAGATGAGTT GAGAAGGGTG 
GAGGAGAAAC TATGCCTAGC TGCTCAGGAA GCAGACTTAA ACAGACAGAA GGTGGATGAA 
CTGAATTGTA CAATAAGCCA GATTAAATTG GAGATGGATC AGTGCAAAAA TGAACTTACT 
GGCATGGAAA AAGAAGTAGT GCAATTACAA CGAGATGGTG CAAACAAAGC ACTGCAGATA 
AATCAGTTGG ATATCACTCT GGAAGAAGCA AGATCAGAGC TCAATAGAAA GGCAAATGAG 
GTGAATGATT TTGAAGATAA GCTGCTTCAA AGCGAGACTT GCCACAGGAA AGCTTTACAG 
AAAATAGCAG AACTGGAATC TGCATTGCAG AATGCCTGTG GGGAATTAAA GATCACTTTA 
ACACAGCTTC AGGAGTTGCA AGGTGCATTA CAGAATGCAC AGTCCTCTCT GGAGGAGAAG 
AACATTGCTA TCATGGATCT ATCAACTGAG CTCAGGTATT GTAAGGATGA AATTGAAGAC 
AAAAAGCAGG AACTCCTTGA CATGGACCAA GCACTGAAAG AAAGGAATTG GGAACTGAAA 
CAAAGAGTAG CTCAGATTAC ACAATTGGAT ATGGCGGTTC GTGAGCATAA GGGAGAAATG 
GAGCAACAAA TAATTCAATT ACAGTGTAAT TTAGAGAAGT CAGAGTTGGA AATTAAGGAA 
TGCAATAAAC AGATTGAGAG CTTAGAGAAG AAACTCCAGC ATTCTAAAGA TGAGCTTCGT 
GAAAAAGAGT TTGAATTGCT CCAGAGAGAT CAGGAAATAA ATCAGCTGAA GAGAAAAAAA 
TGA

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

CCDC18 ( XM_012575183.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430637.1 Taeniopygia guttata coiled-coil domain containing 18 (CCDC18), mRNA.

Price & Availability↑

CloneID	OTd14124
Clone ID Related Accession (Same CDS sequence)	XM_012575183.1
Accession Version	XM_012575183.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3342bp) 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	2015-05-25
Organism	Taeniopygia guttata(zebra finch)
Product	LOW QUALITY PROTEIN: coiled-coil domain-containing protein 18
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198982.1) 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 :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGGAATGTA GTATGTGGAC TTGCTCTGGA AGTGATGCTG ATGATGACCT GCTAGCAAAT 
GTGCAGTCAT TACAGAATCA GCTGAGGAGA ACTGAAAAAA ACCTACAAAC TGTAGAGAAA 
GAGCTTTCCA GTACAGGGGA ACATTATGGC CACTGCTTCA ATGAGGTCAT CGATGTCCCT 
CTGGAGGACT TTGTACAGCC CAATTACGAT TGCCAAGGCT TTTCCAGCTG TAGGAAGAAT 
TCTGGGAGAA CATCTCACCA GGATTTTCAA AGAAAATGCA ACTCTTACTC TGTATCCACA 
ACTTTGGATA AACCTGTGGA AGAAAACGAA CAACTTCAGG AGCAGTTGGA TGCCCTTCAT 
GAGCAAAATG CATCTTTGAC TTCTCAGAAT CGCTACCTGA AGAACAGAGT GGAAACAATG 
AACTTTGAAT TGATGCAGTC AAAAACAAAA ATTTCATATC TTGAGGCTGC TTTAGCTACA 
CATTTAATCA ACATCCCGAA GTTGAAAGAA CAGATTGTAA ATTTGGAAGC AGAAGTTTCA 
GCTCAAGATA AAATTCTGAA AGATGCAGAA GATAGACTAG ATCAAAATCG GAAAACAGCA 
ATGGAAAGAG AACACTTGTT GGAAAGATAT CAAAAAGGCT ATAAAGTTCT GAAAATTGAG 
TTAATTGAAC AAAGCAAGCA AGGAAAGAGA GCACAACAGC AAAGAAATGA AGCTTTGTTG 
AACGTGGAGG AGCTGACAAG AGCTTTCATG AAGTATAAAG CAGAAATAAC TGAAACATTA 
GAAAAGGCTA AAGCTGAAGA ATTAGTCTTG GGAGAACGTT TAATTAATTG TGAAAAAGAA 
AAAGAGACGT TGAATGAAAA GTGTATCAGC TATAGAAAGG ATCTAGACAT CCTAGAAGAG 
CAGCTAAGAC AATTAAAGGA AGAGAATCAC AACACAAAAG AAGAAATTAA AGGTTTAGAG 
GCAAAGAACA CTGAAATGAC ATCAATGCTG AGTCAGTCTG ATCAGAAGAT CATCAAGCTT 
GAGAGTGAAC TTTCTGAAAA AGGAGTAGTA CTTGAAGAGA AAAATGCTCT ATTAAGTGAA 
AATGAAGAGC TGAGAGCACT TACTGCACAG CAACATAACC ACTTGAAATT ATGTCGTCAA 
GAAATAGAGG ATTCAAGGGA AGAGCTCAAC ATACTAAAAA CCATTATTTC TCAGTTGTCT 
TTAGGTACAT CTGAAGAGTT TAAATGGCAC CATTTCAAAC ACCAGCTATT GAGTTCCTCA 
GAAAAAGAAG CTACCTCTGA ATCTTGTGGT GAATCAAGTA AACCTTTGAT TGCAGACTTA 
AGCATTAAAC TGGCAATGAA AGAAGCAGAA AATCAGAAAC CTGGTGCAAA CTTAACTGTC 
TGTACTGGAG CTGAGCATCT TTCTAACGGT ATTGAAGGAC AAGAAAACAA CAGGTTATGT 
GACCTGGAAA CAGAGCCTGT CAAATTGATC AGAAATCCAG GAGAGAGGAG AAAATGTCAA 
GAGTTGGAAC TTATAAGCAA ACAGTTTGAA AAGGTGAGGC AAAAATTCCA GAAAGAGATA 
GAAGAGCTAC GCACTAAACT GATAAAAGCA GATGATGAGA ATTCTGCCTT GAGGACCAGC 
ATGGCTCAAA GAACCAGTCA GTTTCAAATC ATACAGGAAG ACCTATTGAA GAAGGCTTCA 
AAAACTAGTA GCTTAGAGAG AGAAATAAGA AAGAAGTCTT CTCAGCTTTC TGCACTTGAG 
AAACAGTTGG AAGAAAAGAC TATTGCTTAT TCCACTGCTG CAGAAAGAAA TACTGAGTTG 
GAACTGGAAC TCATGGGAAA AAACAGATGC ATTCATGAGC TGGAAACAAC TATCAGTGAA 
GAACATGAGA AAATAATTTC TGCTTTTGAA AATGAAAAGT TGCTTCACCT CGAGCAGCAC 
AAAGAAATGG AGAAACAAAT TGCTCTACTT CGCACACAGC TGGAGAAGAA ACAGCAACAA 
TTCATTGAAC AAGATAAAAT AATATCTATT TTACAACAAG AGGTTATAAA CAAACAGCAT 
CACATTGAAT CATTGGATGG GCTGCTAATA GGAAACAGAG AGGAAATGGA AAATCAAAAT 
GTCAAGAAAG ATCAAGGACT GAAGATGCTG GAAAGTCAGT TAACAGAAGA AAAAATCAAA 
GTACGACAAC TTGAGTCAGC ACTAAAGGTA TGTCAGGAAG AAGTCGCACT GTATTTGAGT 
CAGTCACAAG AAAATAAGGA GATGTTTGAA AATCAGCTGA AAGAAAAGTC TGAAGAGCTT 
CATTATTTAC AGAAAGAAAT AAAAATTAAA GGTCAGACTA TTCAGGACAT GAGTGAACAA 
AATATTCTCC TGCAACAAAC TTTGCATCAT CAGCAGCAAA TGTTACAGCA AGAAACTATT 
AGAAATGGGG AGTTGGAAGA TACTCAAATT AAACTTGAAA AACAGGTATC CAATTTGGAA 
AAAGAGCTTC AGAAGCAGAA AGCATGTGCA GAAGATGAGT TGAGAAGGGT GGAGGAGAAA 
CTATGCCTAG CTGCTCAGGA AGCAGACTTA AACAGACAGA AGGTGGATGA ACTGAATTGT 
ACAATAAGCC AGATTAAATT GGAGATGGAT CAGTGCAAAA ATGAACTTAC TGGCATGGAA 
AAAGAAGTAG TGCAATTACA ACGAGATGGT GCAAACAAAG CACTGCAGAT AAATCAGTTG 
GATATCACTC TGGAAGAAGC AAGATCAGAG CTCAATAGAA AGGCAAATGA GGTGAATGAT 
TTTGAAGATA AGCTGCTTCA AAGCGAGACT TGCCACAGGA AAGCTTTACA GAAAATAGCA 
GAACTGGAAT CTGCATTGCA GAATGCCTGT GGGGAATTAA AGATCACTTT AACACAGCTT 
CAGGAGTTGC AAGGTGCATT ACAGAATGCA CAGTGCTCTC TGGAGGAGAA GAACATTGCT 
ATCATGGATC TATCAACTGA GCTCAGGTAT TGTAAGGATG AAATTGAAGA CAAAAAGCAG 
GAACTCCTTG ACATGGACCA AGCACTGAAA GAAAGGAATT GGGAACTGAA ACAAAGAGTA 
GCTCAGATTA CACAATTGGA TATGGCGGTT CGTGAGCATA AGGGAGAAAT GGAGCAACAA 
ATAATTCAAT TACAGTGTAA TTTAGAGAAG TCAGAGTTGG AAATTAAGGA ATGCAATAAA 
CAGATTGAGA GCTTAGAGAA GAAACTCCAG CATTCTAAAG ATGAGCTTCG TGAAAAAGAG 
TTTGAATTGC TCCAGAGAGA TCAGGAAATA AATCAGCTGA AGAGAAAAAA AGAAAGAAAA 
CAACATAGCC TAGAAACTCT TGGAAAGGTG CAAGAACTGT GA

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

RefSeq	XP_012430637.1
CDS	1..3342
Translation	MECSMWTCSGSDADDDLLANVQSLQNQLRRTEKNLQTVEKELSSTGEHYGHCFNEVIDVPLEDFVQPNYDCQGFSSCRKNSGRTSHQDFQRKCNSYSVSTTLDKPVEENEQLQEQLDALHEQNASLTSQNRYLKNRVETMNFELMQSKTKISYLEAALATHLINIPKLKEQIVNLEAEVSAQDKILKDAEDRLDQNRKTAMEREHLLERYQKGYKVLKIELIEQSKQGKRAQQQRNEALLNVEELTRAFMKYKAEITETLEKAKAEELVLGERLINCEKEKETLNEKCISYRKDLDILEEQLRQLKEENHNTKEEIKGLEAKNTEMTSMLSQSDQKIIKLESELSEKGVVLEEKNALLSENEELRALTAQQHNHLKLCRQEIEDSREELNILKTIISQLSLGTSEEFKWHHFKHQLLSSSEKEATSESCGESSKPLIADLSIKLAMKEAENQKPGANLTVCTGAEHLSNGIEGQENNRLCDLETEPVKLIRNPGERRKCQELELISKQFEKVRQKFQKEIEELRTKLIKADDENSALRTSMAQRTSQFQIIQEDLLKKASKTSSLEREIRKKSSQLSALEKQLEEKTIAYSTAAERNTELELELMGKNRCIHELETTISEEHEKIISAFENEKLLHLEQHKEMEKQIALLRTQLEKKQQQFIEQDKIISILQQEVINKQHHIESLDGLLIGNREEMENQNVKKDQGLKMLESQLTEEKIKVRQLESALKVCQEEVALYLSQSQENKEMFENQLKEKSEELHYLQKEIKIKGQTIQDMSEQNILLQQTLHHQQQMLQQETIRNGELEDTQIKLEKQVSNLEKELQKQKACAEDELRRVEEKLCLAAQEADLNRQKVDELNCTISQIKLEMDQCKNELTGMEKEVVQLQRDGANKALQINQLDITLEEARSELNRKANEVNDFEDKLLQSETCHRKALQKIAELESALQNACGELKITLTQLQELQGALQNAQCSLEEKNIAIMDLSTELRYCKDEIEDKKQELLDMDQALKERNWELKQRVAQITQLDMAVREHKGEMEQQIIQLQCNLEKSELEIKECNKQIESLEKKLQHSKDELREKEFELLQRDQEINQLKRKKERKQHSLETLGKVQEL

Target ORF information:

RefSeq Version	XM_012575183.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata coiled-coil domain containing 18 (CCDC18), mRNA.

Target ORF information:

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

XM_012575183.1

ORF Insert Sequence:

ATGGAATGTA GTATGTGGAC TTGCTCTGGA AGTGATGCTG ATGATGACCT GCTAGCAAAT 
GTGCAGTCAT TACAGAATCA GCTGAGGAGA ACTGAAAAAA ACCTACAAAC TGTAGAGAAA 
GAGCTTTCCA GTACAGGGGA ACATTATGGC CACTGCTTCA ATGAGGTCAT CGATGTCCCT 
CTGGAGGACT TTGTACAGCC CAATTACGAT TGCCAAGGCT TTTCCAGCTG TAGGAAGAAT 
TCTGGGAGAA CATCTCACCA GGATTTTCAA AGAAAATGCA ACTCTTACTC TGTATCCACA 
ACTTTGGATA AACCTGTGGA AGAAAACGAA CAACTTCAGG AGCAGTTGGA TGCCCTTCAT 
GAGCAAAATG CATCTTTGAC TTCTCAGAAT CGCTACCTGA AGAACAGAGT GGAAACAATG 
AACTTTGAAT TGATGCAGTC AAAAACAAAA ATTTCATATC TTGAGGCTGC TTTAGCTACA 
CATTTAATCA ACATCCCGAA GTTGAAAGAA CAGATTGTAA ATTTGGAAGC AGAAGTTTCA 
GCTCAAGATA AAATTCTGAA AGATGCAGAA GATAGACTAG ATCAAAATCG GAAAACAGCA 
ATGGAAAGAG AACACTTGTT GGAAAGATAT CAAAAAGGCT ATAAAGTTCT GAAAATTGAG 
TTAATTGAAC AAAGCAAGCA AGGAAAGAGA GCACAACAGC AAAGAAATGA AGCTTTGTTG 
AACGTGGAGG AGCTGACAAG AGCTTTCATG AAGTATAAAG CAGAAATAAC TGAAACATTA 
GAAAAGGCTA AAGCTGAAGA ATTAGTCTTG GGAGAACGTT TAATTAATTG TGAAAAAGAA 
AAAGAGACGT TGAATGAAAA GTGTATCAGC TATAGAAAGG ATCTAGACAT CCTAGAAGAG 
CAGCTAAGAC AATTAAAGGA AGAGAATCAC AACACAAAAG AAGAAATTAA AGGTTTAGAG 
GCAAAGAACA CTGAAATGAC ATCAATGCTG AGTCAGTCTG ATCAGAAGAT CATCAAGCTT 
GAGAGTGAAC TTTCTGAAAA AGGAGTAGTA CTTGAAGAGA AAAATGCTCT ATTAAGTGAA 
AATGAAGAGC TGAGAGCACT TACTGCACAG CAACATAACC ACTTGAAATT ATGTCGTCAA 
GAAATAGAGG ATTCAAGGGA AGAGCTCAAC ATACTAAAAA CCATTATTTC TCAGTTGTCT 
TTAGGTACAT CTGAAGAGTT TAAATGGCAC CATTTCAAAC ACCAGCTATT GAGTTCCTCA 
GAAAAAGAAG CTACCTCTGA ATCTTGTGGT GAATCAAGTA AACCTTTGAT TGCAGACTTA 
AGCATTAAAC TGGCAATGAA AGAAGCAGAA AATCAGAAAC CTGGTGCAAA CTTAACTGTC 
TGTACTGGAG CTGAGCATCT TTCTAACGGT ATTGAAGGAC AAGAAAACAA CAGGTTATGT 
GACCTGGAAA CAGAGCCTGT CAAATTGATC AGAAATCCAG GAGAGAGGAG AAAATGTCAA 
GAGTTGGAAC TTATAAGCAA ACAGTTTGAA AAGGTGAGGC AAAAATTCCA GAAAGAGATA 
GAAGAGCTAC GCACTAAACT GATAAAAGCA GATGATGAGA ATTCTGCCTT GAGGACCAGC 
ATGGCTCAAA GAACCAGTCA GTTTCAAATC ATACAGGAAG ACCTATTGAA GAAGGCTTCA 
AAAACTAGTA GCTTAGAGAG AGAAATAAGA AAGAAGTCTT CTCAGCTTTC TGCACTTGAG 
AAACAGTTGG AAGAAAAGAC TATTGCTTAT TCCACTGCTG CAGAAAGAAA TACTGAGTTG 
GAACTGGAAC TCATGGGAAA AAACAGATGC ATTCATGAGC TGGAAACAAC TATCAGTGAA 
GAACATGAGA AAATAATTTC TGCTTTTGAA AATGAAAAGT TGCTTCACCT CGAGCAGCAC 
AAAGAAATGG AGAAACAAAT TGCTCTACTT CGCACACAGC TGGAGAAGAA ACAGCAACAA 
TTCATTGAAC AAGATAAAAT AATATCTATT TTACAACAAG AGGTTATAAA CAAACAGCAT 
CACATTGAAT CATTGGATGG GCTGCTAATA GGAAACAGAG AGGAAATGGA AAATCAAAAT 
GTCAAGAAAG ATCAAGGACT GAAGATGCTG GAAAGTCAGT TAACAGAAGA AAAAATCAAA 
GTACGACAAC TTGAGTCAGC ACTAAAGGTA TGTCAGGAAG AAGTCGCACT GTATTTGAGT 
CAGTCACAAG AAAATAAGGA GATGTTTGAA AATCAGCTGA AAGAAAAGTC TGAAGAGCTT 
CATTATTTAC AGAAAGAAAT AAAAATTAAA GGTCAGACTA TTCAGGACAT GAGTGAACAA 
AATATTCTCC TGCAACAAAC TTTGCATCAT CAGCAGCAAA TGTTACAGCA AGAAACTATT 
AGAAATGGGG AGTTGGAAGA TACTCAAATT AAACTTGAAA AACAGGTATC CAATTTGGAA 
AAAGAGCTTC AGAAGCAGAA AGCATGTGCA GAAGATGAGT TGAGAAGGGT GGAGGAGAAA 
CTATGCCTAG CTGCTCAGGA AGCAGACTTA AACAGACAGA AGGTGGATGA ACTGAATTGT 
ACAATAAGCC AGATTAAATT GGAGATGGAT CAGTGCAAAA ATGAACTTAC TGGCATGGAA 
AAAGAAGTAG TGCAATTACA ACGAGATGGT GCAAACAAAG CACTGCAGAT AAATCAGTTG 
GATATCACTC TGGAAGAAGC AAGATCAGAG CTCAATAGAA AGGCAAATGA GGTGAATGAT 
TTTGAAGATA AGCTGCTTCA AAGCGAGACT TGCCACAGGA AAGCTTTACA GAAAATAGCA 
GAACTGGAAT CTGCATTGCA GAATGCCTGT GGGGAATTAA AGATCACTTT AACACAGCTT 
CAGGAGTTGC AAGGTGCATT ACAGAATGCA CAGTGCTCTC TGGAGGAGAA GAACATTGCT 
ATCATGGATC TATCAACTGA GCTCAGGTAT TGTAAGGATG AAATTGAAGA CAAAAAGCAG 
GAACTCCTTG ACATGGACCA AGCACTGAAA GAAAGGAATT GGGAACTGAA ACAAAGAGTA 
GCTCAGATTA CACAATTGGA TATGGCGGTT CGTGAGCATA AGGGAGAAAT GGAGCAACAA 
ATAATTCAAT TACAGTGTAA TTTAGAGAAG TCAGAGTTGG AAATTAAGGA ATGCAATAAA 
CAGATTGAGA GCTTAGAGAA GAAACTCCAG CATTCTAAAG ATGAGCTTCG TGAAAAAGAG 
TTTGAATTGC TCCAGAGAGA TCAGGAAATA AATCAGCTGA AGAGAAAAAA AGAAAGAAAA 
CAACATAGCC TAGAAACTCT TGGAAAGGTG CAAGAACTGT GA