CCDC129 cDNA ORF clone, Pongo abelii(Sumatran orangutan)

Gene
Clones
gRNAs

Summary

Gene Symbol	CCDC129
Entrez Gene ID	100440950
Full Name	coiled-coil domain containing 129
Gene Type	protein-coding
Organism	Pongo abelii(Sumatran orangutan)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009242880.1	XP_009241155.1	LOW QUALITY PROTEIN: coiled-coil domain-containing protein 129
XM_024250072.1	XP_024105840.1	coiled-coil domain-containing protein 129

Pathways from BioSystems
Gene Ontology

The following CCDC129 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC129 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
OSa184833	XM_024250072.1 Latest version!	Pongo abelii coiled-coil domain containing 129 (CCDC129), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OSa28420	XM_009242880.1 Latest version!	Pongo abelii coiled-coil domain containing 129 (CCDC129), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$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)

CCDC129 ( XM_024250072.1 ) cDNA ORF clone, Pongo abelii(Sumatran orangutan) -> XP_024105840.1 Pongo abelii coiled-coil domain containing 129 (CCDC129), mRNA.

Price & Availability↑

CloneID	OSa184833
Clone ID Related Accession (Same CDS sequence)	XM_024250072.1
Accession Version	XM_024250072.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3246bp) 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	2018-02-27
Organism	Pongo abelii(Sumatran orangutan)
Product	coiled-coil domain-containing protein 129
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036910.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCAACTA CAGCAAGTTG CAAGACCATT TCTCTGCTGA GACTCATTTA TTCTGTTAGT 
TTGCAGAATT ACTCTCCTAT GATGGCACAG AAATCACAAG GATCTGACAA CCTTCAAGAA 
GGCCAAGAAA AGAGCAAGAC AGAGATCCTG AAGTGCACCA AGAGCGCGTG GGCTCTGCTG 
GATGAGTGGC TGCCCCCTGA CCCTGAGGAG GAAGGCCAGG GTCTCACCAT CCCCATGCTG 
GAAGATTCCA AGCAAGAAAG TATTCAGCAG TGGCTGGACT CTGGATTCTT TGTCTCTGCA 
AATGAAAACT TTCAACAAGT CATTGACCAC ACTGTTTCTT TGTATGAACA AGGGATGGTT 
CAAATGACTG TGAAAGACTA CATGAGATCT TTGCATCAGT TTTCAGAAAC TCCCACCCTA 
TCCAGAGGGA CCAGTTTCAA CTCTTGCTAT TCTACTGCAA GTGTACCACA AAGCATTCCT 
GAATGGCTGG AATTTTGGGA GAAAGATCCA GTGGAGATTC TCTTGGATCT GGGCTTTGGT 
GCTGATGAGC CAGACATCTG CACGCAAATC CCAGCCAGAT TCCTTGGTTG TGGCTCAGCA 
GCCAGAGGGA TCAACATCCG TGTTTTTCTT GAAGCTCAAA AGCAGCGAAT GGACATTGAG 
AACCCCAGCT TGTACGGTCG CTTCCGACAG CTGGAAATCC TGGACCACGT GACCAATGCC 
TTCTCATCTC TGCTGAGTGA TGTCAGCATC CTGCCAAGCA GAGCTGAAGA GAAAGCTGGA 
GGAGAGAGTG TGCAAAGAAC CTCAGTGAGT GCCACCAAAG AGCATCGAAG AAGAATGGGT 
AGACTCTTAA GGAGAGCTTC AAAACAGAAC ATCAGGAGGG ATTGTAACCC AGGGGTATCA 
GAGTCCTTCA AGGTGAAAGA TGAAGTTTTT ATCCCCTTTA CAAAACCATG GGAGTGTGGA 
GCAGAGCTAG CAGCAACCTC AATCAACCAC AAGCAAAATC ATTTGTCTCT GTCAGTAGAA 
CATCAGTGTC TCCAAGCCTG TGATGATTTG CTACCTTATC CTCCTCATGG TCTTCTGAGC 
AAGCAATGGC CTTGCTCATC TATGCCGGCC AAGCAGGCTC CTCCTTCCTG TGTGTCTGAG 
GGGTCAGTCA AGGGCAGAAT TCAGAAGGAG AACTTATTTC AGACTAACAA GCTCAAGAGC 
TTGTCTCGTC TTGCAGGCAA AGGACCAGAC TCATTTGAAA TGGAAGAGGT CCAAAGCTTT 
GAAGAAGAGA CTGGTAATCC TCTTGACATG ACTTCAGGAA CTGTAGGTGC CAGGGTGGAC 
AGAGCAAATA GCTGCCAGTC TGACAGCAGC GGGTTCCTGG AGGAGCCGCT GGAACCGCTG 
CCCCTCCAGA TGCCTTCCTT GCCAAACAGC CAGAGTCCTG CTGAGAATGG AGGTAGAAAG 
CCAAGAGATC AGAGCCACAG CTTAGTATCA TCCCAGGACT GTCAGCTAGA GTCAGATGGG 
CCAGATTCCA AGAGTAGGGC GAGCATGTCT TTTTCAAGCC AAGAAGCTAA TGCCTTGGAA 
CAAAGGGCCT CAGTATCTGT GATGGAGGAA GAGTTTCTGC TTGAGGCCAT GGAGGGGCCA 
CCAGAGCTGT ATATCCCAGA CATGGCCTGT GCCAAAACCA CCACGAGGGG AGAACACCCA 
AGGAAAGACA GCCATCTGCG GCAGCTTCTG CCAGTGCCCC ATGCTGAACA TGAGGTCACC 
GAACCCACAG CCACTTCCAA ATATGATCAT CCTCTGGGGT TTATGGTAAC CCATGTCACA 
GAAATGCAGG ACAGTTTTCT GAGGCCTGAG GGAGCTGGCA AAATGCAAAG CCACCGCAAT 
GAGTCTCAAA CATCACCTGG AAATGATCTT ACTCAAGACA AGTTCCTTCA TGTCGACTCT 
GAGGCCCCAC GAGAAGAGGA AAGCAGTGGA TTCTGTCCTC ACACCAACGA CAGCTTACTG 
GTACCAGAAA GCTCATCACA GTTTGTCCCC AAGCACAGGG AAATCACACC TTATGCAACC 
GACCTTGCTC AAACATCTGA AAAACCCATT CCCCACCTCC ATAAACTGCC TGGAGATCCT 
GCCCAGGTGA AGTCAAGGTC TGGTACTTTG GGTCAGATAC TATCTAGGAC AGAAGCTGAG 
ATGGAAAACC TTCCTCTAAA TACTGGCAGC TCCAGGTCTG TAACGACCCA GATGTCCTCC 
AGCCTGGTGT CGGCTGCTCA GAGTGCTGTG TCCTTGGGGA CTGGTCCCAG AGGAACATCT 
TTAGAATGCA CTATGTGTGA TCCTGTTACC ACAACAGAAA CAAGACTGGG GACAGAAGCA 
AGACAGTTAA ATGATGCTTC CATTCAGACT TCCGTATGCG AACCCAGGCC CTGGCATTTC 
TGTTCAGCTT CAAGCAACAA GGCCTTGACA CATGGGCCCC AGCCCCTCAC CAAATCTGTC 
TCTCTAGACT CAGGCTTCCC TAGTATCTGC CCAGTGGGCA CCTGCCATGC TATACCTGCC 
CACTACTGCA TCTGCTGTTA TCACCACCCT CACTGCCACA GGGAGAGGCA AAGCCCTGGC 
CCTGAACCCT CAGTCTGTAG GCACTGCCTG TGCTCACTTA CTGGTCACCA GGAAGCCCAG 
TTCATGACGA CTTTGAAAGC CCTTCAGGAC ACTACAGTGA GGGAGCTATG TTCCTGCACA 
GTCCATGAGA TGGAAGCCAT GAAGACGATA TGCCAGAGTT TCCGGGAGTA TTTAGAAGAA 
ATTGAACAGC ACCTTATGGG ACAGCAGGCC CTCTTTTCCA GGGACATGTC AGAGGAGGAA 
AGGGAGGAGG CTGAGCAACT GCAAACGTTA CGTGAGGCCC TGAGGCAGCA GGTGGCAGAA 
TTGGAATTTC AGTTAGGAGA CCGGGCTCAG CAAATCAGAG AAGGGATTTT ACTGCAGCTG 
GAGGTTCTCA CAGTAGAGCC ACCTGAACAC TATTCAAATC TGCGTCAATA TAACTGGATA 
GAAGAAAGCA ATGGCCAGAC TTCATGTTCT AAAATCCACC CAGGCATGGC CCCAAGGACT 
GTCTTTCCTC CCAATGATGG CCAGCAAGCT CCCTGTTCAG GTGGGACCCA GTTGGCTGTC 
TTCACTCCAC CCACCTTGGA GAACAGCACC AGGATGTCTC CTTCGTCATC AACTTGGGCA 
AAGTTAGGTC CAACCCCTTT GTCAAATTGT CCTGTTGGAG AAAAGGATAC AGATGTCTTC 
CTCTAG

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

RefSeq	XP_024105840.1
CDS	8..3253
Translation	MPTTASCKTISLLRLIYSVSLQNYSPMMAQKSQGSDNLQEGQEKSKTEILKCTKSAWALLDEWLPPDPEEEGQGLTIPMLEDSKQESIQQWLDSGFFVSANENFQQVIDHTVSLYEQGMVQMTVKDYMRSLHQFSETPTLSRGTSFNSCYSTASVPQSIPEWLEFWEKDPVEILLDLGFGADEPDICTQIPARFLGCGSAARGINIRVFLEAQKQRMDIENPSLYGRFRQLEILDHVTNAFSSLLSDVSILPSRAEEKAGGESVQRTSVSATKEHRRRMGRLLRRASKQNIRRDCNPGVSESFKVKDEVFIPFTKPWECGAELAATSINHKQNHLSLSVEHQCLQACDDLLPYPPHGLLSKQWPCSSMPAKQAPPSCVSEGSVKGRIQKENLFQTNKLKSLSRLAGKGPDSFEMEEVQSFEEETGNPLDMTSGTVGARVDRANSCQSDSSGFLEEPLEPLPLQMPSLPNSQSPAENGGRKPRDQSHSLVSSQDCQLESDGPDSKSRASMSFSSQEANALEQRASVSVMEEEFLLEAMEGPPELYIPDMACAKTTTRGEHPRKDSHLRQLLPVPHAEHEVTEPTATSKYDHPLGFMVTHVTEMQDSFLRPEGAGKMQSHRNESQTSPGNDLTQDKFLHVDSEAPREEESSGFCPHTNDSLLVPESSSQFVPKHREITPYATDLAQTSEKPIPHLHKLPGDPAQVKSRSGTLGQILSRTEAEMENLPLNTGSSRSVTTQMSSSLVSAAQSAVSLGTGPRGTSLECTMCDPVTTTETRLGTEARQLNDASIQTSVCEPRPWHFCSASSNKALTHGPQPLTKSVSLDSGFPSICPVGTCHAIPAHYCICCYHHPHCHRERQSPGPEPSVCRHCLCSLTGHQEAQFMTTLKALQDTTVRELCSCTVHEMEAMKTICQSFREYLEEIEQHLMGQQALFSRDMSEEEREEAEQLQTLREALRQQVAELEFQLGDRAQQIREGILLQLEVLTVEPPEHYSNLRQYNWIEESNGQTSCSKIHPGMAPRTVFPPNDGQQAPCSGGTQLAVFTPPTLENSTRMSPSSSTWAKLGPTPLSNCPVGEKDTDVFL

Target ORF information:

RefSeq Version	XM_024250072.1
Organism	Pongo abelii(Sumatran orangutan)
Definition	Pongo abelii coiled-coil domain containing 129 (CCDC129), mRNA.

Target ORF information:

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

XM_024250072.1

ORF Insert Sequence:

ATGCCAACTA CAGCAAGTTG CAAGACCATT TCTCTGCTGA GACTCATTTA TTCTGTTAGT 
TTGCAGAATT ACTCTCCTAT GATGGCACAG AAATCACAAG GATCTGACAA CCTTCAAGAA 
GGCCAAGAAA AGAGCAAGAC AGAGATCCTG AAGTGCACCA AGAGCGCGTG GGCTCTGCTG 
GATGAGTGGC TGCCCCCTGA CCCTGAGGAG GAAGGCCAGG GTCTCACCAT CCCCATGCTG 
GAAGATTCCA AGCAAGAAAG TATTCAGCAG TGGCTGGACT CTGGATTCTT TGTCTCTGCA 
AATGAAAACT TTCAACAAGT CATTGACCAC ACTGTTTCTT TGTATGAACA AGGGATGGTT 
CAAATGACTG TGAAAGACTA CATGAGATCT TTGCATCAGT TTTCAGAAAC TCCCACCCTA 
TCCAGAGGGA CCAGTTTCAA CTCTTGCTAT TCTACTGCAA GTGTACCACA AAGCATTCCT 
GAATGGCTGG AATTTTGGGA GAAAGATCCA GTGGAGATTC TCTTGGATCT GGGCTTTGGT 
GCTGATGAGC CAGACATCTG CACGCAAATC CCAGCCAGAT TCCTTGGTTG TGGCTCAGCA 
GCCAGAGGGA TCAACATCCG TGTTTTTCTT GAAGCTCAAA AGCAGCGAAT GGACATTGAG 
AACCCCAGCT TGTACGGTCG CTTCCGACAG CTGGAAATCC TGGACCACGT GACCAATGCC 
TTCTCATCTC TGCTGAGTGA TGTCAGCATC CTGCCAAGCA GAGCTGAAGA GAAAGCTGGA 
GGAGAGAGTG TGCAAAGAAC CTCAGTGAGT GCCACCAAAG AGCATCGAAG AAGAATGGGT 
AGACTCTTAA GGAGAGCTTC AAAACAGAAC ATCAGGAGGG ATTGTAACCC AGGGGTATCA 
GAGTCCTTCA AGGTGAAAGA TGAAGTTTTT ATCCCCTTTA CAAAACCATG GGAGTGTGGA 
GCAGAGCTAG CAGCAACCTC AATCAACCAC AAGCAAAATC ATTTGTCTCT GTCAGTAGAA 
CATCAGTGTC TCCAAGCCTG TGATGATTTG CTACCTTATC CTCCTCATGG TCTTCTGAGC 
AAGCAATGGC CTTGCTCATC TATGCCGGCC AAGCAGGCTC CTCCTTCCTG TGTGTCTGAG 
GGGTCAGTCA AGGGCAGAAT TCAGAAGGAG AACTTATTTC AGACTAACAA GCTCAAGAGC 
TTGTCTCGTC TTGCAGGCAA AGGACCAGAC TCATTTGAAA TGGAAGAGGT CCAAAGCTTT 
GAAGAAGAGA CTGGTAATCC TCTTGACATG ACTTCAGGAA CTGTAGGTGC CAGGGTGGAC 
AGAGCAAATA GCTGCCAGTC TGACAGCAGC GGGTTCCTGG AGGAGCCGCT GGAACCGCTG 
CCCCTCCAGA TGCCTTCCTT GCCAAACAGC CAGAGTCCTG CTGAGAATGG AGGTAGAAAG 
CCAAGAGATC AGAGCCACAG CTTAGTATCA TCCCAGGACT GTCAGCTAGA GTCAGATGGG 
CCAGATTCCA AGAGTAGGGC GAGCATGTCT TTTTCAAGCC AAGAAGCTAA TGCCTTGGAA 
CAAAGGGCCT CAGTATCTGT GATGGAGGAA GAGTTTCTGC TTGAGGCCAT GGAGGGGCCA 
CCAGAGCTGT ATATCCCAGA CATGGCCTGT GCCAAAACCA CCACGAGGGG AGAACACCCA 
AGGAAAGACA GCCATCTGCG GCAGCTTCTG CCAGTGCCCC ATGCTGAACA TGAGGTCACC 
GAACCCACAG CCACTTCCAA ATATGATCAT CCTCTGGGGT TTATGGTAAC CCATGTCACA 
GAAATGCAGG ACAGTTTTCT GAGGCCTGAG GGAGCTGGCA AAATGCAAAG CCACCGCAAT 
GAGTCTCAAA CATCACCTGG AAATGATCTT ACTCAAGACA AGTTCCTTCA TGTCGACTCT 
GAGGCCCCAC GAGAAGAGGA AAGCAGTGGA TTCTGTCCTC ACACCAACGA CAGCTTACTG 
GTACCAGAAA GCTCATCACA GTTTGTCCCC AAGCACAGGG AAATCACACC TTATGCAACC 
GACCTTGCTC AAACATCTGA AAAACCCATT CCCCACCTCC ATAAACTGCC TGGAGATCCT 
GCCCAGGTGA AGTCAAGGTC TGGTACTTTG GGTCAGATAC TATCTAGGAC AGAAGCTGAG 
ATGGAAAACC TTCCTCTAAA TACTGGCAGC TCCAGGTCTG TAACGACCCA GATGTCCTCC 
AGCCTGGTGT CGGCTGCTCA GAGTGCTGTG TCCTTGGGGA CTGGTCCCAG AGGAACATCT 
TTAGAATGCA CTATGTGTGA TCCTGTTACC ACAACAGAAA CAAGACTGGG GACAGAAGCA 
AGACAGTTAA ATGATGCTTC CATTCAGACT TCCGTATGCG AACCCAGGCC CTGGCATTTC 
TGTTCAGCTT CAAGCAACAA GGCCTTGACA CATGGGCCCC AGCCCCTCAC CAAATCTGTC 
TCTCTAGACT CAGGCTTCCC TAGTATCTGC CCAGTGGGCA CCTGCCATGC TATACCTGCC 
CACTACTGCA TCTGCTGTTA TCACCACCCT CACTGCCACA GGGAGAGGCA AAGCCCTGGC 
CCTGAACCCT CAGTCTGTAG GCACTGCCTG TGCTCACTTA CTGGTCACCA GGAAGCCCAG 
TTCATGACGA CTTTGAAAGC CCTTCAGGAC ACTACAGTGA GGGAGCTATG TTCCTGCACA 
GTCCATGAGA TGGAAGCCAT GAAGACGATA TGCCAGAGTT TCCGGGAGTA TTTAGAAGAA 
ATTGAACAGC ACCTTATGGG ACAGCAGGCC CTCTTTTCCA GGGACATGTC AGAGGAGGAA 
AGGGAGGAGG CTGAGCAACT GCAAACGTTA CGTGAGGCCC TGAGGCAGCA GGTGGCAGAA 
TTGGAATTTC AGTTAGGAGA CCGGGCTCAG CAAATCAGAG AAGGGATTTT ACTGCAGCTG 
GAGGTTCTCA CAGTAGAGCC ACCTGAACAC TATTCAAATC TGCGTCAATA TAACTGGATA 
GAAGAAAGCA ATGGCCAGAC TTCATGTTCT AAAATCCACC CAGGCATGGC CCCAAGGACT 
GTCTTTCCTC CCAATGATGG CCAGCAAGCT CCCTGTTCAG GTGGGACCCA GTTGGCTGTC 
TTCACTCCAC CCACCTTGGA GAACAGCACC AGGATGTCTC CTTCGTCATC AACTTGGGCA 
AAGTTAGGTC CAACCCCTTT GTCAAATTGT CCTGTTGGAG AAAAGGATAC AGATGTCTTC 
CTCTAG

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

CCDC129 ( XM_009242880.1 ) cDNA ORF clone, Pongo abelii(Sumatran orangutan) -> XP_009241155.1 Pongo abelii coiled-coil domain containing 129 (CCDC129), mRNA.

Price & Availability↑

CloneID	OSa28420
Clone ID Related Accession (Same CDS sequence)	XM_009242880.1
Accession Version	XM_009242880.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3222bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2014-09-22
Organism	Pongo abelii(Sumatran orangutan)
Product	LOW QUALITY PROTEIN: coiled-coil domain-containing protein 129
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002881745.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pongo abelii Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 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##

ATGCCAACTA CAGCAAGTTG CAAGACCATT TCTCTGCTGA GACTCATTTA TTCTGTTAGT 
TTGCAGAATT ACTCTCCTAT GATGGCACAG AAATCACAAG GATCTGACAA CCTTCAAGAA 
GGCCAAGAAA AGAGCAAGAC AGAGATCCTG AAGTGCACCA AGAGCGCGTG GGCTCTGCTG 
GATGAGTGGC TGCCCCCTGA CCCTGAGGAG GAAGGCCAGG GTCTCACCAT CCCCATGCTG 
GAAGATTCCA AGCAAGAAAG TATTCAGCAG TGGCTGGACT CTGGATTCTT TGTCTCTGCA 
AATGAAAACT TTCAACAAGT CATTGACCAC ACTGTTTCTT TGTATGAACA AGGGATGGTT 
CAAATGACTG TGAAAGACTA CATGAGATCT TTGCATCAGT TTTCAGAAAC TCCCACCCTA 
TCCAGAGGGA CCAGTTTCAA CTCTTGCTAT TCTACTGCAA GTGTACCACA AAGCATTCCT 
GAATGGCTGG AATTTTGGGA GAAAGATCCA GTGGAGATTC TCTTGGATCT GGGGTTTGGT 
GCTGATGAGC CAGACATCTG CACGCAAATC CCAGCCAGAT TCCTTGGTTG TGGCTCAGCA 
GCCAGAGGGA TCAACATCCG TGTTTTTCTT GAAGCTCAAA AGCAGCGAAT GGACATTGAG 
AACCCCAGCT TGTACGGTAA GCGAGGTGCC TCTGGAATCC TGGACCACGT GACCAATGCC 
TTCTCATCTC TGCTGAGTGA TGTCAGCATC CTGCCAAGCA GAGCTGAAGA GAAAGCTGGA 
GGAGAGAGTG TGCAAAGAAC CTCAGTGAGT GCCACCAAAG AGCATCGAAG AAGAATGGGT 
AGACTCTTAA GGAGAGCTTC AAAACAGAAC ATCAGGAGGG ATTGTAACCC AGGGGTATCA 
GAGTCCTTCA AGGTGAAAGA TGAAGTTTTT ATCCCCTTTA CAAAACCATG GGAGTGTGGA 
GCAGAGCTAG CAGCAACCTC AATCAACCAC AAGCAAAATC ATTTGTCTCT GTCAGTAGAA 
CATCAGTGTC TCCAAGCCTG TGATGATTTG CTACCTTATC CTCCTCATGG TCTTCTGAGC 
AAGCAATGGC CTTGCTCATC TATGCCGGCC AAGCAGGCTC CTCCTTCCTG TGTGTCTGAG 
GGGTCAGTCA AGGGCAGAAT TCAGAAGGAG AACTTATTTC AGACTAACAA GCTCAAGAGC 
TTGTCTCGTC TTGCAGGCAA AGGACCAGAC TCATTTGAAA TGGAAGAGGT CCAAAGCTTT 
GAAGAAGAGA CTGGTAATCC TCTTGACATG ACTTCAGGAA CTGTAGGTGC CAGGGTGGAC 
AGAGCAAATA GCTGCCAGTC TGACAGCAGC GGGTTCCTGG AGGAGCCGCT GGAACCGCTG 
CCCCTCCAGA TGCCTTCCTT GCCAAACAGC CAGAGTCCTG CTGAGAATGG AGGTAGAAAG 
CCAAGAGATC AGAGCCACAG CTTAGTATCA TCCCAGGACT GTCAGCTAGA GTCAGATGGG 
CCAGATTCCA AGAGTAGGGC GAGCATGTCT TTTTCAAGCC AAGAAGCTAA TGCCTTGGAA 
CAAAGGGCCT CAGTATCTGT GATGGAGGAA GAGTTTCTGC TTGAGGCCAT GGAGGGGCCA 
CCAGAGCTGT ATATCCCAGA CATGGCCTGT GCCAAAACCA CCACGAGGGG AGAACACCCA 
AGGAAAGACA GCCATCTGCG GCAGCTTCTG CCAGTGCCCC ATGCTGAACA TGAGGTCACC 
GAACCCACAG CCACTTCCAA ATATGATCAT CCTCTGGGGT TTATGGTAAC CCATGTCACA 
GAAATGCAGG ACAGTTTTCT GAGGCCTGAG GGAGCTGGCA AAATGCAAAG CCACCGCAAT 
GAGTCTCAAA CATCACCTGG AAATGATCTT ACTCAAGACA AGTTCCTTCA TGTCGACTCT 
GAGGCCCCAC GAGAAGAGGA AAGCAGTGGA TTCTGTCCTC ACACCAACGA CAGCTTACTG 
GTACCAGAAA GCTCATCACA GTTTGTCCCC AAGCACAGGG AAATCACACC TTATGCAACC 
GACCTTGCTC AAACATCTGA AAAACCCATT CCCCACCTCC ATAAACTGCC TGGAGATCCT 
GCCCAGGTGA AGTCAAGGTC TGGTACTTTG GGTCAGATAC TATCTAGGAC AGAAGCTGAG 
ATGGAAAACC TTCCTCTAAA TACTGGCAGC TCCAGGTCTG TAACGACCCA GATGTCCTCC 
AGCCTGGTGT CGGCTGCTCA GAGTGCTGTG TCCTTGGGGA CTGGTCCCAG AGGAACATCT 
TTAAAATGCA CTATGTGTGA TCCTGTTACC ACAACAGAAA CAAGACTGGG GACAGAAGCA 
AGACAGTTAA ATGATGCTTC CATTCAGACT TCCGTATGCG AACCCAGGCC CTGGCATTTC 
TGTTCAGCTT CAAGCAACAA GGCCTTGACA CATGGGCCCC AGCCCCTCAC CAAATCTGTC 
TCTCTAGACT CAGGCTTCCC TAGTATCTGC CCAGTGGGCA CCTGCCATGC TATACCTGCC 
CACTACTGCA TCTGCTGTTA TCACCACCCT CACTGCCACA GGGAGAGGCA AAGCCCTGGC 
CCTGAACCCT CAGTCTGTAG GCACTGCCTG TGCTCACTTA CTGGTCACCA GGAAGCCCAG 
TTCATGACGA CTTTGAAAGC CCTTCAGGAC ACTACAGTGA GGGAGCTATG TTCCTGCACA 
GTCCATGAGA TGGAAGCCAT GAAGACGATA TGCCAGAGTT TCCGGGAGTA TTTAGAAGAA 
ATTGAACAGC ACCTTATGGG ACAGCAGGCC CTCTTTTCCA GGGACATGTC AGAGGAGGAA 
AGGGAGGAGG CTGAGCAACT GCAAACGTTA CGTGAGGCCC TGAGGCAGCA GGTGGCAGAA 
TTGGAATTTC AGTTAGGAGA CCGGGCTCAG CAAATCAGAG AAGGGATTTT ACTGCAGCTG 
GAGGTTCTCA CAGTAGAGCC ACCTGAACAC TATTCAAATC TGCGTCAATA TAACTGCATA 
GAAGAAAGCA ATGGCCAGAC TTCATGTTCT AAAATCCACC CAGGCATGGC CCCAAGGACT 
GTCTTTCCTC CCAATGATGG CCAGCAAGCT CCCTGTTCAG GTGAATTATT GTCTGCAGAG 
CTGGATCCCT TTTTTTTTNC TTCAAAAGCA AATAATTCTG CTAAAGATGA AAAAATAAAA 
TCAAAAGACT TTCTGAAGAC ACAAGACTCT GGTCTGTTGT AA

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

RefSeq	XP_009241155.1
CDS	8..3229
Translation	MPTTASCKTISLLRLIYSVSLQNYSPMMAQKSQGSDNLQEGQEKSKTEILKCTKSAWALLDEWLPPDPEEEGQGLTIPMLEDSKQESIQQWLDSGFFVSANENFQQVIDHTVSLYEQGMVQMTVKDYMRSLHQFSETPTLSRGTSFNSCYSTASVPQSIPEWLEFWEKDPVEILLDLGFGADEPDICTQIPARFLGCGSAARGINIRVFLEAQKQRMDIENPSLYGKRGASGILDHVTNAFSSLLSDVSILPSRAEEKAGGESVQRTSVSATKEHRRRMGRLLRRASKQNIRRDCNPGVSESFKVKDEVFIPFTKPWECGAELAATSINHKQNHLSLSVEHQCLQACDDLLPYPPHGLLSKQWPCSSMPAKQAPPSCVSEGSVKGRIQKENLFQTNKLKSLSRLAGKGPDSFEMEEVQSFEEETGNPLDMTSGTVGARVDRANSCQSDSSGFLEEPLEPLPLQMPSLPNSQSPAENGGRKPRDQSHSLVSSQDCQLESDGPDSKSRASMSFSSQEANALEQRASVSVMEEEFLLEAMEGPPELYIPDMACAKTTTRGEHPRKDSHLRQLLPVPHAEHEVTEPTATSKYDHPLGFMVTHVTEMQDSFLRPEGAGKMQSHRNESQTSPGNDLTQDKFLHVDSEAPREEESSGFCPHTNDSLLVPESSSQFVPKHREITPYATDLAQTSEKPIPHLHKLPGDPAQVKSRSGTLGQILSRTEAEMENLPLNTGSSRSVTTQMSSSLVSAAQSAVSLGTGPRGTSLKCTMCDPVTTTETRLGTEARQLNDASIQTSVCEPRPWHFCSASSNKALTHGPQPLTKSVSLDSGFPSICPVGTCHAIPAHYCICCYHHPHCHRERQSPGPEPSVCRHCLCSLTGHQEAQFMTTLKALQDTTVRELCSCTVHEMEAMKTICQSFREYLEEIEQHLMGQQALFSRDMSEEEREEAEQLQTLREALRQQVAELEFQLGDRAQQIREGILLQLEVLTVEPPEHYSNLRQYNCIEESNGQTSCSKIHPGMAPRTVFPPNDGQQAPCSGELLSAELDPFFFnullSKANNSAKDEKIKSKDFLKTQDSGLL

Target ORF information:

RefSeq Version	XM_009242880.1
Organism	Pongo abelii(Sumatran orangutan)
Definition	Pongo abelii coiled-coil domain containing 129 (CCDC129), mRNA.

Target ORF information:

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

XM_009242880.1

ORF Insert Sequence:

ATGCCAACTA CAGCAAGTTG CAAGACCATT TCTCTGCTGA GACTCATTTA TTCTGTTAGT 
TTGCAGAATT ACTCTCCTAT GATGGCACAG AAATCACAAG GATCTGACAA CCTTCAAGAA 
GGCCAAGAAA AGAGCAAGAC AGAGATCCTG AAGTGCACCA AGAGCGCGTG GGCTCTGCTG 
GATGAGTGGC TGCCCCCTGA CCCTGAGGAG GAAGGCCAGG GTCTCACCAT CCCCATGCTG 
GAAGATTCCA AGCAAGAAAG TATTCAGCAG TGGCTGGACT CTGGATTCTT TGTCTCTGCA 
AATGAAAACT TTCAACAAGT CATTGACCAC ACTGTTTCTT TGTATGAACA AGGGATGGTT 
CAAATGACTG TGAAAGACTA CATGAGATCT TTGCATCAGT TTTCAGAAAC TCCCACCCTA 
TCCAGAGGGA CCAGTTTCAA CTCTTGCTAT TCTACTGCAA GTGTACCACA AAGCATTCCT 
GAATGGCTGG AATTTTGGGA GAAAGATCCA GTGGAGATTC TCTTGGATCT GGGGTTTGGT 
GCTGATGAGC CAGACATCTG CACGCAAATC CCAGCCAGAT TCCTTGGTTG TGGCTCAGCA 
GCCAGAGGGA TCAACATCCG TGTTTTTCTT GAAGCTCAAA AGCAGCGAAT GGACATTGAG 
AACCCCAGCT TGTACGGTAA GCGAGGTGCC TCTGGAATCC TGGACCACGT GACCAATGCC 
TTCTCATCTC TGCTGAGTGA TGTCAGCATC CTGCCAAGCA GAGCTGAAGA GAAAGCTGGA 
GGAGAGAGTG TGCAAAGAAC CTCAGTGAGT GCCACCAAAG AGCATCGAAG AAGAATGGGT 
AGACTCTTAA GGAGAGCTTC AAAACAGAAC ATCAGGAGGG ATTGTAACCC AGGGGTATCA 
GAGTCCTTCA AGGTGAAAGA TGAAGTTTTT ATCCCCTTTA CAAAACCATG GGAGTGTGGA 
GCAGAGCTAG CAGCAACCTC AATCAACCAC AAGCAAAATC ATTTGTCTCT GTCAGTAGAA 
CATCAGTGTC TCCAAGCCTG TGATGATTTG CTACCTTATC CTCCTCATGG TCTTCTGAGC 
AAGCAATGGC CTTGCTCATC TATGCCGGCC AAGCAGGCTC CTCCTTCCTG TGTGTCTGAG 
GGGTCAGTCA AGGGCAGAAT TCAGAAGGAG AACTTATTTC AGACTAACAA GCTCAAGAGC 
TTGTCTCGTC TTGCAGGCAA AGGACCAGAC TCATTTGAAA TGGAAGAGGT CCAAAGCTTT 
GAAGAAGAGA CTGGTAATCC TCTTGACATG ACTTCAGGAA CTGTAGGTGC CAGGGTGGAC 
AGAGCAAATA GCTGCCAGTC TGACAGCAGC GGGTTCCTGG AGGAGCCGCT GGAACCGCTG 
CCCCTCCAGA TGCCTTCCTT GCCAAACAGC CAGAGTCCTG CTGAGAATGG AGGTAGAAAG 
CCAAGAGATC AGAGCCACAG CTTAGTATCA TCCCAGGACT GTCAGCTAGA GTCAGATGGG 
CCAGATTCCA AGAGTAGGGC GAGCATGTCT TTTTCAAGCC AAGAAGCTAA TGCCTTGGAA 
CAAAGGGCCT CAGTATCTGT GATGGAGGAA GAGTTTCTGC TTGAGGCCAT GGAGGGGCCA 
CCAGAGCTGT ATATCCCAGA CATGGCCTGT GCCAAAACCA CCACGAGGGG AGAACACCCA 
AGGAAAGACA GCCATCTGCG GCAGCTTCTG CCAGTGCCCC ATGCTGAACA TGAGGTCACC 
GAACCCACAG CCACTTCCAA ATATGATCAT CCTCTGGGGT TTATGGTAAC CCATGTCACA 
GAAATGCAGG ACAGTTTTCT GAGGCCTGAG GGAGCTGGCA AAATGCAAAG CCACCGCAAT 
GAGTCTCAAA CATCACCTGG AAATGATCTT ACTCAAGACA AGTTCCTTCA TGTCGACTCT 
GAGGCCCCAC GAGAAGAGGA AAGCAGTGGA TTCTGTCCTC ACACCAACGA CAGCTTACTG 
GTACCAGAAA GCTCATCACA GTTTGTCCCC AAGCACAGGG AAATCACACC TTATGCAACC 
GACCTTGCTC AAACATCTGA AAAACCCATT CCCCACCTCC ATAAACTGCC TGGAGATCCT 
GCCCAGGTGA AGTCAAGGTC TGGTACTTTG GGTCAGATAC TATCTAGGAC AGAAGCTGAG 
ATGGAAAACC TTCCTCTAAA TACTGGCAGC TCCAGGTCTG TAACGACCCA GATGTCCTCC 
AGCCTGGTGT CGGCTGCTCA GAGTGCTGTG TCCTTGGGGA CTGGTCCCAG AGGAACATCT 
TTAAAATGCA CTATGTGTGA TCCTGTTACC ACAACAGAAA CAAGACTGGG GACAGAAGCA 
AGACAGTTAA ATGATGCTTC CATTCAGACT TCCGTATGCG AACCCAGGCC CTGGCATTTC 
TGTTCAGCTT CAAGCAACAA GGCCTTGACA CATGGGCCCC AGCCCCTCAC CAAATCTGTC 
TCTCTAGACT CAGGCTTCCC TAGTATCTGC CCAGTGGGCA CCTGCCATGC TATACCTGCC 
CACTACTGCA TCTGCTGTTA TCACCACCCT CACTGCCACA GGGAGAGGCA AAGCCCTGGC 
CCTGAACCCT CAGTCTGTAG GCACTGCCTG TGCTCACTTA CTGGTCACCA GGAAGCCCAG 
TTCATGACGA CTTTGAAAGC CCTTCAGGAC ACTACAGTGA GGGAGCTATG TTCCTGCACA 
GTCCATGAGA TGGAAGCCAT GAAGACGATA TGCCAGAGTT TCCGGGAGTA TTTAGAAGAA 
ATTGAACAGC ACCTTATGGG ACAGCAGGCC CTCTTTTCCA GGGACATGTC AGAGGAGGAA 
AGGGAGGAGG CTGAGCAACT GCAAACGTTA CGTGAGGCCC TGAGGCAGCA GGTGGCAGAA 
TTGGAATTTC AGTTAGGAGA CCGGGCTCAG CAAATCAGAG AAGGGATTTT ACTGCAGCTG 
GAGGTTCTCA CAGTAGAGCC ACCTGAACAC TATTCAAATC TGCGTCAATA TAACTGCATA 
GAAGAAAGCA ATGGCCAGAC TTCATGTTCT AAAATCCACC CAGGCATGGC CCCAAGGACT 
GTCTTTCCTC CCAATGATGG CCAGCAAGCT CCCTGTTCAG GTGAATTATT GTCTGCAGAG 
CTGGATCCCT TTTTTTTTNC TTCAAAAGCA AATAATTCTG CTAAAGATGA AAAAATAAAA 
TCAAAAGACT TTCTGAAGAC ACAAGACTCT GGTCTGTTGT AA