CCDC136 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	CCDC136
Entrez Gene ID	64753
Full Name	coiled-coil domain containing 136
Synonyms	NAG6
General protein information	Preferred Names coiled-coil domain containing 136 Names coiled-coil domain-containing protein 136 nasopharyngeal carcinoma-associated gene 6 protein
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 7 Map Location: 7q32.1
Disorder MIM:	611902

mRNA and Protein(s)

mRNA	Protein	Name
NM_001201372.1	NP_001188301.1	coiled-coil domain-containing protein 136 isoform 2
NM_001367763.1	NP_001354692.1	coiled-coil domain-containing protein 136 isoform 7
NM_001363424.2	NP_001350353.1	coiled-coil domain-containing protein 136 isoform 4
XM_011516484.1	XP_011514786.1	coiled-coil domain-containing protein 136 isoform X2
XM_011516485.1	XP_011514787.1	coiled-coil domain-containing protein 136 isoform X3
XM_024446872.1	XP_024302640.1	coiled-coil domain-containing protein 136 isoform X6
XM_017012532.1	XP_016868021.1	coiled-coil domain-containing protein 136 isoform X8
XM_011516489.1	XP_011514791.1	coiled-coil domain-containing protein 136 isoform X12
XM_017012536.1	XP_016868025.1	coiled-coil domain-containing protein 136 isoform X15
NM_001363423.2	NP_001350352.1	coiled-coil domain-containing protein 136 isoform 3
NM_001367765.1	NP_001354694.1	coiled-coil domain-containing protein 136 isoform 9
NM_001367761.1	NP_001354690.1	coiled-coil domain-containing protein 136 isoform 5
XM_024446873.1	XP_024302641.1	coiled-coil domain-containing protein 136 isoform X10
XM_024446874.1	XP_024302642.1	coiled-coil domain-containing protein 136 isoform X10
XM_005250538.1	XP_005250595.1	coiled-coil domain-containing protein 136 isoform X11
XM_017012534.1	XP_016868023.1	coiled-coil domain-containing protein 136 isoform X12
XM_005250534.3	XP_005250591.1	coiled-coil domain-containing protein 136 isoform X5
NM_022742.4	NP_073579.4	coiled-coil domain-containing protein 136 isoform 1
NM_001367764.1	NP_001354693.1	coiled-coil domain-containing protein 136 isoform 8
NM_001367762.1	NP_001354691.1	coiled-coil domain-containing protein 136 isoform 6
NM_001367766.1	NP_001354695.1	coiled-coil domain-containing protein 136 isoform 10
XM_011516488.2	XP_011514790.1	coiled-coil domain-containing protein 136 isoform X9
XM_017012533.1	XP_016868022.1	coiled-coil domain-containing protein 136 isoform X11
XM_017012535.1	XP_016868024.1	coiled-coil domain-containing protein 136 isoform X14
NM_001363423.1	NP_001350352.1	coiled-coil domain-containing protein 136 isoform 3
NM_001363424.1	NP_001350353.1	coiled-coil domain-containing protein 136 isoform 4
NM_022742.5	NP_073579.5	coiled-coil domain-containing protein 136 isoform 1
NM_001201372.2	NP_001188301.1	coiled-coil domain-containing protein 136 isoform 2
XM_011516483.1	XP_011514785.1	coiled-coil domain-containing protein 136 isoform X1
XM_011516486.1	XP_011514788.1	coiled-coil domain-containing protein 136 isoform X4
XM_011516487.2	XP_011514789.1	coiled-coil domain-containing protein 136 isoform X7
XM_011516490.2	XP_011514792.1	coiled-coil domain-containing protein 136 isoform X15
XM_024446875.1	XP_024302643.1	coiled-coil domain-containing protein 136 isoform X16

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	CCDC136	XP_519361.3
Canis lupus familiaris (dog)	CCDC136	XP_003431927.2
Xenopus tropicalis (tropical clawed frog)	ccdc136	NP_001186850.1
Mus musculus (house mouse)	Ccdc136	NP_663549.3
Homo sapiens (human)	CCDC136	NP_073579.4
Bos taurus (cattle)	CCDC136	XP_002686993.2
Rattus norvegicus (Norway rat)	Ccdc136	XP_006236304.1
Danio rerio (zebrafish)	ccdc136b	XP_005170778.1
	CCDC136	XP_001090156.2
Danio rerio (zebrafish)	LOC100330186	XP_005164664.1

Gene Ontology
Bibliography

Related articles in PubMed

Enrichment of putatively damaging rare variants in the DYX2 locus and the reading-related genes CCDC136 and FLNC.
Adams AK, Smith SD, Truong DT, Willcutt EG, Olson RK, DeFries JC, Pennington BF, Gruen JR
Human genetics136(11-12)1395-1405(2017 Nov)

Genome-wide screening for DNA variants associated with reading and language traits.
Gialluisi A, Newbury DF, Wilcutt EG, Olson RK, DeFries JC, Brandler WM, Pennington BF, Smith SD, Scerri TS, Simpson NH, , Luciano M, Evans DM, Bates TC, Stein JF, Talcott JB, Monaco AP, Paracchini S, Francks C, Fisher SE
Genes, brain, and behavior13(7)686-701(2014 Sep)

Genetic variants in nuclear-encoded mitochondrial genes influence AIDS progression.
Hendrickson SL, Lautenberger JA, Chinn LW, Malasky M, Sezgin E, Kingsley LA, Goedert JJ, Kirk GD, Gomperts ED, Buchbinder SP, Troyer JL, O'Brien SJ
PloS one5(9)e12862(2010 Sep)

A germline-specific class of small RNAs binds mammalian Piwi proteins.
Girard A, Sachidanandam R, Hannon GJ, Carmell MA
Nature442(7099)199-202(2006 Jul)

A protein-protein interaction network for human inherited ataxias and disorders of Purkinje cell degeneration.
Lim J, Hao T, Shaw C, Patel AJ, Szab? G, Rual JF, Fisk CJ, Li N, Smolyar A, Hill DE, Barab?si AL, Vidal M, Zoghbi HY
Cell125(4)801-14(2006 May)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

Missense variant in CCDC136 gene is associated with reading disability.
Title: Enrichment of putatively damaging rare variants in the DYX2 locus and the reading-related genes CCDC136 and FLNC.

CCDC136 locus showed association with a comparable reading/language measure.
Title: Genome-wide screening for DNA variants associated with reading and language traits.

Observational study of gene-disease association. (HuGE Navigator)
Title: Genetic variants in nuclear-encoded mitochondrial genes influence AIDS progression.

Data suggest that NAG6 may represent a candidate tumor suppressor gene at 7q31-32 loci associated with gastric carcinoma.
Title: Expression of tumor related gene NAG6 in gastric cancer and restriction fragment length polymorphism analysis.

The following CCDC136 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC136 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)
OHu03907	NM_022742.4 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$274.50-$384.30 $549.00
OHu107444	NM_001367766.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	9-11	$223.30 $319.00
OHu107450	NM_001367765.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$307.30 $439.00
OHu105929	XM_024446875.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X17, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$307.30 $439.00
OHu107447	NM_022742.5 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OHu105927	XM_024446872.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OHu105928	XM_024446874.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X11, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OHu105928	XM_024446873.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OHu97449	XM_017012533.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X12, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OHu06194	NM_001201372.2 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$223.30 $319.00
OHu41716	NM_001367764.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu41721	NM_001363423.2 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$559.30 $799.00
OHu41725	NM_001367761.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$223.30 $319.00
OHu97450	NM_001363424.2 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$475.30 $679.00
OHu97451	NM_001367763.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$307.30 $439.00
OHu97452	NM_001367762.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$307.30 $439.00
OHu41716	XM_005250534.3 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu41721	XM_005250538.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X11, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$559.30 $799.00
OHu71432	XM_011516483.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu71433	XM_011516484.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu71434	XM_011516485.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu71435	XM_011516486.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu71436	XM_011516487.2 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu71437	XM_011516488.2 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu71438	XM_011516489.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X13, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$559.30 $799.00
OHu71439	XM_011516490.2 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X16, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu97448	XM_017012532.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu97450	XM_017012534.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X12, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$475.30 $679.00
OHu97451	XM_017012535.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X14, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$307.30 $439.00
OHu97452	XM_017012536.1 Latest version!	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X15, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$307.30 $439.00
View Old Accession Versions >>
OHu41721	NM_001363423.1	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$559.30 $799.00
OHu97450	NM_001363424.1	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$475.30 $679.00
OHu06194	NM_001201372.1	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$223.30 $319.00
Hide Old Accession Versions >>

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***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

CCDC136 ( NM_022742.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_073579.4 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu03907
Clone ID Related Accession (Same CDS sequence)	NM_022742.4
Accession Version	NM_022742.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3465bp) 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	2017-12-10
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX952188.1, AB058696.1 and AI611323.1. On Jan 19, 2011 this sequence version replaced NM_022742.3. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). ##Evidence-Data-START## Transcript exon combination :: BC150331.1, AB058696.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN03267773, SAMN03465402 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTGTGA CACACTGCTG 
TCCAGACTGA CAGAATTGCA GGAAAAGTAC AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG 
CAGATGGAGC AGTGTGAGCT CCTGGAGGAT CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG 
CTGCAGGAAG AGCTGCACAG GCTCACACTG CCACTGCCAA AGAGTGGCCT CTTACTCAAG 
AGTCAGGAGC TACTCACCAA GTTAGAAGAC CTGTGTGAGC TGCAGCTGCT CTACCAAGGC 
ATGCAGGAGG AACAGAAGAA GCTGATACAG AACCAAGACT GTGTATTAAA AGAACAATTA 
GAGATCCACG AAGAGCTGCG ACGTTTCAAA GAGTCTCATT TCCAGGAAGT GTTGGAGAAT 
CCCGATGATT CCAAATTGGC TAAGTCCTCC AAATGTAATC GAAACAAGCA ATCCAAGCTG 
CTCATGGAGC AGATGCAGGC CCTGCAGGTG ATGTATGACG CCGGTCAGGC GAAGCAGGAG 
CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA GAGGAGCGGA AGAGGCTGCA GGCAGACTTG 
CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT CAAGTCCAGT CCCCTTCTAT AAAAATGAGC 
CTTGAGTCCT ACGGGAAGAG CTATGGTAGC ATGGTCCCCA GCAATGAGAA CTGTCGCAAG 
ACTTATGATA CCACTGTGGA TGACAATGAG AGCTATTACA AGAGTTACAC CAGCACCCAG 
ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT GACAGCAGCA CCAGTGCCAG TGAGGCCTAT 
GGGAAGAGTT ACTGCACTAC CAGCAACAGC AGCATTACCT ATAAGAAGAG TTACGGCAGC 
ACCAGTAGCT CTGACACCTG CCAGAAGAGT TTTGTCAGCA GCTGCACTGA CGAGGAACCT 
GCTGAGCCTG AAGACATGGA GCGCTTTGAG GAAATGGTTG TGAAAGTGCT GATCAAGCTG 
CAGGCGGTGC AGGCCATGTA CCAGATAAGC CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG 
ATGGAAAAGT TACTGGCCAA GCAGAAAGAC CTGAAGGAAG AGCTGGATGC CTGTGAAAGG 
GAGTTCAAGG AGTGCATGGA ATGCCTTGAA AAGCCCATGG CCCCCCAGAA CGACAAGAAT 
GAGATCAAAG AACTGCAGAC CAAGCTGCGG GAGCTGCAGC TGCAATACCA GGCTAGCATG 
GATGAGCAGG GGCGGCTTCT GGTAGTGCAG GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC 
CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG 
AAGAATGCTA ATAAGAACAT GAACAAGAAT GCCAATGGGG TTAAAATGAA AAAGGTGACC 
AAGCCATGCT CGGATACTTC TGAGAGCGAC CTTGAGACCA GAAAGAGTCT GGAGGTAGTG 
CTGTACTACA AGGCCAGCCA GAGGAAATTA GATGGACTAG CAAAAGAGGA GGAAAAGAAA 
GAGGAGATGG AGGAGGAAAA AAAGGAAGTG AAAGAGGAAG CAAAGGAGCA GTGTGGGGAT 
GAGCTAGTTG CTGAGCCAGC AGATCCTGAG GAAGCTAAAT CCACAGAAGA TCAGGAGGAA 
AATGAAGAGG ACAAAGAGGA AGAGGAGAAG GAAGAAGACA GTGAAGAGGA GGAGGATGAC 
GCCGACTCTT CCCTTGAAAG TCCCGAAGAA AATAACCCCC TCAGACTTTC CGAGAGCAAA 
AAGTCATCCC CTACCCCCAA TCCCCCCATC TTCTCCTTGC CTCTTGTAGG CCTGGTGGTC 
ATCTCGGCTT TGCTCTGGTG CTGGTGGGCT GAGACGTCGT CCTAA

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

RefSeq	NP_073579.4
CDS	417..3881
Translation	MQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKEVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	NM_022742.4
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 1, mRNA.

Target ORF information:

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

NM_022742.4

ORF Insert Sequence:

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTGTGA CACACTGCTG 
TCCAGACTGA CAGAATTGCA GGAAAAGTAC AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG 
CAGATGGAGC AGTGTGAGCT CCTGGAGGAT CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG 
CTGCAGGAAG AGCTGCACAG GCTCACACTG CCACTGCCAA AGAGTGGCCT CTTACTCAAG 
AGTCAGGAGC TACTCACCAA GTTAGAAGAC CTGTGTGAGC TGCAGCTGCT CTACCAAGGC 
ATGCAGGAGG AACAGAAGAA GCTGATACAG AACCAAGACT GTGTATTAAA AGAACAATTA 
GAGATCCACG AAGAGCTGCG ACGTTTCAAA GAGTCTCATT TCCAGGAAGT GTTGGAGAAT 
CCCGATGATT CCAAATTGGC TAAGTCCTCC AAATGTAATC GAAACAAGCA ATCCAAGCTG 
CTCATGGAGC AGATGCAGGC CCTGCAGGTG ATGTATGACG CCGGTCAGGC GAAGCAGGAG 
CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA GAGGAGCGGA AGAGGCTGCA GGCAGACTTG 
CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT CAAGTCCAGT CCCCTTCTAT AAAAATGAGC 
CTTGAGTCCT ACGGGAAGAG CTATGGTAGC ATGGTCCCCA GCAATGAGAA CTGTCGCAAG 
ACTTATGATA CCACTGTGGA TGACAATGAG AGCTATTACA AGAGTTACAC CAGCACCCAG 
ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT GACAGCAGCA CCAGTGCCAG TGAGGCCTAT 
GGGAAGAGTT ACTGCACTAC CAGCAACAGC AGCATTACCT ATAAGAAGAG TTACGGCAGC 
ACCAGTAGCT CTGACACCTG CCAGAAGAGT TTTGTCAGCA GCTGCACTGA CGAGGAACCT 
GCTGAGCCTG AAGACATGGA GCGCTTTGAG GAAATGGTTG TGAAAGTGCT GATCAAGCTG 
CAGGCGGTGC AGGCCATGTA CCAGATAAGC CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG 
ATGGAAAAGT TACTGGCCAA GCAGAAAGAC CTGAAGGAAG AGCTGGATGC CTGTGAAAGG 
GAGTTCAAGG AGTGCATGGA ATGCCTTGAA AAGCCCATGG CCCCCCAGAA CGACAAGAAT 
GAGATCAAAG AACTGCAGAC CAAGCTGCGG GAGCTGCAGC TGCAATACCA GGCTAGCATG 
GATGAGCAGG GGCGGCTTCT GGTAGTGCAG GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC 
CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG 
AAGAATGCTA ATAAGAACAT GAACAAGAAT GCCAATGGGG TTAAAATGAA AAAGGTGACC 
AAGCCATGCT CGGATACTTC TGAGAGCGAC CTTGAGACCA GAAAGAGTCT GGAGGTAGTG 
CTGTACTACA AGGCCAGCCA GAGGAAATTA GATGGACTAG CAAAAGAGGA GGAAAAGAAA 
GAGGAGATGG AGGAGGAAAA AAAGGAAGTG AAAGAGGAAG CAAAGGAGCA GTGTGGGGAT 
GAGCTAGTTG CTGAGCCAGC AGATCCTGAG GAAGCTAAAT CCACAGAAGA TCAGGAGGAA 
AATGAAGAGG ACAAAGAGGA AGAGGAGAAG GAAGAAGACA GTGAAGAGGA GGAGGATGAC 
GCCGACTCTT CCCTTGAAAG TCCCGAAGAA AATAACCCCC TCAGACTTTC CGAGAGCAAA 
AAGTCATCCC CTACCCCCAA TCCCCCCATC TTCTCCTTGC CTCTTGTAGG CCTGGTGGTC 
ATCTCGGCTT TGCTCTGGTG CTGGTGGGCT GAGACGTCGT CCTAA

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

CCDC136 ( NM_001367766.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001354695.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 10, mRNA.

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CloneID	OHu107444
Clone ID Related Accession (Same CDS sequence)	NM_001367766.1
Accession Version	NM_001367766.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1191bp) 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	2019-08-07
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 10
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC024952.4 and AC025594.5. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR3476690.277266.1, SRR3476690.754640.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145544, SAMEA2145743 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGT CATCCCCTAC CCCCAATCCC CCCATCTTCT CCTTGCCTCT TGTAGGCCTG 
GTGGTCATCT CGGCTTTGCT CTGGTGCTGG TGGGCTGAGA CGTCGTCCTA A

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

RefSeq	NP_001354695.1
CDS	445..1635
Translation	MQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	NM_001367766.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 10, mRNA.

Target ORF information:

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

NM_001367766.1

ORF Insert Sequence:

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGT CATCCCCTAC CCCCAATCCC CCCATCTTCT CCTTGCCTCT TGTAGGCCTG 
GTGGTCATCT CGGCTTTGCT CTGGTGCTGG TGGGCTGAGA CGTCGTCCTA A

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

CCDC136 ( NM_001367765.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001354694.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 9, mRNA.

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CloneID	OHu107450
Clone ID Related Accession (Same CDS sequence)	NM_001367765.1
Accession Version	NM_001367765.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1707bp) 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	2019-08-07
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 9
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC024952.4 and AC025594.5. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.240576.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2154665, SAMN03465404 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTCATC CCCTACCCCC 
AATCCCCCCA TCTTCTCCTT GCCTCTTGTA GGCCTGGTGG TCATCTCGGC TTTGCTCTGG 
TGCTGGTGGG CTGAGACGTC GTCCTAA

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

RefSeq	NP_001354694.1
CDS	309..2015
Translation	MQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	NM_001367765.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 9, mRNA.

Target ORF information:

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

NM_001367765.1

ORF Insert Sequence:

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTCATC CCCTACCCCC 
AATCCCCCCA TCTTCTCCTT GCCTCTTGTA GGCCTGGTGG TCATCTCGGC TTTGCTCTGG 
TGCTGGTGGG CTGAGACGTC GTCCTAA

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

CCDC136 ( XM_024446875.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302643.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X17, mRNA.

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CloneID	OHu105929
Clone ID Related Accession (Same CDS sequence)	XM_024446875.1
Accession Version	XM_024446875.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1878bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X16
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGCAGC TGCAGATGGA GCAGTGTGAG CTCCTGGAGG ATCAGAGGAG GATGCAGGAG 
GAGCAGGGCC AGCTGCAGGA AGAGCTGCAC AGGCTCACAC TGCCACTGCC AAAGAGTGGC 
CTCTTACTCA AGAGTCAGGA GCTACTCACC AAGTTAGAAG ACCTGTGTGA GCTGCAGCTG 
CTCTACCAAG GCATGCAGGA GGAACAGAAG AAGCTGATAC AGAACCAAGA CTGTGTATTA 
AAAGAACAAT TAGAGATCCA CGAAGAGCTG CGACGTTTCA AAGAGTCTCA TTTCCAGGAA 
GTGTTGGAGA ATCCCGATGA TTCCAAATTG GCTAAGTCCT CCAAATGTAA TCGAAACAAG 
CAGCCAAGAA GCCAGGCCCA ACATGCCCAG AGGCCAGATT CAGAATTGGG GCAGGAGATA 
CAGGAACTAA TACAATCCAA GCTGCTCATG GAGCAGATGC AGGCCCTGCA GGTGATGTAT 
GACGCCGGTC AGGCGAAGCA GGAGCTCTTG CAGCAAGAGC AAGGGAGGCT CCTAGAGGAG 
CGGAAGAGGC TGCAGGCAGA CTTGCAGCTC TGCCTGGAAG AAATGCAGCT GCTTCAAGTC 
CAGTCCCCTT CTATAAAAAT GAGCCTTGAG TCCTACGGGA AGAGCTATGG TAGCATGGTC 
CCCAGCAATG AGAACTGTCG CAAGACTTAT GATACCACTG TGGATGACAA TGAGAGCTAT 
TACAAGAGTT ACACCAGCAC CCAGACCAGC AGCAAGAGCT TTCTCAAGAG CTATGACAGC 
AGCACCAGTG CCAGTGAGGC CTATGGGAAG AGTTACTGCA CTACCAGCAA CAGCAGCATT 
ACCTATAAGA AGAGTTACGG CAGCACCAGT AGCTCTGACA CCTGCCAGAA GAGTTTTGTC 
AGCAGCTGCA CTGACGAGGA ACCTGCTGAG CCTGAAGACA TGGAGCGCTT TGAGGAAATG 
GTTGTGAAAG TGCTGATCAA GCTGCAGGCG GTGCAGGCCA TGTACCAGAT AAGCCAGGAG 
GAACACAGCC AGCTGCAAGA GCAGATGGAA AAGTTACTGG CCAAGCAGAA AGACCTGAAG 
GAAGAGCTGG ATGCCTGTGA AAGGGAGTTC AAGGAGTGCA TGGAATGCCT TGAAAAGCCC 
ATGGCCCCCC AGAACGACAA GAATGAGATC AAAGAACTGC AGACCAAGCT GCGGGAGCTG 
CAGCTGCAAT ACCAGGCTAG CATGGATGAG CAGGGGCGGC TTCTGGTAGT GCAGGAGCAG 
CTGGAGGGGC AGCTGCAGTG CTGCCAGGAG GAGCTCCGCC AGCTCAGGGA GAAGAGGCCT 
TCTGTTGTCA AAGAAGCCCG GGGGAAGAAT GCTAATAAGA ACATGAACAA GAATGCCAAT 
GGGGTTAAAA TGAAAAAGGT GACCAAGCCA TGCTCGGATA CTTCTGAGAG CGACCTTGAG 
ACCAGAAAGA GTCTGGAGGT AGTGCTGTAC TACAAGGCCA GCCAGAGGAA ATTAGATGGA 
CTAGCAAAAG AGGAGGAAAA GAAAGAGGAG ATGGAGGAGG AAAAAAAGCA AGTGAAAGAG 
GAAGCAAAGG AGCAGTGTGG GGATGAGCTA GTTGCTGAGC CAGCAGATCC TGAGGAAGCT 
AAATCCACAG AAGATCAGGA GGAAAATGAA GAGGACAAAG AGGAAGAGGA GAAGGAAGAA 
GACAGTGAAG AGGAGGAGGA TGACGCCGAC TCTTCCCTTG AAAGTCCCGA AGAAAATAAC 
CCCCTCAGAC TTTCCGAGAG CAAAAAGAAC ATGTTTGGGT TGTGGAAGCC TATGGTATTC 
TTGGCTATTG CAGCTGTGGC TCTGTATGTG TTACCCAACA TGCGACAGCA GGAGTCAGAG 
TTCTGCCTCA TGGAGTGA

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

RefSeq	XP_024302643.1
CDS	297..2174
Translation	MGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQPRSQAQHAQRPDSELGQEIQELIQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKNMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_024446875.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X17, mRNA.

Target ORF information:

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

XM_024446875.1

ORF Insert Sequence:

ATGGGGCAGC TGCAGATGGA GCAGTGTGAG CTCCTGGAGG ATCAGAGGAG GATGCAGGAG 
GAGCAGGGCC AGCTGCAGGA AGAGCTGCAC AGGCTCACAC TGCCACTGCC AAAGAGTGGC 
CTCTTACTCA AGAGTCAGGA GCTACTCACC AAGTTAGAAG ACCTGTGTGA GCTGCAGCTG 
CTCTACCAAG GCATGCAGGA GGAACAGAAG AAGCTGATAC AGAACCAAGA CTGTGTATTA 
AAAGAACAAT TAGAGATCCA CGAAGAGCTG CGACGTTTCA AAGAGTCTCA TTTCCAGGAA 
GTGTTGGAGA ATCCCGATGA TTCCAAATTG GCTAAGTCCT CCAAATGTAA TCGAAACAAG 
CAGCCAAGAA GCCAGGCCCA ACATGCCCAG AGGCCAGATT CAGAATTGGG GCAGGAGATA 
CAGGAACTAA TACAATCCAA GCTGCTCATG GAGCAGATGC AGGCCCTGCA GGTGATGTAT 
GACGCCGGTC AGGCGAAGCA GGAGCTCTTG CAGCAAGAGC AAGGGAGGCT CCTAGAGGAG 
CGGAAGAGGC TGCAGGCAGA CTTGCAGCTC TGCCTGGAAG AAATGCAGCT GCTTCAAGTC 
CAGTCCCCTT CTATAAAAAT GAGCCTTGAG TCCTACGGGA AGAGCTATGG TAGCATGGTC 
CCCAGCAATG AGAACTGTCG CAAGACTTAT GATACCACTG TGGATGACAA TGAGAGCTAT 
TACAAGAGTT ACACCAGCAC CCAGACCAGC AGCAAGAGCT TTCTCAAGAG CTATGACAGC 
AGCACCAGTG CCAGTGAGGC CTATGGGAAG AGTTACTGCA CTACCAGCAA CAGCAGCATT 
ACCTATAAGA AGAGTTACGG CAGCACCAGT AGCTCTGACA CCTGCCAGAA GAGTTTTGTC 
AGCAGCTGCA CTGACGAGGA ACCTGCTGAG CCTGAAGACA TGGAGCGCTT TGAGGAAATG 
GTTGTGAAAG TGCTGATCAA GCTGCAGGCG GTGCAGGCCA TGTACCAGAT AAGCCAGGAG 
GAACACAGCC AGCTGCAAGA GCAGATGGAA AAGTTACTGG CCAAGCAGAA AGACCTGAAG 
GAAGAGCTGG ATGCCTGTGA AAGGGAGTTC AAGGAGTGCA TGGAATGCCT TGAAAAGCCC 
ATGGCCCCCC AGAACGACAA GAATGAGATC AAAGAACTGC AGACCAAGCT GCGGGAGCTG 
CAGCTGCAAT ACCAGGCTAG CATGGATGAG CAGGGGCGGC TTCTGGTAGT GCAGGAGCAG 
CTGGAGGGGC AGCTGCAGTG CTGCCAGGAG GAGCTCCGCC AGCTCAGGGA GAAGAGGCCT 
TCTGTTGTCA AAGAAGCCCG GGGGAAGAAT GCTAATAAGA ACATGAACAA GAATGCCAAT 
GGGGTTAAAA TGAAAAAGGT GACCAAGCCA TGCTCGGATA CTTCTGAGAG CGACCTTGAG 
ACCAGAAAGA GTCTGGAGGT AGTGCTGTAC TACAAGGCCA GCCAGAGGAA ATTAGATGGA 
CTAGCAAAAG AGGAGGAAAA GAAAGAGGAG ATGGAGGAGG AAAAAAAGCA AGTGAAAGAG 
GAAGCAAAGG AGCAGTGTGG GGATGAGCTA GTTGCTGAGC CAGCAGATCC TGAGGAAGCT 
AAATCCACAG AAGATCAGGA GGAAAATGAA GAGGACAAAG AGGAAGAGGA GAAGGAAGAA 
GACAGTGAAG AGGAGGAGGA TGACGCCGAC TCTTCCCTTG AAAGTCCCGA AGAAAATAAC 
CCCCTCAGAC TTTCCGAGAG CAAAAAGAAC ATGTTTGGGT TGTGGAAGCC TATGGTATTC 
TTGGCTATTG CAGCTGTGGC TCTGTATGTG TTACCCAACA TGCGACAGCA GGAGTCAGAG 
TTCTGCCTCA TGGAGTGA

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

CCDC136 ( NM_022742.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_073579.5 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 1, mRNA.

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CloneID	OHu107447
Clone ID Related Accession (Same CDS sequence)	NM_022742.5
Accession Version	NM_022742.5 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3465bp) 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	2019-05-01
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC024952.4 and AC025594.5. On Nov 24, 2018 this sequence version replaced NM_022742.4. Transcript Variant: This variant (1) encodes isoform 1. ##Evidence-Data-START## Transcript exon combination :: BC150331.1, AB058696.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN03267773, SAMN03465402 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000297788.9/ ENSP00000297788.4 RefSeq Select criteria :: based on computational evidence ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTGTGA CACACTGCTG 
TCCAGACTGA CAGAATTGCA GGAAAAGTAC AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG 
CAGATGGAGC AGTGTGAGCT CCTGGAGGAT CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG 
CTGCAGGAAG AGCTGCACAG GCTCACACTG CCACTGCCAA AGAGTGGCCT CTTACTCAAG 
AGTCAGGAGC TACTCACCAA GTTAGAAGAC CTGTGTGAGC TGCAGCTGCT CTACCAAGGC 
ATGCAGGAGG AACAGAAGAA GCTGATACAG AACCAAGACT GTGTATTAAA AGAACAATTA 
GAGATCCACG AAGAGCTGCG ACGTTTCAAA GAGTCTCATT TCCAGGAAGT GTTGGAGAAT 
CCCGATGATT CCAAATTGGC TAAGTCCTCC AAATGTAATC GAAACAAGCA ATCCAAGCTG 
CTCATGGAGC AGATGCAGGC CCTGCAGGTG ATGTATGACG CCGGTCAGGC GAAGCAGGAG 
CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA GAGGAGCGGA AGAGGCTGCA GGCAGACTTG 
CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT CAAGTCCAGT CCCCTTCTAT AAAAATGAGC 
CTTGAGTCCT ACGGGAAGAG CTATGGTAGC ATGGTCCCCA GCAATGAGAA CTGTCGCAAG 
ACTTATGATA CCACTGTGGA TGACAATGAG AGCTATTACA AGAGTTACAC CAGCACCCAG 
ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT GACAGCAGCA CCAGTGCCAG TGAGGCCTAT 
GGGAAGAGTT ACTGCACTAC CAGCAACAGC AGCATTACCT ATAAGAAGAG TTACGGCAGC 
ACCAGTAGCT CTGACACCTG CCAGAAGAGT TTTGTCAGCA GCTGCACTGA CGAGGAACCT 
GCTGAGCCTG AAGACATGGA GCGCTTTGAG GAAATGGTTG TGAAAGTGCT GATCAAGCTG 
CAGGCGGTGC AGGCCATGTA CCAGATAAGC CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG 
ATGGAAAAGT TACTGGCCAA GCAGAAAGAC CTGAAGGAAG AGCTGGATGC CTGTGAAAGG 
GAGTTCAAGG AGTGCATGGA ATGCCTTGAA AAGCCCATGG CCCCCCAGAA CGACAAGAAT 
GAGATCAAAG AACTGCAGAC CAAGCTGCGG GAGCTGCAGC TGCAATACCA GGCTAGCATG 
GATGAGCAGG GGCGGCTTCT GGTAGTGCAG GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC 
CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG 
AAGAATGCTA ATAAGAACAT GAACAAGAAT GCCAATGGGG TTAAAATGAA AAAGGTGACC 
AAGCCATGCT CGGATACTTC TGAGAGCGAC CTTGAGACCA GAAAGAGTCT GGAGGTAGTG 
CTGTACTACA AGGCCAGCCA GAGGAAATTA GATGGACTAG CAAAAGAGGA GGAAAAGAAA 
GAGGAGATGG AGGAGGAAAA AAAGCAAGTG AAAGAGGAAG CAAAGGAGCA GTGTGGGGAT 
GAGCTAGTTG CTGAGCCAGC AGATCCTGAG GAAGCTAAAT CCACAGAAGA TCAGGAGGAA 
AATGAAGAGG ACAAAGAGGA AGAGGAGAAG GAAGAAGACA GTGAAGAGGA GGAGGATGAC 
GCCGACTCTT CCCTTGAAAG TCCCGAAGAA AATAACCCCC TCAGACTTTC CGAGAGCAAA 
AAGTCATCCC CTACCCCCAA TCCCCCCATC TTCTCCTTGC CTCTTGTAGG CCTGGTGGTC 
ATCTCGGCTT TGCTCTGGTG CTGGTGGGCT GAGACGTCGT CCTAA

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

RefSeq	NP_073579.5
CDS	445..3909
Translation	MQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	NM_022742.5
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 1, mRNA.

Target ORF information:

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

NM_022742.5

ORF Insert Sequence:

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTGTGA CACACTGCTG 
TCCAGACTGA CAGAATTGCA GGAAAAGTAC AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG 
CAGATGGAGC AGTGTGAGCT CCTGGAGGAT CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG 
CTGCAGGAAG AGCTGCACAG GCTCACACTG CCACTGCCAA AGAGTGGCCT CTTACTCAAG 
AGTCAGGAGC TACTCACCAA GTTAGAAGAC CTGTGTGAGC TGCAGCTGCT CTACCAAGGC 
ATGCAGGAGG AACAGAAGAA GCTGATACAG AACCAAGACT GTGTATTAAA AGAACAATTA 
GAGATCCACG AAGAGCTGCG ACGTTTCAAA GAGTCTCATT TCCAGGAAGT GTTGGAGAAT 
CCCGATGATT CCAAATTGGC TAAGTCCTCC AAATGTAATC GAAACAAGCA ATCCAAGCTG 
CTCATGGAGC AGATGCAGGC CCTGCAGGTG ATGTATGACG CCGGTCAGGC GAAGCAGGAG 
CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA GAGGAGCGGA AGAGGCTGCA GGCAGACTTG 
CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT CAAGTCCAGT CCCCTTCTAT AAAAATGAGC 
CTTGAGTCCT ACGGGAAGAG CTATGGTAGC ATGGTCCCCA GCAATGAGAA CTGTCGCAAG 
ACTTATGATA CCACTGTGGA TGACAATGAG AGCTATTACA AGAGTTACAC CAGCACCCAG 
ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT GACAGCAGCA CCAGTGCCAG TGAGGCCTAT 
GGGAAGAGTT ACTGCACTAC CAGCAACAGC AGCATTACCT ATAAGAAGAG TTACGGCAGC 
ACCAGTAGCT CTGACACCTG CCAGAAGAGT TTTGTCAGCA GCTGCACTGA CGAGGAACCT 
GCTGAGCCTG AAGACATGGA GCGCTTTGAG GAAATGGTTG TGAAAGTGCT GATCAAGCTG 
CAGGCGGTGC AGGCCATGTA CCAGATAAGC CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG 
ATGGAAAAGT TACTGGCCAA GCAGAAAGAC CTGAAGGAAG AGCTGGATGC CTGTGAAAGG 
GAGTTCAAGG AGTGCATGGA ATGCCTTGAA AAGCCCATGG CCCCCCAGAA CGACAAGAAT 
GAGATCAAAG AACTGCAGAC CAAGCTGCGG GAGCTGCAGC TGCAATACCA GGCTAGCATG 
GATGAGCAGG GGCGGCTTCT GGTAGTGCAG GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC 
CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG 
AAGAATGCTA ATAAGAACAT GAACAAGAAT GCCAATGGGG TTAAAATGAA AAAGGTGACC 
AAGCCATGCT CGGATACTTC TGAGAGCGAC CTTGAGACCA GAAAGAGTCT GGAGGTAGTG 
CTGTACTACA AGGCCAGCCA GAGGAAATTA GATGGACTAG CAAAAGAGGA GGAAAAGAAA 
GAGGAGATGG AGGAGGAAAA AAAGCAAGTG AAAGAGGAAG CAAAGGAGCA GTGTGGGGAT 
GAGCTAGTTG CTGAGCCAGC AGATCCTGAG GAAGCTAAAT CCACAGAAGA TCAGGAGGAA 
AATGAAGAGG ACAAAGAGGA AGAGGAGAAG GAAGAAGACA GTGAAGAGGA GGAGGATGAC 
GCCGACTCTT CCCTTGAAAG TCCCGAAGAA AATAACCCCC TCAGACTTTC CGAGAGCAAA 
AAGTCATCCC CTACCCCCAA TCCCCCCATC TTCTCCTTGC CTCTTGTAGG CCTGGTGGTC 
ATCTCGGCTT TGCTCTGGTG CTGGTGGGCT GAGACGTCGT CCTAA

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

CCDC136 ( XM_024446872.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302640.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X6, mRNA.

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CloneID	OHu105927
Clone ID Related Accession (Same CDS sequence)	XM_024446872.1
Accession Version	XM_024446872.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3624bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGATCAAAG AACTGCAGAC CAAGCTGCGG 
GAGCTGCAGC TGCAATACCA GGCTAGCATG GATGAGCAGG GGCGGCTTCT GGTAGTGCAG 
GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG 
AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG AAGAATGCTA ATAAGAACAT GAACAAGAAT 
GCCAATGGGG TTAAAATGAA AAAGGTGACC AAGCCATGCT CGGATACTTC TGAGAGCGAC 
CTTGAGACCA GAAAGAAGAT CAGGAGGAAA ATGAAGAGGA CAAAGAGGAA GAGGAGAAGG 
AAGAAGACAG TGAAGAGGAG GAGGATGACG CCGACTCTTC CCTTGAAAGT CCCGAAGAAA 
ATAACCCCCT CAGACTTTCC GAGAGCAAAA AGAACATGTT TGGGTTGTGG AAGCCTATGG 
TATTCTTGGC TATTGCAGCT GTGGCTCTGT ATGTGTTACC CAACATGCGA CAGCAGGAGT 
CAGAGTTCTG CCTCATGGAG TGATGGCAGA CCTTGGCCAG CGCGAGGGCA GATCCCCAGT 
GGCCACCACC CTCAGCTTTG GGCAGGACAC ACTGTGCCAG AACCCTCCCC ATATGTTCCA 
TGTGTCCCCA TCTCCTCAGC CTCAGTCACC CAGGCTGAAA AGGCTTGTGG GGAGCGGCTG 
ACTTCCATCT CCTGCCTTGT GTAA

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

RefSeq	XP_024302640.1
CDS	51..3674
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKKIRRKMKRTKRKRRRKKTVKRRRMTPTLPLKVPKKITPSDFPRAKRTCLGCGSLWYSWLLQLWLCMCYPTCDSRSQSSASWSDGRPWPARGQIPSGHHPQLWAGHTVPEPSPYVPCVPISSASVTQAEKACGERLTSISCLV

Target ORF information:

RefSeq Version	XM_024446872.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X6, mRNA.

Target ORF information:

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

XM_024446872.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGATCAAAG AACTGCAGAC CAAGCTGCGG 
GAGCTGCAGC TGCAATACCA GGCTAGCATG GATGAGCAGG GGCGGCTTCT GGTAGTGCAG 
GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG 
AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG AAGAATGCTA ATAAGAACAT GAACAAGAAT 
GCCAATGGGG TTAAAATGAA AAAGGTGACC AAGCCATGCT CGGATACTTC TGAGAGCGAC 
CTTGAGACCA GAAAGAAGAT CAGGAGGAAA ATGAAGAGGA CAAAGAGGAA GAGGAGAAGG 
AAGAAGACAG TGAAGAGGAG GAGGATGACG CCGACTCTTC CCTTGAAAGT CCCGAAGAAA 
ATAACCCCCT CAGACTTTCC GAGAGCAAAA AGAACATGTT TGGGTTGTGG AAGCCTATGG 
TATTCTTGGC TATTGCAGCT GTGGCTCTGT ATGTGTTACC CAACATGCGA CAGCAGGAGT 
CAGAGTTCTG CCTCATGGAG TGATGGCAGA CCTTGGCCAG CGCGAGGGCA GATCCCCAGT 
GGCCACCACC CTCAGCTTTG GGCAGGACAC ACTGTGCCAG AACCCTCCCC ATATGTTCCA 
TGTGTCCCCA TCTCCTCAGC CTCAGTCACC CAGGCTGAAA AGGCTTGTGG GGAGCGGCTG 
ACTTCCATCT CCTGCCTTGT GTAA

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

CCDC136 ( XM_024446873.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302641.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X10, mRNA.

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CloneID	OHu105928
Clone ID Related Accession (Same CDS sequence)	XM_024446873.1 , XM_024446874.1
Accession Version	XM_024446873.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3546bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTGTGA CACACTGCTG 
TCCAGACTGA CAGAATTGCA GGAAAAGTAC AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG 
CAGATGGAGC AGTGTGAGCT CCTGGAGGAT CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG 
CTGCAGGAAG AGCTGCACAG GCTCACACTG CCACTGCCAA AGAGTGGCCT CTTACTCAAG 
AGTCAGGAGC TACTCACCAA GTTAGAAGAC CTGTGTGAGC TGCAGCTGCT CTACCAAGGC 
ATGCAGGAGG AACAGAAGAA GCTGATACAG AACCAAGACT GTGTATTAAA AGAACAATTA 
GAGATCCACG AAGAGCTGCG ACGTTTCAAA GAGTCTCATT TCCAGGAAGT GTTGGAGAAT 
CCCGATGATT CCAAATTGGC TAAGTCCTCC AAATGTAATC GAAACAAGCA GCCAAGAAGC 
CAGGCCCAAC ATGCCCAGAG GCCAGATTCA GAATTGGGGC AGGAGATACA GGAACTAATA 
CAATCCAAGC TGCTCATGGA GCAGATGCAG GCCCTGCAGG TGATGTATGA CGCCGGTCAG 
GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG 
CAGGCAGACT TGCAGCTCTG CCTGGAAGAA ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT 
ATAAAAATGA GCCTTGAGTC CTACGGGAAG AGCTATGGTA GCATGGTCCC CAGCAATGAG 
AACTGTCGCA AGACTTATGA TACCACTGTG GATGACAATG AGAGCTATTA CAAGAGTTAC 
ACCAGCACCC AGACCAGCAG CAAGAGCTTT CTCAAGAGCT ATGACAGCAG CACCAGTGCC 
AGTGAGGCCT ATGGGAAGAG TTACTGCACT ACCAGCAACA GCAGCATTAC CTATAAGAAG 
AGTTACGGCA GCACCAGTAG CTCTGACACC TGCCAGAAGA GTTTTGTCAG CAGCTGCACT 
GACGAGGAAC CTGCTGAGCC TGAAGACATG GAGCGCTTTG AGGAAATGGT TGTGAAAGTG 
CTGATCAAGC TGCAGGCGGT GCAGGCCATG TACCAGATAA GCCAGGAGGA ACACAGCCAG 
CTGCAAGAGC AGATGGAAAA GTTACTGGCC AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT 
GCCTGTGAAA GGGAGTTCAA GGAGTGCATG GAATGCCTTG AAAAGCCCAT GGCCCCCCAG 
AACGACAAGA ATGAGATCAA AGAACTGCAG ACCAAGCTGC GGGAGCTGCA GCTGCAATAC 
CAGGCTAGCA TGGATGAGCA GGGGCGGCTT CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG 
CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA 
GAAGCCCGGG GGAAGAATGC TAATAAGAAC ATGAACAAGA ATGCCAATGG GGTTAAAATG 
AAAAAGGTGA CCAAGCCATG CTCGGATACT TCTGAGAGCG ACCTTGAGAC CAGAAAGAGT 
CTGGAGGTAG TGCTGTACTA CAAGGCCAGC CAGAGGAAAT TAGATGGACT AGCAAAAGAG 
GAGGAAAAGA AAGAGGAGAT GGAGGAGGAA AAAAAGCAAG TGAAAGAGGA AGCAAAGGAG 
CAGTGTGGGG ATGAGCTAGT TGCTGAGCCA GCAGATCCTG AGGAAGCTAA ATCCACAGAA 
GATCAGGAGG AAAATGAAGA GGACAAAGAG GAAGAGGAGA AGGAAGAAGA CAGTGAAGAG 
GAGGAGGATG ACGCCGACTC TTCCCTTGAA AGTCCCGAAG AAAATAACCC CCTCAGACTT 
TCCGAGAGCA AAAAGAACAT GTTTGGGTTG TGGAAGCCTA TGGTATTCTT GGCTATTGCA 
GCTGTGGCTC TGTATGTGTT ACCCAACATG CGACAGCAGG AGTCAGAGTT CTGCCTCATG 
GAGTGA

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

RefSeq	XP_024302641.1
CDS	667..4212
Translation	MQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQPRSQAQHAQRPDSELGQEIQELIQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKNMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_024446873.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X10, mRNA.

Target ORF information:

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

XM_024446873.1

ORF Insert Sequence:

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTGTGA CACACTGCTG 
TCCAGACTGA CAGAATTGCA GGAAAAGTAC AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG 
CAGATGGAGC AGTGTGAGCT CCTGGAGGAT CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG 
CTGCAGGAAG AGCTGCACAG GCTCACACTG CCACTGCCAA AGAGTGGCCT CTTACTCAAG 
AGTCAGGAGC TACTCACCAA GTTAGAAGAC CTGTGTGAGC TGCAGCTGCT CTACCAAGGC 
ATGCAGGAGG AACAGAAGAA GCTGATACAG AACCAAGACT GTGTATTAAA AGAACAATTA 
GAGATCCACG AAGAGCTGCG ACGTTTCAAA GAGTCTCATT TCCAGGAAGT GTTGGAGAAT 
CCCGATGATT CCAAATTGGC TAAGTCCTCC AAATGTAATC GAAACAAGCA GCCAAGAAGC 
CAGGCCCAAC ATGCCCAGAG GCCAGATTCA GAATTGGGGC AGGAGATACA GGAACTAATA 
CAATCCAAGC TGCTCATGGA GCAGATGCAG GCCCTGCAGG TGATGTATGA CGCCGGTCAG 
GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG 
CAGGCAGACT TGCAGCTCTG CCTGGAAGAA ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT 
ATAAAAATGA GCCTTGAGTC CTACGGGAAG AGCTATGGTA GCATGGTCCC CAGCAATGAG 
AACTGTCGCA AGACTTATGA TACCACTGTG GATGACAATG AGAGCTATTA CAAGAGTTAC 
ACCAGCACCC AGACCAGCAG CAAGAGCTTT CTCAAGAGCT ATGACAGCAG CACCAGTGCC 
AGTGAGGCCT ATGGGAAGAG TTACTGCACT ACCAGCAACA GCAGCATTAC CTATAAGAAG 
AGTTACGGCA GCACCAGTAG CTCTGACACC TGCCAGAAGA GTTTTGTCAG CAGCTGCACT 
GACGAGGAAC CTGCTGAGCC TGAAGACATG GAGCGCTTTG AGGAAATGGT TGTGAAAGTG 
CTGATCAAGC TGCAGGCGGT GCAGGCCATG TACCAGATAA GCCAGGAGGA ACACAGCCAG 
CTGCAAGAGC AGATGGAAAA GTTACTGGCC AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT 
GCCTGTGAAA GGGAGTTCAA GGAGTGCATG GAATGCCTTG AAAAGCCCAT GGCCCCCCAG 
AACGACAAGA ATGAGATCAA AGAACTGCAG ACCAAGCTGC GGGAGCTGCA GCTGCAATAC 
CAGGCTAGCA TGGATGAGCA GGGGCGGCTT CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG 
CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA 
GAAGCCCGGG GGAAGAATGC TAATAAGAAC ATGAACAAGA ATGCCAATGG GGTTAAAATG 
AAAAAGGTGA CCAAGCCATG CTCGGATACT TCTGAGAGCG ACCTTGAGAC CAGAAAGAGT 
CTGGAGGTAG TGCTGTACTA CAAGGCCAGC CAGAGGAAAT TAGATGGACT AGCAAAAGAG 
GAGGAAAAGA AAGAGGAGAT GGAGGAGGAA AAAAAGCAAG TGAAAGAGGA AGCAAAGGAG 
CAGTGTGGGG ATGAGCTAGT TGCTGAGCCA GCAGATCCTG AGGAAGCTAA ATCCACAGAA 
GATCAGGAGG AAAATGAAGA GGACAAAGAG GAAGAGGAGA AGGAAGAAGA CAGTGAAGAG 
GAGGAGGATG ACGCCGACTC TTCCCTTGAA AGTCCCGAAG AAAATAACCC CCTCAGACTT 
TCCGAGAGCA AAAAGAACAT GTTTGGGTTG TGGAAGCCTA TGGTATTCTT GGCTATTGCA 
GCTGTGGCTC TGTATGTGTT ACCCAACATG CGACAGCAGG AGTCAGAGTT CTGCCTCATG 
GAGTGA

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

CCDC136 ( XM_024446874.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302642.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X11, mRNA.

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CloneID	OHu105928
Clone ID Related Accession (Same CDS sequence)	XM_024446873.1 , XM_024446874.1
Accession Version	XM_024446874.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3546bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTGTGA CACACTGCTG 
TCCAGACTGA CAGAATTGCA GGAAAAGTAC AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG 
CAGATGGAGC AGTGTGAGCT CCTGGAGGAT CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG 
CTGCAGGAAG AGCTGCACAG GCTCACACTG CCACTGCCAA AGAGTGGCCT CTTACTCAAG 
AGTCAGGAGC TACTCACCAA GTTAGAAGAC CTGTGTGAGC TGCAGCTGCT CTACCAAGGC 
ATGCAGGAGG AACAGAAGAA GCTGATACAG AACCAAGACT GTGTATTAAA AGAACAATTA 
GAGATCCACG AAGAGCTGCG ACGTTTCAAA GAGTCTCATT TCCAGGAAGT GTTGGAGAAT 
CCCGATGATT CCAAATTGGC TAAGTCCTCC AAATGTAATC GAAACAAGCA GCCAAGAAGC 
CAGGCCCAAC ATGCCCAGAG GCCAGATTCA GAATTGGGGC AGGAGATACA GGAACTAATA 
CAATCCAAGC TGCTCATGGA GCAGATGCAG GCCCTGCAGG TGATGTATGA CGCCGGTCAG 
GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG 
CAGGCAGACT TGCAGCTCTG CCTGGAAGAA ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT 
ATAAAAATGA GCCTTGAGTC CTACGGGAAG AGCTATGGTA GCATGGTCCC CAGCAATGAG 
AACTGTCGCA AGACTTATGA TACCACTGTG GATGACAATG AGAGCTATTA CAAGAGTTAC 
ACCAGCACCC AGACCAGCAG CAAGAGCTTT CTCAAGAGCT ATGACAGCAG CACCAGTGCC 
AGTGAGGCCT ATGGGAAGAG TTACTGCACT ACCAGCAACA GCAGCATTAC CTATAAGAAG 
AGTTACGGCA GCACCAGTAG CTCTGACACC TGCCAGAAGA GTTTTGTCAG CAGCTGCACT 
GACGAGGAAC CTGCTGAGCC TGAAGACATG GAGCGCTTTG AGGAAATGGT TGTGAAAGTG 
CTGATCAAGC TGCAGGCGGT GCAGGCCATG TACCAGATAA GCCAGGAGGA ACACAGCCAG 
CTGCAAGAGC AGATGGAAAA GTTACTGGCC AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT 
GCCTGTGAAA GGGAGTTCAA GGAGTGCATG GAATGCCTTG AAAAGCCCAT GGCCCCCCAG 
AACGACAAGA ATGAGATCAA AGAACTGCAG ACCAAGCTGC GGGAGCTGCA GCTGCAATAC 
CAGGCTAGCA TGGATGAGCA GGGGCGGCTT CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG 
CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA 
GAAGCCCGGG GGAAGAATGC TAATAAGAAC ATGAACAAGA ATGCCAATGG GGTTAAAATG 
AAAAAGGTGA CCAAGCCATG CTCGGATACT TCTGAGAGCG ACCTTGAGAC CAGAAAGAGT 
CTGGAGGTAG TGCTGTACTA CAAGGCCAGC CAGAGGAAAT TAGATGGACT AGCAAAAGAG 
GAGGAAAAGA AAGAGGAGAT GGAGGAGGAA AAAAAGCAAG TGAAAGAGGA AGCAAAGGAG 
CAGTGTGGGG ATGAGCTAGT TGCTGAGCCA GCAGATCCTG AGGAAGCTAA ATCCACAGAA 
GATCAGGAGG AAAATGAAGA GGACAAAGAG GAAGAGGAGA AGGAAGAAGA CAGTGAAGAG 
GAGGAGGATG ACGCCGACTC TTCCCTTGAA AGTCCCGAAG AAAATAACCC CCTCAGACTT 
TCCGAGAGCA AAAAGAACAT GTTTGGGTTG TGGAAGCCTA TGGTATTCTT GGCTATTGCA 
GCTGTGGCTC TGTATGTGTT ACCCAACATG CGACAGCAGG AGTCAGAGTT CTGCCTCATG 
GAGTGA

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

RefSeq	XP_024302642.1
CDS	308..3853
Translation	MQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQPRSQAQHAQRPDSELGQEIQELIQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKNMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_024446874.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X11, mRNA.

Target ORF information:

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

XM_024446874.1

ORF Insert Sequence:

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTGTGA CACACTGCTG 
TCCAGACTGA CAGAATTGCA GGAAAAGTAC AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG 
CAGATGGAGC AGTGTGAGCT CCTGGAGGAT CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG 
CTGCAGGAAG AGCTGCACAG GCTCACACTG CCACTGCCAA AGAGTGGCCT CTTACTCAAG 
AGTCAGGAGC TACTCACCAA GTTAGAAGAC CTGTGTGAGC TGCAGCTGCT CTACCAAGGC 
ATGCAGGAGG AACAGAAGAA GCTGATACAG AACCAAGACT GTGTATTAAA AGAACAATTA 
GAGATCCACG AAGAGCTGCG ACGTTTCAAA GAGTCTCATT TCCAGGAAGT GTTGGAGAAT 
CCCGATGATT CCAAATTGGC TAAGTCCTCC AAATGTAATC GAAACAAGCA GCCAAGAAGC 
CAGGCCCAAC ATGCCCAGAG GCCAGATTCA GAATTGGGGC AGGAGATACA GGAACTAATA 
CAATCCAAGC TGCTCATGGA GCAGATGCAG GCCCTGCAGG TGATGTATGA CGCCGGTCAG 
GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG 
CAGGCAGACT TGCAGCTCTG CCTGGAAGAA ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT 
ATAAAAATGA GCCTTGAGTC CTACGGGAAG AGCTATGGTA GCATGGTCCC CAGCAATGAG 
AACTGTCGCA AGACTTATGA TACCACTGTG GATGACAATG AGAGCTATTA CAAGAGTTAC 
ACCAGCACCC AGACCAGCAG CAAGAGCTTT CTCAAGAGCT ATGACAGCAG CACCAGTGCC 
AGTGAGGCCT ATGGGAAGAG TTACTGCACT ACCAGCAACA GCAGCATTAC CTATAAGAAG 
AGTTACGGCA GCACCAGTAG CTCTGACACC TGCCAGAAGA GTTTTGTCAG CAGCTGCACT 
GACGAGGAAC CTGCTGAGCC TGAAGACATG GAGCGCTTTG AGGAAATGGT TGTGAAAGTG 
CTGATCAAGC TGCAGGCGGT GCAGGCCATG TACCAGATAA GCCAGGAGGA ACACAGCCAG 
CTGCAAGAGC AGATGGAAAA GTTACTGGCC AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT 
GCCTGTGAAA GGGAGTTCAA GGAGTGCATG GAATGCCTTG AAAAGCCCAT GGCCCCCCAG 
AACGACAAGA ATGAGATCAA AGAACTGCAG ACCAAGCTGC GGGAGCTGCA GCTGCAATAC 
CAGGCTAGCA TGGATGAGCA GGGGCGGCTT CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG 
CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA 
GAAGCCCGGG GGAAGAATGC TAATAAGAAC ATGAACAAGA ATGCCAATGG GGTTAAAATG 
AAAAAGGTGA CCAAGCCATG CTCGGATACT TCTGAGAGCG ACCTTGAGAC CAGAAAGAGT 
CTGGAGGTAG TGCTGTACTA CAAGGCCAGC CAGAGGAAAT TAGATGGACT AGCAAAAGAG 
GAGGAAAAGA AAGAGGAGAT GGAGGAGGAA AAAAAGCAAG TGAAAGAGGA AGCAAAGGAG 
CAGTGTGGGG ATGAGCTAGT TGCTGAGCCA GCAGATCCTG AGGAAGCTAA ATCCACAGAA 
GATCAGGAGG AAAATGAAGA GGACAAAGAG GAAGAGGAGA AGGAAGAAGA CAGTGAAGAG 
GAGGAGGATG ACGCCGACTC TTCCCTTGAA AGTCCCGAAG AAAATAACCC CCTCAGACTT 
TCCGAGAGCA AAAAGAACAT GTTTGGGTTG TGGAAGCCTA TGGTATTCTT GGCTATTGCA 
GCTGTGGCTC TGTATGTGTT ACCCAACATG CGACAGCAGG AGTCAGAGTT CTGCCTCATG 
GAGTGA

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

CCDC136 ( XM_017012533.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016868022.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X12, mRNA.

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CloneID	OHu97449
Clone ID Related Accession (Same CDS sequence)	XM_017012533.1
Accession Version	XM_017012533.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3474bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTGTGA CACACTGCTG 
TCCAGACTGA CAGAATTGCA GGAAAAGTAC AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG 
CAGATGGAGC AGTGTGAGCT CCTGGAGGAT CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG 
CTGCAGGAAG AGCTGCACAG GCTCACACTG CCACTGCCAA AGAGTGGCCT CTTACTCAAG 
AGTCAGGAGC TACTCACCAA GTTAGAAGAC CTGTGTGAGC TGCAGCTGCT CTACCAAGGC 
ATGCAGGAGG AACAGAAGAA GCTGATACAG AACCAAGACT GTGTATTAAA AGAACAATTA 
GAGATCCACG AAGAGCTGCG ACGTTTCAAA GAGTCTCATT TCCAGGAAGT GTTGGAGAAT 
CCCGATGATT CCAAATTGGC TAAGTCCTCC AAATGTAATC GAAACAAGCA ATCCAAGCTG 
CTCATGGAGC AGATGCAGGC CCTGCAGGTG ATGTATGACG CCGGTCAGGC GAAGCAGGAG 
CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA GAGGAGCGGA AGAGGCTGCA GGCAGACTTG 
CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT CAAGTCCAGT CCCCTTCTAT AAAAATGAGC 
CTTGAGTCCT ACGGGAAGAG CTATGGTAGC ATGGTCCCCA GCAATGAGAA CTGTCGCAAG 
ACTTATGATA CCACTGTGGA TGACAATGAG AGCTATTACA AGAGTTACAC CAGCACCCAG 
ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT GACAGCAGCA CCAGTGCCAG TGAGGCCTAT 
GGGAAGAGTT ACTGCACTAC CAGCAACAGC AGCATTACCT ATAAGAAGAG TTACGGCAGC 
ACCAGTAGCT CTGACACCTG CCAGAAGAGT TTTGTCAGCA GCTGCACTGA CGAGGAACCT 
GCTGAGCCTG AAGACATGGA GCGCTTTGAG GAAATGGTTG TGAAAGTGCT GATCAAGCTG 
CAGGCGGTGC AGGCCATGTA CCAGATAAGC CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG 
ATGGAAAAGT TACTGGCCAA GCAGAAAGAC CTGAAGGAAG AGCTGGATGC CTGTGAAAGG 
GAGTTCAAGG AGTGCATGGA ATGCCTTGAA AAGCCCATGG CCCCCCAGAA CGACAAGAAT 
GAGATCAAAG AACTGCAGAC CAAGCTGCGG GAGCTGCAGC TGCAATACCA GGCTAGCATG 
GATGAGCAGG GGCGGCTTCT GGTAGTGCAG GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC 
CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG 
AAGAATGCTA ATAAGAACAT GAACAAGAAT GCCAATGGGG TTAAAATGAA AAAGGTGACC 
AAGCCATGCT CGGATACTTC TGAGAGCGAC CTTGAGACCA GAAAGAGTCT GGAGGTAGTG 
CTGTACTACA AGGCCAGCCA GAGGAAATTA GATGGACTAG CAAAAGAGGA GGAAAAGAAA 
GAGGAGATGG AGGAGGAAAA AAAGCAAGTG AAAGAGGAAG CAAAGGAGCA GTGTGGGGAT 
GAGCTAGTTG CTGAGCCAGC AGATCCTGAG GAAGCTAAAT CCACAGAAGA TCAGGAGGAA 
AATGAAGAGG ACAAAGAGGA AGAGGAGAAG GAAGAAGACA GTGAAGAGGA GGAGGATGAC 
GCCGACTCTT CCCTTGAAAG TCCCGAAGAA AATAACCCCC TCAGACTTTC CGAGAGCAAA 
AAGAACATGT TTGGGTTGTG GAAGCCTATG GTATTCTTGG CTATTGCAGC TGTGGCTCTG 
TATGTGTTAC CCAACATGCG ACAGCAGGAG TCAGAGTTCT GCCTCATGGA GTGA

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

RefSeq	XP_016868022.1
CDS	667..4140
Translation	MQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKNMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_017012533.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X12, mRNA.

Target ORF information:

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

XM_017012533.1

ORF Insert Sequence:

ATGCAAGCTA TGGAGGGGGA GGTGTTACTC CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG 
GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA GAAGAACAAG TGCAGAAAGG TGGCAGTGTT 
GGCTCTCTGT CAGTCAACAA GCACCGGGGA CTGAGCCTCA CGGAGACAGA GCTGGAGGAG 
CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA GAACTGGAGG AGACCCGGGA ACTGGCAGGG 
CAGCATGAGG ATGACTCCTT GGAGCTACAG GGGCTCCTGG AGGATGAACG GCTAGCCAGC 
GCCCAGCAGG CAGAGGTGTT CACCAAGCAG ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT 
CTACGGGAGG AGATTTCCCT GTTAGAGCAT GAGAAAGAAA GCGAACTTAA GGAAATAGAA 
CAGGAATTGC ATTTGGCCCA GGCTGAGATC CAGAGTCTGC GGCAAGCAGC AGAGGATTCC 
GCAACTGAAC ATGAGAGTGA CATAGCATCC CTGCAGGAGG ATCTCTGCCG GATGCAGAAT 
GAACTTGAAG ACATGGAACG CATTCGGGGA GATTATGAGA TGGAGATCGC CTCCCTCCGT 
GCAGAAATGG AAATGAAGAG CTCTGAACCA TCCGGTAGTT TAGGTCTCTC AGATTACTCT 
GGGTTACAAG AAGAACTGCA GGAGCTGCGG GAACGCTACC ATTTCCTGAA TGAGGAATAC 
CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC ACGGGGCAGC TTGCAGATCT GGAGAGTGAG 
AGGACACAGA GAGCAACAGA GAGATGGCTG CAGTCCCAAA CACTGAGTAT GACGTCAGCA 
GAGTCTCAGA CTTCAGAAAT GGATTTCTTA GAGCCTGATC CTGAAATGCA GTTGTTACGG 
CAGCAGCTAC GGGATGCTGA AGAGCAGATG CATGGCATGA AGAACAAGTG TCAGGAATTG 
TGTTGTGAGT TGGAAGAGCT ACAGCATCAT CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG 
CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT GAGGTGCTTC GGTTTCAGAC CTCCCACAGT 
GTCACCCAGA ATGAGGAGCT GAAGTCCAGA CTCTGTACCC TGCAGAAAAA ATATGATACT 
AGCCAGGATG AGCAGAACGA GCTCTTGAAG ATGCAGCTGC AACTTCAGAC TGAGCTCCGG 
CAGCTCAAAG TCATGAAATC CACACTTGTA GAAAACCAGA GTGAGAAGGA GTTACTGTGC 
CGGCTGCAGA AGCTGCACCT CCAGCACCAG AACGTCACAT GTGAGAAGGA AAAGCTGCTG 
GAACGGCAGC AGCAGCTGCA GGAGGAGCTG CAGTGCCATG AGGCAGAGCT GCAGCACCTC 
AGGGATACGG TGGCCTCCTT CAAAGAGAGC AATGAGAAGG ACACAGAGAC GCACGCTCAG 
CTTCAGGAGA TGAAGCAGCT GTACCAGGCC AGCAAGGACG AGCTGGAGCG GCAGAAGCAC 
ATGTATGACC AGCTGGAGCA GGACCTCCTG CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG 
GCCTCCCACC CCATTCCGGA GGACAAAGGA AAGTGTGCTA ATAAGTGTGA CACACTGCTG 
TCCAGACTGA CAGAATTGCA GGAAAAGTAC AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG 
CAGATGGAGC AGTGTGAGCT CCTGGAGGAT CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG 
CTGCAGGAAG AGCTGCACAG GCTCACACTG CCACTGCCAA AGAGTGGCCT CTTACTCAAG 
AGTCAGGAGC TACTCACCAA GTTAGAAGAC CTGTGTGAGC TGCAGCTGCT CTACCAAGGC 
ATGCAGGAGG AACAGAAGAA GCTGATACAG AACCAAGACT GTGTATTAAA AGAACAATTA 
GAGATCCACG AAGAGCTGCG ACGTTTCAAA GAGTCTCATT TCCAGGAAGT GTTGGAGAAT 
CCCGATGATT CCAAATTGGC TAAGTCCTCC AAATGTAATC GAAACAAGCA ATCCAAGCTG 
CTCATGGAGC AGATGCAGGC CCTGCAGGTG ATGTATGACG CCGGTCAGGC GAAGCAGGAG 
CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA GAGGAGCGGA AGAGGCTGCA GGCAGACTTG 
CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT CAAGTCCAGT CCCCTTCTAT AAAAATGAGC 
CTTGAGTCCT ACGGGAAGAG CTATGGTAGC ATGGTCCCCA GCAATGAGAA CTGTCGCAAG 
ACTTATGATA CCACTGTGGA TGACAATGAG AGCTATTACA AGAGTTACAC CAGCACCCAG 
ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT GACAGCAGCA CCAGTGCCAG TGAGGCCTAT 
GGGAAGAGTT ACTGCACTAC CAGCAACAGC AGCATTACCT ATAAGAAGAG TTACGGCAGC 
ACCAGTAGCT CTGACACCTG CCAGAAGAGT TTTGTCAGCA GCTGCACTGA CGAGGAACCT 
GCTGAGCCTG AAGACATGGA GCGCTTTGAG GAAATGGTTG TGAAAGTGCT GATCAAGCTG 
CAGGCGGTGC AGGCCATGTA CCAGATAAGC CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG 
ATGGAAAAGT TACTGGCCAA GCAGAAAGAC CTGAAGGAAG AGCTGGATGC CTGTGAAAGG 
GAGTTCAAGG AGTGCATGGA ATGCCTTGAA AAGCCCATGG CCCCCCAGAA CGACAAGAAT 
GAGATCAAAG AACTGCAGAC CAAGCTGCGG GAGCTGCAGC TGCAATACCA GGCTAGCATG 
GATGAGCAGG GGCGGCTTCT GGTAGTGCAG GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC 
CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG 
AAGAATGCTA ATAAGAACAT GAACAAGAAT GCCAATGGGG TTAAAATGAA AAAGGTGACC 
AAGCCATGCT CGGATACTTC TGAGAGCGAC CTTGAGACCA GAAAGAGTCT GGAGGTAGTG 
CTGTACTACA AGGCCAGCCA GAGGAAATTA GATGGACTAG CAAAAGAGGA GGAAAAGAAA 
GAGGAGATGG AGGAGGAAAA AAAGCAAGTG AAAGAGGAAG CAAAGGAGCA GTGTGGGGAT 
GAGCTAGTTG CTGAGCCAGC AGATCCTGAG GAAGCTAAAT CCACAGAAGA TCAGGAGGAA 
AATGAAGAGG ACAAAGAGGA AGAGGAGAAG GAAGAAGACA GTGAAGAGGA GGAGGATGAC 
GCCGACTCTT CCCTTGAAAG TCCCGAAGAA AATAACCCCC TCAGACTTTC CGAGAGCAAA 
AAGAACATGT TTGGGTTGTG GAAGCCTATG GTATTCTTGG CTATTGCAGC TGTGGCTCTG 
TATGTGTTAC CCAACATGCG ACAGCAGGAG TCAGAGTTCT GCCTCATGGA GTGA

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

CCDC136 ( NM_001201372.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001188301.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 2, mRNA.

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CloneID	OHu06194
Clone ID Related Accession (Same CDS sequence)	NM_001201372.1 , NM_001201372.2
Accession Version	NM_001201372.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1305bp) 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	2018-12-13
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 2
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DR003042.1, AK124447.1 and AI611323.1. Transcript Variant: This variant (2) contains an alternate in-frame exon in the 5' coding region, uses an upstream start codon, and lacks nine exons in the 3' coding region, compared to variant 1. The resulting protein (isoform 2) is shorter and has a distinct N-terminus, compared to isoform 1. ##Evidence-Data-START## Transcript exon combination :: AK124447.1, SRR1803612.118884.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGTCATCCC CTACCCCCAA TCCCCCCATC TTCTCCTTGC CTCTTGTAGG CCTGGTGGTC 
ATCTCGGCTT TGCTCTGGTG CTGGTGGGCT GAGACGTCGT CCTAA

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

RefSeq	NP_001188301.1
CDS	85..1389
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	NM_001201372.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 2, mRNA.

Target ORF information:

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

NM_001201372.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGTCATCCC CTACCCCCAA TCCCCCCATC TTCTCCTTGC CTCTTGTAGG CCTGGTGGTC 
ATCTCGGCTT TGCTCTGGTG CTGGTGGGCT GAGACGTCGT CCTAA

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

CCDC136 ( NM_001201372.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001188301.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 2, mRNA.

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CloneID	OHu06194
Clone ID Related Accession (Same CDS sequence)	NM_001201372.1 , NM_001201372.2
Accession Version	NM_001201372.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1305bp) 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	2019-05-30
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 2
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DR003042.1, AK124447.1 and AI611323.1. On May 31, 2019 this sequence version replaced NM_001201372.1. Transcript Variant: This variant (2) contains an alternate in-frame exon in the 5' coding region, uses an upstream start codon, and lacks nine exons in the 3' coding region, compared to variant 1. The resulting protein (isoform 2) is shorter and has a distinct N-terminus, compared to isoform 1. ##Evidence-Data-START## Transcript exon combination :: SRR3476690.1078775.1, SRR3476690.507682.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGTCATCCC CTACCCCCAA TCCCCCCATC TTCTCCTTGC CTCTTGTAGG CCTGGTGGTC 
ATCTCGGCTT TGCTCTGGTG CTGGTGGGCT GAGACGTCGT CCTAA

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

RefSeq	NP_001188301.1
CDS	57..1361
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	NM_001201372.2
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 2, mRNA.

Target ORF information:

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

NM_001201372.2

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGTCATCCC CTACCCCCAA TCCCCCCATC TTCTCCTTGC CTCTTGTAGG CCTGGTGGTC 
ATCTCGGCTT TGCTCTGGTG CTGGTGGGCT GAGACGTCGT CCTAA

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

CCDC136 ( NM_001367764.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001354693.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 8, mRNA.

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CloneID	OHu41716
Clone ID Related Accession (Same CDS sequence)	XM_005250534.3 , NM_001367764.1
Accession Version	NM_001367764.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3624bp) 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	2019-08-06
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 8
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC024952.4 and AC025594.5. On Dec 14, 2018 this sequence version replaced XM_005250534.3. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803611.172204.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2148093, SAMEA2148874 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGATCAAAG AACTGCAGAC CAAGCTGCGG 
GAGCTGCAGC TGCAATACCA GGCTAGCATG GATGAGCAGG GGCGGCTTCT GGTAGTGCAG 
GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG 
AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG AAGAATGCTA ATAAGAACAT GAACAAGAAT 
GCCAATGGGG TTAAAATGAA AAAGGTGACC AAGCCATGCT CGGATACTTC TGAGAGCGAC 
CTTGAGACCA GAAAGAGTCT GGAGGTAGTG CTGTACTACA AGGCCAGCCA GAGGAAATTA 
GATGGACTAG CAAAAGAGGA GGAAAAGAAA GAGGAGATGG AGGAGGAAAA AAAGCAAGTG 
AAAGAGGAAG CAAAGGAGCA GTGTGGGGAT GAGCTAGTTG CTGAGCCAGC AGATCCTGAG 
GAAGCTAAAT CCACAGAAGA TCAGGAGGAA AATGAAGAGG ACAAAGAGGA AGAGGAGAAG 
GAAGAAGACA GTGAAGAGGA GGAGGATGAC GCCGACTCTT CCCTTGAAAG TCCCGAAGAA 
AATAACCCCC TCAGACTTTC CGAGAGCAAA AAGAACATGT TTGGGTTGTG GAAGCCTATG 
GTATTCTTGG CTATTGCAGC TGTGGCTCTG TATGTGTTAC CCAACATGCG ACAGCAGGAG 
TCAGAGTTCT GCCTCATGGA GTGA

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

RefSeq	NP_001354693.1
CDS	57..3680
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKNMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	NM_001367764.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 8, mRNA.

Target ORF information:

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

NM_001367764.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGATCAAAG AACTGCAGAC CAAGCTGCGG 
GAGCTGCAGC TGCAATACCA GGCTAGCATG GATGAGCAGG GGCGGCTTCT GGTAGTGCAG 
GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG 
AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG AAGAATGCTA ATAAGAACAT GAACAAGAAT 
GCCAATGGGG TTAAAATGAA AAAGGTGACC AAGCCATGCT CGGATACTTC TGAGAGCGAC 
CTTGAGACCA GAAAGAGTCT GGAGGTAGTG CTGTACTACA AGGCCAGCCA GAGGAAATTA 
GATGGACTAG CAAAAGAGGA GGAAAAGAAA GAGGAGATGG AGGAGGAAAA AAAGCAAGTG 
AAAGAGGAAG CAAAGGAGCA GTGTGGGGAT GAGCTAGTTG CTGAGCCAGC AGATCCTGAG 
GAAGCTAAAT CCACAGAAGA TCAGGAGGAA AATGAAGAGG ACAAAGAGGA AGAGGAGAAG 
GAAGAAGACA GTGAAGAGGA GGAGGATGAC GCCGACTCTT CCCTTGAAAG TCCCGAAGAA 
AATAACCCCC TCAGACTTTC CGAGAGCAAA AAGAACATGT TTGGGTTGTG GAAGCCTATG 
GTATTCTTGG CTATTGCAGC TGTGGCTCTG TATGTGTTAC CCAACATGCG ACAGCAGGAG 
TCAGAGTTCT GCCTCATGGA GTGA

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

CCDC136 ( NM_001363423.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001350352.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 3, mRNA.

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CloneID	OHu41721
Clone ID Related Accession (Same CDS sequence)	NM_001363423.2 , XM_005250538.1 , NM_001363423.1
Accession Version	NM_001363423.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3024bp) 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	2019-05-30
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 3
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DR003042.1, AK124447.1, DB078673.1, AL042602.1, DA511054.1, AK023500.1 and DB050791.1. On May 31, 2019 this sequence version replaced NM_001363423.1. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2148093, SAMEA2148874 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGAACATGT TTGGGTTGTG GAAGCCTATG 
GTATTCTTGG CTATTGCAGC TGTGGCTCTG TATGTGTTAC CCAACATGCG ACAGCAGGAG 
TCAGAGTTCT GCCTCATGGA GTGA

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

RefSeq	NP_001350352.1
CDS	57..3080
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNENMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	NM_001363423.2
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 3, mRNA.

Target ORF information:

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

NM_001363423.2

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGAACATGT TTGGGTTGTG GAAGCCTATG 
GTATTCTTGG CTATTGCAGC TGTGGCTCTG TATGTGTTAC CCAACATGCG ACAGCAGGAG 
TCAGAGTTCT GCCTCATGGA GTGA

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

CCDC136 ( NM_001363423.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001350352.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 3, mRNA.

Price & Availability↑

CloneID	OHu41721
Clone ID Related Accession (Same CDS sequence)	NM_001363423.2 , XM_005250538.1 , NM_001363423.1
Accession Version	NM_001363423.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3024bp) 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	2018-12-13
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 3
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DR003042.1, AK124447.1, DB078673.1, AL042602.1, DA511054.1, AK023500.1, DB050791.1 and AI611323.1. On May 18, 2018 this sequence version replaced XM_005250538.1. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2148093, SAMEA2148874 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGAACATGT TTGGGTTGTG GAAGCCTATG 
GTATTCTTGG CTATTGCAGC TGTGGCTCTG TATGTGTTAC CCAACATGCG ACAGCAGGAG 
TCAGAGTTCT GCCTCATGGA GTGA

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

RefSeq	NP_001350352.1
CDS	57..3080
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNENMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	NM_001363423.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 3, mRNA.

Target ORF information:

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

NM_001363423.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGAACATGT TTGGGTTGTG GAAGCCTATG 
GTATTCTTGG CTATTGCAGC TGTGGCTCTG TATGTGTTAC CCAACATGCG ACAGCAGGAG 
TCAGAGTTCT GCCTCATGGA GTGA

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

CCDC136 ( NM_001367761.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001354690.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 5, mRNA.

Price & Availability↑

CloneID	OHu41725
Clone ID Related Accession (Same CDS sequence)	NM_001367761.1
Accession Version	NM_001367761.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1341bp) 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	2019-08-06
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 5
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC024952.4 and AC025594.5. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR3476690.252977.1, SRR3476690.529296.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGT CATCCCCTAC CCCCAATCCC 
CCCATCTTCT CCTTGCCTCT TGTAGGCCTG GTGGTCATCT CGGCTTTGCT CTGGTGCTGG 
TGGGCTGAGA CGTCGTCCTA A

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

RefSeq	NP_001354690.1
CDS	57..1397
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	NM_001367761.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 5, mRNA.

Target ORF information:

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

NM_001367761.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGT CATCCCCTAC CCCCAATCCC 
CCCATCTTCT CCTTGCCTCT TGTAGGCCTG GTGGTCATCT CGGCTTTGCT CTGGTGCTGG 
TGGGCTGAGA CGTCGTCCTA A

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

CCDC136 ( NM_001363424.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001350353.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 4, mRNA.

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CloneID	OHu97450
Clone ID Related Accession (Same CDS sequence)	NM_001363424.2 , XM_017012534.1 , NM_001363424.1
Accession Version	NM_001363424.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2988bp) 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	2019-05-30
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 4
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DR003042.1, AK124447.1, DA511054.1, AK023500.1 and DB050791.1. On May 31, 2019 this sequence version replaced NM_001363424.1. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.99974.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2148093, SAMEA2148874 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT GTGACACACT GCTGTCCAGA 
CTGACAGAAT TGCAGGAAAA GTACAAGGCC AGCCAGAAGG AGATGGGGCA GCTGCAGATG 
GAGCAGTGTG AGCTCCTGGA GGATCAGAGG AGGATGCAGG AGGAGCAGGG CCAGCTGCAG 
GAAGAGCTGC ACAGGCTCAC ACTGCCACTG CCAAAGAGTG GCCTCTTACT CAAGAGTCAG 
GAGCTACTCA CCAAGTTAGA AGACCTGTGT GAGCTGCAGC TGCTCTACCA AGGCATGCAG 
GAGGAACAGA AGAAGCTGAT ACAGAACCAA GACTGTGTAT TAAAAGAACA ATTAGAGATC 
CACGAAGAGC TGCGACGTTT CAAAGAGTCT CATTTCCAGG AAGTGTTGGA GAATCCCGAT 
GATTCCAAAT TGGCTAAGTC CTCCAAATGT AATCGAAACA AGCAATCCAA GCTGCTCATG 
GAGCAGATGC AGGCCCTGCA GGTGATGTAT GACGCCGGTC AGGCGAAGCA GGAGCTCTTG 
CAGCAAGAGC AAGGGAGGCT CCTAGAGGAG CGGAAGAGGC TGCAGGCAGA CTTGCAGCTC 
TGCCTGGAAG AAATGCAGCT GCTTCAAGTC CAGTCCCCTT CTATAAAAAT GAGCCTTGAG 
TCCTACGGGA AGAGCTATGG TAGCATGGTC CCCAGCAATG AGAACTGTCG CAAGACTTAT 
GATACCACTG TGGATGACAA TGAGAGCTAT TACAAGAGTT ACACCAGCAC CCAGACCAGC 
AGCAAGAGCT TTCTCAAGAG CTATGACAGC AGCACCAGTG CCAGTGAGGC CTATGGGAAG 
AGTTACTGCA CTACCAGCAA CAGCAGCATT ACCTATAAGA AGAGTTACGG CAGCACCAGT 
AGCTCTGACA CCTGCCAGAA GAGTTTTGTC AGCAGCTGCA CTGACGAGGA ACCTGCTGAG 
CCTGAAGACA TGGAGCGCTT TGAGGAAATG GTTGTGAAAG TGCTGATCAA GCTGCAGGCG 
GTGCAGGCCA TGTACCAGAT AAGCCAGGAG GAACACAGCC AGCTGCAAGA GCAGATGGAA 
AAGTTACTGG CCAAGCAGAA AGACCTGAAG GAAGAGCTGG ATGCCTGTGA AAGGGAGTTC 
AAGGAGTGCA TGGAATGCCT TGAAAAGCCC ATGGCCCCCC AGAACGACAA GAATGAGAAC 
ATGTTTGGGT TGTGGAAGCC TATGGTATTC TTGGCTATTG CAGCTGTGGC TCTGTATGTG 
TTACCCAACA TGCGACAGCA GGAGTCAGAG TTCTGCCTCA TGGAGTGA

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

RefSeq	NP_001350353.1
CDS	57..3044
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNENMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	NM_001363424.2
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 4, mRNA.

Target ORF information:

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

NM_001363424.2

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT GTGACACACT GCTGTCCAGA 
CTGACAGAAT TGCAGGAAAA GTACAAGGCC AGCCAGAAGG AGATGGGGCA GCTGCAGATG 
GAGCAGTGTG AGCTCCTGGA GGATCAGAGG AGGATGCAGG AGGAGCAGGG CCAGCTGCAG 
GAAGAGCTGC ACAGGCTCAC ACTGCCACTG CCAAAGAGTG GCCTCTTACT CAAGAGTCAG 
GAGCTACTCA CCAAGTTAGA AGACCTGTGT GAGCTGCAGC TGCTCTACCA AGGCATGCAG 
GAGGAACAGA AGAAGCTGAT ACAGAACCAA GACTGTGTAT TAAAAGAACA ATTAGAGATC 
CACGAAGAGC TGCGACGTTT CAAAGAGTCT CATTTCCAGG AAGTGTTGGA GAATCCCGAT 
GATTCCAAAT TGGCTAAGTC CTCCAAATGT AATCGAAACA AGCAATCCAA GCTGCTCATG 
GAGCAGATGC AGGCCCTGCA GGTGATGTAT GACGCCGGTC AGGCGAAGCA GGAGCTCTTG 
CAGCAAGAGC AAGGGAGGCT CCTAGAGGAG CGGAAGAGGC TGCAGGCAGA CTTGCAGCTC 
TGCCTGGAAG AAATGCAGCT GCTTCAAGTC CAGTCCCCTT CTATAAAAAT GAGCCTTGAG 
TCCTACGGGA AGAGCTATGG TAGCATGGTC CCCAGCAATG AGAACTGTCG CAAGACTTAT 
GATACCACTG TGGATGACAA TGAGAGCTAT TACAAGAGTT ACACCAGCAC CCAGACCAGC 
AGCAAGAGCT TTCTCAAGAG CTATGACAGC AGCACCAGTG CCAGTGAGGC CTATGGGAAG 
AGTTACTGCA CTACCAGCAA CAGCAGCATT ACCTATAAGA AGAGTTACGG CAGCACCAGT 
AGCTCTGACA CCTGCCAGAA GAGTTTTGTC AGCAGCTGCA CTGACGAGGA ACCTGCTGAG 
CCTGAAGACA TGGAGCGCTT TGAGGAAATG GTTGTGAAAG TGCTGATCAA GCTGCAGGCG 
GTGCAGGCCA TGTACCAGAT AAGCCAGGAG GAACACAGCC AGCTGCAAGA GCAGATGGAA 
AAGTTACTGG CCAAGCAGAA AGACCTGAAG GAAGAGCTGG ATGCCTGTGA AAGGGAGTTC 
AAGGAGTGCA TGGAATGCCT TGAAAAGCCC ATGGCCCCCC AGAACGACAA GAATGAGAAC 
ATGTTTGGGT TGTGGAAGCC TATGGTATTC TTGGCTATTG CAGCTGTGGC TCTGTATGTG 
TTACCCAACA TGCGACAGCA GGAGTCAGAG TTCTGCCTCA TGGAGTGA

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

CCDC136 ( NM_001363424.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001350353.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 4, mRNA.

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CloneID	OHu97450
Clone ID Related Accession (Same CDS sequence)	NM_001363424.2 , XM_017012534.1 , NM_001363424.1
Accession Version	NM_001363424.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2988bp) 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	2018-12-13
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 4
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DR003042.1, AK124447.1, DA511054.1, AK023500.1, DB050791.1 and AI611323.1. On May 18, 2018 this sequence version replaced XM_017012534.2. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.99974.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2148093, SAMEA2148874 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT GTGACACACT GCTGTCCAGA 
CTGACAGAAT TGCAGGAAAA GTACAAGGCC AGCCAGAAGG AGATGGGGCA GCTGCAGATG 
GAGCAGTGTG AGCTCCTGGA GGATCAGAGG AGGATGCAGG AGGAGCAGGG CCAGCTGCAG 
GAAGAGCTGC ACAGGCTCAC ACTGCCACTG CCAAAGAGTG GCCTCTTACT CAAGAGTCAG 
GAGCTACTCA CCAAGTTAGA AGACCTGTGT GAGCTGCAGC TGCTCTACCA AGGCATGCAG 
GAGGAACAGA AGAAGCTGAT ACAGAACCAA GACTGTGTAT TAAAAGAACA ATTAGAGATC 
CACGAAGAGC TGCGACGTTT CAAAGAGTCT CATTTCCAGG AAGTGTTGGA GAATCCCGAT 
GATTCCAAAT TGGCTAAGTC CTCCAAATGT AATCGAAACA AGCAATCCAA GCTGCTCATG 
GAGCAGATGC AGGCCCTGCA GGTGATGTAT GACGCCGGTC AGGCGAAGCA GGAGCTCTTG 
CAGCAAGAGC AAGGGAGGCT CCTAGAGGAG CGGAAGAGGC TGCAGGCAGA CTTGCAGCTC 
TGCCTGGAAG AAATGCAGCT GCTTCAAGTC CAGTCCCCTT CTATAAAAAT GAGCCTTGAG 
TCCTACGGGA AGAGCTATGG TAGCATGGTC CCCAGCAATG AGAACTGTCG CAAGACTTAT 
GATACCACTG TGGATGACAA TGAGAGCTAT TACAAGAGTT ACACCAGCAC CCAGACCAGC 
AGCAAGAGCT TTCTCAAGAG CTATGACAGC AGCACCAGTG CCAGTGAGGC CTATGGGAAG 
AGTTACTGCA CTACCAGCAA CAGCAGCATT ACCTATAAGA AGAGTTACGG CAGCACCAGT 
AGCTCTGACA CCTGCCAGAA GAGTTTTGTC AGCAGCTGCA CTGACGAGGA ACCTGCTGAG 
CCTGAAGACA TGGAGCGCTT TGAGGAAATG GTTGTGAAAG TGCTGATCAA GCTGCAGGCG 
GTGCAGGCCA TGTACCAGAT AAGCCAGGAG GAACACAGCC AGCTGCAAGA GCAGATGGAA 
AAGTTACTGG CCAAGCAGAA AGACCTGAAG GAAGAGCTGG ATGCCTGTGA AAGGGAGTTC 
AAGGAGTGCA TGGAATGCCT TGAAAAGCCC ATGGCCCCCC AGAACGACAA GAATGAGAAC 
ATGTTTGGGT TGTGGAAGCC TATGGTATTC TTGGCTATTG CAGCTGTGGC TCTGTATGTG 
TTACCCAACA TGCGACAGCA GGAGTCAGAG TTCTGCCTCA TGGAGTGA

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

RefSeq	NP_001350353.1
CDS	57..3044
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNENMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	NM_001363424.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 4, mRNA.

Target ORF information:

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

NM_001363424.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT GTGACACACT GCTGTCCAGA 
CTGACAGAAT TGCAGGAAAA GTACAAGGCC AGCCAGAAGG AGATGGGGCA GCTGCAGATG 
GAGCAGTGTG AGCTCCTGGA GGATCAGAGG AGGATGCAGG AGGAGCAGGG CCAGCTGCAG 
GAAGAGCTGC ACAGGCTCAC ACTGCCACTG CCAAAGAGTG GCCTCTTACT CAAGAGTCAG 
GAGCTACTCA CCAAGTTAGA AGACCTGTGT GAGCTGCAGC TGCTCTACCA AGGCATGCAG 
GAGGAACAGA AGAAGCTGAT ACAGAACCAA GACTGTGTAT TAAAAGAACA ATTAGAGATC 
CACGAAGAGC TGCGACGTTT CAAAGAGTCT CATTTCCAGG AAGTGTTGGA GAATCCCGAT 
GATTCCAAAT TGGCTAAGTC CTCCAAATGT AATCGAAACA AGCAATCCAA GCTGCTCATG 
GAGCAGATGC AGGCCCTGCA GGTGATGTAT GACGCCGGTC AGGCGAAGCA GGAGCTCTTG 
CAGCAAGAGC AAGGGAGGCT CCTAGAGGAG CGGAAGAGGC TGCAGGCAGA CTTGCAGCTC 
TGCCTGGAAG AAATGCAGCT GCTTCAAGTC CAGTCCCCTT CTATAAAAAT GAGCCTTGAG 
TCCTACGGGA AGAGCTATGG TAGCATGGTC CCCAGCAATG AGAACTGTCG CAAGACTTAT 
GATACCACTG TGGATGACAA TGAGAGCTAT TACAAGAGTT ACACCAGCAC CCAGACCAGC 
AGCAAGAGCT TTCTCAAGAG CTATGACAGC AGCACCAGTG CCAGTGAGGC CTATGGGAAG 
AGTTACTGCA CTACCAGCAA CAGCAGCATT ACCTATAAGA AGAGTTACGG CAGCACCAGT 
AGCTCTGACA CCTGCCAGAA GAGTTTTGTC AGCAGCTGCA CTGACGAGGA ACCTGCTGAG 
CCTGAAGACA TGGAGCGCTT TGAGGAAATG GTTGTGAAAG TGCTGATCAA GCTGCAGGCG 
GTGCAGGCCA TGTACCAGAT AAGCCAGGAG GAACACAGCC AGCTGCAAGA GCAGATGGAA 
AAGTTACTGG CCAAGCAGAA AGACCTGAAG GAAGAGCTGG ATGCCTGTGA AAGGGAGTTC 
AAGGAGTGCA TGGAATGCCT TGAAAAGCCC ATGGCCCCCC AGAACGACAA GAATGAGAAC 
ATGTTTGGGT TGTGGAAGCC TATGGTATTC TTGGCTATTG CAGCTGTGGC TCTGTATGTG 
TTACCCAACA TGCGACAGCA GGAGTCAGAG TTCTGCCTCA TGGAGTGA

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

CCDC136 ( NM_001367763.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001354692.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 7, mRNA.

Price & Availability↑

CloneID	OHu97451
Clone ID Related Accession (Same CDS sequence)	NM_001367763.1 , XM_017012535.1
Accession Version	NM_001367763.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1857bp) 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	2019-08-07
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 7
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC024952.4 and AC025594.5. On Dec 14, 2018 this sequence version replaced XM_017012535.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.102039.1, SRR3476690.699223.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968540, SAMEA2145743 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTCATC CCCTACCCCC AATCCCCCCA TCTTCTCCTT GCCTCTTGTA 
GGCCTGGTGG TCATCTCGGC TTTGCTCTGG TGCTGGTGGG CTGAGACGTC GTCCTAA

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

RefSeq	NP_001354692.1
CDS	57..1913
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	NM_001367763.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 7, mRNA.

Target ORF information:

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

NM_001367763.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTCATC CCCTACCCCC AATCCCCCCA TCTTCTCCTT GCCTCTTGTA 
GGCCTGGTGG TCATCTCGGC TTTGCTCTGG TGCTGGTGGG CTGAGACGTC GTCCTAA

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

CCDC136 ( NM_001367762.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001354691.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 6, mRNA.

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CloneID	OHu97452
Clone ID Related Accession (Same CDS sequence)	XM_017012536.1 , NM_001367762.1
Accession Version	NM_001367762.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1821bp) 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	2019-08-06
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform 6
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC024952.4 and AC025594.5. On Dec 14, 2018 this sequence version replaced XM_017012536.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.154357.1, SRR1803613.224048.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968540, SAMEA2145743 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT CATCCCCTAC CCCCAATCCC 
CCCATCTTCT CCTTGCCTCT TGTAGGCCTG GTGGTCATCT CGGCTTTGCT CTGGTGCTGG 
TGGGCTGAGA CGTCGTCCTA A

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

RefSeq	NP_001354691.1
CDS	57..1877
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	NM_001367762.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant 6, mRNA.

Target ORF information:

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

NM_001367762.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT CATCCCCTAC CCCCAATCCC 
CCCATCTTCT CCTTGCCTCT TGTAGGCCTG GTGGTCATCT CGGCTTTGCT CTGGTGCTGG 
TGGGCTGAGA CGTCGTCCTA A

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

CCDC136 ( XM_005250534.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005250591.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X5, mRNA.

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CloneID	OHu41716
Clone ID Related Accession (Same CDS sequence)	XM_005250534.3 , NM_001367764.1
Accession Version	XM_005250534.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3624bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_005250534.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGATCAAAG AACTGCAGAC CAAGCTGCGG 
GAGCTGCAGC TGCAATACCA GGCTAGCATG GATGAGCAGG GGCGGCTTCT GGTAGTGCAG 
GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG 
AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG AAGAATGCTA ATAAGAACAT GAACAAGAAT 
GCCAATGGGG TTAAAATGAA AAAGGTGACC AAGCCATGCT CGGATACTTC TGAGAGCGAC 
CTTGAGACCA GAAAGAGTCT GGAGGTAGTG CTGTACTACA AGGCCAGCCA GAGGAAATTA 
GATGGACTAG CAAAAGAGGA GGAAAAGAAA GAGGAGATGG AGGAGGAAAA AAAGCAAGTG 
AAAGAGGAAG CAAAGGAGCA GTGTGGGGAT GAGCTAGTTG CTGAGCCAGC AGATCCTGAG 
GAAGCTAAAT CCACAGAAGA TCAGGAGGAA AATGAAGAGG ACAAAGAGGA AGAGGAGAAG 
GAAGAAGACA GTGAAGAGGA GGAGGATGAC GCCGACTCTT CCCTTGAAAG TCCCGAAGAA 
AATAACCCCC TCAGACTTTC CGAGAGCAAA AAGAACATGT TTGGGTTGTG GAAGCCTATG 
GTATTCTTGG CTATTGCAGC TGTGGCTCTG TATGTGTTAC CCAACATGCG ACAGCAGGAG 
TCAGAGTTCT GCCTCATGGA GTGA

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

RefSeq	XP_005250591.1
CDS	51..3674
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKNMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_005250534.3
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X5, mRNA.

Target ORF information:

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

XM_005250534.3

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGATCAAAG AACTGCAGAC CAAGCTGCGG 
GAGCTGCAGC TGCAATACCA GGCTAGCATG GATGAGCAGG GGCGGCTTCT GGTAGTGCAG 
GAGCAGCTGG AGGGGCAGCT GCAGTGCTGC CAGGAGGAGC TCCGCCAGCT CAGGGAGAAG 
AGGCCTTCTG TTGTCAAAGA AGCCCGGGGG AAGAATGCTA ATAAGAACAT GAACAAGAAT 
GCCAATGGGG TTAAAATGAA AAAGGTGACC AAGCCATGCT CGGATACTTC TGAGAGCGAC 
CTTGAGACCA GAAAGAGTCT GGAGGTAGTG CTGTACTACA AGGCCAGCCA GAGGAAATTA 
GATGGACTAG CAAAAGAGGA GGAAAAGAAA GAGGAGATGG AGGAGGAAAA AAAGCAAGTG 
AAAGAGGAAG CAAAGGAGCA GTGTGGGGAT GAGCTAGTTG CTGAGCCAGC AGATCCTGAG 
GAAGCTAAAT CCACAGAAGA TCAGGAGGAA AATGAAGAGG ACAAAGAGGA AGAGGAGAAG 
GAAGAAGACA GTGAAGAGGA GGAGGATGAC GCCGACTCTT CCCTTGAAAG TCCCGAAGAA 
AATAACCCCC TCAGACTTTC CGAGAGCAAA AAGAACATGT TTGGGTTGTG GAAGCCTATG 
GTATTCTTGG CTATTGCAGC TGTGGCTCTG TATGTGTTAC CCAACATGCG ACAGCAGGAG 
TCAGAGTTCT GCCTCATGGA GTGA

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

CCDC136 ( XM_005250538.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_005250595.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X11, mRNA.

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CloneID	OHu41721
Clone ID Related Accession (Same CDS sequence)	NM_001363423.2 , XM_005250538.1 , NM_001363423.1
Accession Version	XM_005250538.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3024bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGAACATGT TTGGGTTGTG GAAGCCTATG 
GTATTCTTGG CTATTGCAGC TGTGGCTCTG TATGTGTTAC CCAACATGCG ACAGCAGGAG 
TCAGAGTTCT GCCTCATGGA GTGA

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

RefSeq	XP_005250595.1
CDS	51..3074
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNENMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_005250538.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X11, mRNA.

Target ORF information:

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

XM_005250538.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA ATCCAAGCTG CTCATGGAGC AGATGCAGGC CCTGCAGGTG 
ATGTATGACG CCGGTCAGGC GAAGCAGGAG CTCTTGCAGC AAGAGCAAGG GAGGCTCCTA 
GAGGAGCGGA AGAGGCTGCA GGCAGACTTG CAGCTCTGCC TGGAAGAAAT GCAGCTGCTT 
CAAGTCCAGT CCCCTTCTAT AAAAATGAGC CTTGAGTCCT ACGGGAAGAG CTATGGTAGC 
ATGGTCCCCA GCAATGAGAA CTGTCGCAAG ACTTATGATA CCACTGTGGA TGACAATGAG 
AGCTATTACA AGAGTTACAC CAGCACCCAG ACCAGCAGCA AGAGCTTTCT CAAGAGCTAT 
GACAGCAGCA CCAGTGCCAG TGAGGCCTAT GGGAAGAGTT ACTGCACTAC CAGCAACAGC 
AGCATTACCT ATAAGAAGAG TTACGGCAGC ACCAGTAGCT CTGACACCTG CCAGAAGAGT 
TTTGTCAGCA GCTGCACTGA CGAGGAACCT GCTGAGCCTG AAGACATGGA GCGCTTTGAG 
GAAATGGTTG TGAAAGTGCT GATCAAGCTG CAGGCGGTGC AGGCCATGTA CCAGATAAGC 
CAGGAGGAAC ACAGCCAGCT GCAAGAGCAG ATGGAAAAGT TACTGGCCAA GCAGAAAGAC 
CTGAAGGAAG AGCTGGATGC CTGTGAAAGG GAGTTCAAGG AGTGCATGGA ATGCCTTGAA 
AAGCCCATGG CCCCCCAGAA CGACAAGAAT GAGAACATGT TTGGGTTGTG GAAGCCTATG 
GTATTCTTGG CTATTGCAGC TGTGGCTCTG TATGTGTTAC CCAACATGCG ACAGCAGGAG 
TCAGAGTTCT GCCTCATGGA GTGA

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

CCDC136 ( XM_011516483.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514785.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu71432
Clone ID Related Accession (Same CDS sequence)	XM_011516483.1
Accession Version	XM_011516483.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3696bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA GCCAAGAAGC CAGGCCCAAC ATGCCCAGAG GCCAGATTCA 
GAATTGGGGC AGGAGATACA GGAACTAATA CAATCCAAGC TGCTCATGGA GCAGATGCAG 
GCCCTGCAGG TGATGTATGA CGCCGGTCAG GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA 
GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG CAGGCAGACT TGCAGCTCTG CCTGGAAGAA 
ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT ATAAAAATGA GCCTTGAGTC CTACGGGAAG 
AGCTATGGTA GCATGGTCCC CAGCAATGAG AACTGTCGCA AGACTTATGA TACCACTGTG 
GATGACAATG AGAGCTATTA CAAGAGTTAC ACCAGCACCC AGACCAGCAG CAAGAGCTTT 
CTCAAGAGCT ATGACAGCAG CACCAGTGCC AGTGAGGCCT ATGGGAAGAG TTACTGCACT 
ACCAGCAACA GCAGCATTAC CTATAAGAAG AGTTACGGCA GCACCAGTAG CTCTGACACC 
TGCCAGAAGA GTTTTGTCAG CAGCTGCACT GACGAGGAAC CTGCTGAGCC TGAAGACATG 
GAGCGCTTTG AGGAAATGGT TGTGAAAGTG CTGATCAAGC TGCAGGCGGT GCAGGCCATG 
TACCAGATAA GCCAGGAGGA ACACAGCCAG CTGCAAGAGC AGATGGAAAA GTTACTGGCC 
AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT GCCTGTGAAA GGGAGTTCAA GGAGTGCATG 
GAATGCCTTG AAAAGCCCAT GGCCCCCCAG AACGACAAGA ATGAGATCAA AGAACTGCAG 
ACCAAGCTGC GGGAGCTGCA GCTGCAATAC CAGGCTAGCA TGGATGAGCA GGGGCGGCTT 
CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG 
CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA GAAGCCCGGG GGAAGAATGC TAATAAGAAC 
ATGAACAAGA ATGCCAATGG GGTTAAAATG AAAAAGGTGA CCAAGCCATG CTCGGATACT 
TCTGAGAGCG ACCTTGAGAC CAGAAAGAGT CTGGAGGTAG TGCTGTACTA CAAGGCCAGC 
CAGAGGAAAT TAGATGGACT AGCAAAAGAG GAGGAAAAGA AAGAGGAGAT GGAGGAGGAA 
AAAAAGCAAG TGAAAGAGGA AGCAAAGGAG CAGTGTGGGG ATGAGCTAGT TGCTGAGCCA 
GCAGATCCTG AGGAAGCTAA ATCCACAGAA GATCAGGAGG AAAATGAAGA GGACAAAGAG 
GAAGAGGAGA AGGAAGAAGA CAGTGAAGAG GAGGAGGATG ACGCCGACTC TTCCCTTGAA 
AGTCCCGAAG AAAATAACCC CCTCAGACTT TCCGAGAGCA AAAAGAACAT GTTTGGGTTG 
TGGAAGCCTA TGGTATTCTT GGCTATTGCA GCTGTGGCTC TGTATGTGTT ACCCAACATG 
CGACAGCAGG AGTCAGAGTT CTGCCTCATG GAGTGA

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

RefSeq	XP_011514785.1
CDS	51..3746
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQPRSQAQHAQRPDSELGQEIQELIQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKNMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_011516483.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X1, mRNA.

Target ORF information:

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

XM_011516483.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA GCCAAGAAGC CAGGCCCAAC ATGCCCAGAG GCCAGATTCA 
GAATTGGGGC AGGAGATACA GGAACTAATA CAATCCAAGC TGCTCATGGA GCAGATGCAG 
GCCCTGCAGG TGATGTATGA CGCCGGTCAG GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA 
GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG CAGGCAGACT TGCAGCTCTG CCTGGAAGAA 
ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT ATAAAAATGA GCCTTGAGTC CTACGGGAAG 
AGCTATGGTA GCATGGTCCC CAGCAATGAG AACTGTCGCA AGACTTATGA TACCACTGTG 
GATGACAATG AGAGCTATTA CAAGAGTTAC ACCAGCACCC AGACCAGCAG CAAGAGCTTT 
CTCAAGAGCT ATGACAGCAG CACCAGTGCC AGTGAGGCCT ATGGGAAGAG TTACTGCACT 
ACCAGCAACA GCAGCATTAC CTATAAGAAG AGTTACGGCA GCACCAGTAG CTCTGACACC 
TGCCAGAAGA GTTTTGTCAG CAGCTGCACT GACGAGGAAC CTGCTGAGCC TGAAGACATG 
GAGCGCTTTG AGGAAATGGT TGTGAAAGTG CTGATCAAGC TGCAGGCGGT GCAGGCCATG 
TACCAGATAA GCCAGGAGGA ACACAGCCAG CTGCAAGAGC AGATGGAAAA GTTACTGGCC 
AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT GCCTGTGAAA GGGAGTTCAA GGAGTGCATG 
GAATGCCTTG AAAAGCCCAT GGCCCCCCAG AACGACAAGA ATGAGATCAA AGAACTGCAG 
ACCAAGCTGC GGGAGCTGCA GCTGCAATAC CAGGCTAGCA TGGATGAGCA GGGGCGGCTT 
CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG 
CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA GAAGCCCGGG GGAAGAATGC TAATAAGAAC 
ATGAACAAGA ATGCCAATGG GGTTAAAATG AAAAAGGTGA CCAAGCCATG CTCGGATACT 
TCTGAGAGCG ACCTTGAGAC CAGAAAGAGT CTGGAGGTAG TGCTGTACTA CAAGGCCAGC 
CAGAGGAAAT TAGATGGACT AGCAAAAGAG GAGGAAAAGA AAGAGGAGAT GGAGGAGGAA 
AAAAAGCAAG TGAAAGAGGA AGCAAAGGAG CAGTGTGGGG ATGAGCTAGT TGCTGAGCCA 
GCAGATCCTG AGGAAGCTAA ATCCACAGAA GATCAGGAGG AAAATGAAGA GGACAAAGAG 
GAAGAGGAGA AGGAAGAAGA CAGTGAAGAG GAGGAGGATG ACGCCGACTC TTCCCTTGAA 
AGTCCCGAAG AAAATAACCC CCTCAGACTT TCCGAGAGCA AAAAGAACAT GTTTGGGTTG 
TGGAAGCCTA TGGTATTCTT GGCTATTGCA GCTGTGGCTC TGTATGTGTT ACCCAACATG 
CGACAGCAGG AGTCAGAGTT CTGCCTCATG GAGTGA

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

CCDC136 ( XM_011516484.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514786.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X2, mRNA.

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CloneID	OHu71433
Clone ID Related Accession (Same CDS sequence)	XM_011516484.1
Accession Version	XM_011516484.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3696bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA GCCAAGAAGC CAGGCCCAAC ATGCCCAGAG GCCAGATTCA 
GAATTGGGGC AGGAGATACA GGAACTAATA CAATCCAAGC TGCTCATGGA GCAGATGCAG 
GCCCTGCAGG TGATGTATGA CGCCGGTCAG GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA 
GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG CAGGCAGACT TGCAGCTCTG CCTGGAAGAA 
ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT ATAAAAATGA GCCTTGAGTC CTACGGGAAG 
AGCTATGGTA GCATGGTCCC CAGCAATGAG AACTGTCGCA AGACTTATGA TACCACTGTG 
GATGACAATG AGAGCTATTA CAAGAGTTAC ACCAGCACCC AGACCAGCAG CAAGAGCTTT 
CTCAAGAGCT ATGACAGCAG CACCAGTGCC AGTGAGGCCT ATGGGAAGAG TTACTGCACT 
ACCAGCAACA GCAGCATTAC CTATAAGAAG AGTTACGGCA GCACCAGTAG CTCTGACACC 
TGCCAGAAGA GTTTTGTCAG CAGCTGCACT GACGAGGAAC CTGCTGAGCC TGAAGACATG 
GAGCGCTTTG AGGAAATGGT TGTGAAAGTG CTGATCAAGC TGCAGGCGGT GCAGGCCATG 
TACCAGATAA GCCAGGAGGA ACACAGCCAG CTGCAAGAGC AGATGGAAAA GTTACTGGCC 
AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT GCCTGTGAAA GGGAGTTCAA GGAGTGCATG 
GAATGCCTTG AAAAGCCCAT GGCCCCCCAG AACGACAAGA ATGAGATCAA AGAACTGCAG 
ACCAAGCTGC GGGAGCTGCA GCTGCAATAC CAGGCTAGCA TGGATGAGCA GGGGCGGCTT 
CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG 
CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA GAAGCCCGGG GGAAGAATGC TAATAAGAAC 
ATGAACAAGA ATGCCAATGG GGTTAAAATG AAAAAGGTGA CCAAGCCATG CTCGGATACT 
TCTGAGAGCG ACCTTGAGAC CAGAAAGAAG ATCAGGAGGA AAATGAAGAG GACAAAGAGG 
AAGAGGAGAA GGAAGAAGAC AGTGAAGAGG AGGAGGATGA CGCCGACTCT TCCCTTGAAA 
GTCCCGAAGA AAATAACCCC CTCAGACTTT CCGAGAGCAA AAAGAACATG TTTGGGTTGT 
GGAAGCCTAT GGTATTCTTG GCTATTGCAG CTGTGGCTCT GTATGTGTTA CCCAACATGC 
GACAGCAGGA GTCAGAGTTC TGCCTCATGG AGTGATGGCA GACCTTGGCC AGCGCGAGGG 
CAGATCCCCA GTGGCCACCA CCCTCAGCTT TGGGCAGGAC ACACTGTGCC AGAACCCTCC 
CCATATGTTC CATGTGTCCC CATCTCCTCA GCCTCAGTCA CCCAGGCTGA AAAGGCTTGT 
GGGGAGCGGC TGACTTCCAT CTCCTGCCTT GTGTAA

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

RefSeq	XP_011514786.1
CDS	51..3746
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQPRSQAQHAQRPDSELGQEIQELIQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKKIRRKMKRTKRKRRRKKTVKRRRMTPTLPLKVPKKITPSDFPRAKRTCLGCGSLWYSWLLQLWLCMCYPTCDSRSQSSASWSDGRPWPARGQIPSGHHPQLWAGHTVPEPSPYVPCVPISSASVTQAEKACGERLTSISCLV

Target ORF information:

RefSeq Version	XM_011516484.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X2, mRNA.

Target ORF information:

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

XM_011516484.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA GCCAAGAAGC CAGGCCCAAC ATGCCCAGAG GCCAGATTCA 
GAATTGGGGC AGGAGATACA GGAACTAATA CAATCCAAGC TGCTCATGGA GCAGATGCAG 
GCCCTGCAGG TGATGTATGA CGCCGGTCAG GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA 
GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG CAGGCAGACT TGCAGCTCTG CCTGGAAGAA 
ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT ATAAAAATGA GCCTTGAGTC CTACGGGAAG 
AGCTATGGTA GCATGGTCCC CAGCAATGAG AACTGTCGCA AGACTTATGA TACCACTGTG 
GATGACAATG AGAGCTATTA CAAGAGTTAC ACCAGCACCC AGACCAGCAG CAAGAGCTTT 
CTCAAGAGCT ATGACAGCAG CACCAGTGCC AGTGAGGCCT ATGGGAAGAG TTACTGCACT 
ACCAGCAACA GCAGCATTAC CTATAAGAAG AGTTACGGCA GCACCAGTAG CTCTGACACC 
TGCCAGAAGA GTTTTGTCAG CAGCTGCACT GACGAGGAAC CTGCTGAGCC TGAAGACATG 
GAGCGCTTTG AGGAAATGGT TGTGAAAGTG CTGATCAAGC TGCAGGCGGT GCAGGCCATG 
TACCAGATAA GCCAGGAGGA ACACAGCCAG CTGCAAGAGC AGATGGAAAA GTTACTGGCC 
AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT GCCTGTGAAA GGGAGTTCAA GGAGTGCATG 
GAATGCCTTG AAAAGCCCAT GGCCCCCCAG AACGACAAGA ATGAGATCAA AGAACTGCAG 
ACCAAGCTGC GGGAGCTGCA GCTGCAATAC CAGGCTAGCA TGGATGAGCA GGGGCGGCTT 
CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG 
CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA GAAGCCCGGG GGAAGAATGC TAATAAGAAC 
ATGAACAAGA ATGCCAATGG GGTTAAAATG AAAAAGGTGA CCAAGCCATG CTCGGATACT 
TCTGAGAGCG ACCTTGAGAC CAGAAAGAAG ATCAGGAGGA AAATGAAGAG GACAAAGAGG 
AAGAGGAGAA GGAAGAAGAC AGTGAAGAGG AGGAGGATGA CGCCGACTCT TCCCTTGAAA 
GTCCCGAAGA AAATAACCCC CTCAGACTTT CCGAGAGCAA AAAGAACATG TTTGGGTTGT 
GGAAGCCTAT GGTATTCTTG GCTATTGCAG CTGTGGCTCT GTATGTGTTA CCCAACATGC 
GACAGCAGGA GTCAGAGTTC TGCCTCATGG AGTGATGGCA GACCTTGGCC AGCGCGAGGG 
CAGATCCCCA GTGGCCACCA CCCTCAGCTT TGGGCAGGAC ACACTGTGCC AGAACCCTCC 
CCATATGTTC CATGTGTCCC CATCTCCTCA GCCTCAGTCA CCCAGGCTGA AAAGGCTTGT 
GGGGAGCGGC TGACTTCCAT CTCCTGCCTT GTGTAA

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

CCDC136 ( XM_011516485.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514787.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu71434
Clone ID Related Accession (Same CDS sequence)	XM_011516485.1
Accession Version	XM_011516485.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3693bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCC AAGAAGCCAG GCCCAACATG CCCAGAGGCC AGATTCAGAA 
TTGGGGCAGG AGATACAGGA ACTAATACAA TCCAAGCTGC TCATGGAGCA GATGCAGGCC 
CTGCAGGTGA TGTATGACGC CGGTCAGGCG AAGCAGGAGC TCTTGCAGCA AGAGCAAGGG 
AGGCTCCTAG AGGAGCGGAA GAGGCTGCAG GCAGACTTGC AGCTCTGCCT GGAAGAAATG 
CAGCTGCTTC AAGTCCAGTC CCCTTCTATA AAAATGAGCC TTGAGTCCTA CGGGAAGAGC 
TATGGTAGCA TGGTCCCCAG CAATGAGAAC TGTCGCAAGA CTTATGATAC CACTGTGGAT 
GACAATGAGA GCTATTACAA GAGTTACACC AGCACCCAGA CCAGCAGCAA GAGCTTTCTC 
AAGAGCTATG ACAGCAGCAC CAGTGCCAGT GAGGCCTATG GGAAGAGTTA CTGCACTACC 
AGCAACAGCA GCATTACCTA TAAGAAGAGT TACGGCAGCA CCAGTAGCTC TGACACCTGC 
CAGAAGAGTT TTGTCAGCAG CTGCACTGAC GAGGAACCTG CTGAGCCTGA AGACATGGAG 
CGCTTTGAGG AAATGGTTGT GAAAGTGCTG ATCAAGCTGC AGGCGGTGCA GGCCATGTAC 
CAGATAAGCC AGGAGGAACA CAGCCAGCTG CAAGAGCAGA TGGAAAAGTT ACTGGCCAAG 
CAGAAAGACC TGAAGGAAGA GCTGGATGCC TGTGAAAGGG AGTTCAAGGA GTGCATGGAA 
TGCCTTGAAA AGCCCATGGC CCCCCAGAAC GACAAGAATG AGATCAAAGA ACTGCAGACC 
AAGCTGCGGG AGCTGCAGCT GCAATACCAG GCTAGCATGG ATGAGCAGGG GCGGCTTCTG 
GTAGTGCAGG AGCAGCTGGA GGGGCAGCTG CAGTGCTGCC AGGAGGAGCT CCGCCAGCTC 
AGGGAGAAGA GGCCTTCTGT TGTCAAAGAA GCCCGGGGGA AGAATGCTAA TAAGAACATG 
AACAAGAATG CCAATGGGGT TAAAATGAAA AAGGTGACCA AGCCATGCTC GGATACTTCT 
GAGAGCGACC TTGAGACCAG AAAGAGTCTG GAGGTAGTGC TGTACTACAA GGCCAGCCAG 
AGGAAATTAG ATGGACTAGC AAAAGAGGAG GAAAAGAAAG AGGAGATGGA GGAGGAAAAA 
AAGCAAGTGA AAGAGGAAGC AAAGGAGCAG TGTGGGGATG AGCTAGTTGC TGAGCCAGCA 
GATCCTGAGG AAGCTAAATC CACAGAAGAT CAGGAGGAAA ATGAAGAGGA CAAAGAGGAA 
GAGGAGAAGG AAGAAGACAG TGAAGAGGAG GAGGATGACG CCGACTCTTC CCTTGAAAGT 
CCCGAAGAAA ATAACCCCCT CAGACTTTCC GAGAGCAAAA AGAACATGTT TGGGTTGTGG 
AAGCCTATGG TATTCTTGGC TATTGCAGCT GTGGCTCTGT ATGTGTTACC CAACATGCGA 
CAGCAGGAGT CAGAGTTCTG CCTCATGGAG TGA

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

RefSeq	XP_011514787.1
CDS	51..3743
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKPRSQAQHAQRPDSELGQEIQELIQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKNMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_011516485.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X3, mRNA.

Target ORF information:

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

XM_011516485.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCC AAGAAGCCAG GCCCAACATG CCCAGAGGCC AGATTCAGAA 
TTGGGGCAGG AGATACAGGA ACTAATACAA TCCAAGCTGC TCATGGAGCA GATGCAGGCC 
CTGCAGGTGA TGTATGACGC CGGTCAGGCG AAGCAGGAGC TCTTGCAGCA AGAGCAAGGG 
AGGCTCCTAG AGGAGCGGAA GAGGCTGCAG GCAGACTTGC AGCTCTGCCT GGAAGAAATG 
CAGCTGCTTC AAGTCCAGTC CCCTTCTATA AAAATGAGCC TTGAGTCCTA CGGGAAGAGC 
TATGGTAGCA TGGTCCCCAG CAATGAGAAC TGTCGCAAGA CTTATGATAC CACTGTGGAT 
GACAATGAGA GCTATTACAA GAGTTACACC AGCACCCAGA CCAGCAGCAA GAGCTTTCTC 
AAGAGCTATG ACAGCAGCAC CAGTGCCAGT GAGGCCTATG GGAAGAGTTA CTGCACTACC 
AGCAACAGCA GCATTACCTA TAAGAAGAGT TACGGCAGCA CCAGTAGCTC TGACACCTGC 
CAGAAGAGTT TTGTCAGCAG CTGCACTGAC GAGGAACCTG CTGAGCCTGA AGACATGGAG 
CGCTTTGAGG AAATGGTTGT GAAAGTGCTG ATCAAGCTGC AGGCGGTGCA GGCCATGTAC 
CAGATAAGCC AGGAGGAACA CAGCCAGCTG CAAGAGCAGA TGGAAAAGTT ACTGGCCAAG 
CAGAAAGACC TGAAGGAAGA GCTGGATGCC TGTGAAAGGG AGTTCAAGGA GTGCATGGAA 
TGCCTTGAAA AGCCCATGGC CCCCCAGAAC GACAAGAATG AGATCAAAGA ACTGCAGACC 
AAGCTGCGGG AGCTGCAGCT GCAATACCAG GCTAGCATGG ATGAGCAGGG GCGGCTTCTG 
GTAGTGCAGG AGCAGCTGGA GGGGCAGCTG CAGTGCTGCC AGGAGGAGCT CCGCCAGCTC 
AGGGAGAAGA GGCCTTCTGT TGTCAAAGAA GCCCGGGGGA AGAATGCTAA TAAGAACATG 
AACAAGAATG CCAATGGGGT TAAAATGAAA AAGGTGACCA AGCCATGCTC GGATACTTCT 
GAGAGCGACC TTGAGACCAG AAAGAGTCTG GAGGTAGTGC TGTACTACAA GGCCAGCCAG 
AGGAAATTAG ATGGACTAGC AAAAGAGGAG GAAAAGAAAG AGGAGATGGA GGAGGAAAAA 
AAGCAAGTGA AAGAGGAAGC AAAGGAGCAG TGTGGGGATG AGCTAGTTGC TGAGCCAGCA 
GATCCTGAGG AAGCTAAATC CACAGAAGAT CAGGAGGAAA ATGAAGAGGA CAAAGAGGAA 
GAGGAGAAGG AAGAAGACAG TGAAGAGGAG GAGGATGACG CCGACTCTTC CCTTGAAAGT 
CCCGAAGAAA ATAACCCCCT CAGACTTTCC GAGAGCAAAA AGAACATGTT TGGGTTGTGG 
AAGCCTATGG TATTCTTGGC TATTGCAGCT GTGGCTCTGT ATGTGTTACC CAACATGCGA 
CAGCAGGAGT CAGAGTTCTG CCTCATGGAG TGA

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

CCDC136 ( XM_011516486.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514788.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu71435
Clone ID Related Accession (Same CDS sequence)	XM_011516486.1
Accession Version	XM_011516486.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3660bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT GTGACACACT GCTGTCCAGA 
CTGACAGAAT TGCAGGAAAA GTACAAGGCC AGCCAGAAGG AGATGGGGCA GCTGCAGATG 
GAGCAGTGTG AGCTCCTGGA GGATCAGAGG AGGATGCAGG AGGAGCAGGG CCAGCTGCAG 
GAAGAGCTGC ACAGGCTCAC ACTGCCACTG CCAAAGAGTG GCCTCTTACT CAAGAGTCAG 
GAGCTACTCA CCAAGTTAGA AGACCTGTGT GAGCTGCAGC TGCTCTACCA AGGCATGCAG 
GAGGAACAGA AGAAGCTGAT ACAGAACCAA GACTGTGTAT TAAAAGAACA ATTAGAGATC 
CACGAAGAGC TGCGACGTTT CAAAGAGTCT CATTTCCAGG AAGTGTTGGA GAATCCCGAT 
GATTCCAAAT TGGCTAAGTC CTCCAAATGT AATCGAAACA AGCAGCCAAG AAGCCAGGCC 
CAACATGCCC AGAGGCCAGA TTCAGAATTG GGGCAGGAGA TACAGGAACT AATACAATCC 
AAGCTGCTCA TGGAGCAGAT GCAGGCCCTG CAGGTGATGT ATGACGCCGG TCAGGCGAAG 
CAGGAGCTCT TGCAGCAAGA GCAAGGGAGG CTCCTAGAGG AGCGGAAGAG GCTGCAGGCA 
GACTTGCAGC TCTGCCTGGA AGAAATGCAG CTGCTTCAAG TCCAGTCCCC TTCTATAAAA 
ATGAGCCTTG AGTCCTACGG GAAGAGCTAT GGTAGCATGG TCCCCAGCAA TGAGAACTGT 
CGCAAGACTT ATGATACCAC TGTGGATGAC AATGAGAGCT ATTACAAGAG TTACACCAGC 
ACCCAGACCA GCAGCAAGAG CTTTCTCAAG AGCTATGACA GCAGCACCAG TGCCAGTGAG 
GCCTATGGGA AGAGTTACTG CACTACCAGC AACAGCAGCA TTACCTATAA GAAGAGTTAC 
GGCAGCACCA GTAGCTCTGA CACCTGCCAG AAGAGTTTTG TCAGCAGCTG CACTGACGAG 
GAACCTGCTG AGCCTGAAGA CATGGAGCGC TTTGAGGAAA TGGTTGTGAA AGTGCTGATC 
AAGCTGCAGG CGGTGCAGGC CATGTACCAG ATAAGCCAGG AGGAACACAG CCAGCTGCAA 
GAGCAGATGG AAAAGTTACT GGCCAAGCAG AAAGACCTGA AGGAAGAGCT GGATGCCTGT 
GAAAGGGAGT TCAAGGAGTG CATGGAATGC CTTGAAAAGC CCATGGCCCC CCAGAACGAC 
AAGAATGAGA TCAAAGAACT GCAGACCAAG CTGCGGGAGC TGCAGCTGCA ATACCAGGCT 
AGCATGGATG AGCAGGGGCG GCTTCTGGTA GTGCAGGAGC AGCTGGAGGG GCAGCTGCAG 
TGCTGCCAGG AGGAGCTCCG CCAGCTCAGG GAGAAGAGGC CTTCTGTTGT CAAAGAAGCC 
CGGGGGAAGA ATGCTAATAA GAACATGAAC AAGAATGCCA ATGGGGTTAA AATGAAAAAG 
GTGACCAAGC CATGCTCGGA TACTTCTGAG AGCGACCTTG AGACCAGAAA GAGTCTGGAG 
GTAGTGCTGT ACTACAAGGC CAGCCAGAGG AAATTAGATG GACTAGCAAA AGAGGAGGAA 
AAGAAAGAGG AGATGGAGGA GGAAAAAAAG CAAGTGAAAG AGGAAGCAAA GGAGCAGTGT 
GGGGATGAGC TAGTTGCTGA GCCAGCAGAT CCTGAGGAAG CTAAATCCAC AGAAGATCAG 
GAGGAAAATG AAGAGGACAA AGAGGAAGAG GAGAAGGAAG AAGACAGTGA AGAGGAGGAG 
GATGACGCCG ACTCTTCCCT TGAAAGTCCC GAAGAAAATA ACCCCCTCAG ACTTTCCGAG 
AGCAAAAAGA ACATGTTTGG GTTGTGGAAG CCTATGGTAT TCTTGGCTAT TGCAGCTGTG 
GCTCTGTATG TGTTACCCAA CATGCGACAG CAGGAGTCAG AGTTCTGCCT CATGGAGTGA

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

RefSeq	XP_011514788.1
CDS	51..3710
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQPRSQAQHAQRPDSELGQEIQELIQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKNMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_011516486.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X4, mRNA.

Target ORF information:

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

XM_011516486.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT GTGACACACT GCTGTCCAGA 
CTGACAGAAT TGCAGGAAAA GTACAAGGCC AGCCAGAAGG AGATGGGGCA GCTGCAGATG 
GAGCAGTGTG AGCTCCTGGA GGATCAGAGG AGGATGCAGG AGGAGCAGGG CCAGCTGCAG 
GAAGAGCTGC ACAGGCTCAC ACTGCCACTG CCAAAGAGTG GCCTCTTACT CAAGAGTCAG 
GAGCTACTCA CCAAGTTAGA AGACCTGTGT GAGCTGCAGC TGCTCTACCA AGGCATGCAG 
GAGGAACAGA AGAAGCTGAT ACAGAACCAA GACTGTGTAT TAAAAGAACA ATTAGAGATC 
CACGAAGAGC TGCGACGTTT CAAAGAGTCT CATTTCCAGG AAGTGTTGGA GAATCCCGAT 
GATTCCAAAT TGGCTAAGTC CTCCAAATGT AATCGAAACA AGCAGCCAAG AAGCCAGGCC 
CAACATGCCC AGAGGCCAGA TTCAGAATTG GGGCAGGAGA TACAGGAACT AATACAATCC 
AAGCTGCTCA TGGAGCAGAT GCAGGCCCTG CAGGTGATGT ATGACGCCGG TCAGGCGAAG 
CAGGAGCTCT TGCAGCAAGA GCAAGGGAGG CTCCTAGAGG AGCGGAAGAG GCTGCAGGCA 
GACTTGCAGC TCTGCCTGGA AGAAATGCAG CTGCTTCAAG TCCAGTCCCC TTCTATAAAA 
ATGAGCCTTG AGTCCTACGG GAAGAGCTAT GGTAGCATGG TCCCCAGCAA TGAGAACTGT 
CGCAAGACTT ATGATACCAC TGTGGATGAC AATGAGAGCT ATTACAAGAG TTACACCAGC 
ACCCAGACCA GCAGCAAGAG CTTTCTCAAG AGCTATGACA GCAGCACCAG TGCCAGTGAG 
GCCTATGGGA AGAGTTACTG CACTACCAGC AACAGCAGCA TTACCTATAA GAAGAGTTAC 
GGCAGCACCA GTAGCTCTGA CACCTGCCAG AAGAGTTTTG TCAGCAGCTG CACTGACGAG 
GAACCTGCTG AGCCTGAAGA CATGGAGCGC TTTGAGGAAA TGGTTGTGAA AGTGCTGATC 
AAGCTGCAGG CGGTGCAGGC CATGTACCAG ATAAGCCAGG AGGAACACAG CCAGCTGCAA 
GAGCAGATGG AAAAGTTACT GGCCAAGCAG AAAGACCTGA AGGAAGAGCT GGATGCCTGT 
GAAAGGGAGT TCAAGGAGTG CATGGAATGC CTTGAAAAGC CCATGGCCCC CCAGAACGAC 
AAGAATGAGA TCAAAGAACT GCAGACCAAG CTGCGGGAGC TGCAGCTGCA ATACCAGGCT 
AGCATGGATG AGCAGGGGCG GCTTCTGGTA GTGCAGGAGC AGCTGGAGGG GCAGCTGCAG 
TGCTGCCAGG AGGAGCTCCG CCAGCTCAGG GAGAAGAGGC CTTCTGTTGT CAAAGAAGCC 
CGGGGGAAGA ATGCTAATAA GAACATGAAC AAGAATGCCA ATGGGGTTAA AATGAAAAAG 
GTGACCAAGC CATGCTCGGA TACTTCTGAG AGCGACCTTG AGACCAGAAA GAGTCTGGAG 
GTAGTGCTGT ACTACAAGGC CAGCCAGAGG AAATTAGATG GACTAGCAAA AGAGGAGGAA 
AAGAAAGAGG AGATGGAGGA GGAAAAAAAG CAAGTGAAAG AGGAAGCAAA GGAGCAGTGT 
GGGGATGAGC TAGTTGCTGA GCCAGCAGAT CCTGAGGAAG CTAAATCCAC AGAAGATCAG 
GAGGAAAATG AAGAGGACAA AGAGGAAGAG GAGAAGGAAG AAGACAGTGA AGAGGAGGAG 
GATGACGCCG ACTCTTCCCT TGAAAGTCCC GAAGAAAATA ACCCCCTCAG ACTTTCCGAG 
AGCAAAAAGA ACATGTTTGG GTTGTGGAAG CCTATGGTAT TCTTGGCTAT TGCAGCTGTG 
GCTCTGTATG TGTTACCCAA CATGCGACAG CAGGAGTCAG AGTTCTGCCT CATGGAGTGA

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

CCDC136 ( XM_011516487.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514789.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X7, mRNA.

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CloneID	OHu71436
Clone ID Related Accession (Same CDS sequence)	XM_011516487.2
Accession Version	XM_011516487.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3594bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011516487.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA GCCAAGAAGC CAGGCCCAAC ATGCCCAGAG GCCAGATTCA 
GAATTGGGGC AGGAGATACA GGAACTAATA CAATCCAAGC TGCTCATGGA GCAGATGCAG 
GCCCTGCAGG TGATGTATGA CGCCGGTCAG GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA 
GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG CAGGCAGACT TGCAGCTCTG CCTGGAAGAA 
ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT ATAAAAATGA GCCTTGAGTC CTACGGGAAG 
AGCTATGGTA GCATGGTCCC CAGCAATGAG AACTGTCGCA AGACTTATGA TACCACTGTG 
GATGACAATG AGAGCTATTA CAAGAGTTAC ACCAGCACCC AGACCAGCAG CAAGAGCTTT 
CTCAAGAGCT ATGACAGCAG CACCAGTGCC AGTGAGGCCT ATGGGAAGAG TTACTGCACT 
ACCAGCAACA GCAGCATTAC CTATAAGAAG AGTTACGGCA GCACCAGTAG CTCTGACACC 
TGCCAGAAGA GTTTTGTCAG CAGCTGCACT GACGAGGAAC CTGCTGAGCC TGAAGACATG 
GAGCGCTTTG AGGAAATGGT TGTGAAAGTG CTGATCAAGC TGCAGGCGGT GCAGGCCATG 
TACCAGATAA GCCAGGAGGA ACACAGCCAG CTGCAAGAGC AGATGGAAAA GTTACTGGCC 
AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT GCCTGTGAAA GGGAGTTCAA GGAGTGCATG 
GAATGCCTTG AAAAGCCCAT GGCCCCCCAG AACGACAAGA ATGAGATCAA AGAACTGCAG 
ACCAAGCTGC GGGAGCTGCA GCTGCAATAC CAGGCTAGCA TGGATGAGCA GGGGCGGCTT 
CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG 
CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA GAAGCCCGGG GGAAGAATGC TAATAAGAAC 
ATGAACAAGA ATGCCAATGG GGTTAAAATG AAAAAGGTGA CCAAGCCATG CTCGGATACT 
TCTGAGAGCG ACCTTGAGAC CAGAAAGAGT CTGGAGGTAG TGCTGTACTA CAAGGCCAGC 
CAGAGGAAAT TAGATGGACT AGCAAAAGAG GAGGAAAAGA AAGAGGAGAT GGAGGAGGAA 
AAAAAGCAAG TGAAAGAGGA AGCAAAGGAG CAGTGTGGGG ATGAGCTAGT TGCTGAGCCA 
GCAGATCCTG AGGAAGCTAA ATCCACAGAA GATCAGGAGG AAAATGAAGA GGACAAAGAG 
GAAGAGGAGA AGGAAGAAGA CAGTGAAGAG GAGGAGGATG ACGCCGACTC TTCCCTTGAA 
AGTCCCGAAG AAAATAACCC CCTCAGACTT TCCGAGAGCA AAAAGAAGTC TTAA

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

RefSeq	XP_011514789.1
CDS	51..3644
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQPRSQAQHAQRPDSELGQEIQELIQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKKS

Target ORF information:

RefSeq Version	XM_011516487.2
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X7, mRNA.

Target ORF information:

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

XM_011516487.2

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA GCCAAGAAGC CAGGCCCAAC ATGCCCAGAG GCCAGATTCA 
GAATTGGGGC AGGAGATACA GGAACTAATA CAATCCAAGC TGCTCATGGA GCAGATGCAG 
GCCCTGCAGG TGATGTATGA CGCCGGTCAG GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA 
GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG CAGGCAGACT TGCAGCTCTG CCTGGAAGAA 
ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT ATAAAAATGA GCCTTGAGTC CTACGGGAAG 
AGCTATGGTA GCATGGTCCC CAGCAATGAG AACTGTCGCA AGACTTATGA TACCACTGTG 
GATGACAATG AGAGCTATTA CAAGAGTTAC ACCAGCACCC AGACCAGCAG CAAGAGCTTT 
CTCAAGAGCT ATGACAGCAG CACCAGTGCC AGTGAGGCCT ATGGGAAGAG TTACTGCACT 
ACCAGCAACA GCAGCATTAC CTATAAGAAG AGTTACGGCA GCACCAGTAG CTCTGACACC 
TGCCAGAAGA GTTTTGTCAG CAGCTGCACT GACGAGGAAC CTGCTGAGCC TGAAGACATG 
GAGCGCTTTG AGGAAATGGT TGTGAAAGTG CTGATCAAGC TGCAGGCGGT GCAGGCCATG 
TACCAGATAA GCCAGGAGGA ACACAGCCAG CTGCAAGAGC AGATGGAAAA GTTACTGGCC 
AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT GCCTGTGAAA GGGAGTTCAA GGAGTGCATG 
GAATGCCTTG AAAAGCCCAT GGCCCCCCAG AACGACAAGA ATGAGATCAA AGAACTGCAG 
ACCAAGCTGC GGGAGCTGCA GCTGCAATAC CAGGCTAGCA TGGATGAGCA GGGGCGGCTT 
CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG 
CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA GAAGCCCGGG GGAAGAATGC TAATAAGAAC 
ATGAACAAGA ATGCCAATGG GGTTAAAATG AAAAAGGTGA CCAAGCCATG CTCGGATACT 
TCTGAGAGCG ACCTTGAGAC CAGAAAGAGT CTGGAGGTAG TGCTGTACTA CAAGGCCAGC 
CAGAGGAAAT TAGATGGACT AGCAAAAGAG GAGGAAAAGA AAGAGGAGAT GGAGGAGGAA 
AAAAAGCAAG TGAAAGAGGA AGCAAAGGAG CAGTGTGGGG ATGAGCTAGT TGCTGAGCCA 
GCAGATCCTG AGGAAGCTAA ATCCACAGAA GATCAGGAGG AAAATGAAGA GGACAAAGAG 
GAAGAGGAGA AGGAAGAAGA CAGTGAAGAG GAGGAGGATG ACGCCGACTC TTCCCTTGAA 
AGTCCCGAAG AAAATAACCC CCTCAGACTT TCCGAGAGCA AAAAGAAGTC TTAA

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

CCDC136 ( XM_011516488.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514790.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X9, mRNA.

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CloneID	OHu71437
Clone ID Related Accession (Same CDS sequence)	XM_011516488.2
Accession Version	XM_011516488.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3585bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011516488.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA GCCAAGAAGC CAGGCCCAAC ATGCCCAGAG GCCAGATTCA 
GAATTGGGGC AGGAGATACA GGAACTAATA CAATCCAAGC TGCTCATGGA GCAGATGCAG 
GCCCTGCAGG TGATGTATGA CGCCGGTCAG GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA 
GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG CAGGCAGACT TGCAGCTCTG CCTGGAAGAA 
ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT ATAAAAATGA GCCTTGAGTC CTACGGGAAG 
AGCTATGGTA GCATGGTCCC CAGCAATGAG AACTGTCGCA AGACTTATGA TACCACTGTG 
GATGACAATG AGAGCTATTA CAAGAGTTAC ACCAGCACCC AGACCAGCAG CAAGAGCTTT 
CTCAAGAGCT ATGACAGCAG CACCAGTGCC AGTGAGGCCT ATGGGAAGAG TTACTGCACT 
ACCAGCAACA GCAGCATTAC CTATAAGAAG AGTTACGGCA GCACCAGTAG CTCTGACACC 
TGCCAGAAGA GTTTTGTCAG CAGCTGCACT GACGAGGAAC CTGCTGAGCC TGAAGACATG 
GAGCGCTTTG AGGAAATGGT TGTGAAAGTG CTGATCAAGC TGCAGGCGGT GCAGGCCATG 
TACCAGATAA GCCAGGAGGA ACACAGCCAG CTGCAAGAGC AGATGGAAAA GTTACTGGCC 
AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT GCCTGTGAAA GGGAGTTCAA GGAGTGCATG 
GAATGCCTTG AAAAGCCCAT GGCCCCCCAG AACGACAAGA ATGAGATCAA AGAACTGCAG 
ACCAAGCTGC GGGAGCTGCA GCTGCAATAC CAGGCTAGCA TGGATGAGCA GGGGCGGCTT 
CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG 
CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA GAAGCCCGGG GGAAGAATGC TAATAAGAAC 
ATGAACAAGA ATGCCAATGG GGTTAAAATG AAAAAGGTGA CCAAGCCATG CTCGGATACT 
TCTGAGAGCG ACCTTGAGAC CAGAAAGAAG ATCAGGAGGA AAATGAAGAG GACAAAGAGG 
AAGAGGAGAA GGAAGAAGAC AGTGAAGAGG AGGAGGATGA CGCCGACTCT TCCCTTGAAA 
GTCCCGAAGA AAATAACCCC CTCAGACTTT CCGAGAGCAA AAAGAAGTCT TAAGGCACTA 
CGGGTGAAAC CCAAAGAGTT CAGCCACAGC CTTCCACTAC CTCAGACCCA GCCCGGCCCA 
ATCAGAGGGA GAGGAAGAAC TGCTGGTGAA GGGTTCTCCT GGTGGGGCCT GTTATCCCCA 
GAGCTCCAGG AGGCCCCAAC ATGCACCTGT GCAGCCAGGA CCTGA

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

RefSeq	XP_011514790.1
CDS	51..3635
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQPRSQAQHAQRPDSELGQEIQELIQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKKIRRKMKRTKRKRRRKKTVKRRRMTPTLPLKVPKKITPSDFPRAKRSLKALRVKPKEFSHSLPLPQTQPGPIRGRGRTAGEGFSWWGLLSPELQEAPTCTCAART

Target ORF information:

RefSeq Version	XM_011516488.2
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X9, mRNA.

Target ORF information:

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

XM_011516488.2

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA GCCAAGAAGC CAGGCCCAAC ATGCCCAGAG GCCAGATTCA 
GAATTGGGGC AGGAGATACA GGAACTAATA CAATCCAAGC TGCTCATGGA GCAGATGCAG 
GCCCTGCAGG TGATGTATGA CGCCGGTCAG GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA 
GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG CAGGCAGACT TGCAGCTCTG CCTGGAAGAA 
ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT ATAAAAATGA GCCTTGAGTC CTACGGGAAG 
AGCTATGGTA GCATGGTCCC CAGCAATGAG AACTGTCGCA AGACTTATGA TACCACTGTG 
GATGACAATG AGAGCTATTA CAAGAGTTAC ACCAGCACCC AGACCAGCAG CAAGAGCTTT 
CTCAAGAGCT ATGACAGCAG CACCAGTGCC AGTGAGGCCT ATGGGAAGAG TTACTGCACT 
ACCAGCAACA GCAGCATTAC CTATAAGAAG AGTTACGGCA GCACCAGTAG CTCTGACACC 
TGCCAGAAGA GTTTTGTCAG CAGCTGCACT GACGAGGAAC CTGCTGAGCC TGAAGACATG 
GAGCGCTTTG AGGAAATGGT TGTGAAAGTG CTGATCAAGC TGCAGGCGGT GCAGGCCATG 
TACCAGATAA GCCAGGAGGA ACACAGCCAG CTGCAAGAGC AGATGGAAAA GTTACTGGCC 
AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT GCCTGTGAAA GGGAGTTCAA GGAGTGCATG 
GAATGCCTTG AAAAGCCCAT GGCCCCCCAG AACGACAAGA ATGAGATCAA AGAACTGCAG 
ACCAAGCTGC GGGAGCTGCA GCTGCAATAC CAGGCTAGCA TGGATGAGCA GGGGCGGCTT 
CTGGTAGTGC AGGAGCAGCT GGAGGGGCAG CTGCAGTGCT GCCAGGAGGA GCTCCGCCAG 
CTCAGGGAGA AGAGGCCTTC TGTTGTCAAA GAAGCCCGGG GGAAGAATGC TAATAAGAAC 
ATGAACAAGA ATGCCAATGG GGTTAAAATG AAAAAGGTGA CCAAGCCATG CTCGGATACT 
TCTGAGAGCG ACCTTGAGAC CAGAAAGAAG ATCAGGAGGA AAATGAAGAG GACAAAGAGG 
AAGAGGAGAA GGAAGAAGAC AGTGAAGAGG AGGAGGATGA CGCCGACTCT TCCCTTGAAA 
GTCCCGAAGA AAATAACCCC CTCAGACTTT CCGAGAGCAA AAAGAAGTCT TAAGGCACTA 
CGGGTGAAAC CCAAAGAGTT CAGCCACAGC CTTCCACTAC CTCAGACCCA GCCCGGCCCA 
ATCAGAGGGA GAGGAAGAAC TGCTGGTGAA GGGTTCTCCT GGTGGGGCCT GTTATCCCCA 
GAGCTCCAGG AGGCCCCAAC ATGCACCTGT GCAGCCAGGA CCTGA

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

CCDC136 ( XM_011516489.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514791.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X13, mRNA.

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CloneID	OHu71438
Clone ID Related Accession (Same CDS sequence)	XM_011516489.1
Accession Version	XM_011516489.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3096bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X12
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA GCCAAGAAGC CAGGCCCAAC ATGCCCAGAG GCCAGATTCA 
GAATTGGGGC AGGAGATACA GGAACTAATA CAATCCAAGC TGCTCATGGA GCAGATGCAG 
GCCCTGCAGG TGATGTATGA CGCCGGTCAG GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA 
GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG CAGGCAGACT TGCAGCTCTG CCTGGAAGAA 
ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT ATAAAAATGA GCCTTGAGTC CTACGGGAAG 
AGCTATGGTA GCATGGTCCC CAGCAATGAG AACTGTCGCA AGACTTATGA TACCACTGTG 
GATGACAATG AGAGCTATTA CAAGAGTTAC ACCAGCACCC AGACCAGCAG CAAGAGCTTT 
CTCAAGAGCT ATGACAGCAG CACCAGTGCC AGTGAGGCCT ATGGGAAGAG TTACTGCACT 
ACCAGCAACA GCAGCATTAC CTATAAGAAG AGTTACGGCA GCACCAGTAG CTCTGACACC 
TGCCAGAAGA GTTTTGTCAG CAGCTGCACT GACGAGGAAC CTGCTGAGCC TGAAGACATG 
GAGCGCTTTG AGGAAATGGT TGTGAAAGTG CTGATCAAGC TGCAGGCGGT GCAGGCCATG 
TACCAGATAA GCCAGGAGGA ACACAGCCAG CTGCAAGAGC AGATGGAAAA GTTACTGGCC 
AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT GCCTGTGAAA GGGAGTTCAA GGAGTGCATG 
GAATGCCTTG AAAAGCCCAT GGCCCCCCAG AACGACAAGA ATGAGAACAT GTTTGGGTTG 
TGGAAGCCTA TGGTATTCTT GGCTATTGCA GCTGTGGCTC TGTATGTGTT ACCCAACATG 
CGACAGCAGG AGTCAGAGTT CTGCCTCATG GAGTGA

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

RefSeq	XP_011514791.1
CDS	51..3146
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQPRSQAQHAQRPDSELGQEIQELIQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNENMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_011516489.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X13, mRNA.

Target ORF information:

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

XM_011516489.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGCA GCCAAGAAGC CAGGCCCAAC ATGCCCAGAG GCCAGATTCA 
GAATTGGGGC AGGAGATACA GGAACTAATA CAATCCAAGC TGCTCATGGA GCAGATGCAG 
GCCCTGCAGG TGATGTATGA CGCCGGTCAG GCGAAGCAGG AGCTCTTGCA GCAAGAGCAA 
GGGAGGCTCC TAGAGGAGCG GAAGAGGCTG CAGGCAGACT TGCAGCTCTG CCTGGAAGAA 
ATGCAGCTGC TTCAAGTCCA GTCCCCTTCT ATAAAAATGA GCCTTGAGTC CTACGGGAAG 
AGCTATGGTA GCATGGTCCC CAGCAATGAG AACTGTCGCA AGACTTATGA TACCACTGTG 
GATGACAATG AGAGCTATTA CAAGAGTTAC ACCAGCACCC AGACCAGCAG CAAGAGCTTT 
CTCAAGAGCT ATGACAGCAG CACCAGTGCC AGTGAGGCCT ATGGGAAGAG TTACTGCACT 
ACCAGCAACA GCAGCATTAC CTATAAGAAG AGTTACGGCA GCACCAGTAG CTCTGACACC 
TGCCAGAAGA GTTTTGTCAG CAGCTGCACT GACGAGGAAC CTGCTGAGCC TGAAGACATG 
GAGCGCTTTG AGGAAATGGT TGTGAAAGTG CTGATCAAGC TGCAGGCGGT GCAGGCCATG 
TACCAGATAA GCCAGGAGGA ACACAGCCAG CTGCAAGAGC AGATGGAAAA GTTACTGGCC 
AAGCAGAAAG ACCTGAAGGA AGAGCTGGAT GCCTGTGAAA GGGAGTTCAA GGAGTGCATG 
GAATGCCTTG AAAAGCCCAT GGCCCCCCAG AACGACAAGA ATGAGAACAT GTTTGGGTTG 
TGGAAGCCTA TGGTATTCTT GGCTATTGCA GCTGTGGCTC TGTATGTGTT ACCCAACATG 
CGACAGCAGG AGTCAGAGTT CTGCCTCATG GAGTGA

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

CCDC136 ( XM_011516490.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514792.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X16, mRNA.

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CloneID	OHu71439
Clone ID Related Accession (Same CDS sequence)	XM_011516490.2
Accession Version	XM_011516490.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2319bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X15
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011516490.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGAT CTCATCCTGG ACATCAGCAG CCAAGAAGCC AGGCCCAACA 
TGCCCAGAGG CCAGATTCAG AATTGGGGCA GGAGATACAG GAACTAATAC AATCCAAGCT 
GCTCATGGAG CAGATGCAGG CCCTGCAGGT GATGTATGA

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

RefSeq	XP_011514792.1
CDS	51..2369
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKISSWTSAAKKPGPTCPEARFRIGAGDTGTNTIQAAHGADAGPAGDV

Target ORF information:

RefSeq Version	XM_011516490.2
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X16, mRNA.

Target ORF information:

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

XM_011516490.2

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTGTGA CACACTGCTG TCCAGACTGA CAGAATTGCA GGAAAAGTAC 
AAGGCCAGCC AGAAGGAGAT GGGGCAGCTG CAGATGGAGC AGTGTGAGCT CCTGGAGGAT 
CAGAGGAGGA TGCAGGAGGA GCAGGGCCAG CTGCAGGAAG AGCTGCACAG GCTCACACTG 
CCACTGCCAA AGAGTGGCCT CTTACTCAAG AGTCAGGAGC TACTCACCAA GTTAGAAGAC 
CTGTGTGAGC TGCAGCTGCT CTACCAAGGC ATGCAGGAGG AACAGAAGAA GCTGATACAG 
AACCAAGACT GTGTATTAAA AGAACAATTA GAGATCCACG AAGAGCTGCG ACGTTTCAAA 
GAGTCTCATT TCCAGGAAGT GTTGGAGAAT CCCGATGATT CCAAATTGGC TAAGTCCTCC 
AAATGTAATC GAAACAAGAT CTCATCCTGG ACATCAGCAG CCAAGAAGCC AGGCCCAACA 
TGCCCAGAGG CCAGATTCAG AATTGGGGCA GGAGATACAG GAACTAATAC AATCCAAGCT 
GCTCATGGAG CAGATGCAGG CCCTGCAGGT GATGTATGA

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

CCDC136 ( XM_017012532.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016868021.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X8, mRNA.

Price & Availability↑

CloneID	OHu97448
Clone ID Related Accession (Same CDS sequence)	XM_017012532.1
Accession Version	XM_017012532.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3588bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT GTGACACACT GCTGTCCAGA 
CTGACAGAAT TGCAGGAAAA GTACAAGGCC AGCCAGAAGG AGATGGGGCA GCTGCAGATG 
GAGCAGTGTG AGCTCCTGGA GGATCAGAGG AGGATGCAGG AGGAGCAGGG CCAGCTGCAG 
GAAGAGCTGC ACAGGCTCAC ACTGCCACTG CCAAAGAGTG GCCTCTTACT CAAGAGTCAG 
GAGCTACTCA CCAAGTTAGA AGACCTGTGT GAGCTGCAGC TGCTCTACCA AGGCATGCAG 
GAGGAACAGA AGAAGCTGAT ACAGAACCAA GACTGTGTAT TAAAAGAACA ATTAGAGATC 
CACGAAGAGC TGCGACGTTT CAAAGAGTCT CATTTCCAGG AAGTGTTGGA GAATCCCGAT 
GATTCCAAAT TGGCTAAGTC CTCCAAATGT AATCGAAACA AGCAATCCAA GCTGCTCATG 
GAGCAGATGC AGGCCCTGCA GGTGATGTAT GACGCCGGTC AGGCGAAGCA GGAGCTCTTG 
CAGCAAGAGC AAGGGAGGCT CCTAGAGGAG CGGAAGAGGC TGCAGGCAGA CTTGCAGCTC 
TGCCTGGAAG AAATGCAGCT GCTTCAAGTC CAGTCCCCTT CTATAAAAAT GAGCCTTGAG 
TCCTACGGGA AGAGCTATGG TAGCATGGTC CCCAGCAATG AGAACTGTCG CAAGACTTAT 
GATACCACTG TGGATGACAA TGAGAGCTAT TACAAGAGTT ACACCAGCAC CCAGACCAGC 
AGCAAGAGCT TTCTCAAGAG CTATGACAGC AGCACCAGTG CCAGTGAGGC CTATGGGAAG 
AGTTACTGCA CTACCAGCAA CAGCAGCATT ACCTATAAGA AGAGTTACGG CAGCACCAGT 
AGCTCTGACA CCTGCCAGAA GAGTTTTGTC AGCAGCTGCA CTGACGAGGA ACCTGCTGAG 
CCTGAAGACA TGGAGCGCTT TGAGGAAATG GTTGTGAAAG TGCTGATCAA GCTGCAGGCG 
GTGCAGGCCA TGTACCAGAT AAGCCAGGAG GAACACAGCC AGCTGCAAGA GCAGATGGAA 
AAGTTACTGG CCAAGCAGAA AGACCTGAAG GAAGAGCTGG ATGCCTGTGA AAGGGAGTTC 
AAGGAGTGCA TGGAATGCCT TGAAAAGCCC ATGGCCCCCC AGAACGACAA GAATGAGATC 
AAAGAACTGC AGACCAAGCT GCGGGAGCTG CAGCTGCAAT ACCAGGCTAG CATGGATGAG 
CAGGGGCGGC TTCTGGTAGT GCAGGAGCAG CTGGAGGGGC AGCTGCAGTG CTGCCAGGAG 
GAGCTCCGCC AGCTCAGGGA GAAGAGGCCT TCTGTTGTCA AAGAAGCCCG GGGGAAGAAT 
GCTAATAAGA ACATGAACAA GAATGCCAAT GGGGTTAAAA TGAAAAAGGT GACCAAGCCA 
TGCTCGGATA CTTCTGAGAG CGACCTTGAG ACCAGAAAGA GTCTGGAGGT AGTGCTGTAC 
TACAAGGCCA GCCAGAGGAA ATTAGATGGA CTAGCAAAAG AGGAGGAAAA GAAAGAGGAG 
ATGGAGGAGG AAAAAAAGCA AGTGAAAGAG GAAGCAAAGG AGCAGTGTGG GGATGAGCTA 
GTTGCTGAGC CAGCAGATCC TGAGGAAGCT AAATCCACAG AAGATCAGGA GGAAAATGAA 
GAGGACAAAG AGGAAGAGGA GAAGGAAGAA GACAGTGAAG AGGAGGAGGA TGACGCCGAC 
TCTTCCCTTG AAAGTCCCGA AGAAAATAAC CCCCTCAGAC TTTCCGAGAG CAAAAAGAAC 
ATGTTTGGGT TGTGGAAGCC TATGGTATTC TTGGCTATTG CAGCTGTGGC TCTGTATGTG 
TTACCCAACA TGCGACAGCA GGAGTCAGAG TTCTGCCTCA TGGAGTGA

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

RefSeq	XP_016868021.1
CDS	51..3638
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREKRPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKLDGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEKEEDSEEEEDDADSSLESPEENNPLRLSESKKNMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_017012532.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X8, mRNA.

Target ORF information:

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

XM_017012532.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT GTGACACACT GCTGTCCAGA 
CTGACAGAAT TGCAGGAAAA GTACAAGGCC AGCCAGAAGG AGATGGGGCA GCTGCAGATG 
GAGCAGTGTG AGCTCCTGGA GGATCAGAGG AGGATGCAGG AGGAGCAGGG CCAGCTGCAG 
GAAGAGCTGC ACAGGCTCAC ACTGCCACTG CCAAAGAGTG GCCTCTTACT CAAGAGTCAG 
GAGCTACTCA CCAAGTTAGA AGACCTGTGT GAGCTGCAGC TGCTCTACCA AGGCATGCAG 
GAGGAACAGA AGAAGCTGAT ACAGAACCAA GACTGTGTAT TAAAAGAACA ATTAGAGATC 
CACGAAGAGC TGCGACGTTT CAAAGAGTCT CATTTCCAGG AAGTGTTGGA GAATCCCGAT 
GATTCCAAAT TGGCTAAGTC CTCCAAATGT AATCGAAACA AGCAATCCAA GCTGCTCATG 
GAGCAGATGC AGGCCCTGCA GGTGATGTAT GACGCCGGTC AGGCGAAGCA GGAGCTCTTG 
CAGCAAGAGC AAGGGAGGCT CCTAGAGGAG CGGAAGAGGC TGCAGGCAGA CTTGCAGCTC 
TGCCTGGAAG AAATGCAGCT GCTTCAAGTC CAGTCCCCTT CTATAAAAAT GAGCCTTGAG 
TCCTACGGGA AGAGCTATGG TAGCATGGTC CCCAGCAATG AGAACTGTCG CAAGACTTAT 
GATACCACTG TGGATGACAA TGAGAGCTAT TACAAGAGTT ACACCAGCAC CCAGACCAGC 
AGCAAGAGCT TTCTCAAGAG CTATGACAGC AGCACCAGTG CCAGTGAGGC CTATGGGAAG 
AGTTACTGCA CTACCAGCAA CAGCAGCATT ACCTATAAGA AGAGTTACGG CAGCACCAGT 
AGCTCTGACA CCTGCCAGAA GAGTTTTGTC AGCAGCTGCA CTGACGAGGA ACCTGCTGAG 
CCTGAAGACA TGGAGCGCTT TGAGGAAATG GTTGTGAAAG TGCTGATCAA GCTGCAGGCG 
GTGCAGGCCA TGTACCAGAT AAGCCAGGAG GAACACAGCC AGCTGCAAGA GCAGATGGAA 
AAGTTACTGG CCAAGCAGAA AGACCTGAAG GAAGAGCTGG ATGCCTGTGA AAGGGAGTTC 
AAGGAGTGCA TGGAATGCCT TGAAAAGCCC ATGGCCCCCC AGAACGACAA GAATGAGATC 
AAAGAACTGC AGACCAAGCT GCGGGAGCTG CAGCTGCAAT ACCAGGCTAG CATGGATGAG 
CAGGGGCGGC TTCTGGTAGT GCAGGAGCAG CTGGAGGGGC AGCTGCAGTG CTGCCAGGAG 
GAGCTCCGCC AGCTCAGGGA GAAGAGGCCT TCTGTTGTCA AAGAAGCCCG GGGGAAGAAT 
GCTAATAAGA ACATGAACAA GAATGCCAAT GGGGTTAAAA TGAAAAAGGT GACCAAGCCA 
TGCTCGGATA CTTCTGAGAG CGACCTTGAG ACCAGAAAGA GTCTGGAGGT AGTGCTGTAC 
TACAAGGCCA GCCAGAGGAA ATTAGATGGA CTAGCAAAAG AGGAGGAAAA GAAAGAGGAG 
ATGGAGGAGG AAAAAAAGCA AGTGAAAGAG GAAGCAAAGG AGCAGTGTGG GGATGAGCTA 
GTTGCTGAGC CAGCAGATCC TGAGGAAGCT AAATCCACAG AAGATCAGGA GGAAAATGAA 
GAGGACAAAG AGGAAGAGGA GAAGGAAGAA GACAGTGAAG AGGAGGAGGA TGACGCCGAC 
TCTTCCCTTG AAAGTCCCGA AGAAAATAAC CCCCTCAGAC TTTCCGAGAG CAAAAAGAAC 
ATGTTTGGGT TGTGGAAGCC TATGGTATTC TTGGCTATTG CAGCTGTGGC TCTGTATGTG 
TTACCCAACA TGCGACAGCA GGAGTCAGAG TTCTGCCTCA TGGAGTGA

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

CCDC136 ( XM_017012534.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016868023.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X12, mRNA.

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CloneID	OHu97450
Clone ID Related Accession (Same CDS sequence)	NM_001363424.2 , XM_017012534.1 , NM_001363424.1
Accession Version	XM_017012534.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2988bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X12
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT GTGACACACT GCTGTCCAGA 
CTGACAGAAT TGCAGGAAAA GTACAAGGCC AGCCAGAAGG AGATGGGGCA GCTGCAGATG 
GAGCAGTGTG AGCTCCTGGA GGATCAGAGG AGGATGCAGG AGGAGCAGGG CCAGCTGCAG 
GAAGAGCTGC ACAGGCTCAC ACTGCCACTG CCAAAGAGTG GCCTCTTACT CAAGAGTCAG 
GAGCTACTCA CCAAGTTAGA AGACCTGTGT GAGCTGCAGC TGCTCTACCA AGGCATGCAG 
GAGGAACAGA AGAAGCTGAT ACAGAACCAA GACTGTGTAT TAAAAGAACA ATTAGAGATC 
CACGAAGAGC TGCGACGTTT CAAAGAGTCT CATTTCCAGG AAGTGTTGGA GAATCCCGAT 
GATTCCAAAT TGGCTAAGTC CTCCAAATGT AATCGAAACA AGCAATCCAA GCTGCTCATG 
GAGCAGATGC AGGCCCTGCA GGTGATGTAT GACGCCGGTC AGGCGAAGCA GGAGCTCTTG 
CAGCAAGAGC AAGGGAGGCT CCTAGAGGAG CGGAAGAGGC TGCAGGCAGA CTTGCAGCTC 
TGCCTGGAAG AAATGCAGCT GCTTCAAGTC CAGTCCCCTT CTATAAAAAT GAGCCTTGAG 
TCCTACGGGA AGAGCTATGG TAGCATGGTC CCCAGCAATG AGAACTGTCG CAAGACTTAT 
GATACCACTG TGGATGACAA TGAGAGCTAT TACAAGAGTT ACACCAGCAC CCAGACCAGC 
AGCAAGAGCT TTCTCAAGAG CTATGACAGC AGCACCAGTG CCAGTGAGGC CTATGGGAAG 
AGTTACTGCA CTACCAGCAA CAGCAGCATT ACCTATAAGA AGAGTTACGG CAGCACCAGT 
AGCTCTGACA CCTGCCAGAA GAGTTTTGTC AGCAGCTGCA CTGACGAGGA ACCTGCTGAG 
CCTGAAGACA TGGAGCGCTT TGAGGAAATG GTTGTGAAAG TGCTGATCAA GCTGCAGGCG 
GTGCAGGCCA TGTACCAGAT AAGCCAGGAG GAACACAGCC AGCTGCAAGA GCAGATGGAA 
AAGTTACTGG CCAAGCAGAA AGACCTGAAG GAAGAGCTGG ATGCCTGTGA AAGGGAGTTC 
AAGGAGTGCA TGGAATGCCT TGAAAAGCCC ATGGCCCCCC AGAACGACAA GAATGAGAAC 
ATGTTTGGGT TGTGGAAGCC TATGGTATTC TTGGCTATTG CAGCTGTGGC TCTGTATGTG 
TTACCCAACA TGCGACAGCA GGAGTCAGAG TTCTGCCTCA TGGAGTGA

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

RefSeq	XP_016868023.1
CDS	51..3038
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKYKASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLEDLCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSSKCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLLQVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSYDSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFEEMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLEKPMAPQNDKNENMFGLWKPMVFLAIAAVALYVLPNMRQQESEFCLME

Target ORF information:

RefSeq Version	XM_017012534.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X12, mRNA.

Target ORF information:

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

XM_017012534.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT GTGACACACT GCTGTCCAGA 
CTGACAGAAT TGCAGGAAAA GTACAAGGCC AGCCAGAAGG AGATGGGGCA GCTGCAGATG 
GAGCAGTGTG AGCTCCTGGA GGATCAGAGG AGGATGCAGG AGGAGCAGGG CCAGCTGCAG 
GAAGAGCTGC ACAGGCTCAC ACTGCCACTG CCAAAGAGTG GCCTCTTACT CAAGAGTCAG 
GAGCTACTCA CCAAGTTAGA AGACCTGTGT GAGCTGCAGC TGCTCTACCA AGGCATGCAG 
GAGGAACAGA AGAAGCTGAT ACAGAACCAA GACTGTGTAT TAAAAGAACA ATTAGAGATC 
CACGAAGAGC TGCGACGTTT CAAAGAGTCT CATTTCCAGG AAGTGTTGGA GAATCCCGAT 
GATTCCAAAT TGGCTAAGTC CTCCAAATGT AATCGAAACA AGCAATCCAA GCTGCTCATG 
GAGCAGATGC AGGCCCTGCA GGTGATGTAT GACGCCGGTC AGGCGAAGCA GGAGCTCTTG 
CAGCAAGAGC AAGGGAGGCT CCTAGAGGAG CGGAAGAGGC TGCAGGCAGA CTTGCAGCTC 
TGCCTGGAAG AAATGCAGCT GCTTCAAGTC CAGTCCCCTT CTATAAAAAT GAGCCTTGAG 
TCCTACGGGA AGAGCTATGG TAGCATGGTC CCCAGCAATG AGAACTGTCG CAAGACTTAT 
GATACCACTG TGGATGACAA TGAGAGCTAT TACAAGAGTT ACACCAGCAC CCAGACCAGC 
AGCAAGAGCT TTCTCAAGAG CTATGACAGC AGCACCAGTG CCAGTGAGGC CTATGGGAAG 
AGTTACTGCA CTACCAGCAA CAGCAGCATT ACCTATAAGA AGAGTTACGG CAGCACCAGT 
AGCTCTGACA CCTGCCAGAA GAGTTTTGTC AGCAGCTGCA CTGACGAGGA ACCTGCTGAG 
CCTGAAGACA TGGAGCGCTT TGAGGAAATG GTTGTGAAAG TGCTGATCAA GCTGCAGGCG 
GTGCAGGCCA TGTACCAGAT AAGCCAGGAG GAACACAGCC AGCTGCAAGA GCAGATGGAA 
AAGTTACTGG CCAAGCAGAA AGACCTGAAG GAAGAGCTGG ATGCCTGTGA AAGGGAGTTC 
AAGGAGTGCA TGGAATGCCT TGAAAAGCCC ATGGCCCCCC AGAACGACAA GAATGAGAAC 
ATGTTTGGGT TGTGGAAGCC TATGGTATTC TTGGCTATTG CAGCTGTGGC TCTGTATGTG 
TTACCCAACA TGCGACAGCA GGAGTCAGAG TTCTGCCTCA TGGAGTGA

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

CCDC136 ( XM_017012535.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016868024.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X14, mRNA.

Price & Availability↑

CloneID	OHu97451
Clone ID Related Accession (Same CDS sequence)	NM_001367763.1 , XM_017012535.1
Accession Version	XM_017012535.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1857bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X14
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTCATC CCCTACCCCC AATCCCCCCA TCTTCTCCTT GCCTCTTGTA 
GGCCTGGTGG TCATCTCGGC TTTGCTCTGG TGCTGGTGGG CTGAGACGTC GTCCTAA

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

RefSeq	XP_016868024.1
CDS	51..1907
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	XM_017012535.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X14, mRNA.

Target ORF information:

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

XM_017012535.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGGTAGTT TAGGTCTCTC AGATTACTCT GGGTTACAAG AAGAACTGCA GGAGCTGCGG 
GAACGCTACC ATTTCCTGAA TGAGGAATAC CGGGCCCTGC AGGAGAGCAA CAGCAGCCTC 
ACGGGGCAGC TTGCAGATCT GGAGAGTGAG AGGACACAGA GAGCAACAGA GAGATGGCTG 
CAGTCCCAAA CACTGAGTAT GACGTCAGCA GAGTCTCAGA CTTCAGAAAT GGATTTCTTA 
GAGCCTGATC CTGAAATGCA GTTGTTACGG CAGCAGCTAC GGGATGCTGA AGAGCAGATG 
CATGGCATGA AGAACAAGTG TCAGGAATTG TGTTGTGAGT TGGAAGAGCT ACAGCATCAT 
CGCCAGGTCA GTGAGGAGGA GCAGAGGCGG CTGCAGAGGG AGCTCAAGTG TGCTCAGAAT 
GAGGTGCTTC GGTTTCAGAC CTCCCACAGT GTCACCCAGA ATGAGGAGCT GAAGTCCAGA 
CTCTGTACCC TGCAGAAAAA ATATGATACT AGCCAGGATG AGCAGAACGA GCTCTTGAAG 
ATGCAGCTGC AACTTCAGAC TGAGCTCCGG CAGCTCAAAG TCATGAAATC CACACTTGTA 
GAAAACCAGA GTGAGAAGGA GTTACTGTGC CGGCTGCAGA AGCTGCACCT CCAGCACCAG 
AACGTCACAT GTGAGAAGGA AAAGCTGCTG GAACGGCAGC AGCAGCTGCA GGAGGAGCTG 
CAGTGCCATG AGGCAGAGCT GCAGCACCTC AGGGATACGG TGGCCTCCTT CAAAGAGAGC 
AATGAGAAGG ACACAGAGAC GCACGCTCAG CTTCAGGAGA TGAAGCAGCT GTACCAGGCC 
AGCAAGGACG AGCTGGAGCG GCAGAAGCAC ATGTATGACC AGCTGGAGCA GGACCTCCTG 
CTCTGCCAGC TGGAGCTGAA AGAGCTCAAG GCCTCCCACC CCATTCCGGA GGACAAAGGA 
AAGTGTGCTA ATAAGTCATC CCCTACCCCC AATCCCCCCA TCTTCTCCTT GCCTCTTGTA 
GGCCTGGTGG TCATCTCGGC TTTGCTCTGG TGCTGGTGGG CTGAGACGTC GTCCTAA

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

CCDC136 ( XM_017012536.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016868025.1 Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X15, mRNA.

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CloneID	OHu97452
Clone ID Related Accession (Same CDS sequence)	XM_017012536.1 , NM_001367762.1
Accession Version	XM_017012536.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1821bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	coiled-coil domain-containing protein 136 isoform X15
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT CATCCCCTAC CCCCAATCCC 
CCCATCTTCT CCTTGCCTCT TGTAGGCCTG GTGGTCATCT CGGCTTTGCT CTGGTGCTGG 
TGGGCTGAGA CGTCGTCCTA A

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

RefSeq	XP_016868025.1
CDS	51..1871
Translation	MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLLPALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVAELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEHEKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRGDYEMEIASLRAEMEMKSSEPSEELQELRERYHFLNEEYRALQESNSSLTGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQMHGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSRLCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQNVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQASKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKSSPTPNPPIFSLPLVGLVVISALLWCWWAETSS

Target ORF information:

RefSeq Version	XM_017012536.1
Organism	Homo sapiens(human)
Definition	Homo sapiens coiled-coil domain containing 136 (CCDC136), transcript variant X15, mRNA.

Target ORF information:

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

XM_017012536.1

ORF Insert Sequence:

ATGGAGGCGG GCGCCGGAGC CGGCGCGGGA GCCGCGGGCT GGAGCTGCCC GGGCCCAGGA 
CCCACAGTGA CCACTCTAGG CTCCTATGAG GCTTCCGAGG GCTGTGAGAG GAAGAAGGGC 
CAACGCTGGG GGTCCCTGGA ACGACGGGGG ATGCAAGCTA TGGAGGGGGA GGTGTTACTC 
CCAGCTCTCT ATGAGGAGGA AGAGGAAGAG GAAGAGGAGG AAGAAGAGGT GGAAGAAGAA 
GAAGAACAAG TGCAGAAAGG TGGCAGTGTT GGCTCTCTGT CAGTCAACAA GCACCGGGGA 
CTGAGCCTCA CGGAGACAGA GCTGGAGGAG CTGCGGGCTC AGGTGCTGCA GCTGGTGGCA 
GAACTGGAGG AGACCCGGGA ACTGGCAGGG CAGCATGAGG ATGACTCCTT GGAGCTACAG 
GGGCTCCTGG AGGATGAACG GCTAGCCAGC GCCCAGCAGG CAGAGGTGTT CACCAAGCAG 
ATCCAGCAGC TCCAAGGTGA GCTGCGTTCT CTACGGGAGG AGATTTCCCT GTTAGAGCAT 
GAGAAAGAAA GCGAACTTAA GGAAATAGAA CAGGAATTGC ATTTGGCCCA GGCTGAGATC 
CAGAGTCTGC GGCAAGCAGC AGAGGATTCC GCAACTGAAC ATGAGAGTGA CATAGCATCC 
CTGCAGGAGG ATCTCTGCCG GATGCAGAAT GAACTTGAAG ACATGGAACG CATTCGGGGA 
GATTATGAGA TGGAGATCGC CTCCCTCCGT GCAGAAATGG AAATGAAGAG CTCTGAACCA 
TCCGAAGAAC TGCAGGAGCT GCGGGAACGC TACCATTTCC TGAATGAGGA ATACCGGGCC 
CTGCAGGAGA GCAACAGCAG CCTCACGGGG CAGCTTGCAG ATCTGGAGAG TGAGAGGACA 
CAGAGAGCAA CAGAGAGATG GCTGCAGTCC CAAACACTGA GTATGACGTC AGCAGAGTCT 
CAGACTTCAG AAATGGATTT CTTAGAGCCT GATCCTGAAA TGCAGTTGTT ACGGCAGCAG 
CTACGGGATG CTGAAGAGCA GATGCATGGC ATGAAGAACA AGTGTCAGGA ATTGTGTTGT 
GAGTTGGAAG AGCTACAGCA TCATCGCCAG GTCAGTGAGG AGGAGCAGAG GCGGCTGCAG 
AGGGAGCTCA AGTGTGCTCA GAATGAGGTG CTTCGGTTTC AGACCTCCCA CAGTGTCACC 
CAGAATGAGG AGCTGAAGTC CAGACTCTGT ACCCTGCAGA AAAAATATGA TACTAGCCAG 
GATGAGCAGA ACGAGCTCTT GAAGATGCAG CTGCAACTTC AGACTGAGCT CCGGCAGCTC 
AAAGTCATGA AATCCACACT TGTAGAAAAC CAGAGTGAGA AGGAGTTACT GTGCCGGCTG 
CAGAAGCTGC ACCTCCAGCA CCAGAACGTC ACATGTGAGA AGGAAAAGCT GCTGGAACGG 
CAGCAGCAGC TGCAGGAGGA GCTGCAGTGC CATGAGGCAG AGCTGCAGCA CCTCAGGGAT 
ACGGTGGCCT CCTTCAAAGA GAGCAATGAG AAGGACACAG AGACGCACGC TCAGCTTCAG 
GAGATGAAGC AGCTGTACCA GGCCAGCAAG GACGAGCTGG AGCGGCAGAA GCACATGTAT 
GACCAGCTGG AGCAGGACCT CCTGCTCTGC CAGCTGGAGC TGAAAGAGCT CAAGGCCTCC 
CACCCCATTC CGGAGGACAA AGGAAAGTGT GCTAATAAGT CATCCCCTAC CCCCAATCCC 
CCCATCTTCT CCTTGCCTCT TGTAGGCCTG GTGGTCATCT CGGCTTTGCT CTGGTGCTGG 
TGGGCTGAGA CGTCGTCCTA A

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

PubMed

Enrichment of putatively damaging rare variants in the DYX2 locus and the reading-related genes CCDC136 and FLNC.
Human genetics136(11-12)1395-1405(2017 Nov)
Adams AK,Smith SD,Truong DT,Willcutt EG,Olson RK,DeFries JC,Pennington BF,Gruen JR

Genome-wide screening for DNA variants associated with reading and language traits.
Genes, brain, and behavior13(7)686-701(2014 Sep)
Gialluisi A,Newbury DF,Wilcutt EG,Olson RK,DeFries JC,Brandler WM,Pennington BF,Smith SD,Scerri TS,Simpson NH,,Luciano M,Evans DM,Bates TC,Stein JF,Talcott JB,Monaco AP,Paracchini S,Francks C,Fisher SE

Genetic variants in nuclear-encoded mitochondrial genes influence AIDS progression.
PloS one5(9)e12862(2010 Sep)
Hendrickson SL,Lautenberger JA,Chinn LW,Malasky M,Sezgin E,Kingsley LA,Goedert JJ,Kirk GD,Gomperts ED,Buchbinder SP,Troyer JL,O'Brien SJ

A germline-specific class of small RNAs binds mammalian Piwi proteins.
Nature442(7099)199-202(2006 Jul)
Girard A,Sachidanandam R,Hannon GJ,Carmell MA

A protein-protein interaction network for human inherited ataxias and disorders of Purkinje cell degeneration.
Cell125(4)801-14(2006 May)
Lim J,Hao T,Shaw C,Patel AJ,Szab? G,Rual JF,Fisk CJ,Li N,Smolyar A,Hill DE,Barab?si AL,Vidal M,Zoghbi HY

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CCDC136 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

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