CDAN1 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	CDAN1
Entrez Gene ID	146059
Full Name	codanin 1
Synonyms	CDA1,CDAI,CDAN1A,DLT,PRO1295
General protein information	Preferred Names codanin 1 Names codanin-1 congenital dyserythropoietic anemia, type I discs lost homolog
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 15 Map Location: 15q15.2
Summary	This gene encodes a protein that appears to play a role in nuclear envelope integrity, possibly related to microtubule attachments. Mutations in this gene cause congenital dyserythropoietic anemia type I, a disease resulting in morphological and functional abnormalities of erythropoiesis. [provided by RefSeq, Jul 2009].
Disorder MIM:	607465
Disorder Html:	Dyserythropoietic anemia, congenital, type Ia, 224120 (3)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011521274.2	XP_011519576.1	codanin-1 isoform X3
XM_005254176.4	XP_005254233.1	codanin-1 isoform X3
NM_138477.3	NP_612486.2	codanin-1
XM_011521270.2	XP_011519572.1	codanin-1 isoform X1
XM_011521271.2	XP_011519573.1	codanin-1 isoform X2
XM_005254176.5	XP_005254233.1	codanin-1 isoform X4
NM_138477.4	NP_612486.2	codanin-1

Pathways from BioSystems

Homologies

	CDAN1	XP_001105436.1
Mus musculus (house mouse)	Cdan1	NP_081167.2
Drosophila melanogaster (fruit fly)	dlt	NP_728672.1
Homo sapiens (human)	CDAN1	NP_612486.2
Bos taurus (cattle)	CDAN1	XP_002690857.1
Danio rerio (zebrafish)	cdan1	XP_693684.6
Rattus norvegicus (Norway rat)	Cdan1	XP_003749607.2
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP010055	XP_319209.4
Xenopus tropicalis (tropical clawed frog)	cdan1	XP_002941131.2
Pan troglodytes (chimpanzee)	CDAN1	XP_003952692.1
Canis lupus familiaris (dog)	CDAN1	XP_005638738.1
Gallus gallus (chicken)	CDAN1	XP_004941710.1

Gene Ontology
Bibliography

Related articles in PubMed

Identification of CDAN1, C15ORF41 and SEC23B mutations in Chinese patients affected by congenital dyserythropoietic anemia.
Wang Y, Ru Y, Liu G, Dong S, Li Y, Zhu X, Zhang F, Chang YZ, Nie G
Gene64073-78(2018 Jan)

Congenital dyserythropoietic anemia in China: a case report from two families and a review.
Ru Y, Liu G, Bai J, Dong S, Nie N, Zhang H, Zhao S, Zheng Y, Zhu X, Nie G, Zhang F, Eyden B
Annals of hematology93(5)773-7(2014 May)

Homozygous mutations in a predicted endonuclease are a novel cause of congenital dyserythropoietic anemia type I.
Babbs C, Roberts NA, Sanchez-Pulido L, McGowan SJ, Ahmed MR, Brown JM, Sabry MA, , Bentley DR, McVean GA, Donnelly P, Gileadi O, Ponting CP, Higgs DR, Buckle VJ
Haematologica98(9)1383-7(2013 Sep)

Codanin-1, mutated in the anaemic disease CDAI, regulates Asf1 function in S-phase histone supply.
Ask K, Jasencakova Z, Menard P, Feng Y, Almouzni G, Groth A
The EMBO journal31(8)2013-23(2012 Apr)

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

Mutation in CDAN1 gene is associated with congenital dyserythropoietic anemia.
Title: Identification of CDAN1, C15ORF41 and SEC23B mutations in Chinese patients affected by congenital dyserythropoietic anemia.

The proband with congenital dyserythropoietic anemia Iota in the first family was a compound heterozygote of CDAN1 with mutation IVS-12+2T>C and c. 3389C>T.
Title: Congenital dyserythropoietic anemia in China: a case report from two families and a review.

The missense substitution in CDAN1, C15ORF41, encodes a novel restriction endonuclease in congenital dyserythropoietic anemia type I.
Title: Homozygous mutations in a predicted endonuclease are a novel cause of congenital dyserythropoietic anemia type I.

The authors propose that Codanin-1 acts as a negative regulator of Asf1 function in chromatin assembly.
Title: Codanin-1, mutated in the anaemic disease CDAI, regulates Asf1 function in S-phase histone supply.

A link between mutant codanin-1 and the aberrant localization of HP1 alpha is supported by the finding that codanin-1 can be coimmunoprecipitated by anti-HP1 alpha antibodies erythroblasts from patients with congenital dyserythropoietic anemia type 1.
Title: Codanin-1 mutations in congenital dyserythropoietic anemia type 1 affect HP1{alpha} localization in erythroblasts.

The following CDAN1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CDAN1 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)
OHu19285	NM_138477.4 Latest version!	Homo sapiens codanin 1 (CDAN1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$619.50-$867.30 $1239.00
OHu76197	XM_011521274.2 Latest version!	Homo sapiens codanin 1 (CDAN1), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu48129	XM_005254176.5 Latest version!	Homo sapiens codanin 1 (CDAN1), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu76193	XM_011521270.2 Latest version!	Homo sapiens codanin 1 (CDAN1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu76194	XM_011521271.2 Latest version!	Homo sapiens codanin 1 (CDAN1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
View Old Accession Versions >>
OHu48129	XM_005254176.4	Homo sapiens codanin 1 (CDAN1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu19285	NM_138477.3	Homo sapiens codanin 1 (CDAN1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$619.50-$867.30 $1239.00
Hide Old Accession Versions >>

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Reference Sequences (Refseq)

CDAN1 ( NM_138477.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_612486.2 Homo sapiens codanin 1 (CDAN1), mRNA.

Price & Availability↑

CloneID	OHu19285
Clone ID Related Accession (Same CDS sequence)	NM_138477.3 , NM_138477.4
Accession Version	NM_138477.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3684bp) 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	2017-11-29
Organism	Homo sapiens(human)
Product	codanin-1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY112237.1, BC052568.1, AF525398.1, BC001092.2, BE884119.1 and AC090510.4. This sequence is a reference standard in the RefSeqGene project. On May 4, 2017 this sequence version replaced NM_138477.2. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC052568.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GATAACGCTG GGGAGGCGGC CGCGCTGAGC 
TCACTCCGGG CCCTGCGGAA AGAATTCGTA CCGTTCCTGT TGAACTTCCT GAGGGAGCAG 
AGCAGCCGCG TCCTCCCGCA GGGGCCCCCG ACCCCCGCCA AGACCCCGGG CGCCTCGGCA 
GCCTTGCCAG GGAGGCCGGG AGGCCCGCCG CGGGGTAGCC GCGGGGCGCG CAGCCAGCTT 
TTCCCTCCGA CCGAGGCCCA GAGCACCGCT GCCGAGGCCC CTCTGGCCCG CCGCGGGGGC 
AGGAGGCGGG GCCCGGGGCC GGCCCGCGAG CGTGGAGGCC GCGGCCTGGA GGAGGGGGTC 
AGCGGGGAGA GCCTGCCCGG AGCCGGGGGC CGGAGGCTTA GGGGCTCTGG CAGCCCCAGC 
CGCCCCAGCC TCACGCTGTC TGATCCGCCA AACCTCAGCA ACCTGGAGGA GTTCCCTCCC 
GTAGGCTCGG TTCCCCCCGG CCCTACAGGG ACGAAGCCTT CTCGCAGGAT CAACCCAACT 
CCGGTGAGCG AAGAGCGGTC ACTCTCCAAG CCCAAGACCT GCTTCACCTC ACCCCCAATC 
AGCTGTGTCC CCAGTTCCCA ACCCTCAGCC CTGGACACTA GCCCTTGGGG CCTTGGCCTT 
CCCCCAGGGT GCAGAAGTCT GCAAGAGGAG CGAGAGATGC TCAGGAAGGA GCGCTCTAAG 
CAGCTGCAGC AGTCACCTAC CCCCACCTGT CCCACCCCAG AATTGGGGTC GCCCCTCCCC 
AGCCGGACAG GAAGCCTCAC AGATGAACCT GCAGACCCTG CCAGAGTGTC TTCCCGCCAG 
CGCCTGGAGC TTGTAGCCCT TGTTTACTCC TCGTGCATTG CTGAGAACCT GGTACCAAAC 
CTCTTCTTGG AGCTTTTCTT CGTCTTTCAG CTCCTCACTG CCCGGAGGAT GGTGACTGCC 
AAGGACAGCG ACCCTGAACT AAGTCCAGCT GTCCTAGATT CCCTGGAAAG TCCACTGTTC 
CAAAGCATCC ACGATTGTGT CTTCTTTGCA GTGCAGGTTT TGGAGTGTCA CTTTCAGGTT 
CTTTCCAACC TGGACAAAGG GACCTTGAAG CTGCTGGCTG AGAATGAGCG GCTGCTGTGC 
TTCTCACCAG CTCTGCAAGG CCGCCTTCGA GCTGCCTATG AGGGCAGTGT TGCCAAGGTC 
TCTCTGGTGA TGCCTCCCTC TACTCAAGCT GTCTCCTTTC AGCCAGAGAC TGACAATCGT 
GCCAACTTCT CCAGTGACCG AGCCTTTCAT ACTTTTAAGA AACAGAGGGA TGTGTTTTAT 
GAGGTGCTGC GAGAGTGGGA AGATCACCAT GAGGAGCCTG GCTGGGATTT TGAGAAGGGC 
TTGGGCAGCA GAATCAGGGC CATGATGGGT CAGCTCTCCG CAGCCTGCAG CCACAGCCAC 
TTTGTTCGGC TTTTCCAAAA ACAACTACTC CAGATGTGTC AGAGCCCTGG TGGTGCTGGG 
GGCACCGTCT TGGGCGAGGC CCCAGATGTG TTGAGTATGC TGGGAGCTGA CAAGCTGGGG 
CGGTTGTGGC GCCTACAGGA ACGGCTTATG GCTCCTCAGA GCAGTGGGGG GCCCTGCCCA 
CCCCCCACCT TCCCAGGCTG TCAAGGCTTC TTTAGGGACT TCATCCTTAG TGCCAGCAGC 
TTCCAGTTTA ACCAGCATCT CATGGACAGT CTGAGCTTGA AGATCCAGGA GCTCAATGGT 
CTTGCCCTGC CCCAGCATGA GCCCAATGAT GAAGACGGGG AGTCAGACGT AGACTGGCAG 
GGTGAGCGGA AGCAATTTGC TGTGGTGCTT CTTAGCCTGA GACTTTTGGC TAAATTCCTG 
GGCTTTGTGG CTTTCCTGCC ATACCGGGGG CCTGAACCTC CCCCGACCGG TGAGCTTCAG 
GACTCCATTC TGGCCCTCAG GAGCCAGGTC CCTCCGGTCC TGGATGTGCG GACTCTGCTG 
CAGCGAGGGC TGCAGGCCCG CCGGGCGGTG CTCACCGTGC CCTGGCTGGT GGAGTTTCTC 
TCCTTTGCTG ACCATGTTGT TCCCTTGCTG GAATATTACC GGGACATCTT CACTCTCCTG 
CTGCGCCTGC ACCGGAGCTT GGTGTTGTCG CAGGAGAGTG AGGGGAAGAT GTGTTTCCTG 
AACAAGCTGC TGCTACTTGC TGTCCTGGGC TGGCTTTTCC AGATTCCCAC AGTCCCTGAG 
GACTTGTTCT TTCTGGAAGA GGGTCCCTCA TATGCCTTTG AGGTGGACAC AGTAGCCCCA 
GAGCATGGCT TGGACAATGC GCCTGTGGTG GACCAGCAGC TGCTCTACAC CTGCTGCCCC 
TACATCGGAG AGCTCCGGAA ACTGCTCGCT TCGTGGGTGT CAGGCAGTAG TGGACGGAGT 
GGGGGCTTCA TGAGGAAAAT CACCCCCACC ACTACCACCA GCCTGGGAGC CCAGCCTTCC 
CAGACCAGCC AGGGGCTGCA GGCACAGCTC GCCCAGGCCT TTTTCCACAA CCAGCCGCCC 
TCCTTGCGCC GGACCGTAGA GTTCGTGGCA GAAAGAATTG GATCAAACTG TGTCAAACAT 
ATCAAGGCTA CACTGGTGGC AGATCTGGTG CGCCAGGCAG AGTCACTTCT CCAAGAGCAG 
CTGGTGACAC AGGGAGAGGA AGGGGGAGAC CCAGCCCAGC TGTTGGAGAT CTTGTGTTCC 
CAGCTGTGCC CTCACGGGGC CCAGGCATTG GCCCTGGGGC GGGAGTTCTG TCAAAGGAAG 
AGCCCTGGGG CTGTGCGGGC GCTGCTTCCA GAGGAGACCC CGGCAGCCGT TCTGAGCAGT 
GCAGAGAACA TTGCTGTGGG GCTTGCAACA GAGAAAGCCT GTGCTTGGCT GTCAGCCAAC 
ATCACAGCAC TGATCAGGAG GGAGGTGAAA GCAGCAGTGA GTCGCACACT TCGAGCCCAG 
GGTCCTGAAC CTGCTGCCCG GGGGGAGCGG AGGGGCTGCT CCCGCGCCTG TGAGCACCAT 
GCTCCCCTCC CCTCCCACCT CATCTCCGAG ATAAAAGACG TGCTCTCCTT GGCCGTGGGG 
CCACGGGACC CTGACGAGGG AGTCTCCCCA GAGCATCTGG AACAGCTCCT AGGCCAGCTG 
GGCCAGACGC TGCGGTGCCG CCAGTTCCTG TGCCCACCTG CTGAGCAGCA TCTGGCAAAG 
TGCTCTGTGG AGTTAGCTTC CCTCCTCGTT GCAGATCAAA TTCCTATCCT AGGGCCCCCG 
GCACAGTACA GGCTGGAGAG AGGGCAGGCT CGAAGGCTTC TGCACATGCT GCTTTCCTTG 
TGGAAGGAAG ACTTTCAGGG GCCGGTTCCG CTGCAGCTGC TGCTGAGCCC AAGAAATGTG 
GGGCTTCTGG CAGACACAAG GCCAAGGGAG TGGGACTTGC TGCTATTCTT GCTACGGGAG 
CTGGTGGAGA AGGGTCTGAT GGGACGGATG GAGATAGAGG CCTGCCTGGG CAGCCTCCAC 
CAGGCCCAGT GGCCAGGGGA CTTTGCTGAA GAATTAGCAA CACTGTCTAA TCTGTTTCTA 
GCCGAGCCCC ACCTGCCAGA ACCCCAGCTA AGAGCCTGTG AGTTGGTGCA GCCAAACCGG 
GGCACTGTGC TGGCCCAGAG CTAG

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

RefSeq	NP_612486.2
CDS	27..3710
Translation	MAAVLESLLREEVSVAAVVRWIARSTQGSEDNAGEAAALSSLRALRKEFVPFLLNFLREQSSRVLPQGPPTPAKTPGASAALPGRPGGPPRGSRGARSQLFPPTEAQSTAAEAPLARRGGRRRGPGPARERGGRGLEEGVSGESLPGAGGRRLRGSGSPSRPSLTLSDPPNLSNLEEFPPVGSVPPGPTGTKPSRRINPTPVSEERSLSKPKTCFTSPPISCVPSSQPSALDTSPWGLGLPPGCRSLQEEREMLRKERSKQLQQSPTPTCPTPELGSPLPSRTGSLTDEPADPARVSSRQRLELVALVYSSCIAENLVPNLFLELFFVFQLLTARRMVTAKDSDPELSPAVLDSLESPLFQSIHDCVFFAVQVLECHFQVLSNLDKGTLKLLAENERLLCFSPALQGRLRAAYEGSVAKVSLVMPPSTQAVSFQPETDNRANFSSDRAFHTFKKQRDVFYEVLREWEDHHEEPGWDFEKGLGSRIRAMMGQLSAACSHSHFVRLFQKQLLQMCQSPGGAGGTVLGEAPDVLSMLGADKLGRLWRLQERLMAPQSSGGPCPPPTFPGCQGFFRDFILSASSFQFNQHLMDSLSLKIQELNGLALPQHEPNDEDGESDVDWQGERKQFAVVLLSLRLLAKFLGFVAFLPYRGPEPPPTGELQDSILALRSQVPPVLDVRTLLQRGLQARRAVLTVPWLVEFLSFADHVVPLLEYYRDIFTLLLRLHRSLVLSQESEGKMCFLNKLLLLAVLGWLFQIPTVPEDLFFLEEGPSYAFEVDTVAPEHGLDNAPVVDQQLLYTCCPYIGELRKLLASWVSGSSGRSGGFMRKITPTTTTSLGAQPSQTSQGLQAQLAQAFFHNQPPSLRRTVEFVAERIGSNCVKHIKATLVADLVRQAESLLQEQLVTQGEEGGDPAQLLEILCSQLCPHGAQALALGREFCQRKSPGAVRALLPEETPAAVLSSAENIAVGLATEKACAWLSANITALIRREVKAAVSRTLRAQGPEPAARGERRGCSRACEHHAPLPSHLISEIKDVLSLAVGPRDPDEGVSPEHLEQLLGQLGQTLRCRQFLCPPAEQHLAKCSVELASLLVADQIPILGPPAQYRLERGQARRLLHMLLSLWKEDFQGPVPLQLLLSPRNVGLLADTRPREWDLLLFLLRELVEKGLMGRMEIEACLGSLHQAQWPGDFAEELATLSNLFLAEPHLPEPQLRACELVQPNRGTVLAQS

Target ORF information:

RefSeq Version	NM_138477.3
Organism	Homo sapiens(human)
Definition	Homo sapiens codanin 1 (CDAN1), mRNA.

Target ORF information:

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

NM_138477.3

ORF Insert Sequence:

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GATAACGCTG GGGAGGCGGC CGCGCTGAGC 
TCACTCCGGG CCCTGCGGAA AGAATTCGTA CCGTTCCTGT TGAACTTCCT GAGGGAGCAG 
AGCAGCCGCG TCCTCCCGCA GGGGCCCCCG ACCCCCGCCA AGACCCCGGG CGCCTCGGCA 
GCCTTGCCAG GGAGGCCGGG AGGCCCGCCG CGGGGTAGCC GCGGGGCGCG CAGCCAGCTT 
TTCCCTCCGA CCGAGGCCCA GAGCACCGCT GCCGAGGCCC CTCTGGCCCG CCGCGGGGGC 
AGGAGGCGGG GCCCGGGGCC GGCCCGCGAG CGTGGAGGCC GCGGCCTGGA GGAGGGGGTC 
AGCGGGGAGA GCCTGCCCGG AGCCGGGGGC CGGAGGCTTA GGGGCTCTGG CAGCCCCAGC 
CGCCCCAGCC TCACGCTGTC TGATCCGCCA AACCTCAGCA ACCTGGAGGA GTTCCCTCCC 
GTAGGCTCGG TTCCCCCCGG CCCTACAGGG ACGAAGCCTT CTCGCAGGAT CAACCCAACT 
CCGGTGAGCG AAGAGCGGTC ACTCTCCAAG CCCAAGACCT GCTTCACCTC ACCCCCAATC 
AGCTGTGTCC CCAGTTCCCA ACCCTCAGCC CTGGACACTA GCCCTTGGGG CCTTGGCCTT 
CCCCCAGGGT GCAGAAGTCT GCAAGAGGAG CGAGAGATGC TCAGGAAGGA GCGCTCTAAG 
CAGCTGCAGC AGTCACCTAC CCCCACCTGT CCCACCCCAG AATTGGGGTC GCCCCTCCCC 
AGCCGGACAG GAAGCCTCAC AGATGAACCT GCAGACCCTG CCAGAGTGTC TTCCCGCCAG 
CGCCTGGAGC TTGTAGCCCT TGTTTACTCC TCGTGCATTG CTGAGAACCT GGTACCAAAC 
CTCTTCTTGG AGCTTTTCTT CGTCTTTCAG CTCCTCACTG CCCGGAGGAT GGTGACTGCC 
AAGGACAGCG ACCCTGAACT AAGTCCAGCT GTCCTAGATT CCCTGGAAAG TCCACTGTTC 
CAAAGCATCC ACGATTGTGT CTTCTTTGCA GTGCAGGTTT TGGAGTGTCA CTTTCAGGTT 
CTTTCCAACC TGGACAAAGG GACCTTGAAG CTGCTGGCTG AGAATGAGCG GCTGCTGTGC 
TTCTCACCAG CTCTGCAAGG CCGCCTTCGA GCTGCCTATG AGGGCAGTGT TGCCAAGGTC 
TCTCTGGTGA TGCCTCCCTC TACTCAAGCT GTCTCCTTTC AGCCAGAGAC TGACAATCGT 
GCCAACTTCT CCAGTGACCG AGCCTTTCAT ACTTTTAAGA AACAGAGGGA TGTGTTTTAT 
GAGGTGCTGC GAGAGTGGGA AGATCACCAT GAGGAGCCTG GCTGGGATTT TGAGAAGGGC 
TTGGGCAGCA GAATCAGGGC CATGATGGGT CAGCTCTCCG CAGCCTGCAG CCACAGCCAC 
TTTGTTCGGC TTTTCCAAAA ACAACTACTC CAGATGTGTC AGAGCCCTGG TGGTGCTGGG 
GGCACCGTCT TGGGCGAGGC CCCAGATGTG TTGAGTATGC TGGGAGCTGA CAAGCTGGGG 
CGGTTGTGGC GCCTACAGGA ACGGCTTATG GCTCCTCAGA GCAGTGGGGG GCCCTGCCCA 
CCCCCCACCT TCCCAGGCTG TCAAGGCTTC TTTAGGGACT TCATCCTTAG TGCCAGCAGC 
TTCCAGTTTA ACCAGCATCT CATGGACAGT CTGAGCTTGA AGATCCAGGA GCTCAATGGT 
CTTGCCCTGC CCCAGCATGA GCCCAATGAT GAAGACGGGG AGTCAGACGT AGACTGGCAG 
GGTGAGCGGA AGCAATTTGC TGTGGTGCTT CTTAGCCTGA GACTTTTGGC TAAATTCCTG 
GGCTTTGTGG CTTTCCTGCC ATACCGGGGG CCTGAACCTC CCCCGACCGG TGAGCTTCAG 
GACTCCATTC TGGCCCTCAG GAGCCAGGTC CCTCCGGTCC TGGATGTGCG GACTCTGCTG 
CAGCGAGGGC TGCAGGCCCG CCGGGCGGTG CTCACCGTGC CCTGGCTGGT GGAGTTTCTC 
TCCTTTGCTG ACCATGTTGT TCCCTTGCTG GAATATTACC GGGACATCTT CACTCTCCTG 
CTGCGCCTGC ACCGGAGCTT GGTGTTGTCG CAGGAGAGTG AGGGGAAGAT GTGTTTCCTG 
AACAAGCTGC TGCTACTTGC TGTCCTGGGC TGGCTTTTCC AGATTCCCAC AGTCCCTGAG 
GACTTGTTCT TTCTGGAAGA GGGTCCCTCA TATGCCTTTG AGGTGGACAC AGTAGCCCCA 
GAGCATGGCT TGGACAATGC GCCTGTGGTG GACCAGCAGC TGCTCTACAC CTGCTGCCCC 
TACATCGGAG AGCTCCGGAA ACTGCTCGCT TCGTGGGTGT CAGGCAGTAG TGGACGGAGT 
GGGGGCTTCA TGAGGAAAAT CACCCCCACC ACTACCACCA GCCTGGGAGC CCAGCCTTCC 
CAGACCAGCC AGGGGCTGCA GGCACAGCTC GCCCAGGCCT TTTTCCACAA CCAGCCGCCC 
TCCTTGCGCC GGACCGTAGA GTTCGTGGCA GAAAGAATTG GATCAAACTG TGTCAAACAT 
ATCAAGGCTA CACTGGTGGC AGATCTGGTG CGCCAGGCAG AGTCACTTCT CCAAGAGCAG 
CTGGTGACAC AGGGAGAGGA AGGGGGAGAC CCAGCCCAGC TGTTGGAGAT CTTGTGTTCC 
CAGCTGTGCC CTCACGGGGC CCAGGCATTG GCCCTGGGGC GGGAGTTCTG TCAAAGGAAG 
AGCCCTGGGG CTGTGCGGGC GCTGCTTCCA GAGGAGACCC CGGCAGCCGT TCTGAGCAGT 
GCAGAGAACA TTGCTGTGGG GCTTGCAACA GAGAAAGCCT GTGCTTGGCT GTCAGCCAAC 
ATCACAGCAC TGATCAGGAG GGAGGTGAAA GCAGCAGTGA GTCGCACACT TCGAGCCCAG 
GGTCCTGAAC CTGCTGCCCG GGGGGAGCGG AGGGGCTGCT CCCGCGCCTG TGAGCACCAT 
GCTCCCCTCC CCTCCCACCT CATCTCCGAG ATAAAAGACG TGCTCTCCTT GGCCGTGGGG 
CCACGGGACC CTGACGAGGG AGTCTCCCCA GAGCATCTGG AACAGCTCCT AGGCCAGCTG 
GGCCAGACGC TGCGGTGCCG CCAGTTCCTG TGCCCACCTG CTGAGCAGCA TCTGGCAAAG 
TGCTCTGTGG AGTTAGCTTC CCTCCTCGTT GCAGATCAAA TTCCTATCCT AGGGCCCCCG 
GCACAGTACA GGCTGGAGAG AGGGCAGGCT CGAAGGCTTC TGCACATGCT GCTTTCCTTG 
TGGAAGGAAG ACTTTCAGGG GCCGGTTCCG CTGCAGCTGC TGCTGAGCCC AAGAAATGTG 
GGGCTTCTGG CAGACACAAG GCCAAGGGAG TGGGACTTGC TGCTATTCTT GCTACGGGAG 
CTGGTGGAGA AGGGTCTGAT GGGACGGATG GAGATAGAGG CCTGCCTGGG CAGCCTCCAC 
CAGGCCCAGT GGCCAGGGGA CTTTGCTGAA GAATTAGCAA CACTGTCTAA TCTGTTTCTA 
GCCGAGCCCC ACCTGCCAGA ACCCCAGCTA AGAGCCTGTG AGTTGGTGCA GCCAAACCGG 
GGCACTGTGC TGGCCCAGAG CTAG

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

CDAN1 ( NM_138477.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_612486.2 Homo sapiens codanin 1 (CDAN1), mRNA.

Price & Availability↑

CloneID	OHu19285
Clone ID Related Accession (Same CDS sequence)	NM_138477.3 , NM_138477.4
Accession Version	NM_138477.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3684bp) 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	2019-09-14
Organism	Homo sapiens(human)
Product	codanin-1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY112237.1, BC052568.1, AF525398.1, BC001092.2, BE884119.1 and AC090510.4. This sequence is a reference standard in the RefSeqGene project. On May 8, 2018 this sequence version replaced NM_138477.3. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC052568.1 [ECO:0000332] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000356231.4/ ENSP00000348564.3 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GATAACGCTG GGGAGGCGGC CGCGCTGAGC 
TCACTCCGGG CCCTGCGGAA AGAATTCGTA CCGTTCCTGT TGAACTTCCT GAGGGAGCAG 
AGCAGCCGCG TCCTCCCGCA GGGGCCCCCG ACCCCCGCCA AGACCCCGGG CGCCTCGGCA 
GCCTTGCCAG GGAGGCCGGG AGGCCCGCCG CGGGGTAGCC GCGGGGCGCG CAGCCAGCTT 
TTCCCTCCGA CCGAGGCCCA GAGCACCGCT GCCGAGGCCC CTCTGGCCCG CCGCGGGGGC 
AGGAGGCGGG GCCCGGGGCC GGCCCGCGAG CGTGGAGGCC GCGGCCTGGA GGAGGGGGTC 
AGCGGGGAGA GCCTGCCCGG AGCCGGGGGC CGGAGGCTTA GGGGCTCTGG CAGCCCCAGC 
CGCCCCAGCC TCACGCTGTC TGATCCGCCA AACCTCAGCA ACCTGGAGGA GTTCCCTCCC 
GTAGGCTCGG TTCCCCCCGG CCCTACAGGG ACGAAGCCTT CTCGCAGGAT CAACCCAACT 
CCGGTGAGCG AAGAGCGGTC ACTCTCCAAG CCCAAGACCT GCTTCACCTC ACCCCCAATC 
AGCTGTGTCC CCAGTTCCCA ACCCTCAGCC CTGGACACTA GCCCTTGGGG CCTTGGCCTT 
CCCCCAGGGT GCAGAAGTCT GCAAGAGGAG CGAGAGATGC TCAGGAAGGA GCGCTCTAAG 
CAGCTGCAGC AGTCACCTAC CCCCACCTGT CCCACCCCAG AATTGGGGTC GCCCCTCCCC 
AGCCGGACAG GAAGCCTCAC AGATGAACCT GCAGACCCTG CCAGAGTGTC TTCCCGCCAG 
CGCCTGGAGC TTGTAGCCCT TGTTTACTCC TCGTGCATTG CTGAGAACCT GGTACCAAAC 
CTCTTCTTGG AGCTTTTCTT CGTCTTTCAG CTCCTCACTG CCCGGAGGAT GGTGACTGCC 
AAGGACAGCG ACCCTGAACT AAGTCCAGCT GTCCTAGATT CCCTGGAAAG TCCACTGTTC 
CAAAGCATCC ACGATTGTGT CTTCTTTGCA GTGCAGGTTT TGGAGTGTCA CTTTCAGGTT 
CTTTCCAACC TGGACAAAGG GACCTTGAAG CTGCTGGCTG AGAATGAGCG GCTGCTGTGC 
TTCTCACCAG CTCTGCAAGG CCGCCTTCGA GCTGCCTATG AGGGCAGTGT TGCCAAGGTC 
TCTCTGGTGA TGCCTCCCTC TACTCAAGCT GTCTCCTTTC AGCCAGAGAC TGACAATCGT 
GCCAACTTCT CCAGTGACCG AGCCTTTCAT ACTTTTAAGA AACAGAGGGA TGTGTTTTAT 
GAGGTGCTGC GAGAGTGGGA AGATCACCAT GAGGAGCCTG GCTGGGATTT TGAGAAGGGC 
TTGGGCAGCA GAATCAGGGC CATGATGGGT CAGCTCTCCG CAGCCTGCAG CCACAGCCAC 
TTTGTTCGGC TTTTCCAAAA ACAACTACTC CAGATGTGTC AGAGCCCTGG TGGTGCTGGG 
GGCACCGTCT TGGGCGAGGC CCCAGATGTG TTGAGTATGC TGGGAGCTGA CAAGCTGGGG 
CGGTTGTGGC GCCTACAGGA ACGGCTTATG GCTCCTCAGA GCAGTGGGGG GCCCTGCCCA 
CCCCCCACCT TCCCAGGCTG TCAAGGCTTC TTTAGGGACT TCATCCTTAG TGCCAGCAGC 
TTCCAGTTTA ACCAGCATCT CATGGACAGT CTGAGCTTGA AGATCCAGGA GCTCAATGGT 
CTTGCCCTGC CCCAGCATGA GCCCAATGAT GAAGACGGGG AGTCAGACGT AGACTGGCAG 
GGTGAGCGGA AGCAATTTGC TGTGGTGCTT CTTAGCCTGA GACTTTTGGC TAAATTCCTG 
GGCTTTGTGG CTTTCCTGCC ATACCGGGGG CCTGAACCTC CCCCGACCGG TGAGCTTCAG 
GACTCCATTC TGGCCCTCAG GAGCCAGGTC CCTCCGGTCC TGGATGTGCG GACTCTGCTG 
CAGCGAGGGC TGCAGGCCCG CCGGGCGGTG CTCACCGTGC CCTGGCTGGT GGAGTTTCTC 
TCCTTTGCTG ACCATGTTGT TCCCTTGCTG GAATATTACC GGGACATCTT CACTCTCCTG 
CTGCGCCTGC ACCGGAGCTT GGTGTTGTCG CAGGAGAGTG AGGGGAAGAT GTGTTTCCTG 
AACAAGCTGC TGCTACTTGC TGTCCTGGGC TGGCTTTTCC AGATTCCCAC AGTCCCTGAG 
GACTTGTTCT TTCTGGAAGA GGGTCCCTCA TATGCCTTTG AGGTGGACAC AGTAGCCCCA 
GAGCATGGCT TGGACAATGC GCCTGTGGTG GACCAGCAGC TGCTCTACAC CTGCTGCCCC 
TACATCGGAG AGCTCCGGAA ACTGCTCGCT TCGTGGGTGT CAGGCAGTAG TGGACGGAGT 
GGGGGCTTCA TGAGGAAAAT CACCCCCACC ACTACCACCA GCCTGGGAGC CCAGCCTTCC 
CAGACCAGCC AGGGGCTGCA GGCACAGCTC GCCCAGGCCT TTTTCCACAA CCAGCCGCCC 
TCCTTGCGCC GGACCGTAGA GTTCGTGGCA GAAAGAATTG GATCAAACTG TGTCAAACAT 
ATCAAGGCTA CACTGGTGGC AGATCTGGTG CGCCAGGCAG AGTCACTTCT CCAAGAGCAG 
CTGGTGACAC AGGGAGAGGA AGGGGGAGAC CCAGCCCAGC TGTTGGAGAT CTTGTGTTCC 
CAGCTGTGCC CTCACGGGGC CCAGGCATTG GCCCTGGGGC GGGAGTTCTG TCAAAGGAAG 
AGCCCTGGGG CTGTGCGGGC GCTGCTTCCA GAGGAGACCC CGGCAGCCGT TCTGAGCAGT 
GCAGAGAACA TTGCTGTGGG GCTTGCAACA GAGAAAGCCT GTGCTTGGCT GTCAGCCAAC 
ATCACAGCAC TGATCAGGAG GGAGGTGAAA GCAGCAGTGA GTCGCACACT TCGAGCCCAG 
GGTCCTGAAC CTGCTGCCCG GGGGGAGCGG AGGGGCTGCT CCCGCGCCTG TGAGCACCAT 
GCTCCCCTCC CCTCCCACCT CATCTCCGAG ATAAAAGACG TGCTCTCCTT GGCCGTGGGG 
CCACGGGACC CTGACGAGGG AGTCTCCCCA GAGCATCTGG AACAGCTCCT AGGCCAGCTG 
GGCCAGACGC TGCGGTGCCG CCAGTTCCTG TGCCCACCTG CTGAGCAGCA TCTGGCAAAG 
TGCTCTGTGG AGTTAGCTTC CCTCCTCGTT GCAGATCAAA TTCCTATCCT AGGGCCCCCG 
GCACAGTACA GGCTGGAGAG AGGGCAGGCT CGAAGGCTTC TGCACATGCT GCTTTCCTTG 
TGGAAGGAAG ACTTTCAGGG GCCGGTTCCG CTGCAGCTGC TGCTGAGCCC AAGAAATGTG 
GGGCTTCTGG CAGACACAAG GCCAAGGGAG TGGGACTTGC TGCTATTCTT GCTACGGGAG 
CTGGTGGAGA AGGGTCTGAT GGGACGGATG GAGATAGAGG CCTGCCTGGG CAGCCTCCAC 
CAGGCCCAGT GGCCAGGGGA CTTTGCTGAA GAATTAGCAA CACTGTCTAA TCTGTTTCTA 
GCCGAGCCCC ACCTGCCAGA ACCCCAGCTA AGAGCCTGTG AGTTGGTGCA GCCAAACCGG 
GGCACTGTGC TGGCCCAGAG CTAG

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

RefSeq	NP_612486.2
CDS	27..3710
Translation	MAAVLESLLREEVSVAAVVRWIARSTQGSEDNAGEAAALSSLRALRKEFVPFLLNFLREQSSRVLPQGPPTPAKTPGASAALPGRPGGPPRGSRGARSQLFPPTEAQSTAAEAPLARRGGRRRGPGPARERGGRGLEEGVSGESLPGAGGRRLRGSGSPSRPSLTLSDPPNLSNLEEFPPVGSVPPGPTGTKPSRRINPTPVSEERSLSKPKTCFTSPPISCVPSSQPSALDTSPWGLGLPPGCRSLQEEREMLRKERSKQLQQSPTPTCPTPELGSPLPSRTGSLTDEPADPARVSSRQRLELVALVYSSCIAENLVPNLFLELFFVFQLLTARRMVTAKDSDPELSPAVLDSLESPLFQSIHDCVFFAVQVLECHFQVLSNLDKGTLKLLAENERLLCFSPALQGRLRAAYEGSVAKVSLVMPPSTQAVSFQPETDNRANFSSDRAFHTFKKQRDVFYEVLREWEDHHEEPGWDFEKGLGSRIRAMMGQLSAACSHSHFVRLFQKQLLQMCQSPGGAGGTVLGEAPDVLSMLGADKLGRLWRLQERLMAPQSSGGPCPPPTFPGCQGFFRDFILSASSFQFNQHLMDSLSLKIQELNGLALPQHEPNDEDGESDVDWQGERKQFAVVLLSLRLLAKFLGFVAFLPYRGPEPPPTGELQDSILALRSQVPPVLDVRTLLQRGLQARRAVLTVPWLVEFLSFADHVVPLLEYYRDIFTLLLRLHRSLVLSQESEGKMCFLNKLLLLAVLGWLFQIPTVPEDLFFLEEGPSYAFEVDTVAPEHGLDNAPVVDQQLLYTCCPYIGELRKLLASWVSGSSGRSGGFMRKITPTTTTSLGAQPSQTSQGLQAQLAQAFFHNQPPSLRRTVEFVAERIGSNCVKHIKATLVADLVRQAESLLQEQLVTQGEEGGDPAQLLEILCSQLCPHGAQALALGREFCQRKSPGAVRALLPEETPAAVLSSAENIAVGLATEKACAWLSANITALIRREVKAAVSRTLRAQGPEPAARGERRGCSRACEHHAPLPSHLISEIKDVLSLAVGPRDPDEGVSPEHLEQLLGQLGQTLRCRQFLCPPAEQHLAKCSVELASLLVADQIPILGPPAQYRLERGQARRLLHMLLSLWKEDFQGPVPLQLLLSPRNVGLLADTRPREWDLLLFLLRELVEKGLMGRMEIEACLGSLHQAQWPGDFAEELATLSNLFLAEPHLPEPQLRACELVQPNRGTVLAQS

Target ORF information:

RefSeq Version	NM_138477.4
Organism	Homo sapiens(human)
Definition	Homo sapiens codanin 1 (CDAN1), mRNA.

Target ORF information:

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

NM_138477.4

ORF Insert Sequence:

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GATAACGCTG GGGAGGCGGC CGCGCTGAGC 
TCACTCCGGG CCCTGCGGAA AGAATTCGTA CCGTTCCTGT TGAACTTCCT GAGGGAGCAG 
AGCAGCCGCG TCCTCCCGCA GGGGCCCCCG ACCCCCGCCA AGACCCCGGG CGCCTCGGCA 
GCCTTGCCAG GGAGGCCGGG AGGCCCGCCG CGGGGTAGCC GCGGGGCGCG CAGCCAGCTT 
TTCCCTCCGA CCGAGGCCCA GAGCACCGCT GCCGAGGCCC CTCTGGCCCG CCGCGGGGGC 
AGGAGGCGGG GCCCGGGGCC GGCCCGCGAG CGTGGAGGCC GCGGCCTGGA GGAGGGGGTC 
AGCGGGGAGA GCCTGCCCGG AGCCGGGGGC CGGAGGCTTA GGGGCTCTGG CAGCCCCAGC 
CGCCCCAGCC TCACGCTGTC TGATCCGCCA AACCTCAGCA ACCTGGAGGA GTTCCCTCCC 
GTAGGCTCGG TTCCCCCCGG CCCTACAGGG ACGAAGCCTT CTCGCAGGAT CAACCCAACT 
CCGGTGAGCG AAGAGCGGTC ACTCTCCAAG CCCAAGACCT GCTTCACCTC ACCCCCAATC 
AGCTGTGTCC CCAGTTCCCA ACCCTCAGCC CTGGACACTA GCCCTTGGGG CCTTGGCCTT 
CCCCCAGGGT GCAGAAGTCT GCAAGAGGAG CGAGAGATGC TCAGGAAGGA GCGCTCTAAG 
CAGCTGCAGC AGTCACCTAC CCCCACCTGT CCCACCCCAG AATTGGGGTC GCCCCTCCCC 
AGCCGGACAG GAAGCCTCAC AGATGAACCT GCAGACCCTG CCAGAGTGTC TTCCCGCCAG 
CGCCTGGAGC TTGTAGCCCT TGTTTACTCC TCGTGCATTG CTGAGAACCT GGTACCAAAC 
CTCTTCTTGG AGCTTTTCTT CGTCTTTCAG CTCCTCACTG CCCGGAGGAT GGTGACTGCC 
AAGGACAGCG ACCCTGAACT AAGTCCAGCT GTCCTAGATT CCCTGGAAAG TCCACTGTTC 
CAAAGCATCC ACGATTGTGT CTTCTTTGCA GTGCAGGTTT TGGAGTGTCA CTTTCAGGTT 
CTTTCCAACC TGGACAAAGG GACCTTGAAG CTGCTGGCTG AGAATGAGCG GCTGCTGTGC 
TTCTCACCAG CTCTGCAAGG CCGCCTTCGA GCTGCCTATG AGGGCAGTGT TGCCAAGGTC 
TCTCTGGTGA TGCCTCCCTC TACTCAAGCT GTCTCCTTTC AGCCAGAGAC TGACAATCGT 
GCCAACTTCT CCAGTGACCG AGCCTTTCAT ACTTTTAAGA AACAGAGGGA TGTGTTTTAT 
GAGGTGCTGC GAGAGTGGGA AGATCACCAT GAGGAGCCTG GCTGGGATTT TGAGAAGGGC 
TTGGGCAGCA GAATCAGGGC CATGATGGGT CAGCTCTCCG CAGCCTGCAG CCACAGCCAC 
TTTGTTCGGC TTTTCCAAAA ACAACTACTC CAGATGTGTC AGAGCCCTGG TGGTGCTGGG 
GGCACCGTCT TGGGCGAGGC CCCAGATGTG TTGAGTATGC TGGGAGCTGA CAAGCTGGGG 
CGGTTGTGGC GCCTACAGGA ACGGCTTATG GCTCCTCAGA GCAGTGGGGG GCCCTGCCCA 
CCCCCCACCT TCCCAGGCTG TCAAGGCTTC TTTAGGGACT TCATCCTTAG TGCCAGCAGC 
TTCCAGTTTA ACCAGCATCT CATGGACAGT CTGAGCTTGA AGATCCAGGA GCTCAATGGT 
CTTGCCCTGC CCCAGCATGA GCCCAATGAT GAAGACGGGG AGTCAGACGT AGACTGGCAG 
GGTGAGCGGA AGCAATTTGC TGTGGTGCTT CTTAGCCTGA GACTTTTGGC TAAATTCCTG 
GGCTTTGTGG CTTTCCTGCC ATACCGGGGG CCTGAACCTC CCCCGACCGG TGAGCTTCAG 
GACTCCATTC TGGCCCTCAG GAGCCAGGTC CCTCCGGTCC TGGATGTGCG GACTCTGCTG 
CAGCGAGGGC TGCAGGCCCG CCGGGCGGTG CTCACCGTGC CCTGGCTGGT GGAGTTTCTC 
TCCTTTGCTG ACCATGTTGT TCCCTTGCTG GAATATTACC GGGACATCTT CACTCTCCTG 
CTGCGCCTGC ACCGGAGCTT GGTGTTGTCG CAGGAGAGTG AGGGGAAGAT GTGTTTCCTG 
AACAAGCTGC TGCTACTTGC TGTCCTGGGC TGGCTTTTCC AGATTCCCAC AGTCCCTGAG 
GACTTGTTCT TTCTGGAAGA GGGTCCCTCA TATGCCTTTG AGGTGGACAC AGTAGCCCCA 
GAGCATGGCT TGGACAATGC GCCTGTGGTG GACCAGCAGC TGCTCTACAC CTGCTGCCCC 
TACATCGGAG AGCTCCGGAA ACTGCTCGCT TCGTGGGTGT CAGGCAGTAG TGGACGGAGT 
GGGGGCTTCA TGAGGAAAAT CACCCCCACC ACTACCACCA GCCTGGGAGC CCAGCCTTCC 
CAGACCAGCC AGGGGCTGCA GGCACAGCTC GCCCAGGCCT TTTTCCACAA CCAGCCGCCC 
TCCTTGCGCC GGACCGTAGA GTTCGTGGCA GAAAGAATTG GATCAAACTG TGTCAAACAT 
ATCAAGGCTA CACTGGTGGC AGATCTGGTG CGCCAGGCAG AGTCACTTCT CCAAGAGCAG 
CTGGTGACAC AGGGAGAGGA AGGGGGAGAC CCAGCCCAGC TGTTGGAGAT CTTGTGTTCC 
CAGCTGTGCC CTCACGGGGC CCAGGCATTG GCCCTGGGGC GGGAGTTCTG TCAAAGGAAG 
AGCCCTGGGG CTGTGCGGGC GCTGCTTCCA GAGGAGACCC CGGCAGCCGT TCTGAGCAGT 
GCAGAGAACA TTGCTGTGGG GCTTGCAACA GAGAAAGCCT GTGCTTGGCT GTCAGCCAAC 
ATCACAGCAC TGATCAGGAG GGAGGTGAAA GCAGCAGTGA GTCGCACACT TCGAGCCCAG 
GGTCCTGAAC CTGCTGCCCG GGGGGAGCGG AGGGGCTGCT CCCGCGCCTG TGAGCACCAT 
GCTCCCCTCC CCTCCCACCT CATCTCCGAG ATAAAAGACG TGCTCTCCTT GGCCGTGGGG 
CCACGGGACC CTGACGAGGG AGTCTCCCCA GAGCATCTGG AACAGCTCCT AGGCCAGCTG 
GGCCAGACGC TGCGGTGCCG CCAGTTCCTG TGCCCACCTG CTGAGCAGCA TCTGGCAAAG 
TGCTCTGTGG AGTTAGCTTC CCTCCTCGTT GCAGATCAAA TTCCTATCCT AGGGCCCCCG 
GCACAGTACA GGCTGGAGAG AGGGCAGGCT CGAAGGCTTC TGCACATGCT GCTTTCCTTG 
TGGAAGGAAG ACTTTCAGGG GCCGGTTCCG CTGCAGCTGC TGCTGAGCCC AAGAAATGTG 
GGGCTTCTGG CAGACACAAG GCCAAGGGAG TGGGACTTGC TGCTATTCTT GCTACGGGAG 
CTGGTGGAGA AGGGTCTGAT GGGACGGATG GAGATAGAGG CCTGCCTGGG CAGCCTCCAC 
CAGGCCCAGT GGCCAGGGGA CTTTGCTGAA GAATTAGCAA CACTGTCTAA TCTGTTTCTA 
GCCGAGCCCC ACCTGCCAGA ACCCCAGCTA AGAGCCTGTG AGTTGGTGCA GCCAAACCGG 
GGCACTGTGC TGGCCCAGAG CTAG

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

CDAN1 ( XM_011521274.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011519576.1 Homo sapiens codanin 1 (CDAN1), transcript variant X5, mRNA.

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CloneID	OHu76197
Clone ID Related Accession (Same CDS sequence)	XM_011521274.2
Accession Version	XM_011521274.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2676bp) 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	codanin-1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011521274.1. ##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##

ATGGTGACTG CCAAGGACAG CGACCCTGAA CTAAGTCCAG CTGTCCTAGA TTCCCTGGAA 
AGTCCACTGT TCCAAAGCAT CCACGATTGT GTCTTCTTTG CAGTGCAGGT TTTGGAGTGT 
CACTTTCAGG TTCTTTCCAA CCTGGACAAA GGGACCTTGA AGCTGCTGGC TGAGAATGAG 
CGGCTGCTGT GCTTCTCACC AGCTCTGCAA GGCCGCCTTC GAGCTGCCTA TGAGGGCAGT 
GTTGCCAAGG TCTCTCTGGT GATGCCTCCC TCTACTCAAG CTGTCTCCTT TCAGCCAGAG 
ACTGACAATC GTGCCAACTT CTCCAGTGAC CGAGCCTTTC ATACTTTTAA GAAACAGAGG 
GATGTGTTTT ATGAGGTGCT GCGAGAGTGG GAAGATCACC ATGAGGAGCC TGGCTGGGAT 
TTTGAGAAGG GCTTGGGCAG CAGAATCAGG GCCATGATGG GTCAGCTCTC CGCAGCCTGC 
AGCCACAGCC ACTTTGTTCG GCTTTTCCAA AAACAACTAC TCCAGATGTG TCAGAGCCCT 
GGTGGTGCTG GGGGCACCGT CTTGGGCGAG GCCCCAGATG TGTTGAGTAT GCTGGGAGCT 
GACAAGCTGG GGCGGTTGTG GCGCCTACAG GAACGGCTTA TGGCTCCTCA GAGCAGTGGG 
GGGCCCTGCC CACCCCCCAC CTTCCCAGGC TGTCAAGGCT TCTTTAGGGA CTTCATCCTT 
AGTGCCAGCA GCTTCCAGTT TAACCAGCAT CTCATGGACA GTCTGAGCTT GAAGATCCAG 
GAGCTCAATG GTCTTGCCCT GCCCCAGCAT GAGCCCAATG ATGAAGACGG GGAGTCAGAC 
GTAGACTGGC AGGGTGAGCG GAAGCAATTT GCTGTGGTGC TTCTTAGCCT GAGACTTTTG 
GCTAAATTCC TGGGCTTTGT GGCTTTCCTG CCATACCGGG GGCCTGAACC TCCCCCGACC 
GGTGAGCTTC AGGACTCCAT TCTGGCCCTC AGGAGCCAGG TCCCTCCGGT CCTGGATGTG 
CGGACTCTGC TGCAGCGAGG GCTGCAGGCC CGCCGGGCGG TGCTCACCGT GCCCTGGCTG 
GTGGAGTTTC TCTCCTTTGC TGACCATGTT GTTCCCTTGC TGGAATATTA CCGGGACATC 
TTCACTCTCC TGCTGCGCCT GCACCGGAGC TTGGTGTTGT CGCAGGAGAG TGAGGGGAAG 
ATGTGTTTCC TGAACAAGCT GCTGCTACTT GCTGTCCTGG GCTGGCTTTT CCAGATTCCC 
ACAGTCCCTG AGGACTTGTT CTTTCTGGAA GAGGGTCCCT CATATGCCTT TGAGGTGGAC 
ACAGTAGCCC CAGAGCATGG CTTGGACAAT GCGCCTGTGG TGGACCAGCA GCTGCTCTAC 
ACCTGCTGCC CCTACATCGG AGAGCTCCGG AAACTGCTCG CTTCGTGGGT GTCAGGCAGT 
AGTGGACGGA GTGGGGGCTT CATGAGGAAA ATCACCCCCA CCACTACCAC CAGCCTGGGA 
GCCCAGCCTT CCCAGACCAG CCAGGGGCTG CAGGCACAGC TCGCCCAGGC CTTTTTCCAC 
AACCAGCCGC CCTCCTTGCG CCGGACCGTA GAGTTCGTGG CAGAAAGAAT TGGATCAAAC 
TGTGTCAAAC ATATCAAGGC TACACTGGTG GCAGATCTGG TGCGCCAGGC AGAGTCACTT 
CTCCAAGAGC AGCTGGTGAC ACAGGGAGAG GAAGGGGGAG ACCCAGCCCA GCTGTTGGAG 
ATCTTGTGTT CCCAGCTGTG CCCTCACGGG GCCCAGGCAT TGGCCCTGGG GCGGGAGTTC 
TGTCAAAGGA AGAGCCCTGG GGCTGTGCGG GCGCTGCTTC CAGAGGAGAC CCCGGCAGCC 
GTTCTGAGCA GTGCAGAGAA CATTGCTGTG GGGCTTGCAA CAGAGAAAGC CTGTGCTTGG 
CTGTCAGCCA ACATCACAGC ACTGATCAGG AGGGAGGTGA AAGCAGCAGT GAGTCGCACA 
CTTCGAGCCC AGGGTCCTGA ACCTGCTGCC CGGGGGGAGC GGAGGGGCTG CTCCCGCGCC 
TGTGAGCACC ATGCTCCCCT CCCCTCCCAC CTCATCTCCG AGATAAAAGA CGTGCTCTCC 
TTGGCCGTGG GGCCACGGGA CCCTGACGAG GGAGTCTCCC CAGAGCATCT GGAACAGCTC 
CTAGGCCAGC TGGGCCAGAC GCTGCGGTGC CGCCAGTTCC TGTGCCCACC TGCTGAGCAG 
CATCTGGCAA AGTGCTCTGT GGAGTTAGCT TCCCTCCTCG TTGCAGATCA AATTCCTATC 
CTAGGGCCCC CGGCACAGTA CAGGCTGGAG AGAGGGCAGG CTCGAAGGCT TCTGCACATG 
CTGCTTTCCT TGTGGAAGGA AGACTTTCAG GGGCCGGTTC CGCTGCAGCT GCTGCTGAGC 
CCAAGAAATG TGGGGCTTCT GGCAGACACA AGGCCAAGGG AGTGGGACTT GCTGCTATTC 
TTGCTACGGG AGCTGGTGGA GAAGGGTCTG ATGGGACGGA TGGAGATAGA GGCCTGCCTG 
GGCAGCCTCC ACCAGGCCCA GTGGCCAGGG GACTTTGCTG AAGAATTAGC AACACTGTCT 
AATCTGTTTC TAGCCGAGCC CCACCTGCCA GAACCCCAGC TAAGAGCCTG TGAGTTGGTG 
CAGCCAAACC GGGGCACTGT GCTGGCCCAG AGCTAG

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

RefSeq	XP_011519576.1
CDS	112..2787
Translation	MVTAKDSDPELSPAVLDSLESPLFQSIHDCVFFAVQVLECHFQVLSNLDKGTLKLLAENERLLCFSPALQGRLRAAYEGSVAKVSLVMPPSTQAVSFQPETDNRANFSSDRAFHTFKKQRDVFYEVLREWEDHHEEPGWDFEKGLGSRIRAMMGQLSAACSHSHFVRLFQKQLLQMCQSPGGAGGTVLGEAPDVLSMLGADKLGRLWRLQERLMAPQSSGGPCPPPTFPGCQGFFRDFILSASSFQFNQHLMDSLSLKIQELNGLALPQHEPNDEDGESDVDWQGERKQFAVVLLSLRLLAKFLGFVAFLPYRGPEPPPTGELQDSILALRSQVPPVLDVRTLLQRGLQARRAVLTVPWLVEFLSFADHVVPLLEYYRDIFTLLLRLHRSLVLSQESEGKMCFLNKLLLLAVLGWLFQIPTVPEDLFFLEEGPSYAFEVDTVAPEHGLDNAPVVDQQLLYTCCPYIGELRKLLASWVSGSSGRSGGFMRKITPTTTTSLGAQPSQTSQGLQAQLAQAFFHNQPPSLRRTVEFVAERIGSNCVKHIKATLVADLVRQAESLLQEQLVTQGEEGGDPAQLLEILCSQLCPHGAQALALGREFCQRKSPGAVRALLPEETPAAVLSSAENIAVGLATEKACAWLSANITALIRREVKAAVSRTLRAQGPEPAARGERRGCSRACEHHAPLPSHLISEIKDVLSLAVGPRDPDEGVSPEHLEQLLGQLGQTLRCRQFLCPPAEQHLAKCSVELASLLVADQIPILGPPAQYRLERGQARRLLHMLLSLWKEDFQGPVPLQLLLSPRNVGLLADTRPREWDLLLFLLRELVEKGLMGRMEIEACLGSLHQAQWPGDFAEELATLSNLFLAEPHLPEPQLRACELVQPNRGTVLAQS

Target ORF information:

RefSeq Version	XM_011521274.2
Organism	Homo sapiens(human)
Definition	Homo sapiens codanin 1 (CDAN1), transcript variant X5, mRNA.

Target ORF information:

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

XM_011521274.2

ORF Insert Sequence:

ATGGTGACTG CCAAGGACAG CGACCCTGAA CTAAGTCCAG CTGTCCTAGA TTCCCTGGAA 
AGTCCACTGT TCCAAAGCAT CCACGATTGT GTCTTCTTTG CAGTGCAGGT TTTGGAGTGT 
CACTTTCAGG TTCTTTCCAA CCTGGACAAA GGGACCTTGA AGCTGCTGGC TGAGAATGAG 
CGGCTGCTGT GCTTCTCACC AGCTCTGCAA GGCCGCCTTC GAGCTGCCTA TGAGGGCAGT 
GTTGCCAAGG TCTCTCTGGT GATGCCTCCC TCTACTCAAG CTGTCTCCTT TCAGCCAGAG 
ACTGACAATC GTGCCAACTT CTCCAGTGAC CGAGCCTTTC ATACTTTTAA GAAACAGAGG 
GATGTGTTTT ATGAGGTGCT GCGAGAGTGG GAAGATCACC ATGAGGAGCC TGGCTGGGAT 
TTTGAGAAGG GCTTGGGCAG CAGAATCAGG GCCATGATGG GTCAGCTCTC CGCAGCCTGC 
AGCCACAGCC ACTTTGTTCG GCTTTTCCAA AAACAACTAC TCCAGATGTG TCAGAGCCCT 
GGTGGTGCTG GGGGCACCGT CTTGGGCGAG GCCCCAGATG TGTTGAGTAT GCTGGGAGCT 
GACAAGCTGG GGCGGTTGTG GCGCCTACAG GAACGGCTTA TGGCTCCTCA GAGCAGTGGG 
GGGCCCTGCC CACCCCCCAC CTTCCCAGGC TGTCAAGGCT TCTTTAGGGA CTTCATCCTT 
AGTGCCAGCA GCTTCCAGTT TAACCAGCAT CTCATGGACA GTCTGAGCTT GAAGATCCAG 
GAGCTCAATG GTCTTGCCCT GCCCCAGCAT GAGCCCAATG ATGAAGACGG GGAGTCAGAC 
GTAGACTGGC AGGGTGAGCG GAAGCAATTT GCTGTGGTGC TTCTTAGCCT GAGACTTTTG 
GCTAAATTCC TGGGCTTTGT GGCTTTCCTG CCATACCGGG GGCCTGAACC TCCCCCGACC 
GGTGAGCTTC AGGACTCCAT TCTGGCCCTC AGGAGCCAGG TCCCTCCGGT CCTGGATGTG 
CGGACTCTGC TGCAGCGAGG GCTGCAGGCC CGCCGGGCGG TGCTCACCGT GCCCTGGCTG 
GTGGAGTTTC TCTCCTTTGC TGACCATGTT GTTCCCTTGC TGGAATATTA CCGGGACATC 
TTCACTCTCC TGCTGCGCCT GCACCGGAGC TTGGTGTTGT CGCAGGAGAG TGAGGGGAAG 
ATGTGTTTCC TGAACAAGCT GCTGCTACTT GCTGTCCTGG GCTGGCTTTT CCAGATTCCC 
ACAGTCCCTG AGGACTTGTT CTTTCTGGAA GAGGGTCCCT CATATGCCTT TGAGGTGGAC 
ACAGTAGCCC CAGAGCATGG CTTGGACAAT GCGCCTGTGG TGGACCAGCA GCTGCTCTAC 
ACCTGCTGCC CCTACATCGG AGAGCTCCGG AAACTGCTCG CTTCGTGGGT GTCAGGCAGT 
AGTGGACGGA GTGGGGGCTT CATGAGGAAA ATCACCCCCA CCACTACCAC CAGCCTGGGA 
GCCCAGCCTT CCCAGACCAG CCAGGGGCTG CAGGCACAGC TCGCCCAGGC CTTTTTCCAC 
AACCAGCCGC CCTCCTTGCG CCGGACCGTA GAGTTCGTGG CAGAAAGAAT TGGATCAAAC 
TGTGTCAAAC ATATCAAGGC TACACTGGTG GCAGATCTGG TGCGCCAGGC AGAGTCACTT 
CTCCAAGAGC AGCTGGTGAC ACAGGGAGAG GAAGGGGGAG ACCCAGCCCA GCTGTTGGAG 
ATCTTGTGTT CCCAGCTGTG CCCTCACGGG GCCCAGGCAT TGGCCCTGGG GCGGGAGTTC 
TGTCAAAGGA AGAGCCCTGG GGCTGTGCGG GCGCTGCTTC CAGAGGAGAC CCCGGCAGCC 
GTTCTGAGCA GTGCAGAGAA CATTGCTGTG GGGCTTGCAA CAGAGAAAGC CTGTGCTTGG 
CTGTCAGCCA ACATCACAGC ACTGATCAGG AGGGAGGTGA AAGCAGCAGT GAGTCGCACA 
CTTCGAGCCC AGGGTCCTGA ACCTGCTGCC CGGGGGGAGC GGAGGGGCTG CTCCCGCGCC 
TGTGAGCACC ATGCTCCCCT CCCCTCCCAC CTCATCTCCG AGATAAAAGA CGTGCTCTCC 
TTGGCCGTGG GGCCACGGGA CCCTGACGAG GGAGTCTCCC CAGAGCATCT GGAACAGCTC 
CTAGGCCAGC TGGGCCAGAC GCTGCGGTGC CGCCAGTTCC TGTGCCCACC TGCTGAGCAG 
CATCTGGCAA AGTGCTCTGT GGAGTTAGCT TCCCTCCTCG TTGCAGATCA AATTCCTATC 
CTAGGGCCCC CGGCACAGTA CAGGCTGGAG AGAGGGCAGG CTCGAAGGCT TCTGCACATG 
CTGCTTTCCT TGTGGAAGGA AGACTTTCAG GGGCCGGTTC CGCTGCAGCT GCTGCTGAGC 
CCAAGAAATG TGGGGCTTCT GGCAGACACA AGGCCAAGGG AGTGGGACTT GCTGCTATTC 
TTGCTACGGG AGCTGGTGGA GAAGGGTCTG ATGGGACGGA TGGAGATAGA GGCCTGCCTG 
GGCAGCCTCC ACCAGGCCCA GTGGCCAGGG GACTTTGCTG AAGAATTAGC AACACTGTCT 
AATCTGTTTC TAGCCGAGCC CCACCTGCCA GAACCCCAGC TAAGAGCCTG TGAGTTGGTG 
CAGCCAAACC GGGGCACTGT GCTGGCCCAG AGCTAG

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

CDAN1 ( XM_005254176.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_005254233.1 Homo sapiens codanin 1 (CDAN1), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu48129
Clone ID Related Accession (Same CDS sequence)	XM_005254176.4 , XM_005254176.5
Accession Version	XM_005254176.4	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3687bp) 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	codanin-1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005254176.3. ##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##

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GATAACGCTG GGGAGGCGGC CGCGCTGAGC 
TCACTCCGGG CCCTGCGGAA AGAATTCGTA CCGTTCCTGT TGAACTTCCT GAGGGAGCAG 
AGCAGCCGCG TCCTCCCGCA GGGGCCCCCG ACCCCCGCCA AGACCCCGGG CGCCTCGGCA 
GCCTTGCCAG GGAGGCCGGG AGGCCCGCCG CGGGGTAGCC GCGGGGCGCG CAGCCAGCTT 
TTCCCTCCGA CCGAGGCCCA GAGCACCGCT GCCGAGGCCC CTCTGGCCCG CCGCGGGGGC 
AGGAGGCGGG GCCCGGGGCC GGCCCGCGAG CGTGGAGGCC GCGGCCTGGA GGAGGGGGTC 
AGCGGGGAGA GCCTGCCCGG AGCCGGGGGC CGGAGGCTTA GGGGCTCTGG CAGCCCCAGC 
CGCCCCAGCC TCACGCTGTC TGATCCGCCA AACCTCAGCA ACCTGGAGGA GTTCCCTCCC 
GTAGGCTCGG TTCCCCCCGG CCCTACAGGC AGGACGAAGC CTTCTCGCAG GATCAACCCA 
ACTCCGGTGA GCGAAGAGCG GTCACTCTCC AAGCCCAAGA CCTGCTTCAC CTCACCCCCA 
ATCAGCTGTG TCCCCAGTTC CCAACCCTCA GCCCTGGACA CTAGCCCTTG GGGCCTTGGC 
CTTCCCCCAG GGTGCAGAAG TCTGCAAGAG GAGCGAGAGA TGCTCAGGAA GGAGCGCTCT 
AAGCAGCTGC AGCAGTCACC TACCCCCACC TGTCCCACCC CAGAATTGGG GTCGCCCCTC 
CCCAGCCGGA CAGGAAGCCT CACAGATGAA CCTGCAGACC CTGCCAGAGT GTCTTCCCGC 
CAGCGCCTGG AGCTTGTAGC CCTTGTTTAC TCCTCGTGCA TTGCTGAGAA CCTGGTACCA 
AACCTCTTCT TGGAGCTTTT CTTCGTCTTT CAGCTCCTCA CTGCCCGGAG GATGGTGACT 
GCCAAGGACA GCGACCCTGA ACTAAGTCCA GCTGTCCTAG ATTCCCTGGA AAGTCCACTG 
TTCCAAAGCA TCCACGATTG TGTCTTCTTT GCAGTGCAGG TTTTGGAGTG TCACTTTCAG 
GTTCTTTCCA ACCTGGACAA AGGGACCTTG AAGCTGCTGG CTGAGAATGA GCGGCTGCTG 
TGCTTCTCAC CAGCTCTGCA AGGCCGCCTT CGAGCTGCCT ATGAGGGCAG TGTTGCCAAG 
GTCTCTCTGG TGATGCCTCC CTCTACTCAA GCTGTCTCCT TTCAGCCAGA GACTGACAAT 
CGTGCCAACT TCTCCAGTGA CCGAGCCTTT CATACTTTTA AGAAACAGAG GGATGTGTTT 
TATGAGGTGC TGCGAGAGTG GGAAGATCAC CATGAGGAGC CTGGCTGGGA TTTTGAGAAG 
GGCTTGGGCA GCAGAATCAG GGCCATGATG GGTCAGCTCT CCGCAGCCTG CAGCCACAGC 
CACTTTGTTC GGCTTTTCCA AAAACAACTA CTCCAGATGT GTCAGAGCCC TGGTGGTGCT 
GGGGGCACCG TCTTGGGCGA GGCCCCAGAT GTGTTGAGTA TGCTGGGAGC TGACAAGCTG 
GGGCGGTTGT GGCGCCTACA GGAACGGCTT ATGGCTCCTC AGAGCAGTGG GGGGCCCTGC 
CCACCCCCCA CCTTCCCAGG CTGTCAAGGC TTCTTTAGGG ACTTCATCCT TAGTGCCAGC 
AGCTTCCAGT TTAACCAGCA TCTCATGGAC AGTCTGAGCT TGAAGATCCA GGAGCTCAAT 
GGTCTTGCCC TGCCCCAGCA TGAGCCCAAT GATGAAGACG GGGAGTCAGA CGTAGACTGG 
CAGGGTGAGC GGAAGCAATT TGCTGTGGTG CTTCTTAGCC TGAGACTTTT GGCTAAATTC 
CTGGGCTTTG TGGCTTTCCT GCCATACCGG GGGCCTGAAC CTCCCCCGAC CGGTGAGCTT 
CAGGACTCCA TTCTGGCCCT CAGGAGCCAG GTCCCTCCGG TCCTGGATGT GCGGACTCTG 
CTGCAGCGAG GGCTGCAGGC CCGCCGGGCG GTGCTCACCG TGCCCTGGCT GGTGGAGTTT 
CTCTCCTTTG CTGACCATGT TGTTCCCTTG CTGGAATATT ACCGGGACAT CTTCACTCTC 
CTGCTGCGCC TGCACCGGAG CTTGGTGTTG TCGCAGGAGA GTGAGGGGAA GATGTGTTTC 
CTGAACAAGC TGCTGCTACT TGCTGTCCTG GGCTGGCTTT TCCAGATTCC CACAGTCCCT 
GAGGACTTGT TCTTTCTGGA AGAGGGTCCC TCATATGCCT TTGAGGTGGA CACAGTAGCC 
CCAGAGCATG GCTTGGACAA TGCGCCTGTG GTGGACCAGC AGCTGCTCTA CACCTGCTGC 
CCCTACATCG GAGAGCTCCG GAAACTGCTC GCTTCGTGGG TGTCAGGCAG TAGTGGACGG 
AGTGGGGGCT TCATGAGGAA AATCACCCCC ACCACTACCA CCAGCCTGGG AGCCCAGCCT 
TCCCAGACCA GCCAGGGGCT GCAGGCACAG CTCGCCCAGG CCTTTTTCCA CAACCAGCCG 
CCCTCCTTGC GCCGGACCGT AGAGTTCGTG GCAGAAAGAA TTGGATCAAA CTGTGTCAAA 
CATATCAAGG CTACACTGGT GGCAGATCTG GTGCGCCAGG CAGAGTCACT TCTCCAAGAG 
CAGCTGGTGA CACAGGGAGA GGAAGGGGGA GACCCAGCCC AGCTGTTGGA GATCTTGTGT 
TCCCAGCTGT GCCCTCACGG GGCCCAGGCA TTGGCCCTGG GGCGGGAGTT CTGTCAAAGG 
AAGAGCCCTG GGGCTGTGCG GGCGCTGCTT CCAGAGGAGA CCCCGGCAGC CGTTCTGAGC 
AGTGCAGAGA ACATTGCTGT GGGGCTTGCA ACAGAGAAAG CCTGTGCTTG GCTGTCAGCC 
AACATCACAG CACTGATCAG GAGGGAGGTG AAAGCAGCAG TGAGTCGCAC ACTTCGAGCC 
CAGGGTCCTG AACCTGCTGC CCGGGGGGAG CGGAGGGGCT GCTCCCGCGC CTGTGAGCAC 
CATGCTCCCC TCCCCTCCCA CCTCATCTCC GAGATAAAAG ACGTGCTCTC CTTGGCCGTG 
GGGCCACGGG ACCCTGACGA GGGAGTCTCC CCAGAGCATC TGGAACAGCT CCTAGGCCAG 
CTGGGCCAGA CGCTGCGGTG CCGCCAGTTC CTGTGCCCAC CTGCTGAGCA GCATCTGGCA 
AAGTGCTCTG TGGAGTTAGC TTCCCTCCTC GTTGCAGATC AAATTCCTAT CCTAGGGCCC 
CCGGCACAGT ACAGGCTGGA GAGAGGGCAG GCTCGAAGGC TTCTGCACAT GCTGCTTTCC 
TTGTGGAAGG AAGACTTTCA GGGGCCGGTT CCGCTGCAGC TGCTGCTGAG CCCAAGAAAT 
GTGGGGCTTC TGGCAGACAC AAGGCCAAGG GAGTGGGACT TGCTGCTATT CTTGCTACGG 
GAGCTGGTGG AGAAGGGTCT GATGGGACGG ATGGAGATAG AGGCCTGCCT GGGCAGCCTC 
CACCAGGCCC AGTGGCCAGG GGACTTTGCT GAAGAATTAG CAACACTGTC TAATCTGTTT 
CTAGCCGAGC CCCACCTGCC AGAACCCCAG CTAAGAGCCT GTGAGTTGGT GCAGCCAAAC 
CGGGGCACTG TGCTGGCCCA GAGCTAG

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

RefSeq	XP_005254233.1
CDS	30..3716
Translation	MAAVLESLLREEVSVAAVVRWIARSTQGSEDNAGEAAALSSLRALRKEFVPFLLNFLREQSSRVLPQGPPTPAKTPGASAALPGRPGGPPRGSRGARSQLFPPTEAQSTAAEAPLARRGGRRRGPGPARERGGRGLEEGVSGESLPGAGGRRLRGSGSPSRPSLTLSDPPNLSNLEEFPPVGSVPPGPTGRTKPSRRINPTPVSEERSLSKPKTCFTSPPISCVPSSQPSALDTSPWGLGLPPGCRSLQEEREMLRKERSKQLQQSPTPTCPTPELGSPLPSRTGSLTDEPADPARVSSRQRLELVALVYSSCIAENLVPNLFLELFFVFQLLTARRMVTAKDSDPELSPAVLDSLESPLFQSIHDCVFFAVQVLECHFQVLSNLDKGTLKLLAENERLLCFSPALQGRLRAAYEGSVAKVSLVMPPSTQAVSFQPETDNRANFSSDRAFHTFKKQRDVFYEVLREWEDHHEEPGWDFEKGLGSRIRAMMGQLSAACSHSHFVRLFQKQLLQMCQSPGGAGGTVLGEAPDVLSMLGADKLGRLWRLQERLMAPQSSGGPCPPPTFPGCQGFFRDFILSASSFQFNQHLMDSLSLKIQELNGLALPQHEPNDEDGESDVDWQGERKQFAVVLLSLRLLAKFLGFVAFLPYRGPEPPPTGELQDSILALRSQVPPVLDVRTLLQRGLQARRAVLTVPWLVEFLSFADHVVPLLEYYRDIFTLLLRLHRSLVLSQESEGKMCFLNKLLLLAVLGWLFQIPTVPEDLFFLEEGPSYAFEVDTVAPEHGLDNAPVVDQQLLYTCCPYIGELRKLLASWVSGSSGRSGGFMRKITPTTTTSLGAQPSQTSQGLQAQLAQAFFHNQPPSLRRTVEFVAERIGSNCVKHIKATLVADLVRQAESLLQEQLVTQGEEGGDPAQLLEILCSQLCPHGAQALALGREFCQRKSPGAVRALLPEETPAAVLSSAENIAVGLATEKACAWLSANITALIRREVKAAVSRTLRAQGPEPAARGERRGCSRACEHHAPLPSHLISEIKDVLSLAVGPRDPDEGVSPEHLEQLLGQLGQTLRCRQFLCPPAEQHLAKCSVELASLLVADQIPILGPPAQYRLERGQARRLLHMLLSLWKEDFQGPVPLQLLLSPRNVGLLADTRPREWDLLLFLLRELVEKGLMGRMEIEACLGSLHQAQWPGDFAEELATLSNLFLAEPHLPEPQLRACELVQPNRGTVLAQS

Target ORF information:

RefSeq Version	XM_005254176.4
Organism	Homo sapiens(human)
Definition	Homo sapiens codanin 1 (CDAN1), transcript variant X3, mRNA.

Target ORF information:

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

XM_005254176.4

ORF Insert Sequence:

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GATAACGCTG GGGAGGCGGC CGCGCTGAGC 
TCACTCCGGG CCCTGCGGAA AGAATTCGTA CCGTTCCTGT TGAACTTCCT GAGGGAGCAG 
AGCAGCCGCG TCCTCCCGCA GGGGCCCCCG ACCCCCGCCA AGACCCCGGG CGCCTCGGCA 
GCCTTGCCAG GGAGGCCGGG AGGCCCGCCG CGGGGTAGCC GCGGGGCGCG CAGCCAGCTT 
TTCCCTCCGA CCGAGGCCCA GAGCACCGCT GCCGAGGCCC CTCTGGCCCG CCGCGGGGGC 
AGGAGGCGGG GCCCGGGGCC GGCCCGCGAG CGTGGAGGCC GCGGCCTGGA GGAGGGGGTC 
AGCGGGGAGA GCCTGCCCGG AGCCGGGGGC CGGAGGCTTA GGGGCTCTGG CAGCCCCAGC 
CGCCCCAGCC TCACGCTGTC TGATCCGCCA AACCTCAGCA ACCTGGAGGA GTTCCCTCCC 
GTAGGCTCGG TTCCCCCCGG CCCTACAGGC AGGACGAAGC CTTCTCGCAG GATCAACCCA 
ACTCCGGTGA GCGAAGAGCG GTCACTCTCC AAGCCCAAGA CCTGCTTCAC CTCACCCCCA 
ATCAGCTGTG TCCCCAGTTC CCAACCCTCA GCCCTGGACA CTAGCCCTTG GGGCCTTGGC 
CTTCCCCCAG GGTGCAGAAG TCTGCAAGAG GAGCGAGAGA TGCTCAGGAA GGAGCGCTCT 
AAGCAGCTGC AGCAGTCACC TACCCCCACC TGTCCCACCC CAGAATTGGG GTCGCCCCTC 
CCCAGCCGGA CAGGAAGCCT CACAGATGAA CCTGCAGACC CTGCCAGAGT GTCTTCCCGC 
CAGCGCCTGG AGCTTGTAGC CCTTGTTTAC TCCTCGTGCA TTGCTGAGAA CCTGGTACCA 
AACCTCTTCT TGGAGCTTTT CTTCGTCTTT CAGCTCCTCA CTGCCCGGAG GATGGTGACT 
GCCAAGGACA GCGACCCTGA ACTAAGTCCA GCTGTCCTAG ATTCCCTGGA AAGTCCACTG 
TTCCAAAGCA TCCACGATTG TGTCTTCTTT GCAGTGCAGG TTTTGGAGTG TCACTTTCAG 
GTTCTTTCCA ACCTGGACAA AGGGACCTTG AAGCTGCTGG CTGAGAATGA GCGGCTGCTG 
TGCTTCTCAC CAGCTCTGCA AGGCCGCCTT CGAGCTGCCT ATGAGGGCAG TGTTGCCAAG 
GTCTCTCTGG TGATGCCTCC CTCTACTCAA GCTGTCTCCT TTCAGCCAGA GACTGACAAT 
CGTGCCAACT TCTCCAGTGA CCGAGCCTTT CATACTTTTA AGAAACAGAG GGATGTGTTT 
TATGAGGTGC TGCGAGAGTG GGAAGATCAC CATGAGGAGC CTGGCTGGGA TTTTGAGAAG 
GGCTTGGGCA GCAGAATCAG GGCCATGATG GGTCAGCTCT CCGCAGCCTG CAGCCACAGC 
CACTTTGTTC GGCTTTTCCA AAAACAACTA CTCCAGATGT GTCAGAGCCC TGGTGGTGCT 
GGGGGCACCG TCTTGGGCGA GGCCCCAGAT GTGTTGAGTA TGCTGGGAGC TGACAAGCTG 
GGGCGGTTGT GGCGCCTACA GGAACGGCTT ATGGCTCCTC AGAGCAGTGG GGGGCCCTGC 
CCACCCCCCA CCTTCCCAGG CTGTCAAGGC TTCTTTAGGG ACTTCATCCT TAGTGCCAGC 
AGCTTCCAGT TTAACCAGCA TCTCATGGAC AGTCTGAGCT TGAAGATCCA GGAGCTCAAT 
GGTCTTGCCC TGCCCCAGCA TGAGCCCAAT GATGAAGACG GGGAGTCAGA CGTAGACTGG 
CAGGGTGAGC GGAAGCAATT TGCTGTGGTG CTTCTTAGCC TGAGACTTTT GGCTAAATTC 
CTGGGCTTTG TGGCTTTCCT GCCATACCGG GGGCCTGAAC CTCCCCCGAC CGGTGAGCTT 
CAGGACTCCA TTCTGGCCCT CAGGAGCCAG GTCCCTCCGG TCCTGGATGT GCGGACTCTG 
CTGCAGCGAG GGCTGCAGGC CCGCCGGGCG GTGCTCACCG TGCCCTGGCT GGTGGAGTTT 
CTCTCCTTTG CTGACCATGT TGTTCCCTTG CTGGAATATT ACCGGGACAT CTTCACTCTC 
CTGCTGCGCC TGCACCGGAG CTTGGTGTTG TCGCAGGAGA GTGAGGGGAA GATGTGTTTC 
CTGAACAAGC TGCTGCTACT TGCTGTCCTG GGCTGGCTTT TCCAGATTCC CACAGTCCCT 
GAGGACTTGT TCTTTCTGGA AGAGGGTCCC TCATATGCCT TTGAGGTGGA CACAGTAGCC 
CCAGAGCATG GCTTGGACAA TGCGCCTGTG GTGGACCAGC AGCTGCTCTA CACCTGCTGC 
CCCTACATCG GAGAGCTCCG GAAACTGCTC GCTTCGTGGG TGTCAGGCAG TAGTGGACGG 
AGTGGGGGCT TCATGAGGAA AATCACCCCC ACCACTACCA CCAGCCTGGG AGCCCAGCCT 
TCCCAGACCA GCCAGGGGCT GCAGGCACAG CTCGCCCAGG CCTTTTTCCA CAACCAGCCG 
CCCTCCTTGC GCCGGACCGT AGAGTTCGTG GCAGAAAGAA TTGGATCAAA CTGTGTCAAA 
CATATCAAGG CTACACTGGT GGCAGATCTG GTGCGCCAGG CAGAGTCACT TCTCCAAGAG 
CAGCTGGTGA CACAGGGAGA GGAAGGGGGA GACCCAGCCC AGCTGTTGGA GATCTTGTGT 
TCCCAGCTGT GCCCTCACGG GGCCCAGGCA TTGGCCCTGG GGCGGGAGTT CTGTCAAAGG 
AAGAGCCCTG GGGCTGTGCG GGCGCTGCTT CCAGAGGAGA CCCCGGCAGC CGTTCTGAGC 
AGTGCAGAGA ACATTGCTGT GGGGCTTGCA ACAGAGAAAG CCTGTGCTTG GCTGTCAGCC 
AACATCACAG CACTGATCAG GAGGGAGGTG AAAGCAGCAG TGAGTCGCAC ACTTCGAGCC 
CAGGGTCCTG AACCTGCTGC CCGGGGGGAG CGGAGGGGCT GCTCCCGCGC CTGTGAGCAC 
CATGCTCCCC TCCCCTCCCA CCTCATCTCC GAGATAAAAG ACGTGCTCTC CTTGGCCGTG 
GGGCCACGGG ACCCTGACGA GGGAGTCTCC CCAGAGCATC TGGAACAGCT CCTAGGCCAG 
CTGGGCCAGA CGCTGCGGTG CCGCCAGTTC CTGTGCCCAC CTGCTGAGCA GCATCTGGCA 
AAGTGCTCTG TGGAGTTAGC TTCCCTCCTC GTTGCAGATC AAATTCCTAT CCTAGGGCCC 
CCGGCACAGT ACAGGCTGGA GAGAGGGCAG GCTCGAAGGC TTCTGCACAT GCTGCTTTCC 
TTGTGGAAGG AAGACTTTCA GGGGCCGGTT CCGCTGCAGC TGCTGCTGAG CCCAAGAAAT 
GTGGGGCTTC TGGCAGACAC AAGGCCAAGG GAGTGGGACT TGCTGCTATT CTTGCTACGG 
GAGCTGGTGG AGAAGGGTCT GATGGGACGG ATGGAGATAG AGGCCTGCCT GGGCAGCCTC 
CACCAGGCCC AGTGGCCAGG GGACTTTGCT GAAGAATTAG CAACACTGTC TAATCTGTTT 
CTAGCCGAGC CCCACCTGCC AGAACCCCAG CTAAGAGCCT GTGAGTTGGT GCAGCCAAAC 
CGGGGCACTG TGCTGGCCCA GAGCTAG

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

CDAN1 ( XM_005254176.5 ) cDNA ORF clone, Homo sapiens(human) -> XP_005254233.1 Homo sapiens codanin 1 (CDAN1), transcript variant X7, mRNA.

Price & Availability↑

CloneID	OHu48129
Clone ID Related Accession (Same CDS sequence)	XM_005254176.4 , XM_005254176.5
Accession Version	XM_005254176.5 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3687bp) 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	codanin-1 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005254176.4. ##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##

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GATAACGCTG GGGAGGCGGC CGCGCTGAGC 
TCACTCCGGG CCCTGCGGAA AGAATTCGTA CCGTTCCTGT TGAACTTCCT GAGGGAGCAG 
AGCAGCCGCG TCCTCCCGCA GGGGCCCCCG ACCCCCGCCA AGACCCCGGG CGCCTCGGCA 
GCCTTGCCAG GGAGGCCGGG AGGCCCGCCG CGGGGTAGCC GCGGGGCGCG CAGCCAGCTT 
TTCCCTCCGA CCGAGGCCCA GAGCACCGCT GCCGAGGCCC CTCTGGCCCG CCGCGGGGGC 
AGGAGGCGGG GCCCGGGGCC GGCCCGCGAG CGTGGAGGCC GCGGCCTGGA GGAGGGGGTC 
AGCGGGGAGA GCCTGCCCGG AGCCGGGGGC CGGAGGCTTA GGGGCTCTGG CAGCCCCAGC 
CGCCCCAGCC TCACGCTGTC TGATCCGCCA AACCTCAGCA ACCTGGAGGA GTTCCCTCCC 
GTAGGCTCGG TTCCCCCCGG CCCTACAGGC AGGACGAAGC CTTCTCGCAG GATCAACCCA 
ACTCCGGTGA GCGAAGAGCG GTCACTCTCC AAGCCCAAGA CCTGCTTCAC CTCACCCCCA 
ATCAGCTGTG TCCCCAGTTC CCAACCCTCA GCCCTGGACA CTAGCCCTTG GGGCCTTGGC 
CTTCCCCCAG GGTGCAGAAG TCTGCAAGAG GAGCGAGAGA TGCTCAGGAA GGAGCGCTCT 
AAGCAGCTGC AGCAGTCACC TACCCCCACC TGTCCCACCC CAGAATTGGG GTCGCCCCTC 
CCCAGCCGGA CAGGAAGCCT CACAGATGAA CCTGCAGACC CTGCCAGAGT GTCTTCCCGC 
CAGCGCCTGG AGCTTGTAGC CCTTGTTTAC TCCTCGTGCA TTGCTGAGAA CCTGGTACCA 
AACCTCTTCT TGGAGCTTTT CTTCGTCTTT CAGCTCCTCA CTGCCCGGAG GATGGTGACT 
GCCAAGGACA GCGACCCTGA ACTAAGTCCA GCTGTCCTAG ATTCCCTGGA AAGTCCACTG 
TTCCAAAGCA TCCACGATTG TGTCTTCTTT GCAGTGCAGG TTTTGGAGTG TCACTTTCAG 
GTTCTTTCCA ACCTGGACAA AGGGACCTTG AAGCTGCTGG CTGAGAATGA GCGGCTGCTG 
TGCTTCTCAC CAGCTCTGCA AGGCCGCCTT CGAGCTGCCT ATGAGGGCAG TGTTGCCAAG 
GTCTCTCTGG TGATGCCTCC CTCTACTCAA GCTGTCTCCT TTCAGCCAGA GACTGACAAT 
CGTGCCAACT TCTCCAGTGA CCGAGCCTTT CATACTTTTA AGAAACAGAG GGATGTGTTT 
TATGAGGTGC TGCGAGAGTG GGAAGATCAC CATGAGGAGC CTGGCTGGGA TTTTGAGAAG 
GGCTTGGGCA GCAGAATCAG GGCCATGATG GGTCAGCTCT CCGCAGCCTG CAGCCACAGC 
CACTTTGTTC GGCTTTTCCA AAAACAACTA CTCCAGATGT GTCAGAGCCC TGGTGGTGCT 
GGGGGCACCG TCTTGGGCGA GGCCCCAGAT GTGTTGAGTA TGCTGGGAGC TGACAAGCTG 
GGGCGGTTGT GGCGCCTACA GGAACGGCTT ATGGCTCCTC AGAGCAGTGG GGGGCCCTGC 
CCACCCCCCA CCTTCCCAGG CTGTCAAGGC TTCTTTAGGG ACTTCATCCT TAGTGCCAGC 
AGCTTCCAGT TTAACCAGCA TCTCATGGAC AGTCTGAGCT TGAAGATCCA GGAGCTCAAT 
GGTCTTGCCC TGCCCCAGCA TGAGCCCAAT GATGAAGACG GGGAGTCAGA CGTAGACTGG 
CAGGGTGAGC GGAAGCAATT TGCTGTGGTG CTTCTTAGCC TGAGACTTTT GGCTAAATTC 
CTGGGCTTTG TGGCTTTCCT GCCATACCGG GGGCCTGAAC CTCCCCCGAC CGGTGAGCTT 
CAGGACTCCA TTCTGGCCCT CAGGAGCCAG GTCCCTCCGG TCCTGGATGT GCGGACTCTG 
CTGCAGCGAG GGCTGCAGGC CCGCCGGGCG GTGCTCACCG TGCCCTGGCT GGTGGAGTTT 
CTCTCCTTTG CTGACCATGT TGTTCCCTTG CTGGAATATT ACCGGGACAT CTTCACTCTC 
CTGCTGCGCC TGCACCGGAG CTTGGTGTTG TCGCAGGAGA GTGAGGGGAA GATGTGTTTC 
CTGAACAAGC TGCTGCTACT TGCTGTCCTG GGCTGGCTTT TCCAGATTCC CACAGTCCCT 
GAGGACTTGT TCTTTCTGGA AGAGGGTCCC TCATATGCCT TTGAGGTGGA CACAGTAGCC 
CCAGAGCATG GCTTGGACAA TGCGCCTGTG GTGGACCAGC AGCTGCTCTA CACCTGCTGC 
CCCTACATCG GAGAGCTCCG GAAACTGCTC GCTTCGTGGG TGTCAGGCAG TAGTGGACGG 
AGTGGGGGCT TCATGAGGAA AATCACCCCC ACCACTACCA CCAGCCTGGG AGCCCAGCCT 
TCCCAGACCA GCCAGGGGCT GCAGGCACAG CTCGCCCAGG CCTTTTTCCA CAACCAGCCG 
CCCTCCTTGC GCCGGACCGT AGAGTTCGTG GCAGAAAGAA TTGGATCAAA CTGTGTCAAA 
CATATCAAGG CTACACTGGT GGCAGATCTG GTGCGCCAGG CAGAGTCACT TCTCCAAGAG 
CAGCTGGTGA CACAGGGAGA GGAAGGGGGA GACCCAGCCC AGCTGTTGGA GATCTTGTGT 
TCCCAGCTGT GCCCTCACGG GGCCCAGGCA TTGGCCCTGG GGCGGGAGTT CTGTCAAAGG 
AAGAGCCCTG GGGCTGTGCG GGCGCTGCTT CCAGAGGAGA CCCCGGCAGC CGTTCTGAGC 
AGTGCAGAGA ACATTGCTGT GGGGCTTGCA ACAGAGAAAG CCTGTGCTTG GCTGTCAGCC 
AACATCACAG CACTGATCAG GAGGGAGGTG AAAGCAGCAG TGAGTCGCAC ACTTCGAGCC 
CAGGGTCCTG AACCTGCTGC CCGGGGGGAG CGGAGGGGCT GCTCCCGCGC CTGTGAGCAC 
CATGCTCCCC TCCCCTCCCA CCTCATCTCC GAGATAAAAG ACGTGCTCTC CTTGGCCGTG 
GGGCCACGGG ACCCTGACGA GGGAGTCTCC CCAGAGCATC TGGAACAGCT CCTAGGCCAG 
CTGGGCCAGA CGCTGCGGTG CCGCCAGTTC CTGTGCCCAC CTGCTGAGCA GCATCTGGCA 
AAGTGCTCTG TGGAGTTAGC TTCCCTCCTC GTTGCAGATC AAATTCCTAT CCTAGGGCCC 
CCGGCACAGT ACAGGCTGGA GAGAGGGCAG GCTCGAAGGC TTCTGCACAT GCTGCTTTCC 
TTGTGGAAGG AAGACTTTCA GGGGCCGGTT CCGCTGCAGC TGCTGCTGAG CCCAAGAAAT 
GTGGGGCTTC TGGCAGACAC AAGGCCAAGG GAGTGGGACT TGCTGCTATT CTTGCTACGG 
GAGCTGGTGG AGAAGGGTCT GATGGGACGG ATGGAGATAG AGGCCTGCCT GGGCAGCCTC 
CACCAGGCCC AGTGGCCAGG GGACTTTGCT GAAGAATTAG CAACACTGTC TAATCTGTTT 
CTAGCCGAGC CCCACCTGCC AGAACCCCAG CTAAGAGCCT GTGAGTTGGT GCAGCCAAAC 
CGGGGCACTG TGCTGGCCCA GAGCTAG

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

RefSeq	XP_005254233.1
CDS	30..3716
Translation	MAAVLESLLREEVSVAAVVRWIARSTQGSEDNAGEAAALSSLRALRKEFVPFLLNFLREQSSRVLPQGPPTPAKTPGASAALPGRPGGPPRGSRGARSQLFPPTEAQSTAAEAPLARRGGRRRGPGPARERGGRGLEEGVSGESLPGAGGRRLRGSGSPSRPSLTLSDPPNLSNLEEFPPVGSVPPGPTGRTKPSRRINPTPVSEERSLSKPKTCFTSPPISCVPSSQPSALDTSPWGLGLPPGCRSLQEEREMLRKERSKQLQQSPTPTCPTPELGSPLPSRTGSLTDEPADPARVSSRQRLELVALVYSSCIAENLVPNLFLELFFVFQLLTARRMVTAKDSDPELSPAVLDSLESPLFQSIHDCVFFAVQVLECHFQVLSNLDKGTLKLLAENERLLCFSPALQGRLRAAYEGSVAKVSLVMPPSTQAVSFQPETDNRANFSSDRAFHTFKKQRDVFYEVLREWEDHHEEPGWDFEKGLGSRIRAMMGQLSAACSHSHFVRLFQKQLLQMCQSPGGAGGTVLGEAPDVLSMLGADKLGRLWRLQERLMAPQSSGGPCPPPTFPGCQGFFRDFILSASSFQFNQHLMDSLSLKIQELNGLALPQHEPNDEDGESDVDWQGERKQFAVVLLSLRLLAKFLGFVAFLPYRGPEPPPTGELQDSILALRSQVPPVLDVRTLLQRGLQARRAVLTVPWLVEFLSFADHVVPLLEYYRDIFTLLLRLHRSLVLSQESEGKMCFLNKLLLLAVLGWLFQIPTVPEDLFFLEEGPSYAFEVDTVAPEHGLDNAPVVDQQLLYTCCPYIGELRKLLASWVSGSSGRSGGFMRKITPTTTTSLGAQPSQTSQGLQAQLAQAFFHNQPPSLRRTVEFVAERIGSNCVKHIKATLVADLVRQAESLLQEQLVTQGEEGGDPAQLLEILCSQLCPHGAQALALGREFCQRKSPGAVRALLPEETPAAVLSSAENIAVGLATEKACAWLSANITALIRREVKAAVSRTLRAQGPEPAARGERRGCSRACEHHAPLPSHLISEIKDVLSLAVGPRDPDEGVSPEHLEQLLGQLGQTLRCRQFLCPPAEQHLAKCSVELASLLVADQIPILGPPAQYRLERGQARRLLHMLLSLWKEDFQGPVPLQLLLSPRNVGLLADTRPREWDLLLFLLRELVEKGLMGRMEIEACLGSLHQAQWPGDFAEELATLSNLFLAEPHLPEPQLRACELVQPNRGTVLAQS

Target ORF information:

RefSeq Version	XM_005254176.5
Organism	Homo sapiens(human)
Definition	Homo sapiens codanin 1 (CDAN1), transcript variant X7, mRNA.

Target ORF information:

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

XM_005254176.5

ORF Insert Sequence:

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GATAACGCTG GGGAGGCGGC CGCGCTGAGC 
TCACTCCGGG CCCTGCGGAA AGAATTCGTA CCGTTCCTGT TGAACTTCCT GAGGGAGCAG 
AGCAGCCGCG TCCTCCCGCA GGGGCCCCCG ACCCCCGCCA AGACCCCGGG CGCCTCGGCA 
GCCTTGCCAG GGAGGCCGGG AGGCCCGCCG CGGGGTAGCC GCGGGGCGCG CAGCCAGCTT 
TTCCCTCCGA CCGAGGCCCA GAGCACCGCT GCCGAGGCCC CTCTGGCCCG CCGCGGGGGC 
AGGAGGCGGG GCCCGGGGCC GGCCCGCGAG CGTGGAGGCC GCGGCCTGGA GGAGGGGGTC 
AGCGGGGAGA GCCTGCCCGG AGCCGGGGGC CGGAGGCTTA GGGGCTCTGG CAGCCCCAGC 
CGCCCCAGCC TCACGCTGTC TGATCCGCCA AACCTCAGCA ACCTGGAGGA GTTCCCTCCC 
GTAGGCTCGG TTCCCCCCGG CCCTACAGGC AGGACGAAGC CTTCTCGCAG GATCAACCCA 
ACTCCGGTGA GCGAAGAGCG GTCACTCTCC AAGCCCAAGA CCTGCTTCAC CTCACCCCCA 
ATCAGCTGTG TCCCCAGTTC CCAACCCTCA GCCCTGGACA CTAGCCCTTG GGGCCTTGGC 
CTTCCCCCAG GGTGCAGAAG TCTGCAAGAG GAGCGAGAGA TGCTCAGGAA GGAGCGCTCT 
AAGCAGCTGC AGCAGTCACC TACCCCCACC TGTCCCACCC CAGAATTGGG GTCGCCCCTC 
CCCAGCCGGA CAGGAAGCCT CACAGATGAA CCTGCAGACC CTGCCAGAGT GTCTTCCCGC 
CAGCGCCTGG AGCTTGTAGC CCTTGTTTAC TCCTCGTGCA TTGCTGAGAA CCTGGTACCA 
AACCTCTTCT TGGAGCTTTT CTTCGTCTTT CAGCTCCTCA CTGCCCGGAG GATGGTGACT 
GCCAAGGACA GCGACCCTGA ACTAAGTCCA GCTGTCCTAG ATTCCCTGGA AAGTCCACTG 
TTCCAAAGCA TCCACGATTG TGTCTTCTTT GCAGTGCAGG TTTTGGAGTG TCACTTTCAG 
GTTCTTTCCA ACCTGGACAA AGGGACCTTG AAGCTGCTGG CTGAGAATGA GCGGCTGCTG 
TGCTTCTCAC CAGCTCTGCA AGGCCGCCTT CGAGCTGCCT ATGAGGGCAG TGTTGCCAAG 
GTCTCTCTGG TGATGCCTCC CTCTACTCAA GCTGTCTCCT TTCAGCCAGA GACTGACAAT 
CGTGCCAACT TCTCCAGTGA CCGAGCCTTT CATACTTTTA AGAAACAGAG GGATGTGTTT 
TATGAGGTGC TGCGAGAGTG GGAAGATCAC CATGAGGAGC CTGGCTGGGA TTTTGAGAAG 
GGCTTGGGCA GCAGAATCAG GGCCATGATG GGTCAGCTCT CCGCAGCCTG CAGCCACAGC 
CACTTTGTTC GGCTTTTCCA AAAACAACTA CTCCAGATGT GTCAGAGCCC TGGTGGTGCT 
GGGGGCACCG TCTTGGGCGA GGCCCCAGAT GTGTTGAGTA TGCTGGGAGC TGACAAGCTG 
GGGCGGTTGT GGCGCCTACA GGAACGGCTT ATGGCTCCTC AGAGCAGTGG GGGGCCCTGC 
CCACCCCCCA CCTTCCCAGG CTGTCAAGGC TTCTTTAGGG ACTTCATCCT TAGTGCCAGC 
AGCTTCCAGT TTAACCAGCA TCTCATGGAC AGTCTGAGCT TGAAGATCCA GGAGCTCAAT 
GGTCTTGCCC TGCCCCAGCA TGAGCCCAAT GATGAAGACG GGGAGTCAGA CGTAGACTGG 
CAGGGTGAGC GGAAGCAATT TGCTGTGGTG CTTCTTAGCC TGAGACTTTT GGCTAAATTC 
CTGGGCTTTG TGGCTTTCCT GCCATACCGG GGGCCTGAAC CTCCCCCGAC CGGTGAGCTT 
CAGGACTCCA TTCTGGCCCT CAGGAGCCAG GTCCCTCCGG TCCTGGATGT GCGGACTCTG 
CTGCAGCGAG GGCTGCAGGC CCGCCGGGCG GTGCTCACCG TGCCCTGGCT GGTGGAGTTT 
CTCTCCTTTG CTGACCATGT TGTTCCCTTG CTGGAATATT ACCGGGACAT CTTCACTCTC 
CTGCTGCGCC TGCACCGGAG CTTGGTGTTG TCGCAGGAGA GTGAGGGGAA GATGTGTTTC 
CTGAACAAGC TGCTGCTACT TGCTGTCCTG GGCTGGCTTT TCCAGATTCC CACAGTCCCT 
GAGGACTTGT TCTTTCTGGA AGAGGGTCCC TCATATGCCT TTGAGGTGGA CACAGTAGCC 
CCAGAGCATG GCTTGGACAA TGCGCCTGTG GTGGACCAGC AGCTGCTCTA CACCTGCTGC 
CCCTACATCG GAGAGCTCCG GAAACTGCTC GCTTCGTGGG TGTCAGGCAG TAGTGGACGG 
AGTGGGGGCT TCATGAGGAA AATCACCCCC ACCACTACCA CCAGCCTGGG AGCCCAGCCT 
TCCCAGACCA GCCAGGGGCT GCAGGCACAG CTCGCCCAGG CCTTTTTCCA CAACCAGCCG 
CCCTCCTTGC GCCGGACCGT AGAGTTCGTG GCAGAAAGAA TTGGATCAAA CTGTGTCAAA 
CATATCAAGG CTACACTGGT GGCAGATCTG GTGCGCCAGG CAGAGTCACT TCTCCAAGAG 
CAGCTGGTGA CACAGGGAGA GGAAGGGGGA GACCCAGCCC AGCTGTTGGA GATCTTGTGT 
TCCCAGCTGT GCCCTCACGG GGCCCAGGCA TTGGCCCTGG GGCGGGAGTT CTGTCAAAGG 
AAGAGCCCTG GGGCTGTGCG GGCGCTGCTT CCAGAGGAGA CCCCGGCAGC CGTTCTGAGC 
AGTGCAGAGA ACATTGCTGT GGGGCTTGCA ACAGAGAAAG CCTGTGCTTG GCTGTCAGCC 
AACATCACAG CACTGATCAG GAGGGAGGTG AAAGCAGCAG TGAGTCGCAC ACTTCGAGCC 
CAGGGTCCTG AACCTGCTGC CCGGGGGGAG CGGAGGGGCT GCTCCCGCGC CTGTGAGCAC 
CATGCTCCCC TCCCCTCCCA CCTCATCTCC GAGATAAAAG ACGTGCTCTC CTTGGCCGTG 
GGGCCACGGG ACCCTGACGA GGGAGTCTCC CCAGAGCATC TGGAACAGCT CCTAGGCCAG 
CTGGGCCAGA CGCTGCGGTG CCGCCAGTTC CTGTGCCCAC CTGCTGAGCA GCATCTGGCA 
AAGTGCTCTG TGGAGTTAGC TTCCCTCCTC GTTGCAGATC AAATTCCTAT CCTAGGGCCC 
CCGGCACAGT ACAGGCTGGA GAGAGGGCAG GCTCGAAGGC TTCTGCACAT GCTGCTTTCC 
TTGTGGAAGG AAGACTTTCA GGGGCCGGTT CCGCTGCAGC TGCTGCTGAG CCCAAGAAAT 
GTGGGGCTTC TGGCAGACAC AAGGCCAAGG GAGTGGGACT TGCTGCTATT CTTGCTACGG 
GAGCTGGTGG AGAAGGGTCT GATGGGACGG ATGGAGATAG AGGCCTGCCT GGGCAGCCTC 
CACCAGGCCC AGTGGCCAGG GGACTTTGCT GAAGAATTAG CAACACTGTC TAATCTGTTT 
CTAGCCGAGC CCCACCTGCC AGAACCCCAG CTAAGAGCCT GTGAGTTGGT GCAGCCAAAC 
CGGGGCACTG TGCTGGCCCA GAGCTAG

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

CDAN1 ( XM_011521270.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011519572.1 Homo sapiens codanin 1 (CDAN1), transcript variant X1, mRNA.

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CloneID	OHu76193
Clone ID Related Accession (Same CDS sequence)	XM_011521270.2
Accession Version	XM_011521270.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3711bp) 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	codanin-1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011521270.1. ##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##

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GTAACAGCGG TGACACGCCC CCAGGATAAC 
GCTGGGGAGG CGGCCGCGCT GAGCTCACTC CGGGCCCTGC GGAAAGAATT CGTACCGTTC 
CTGTTGAACT TCCTGAGGGA GCAGAGCAGC CGCGTCCTCC CGCAGGGGCC CCCGACCCCC 
GCCAAGACCC CGGGCGCCTC GGCAGCCTTG CCAGGGAGGC CGGGAGGCCC GCCGCGGGGT 
AGCCGCGGGG CGCGCAGCCA GCTTTTCCCT CCGACCGAGG CCCAGAGCAC CGCTGCCGAG 
GCCCCTCTGG CCCGCCGCGG GGGCAGGAGG CGGGGCCCGG GGCCGGCCCG CGAGCGTGGA 
GGCCGCGGCC TGGAGGAGGG GGTCAGCGGG GAGAGCCTGC CCGGAGCCGG GGGCCGGAGG 
CTTAGGGGCT CTGGCAGCCC CAGCCGCCCC AGCCTCACGC TGTCTGATCC GCCAAACCTC 
AGCAACCTGG AGGAGTTCCC TCCCGTAGGC TCGGTTCCCC CCGGCCCTAC AGGCAGGACG 
AAGCCTTCTC GCAGGATCAA CCCAACTCCG GTGAGCGAAG AGCGGTCACT CTCCAAGCCC 
AAGACCTGCT TCACCTCACC CCCAATCAGC TGTGTCCCCA GTTCCCAACC CTCAGCCCTG 
GACACTAGCC CTTGGGGCCT TGGCCTTCCC CCAGGGTGCA GAAGTCTGCA AGAGGAGCGA 
GAGATGCTCA GGAAGGAGCG CTCTAAGCAG CTGCAGCAGT CACCTACCCC CACCTGTCCC 
ACCCCAGAAT TGGGGTCGCC CCTCCCCAGC CGGACAGGAA GCCTCACAGA TGAACCTGCA 
GACCCTGCCA GAGTGTCTTC CCGCCAGCGC CTGGAGCTTG TAGCCCTTGT TTACTCCTCG 
TGCATTGCTG AGAACCTGGT ACCAAACCTC TTCTTGGAGC TTTTCTTCGT CTTTCAGCTC 
CTCACTGCCC GGAGGATGGT GACTGCCAAG GACAGCGACC CTGAACTAAG TCCAGCTGTC 
CTAGATTCCC TGGAAAGTCC ACTGTTCCAA AGCATCCACG ATTGTGTCTT CTTTGCAGTG 
CAGGTTTTGG AGTGTCACTT TCAGGTTCTT TCCAACCTGG ACAAAGGGAC CTTGAAGCTG 
CTGGCTGAGA ATGAGCGGCT GCTGTGCTTC TCACCAGCTC TGCAAGGCCG CCTTCGAGCT 
GCCTATGAGG GCAGTGTTGC CAAGGTCTCT CTGGTGATGC CTCCCTCTAC TCAAGCTGTC 
TCCTTTCAGC CAGAGACTGA CAATCGTGCC AACTTCTCCA GTGACCGAGC CTTTCATACT 
TTTAAGAAAC AGAGGGATGT GTTTTATGAG GTGCTGCGAG AGTGGGAAGA TCACCATGAG 
GAGCCTGGCT GGGATTTTGA GAAGGGCTTG GGCAGCAGAA TCAGGGCCAT GATGGGTCAG 
CTCTCCGCAG CCTGCAGCCA CAGCCACTTT GTTCGGCTTT TCCAAAAACA ACTACTCCAG 
ATGTGTCAGA GCCCTGGTGG TGCTGGGGGC ACCGTCTTGG GCGAGGCCCC AGATGTGTTG 
AGTATGCTGG GAGCTGACAA GCTGGGGCGG TTGTGGCGCC TACAGGAACG GCTTATGGCT 
CCTCAGAGCA GTGGGGGGCC CTGCCCACCC CCCACCTTCC CAGGCTGTCA AGGCTTCTTT 
AGGGACTTCA TCCTTAGTGC CAGCAGCTTC CAGTTTAACC AGCATCTCAT GGACAGTCTG 
AGCTTGAAGA TCCAGGAGCT CAATGGTCTT GCCCTGCCCC AGCATGAGCC CAATGATGAA 
GACGGGGAGT CAGACGTAGA CTGGCAGGGT GAGCGGAAGC AATTTGCTGT GGTGCTTCTT 
AGCCTGAGAC TTTTGGCTAA ATTCCTGGGC TTTGTGGCTT TCCTGCCATA CCGGGGGCCT 
GAACCTCCCC CGACCGGTGA GCTTCAGGAC TCCATTCTGG CCCTCAGGAG CCAGGTCCCT 
CCGGTCCTGG ATGTGCGGAC TCTGCTGCAG CGAGGGCTGC AGGCCCGCCG GGCGGTGCTC 
ACCGTGCCCT GGCTGGTGGA GTTTCTCTCC TTTGCTGACC ATGTTGTTCC CTTGCTGGAA 
TATTACCGGG ACATCTTCAC TCTCCTGCTG CGCCTGCACC GGAGCTTGGT GTTGTCGCAG 
GAGAGTGAGG GGAAGATGTG TTTCCTGAAC AAGCTGCTGC TACTTGCTGT CCTGGGCTGG 
CTTTTCCAGA TTCCCACAGT CCCTGAGGAC TTGTTCTTTC TGGAAGAGGG TCCCTCATAT 
GCCTTTGAGG TGGACACAGT AGCCCCAGAG CATGGCTTGG ACAATGCGCC TGTGGTGGAC 
CAGCAGCTGC TCTACACCTG CTGCCCCTAC ATCGGAGAGC TCCGGAAACT GCTCGCTTCG 
TGGGTGTCAG GCAGTAGTGG ACGGAGTGGG GGCTTCATGA GGAAAATCAC CCCCACCACT 
ACCACCAGCC TGGGAGCCCA GCCTTCCCAG ACCAGCCAGG GGCTGCAGGC ACAGCTCGCC 
CAGGCCTTTT TCCACAACCA GCCGCCCTCC TTGCGCCGGA CCGTAGAGTT CGTGGCAGAA 
AGAATTGGAT CAAACTGTGT CAAACATATC AAGGCTACAC TGGTGGCAGA TCTGGTGCGC 
CAGGCAGAGT CACTTCTCCA AGAGCAGCTG GTGACACAGG GAGAGGAAGG GGGAGACCCA 
GCCCAGCTGT TGGAGATCTT GTGTTCCCAG CTGTGCCCTC ACGGGGCCCA GGCATTGGCC 
CTGGGGCGGG AGTTCTGTCA AAGGAAGAGC CCTGGGGCTG TGCGGGCGCT GCTTCCAGAG 
GAGACCCCGG CAGCCGTTCT GAGCAGTGCA GAGAACATTG CTGTGGGGCT TGCAACAGAG 
AAAGCCTGTG CTTGGCTGTC AGCCAACATC ACAGCACTGA TCAGGAGGGA GGTGAAAGCA 
GCAGTGAGTC GCACACTTCG AGCCCAGGGT CCTGAACCTG CTGCCCGGGG GGAGCGGAGG 
GGCTGCTCCC GCGCCTGTGA GCACCATGCT CCCCTCCCCT CCCACCTCAT CTCCGAGATA 
AAAGACGTGC TCTCCTTGGC CGTGGGGCCA CGGGACCCTG ACGAGGGAGT CTCCCCAGAG 
CATCTGGAAC AGCTCCTAGG CCAGCTGGGC CAGACGCTGC GGTGCCGCCA GTTCCTGTGC 
CCACCTGCTG AGCAGCATCT GGCAAAGTGC TCTGTGGAGT TAGCTTCCCT CCTCGTTGCA 
GATCAAATTC CTATCCTAGG GCCCCCGGCA CAGTACAGGC TGGAGAGAGG GCAGGCTCGA 
AGGCTTCTGC ACATGCTGCT TTCCTTGTGG AAGGAAGACT TTCAGGGGCC GGTTCCGCTG 
CAGCTGCTGC TGAGCCCAAG AAATGTGGGG CTTCTGGCAG ACACAAGGCC AAGGGAGTGG 
GACTTGCTGC TATTCTTGCT ACGGGAGCTG GTGGAGAAGG GTCTGATGGG ACGGATGGAG 
ATAGAGGCCT GCCTGGGCAG CCTCCACCAG GCCCAGTGGC CAGGGGACTT TGCTGAAGAA 
TTAGCAACAC TGTCTAATCT GTTTCTAGCC GAGCCCCACC TGCCAGAACC CCAGCTAAGA 
GCCTGTGAGT TGGTGCAGCC AAACCGGGGC ACTGTGCTGG CCCAGAGCTA G

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

RefSeq	XP_011519572.1
CDS	31..3741
Translation	MAAVLESLLREEVSVAAVVRWIARSTQGSEVTAVTRPQDNAGEAAALSSLRALRKEFVPFLLNFLREQSSRVLPQGPPTPAKTPGASAALPGRPGGPPRGSRGARSQLFPPTEAQSTAAEAPLARRGGRRRGPGPARERGGRGLEEGVSGESLPGAGGRRLRGSGSPSRPSLTLSDPPNLSNLEEFPPVGSVPPGPTGRTKPSRRINPTPVSEERSLSKPKTCFTSPPISCVPSSQPSALDTSPWGLGLPPGCRSLQEEREMLRKERSKQLQQSPTPTCPTPELGSPLPSRTGSLTDEPADPARVSSRQRLELVALVYSSCIAENLVPNLFLELFFVFQLLTARRMVTAKDSDPELSPAVLDSLESPLFQSIHDCVFFAVQVLECHFQVLSNLDKGTLKLLAENERLLCFSPALQGRLRAAYEGSVAKVSLVMPPSTQAVSFQPETDNRANFSSDRAFHTFKKQRDVFYEVLREWEDHHEEPGWDFEKGLGSRIRAMMGQLSAACSHSHFVRLFQKQLLQMCQSPGGAGGTVLGEAPDVLSMLGADKLGRLWRLQERLMAPQSSGGPCPPPTFPGCQGFFRDFILSASSFQFNQHLMDSLSLKIQELNGLALPQHEPNDEDGESDVDWQGERKQFAVVLLSLRLLAKFLGFVAFLPYRGPEPPPTGELQDSILALRSQVPPVLDVRTLLQRGLQARRAVLTVPWLVEFLSFADHVVPLLEYYRDIFTLLLRLHRSLVLSQESEGKMCFLNKLLLLAVLGWLFQIPTVPEDLFFLEEGPSYAFEVDTVAPEHGLDNAPVVDQQLLYTCCPYIGELRKLLASWVSGSSGRSGGFMRKITPTTTTSLGAQPSQTSQGLQAQLAQAFFHNQPPSLRRTVEFVAERIGSNCVKHIKATLVADLVRQAESLLQEQLVTQGEEGGDPAQLLEILCSQLCPHGAQALALGREFCQRKSPGAVRALLPEETPAAVLSSAENIAVGLATEKACAWLSANITALIRREVKAAVSRTLRAQGPEPAARGERRGCSRACEHHAPLPSHLISEIKDVLSLAVGPRDPDEGVSPEHLEQLLGQLGQTLRCRQFLCPPAEQHLAKCSVELASLLVADQIPILGPPAQYRLERGQARRLLHMLLSLWKEDFQGPVPLQLLLSPRNVGLLADTRPREWDLLLFLLRELVEKGLMGRMEIEACLGSLHQAQWPGDFAEELATLSNLFLAEPHLPEPQLRACELVQPNRGTVLAQS

Target ORF information:

RefSeq Version	XM_011521270.2
Organism	Homo sapiens(human)
Definition	Homo sapiens codanin 1 (CDAN1), transcript variant X1, mRNA.

Target ORF information:

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

XM_011521270.2

ORF Insert Sequence:

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GTAACAGCGG TGACACGCCC CCAGGATAAC 
GCTGGGGAGG CGGCCGCGCT GAGCTCACTC CGGGCCCTGC GGAAAGAATT CGTACCGTTC 
CTGTTGAACT TCCTGAGGGA GCAGAGCAGC CGCGTCCTCC CGCAGGGGCC CCCGACCCCC 
GCCAAGACCC CGGGCGCCTC GGCAGCCTTG CCAGGGAGGC CGGGAGGCCC GCCGCGGGGT 
AGCCGCGGGG CGCGCAGCCA GCTTTTCCCT CCGACCGAGG CCCAGAGCAC CGCTGCCGAG 
GCCCCTCTGG CCCGCCGCGG GGGCAGGAGG CGGGGCCCGG GGCCGGCCCG CGAGCGTGGA 
GGCCGCGGCC TGGAGGAGGG GGTCAGCGGG GAGAGCCTGC CCGGAGCCGG GGGCCGGAGG 
CTTAGGGGCT CTGGCAGCCC CAGCCGCCCC AGCCTCACGC TGTCTGATCC GCCAAACCTC 
AGCAACCTGG AGGAGTTCCC TCCCGTAGGC TCGGTTCCCC CCGGCCCTAC AGGCAGGACG 
AAGCCTTCTC GCAGGATCAA CCCAACTCCG GTGAGCGAAG AGCGGTCACT CTCCAAGCCC 
AAGACCTGCT TCACCTCACC CCCAATCAGC TGTGTCCCCA GTTCCCAACC CTCAGCCCTG 
GACACTAGCC CTTGGGGCCT TGGCCTTCCC CCAGGGTGCA GAAGTCTGCA AGAGGAGCGA 
GAGATGCTCA GGAAGGAGCG CTCTAAGCAG CTGCAGCAGT CACCTACCCC CACCTGTCCC 
ACCCCAGAAT TGGGGTCGCC CCTCCCCAGC CGGACAGGAA GCCTCACAGA TGAACCTGCA 
GACCCTGCCA GAGTGTCTTC CCGCCAGCGC CTGGAGCTTG TAGCCCTTGT TTACTCCTCG 
TGCATTGCTG AGAACCTGGT ACCAAACCTC TTCTTGGAGC TTTTCTTCGT CTTTCAGCTC 
CTCACTGCCC GGAGGATGGT GACTGCCAAG GACAGCGACC CTGAACTAAG TCCAGCTGTC 
CTAGATTCCC TGGAAAGTCC ACTGTTCCAA AGCATCCACG ATTGTGTCTT CTTTGCAGTG 
CAGGTTTTGG AGTGTCACTT TCAGGTTCTT TCCAACCTGG ACAAAGGGAC CTTGAAGCTG 
CTGGCTGAGA ATGAGCGGCT GCTGTGCTTC TCACCAGCTC TGCAAGGCCG CCTTCGAGCT 
GCCTATGAGG GCAGTGTTGC CAAGGTCTCT CTGGTGATGC CTCCCTCTAC TCAAGCTGTC 
TCCTTTCAGC CAGAGACTGA CAATCGTGCC AACTTCTCCA GTGACCGAGC CTTTCATACT 
TTTAAGAAAC AGAGGGATGT GTTTTATGAG GTGCTGCGAG AGTGGGAAGA TCACCATGAG 
GAGCCTGGCT GGGATTTTGA GAAGGGCTTG GGCAGCAGAA TCAGGGCCAT GATGGGTCAG 
CTCTCCGCAG CCTGCAGCCA CAGCCACTTT GTTCGGCTTT TCCAAAAACA ACTACTCCAG 
ATGTGTCAGA GCCCTGGTGG TGCTGGGGGC ACCGTCTTGG GCGAGGCCCC AGATGTGTTG 
AGTATGCTGG GAGCTGACAA GCTGGGGCGG TTGTGGCGCC TACAGGAACG GCTTATGGCT 
CCTCAGAGCA GTGGGGGGCC CTGCCCACCC CCCACCTTCC CAGGCTGTCA AGGCTTCTTT 
AGGGACTTCA TCCTTAGTGC CAGCAGCTTC CAGTTTAACC AGCATCTCAT GGACAGTCTG 
AGCTTGAAGA TCCAGGAGCT CAATGGTCTT GCCCTGCCCC AGCATGAGCC CAATGATGAA 
GACGGGGAGT CAGACGTAGA CTGGCAGGGT GAGCGGAAGC AATTTGCTGT GGTGCTTCTT 
AGCCTGAGAC TTTTGGCTAA ATTCCTGGGC TTTGTGGCTT TCCTGCCATA CCGGGGGCCT 
GAACCTCCCC CGACCGGTGA GCTTCAGGAC TCCATTCTGG CCCTCAGGAG CCAGGTCCCT 
CCGGTCCTGG ATGTGCGGAC TCTGCTGCAG CGAGGGCTGC AGGCCCGCCG GGCGGTGCTC 
ACCGTGCCCT GGCTGGTGGA GTTTCTCTCC TTTGCTGACC ATGTTGTTCC CTTGCTGGAA 
TATTACCGGG ACATCTTCAC TCTCCTGCTG CGCCTGCACC GGAGCTTGGT GTTGTCGCAG 
GAGAGTGAGG GGAAGATGTG TTTCCTGAAC AAGCTGCTGC TACTTGCTGT CCTGGGCTGG 
CTTTTCCAGA TTCCCACAGT CCCTGAGGAC TTGTTCTTTC TGGAAGAGGG TCCCTCATAT 
GCCTTTGAGG TGGACACAGT AGCCCCAGAG CATGGCTTGG ACAATGCGCC TGTGGTGGAC 
CAGCAGCTGC TCTACACCTG CTGCCCCTAC ATCGGAGAGC TCCGGAAACT GCTCGCTTCG 
TGGGTGTCAG GCAGTAGTGG ACGGAGTGGG GGCTTCATGA GGAAAATCAC CCCCACCACT 
ACCACCAGCC TGGGAGCCCA GCCTTCCCAG ACCAGCCAGG GGCTGCAGGC ACAGCTCGCC 
CAGGCCTTTT TCCACAACCA GCCGCCCTCC TTGCGCCGGA CCGTAGAGTT CGTGGCAGAA 
AGAATTGGAT CAAACTGTGT CAAACATATC AAGGCTACAC TGGTGGCAGA TCTGGTGCGC 
CAGGCAGAGT CACTTCTCCA AGAGCAGCTG GTGACACAGG GAGAGGAAGG GGGAGACCCA 
GCCCAGCTGT TGGAGATCTT GTGTTCCCAG CTGTGCCCTC ACGGGGCCCA GGCATTGGCC 
CTGGGGCGGG AGTTCTGTCA AAGGAAGAGC CCTGGGGCTG TGCGGGCGCT GCTTCCAGAG 
GAGACCCCGG CAGCCGTTCT GAGCAGTGCA GAGAACATTG CTGTGGGGCT TGCAACAGAG 
AAAGCCTGTG CTTGGCTGTC AGCCAACATC ACAGCACTGA TCAGGAGGGA GGTGAAAGCA 
GCAGTGAGTC GCACACTTCG AGCCCAGGGT CCTGAACCTG CTGCCCGGGG GGAGCGGAGG 
GGCTGCTCCC GCGCCTGTGA GCACCATGCT CCCCTCCCCT CCCACCTCAT CTCCGAGATA 
AAAGACGTGC TCTCCTTGGC CGTGGGGCCA CGGGACCCTG ACGAGGGAGT CTCCCCAGAG 
CATCTGGAAC AGCTCCTAGG CCAGCTGGGC CAGACGCTGC GGTGCCGCCA GTTCCTGTGC 
CCACCTGCTG AGCAGCATCT GGCAAAGTGC TCTGTGGAGT TAGCTTCCCT CCTCGTTGCA 
GATCAAATTC CTATCCTAGG GCCCCCGGCA CAGTACAGGC TGGAGAGAGG GCAGGCTCGA 
AGGCTTCTGC ACATGCTGCT TTCCTTGTGG AAGGAAGACT TTCAGGGGCC GGTTCCGCTG 
CAGCTGCTGC TGAGCCCAAG AAATGTGGGG CTTCTGGCAG ACACAAGGCC AAGGGAGTGG 
GACTTGCTGC TATTCTTGCT ACGGGAGCTG GTGGAGAAGG GTCTGATGGG ACGGATGGAG 
ATAGAGGCCT GCCTGGGCAG CCTCCACCAG GCCCAGTGGC CAGGGGACTT TGCTGAAGAA 
TTAGCAACAC TGTCTAATCT GTTTCTAGCC GAGCCCCACC TGCCAGAACC CCAGCTAAGA 
GCCTGTGAGT TGGTGCAGCC AAACCGGGGC ACTGTGCTGG CCCAGAGCTA G

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

CDAN1 ( XM_011521271.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011519573.1 Homo sapiens codanin 1 (CDAN1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu76194
Clone ID Related Accession (Same CDS sequence)	XM_011521271.2
Accession Version	XM_011521271.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3708bp) 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	codanin-1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011521271.1. ##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##

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GTAACAGCGG TGACACGCCC CCAGGATAAC 
GCTGGGGAGG CGGCCGCGCT GAGCTCACTC CGGGCCCTGC GGAAAGAATT CGTACCGTTC 
CTGTTGAACT TCCTGAGGGA GCAGAGCAGC CGCGTCCTCC CGCAGGGGCC CCCGACCCCC 
GCCAAGACCC CGGGCGCCTC GGCAGCCTTG CCAGGGAGGC CGGGAGGCCC GCCGCGGGGT 
AGCCGCGGGG CGCGCAGCCA GCTTTTCCCT CCGACCGAGG CCCAGAGCAC CGCTGCCGAG 
GCCCCTCTGG CCCGCCGCGG GGGCAGGAGG CGGGGCCCGG GGCCGGCCCG CGAGCGTGGA 
GGCCGCGGCC TGGAGGAGGG GGTCAGCGGG GAGAGCCTGC CCGGAGCCGG GGGCCGGAGG 
CTTAGGGGCT CTGGCAGCCC CAGCCGCCCC AGCCTCACGC TGTCTGATCC GCCAAACCTC 
AGCAACCTGG AGGAGTTCCC TCCCGTAGGC TCGGTTCCCC CCGGCCCTAC AGGGACGAAG 
CCTTCTCGCA GGATCAACCC AACTCCGGTG AGCGAAGAGC GGTCACTCTC CAAGCCCAAG 
ACCTGCTTCA CCTCACCCCC AATCAGCTGT GTCCCCAGTT CCCAACCCTC AGCCCTGGAC 
ACTAGCCCTT GGGGCCTTGG CCTTCCCCCA GGGTGCAGAA GTCTGCAAGA GGAGCGAGAG 
ATGCTCAGGA AGGAGCGCTC TAAGCAGCTG CAGCAGTCAC CTACCCCCAC CTGTCCCACC 
CCAGAATTGG GGTCGCCCCT CCCCAGCCGG ACAGGAAGCC TCACAGATGA ACCTGCAGAC 
CCTGCCAGAG TGTCTTCCCG CCAGCGCCTG GAGCTTGTAG CCCTTGTTTA CTCCTCGTGC 
ATTGCTGAGA ACCTGGTACC AAACCTCTTC TTGGAGCTTT TCTTCGTCTT TCAGCTCCTC 
ACTGCCCGGA GGATGGTGAC TGCCAAGGAC AGCGACCCTG AACTAAGTCC AGCTGTCCTA 
GATTCCCTGG AAAGTCCACT GTTCCAAAGC ATCCACGATT GTGTCTTCTT TGCAGTGCAG 
GTTTTGGAGT GTCACTTTCA GGTTCTTTCC AACCTGGACA AAGGGACCTT GAAGCTGCTG 
GCTGAGAATG AGCGGCTGCT GTGCTTCTCA CCAGCTCTGC AAGGCCGCCT TCGAGCTGCC 
TATGAGGGCA GTGTTGCCAA GGTCTCTCTG GTGATGCCTC CCTCTACTCA AGCTGTCTCC 
TTTCAGCCAG AGACTGACAA TCGTGCCAAC TTCTCCAGTG ACCGAGCCTT TCATACTTTT 
AAGAAACAGA GGGATGTGTT TTATGAGGTG CTGCGAGAGT GGGAAGATCA CCATGAGGAG 
CCTGGCTGGG ATTTTGAGAA GGGCTTGGGC AGCAGAATCA GGGCCATGAT GGGTCAGCTC 
TCCGCAGCCT GCAGCCACAG CCACTTTGTT CGGCTTTTCC AAAAACAACT ACTCCAGATG 
TGTCAGAGCC CTGGTGGTGC TGGGGGCACC GTCTTGGGCG AGGCCCCAGA TGTGTTGAGT 
ATGCTGGGAG CTGACAAGCT GGGGCGGTTG TGGCGCCTAC AGGAACGGCT TATGGCTCCT 
CAGAGCAGTG GGGGGCCCTG CCCACCCCCC ACCTTCCCAG GCTGTCAAGG CTTCTTTAGG 
GACTTCATCC TTAGTGCCAG CAGCTTCCAG TTTAACCAGC ATCTCATGGA CAGTCTGAGC 
TTGAAGATCC AGGAGCTCAA TGGTCTTGCC CTGCCCCAGC ATGAGCCCAA TGATGAAGAC 
GGGGAGTCAG ACGTAGACTG GCAGGGTGAG CGGAAGCAAT TTGCTGTGGT GCTTCTTAGC 
CTGAGACTTT TGGCTAAATT CCTGGGCTTT GTGGCTTTCC TGCCATACCG GGGGCCTGAA 
CCTCCCCCGA CCGGTGAGCT TCAGGACTCC ATTCTGGCCC TCAGGAGCCA GGTCCCTCCG 
GTCCTGGATG TGCGGACTCT GCTGCAGCGA GGGCTGCAGG CCCGCCGGGC GGTGCTCACC 
GTGCCCTGGC TGGTGGAGTT TCTCTCCTTT GCTGACCATG TTGTTCCCTT GCTGGAATAT 
TACCGGGACA TCTTCACTCT CCTGCTGCGC CTGCACCGGA GCTTGGTGTT GTCGCAGGAG 
AGTGAGGGGA AGATGTGTTT CCTGAACAAG CTGCTGCTAC TTGCTGTCCT GGGCTGGCTT 
TTCCAGATTC CCACAGTCCC TGAGGACTTG TTCTTTCTGG AAGAGGGTCC CTCATATGCC 
TTTGAGGTGG ACACAGTAGC CCCAGAGCAT GGCTTGGACA ATGCGCCTGT GGTGGACCAG 
CAGCTGCTCT ACACCTGCTG CCCCTACATC GGAGAGCTCC GGAAACTGCT CGCTTCGTGG 
GTGTCAGGCA GTAGTGGACG GAGTGGGGGC TTCATGAGGA AAATCACCCC CACCACTACC 
ACCAGCCTGG GAGCCCAGCC TTCCCAGACC AGCCAGGGGC TGCAGGCACA GCTCGCCCAG 
GCCTTTTTCC ACAACCAGCC GCCCTCCTTG CGCCGGACCG TAGAGTTCGT GGCAGAAAGA 
ATTGGATCAA ACTGTGTCAA ACATATCAAG GCTACACTGG TGGCAGATCT GGTGCGCCAG 
GCAGAGTCAC TTCTCCAAGA GCAGCTGGTG ACACAGGGAG AGGAAGGGGG AGACCCAGCC 
CAGCTGTTGG AGATCTTGTG TTCCCAGCTG TGCCCTCACG GGGCCCAGGC ATTGGCCCTG 
GGGCGGGAGT TCTGTCAAAG GAAGAGCCCT GGGGCTGTGC GGGCGCTGCT TCCAGAGGAG 
ACCCCGGCAG CCGTTCTGAG CAGTGCAGAG AACATTGCTG TGGGGCTTGC AACAGAGAAA 
GCCTGTGCTT GGCTGTCAGC CAACATCACA GCACTGATCA GGAGGGAGGT GAAAGCAGCA 
GTGAGTCGCA CACTTCGAGC CCAGGGTCCT GAACCTGCTG CCCGGGGGGA GCGGAGGGGC 
TGCTCCCGCG CCTGTGAGCA CCATGCTCCC CTCCCCTCCC ACCTCATCTC CGAGATAAAA 
GACGTGCTCT CCTTGGCCGT GGGGCCACGG GACCCTGACG AGGGAGTCTC CCCAGAGCAT 
CTGGAACAGC TCCTAGGCCA GCTGGGCCAG ACGCTGCGGT GCCGCCAGTT CCTGTGCCCA 
CCTGCTGAGC AGCATCTGGC AAAGTGCTCT GTGGAGTTAG CTTCCCTCCT CGTTGCAGAT 
CAAATTCCTA TCCTAGGGCC CCCGGCACAG TACAGGCTGG AGAGAGGGCA GGCTCGAAGG 
CTTCTGCACA TGCTGCTTTC CTTGTGGAAG GAAGACTTTC AGGGGCCGGT TCCGCTGCAG 
CTGCTGCTGA GCCCAAGAAA TGTGGGGCTT CTGGCAGACA CAAGGCCAAG GGAGTGGGAC 
TTGCTGCTAT TCTTGCTACG GGAGCTGGTG GAGAAGGGTC TGATGGGACG GATGGAGATA 
GAGGCCTGCC TGGGCAGCCT CCACCAGGCC CAGTGGCCAG GGGACTTTGC TGAAGAATTA 
GCAACACTGT CTAATCTGTT TCTAGCCGAG CCCCACCTGC CAGAACCCCA GCTAAGAGCC 
TGTGAGTTGG TGCAGCCAAA CCGGGGCACT GTGCTGGCCC AGAGCTAG

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

RefSeq	XP_011519573.1
CDS	31..3738
Translation	MAAVLESLLREEVSVAAVVRWIARSTQGSEVTAVTRPQDNAGEAAALSSLRALRKEFVPFLLNFLREQSSRVLPQGPPTPAKTPGASAALPGRPGGPPRGSRGARSQLFPPTEAQSTAAEAPLARRGGRRRGPGPARERGGRGLEEGVSGESLPGAGGRRLRGSGSPSRPSLTLSDPPNLSNLEEFPPVGSVPPGPTGTKPSRRINPTPVSEERSLSKPKTCFTSPPISCVPSSQPSALDTSPWGLGLPPGCRSLQEEREMLRKERSKQLQQSPTPTCPTPELGSPLPSRTGSLTDEPADPARVSSRQRLELVALVYSSCIAENLVPNLFLELFFVFQLLTARRMVTAKDSDPELSPAVLDSLESPLFQSIHDCVFFAVQVLECHFQVLSNLDKGTLKLLAENERLLCFSPALQGRLRAAYEGSVAKVSLVMPPSTQAVSFQPETDNRANFSSDRAFHTFKKQRDVFYEVLREWEDHHEEPGWDFEKGLGSRIRAMMGQLSAACSHSHFVRLFQKQLLQMCQSPGGAGGTVLGEAPDVLSMLGADKLGRLWRLQERLMAPQSSGGPCPPPTFPGCQGFFRDFILSASSFQFNQHLMDSLSLKIQELNGLALPQHEPNDEDGESDVDWQGERKQFAVVLLSLRLLAKFLGFVAFLPYRGPEPPPTGELQDSILALRSQVPPVLDVRTLLQRGLQARRAVLTVPWLVEFLSFADHVVPLLEYYRDIFTLLLRLHRSLVLSQESEGKMCFLNKLLLLAVLGWLFQIPTVPEDLFFLEEGPSYAFEVDTVAPEHGLDNAPVVDQQLLYTCCPYIGELRKLLASWVSGSSGRSGGFMRKITPTTTTSLGAQPSQTSQGLQAQLAQAFFHNQPPSLRRTVEFVAERIGSNCVKHIKATLVADLVRQAESLLQEQLVTQGEEGGDPAQLLEILCSQLCPHGAQALALGREFCQRKSPGAVRALLPEETPAAVLSSAENIAVGLATEKACAWLSANITALIRREVKAAVSRTLRAQGPEPAARGERRGCSRACEHHAPLPSHLISEIKDVLSLAVGPRDPDEGVSPEHLEQLLGQLGQTLRCRQFLCPPAEQHLAKCSVELASLLVADQIPILGPPAQYRLERGQARRLLHMLLSLWKEDFQGPVPLQLLLSPRNVGLLADTRPREWDLLLFLLRELVEKGLMGRMEIEACLGSLHQAQWPGDFAEELATLSNLFLAEPHLPEPQLRACELVQPNRGTVLAQS

Target ORF information:

RefSeq Version	XM_011521271.2
Organism	Homo sapiens(human)
Definition	Homo sapiens codanin 1 (CDAN1), transcript variant X2, mRNA.

Target ORF information:

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

XM_011521271.2

ORF Insert Sequence:

ATGGCGGCCG TTTTGGAGTC GCTGCTGCGA GAAGAGGTGT CGGTCGCAGC CGTCGTGCGG 
TGGATCGCGC GCAGCACCCA GGGTTCGGAG GTAACAGCGG TGACACGCCC CCAGGATAAC 
GCTGGGGAGG CGGCCGCGCT GAGCTCACTC CGGGCCCTGC GGAAAGAATT CGTACCGTTC 
CTGTTGAACT TCCTGAGGGA GCAGAGCAGC CGCGTCCTCC CGCAGGGGCC CCCGACCCCC 
GCCAAGACCC CGGGCGCCTC GGCAGCCTTG CCAGGGAGGC CGGGAGGCCC GCCGCGGGGT 
AGCCGCGGGG CGCGCAGCCA GCTTTTCCCT CCGACCGAGG CCCAGAGCAC CGCTGCCGAG 
GCCCCTCTGG CCCGCCGCGG GGGCAGGAGG CGGGGCCCGG GGCCGGCCCG CGAGCGTGGA 
GGCCGCGGCC TGGAGGAGGG GGTCAGCGGG GAGAGCCTGC CCGGAGCCGG GGGCCGGAGG 
CTTAGGGGCT CTGGCAGCCC CAGCCGCCCC AGCCTCACGC TGTCTGATCC GCCAAACCTC 
AGCAACCTGG AGGAGTTCCC TCCCGTAGGC TCGGTTCCCC CCGGCCCTAC AGGGACGAAG 
CCTTCTCGCA GGATCAACCC AACTCCGGTG AGCGAAGAGC GGTCACTCTC CAAGCCCAAG 
ACCTGCTTCA CCTCACCCCC AATCAGCTGT GTCCCCAGTT CCCAACCCTC AGCCCTGGAC 
ACTAGCCCTT GGGGCCTTGG CCTTCCCCCA GGGTGCAGAA GTCTGCAAGA GGAGCGAGAG 
ATGCTCAGGA AGGAGCGCTC TAAGCAGCTG CAGCAGTCAC CTACCCCCAC CTGTCCCACC 
CCAGAATTGG GGTCGCCCCT CCCCAGCCGG ACAGGAAGCC TCACAGATGA ACCTGCAGAC 
CCTGCCAGAG TGTCTTCCCG CCAGCGCCTG GAGCTTGTAG CCCTTGTTTA CTCCTCGTGC 
ATTGCTGAGA ACCTGGTACC AAACCTCTTC TTGGAGCTTT TCTTCGTCTT TCAGCTCCTC 
ACTGCCCGGA GGATGGTGAC TGCCAAGGAC AGCGACCCTG AACTAAGTCC AGCTGTCCTA 
GATTCCCTGG AAAGTCCACT GTTCCAAAGC ATCCACGATT GTGTCTTCTT TGCAGTGCAG 
GTTTTGGAGT GTCACTTTCA GGTTCTTTCC AACCTGGACA AAGGGACCTT GAAGCTGCTG 
GCTGAGAATG AGCGGCTGCT GTGCTTCTCA CCAGCTCTGC AAGGCCGCCT TCGAGCTGCC 
TATGAGGGCA GTGTTGCCAA GGTCTCTCTG GTGATGCCTC CCTCTACTCA AGCTGTCTCC 
TTTCAGCCAG AGACTGACAA TCGTGCCAAC TTCTCCAGTG ACCGAGCCTT TCATACTTTT 
AAGAAACAGA GGGATGTGTT TTATGAGGTG CTGCGAGAGT GGGAAGATCA CCATGAGGAG 
CCTGGCTGGG ATTTTGAGAA GGGCTTGGGC AGCAGAATCA GGGCCATGAT GGGTCAGCTC 
TCCGCAGCCT GCAGCCACAG CCACTTTGTT CGGCTTTTCC AAAAACAACT ACTCCAGATG 
TGTCAGAGCC CTGGTGGTGC TGGGGGCACC GTCTTGGGCG AGGCCCCAGA TGTGTTGAGT 
ATGCTGGGAG CTGACAAGCT GGGGCGGTTG TGGCGCCTAC AGGAACGGCT TATGGCTCCT 
CAGAGCAGTG GGGGGCCCTG CCCACCCCCC ACCTTCCCAG GCTGTCAAGG CTTCTTTAGG 
GACTTCATCC TTAGTGCCAG CAGCTTCCAG TTTAACCAGC ATCTCATGGA CAGTCTGAGC 
TTGAAGATCC AGGAGCTCAA TGGTCTTGCC CTGCCCCAGC ATGAGCCCAA TGATGAAGAC 
GGGGAGTCAG ACGTAGACTG GCAGGGTGAG CGGAAGCAAT TTGCTGTGGT GCTTCTTAGC 
CTGAGACTTT TGGCTAAATT CCTGGGCTTT GTGGCTTTCC TGCCATACCG GGGGCCTGAA 
CCTCCCCCGA CCGGTGAGCT TCAGGACTCC ATTCTGGCCC TCAGGAGCCA GGTCCCTCCG 
GTCCTGGATG TGCGGACTCT GCTGCAGCGA GGGCTGCAGG CCCGCCGGGC GGTGCTCACC 
GTGCCCTGGC TGGTGGAGTT TCTCTCCTTT GCTGACCATG TTGTTCCCTT GCTGGAATAT 
TACCGGGACA TCTTCACTCT CCTGCTGCGC CTGCACCGGA GCTTGGTGTT GTCGCAGGAG 
AGTGAGGGGA AGATGTGTTT CCTGAACAAG CTGCTGCTAC TTGCTGTCCT GGGCTGGCTT 
TTCCAGATTC CCACAGTCCC TGAGGACTTG TTCTTTCTGG AAGAGGGTCC CTCATATGCC 
TTTGAGGTGG ACACAGTAGC CCCAGAGCAT GGCTTGGACA ATGCGCCTGT GGTGGACCAG 
CAGCTGCTCT ACACCTGCTG CCCCTACATC GGAGAGCTCC GGAAACTGCT CGCTTCGTGG 
GTGTCAGGCA GTAGTGGACG GAGTGGGGGC TTCATGAGGA AAATCACCCC CACCACTACC 
ACCAGCCTGG GAGCCCAGCC TTCCCAGACC AGCCAGGGGC TGCAGGCACA GCTCGCCCAG 
GCCTTTTTCC ACAACCAGCC GCCCTCCTTG CGCCGGACCG TAGAGTTCGT GGCAGAAAGA 
ATTGGATCAA ACTGTGTCAA ACATATCAAG GCTACACTGG TGGCAGATCT GGTGCGCCAG 
GCAGAGTCAC TTCTCCAAGA GCAGCTGGTG ACACAGGGAG AGGAAGGGGG AGACCCAGCC 
CAGCTGTTGG AGATCTTGTG TTCCCAGCTG TGCCCTCACG GGGCCCAGGC ATTGGCCCTG 
GGGCGGGAGT TCTGTCAAAG GAAGAGCCCT GGGGCTGTGC GGGCGCTGCT TCCAGAGGAG 
ACCCCGGCAG CCGTTCTGAG CAGTGCAGAG AACATTGCTG TGGGGCTTGC AACAGAGAAA 
GCCTGTGCTT GGCTGTCAGC CAACATCACA GCACTGATCA GGAGGGAGGT GAAAGCAGCA 
GTGAGTCGCA CACTTCGAGC CCAGGGTCCT GAACCTGCTG CCCGGGGGGA GCGGAGGGGC 
TGCTCCCGCG CCTGTGAGCA CCATGCTCCC CTCCCCTCCC ACCTCATCTC CGAGATAAAA 
GACGTGCTCT CCTTGGCCGT GGGGCCACGG GACCCTGACG AGGGAGTCTC CCCAGAGCAT 
CTGGAACAGC TCCTAGGCCA GCTGGGCCAG ACGCTGCGGT GCCGCCAGTT CCTGTGCCCA 
CCTGCTGAGC AGCATCTGGC AAAGTGCTCT GTGGAGTTAG CTTCCCTCCT CGTTGCAGAT 
CAAATTCCTA TCCTAGGGCC CCCGGCACAG TACAGGCTGG AGAGAGGGCA GGCTCGAAGG 
CTTCTGCACA TGCTGCTTTC CTTGTGGAAG GAAGACTTTC AGGGGCCGGT TCCGCTGCAG 
CTGCTGCTGA GCCCAAGAAA TGTGGGGCTT CTGGCAGACA CAAGGCCAAG GGAGTGGGAC 
TTGCTGCTAT TCTTGCTACG GGAGCTGGTG GAGAAGGGTC TGATGGGACG GATGGAGATA 
GAGGCCTGCC TGGGCAGCCT CCACCAGGCC CAGTGGCCAG GGGACTTTGC TGAAGAATTA 
GCAACACTGT CTAATCTGTT TCTAGCCGAG CCCCACCTGC CAGAACCCCA GCTAAGAGCC 
TGTGAGTTGG TGCAGCCAAA CCGGGGCACT GTGCTGGCCC AGAGCTAG

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

PubMed

Identification of CDAN1, C15ORF41 and SEC23B mutations in Chinese patients affected by congenital dyserythropoietic anemia.
Gene64073-78(2018 Jan)
Wang Y,Ru Y,Liu G,Dong S,Li Y,Zhu X,Zhang F,Chang YZ,Nie G

Congenital dyserythropoietic anemia in China: a case report from two families and a review.
Annals of hematology93(5)773-7(2014 May)
Ru Y,Liu G,Bai J,Dong S,Nie N,Zhang H,Zhao S,Zheng Y,Zhu X,Nie G,Zhang F,Eyden B

Homozygous mutations in a predicted endonuclease are a novel cause of congenital dyserythropoietic anemia type I.
Haematologica98(9)1383-7(2013 Sep)
Babbs C,Roberts NA,Sanchez-Pulido L,McGowan SJ,Ahmed MR,Brown JM,Sabry MA,,Bentley DR,McVean GA,Donnelly P,Gileadi O,Ponting CP,Higgs DR,Buckle VJ

Codanin-1, mutated in the anaemic disease CDAI, regulates Asf1 function in S-phase histone supply.
The EMBO journal31(8)2013-23(2012 Apr)
Ask K,Jasencakova Z,Menard P,Feng Y,Almouzni G,Groth A

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CDAN1 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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