NCAPD2 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	NCAPD2
Entrez Gene ID	9918
Full Name	non-SMC condensin I complex subunit D2
Synonyms	CAP-D2,CNAP1,hCAP-D2
General protein information	Preferred Names non-SMC condensin I complex subunit D2 Names condensin complex subunit 1 XCAP-D2 homolog chromosome condensation-related SMC-associated protein 1 chromosome-associated protein D2
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 12 Map Location: 12p13.31
Disorder MIM:	615638

mRNA and Protein(s)

mRNA	Protein	Name
NM_014865.4	NP_055680.3	condensin complex subunit 1
NM_014865.3	NP_055680.3	condensin complex subunit 1

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	NCAPD2	XP_001161664.1
Bos taurus (cattle)	NCAPD2	NP_001193640.1
Danio rerio (zebrafish)	ncapd2	NP_001155974.1
Magnaporthe oryzae (rice blast fungus)	MGG_03487	XP_003716436.1
	NCAPD2	XP_001105024.1
Oryza sativa (rice)	Os07g0659500	NP_001060526.1
Homo sapiens (human)	NCAPD2	NP_055680.3
Drosophila melanogaster (fruit fly)	CAP-D2	NP_651709.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP003434	XP_311720.5
Canis lupus familiaris (dog)	NCAPD2	XP_005637305.1
Mus musculus (house mouse)	Ncapd2	NP_666283.1
Rattus norvegicus (Norway rat)	Ncapd2	XP_575668.4
Gallus gallus (chicken)	NCAPD2	NP_001074331.1
Eremothecium gossypii	AGOS_AGR273C	NP_986939.2
Schizosaccharomyces pombe (fission yeast)	cnd1	NP_596329.1
Saccharomyces cerevisiae (baker's yeast)	YCS4	NP_013374.1
Kluyveromyces lactis	KLLA0F20119g	XP_455983.1
Neurospora crassa	NCU09297	XP_958443.1
Arabidopsis thaliana (thale cress)	AT3G57060	NP_191265.2
Xenopus tropicalis (tropical clawed frog)	ncapd2	XP_002941732.2

Gene Ontology
Bibliography

Related articles in PubMed

Mutations in genes encoding condensin complex proteins cause microcephaly through decatenation failure at mitosis.
Martin CA, Murray JE, Carroll P, Leitch A, Mackenzie KJ, Halachev M, Fetit AE, Keith C, Bicknell LS, Fluteau A, Gautier P, Hall EA, Joss S, Soares G, Silva J, Bober MB, Duker A, Wise CA, Quigley AJ, Phadke SR, , Wood AJ, Vagnarelli P, Jackson AP
Genes & development30(19)2158-2172(2016 Oct)

Aurora-A mediated histone H3 phosphorylation of threonine 118 controls condensin I and cohesin occupancy in mitosis.
Wike CL, Graves HK, Hawkins R, Gibson MD, Ferdinand MB, Zhang T, Chen Z, Hudson DF, Ottesen JJ, Poirier MG, Schumacher J, Tyler JK
eLife5e11402(2016 Feb)

A human interactome in three quantitative dimensions organized by stoichiometries and abundances.
Hein MY, Hubner NC, Poser I, Cox J, Nagaraj N, Toyoda Y, Gak IA, Weisswange I, Mansfeld J, Buchholz F, Hyman AA, Mann M
Cell163(3)712-23(2015 Oct)

Non-SMC condensin I complex, subunit D2 gene polymorphisms are associated with Parkinson's disease: a Han Chinese study.
Zhang P, Liu L, Huang J, Shao L, Wang H, Xiong N, Wang T
Genome57(5)253-7(2014 May)

Condensin I recruitment to base damage-enriched DNA lesions is modulated by PARP1.
Kong X, Stephens J, Ball AR Jr, Heale JT, Newkirk DA, Berns MW, Yokomori K
PloS one6(8)e23548(2011)

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

The authors propose that histone H3 threonine 118 phosphorylation via Aurora-A alters the chromatin structure during specific phases of mitosis to promote timely condensin I and cohesin disassociation, which is essential for effective chromosome segregation.
Title: Aurora-A mediated histone H3 phosphorylation of threonine 118 controls condensin I and cohesin occupancy in mitosis.

Study has shown that both rs7311174 and rs2072374 in the NCAPD2 gene are associated with Parkinson's disease in a Han Chinese population.
Title: Non-SMC condensin I complex, subunit D2 gene polymorphisms are associated with Parkinson's disease: a Han Chinese study.

Observational study of gene-disease association. (HuGE Navigator)
Title: Centrosome-related genes, genetic variation, and risk of breast cancer.

Data show that that DNA repear process is dictated by PARP1 through its interaction with the chromosome-targeting domain of the hCAP-D2 subunit of condensin I.
Title: Condensin I recruitment to base damage-enriched DNA lesions is modulated by PARP1.

Observational study of gene-disease association. (HuGE Navigator)
Title: Investigation of genetic susceptibility factors for human longevity - a targeted nonsynonymous SNP study.

The following NCAPD2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NCAPD2 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)
OHu08046	NM_014865.4 Latest version!	Homo sapiens non-SMC condensin I complex subunit D2 (NCAPD2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$384.30 $549.00
View Old Accession Versions >>
OHu08046	NM_014865.3	Homo sapiens non-SMC condensin I complex subunit D2 (NCAPD2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$384.30 $549.00
Hide Old Accession Versions >>

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

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

Reference Sequences (Refseq)

NCAPD2 ( NM_014865.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_055680.3 Homo sapiens non-SMC condensin I complex subunit D2 (NCAPD2), mRNA.

Price & Availability↑

CloneID	OHu08046
Clone ID Related Accession (Same CDS sequence)	NM_014865.4 , NM_014865.3
Accession Version	NM_014865.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4206bp) 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	2019-06-07
Organism	Homo sapiens(human)
Product	condensin complex subunit 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC006064.10, AK022511.1, CN307514.1, BC028182.1, D63880.1, AK128354.1 and AL548223.3. On Nov 23, 2018 this sequence version replaced NM_014865.3. 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 :: D63880.1, SRR1803616.47571.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000315579.10/ ENSP00000325017.5 RefSeq Select criteria :: based on single protein-coding transcript ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGCTCCCC AAATGTATGA GTTCCATCTG CCATTATCCC CAGAGGAGTT GTTGAAAAGT 
GGAGGGGTGA ATCAGTATGT TGTGCAAGAG GTACTGTCCA TCAAACATCT TCCACCACAG 
CTTAGAGCTT TTCAGGCTGC CTTTCGAGCT CAGGGGCCCC TGGCTATGCT GCAGCACTTT 
GATACTATCT ACAGCATTTT GCATCACTTT CGAAGTATAG ATCCTGGCCT CAAAGAAGAT 
ACTCTGCAAT TCCTGATAAA AGTGGTATCC CGCCACTCCC AGGAGCTTCC AGCTATCCTG 
GATGATACAA CTTTGAGTGG ATCAGATAGA AACGCCCATC TAAATGCCCT CAAAATGAAC 
TGTTATGCTC TGATACGTCT CCTGGAATCC TTTGAGACCA TGGCCAGCCA GACAAACCTT 
GTGGACCTGG ACCTTGGTGG GAAGGGTAAG AAAGCTCGGA CCAAGGCAGC CCATGGCTTT 
GACTGGGAAG AAGAGAGGCA ACCAATTCTT CAGCTTTTAA CACAGCTACT TCAGTTGGAC 
ATCCGTCACC TGTGGAACCA CTCAATAATT GAAGAAGAAT TTGTCAGTTT GGTTACTGGC 
TGTTGCTACC GCCTTCTGGA GAATCCCACC ATTAATCACC AGAAGAACCG CCCCACTCGG 
GAAGCCATAA CACACCTGCT TGGTGTAGCC TTGACCCGTT ATAACCATAT GCTCAGTGCT 
ACAGTGAAGA TCATCCAGAT GCTGCAGCAC TTTGAACACC TGGCACCTGT ACTGGTTGCA 
GCCGTGAGTC TATGGGCAAC TGACTATGGA ATGAAGAGCA TAGTGGGAGA GATTGTAAGA 
GAGATTGGAC AAAAGTGTCC CCAAGAGCTG AGTCGAGACC CTTCAGGGAC AAAGGGCTTT 
GCAGCATTCC TGACAGAACT AGCAGAACGT GTCCCAGCTA TCCTGATGTC CAGCATGTGC 
ATTTTGCTAG ATCACCTGGA TGGAGAAAAT TACATGATGC GTAATGCTGT GCTGGCAGCC 
ATGGCGGAGA TGGTGCTGCA GGTTCTCAGT GGCGATCAAC TGGAAGCAGC AGCCCGAGAC 
ACCAGAGACC AGTTCTTGGA TACTTTACAA GCCCATGGCC ATGATGTCAA CTCCTTTGTG 
CGGAGCCGTG TTTTGCAGCT CTTCACCCGA ATTGTCCAGC AGAAGGCTCT CCCCCTGACA 
CGTTTCCAGG CAGTGGTGGC TTTAGCTGTG GGACGTCTGG CAGACAAGTC AGTGCTAGTA 
TGTAAAAATG CCATCCAGCT GCTGGCCAGT TTTCTAGCCA ATAATCCTTT CTCCTGCAAG 
CTTAGTGATG CTGACCTTGC CGGACCACTG CAGAAGGAGA CCCAGAAATT ACAAGAGATG 
AGGGCCCAGA GGCGAACTGC AGCAGCTTCT GCAGTGCTGG ACCCAGAGGA GGAGTGGGAA 
GCCATGCTGC CAGAGTTGAA GTCTACCCTG CAGCAGCTTC TACAGCTTCC CCAGGGAGAG 
GAGGAGATTC CTGAGCAAAT TGCCAATACA GAGACAACTG AAGATGTGAA AGGACGCATC 
TATCAACTGC TTGCCAAAGC TAGTTACAAA AAGGCCATCA TTCTCACTCG AGAAGCCACA 
GGCCACTTCC AGGAGTCCGA ACCCTTCAGT CATATAGACC CAGAGGAGTC AGAGGAGACC 
AGGCTCTTGA ATATCTTAGG ACTTATCTTC AAAGGCCCAG CAGCTTCCAC ACAAGAAAAG 
AATCCCCGGG AGTCTACAGG AAACATGGTC ACAGGACAGA CTGTCTGTAA AAATAAACCC 
AATATGTCGG ATCCTGAGGA ATCCAGGGGA AATGATGAAC TAGTGAAGCA GGAGATGCTG 
GTACAGTATC TGCAGGATGC CTACAGCTTC TCCCGGAAGA TTACAGAGGC CATTGGCATC 
ATCAGCAAGA TGATGTATGA AAACACAACT ACAGTGGTGC AGGAGGTGAT TGAATTCTTT 
GTGATGGTCT TCCAATTTGG GGTACCCCAG GCCCTGTTTG GGGTGCGCCG TATGCTGCCT 
CTCATCTGGT CTAAGGAGCC TGGTGTCCGG GAAGCCGTGC TTAATGCCTA CCGCCAACTC 
TACCTCAACC CCAAAGGGGA CTCTGCCAGA GCCAAGGCCC AGGCTTTGAT TCAGAATCTC 
TCTCTGCTGC TAGTGGATGC CTCGGTTGGG ACCATTCAGT GTCTTGAGGA AATTCTCTGT 
GAGTTTGTGC AGAAGGATGA GTTGAAACCA GCAGTGACCC AGCTGCTGTG GGAGCGGGCC 
ACCGAGAAGG TCGCCTGCTG TCCTCTGGAG CGCTGTTCCT CTGTCATGCT TCTTGGCATG 
ATGGCACGAG GAAAGCCAGA AATTGTGGGA AGCAATTTAG ACACACTGGT GAGCATAGGG 
CTGGATGAGA AGTTTCCACA GGACTACAGG CTGGCCCAGC AGGTGTGCCA TGCCATTGCC 
AACATCTCGG ACAGGAGAAA GCCTTCTCTG GGCAAACGTC ACCCCCCCTT CCGGCTGCCT 
CAGGAACACA GGTTGTTTGA GCGACTGCGG GAGACAGTCA CAAAAGGCTT TGTCCACCCA 
GACCCACTCT GGATCCCATT CAAAGAGGTG GCAGTGACCC TCATTTACCA ACTGGCAGAG 
GGCCCCGAAG TGATCTGTGC CCAGATATTG CAGGGCTGTG CAAAACAGGC CCTGGAGAAG 
CTAGAAGAGA AGAGAACCAG TCAGGAGGAC CCGAAGGAGT CCCCCGCAAT GCTCCCCACT 
TTCCTGTTGA TGAACCTGCT GTCCCTGGCT GGGGATGTGG CTCTGCAGCA GCTGGTCCAC 
TTGGAGCAGG CAGTGAGTGG AGAGCTCTGC CGGCGCCGAG TTCTCCGGGA AGAACAGGAG 
CACAAGACCA AAGATCCCAA GGAGAAGAAT ACGAGCTCTG AGACCACCAT GGAGGAGGAG 
CTGGGGCTGG TTGGGGCAAC AGCAGATGAC ACAGAGGCAG AACTAATCCG TGGCATCTGC 
GAGATGGAAC TGTTGGATGG CAAACAGACA CTGGCTGCCT TTGTTCCACT CTTGCTTAAA 
GTCTGTAACA ACCCAGGCCT CTATAGCAAC CCAGACCTCT CTGCAGCTGC TTCACTTGCC 
CTTGGCAAGT TCTGCATGAT CAGTGCCACT TTCTGCGACT CCCAGCTTCG TCTTCTGTTC 
ACCATGCTGG AAAAGTCTCC ACTTCCCATT GTCCGGTCTA ACCTCATGGT TGCCACTGGG 
GATCTGGCCA TCCGCTTTCC CAATCTGGTG GACCCCTGGA CTCCTCATCT GTATGCTCGT 
CTCCGGGACC CTGCTCAGCA AGTGCGGAAA ACAGCGGGGC TGGTGATGAC CCACCTGATC 
CTCAAGGACA TGGTGAAGGT GAAGGGGCAG GTCAGCGAGA TGGCGGTGCT GCTCATCGAC 
CCCGAGCCTC AGATTGCTGC CCTGGCCAAG AACTTCTTCA ATGAGCTCTC CCACAAGGGC 
AACGCAATCT ATAATCTCCT TCCAGATATC ATCAGCCGCC TGTCAGACCC CGAGCTGGGG 
GTGGAGGAAG AGCCTTTCCA CACCATCATG AAACAGCTCC TCTCCTACAT CACCAAGGAC 
AAGCAGACAG AGAGCCTGGT GGAAAAGCTG TGTCAGCGGT TCCGCACATC CCGAACTGAG 
CGGCAGCAGC GAGACCTGGC CTACTGTGTG TCACAGCTGC CCCTCACAGA GCGAGGCCTC 
CGTAAGATGC TTGACAATTT TGACTGTTTT GGAGACAAAC TGTCAGATGA GTCCATCTTC 
AGTGCTTTTT TGTCAGTTGT AGGCAAGCTG CGACGTGGGG CCAAGCCTGA GGGCAAGGCT 
ATAATAGATG AATTTGAGCA GAAGCTTCGG GCCTGTCATA CCAGAGGTTT GGATGGAATC 
AAGGAGCTTG AGATTGGCCA AGCAGGTAGC CAGAGAGCGC CATCAGCCAA GAAACCATCC 
ACTGGTTCTA GGTACCAGCC TCTGGCTTCT ACAGCCTCAG ACAATGACTT TGTCACACCA 
GAGCCCCGCC GTACTACCCG TCGGCATCCA AACACCCAGC AGCGAGCTTC CAAAAAGAAA 
CCCAAAGTTG TCTTCTCAAG TGATGAGTCC AGTGAGGAAG ATCTTTCAGC AGAGATGACA 
GAAGACGAGA CACCCAAGAA AACAACTCCC ATTCTCAGAG CATCGGCTCG CAGGCACAGA 
TCCTAG

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

RefSeq	NP_055680.3
CDS	77..4282
Translation	MAPQMYEFHLPLSPEELLKSGGVNQYVVQEVLSIKHLPPQLRAFQAAFRAQGPLAMLQHFDTIYSILHHFRSIDPGLKEDTLQFLIKVVSRHSQELPAILDDTTLSGSDRNAHLNALKMNCYALIRLLESFETMASQTNLVDLDLGGKGKKARTKAAHGFDWEEERQPILQLLTQLLQLDIRHLWNHSIIEEEFVSLVTGCCYRLLENPTINHQKNRPTREAITHLLGVALTRYNHMLSATVKIIQMLQHFEHLAPVLVAAVSLWATDYGMKSIVGEIVREIGQKCPQELSRDPSGTKGFAAFLTELAERVPAILMSSMCILLDHLDGENYMMRNAVLAAMAEMVLQVLSGDQLEAAARDTRDQFLDTLQAHGHDVNSFVRSRVLQLFTRIVQQKALPLTRFQAVVALAVGRLADKSVLVCKNAIQLLASFLANNPFSCKLSDADLAGPLQKETQKLQEMRAQRRTAAASAVLDPEEEWEAMLPELKSTLQQLLQLPQGEEEIPEQIANTETTEDVKGRIYQLLAKASYKKAIILTREATGHFQESEPFSHIDPEESEETRLLNILGLIFKGPAASTQEKNPRESTGNMVTGQTVCKNKPNMSDPEESRGNDELVKQEMLVQYLQDAYSFSRKITEAIGIISKMMYENTTTVVQEVIEFFVMVFQFGVPQALFGVRRMLPLIWSKEPGVREAVLNAYRQLYLNPKGDSARAKAQALIQNLSLLLVDASVGTIQCLEEILCEFVQKDELKPAVTQLLWERATEKVACCPLERCSSVMLLGMMARGKPEIVGSNLDTLVSIGLDEKFPQDYRLAQQVCHAIANISDRRKPSLGKRHPPFRLPQEHRLFERLRETVTKGFVHPDPLWIPFKEVAVTLIYQLAEGPEVICAQILQGCAKQALEKLEEKRTSQEDPKESPAMLPTFLLMNLLSLAGDVALQQLVHLEQAVSGELCRRRVLREEQEHKTKDPKEKNTSSETTMEEELGLVGATADDTEAELIRGICEMELLDGKQTLAAFVPLLLKVCNNPGLYSNPDLSAAASLALGKFCMISATFCDSQLRLLFTMLEKSPLPIVRSNLMVATGDLAIRFPNLVDPWTPHLYARLRDPAQQVRKTAGLVMTHLILKDMVKVKGQVSEMAVLLIDPEPQIAALAKNFFNELSHKGNAIYNLLPDIISRLSDPELGVEEEPFHTIMKQLLSYITKDKQTESLVEKLCQRFRTSRTERQQRDLAYCVSQLPLTERGLRKMLDNFDCFGDKLSDESIFSAFLSVVGKLRRGAKPEGKAIIDEFEQKLRACHTRGLDGIKELEIGQAGSQRAPSAKKPSTGSRYQPLASTASDNDFVTPEPRRTTRRHPNTQQRASKKKPKVVFSSDESSEEDLSAEMTEDETPKKTTPILRASARRHRS

Target ORF information:

RefSeq Version	NM_014865.4
Organism	Homo sapiens(human)
Definition	Homo sapiens non-SMC condensin I complex subunit D2 (NCAPD2), mRNA.

Target ORF information:

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

NM_014865.4

ORF Insert Sequence:

ATGGCTCCCC AAATGTATGA GTTCCATCTG CCATTATCCC CAGAGGAGTT GTTGAAAAGT 
GGAGGGGTGA ATCAGTATGT TGTGCAAGAG GTACTGTCCA TCAAACATCT TCCACCACAG 
CTTAGAGCTT TTCAGGCTGC CTTTCGAGCT CAGGGGCCCC TGGCTATGCT GCAGCACTTT 
GATACTATCT ACAGCATTTT GCATCACTTT CGAAGTATAG ATCCTGGCCT CAAAGAAGAT 
ACTCTGCAAT TCCTGATAAA AGTGGTATCC CGCCACTCCC AGGAGCTTCC AGCTATCCTG 
GATGATACAA CTTTGAGTGG ATCAGATAGA AACGCCCATC TAAATGCCCT CAAAATGAAC 
TGTTATGCTC TGATACGTCT CCTGGAATCC TTTGAGACCA TGGCCAGCCA GACAAACCTT 
GTGGACCTGG ACCTTGGTGG GAAGGGTAAG AAAGCTCGGA CCAAGGCAGC CCATGGCTTT 
GACTGGGAAG AAGAGAGGCA ACCAATTCTT CAGCTTTTAA CACAGCTACT TCAGTTGGAC 
ATCCGTCACC TGTGGAACCA CTCAATAATT GAAGAAGAAT TTGTCAGTTT GGTTACTGGC 
TGTTGCTACC GCCTTCTGGA GAATCCCACC ATTAATCACC AGAAGAACCG CCCCACTCGG 
GAAGCCATAA CACACCTGCT TGGTGTAGCC TTGACCCGTT ATAACCATAT GCTCAGTGCT 
ACAGTGAAGA TCATCCAGAT GCTGCAGCAC TTTGAACACC TGGCACCTGT ACTGGTTGCA 
GCCGTGAGTC TATGGGCAAC TGACTATGGA ATGAAGAGCA TAGTGGGAGA GATTGTAAGA 
GAGATTGGAC AAAAGTGTCC CCAAGAGCTG AGTCGAGACC CTTCAGGGAC AAAGGGCTTT 
GCAGCATTCC TGACAGAACT AGCAGAACGT GTCCCAGCTA TCCTGATGTC CAGCATGTGC 
ATTTTGCTAG ATCACCTGGA TGGAGAAAAT TACATGATGC GTAATGCTGT GCTGGCAGCC 
ATGGCGGAGA TGGTGCTGCA GGTTCTCAGT GGCGATCAAC TGGAAGCAGC AGCCCGAGAC 
ACCAGAGACC AGTTCTTGGA TACTTTACAA GCCCATGGCC ATGATGTCAA CTCCTTTGTG 
CGGAGCCGTG TTTTGCAGCT CTTCACCCGA ATTGTCCAGC AGAAGGCTCT CCCCCTGACA 
CGTTTCCAGG CAGTGGTGGC TTTAGCTGTG GGACGTCTGG CAGACAAGTC AGTGCTAGTA 
TGTAAAAATG CCATCCAGCT GCTGGCCAGT TTTCTAGCCA ATAATCCTTT CTCCTGCAAG 
CTTAGTGATG CTGACCTTGC CGGACCACTG CAGAAGGAGA CCCAGAAATT ACAAGAGATG 
AGGGCCCAGA GGCGAACTGC AGCAGCTTCT GCAGTGCTGG ACCCAGAGGA GGAGTGGGAA 
GCCATGCTGC CAGAGTTGAA GTCTACCCTG CAGCAGCTTC TACAGCTTCC CCAGGGAGAG 
GAGGAGATTC CTGAGCAAAT TGCCAATACA GAGACAACTG AAGATGTGAA AGGACGCATC 
TATCAACTGC TTGCCAAAGC TAGTTACAAA AAGGCCATCA TTCTCACTCG AGAAGCCACA 
GGCCACTTCC AGGAGTCCGA ACCCTTCAGT CATATAGACC CAGAGGAGTC AGAGGAGACC 
AGGCTCTTGA ATATCTTAGG ACTTATCTTC AAAGGCCCAG CAGCTTCCAC ACAAGAAAAG 
AATCCCCGGG AGTCTACAGG AAACATGGTC ACAGGACAGA CTGTCTGTAA AAATAAACCC 
AATATGTCGG ATCCTGAGGA ATCCAGGGGA AATGATGAAC TAGTGAAGCA GGAGATGCTG 
GTACAGTATC TGCAGGATGC CTACAGCTTC TCCCGGAAGA TTACAGAGGC CATTGGCATC 
ATCAGCAAGA TGATGTATGA AAACACAACT ACAGTGGTGC AGGAGGTGAT TGAATTCTTT 
GTGATGGTCT TCCAATTTGG GGTACCCCAG GCCCTGTTTG GGGTGCGCCG TATGCTGCCT 
CTCATCTGGT CTAAGGAGCC TGGTGTCCGG GAAGCCGTGC TTAATGCCTA CCGCCAACTC 
TACCTCAACC CCAAAGGGGA CTCTGCCAGA GCCAAGGCCC AGGCTTTGAT TCAGAATCTC 
TCTCTGCTGC TAGTGGATGC CTCGGTTGGG ACCATTCAGT GTCTTGAGGA AATTCTCTGT 
GAGTTTGTGC AGAAGGATGA GTTGAAACCA GCAGTGACCC AGCTGCTGTG GGAGCGGGCC 
ACCGAGAAGG TCGCCTGCTG TCCTCTGGAG CGCTGTTCCT CTGTCATGCT TCTTGGCATG 
ATGGCACGAG GAAAGCCAGA AATTGTGGGA AGCAATTTAG ACACACTGGT GAGCATAGGG 
CTGGATGAGA AGTTTCCACA GGACTACAGG CTGGCCCAGC AGGTGTGCCA TGCCATTGCC 
AACATCTCGG ACAGGAGAAA GCCTTCTCTG GGCAAACGTC ACCCCCCCTT CCGGCTGCCT 
CAGGAACACA GGTTGTTTGA GCGACTGCGG GAGACAGTCA CAAAAGGCTT TGTCCACCCA 
GACCCACTCT GGATCCCATT CAAAGAGGTG GCAGTGACCC TCATTTACCA ACTGGCAGAG 
GGCCCCGAAG TGATCTGTGC CCAGATATTG CAGGGCTGTG CAAAACAGGC CCTGGAGAAG 
CTAGAAGAGA AGAGAACCAG TCAGGAGGAC CCGAAGGAGT CCCCCGCAAT GCTCCCCACT 
TTCCTGTTGA TGAACCTGCT GTCCCTGGCT GGGGATGTGG CTCTGCAGCA GCTGGTCCAC 
TTGGAGCAGG CAGTGAGTGG AGAGCTCTGC CGGCGCCGAG TTCTCCGGGA AGAACAGGAG 
CACAAGACCA AAGATCCCAA GGAGAAGAAT ACGAGCTCTG AGACCACCAT GGAGGAGGAG 
CTGGGGCTGG TTGGGGCAAC AGCAGATGAC ACAGAGGCAG AACTAATCCG TGGCATCTGC 
GAGATGGAAC TGTTGGATGG CAAACAGACA CTGGCTGCCT TTGTTCCACT CTTGCTTAAA 
GTCTGTAACA ACCCAGGCCT CTATAGCAAC CCAGACCTCT CTGCAGCTGC TTCACTTGCC 
CTTGGCAAGT TCTGCATGAT CAGTGCCACT TTCTGCGACT CCCAGCTTCG TCTTCTGTTC 
ACCATGCTGG AAAAGTCTCC ACTTCCCATT GTCCGGTCTA ACCTCATGGT TGCCACTGGG 
GATCTGGCCA TCCGCTTTCC CAATCTGGTG GACCCCTGGA CTCCTCATCT GTATGCTCGT 
CTCCGGGACC CTGCTCAGCA AGTGCGGAAA ACAGCGGGGC TGGTGATGAC CCACCTGATC 
CTCAAGGACA TGGTGAAGGT GAAGGGGCAG GTCAGCGAGA TGGCGGTGCT GCTCATCGAC 
CCCGAGCCTC AGATTGCTGC CCTGGCCAAG AACTTCTTCA ATGAGCTCTC CCACAAGGGC 
AACGCAATCT ATAATCTCCT TCCAGATATC ATCAGCCGCC TGTCAGACCC CGAGCTGGGG 
GTGGAGGAAG AGCCTTTCCA CACCATCATG AAACAGCTCC TCTCCTACAT CACCAAGGAC 
AAGCAGACAG AGAGCCTGGT GGAAAAGCTG TGTCAGCGGT TCCGCACATC CCGAACTGAG 
CGGCAGCAGC GAGACCTGGC CTACTGTGTG TCACAGCTGC CCCTCACAGA GCGAGGCCTC 
CGTAAGATGC TTGACAATTT TGACTGTTTT GGAGACAAAC TGTCAGATGA GTCCATCTTC 
AGTGCTTTTT TGTCAGTTGT AGGCAAGCTG CGACGTGGGG CCAAGCCTGA GGGCAAGGCT 
ATAATAGATG AATTTGAGCA GAAGCTTCGG GCCTGTCATA CCAGAGGTTT GGATGGAATC 
AAGGAGCTTG AGATTGGCCA AGCAGGTAGC CAGAGAGCGC CATCAGCCAA GAAACCATCC 
ACTGGTTCTA GGTACCAGCC TCTGGCTTCT ACAGCCTCAG ACAATGACTT TGTCACACCA 
GAGCCCCGCC GTACTACCCG TCGGCATCCA AACACCCAGC AGCGAGCTTC CAAAAAGAAA 
CCCAAAGTTG TCTTCTCAAG TGATGAGTCC AGTGAGGAAG ATCTTTCAGC AGAGATGACA 
GAAGACGAGA CACCCAAGAA AACAACTCCC ATTCTCAGAG CATCGGCTCG CAGGCACAGA 
TCCTAG

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

NCAPD2 ( NM_014865.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_055680.3 Homo sapiens non-SMC condensin I complex subunit D2 (NCAPD2), mRNA.

Price & Availability↑

CloneID	OHu08046
Clone ID Related Accession (Same CDS sequence)	NM_014865.4 , NM_014865.3
Accession Version	NM_014865.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4206bp) 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	2017-10-01
Organism	Homo sapiens(human)
Product	condensin complex subunit 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK022511.1, CN307514.1, BC028182.1, D63880.1, AK128354.1 and AL548223.3. On Apr 8, 2008 this sequence version replaced NM_014865.2. 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 :: AK022511.1, D63880.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END##

ATGGCTCCCC AAATGTATGA GTTCCATCTG CCATTATCCC CAGAGGAGTT GTTGAAAAGT 
GGAGGGGTGA ATCAGTATGT TGTGCAAGAG GTACTGTCCA TCAAACATCT TCCACCACAG 
CTTAGAGCTT TTCAGGCTGC CTTTCGAGCT CAGGGGCCCC TGGCTATGCT GCAGCACTTT 
GATACTATCT ACAGCATTTT GCATCACTTT CGAAGTATAG ATCCTGGCCT CAAAGAAGAT 
ACTCTGCAAT TCCTGATAAA AGTGGTATCC CGCCACTCCC AGGAGCTTCC AGCTATCCTG 
GATGATACAA CTTTGAGTGG ATCAGATAGA AACGCCCATC TAAATGCCCT CAAAATGAAC 
TGTTATGCTC TGATACGTCT CCTGGAATCC TTTGAGACCA TGGCCAGCCA GACAAACCTT 
GTGGACCTGG ACCTTGGTGG GAAGGGTAAG AAAGCTCGGA CCAAGGCAGC CCATGGCTTT 
GACTGGGAAG AAGAGAGGCA ACCAATTCTT CAGCTTTTAA CACAGCTACT TCAGTTGGAC 
ATCCGTCACC TGTGGAACCA CTCAATAATT GAAGAAGAAT TTGTCAGTTT GGTTACTGGC 
TGTTGCTACC GCCTTCTGGA GAATCCCACC ATTAATCACC AGAAGAACCG CCCCACTCGG 
GAAGCCATAA CACACCTGCT TGGTGTAGCC TTGACCCGTT ATAACCATAT GCTCAGTGCT 
ACAGTGAAGA TCATCCAGAT GCTGCAGCAC TTTGAACACC TGGCACCTGT ACTGGTTGCA 
GCCGTGAGTC TATGGGCAAC TGACTATGGA ATGAAGAGCA TAGTGGGAGA GATTGTAAGA 
GAGATTGGAC AAAAGTGTCC CCAAGAGCTG AGTCGAGACC CTTCAGGGAC AAAGGGCTTT 
GCAGCATTCC TGACAGAACT AGCAGAACGT GTCCCAGCTA TCCTGATGTC CAGCATGTGC 
ATTTTGCTAG ATCACCTGGA TGGAGAAAAT TACATGATGC GTAATGCTGT GCTGGCAGCC 
ATGGCGGAGA TGGTGCTGCA GGTTCTCAGT GGCGATCAAC TGGAAGCAGC AGCCCGAGAC 
ACCAGAGACC AGTTCTTGGA TACTTTACAA GCCCATGGCC ATGATGTCAA CTCCTTTGTG 
CGGAGCCGTG TTTTGCAGCT CTTCACCCGA ATTGTCCAGC AGAAGGCTCT CCCCCTGACA 
CGTTTCCAGG CAGTGGTGGC TTTAGCTGTG GGACGTCTGG CAGACAAGTC AGTGCTAGTA 
TGTAAAAATG CCATCCAGCT GCTGGCCAGT TTTCTAGCCA ATAATCCTTT CTCCTGCAAG 
CTTAGTGATG CTGACCTTGC CGGACCACTG CAGAAGGAGA CCCAGAAATT ACAAGAGATG 
AGGGCCCAGA GGCGAACTGC AGCAGCTTCT GCAGTGCTGG ACCCAGAGGA GGAGTGGGAA 
GCCATGCTGC CAGAGTTGAA GTCTACCCTG CAGCAGCTTC TACAGCTTCC CCAGGGAGAG 
GAGGAGATTC CTGAGCAAAT TGCCAATACA GAGACAACTG AAGATGTGAA AGGACGCATC 
TATCAACTGC TTGCCAAAGC TAGTTACAAA AAGGCCATCA TTCTCACTCG AGAAGCCACA 
GGCCACTTCC AGGAGTCCGA ACCCTTCAGT CATATAGACC CAGAGGAGTC AGAGGAGACC 
AGGCTCTTGA ATATCTTAGG ACTTATCTTC AAAGGCCCAG CAGCTTCCAC ACAAGAAAAG 
AATCCCCGGG AGTCTACAGG AAACATGGTC ACAGGACAGA CTGTCTGTAA AAATAAACCC 
AATATGTCGG ATCCTGAGGA ATCCAGGGGA AATGATGAAC TAGTGAAGCA GGAGATGCTG 
GTACAGTATC TGCAGGATGC CTACAGCTTC TCCCGGAAGA TTACAGAGGC CATTGGCATC 
ATCAGCAAGA TGATGTATGA AAACACAACT ACAGTGGTGC AGGAGGTGAT TGAATTCTTT 
GTGATGGTCT TCCAATTTGG GGTACCCCAG GCCCTGTTTG GGGTGCGCCG TATGCTGCCT 
CTCATCTGGT CTAAGGAGCC TGGTGTCCGG GAAGCCGTGC TTAATGCCTA CCGCCAACTC 
TACCTCAACC CCAAAGGGGA CTCTGCCAGA GCCAAGGCCC AGGCTTTGAT TCAGAATCTC 
TCTCTGCTGC TAGTGGATGC CTCGGTTGGG ACCATTCAGT GTCTTGAGGA AATTCTCTGT 
GAGTTTGTGC AGAAGGATGA GTTGAAACCA GCAGTGACCC AGCTGCTGTG GGAGCGGGCC 
ACCGAGAAGG TCGCCTGCTG TCCTCTGGAG CGCTGTTCCT CTGTCATGCT TCTTGGCATG 
ATGGCACGAG GAAAGCCAGA AATTGTGGGA AGCAATTTAG ACACACTGGT GAGCATAGGG 
CTGGATGAGA AGTTTCCACA GGACTACAGG CTGGCCCAGC AGGTGTGCCA TGCCATTGCC 
AACATCTCGG ACAGGAGAAA GCCTTCTCTG GGCAAACGTC ACCCCCCCTT CCGGCTGCCT 
CAGGAACACA GGTTGTTTGA GCGACTGCGG GAGACAGTCA CAAAAGGCTT TGTCCACCCA 
GACCCACTCT GGATCCCATT CAAAGAGGTG GCAGTGACCC TCATTTACCA ACTGGCAGAG 
GGCCCCGAAG TGATCTGTGC CCAGATATTG CAGGGCTGTG CAAAACAGGC CCTGGAGAAG 
CTAGAAGAGA AGAGAACCAG TCAGGAGGAC CCGAAGGAGT CCCCCGCAAT GCTCCCCACT 
TTCCTGTTGA TGAACCTGCT GTCCCTGGCT GGGGATGTGG CTCTGCAGCA GCTGGTCCAC 
TTGGAGCAGG CAGTGAGTGG AGAGCTCTGC CGGCGCCGAG TTCTCCGGGA AGAACAGGAG 
CACAAGACCA AAGATCCCAA GGAGAAGAAT ACGAGCTCTG AGACCACCAT GGAGGAGGAG 
CTGGGGCTGG TTGGGGCAAC AGCAGATGAC ACAGAGGCAG AACTAATCCG TGGCATCTGC 
GAGATGGAAC TGTTGGATGG CAAACAGACA CTGGCTGCCT TTGTTCCACT CTTGCTTAAA 
GTCTGTAACA ACCCAGGCCT CTATAGCAAC CCAGACCTCT CTGCAGCTGC TTCACTTGCC 
CTTGGCAAGT TCTGCATGAT CAGTGCCACT TTCTGCGACT CCCAGCTTCG TCTTCTGTTC 
ACCATGCTGG AAAAGTCTCC ACTTCCCATT GTCCGGTCTA ACCTCATGGT TGCCACTGGG 
GATCTGGCCA TCCGCTTTCC CAATCTGGTG GACCCCTGGA CTCCTCATCT GTATGCTCGT 
CTCCGGGACC CTGCTCAGCA AGTGCGGAAA ACAGCGGGGC TGGTGATGAC CCACCTGATC 
CTCAAGGACA TGGTGAAGGT GAAGGGGCAG GTCAGCGAGA TGGCGGTGCT GCTCATCGAC 
CCCGAGCCTC AGATTGCTGC CCTGGCCAAG AACTTCTTCA ATGAGCTCTC CCACAAGGGC 
AACGCAATCT ATAATCTCCT TCCAGATATC ATCAGCCGCC TGTCAGACCC CGAGCTGGGG 
GTGGAGGAAG AGCCTTTCCA CACCATCATG AAACAGCTCC TCTCCTACAT CACCAAGGAC 
AAGCAGACAG AGAGCCTGGT GGAAAAGCTG TGTCAGCGGT TCCGCACATC CCGAACTGAG 
CGGCAGCAGC GAGACCTGGC CTACTGTGTG TCACAGCTGC CCCTCACAGA GCGAGGCCTC 
CGTAAGATGC TTGACAATTT TGACTGTTTT GGAGACAAAC TGTCAGATGA GTCCATCTTC 
AGTGCTTTTT TGTCAGTTGT AGGCAAGCTG CGACGTGGGG CCAAGCCTGA GGGCAAGGCT 
ATAATAGATG AATTTGAGCA GAAGCTTCGG GCCTGTCATA CCAGAGGTTT GGATGGAATC 
AAGGAGCTTG AGATTGGCCA AGCAGGTAGC CAGAGAGCGC CATCAGCCAA GAAACCATCC 
ACTGGTTCTA GGTACCAGCC TCTGGCTTCT ACAGCCTCAG ACAATGACTT TGTCACACCA 
GAGCCCCGCC GTACTACCCG TCGGCATCCA AACACCCAGC AGCGAGCTTC CAAAAAGAAA 
CCCAAAGTTG TCTTCTCAAG TGATGAGTCC AGTGAGGAAG ATCTTTCAGC AGAGATGACA 
GAAGACGAGA CACCCAAGAA AACAACTCCC ATTCTCAGAG CATCGGCTCG CAGGCACAGA 
TCCTAG

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

RefSeq	NP_055680.3
CDS	47..4252
Translation	MAPQMYEFHLPLSPEELLKSGGVNQYVVQEVLSIKHLPPQLRAFQAAFRAQGPLAMLQHFDTIYSILHHFRSIDPGLKEDTLQFLIKVVSRHSQELPAILDDTTLSGSDRNAHLNALKMNCYALIRLLESFETMASQTNLVDLDLGGKGKKARTKAAHGFDWEEERQPILQLLTQLLQLDIRHLWNHSIIEEEFVSLVTGCCYRLLENPTINHQKNRPTREAITHLLGVALTRYNHMLSATVKIIQMLQHFEHLAPVLVAAVSLWATDYGMKSIVGEIVREIGQKCPQELSRDPSGTKGFAAFLTELAERVPAILMSSMCILLDHLDGENYMMRNAVLAAMAEMVLQVLSGDQLEAAARDTRDQFLDTLQAHGHDVNSFVRSRVLQLFTRIVQQKALPLTRFQAVVALAVGRLADKSVLVCKNAIQLLASFLANNPFSCKLSDADLAGPLQKETQKLQEMRAQRRTAAASAVLDPEEEWEAMLPELKSTLQQLLQLPQGEEEIPEQIANTETTEDVKGRIYQLLAKASYKKAIILTREATGHFQESEPFSHIDPEESEETRLLNILGLIFKGPAASTQEKNPRESTGNMVTGQTVCKNKPNMSDPEESRGNDELVKQEMLVQYLQDAYSFSRKITEAIGIISKMMYENTTTVVQEVIEFFVMVFQFGVPQALFGVRRMLPLIWSKEPGVREAVLNAYRQLYLNPKGDSARAKAQALIQNLSLLLVDASVGTIQCLEEILCEFVQKDELKPAVTQLLWERATEKVACCPLERCSSVMLLGMMARGKPEIVGSNLDTLVSIGLDEKFPQDYRLAQQVCHAIANISDRRKPSLGKRHPPFRLPQEHRLFERLRETVTKGFVHPDPLWIPFKEVAVTLIYQLAEGPEVICAQILQGCAKQALEKLEEKRTSQEDPKESPAMLPTFLLMNLLSLAGDVALQQLVHLEQAVSGELCRRRVLREEQEHKTKDPKEKNTSSETTMEEELGLVGATADDTEAELIRGICEMELLDGKQTLAAFVPLLLKVCNNPGLYSNPDLSAAASLALGKFCMISATFCDSQLRLLFTMLEKSPLPIVRSNLMVATGDLAIRFPNLVDPWTPHLYARLRDPAQQVRKTAGLVMTHLILKDMVKVKGQVSEMAVLLIDPEPQIAALAKNFFNELSHKGNAIYNLLPDIISRLSDPELGVEEEPFHTIMKQLLSYITKDKQTESLVEKLCQRFRTSRTERQQRDLAYCVSQLPLTERGLRKMLDNFDCFGDKLSDESIFSAFLSVVGKLRRGAKPEGKAIIDEFEQKLRACHTRGLDGIKELEIGQAGSQRAPSAKKPSTGSRYQPLASTASDNDFVTPEPRRTTRRHPNTQQRASKKKPKVVFSSDESSEEDLSAEMTEDETPKKTTPILRASARRHRS

Target ORF information:

RefSeq Version	NM_014865.3
Organism	Homo sapiens(human)
Definition	Homo sapiens non-SMC condensin I complex subunit D2 (NCAPD2), mRNA.

Target ORF information:

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

NM_014865.3

ORF Insert Sequence:

ATGGCTCCCC AAATGTATGA GTTCCATCTG CCATTATCCC CAGAGGAGTT GTTGAAAAGT 
GGAGGGGTGA ATCAGTATGT TGTGCAAGAG GTACTGTCCA TCAAACATCT TCCACCACAG 
CTTAGAGCTT TTCAGGCTGC CTTTCGAGCT CAGGGGCCCC TGGCTATGCT GCAGCACTTT 
GATACTATCT ACAGCATTTT GCATCACTTT CGAAGTATAG ATCCTGGCCT CAAAGAAGAT 
ACTCTGCAAT TCCTGATAAA AGTGGTATCC CGCCACTCCC AGGAGCTTCC AGCTATCCTG 
GATGATACAA CTTTGAGTGG ATCAGATAGA AACGCCCATC TAAATGCCCT CAAAATGAAC 
TGTTATGCTC TGATACGTCT CCTGGAATCC TTTGAGACCA TGGCCAGCCA GACAAACCTT 
GTGGACCTGG ACCTTGGTGG GAAGGGTAAG AAAGCTCGGA CCAAGGCAGC CCATGGCTTT 
GACTGGGAAG AAGAGAGGCA ACCAATTCTT CAGCTTTTAA CACAGCTACT TCAGTTGGAC 
ATCCGTCACC TGTGGAACCA CTCAATAATT GAAGAAGAAT TTGTCAGTTT GGTTACTGGC 
TGTTGCTACC GCCTTCTGGA GAATCCCACC ATTAATCACC AGAAGAACCG CCCCACTCGG 
GAAGCCATAA CACACCTGCT TGGTGTAGCC TTGACCCGTT ATAACCATAT GCTCAGTGCT 
ACAGTGAAGA TCATCCAGAT GCTGCAGCAC TTTGAACACC TGGCACCTGT ACTGGTTGCA 
GCCGTGAGTC TATGGGCAAC TGACTATGGA ATGAAGAGCA TAGTGGGAGA GATTGTAAGA 
GAGATTGGAC AAAAGTGTCC CCAAGAGCTG AGTCGAGACC CTTCAGGGAC AAAGGGCTTT 
GCAGCATTCC TGACAGAACT AGCAGAACGT GTCCCAGCTA TCCTGATGTC CAGCATGTGC 
ATTTTGCTAG ATCACCTGGA TGGAGAAAAT TACATGATGC GTAATGCTGT GCTGGCAGCC 
ATGGCGGAGA TGGTGCTGCA GGTTCTCAGT GGCGATCAAC TGGAAGCAGC AGCCCGAGAC 
ACCAGAGACC AGTTCTTGGA TACTTTACAA GCCCATGGCC ATGATGTCAA CTCCTTTGTG 
CGGAGCCGTG TTTTGCAGCT CTTCACCCGA ATTGTCCAGC AGAAGGCTCT CCCCCTGACA 
CGTTTCCAGG CAGTGGTGGC TTTAGCTGTG GGACGTCTGG CAGACAAGTC AGTGCTAGTA 
TGTAAAAATG CCATCCAGCT GCTGGCCAGT TTTCTAGCCA ATAATCCTTT CTCCTGCAAG 
CTTAGTGATG CTGACCTTGC CGGACCACTG CAGAAGGAGA CCCAGAAATT ACAAGAGATG 
AGGGCCCAGA GGCGAACTGC AGCAGCTTCT GCAGTGCTGG ACCCAGAGGA GGAGTGGGAA 
GCCATGCTGC CAGAGTTGAA GTCTACCCTG CAGCAGCTTC TACAGCTTCC CCAGGGAGAG 
GAGGAGATTC CTGAGCAAAT TGCCAATACA GAGACAACTG AAGATGTGAA AGGACGCATC 
TATCAACTGC TTGCCAAAGC TAGTTACAAA AAGGCCATCA TTCTCACTCG AGAAGCCACA 
GGCCACTTCC AGGAGTCCGA ACCCTTCAGT CATATAGACC CAGAGGAGTC AGAGGAGACC 
AGGCTCTTGA ATATCTTAGG ACTTATCTTC AAAGGCCCAG CAGCTTCCAC ACAAGAAAAG 
AATCCCCGGG AGTCTACAGG AAACATGGTC ACAGGACAGA CTGTCTGTAA AAATAAACCC 
AATATGTCGG ATCCTGAGGA ATCCAGGGGA AATGATGAAC TAGTGAAGCA GGAGATGCTG 
GTACAGTATC TGCAGGATGC CTACAGCTTC TCCCGGAAGA TTACAGAGGC CATTGGCATC 
ATCAGCAAGA TGATGTATGA AAACACAACT ACAGTGGTGC AGGAGGTGAT TGAATTCTTT 
GTGATGGTCT TCCAATTTGG GGTACCCCAG GCCCTGTTTG GGGTGCGCCG TATGCTGCCT 
CTCATCTGGT CTAAGGAGCC TGGTGTCCGG GAAGCCGTGC TTAATGCCTA CCGCCAACTC 
TACCTCAACC CCAAAGGGGA CTCTGCCAGA GCCAAGGCCC AGGCTTTGAT TCAGAATCTC 
TCTCTGCTGC TAGTGGATGC CTCGGTTGGG ACCATTCAGT GTCTTGAGGA AATTCTCTGT 
GAGTTTGTGC AGAAGGATGA GTTGAAACCA GCAGTGACCC AGCTGCTGTG GGAGCGGGCC 
ACCGAGAAGG TCGCCTGCTG TCCTCTGGAG CGCTGTTCCT CTGTCATGCT TCTTGGCATG 
ATGGCACGAG GAAAGCCAGA AATTGTGGGA AGCAATTTAG ACACACTGGT GAGCATAGGG 
CTGGATGAGA AGTTTCCACA GGACTACAGG CTGGCCCAGC AGGTGTGCCA TGCCATTGCC 
AACATCTCGG ACAGGAGAAA GCCTTCTCTG GGCAAACGTC ACCCCCCCTT CCGGCTGCCT 
CAGGAACACA GGTTGTTTGA GCGACTGCGG GAGACAGTCA CAAAAGGCTT TGTCCACCCA 
GACCCACTCT GGATCCCATT CAAAGAGGTG GCAGTGACCC TCATTTACCA ACTGGCAGAG 
GGCCCCGAAG TGATCTGTGC CCAGATATTG CAGGGCTGTG CAAAACAGGC CCTGGAGAAG 
CTAGAAGAGA AGAGAACCAG TCAGGAGGAC CCGAAGGAGT CCCCCGCAAT GCTCCCCACT 
TTCCTGTTGA TGAACCTGCT GTCCCTGGCT GGGGATGTGG CTCTGCAGCA GCTGGTCCAC 
TTGGAGCAGG CAGTGAGTGG AGAGCTCTGC CGGCGCCGAG TTCTCCGGGA AGAACAGGAG 
CACAAGACCA AAGATCCCAA GGAGAAGAAT ACGAGCTCTG AGACCACCAT GGAGGAGGAG 
CTGGGGCTGG TTGGGGCAAC AGCAGATGAC ACAGAGGCAG AACTAATCCG TGGCATCTGC 
GAGATGGAAC TGTTGGATGG CAAACAGACA CTGGCTGCCT TTGTTCCACT CTTGCTTAAA 
GTCTGTAACA ACCCAGGCCT CTATAGCAAC CCAGACCTCT CTGCAGCTGC TTCACTTGCC 
CTTGGCAAGT TCTGCATGAT CAGTGCCACT TTCTGCGACT CCCAGCTTCG TCTTCTGTTC 
ACCATGCTGG AAAAGTCTCC ACTTCCCATT GTCCGGTCTA ACCTCATGGT TGCCACTGGG 
GATCTGGCCA TCCGCTTTCC CAATCTGGTG GACCCCTGGA CTCCTCATCT GTATGCTCGT 
CTCCGGGACC CTGCTCAGCA AGTGCGGAAA ACAGCGGGGC TGGTGATGAC CCACCTGATC 
CTCAAGGACA TGGTGAAGGT GAAGGGGCAG GTCAGCGAGA TGGCGGTGCT GCTCATCGAC 
CCCGAGCCTC AGATTGCTGC CCTGGCCAAG AACTTCTTCA ATGAGCTCTC CCACAAGGGC 
AACGCAATCT ATAATCTCCT TCCAGATATC ATCAGCCGCC TGTCAGACCC CGAGCTGGGG 
GTGGAGGAAG AGCCTTTCCA CACCATCATG AAACAGCTCC TCTCCTACAT CACCAAGGAC 
AAGCAGACAG AGAGCCTGGT GGAAAAGCTG TGTCAGCGGT TCCGCACATC CCGAACTGAG 
CGGCAGCAGC GAGACCTGGC CTACTGTGTG TCACAGCTGC CCCTCACAGA GCGAGGCCTC 
CGTAAGATGC TTGACAATTT TGACTGTTTT GGAGACAAAC TGTCAGATGA GTCCATCTTC 
AGTGCTTTTT TGTCAGTTGT AGGCAAGCTG CGACGTGGGG CCAAGCCTGA GGGCAAGGCT 
ATAATAGATG AATTTGAGCA GAAGCTTCGG GCCTGTCATA CCAGAGGTTT GGATGGAATC 
AAGGAGCTTG AGATTGGCCA AGCAGGTAGC CAGAGAGCGC CATCAGCCAA GAAACCATCC 
ACTGGTTCTA GGTACCAGCC TCTGGCTTCT ACAGCCTCAG ACAATGACTT TGTCACACCA 
GAGCCCCGCC GTACTACCCG TCGGCATCCA AACACCCAGC AGCGAGCTTC CAAAAAGAAA 
CCCAAAGTTG TCTTCTCAAG TGATGAGTCC AGTGAGGAAG ATCTTTCAGC AGAGATGACA 
GAAGACGAGA CACCCAAGAA AACAACTCCC ATTCTCAGAG CATCGGCTCG CAGGCACAGA 
TCCTAG

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

PubMed

Mutations in genes encoding condensin complex proteins cause microcephaly through decatenation failure at mitosis.
Genes & development30(19)2158-2172(2016 Oct)
Martin CA,Murray JE,Carroll P,Leitch A,Mackenzie KJ,Halachev M,Fetit AE,Keith C,Bicknell LS,Fluteau A,Gautier P,Hall EA,Joss S,Soares G,Silva J,Bober MB,Duker A,Wise CA,Quigley AJ,Phadke SR,,Wood AJ,Vagnarelli P,Jackson AP

Aurora-A mediated histone H3 phosphorylation of threonine 118 controls condensin I and cohesin occupancy in mitosis.
eLife5e11402(2016 Feb)
Wike CL,Graves HK,Hawkins R,Gibson MD,Ferdinand MB,Zhang T,Chen Z,Hudson DF,Ottesen JJ,Poirier MG,Schumacher J,Tyler JK

A human interactome in three quantitative dimensions organized by stoichiometries and abundances.
Cell163(3)712-23(2015 Oct)
Hein MY,Hubner NC,Poser I,Cox J,Nagaraj N,Toyoda Y,Gak IA,Weisswange I,Mansfeld J,Buchholz F,Hyman AA,Mann M

Non-SMC condensin I complex, subunit D2 gene polymorphisms are associated with Parkinson's disease: a Han Chinese study.
Genome57(5)253-7(2014 May)
Zhang P,Liu L,Huang J,Shao L,Wang H,Xiong N,Wang T

Condensin I recruitment to base damage-enriched DNA lesions is modulated by PARP1.
PloS one6(8)e23548(2011)
Kong X,Stephens J,Ball AR Jr,Heale JT,Newkirk DA,Berns MW,Yokomori K

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オンライン注文

NCAPD2 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:

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