NCAPD3 cDNA ORF clone, Oryctolagus cuniculus(rabbit)

Gene
Clones
gRNAs

Summary

Gene Symbol	NCAPD3
Entrez Gene ID	103345099
Full Name	non-SMC condensin II complex subunit D3
Gene Type	protein-coding
Organism	Oryctolagus cuniculus(rabbit)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008248365.2	XP_008246587.1	condensin-2 complex subunit D3

Pathways from BioSystems
Gene Ontology

The following NCAPD3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NCAPD3 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OOb24611	XM_008248365.2 Latest version!	Oryctolagus cuniculus non-SMC condensin II complex subunit D3 (NCAPD3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

Reference Sequences (Refseq)

NCAPD3 ( XM_008248365.2 ) cDNA ORF clone, Oryctolagus cuniculus(rabbit) -> XP_008246587.1 Oryctolagus cuniculus non-SMC condensin II complex subunit D3 (NCAPD3), mRNA.

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CloneID	OOb24611
Clone ID Related Accession (Same CDS sequence)	XM_008248365.2
Accession Version	XM_008248365.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4461bp) 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	1466524800000
Organism	Oryctolagus cuniculus(rabbit)
Product	condensin-2 complex subunit D3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003159368.1) and transcript sequence (GBAX01135214.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 23, 2016 this sequence version replaced XM_008248365.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oryctolagus cuniculus Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 192 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGAGGCGC TGCGGGGCCT GGAGAGCGGC CTGCAGCCGT GGTGCCCGGT GGATCTCAGC 
CTCGAATGGG TGGATACAGT ATGGGAACTG GACTTCACAG AGACTGAGCC TTTGGATCCC 
AACATAGAAG CAGAGATCAT AGAGACTGGA TTGAATGCAT TCACAAAACT CTATGAAAGT 
CTTTTCCCCT TTGCCACTGA AGAACACGGA TCCACAGAGA GCATTTGGAC CTTCCTCATT 
GAGAACAATA TTTCCCACAG TGCTTTGGTG GCATTATTCT ATCACTTTGT TCAAATAGTC 
CATAAGAGAA GTATCAGTGT ACAATACCGA GAGTATGGCC TTCATGCTGC TGGACTTTAT 
TTTTTGCTAC TAGAAATACC AGGCAGTATA GCCAATCAAG TTTTCCACCC AGTGATGTTT 
GACAAATGCA TTCAGATCCT AAAGAAGAGC TGGCCCCAAG AATTTAACTT GAGTCGGAAA 
AGAAAGAAAG AGCAGCCTAA GAGCTCTCAG ACTAATCCAA GGGGAAACAG AAAAAGAGGG 
AAACCACTCA GGAAAGAGGA TATTGAGATG GATGAAACTA TAGAAGAAGA AGATGAGGAG 
GAGAATATTT GTTTTTCTGC CCGGGACCTT TCACAAATTA GAAATGCCAT CTTTCACCTT 
TTGAAGAATT TTTTGAGGCT TCTGCCCAAG TTTTCCCTGA AAGAAAAGCC ACAGTGTATA 
CAGAATTGTA TAGAAGTCTT TGTTGCATTA ACTAATTTTG AGCCAGTTCC CCATGAATTT 
TGTGTTACCC AAACCAGAAG CCTCCACCAA GTAAAATATA TTCCAGAGCT GGCCTATCAT 
GGATTGTATT TGCTGTGTTC CCCAATCCAT GGAGGAGATA AGGTTATCAG TTGTATCTTC 
CATCAACTGC TAAATGTCAT ATTAATGTTA GAAGAAGGTG AAGGATCTCA TCGTGCCCCA 
CTTGCCGTTA CTTCACAAGT CATCAGTCGA AGAAATCAAG CAGTCCAGTT TATCAGCTCA 
CTTGTGGATG AACTGAAGGA AAGTGTATTC CCAGTTCTTC GTATCTTACT GCAACACATC 
TGTGCCAAGG TGATTGATAA ATCTGAGTAT AGGACTTCTG CCGCCCAGGC CCTAGTGCAG 
CTGCTCAGTA AACTCCCTTG TGGGGAGTAT GCTGCATTTA TCACCTGGCT TTACAAATAC 
TCACGAAGCT CCAAGATCCC ACACCGAGTT TTTACACTTG ATGTTGTCTT AGCTCTGTTA 
GAACTGCCTG AAAGAGAGGC AGATAATACT GTCCCCTTGG AGCATCAGAA GTTCATCAAG 
CATAAGTTCT TGGTTCAGGA AATCATGTTT GACCGATGTT TAGACAAGGC ACCTACTGTC 
CGCAGCAAGG CACTGTCCAG CTTTGCACAT TGTCTGGAGC TGTCTGTGGC CAGTGCGTCA 
GAGAGTCTGC TGGAACTCCT TATTAACAGT CCTCCAGTTC TAGGAATAGA GAGTCATCCT 
GGTACCTTAG CAAGAAATTC ATCAGCTTTT TCTTCTCAAA GGCAGACTCT TAACCCTTCT 
GTTCCGTCAG AGGAGACCAA CATGGATGGC AGTGGTAAAT CTGTTGGAGC CAGGGAAAGA 
TGCGTCATGG AAATGCTGAG GAAGAGAATC AGGGATGAAA AGACCAATGT GAGGAAGTCT 
GCACTCCAGG TGTTAGTGAG TATTTTGAAG CACTGTGACA TCTTGGGTAT GGAGGAAGAC 
CTGTCGATTC TGCAAGACCA GTGCAGAGAC CCTGCAGTGT CTGTCCGGAA GCAGGCTCTG 
CAATCCCTTA CTGAACTTCT CATGGCCTAC CCGAGATGCG TCCAGATCCA GAAAGCCTGG 
CTGATGGGAG TAATCCCTGT GGTGATGGAC TGTGAGAGCA CTGTGCAAGA GAAGGCCCTG 
GAGTGCCTTG ACCAGCTCCT GCTACAGAAC ATTAAGCATC ACAGTAAATT TGACGGTGGG 
GACGACAGCC AGGTACTCGC ATGGGCACTT CTTGCTCTCC TCACGACAGA AAGCCAGGAA 
CTAAGCCGCT ATTTAAATAA GGCTTTTCAT ATCTGGTCCA AGAAAGATAA ATTCTCCCCC 
ACTTTTATCA ACAACATGAT CTCTCACACT GGCACAGAGC ATTCTGCACC AGCCTGGATG 
CTGCTCTCCA AGATCACCTG CTCATCACCC AAGCTGGACC ACACCAAGAT AATACAGTCC 
TGGGAGAAGA TCAGCAGTCA ACAGAATCCC CGTGCAGACA CCCTGGGACA CATTCTGTGT 
GTTATTGGGC ATATTGCAAA GCATCTTCCT AAGGGCACCC GGGACAAGGT TACAGATGTC 
GTCAAATGCA AGCTGAATGG ATTTCAGTGG TCTCTCGAGT TGATCAGTTC AGCTGTTGAT 
ACTTTGCAAA GGCTTTGTAG AGCCTCCTCA GAGACACTGG TGGAAGAGCA GGACCTGCTA 
AAGCAAGTGT GTGGGGATGT GCTGTCTACC TGTGAGCACC ACCTCTCCAA CATTGTTTTG 
AAGGAACATG GAGCAGGGAC TGTGGACGAA GACCTGTTGG TGAAGTACAT TTTTACCTTA 
GGGGATATAG CCCAGCTGTG TCCTGCCAGT GTGGAGAAGC GAGTCTTCCT TCTGATTCAG 
TCCATCCTGG CCTCCTCTGC TGATACAGAT CACGCCAGCC AGCCACCCTC CCAAGTCAGA 
GGCTCTGTCA TGCCGTCTGT GATTAGAGCA CATGCTGTCA TCACCTTAGG GAAACTGTGC 
CTGCAGCACG AGGACCTTGC CAAAAAGAGC ATCCCAGCCC TTGTCCGAGA GCTTGAGGTT 
TGTGAAGATG TGGCTGTCCG CAACAACGTC ATCATTGTCA TGTGTGATCT CTGCATCCGG 
TACACTGTCA TGGTGGACAA GTATATTCCT AACATCGCCA TGTGTCTGAA GGACCCAGAC 
CCTTTCATCC GAAAGCAGAC ACTCATCTTG CTCACCAACC TCTTGCAGGA AGAGTTTGTG 
AAATGGAAGG GCTCTCTGTT CTTTCGATTT GTCAGTACTT TGATAGATTC ACACCCAGAC 
ATTGCCAGCT TTGGAGAGTT TTGCCTGGCT CACCTGTTGC TGAAGAGGAA TCCTGTCATG 
TTCTTCCAGC ACTTCATTGA GTGCATCTTC CACTTCAACA ACTATGAGAA GCATGAGAAG 
TATAACAAAT TCTCCCAGTC AGAGAGAGAG AAGCGGCTGT TTTCACTGAA GGGAAAAGCA 
AACAAAGAGA AACGAATGAA AATCTACAAG TTTCTTCTGG AATACTTCAC AGATGAACAG 
CGATTCAACA TCACTTCCAA AATCTGCCTT AGTATTTTGG CGTGCTTTGC CGACGGTGTC 
CTCCCTCTGG ACATGGAAGC CAGTGAGCTG CTCTCAGATA CATTTGAGGT CCTCAGCTCC 
AAGGAAATCA AGCTTCTGGC CATGAGGTCT AAACCAGATA AGGACCTGCT TATGGAAGAA 
GATGACATGG CTCTGGCGAA TGCCGTCATG CAGGAGGCCC AGAAAAAGCT CATCTCCCAA 
GTTCAGAAGA GAAATTTCAT AGAAAATATC ATTCCAATTA TCATCTCCCT GAAGACTGTG 
CTGGAGAAAA ATAAGATCCC AGCTCTGCGG GAGCTCATGA ACTATCTCAG GGAGGTGATG 
CAGGATTACC GGGATGAAGT CAAGGACTTC TTCGCTGTTG ACAAACAACT GGCATCAGAA 
CTTGAGTACG ACATGAAGAA GTACAACGAA CAGCTAGCCC AAGAGCAAGA GCTGGCCAAA 
CTGGCGGAGG CGACTAGGAC CACAGACAGT GCCGACGGGG CGCAAGCAGT GCAGGCTGCT 
CCAGGCTTAG AAACGCCAGC TCCCCCTGGC CAAGAAAATC CTGCTGTGCT CCCTGCCGTG 
CGCCAGCCCT CAACTCCCTG GTCAAGCACT GGCCATGCAC CAACCTTGCC TCCTACACAA 
GAAATGGGAC CATTGAAAAT GTTAATGCCC AAAGCCAGGC CCATGTCCCT GAGCACCATT 
GCGATCTTGA ATTCCGTCAA GAAAGCAGTG GAGTCAAAGA GCAGGCATCA GAGCCGGAGC 
CTGGGAGTTG TGCCTTTCGC TTTAAATTCT GAAAGCCTGG ACAAAACAAG CAATCACGCA 
TCTTCATACA GTTTGGAGCA AGTGTCCAAT GGAGCTATTG ACCTTGTCAC TAAACGAGCC 
ATCAGCACCC CTGAGAAGAC CATCAATGAT GTCACCTTTG GAGCAGGGGT CAGCTACATA 
GGGACACCAC GGACTCCTTT TTCAGCCAAA GAGAAAGCTG AAACACAGAG CCACGGAAAT 
GACATTTTGT GTTTATCATT GCCGGACAAA CCGCCTCCAC AGCCTCAGCA GTGGAATGTG 
CAGTCTCCAG CCAGGAATAA AGACAACCCA CCCCCCAGCA GGAGGTCCCA GCGAAAGACA 
CCCCTGAAAA CAGCCAACTG A

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

RefSeq	XP_008246587.1
CDS	46..4506
Translation	MEALRGLESGLQPWCPVDLSLEWVDTVWELDFTETEPLDPNIEAEIIETGLNAFTKLYESLFPFATEEHGSTESIWTFLIENNISHSALVALFYHFVQIVHKRSISVQYREYGLHAAGLYFLLLEIPGSIANQVFHPVMFDKCIQILKKSWPQEFNLSRKRKKEQPKSSQTNPRGNRKRGKPLRKEDIEMDETIEEEDEEENICFSARDLSQIRNAIFHLLKNFLRLLPKFSLKEKPQCIQNCIEVFVALTNFEPVPHEFCVTQTRSLHQVKYIPELAYHGLYLLCSPIHGGDKVISCIFHQLLNVILMLEEGEGSHRAPLAVTSQVISRRNQAVQFISSLVDELKESVFPVLRILLQHICAKVIDKSEYRTSAAQALVQLLSKLPCGEYAAFITWLYKYSRSSKIPHRVFTLDVVLALLELPEREADNTVPLEHQKFIKHKFLVQEIMFDRCLDKAPTVRSKALSSFAHCLELSVASASESLLELLINSPPVLGIESHPGTLARNSSAFSSQRQTLNPSVPSEETNMDGSGKSVGARERCVMEMLRKRIRDEKTNVRKSALQVLVSILKHCDILGMEEDLSILQDQCRDPAVSVRKQALQSLTELLMAYPRCVQIQKAWLMGVIPVVMDCESTVQEKALECLDQLLLQNIKHHSKFDGGDDSQVLAWALLALLTTESQELSRYLNKAFHIWSKKDKFSPTFINNMISHTGTEHSAPAWMLLSKITCSSPKLDHTKIIQSWEKISSQQNPRADTLGHILCVIGHIAKHLPKGTRDKVTDVVKCKLNGFQWSLELISSAVDTLQRLCRASSETLVEEQDLLKQVCGDVLSTCEHHLSNIVLKEHGAGTVDEDLLVKYIFTLGDIAQLCPASVEKRVFLLIQSILASSADTDHASQPPSQVRGSVMPSVIRAHAVITLGKLCLQHEDLAKKSIPALVRELEVCEDVAVRNNVIIVMCDLCIRYTVMVDKYIPNIAMCLKDPDPFIRKQTLILLTNLLQEEFVKWKGSLFFRFVSTLIDSHPDIASFGEFCLAHLLLKRNPVMFFQHFIECIFHFNNYEKHEKYNKFSQSEREKRLFSLKGKANKEKRMKIYKFLLEYFTDEQRFNITSKICLSILACFADGVLPLDMEASELLSDTFEVLSSKEIKLLAMRSKPDKDLLMEEDDMALANAVMQEAQKKLISQVQKRNFIENIIPIIISLKTVLEKNKIPALRELMNYLREVMQDYRDEVKDFFAVDKQLASELEYDMKKYNEQLAQEQELAKLAEATRTTDSADGAQAVQAAPGLETPAPPGQENPAVLPAVRQPSTPWSSTGHAPTLPPTQEMGPLKMLMPKARPMSLSTIAILNSVKKAVESKSRHQSRSLGVVPFALNSESLDKTSNHASSYSLEQVSNGAIDLVTKRAISTPEKTINDVTFGAGVSYIGTPRTPFSAKEKAETQSHGNDILCLSLPDKPPPQPQQWNVQSPARNKDNPPPSRRSQRKTPLKTAN

Target ORF information:

RefSeq Version	XM_008248365.2
Organism	Oryctolagus cuniculus(rabbit)
Definition	Oryctolagus cuniculus non-SMC condensin II complex subunit D3 (NCAPD3), mRNA.

Target ORF information:

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

XM_008248365.2

ORF Insert Sequence:

ATGGAGGCGC TGCGGGGCCT GGAGAGCGGC CTGCAGCCGT GGTGCCCGGT GGATCTCAGC 
CTCGAATGGG TGGATACAGT ATGGGAACTG GACTTCACAG AGACTGAGCC TTTGGATCCC 
AACATAGAAG CAGAGATCAT AGAGACTGGA TTGAATGCAT TCACAAAACT CTATGAAAGT 
CTTTTCCCCT TTGCCACTGA AGAACACGGA TCCACAGAGA GCATTTGGAC CTTCCTCATT 
GAGAACAATA TTTCCCACAG TGCTTTGGTG GCATTATTCT ATCACTTTGT TCAAATAGTC 
CATAAGAGAA GTATCAGTGT ACAATACCGA GAGTATGGCC TTCATGCTGC TGGACTTTAT 
TTTTTGCTAC TAGAAATACC AGGCAGTATA GCCAATCAAG TTTTCCACCC AGTGATGTTT 
GACAAATGCA TTCAGATCCT AAAGAAGAGC TGGCCCCAAG AATTTAACTT GAGTCGGAAA 
AGAAAGAAAG AGCAGCCTAA GAGCTCTCAG ACTAATCCAA GGGGAAACAG AAAAAGAGGG 
AAACCACTCA GGAAAGAGGA TATTGAGATG GATGAAACTA TAGAAGAAGA AGATGAGGAG 
GAGAATATTT GTTTTTCTGC CCGGGACCTT TCACAAATTA GAAATGCCAT CTTTCACCTT 
TTGAAGAATT TTTTGAGGCT TCTGCCCAAG TTTTCCCTGA AAGAAAAGCC ACAGTGTATA 
CAGAATTGTA TAGAAGTCTT TGTTGCATTA ACTAATTTTG AGCCAGTTCC CCATGAATTT 
TGTGTTACCC AAACCAGAAG CCTCCACCAA GTAAAATATA TTCCAGAGCT GGCCTATCAT 
GGATTGTATT TGCTGTGTTC CCCAATCCAT GGAGGAGATA AGGTTATCAG TTGTATCTTC 
CATCAACTGC TAAATGTCAT ATTAATGTTA GAAGAAGGTG AAGGATCTCA TCGTGCCCCA 
CTTGCCGTTA CTTCACAAGT CATCAGTCGA AGAAATCAAG CAGTCCAGTT TATCAGCTCA 
CTTGTGGATG AACTGAAGGA AAGTGTATTC CCAGTTCTTC GTATCTTACT GCAACACATC 
TGTGCCAAGG TGATTGATAA ATCTGAGTAT AGGACTTCTG CCGCCCAGGC CCTAGTGCAG 
CTGCTCAGTA AACTCCCTTG TGGGGAGTAT GCTGCATTTA TCACCTGGCT TTACAAATAC 
TCACGAAGCT CCAAGATCCC ACACCGAGTT TTTACACTTG ATGTTGTCTT AGCTCTGTTA 
GAACTGCCTG AAAGAGAGGC AGATAATACT GTCCCCTTGG AGCATCAGAA GTTCATCAAG 
CATAAGTTCT TGGTTCAGGA AATCATGTTT GACCGATGTT TAGACAAGGC ACCTACTGTC 
CGCAGCAAGG CACTGTCCAG CTTTGCACAT TGTCTGGAGC TGTCTGTGGC CAGTGCGTCA 
GAGAGTCTGC TGGAACTCCT TATTAACAGT CCTCCAGTTC TAGGAATAGA GAGTCATCCT 
GGTACCTTAG CAAGAAATTC ATCAGCTTTT TCTTCTCAAA GGCAGACTCT TAACCCTTCT 
GTTCCGTCAG AGGAGACCAA CATGGATGGC AGTGGTAAAT CTGTTGGAGC CAGGGAAAGA 
TGCGTCATGG AAATGCTGAG GAAGAGAATC AGGGATGAAA AGACCAATGT GAGGAAGTCT 
GCACTCCAGG TGTTAGTGAG TATTTTGAAG CACTGTGACA TCTTGGGTAT GGAGGAAGAC 
CTGTCGATTC TGCAAGACCA GTGCAGAGAC CCTGCAGTGT CTGTCCGGAA GCAGGCTCTG 
CAATCCCTTA CTGAACTTCT CATGGCCTAC CCGAGATGCG TCCAGATCCA GAAAGCCTGG 
CTGATGGGAG TAATCCCTGT GGTGATGGAC TGTGAGAGCA CTGTGCAAGA GAAGGCCCTG 
GAGTGCCTTG ACCAGCTCCT GCTACAGAAC ATTAAGCATC ACAGTAAATT TGACGGTGGG 
GACGACAGCC AGGTACTCGC ATGGGCACTT CTTGCTCTCC TCACGACAGA AAGCCAGGAA 
CTAAGCCGCT ATTTAAATAA GGCTTTTCAT ATCTGGTCCA AGAAAGATAA ATTCTCCCCC 
ACTTTTATCA ACAACATGAT CTCTCACACT GGCACAGAGC ATTCTGCACC AGCCTGGATG 
CTGCTCTCCA AGATCACCTG CTCATCACCC AAGCTGGACC ACACCAAGAT AATACAGTCC 
TGGGAGAAGA TCAGCAGTCA ACAGAATCCC CGTGCAGACA CCCTGGGACA CATTCTGTGT 
GTTATTGGGC ATATTGCAAA GCATCTTCCT AAGGGCACCC GGGACAAGGT TACAGATGTC 
GTCAAATGCA AGCTGAATGG ATTTCAGTGG TCTCTCGAGT TGATCAGTTC AGCTGTTGAT 
ACTTTGCAAA GGCTTTGTAG AGCCTCCTCA GAGACACTGG TGGAAGAGCA GGACCTGCTA 
AAGCAAGTGT GTGGGGATGT GCTGTCTACC TGTGAGCACC ACCTCTCCAA CATTGTTTTG 
AAGGAACATG GAGCAGGGAC TGTGGACGAA GACCTGTTGG TGAAGTACAT TTTTACCTTA 
GGGGATATAG CCCAGCTGTG TCCTGCCAGT GTGGAGAAGC GAGTCTTCCT TCTGATTCAG 
TCCATCCTGG CCTCCTCTGC TGATACAGAT CACGCCAGCC AGCCACCCTC CCAAGTCAGA 
GGCTCTGTCA TGCCGTCTGT GATTAGAGCA CATGCTGTCA TCACCTTAGG GAAACTGTGC 
CTGCAGCACG AGGACCTTGC CAAAAAGAGC ATCCCAGCCC TTGTCCGAGA GCTTGAGGTT 
TGTGAAGATG TGGCTGTCCG CAACAACGTC ATCATTGTCA TGTGTGATCT CTGCATCCGG 
TACACTGTCA TGGTGGACAA GTATATTCCT AACATCGCCA TGTGTCTGAA GGACCCAGAC 
CCTTTCATCC GAAAGCAGAC ACTCATCTTG CTCACCAACC TCTTGCAGGA AGAGTTTGTG 
AAATGGAAGG GCTCTCTGTT CTTTCGATTT GTCAGTACTT TGATAGATTC ACACCCAGAC 
ATTGCCAGCT TTGGAGAGTT TTGCCTGGCT CACCTGTTGC TGAAGAGGAA TCCTGTCATG 
TTCTTCCAGC ACTTCATTGA GTGCATCTTC CACTTCAACA ACTATGAGAA GCATGAGAAG 
TATAACAAAT TCTCCCAGTC AGAGAGAGAG AAGCGGCTGT TTTCACTGAA GGGAAAAGCA 
AACAAAGAGA AACGAATGAA AATCTACAAG TTTCTTCTGG AATACTTCAC AGATGAACAG 
CGATTCAACA TCACTTCCAA AATCTGCCTT AGTATTTTGG CGTGCTTTGC CGACGGTGTC 
CTCCCTCTGG ACATGGAAGC CAGTGAGCTG CTCTCAGATA CATTTGAGGT CCTCAGCTCC 
AAGGAAATCA AGCTTCTGGC CATGAGGTCT AAACCAGATA AGGACCTGCT TATGGAAGAA 
GATGACATGG CTCTGGCGAA TGCCGTCATG CAGGAGGCCC AGAAAAAGCT CATCTCCCAA 
GTTCAGAAGA GAAATTTCAT AGAAAATATC ATTCCAATTA TCATCTCCCT GAAGACTGTG 
CTGGAGAAAA ATAAGATCCC AGCTCTGCGG GAGCTCATGA ACTATCTCAG GGAGGTGATG 
CAGGATTACC GGGATGAAGT CAAGGACTTC TTCGCTGTTG ACAAACAACT GGCATCAGAA 
CTTGAGTACG ACATGAAGAA GTACAACGAA CAGCTAGCCC AAGAGCAAGA GCTGGCCAAA 
CTGGCGGAGG CGACTAGGAC CACAGACAGT GCCGACGGGG CGCAAGCAGT GCAGGCTGCT 
CCAGGCTTAG AAACGCCAGC TCCCCCTGGC CAAGAAAATC CTGCTGTGCT CCCTGCCGTG 
CGCCAGCCCT CAACTCCCTG GTCAAGCACT GGCCATGCAC CAACCTTGCC TCCTACACAA 
GAAATGGGAC CATTGAAAAT GTTAATGCCC AAAGCCAGGC CCATGTCCCT GAGCACCATT 
GCGATCTTGA ATTCCGTCAA GAAAGCAGTG GAGTCAAAGA GCAGGCATCA GAGCCGGAGC 
CTGGGAGTTG TGCCTTTCGC TTTAAATTCT GAAAGCCTGG ACAAAACAAG CAATCACGCA 
TCTTCATACA GTTTGGAGCA AGTGTCCAAT GGAGCTATTG ACCTTGTCAC TAAACGAGCC 
ATCAGCACCC CTGAGAAGAC CATCAATGAT GTCACCTTTG GAGCAGGGGT CAGCTACATA 
GGGACACCAC GGACTCCTTT TTCAGCCAAA GAGAAAGCTG AAACACAGAG CCACGGAAAT 
GACATTTTGT GTTTATCATT GCCGGACAAA CCGCCTCCAC AGCCTCAGCA GTGGAATGTG 
CAGTCTCCAG CCAGGAATAA AGACAACCCA CCCCCCAGCA GGAGGTCCCA GCGAAAGACA 
CCCCTGAAAA CAGCCAACTG A

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

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NCAPD3 cDNA ORF clone, Oryctolagus cuniculus(rabbit)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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