Ccdc40 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Ccdc40
Entrez Gene ID	287867
Full Name	coiled-coil domain containing 40
General protein information	Preferred Names coiled-coil domain containing 40 Names coiled-coil domain-containing protein 40
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 10 Map Location: 10q32.3

mRNA and Protein(s)

mRNA	Protein	Name
XM_008768470.2	XP_008766692.1	coiled-coil domain-containing protein 40 isoform X1
XM_008768471.2	XP_008766693.1	coiled-coil domain-containing protein 40 isoform X2
NM_001134688.1	NP_001128160.1	coiled-coil domain-containing protein 40

Pathways from BioSystems

Homologies

Xenopus tropicalis (tropical clawed frog)	LOC100486955	XP_002937644.2
Gallus gallus (chicken)	CCDC40	XP_420086.3
Bos taurus (cattle)	CCDC40	XP_005221339.1
Mus musculus (house mouse)	Ccdc40	NP_780639.1
Danio rerio (zebrafish)	ccdc40	NP_001258742.1
Homo sapiens (human)	CCDC40	NP_060420.2
Canis lupus familiaris (dog)	CCDC40	XP_005624081.1
Drosophila melanogaster (fruit fly)	l(2)41Ab	NP_001263156.1
Pan troglodytes (chimpanzee)	CCDC40	XP_511721.3
	CCDC40	XP_001109774.2
Rattus norvegicus (Norway rat)	Ccdc40	NP_001128160.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP009129	XP_319887.3

Gene Ontology
Bibliography

Related articles in PubMed

Mutations in GAS8, a Gene Encoding a Nexin-Dynein Regulatory Complex Subunit, Cause Primary Ciliary Dyskinesia with Axonemal Disorganization.
Jeanson L, Thomas L, Copin B, Coste A, Sermet-Gaudelus I, Dastot-Le Moal F, Duquesnoy P, Montantin G, Collot N, Tissier S, Papon JF, Clement A, Louis B, Escudier E, Amselem S, Legendre M
Human mutation37(8)776-85(2016 08)

Loss-of-Function GAS8 Mutations Cause Primary Ciliary Dyskinesia and Disrupt the Nexin-Dynein Regulatory Complex.
Olbrich H, Cremers C, Loges NT, Werner C, Nielsen KG, Marthin JK, Philipsen M, Wallmeier J, Pennekamp P, Menchen T, Edelbusch C, Dougherty GW, Schwartz O, Thiele H, Altm?ller J, Rommelmann F, Omran H
American journal of human genetics97(4)546-54(2015 Oct)

Mutations in CCDC39 and CCDC40 are the major cause of primary ciliary dyskinesia with axonemal disorganization and absent inner dynein arms.
Antony D, Becker-Heck A, Zariwala MA, Schmidts M, Onoufriadis A, Forouhan M, Wilson R, Taylor-Cox T, Dewar A, Jackson C, Goggin P, Loges NT, Olbrich H, Jaspers M, Jorissen M, Leigh MW, Wolf WE, Daniels ML, Noone PG, Ferkol TW, Sagel SD, Rosenfeld M, Rutman A, Dixit A, O'Callaghan C, Lucas JS, Hogg C, Scambler PJ, Emes RD, , Chung EM, Shoemark A, Knowles MR, Omran H, Mitchison HM
Human mutation34(3)462-72(2013 Mar)

Delineation of CCDC39/CCDC40 mutation spectrum and associated phenotypes in primary ciliary dyskinesia.
Blanchon S, Legendre M, Copin B, Duquesnoy P, Montantin G, Kott E, Dastot F, Jeanson L, Cachanado M, Rousseau A, Papon JF, Beydon N, Brouard J, Crestani B, Deschildre A, D?sir J, Dollfus H, Leheup B, Tamalet A, Thumerelle C, Vojtek AM, Escalier D, Coste A, de Blic J, Cl?ment A, Escudier E, Amselem S
Journal of medical genetics49(6)410-6(2012 Jun)

High prevalence of respiratory ciliary dysfunction in congenital heart disease patients with heterotaxy.
Nakhleh N, Francis R, Giese RA, Tian X, Li Y, Zariwala MA, Yagi H, Khalifa O, Kureshi S, Chatterjee B, Sabol SL, Swisher M, Connelly PS, Daniels MP, Srinivasan A, Kuehl K, Kravitz N, Burns K, Sami I, Omran H, Barmada M, Olivier K, Chawla KK, Leigh M, Jonas R, Knowles M, Leatherbury L, Lo CW
Circulation125(18)2232-42(2012 May)

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

The following Ccdc40 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ccdc40 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)
ORa03386	NM_001134688.1 Latest version!	Rattus norvegicus coiled-coil domain containing 40 (Ccdc40), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
ORa44644	XM_008768470.2 Latest version!	Rattus norvegicus coiled-coil domain containing 40 (Ccdc40), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$559.30 $799.00
ORa44645	XM_008768471.2 Latest version!	Rattus norvegicus coiled-coil domain containing 40 (Ccdc40), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$559.30 $799.00

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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)

Ccdc40 ( NM_001134688.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001128160.1 Rattus norvegicus coiled-coil domain containing 40 (Ccdc40), mRNA.

Price & Availability↑

CloneID	ORa03386
Clone ID Related Accession (Same CDS sequence)	NM_001134688.1
Accession Version	NM_001134688.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3762bp) 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	2019-04-18
Organism	Rattus norvegicus(Norway rat)
Product	coiled-coil domain-containing protein 40
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH473948.1. On or before Sep 5, 2008 this sequence version replaced XM_001081764.1, XM_221189.4. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052296, SAMEA2689604 [ECO:0000348] ##Evidence-Data-END##

ATGGCGGAGC CGGAGGACCA GGCTGACGGG TCAAACCTGG AAGGCGAACA GACATCTGCG 
GAAGAGGAGA CAGAGCAGCA GTACACTGAA GGCCATGAGG TATCACCACA GTTGGAAAAC 
AGTGGCCAAA AAACTGCTGA GGGTAGAGAG CCCACCCAAG ATCCTGAAAG GGGCATTACA 
ACTGATAGCG AAGGCAGATT AGAAGGGGAA ATGGTGGATG CTGAGAGAGT CAGCACTGAA 
GGAGAAGCCA TCTCTGAAGG AGAAGTGGGG TCCATTGGAG AGGCTTTCCC AGAAACAGAA 
GTGGAATTCA TTGGAGAGGC TCCCCCAGAC ACAGTAGTGG AATTCATTGG AGAGGCTCCC 
CCAGGAACAG AAGTGGAATT CATTGGAGAG ACCACACCAG AAACACAGGC GGAACCCACT 
GGAGAGGCTA CCCCAGGAGT GGCTGTGAAA ACCATCAGAA AAGCGGAACA AGAAGTTGAA 
GTCATTAGAG AAGTCATCTC AGAAACTGAT GTGGACTCCA TTGTAAAAGC TATCCAAGGA 
GTGGACTTAG AATCCATTGG AGCCACCATA CCACAAAAAA AAGTTAAATA CACTGCAAAG 
GCCAGACCCC AAGATGAAGC GGAACCCACT GGAGAACCTG CCCCAGAAGG AGATTTTGAC 
GTTTCTGAAC AAGAGAAAGC AGGCCATCCC TCTGAGTTGG ACGAGCTCTC TGATATAATC 
AGCTCTCCTG CGTTCTCCTA CTCTGATGTC AGCCCCTGGG ACATGGGGGA AGAGGAGGCA 
AAAGCCTTAA CAACACAGGA CATATCCCAG GAAAGCGTCT ACGAGCCCAT AGAGCTCATA 
CAGCCCACAG AGCCCACAGA GCCTCCAGAG GACAGTGTGG TGAGACCCAT AGAGCCCTCC 
CGTCAAAGAT CCTTTCCTAT GGGGGCACGG CACCGCTTCA GACTGAGCAT TATGGGAAGT 
TTGACTCCCT CGGACATTGA CGATCTTCCC CTGGAAACAG AGGAAGCTCT TCAGCAAGAG 
TCAGTGCAGC CACCTCCCAG AGCCCATGAA GAAACCCGAA TACAGTTCCT AGACCAGGTC 
CAGACCCTCA GCCTCGAGGA CGAGACCCAG ATCGAAAGAC CAATGTCTGA AGGGAGTGAC 
GAAGCAGAGG AGGAAGGCGC CCAACTGATG GTGCTAGACC CAGACCACCC CCTGATGGTC 
AGATTCCAGG AGGCTCTGAA GAGCTACCTC AACCGGCAGA TCGACAAGCT GAAGTTGGAC 
ATCCAGGAAC TGGATGTGGC CACCAAGCAA ACCCGAATCC AGAGGCAGGA GCTGGGCGTG 
AACCTCTACG GGGTCCAGCA GCACCTGGCC CGCCTGCAGA TGCAGCTGGA GAAGAGCCAT 
GACCGACACT CTCTGGTCGC CTGCGAGCGG AGGAGGAAGG AGGAGGAGCT GCAGTGCAAC 
CGCGCCCTCT ACAACAAGAC CTATGCAACC GCCAAAGAGG AACGAAAGAA GTTTGCGGCC 
CTGCAGACCG AGATGGAGAG CCTGGCCCTG CACCTCTTCT ACATGCAGAA CATAGACCAG 
GACGTGCGTG ATGACATCCA AGTCATGAAG CAGGTGGTGA AAAAGACCGA GACAGAGAAG 
ATGAACGCAG AGATAGAGAA GAAAAAGCAG GACCTGTTCG TGGACCAGCT CACAGAAAGA 
GCGCACCAGC TGGAAGAGAA CATTGCCCTG TATGAGGCTC AATACTTGTC CCAGGCTGAG 
GACACCCGGG TTCTCAGGAA GGCAGTGACT GAGGCCATCA CAGAGATTGA CACTATTATC 
ATGGAGAAAA AGCGTATCCT GCAGCAGTGG ACCACCAGCC TAGTGGGCAT GAAGCACCGT 
AATGAGGCAT ACAGGACCGT GATGGATGCA CTGAGGGAGT GTGAGCATCA GGTGAAGTCC 
ATAGACAGTG AGATCGAGGC CTATAAGAAG TCCATCATGC AGGAGGAAGA GAAGAACGAG 
AAGCTGGCCC GCCTCCTGAA CCGCGCAGAG ACAGAAGCCG CCCTGGTGCA GAAGATGACC 
ACCCAGTGCT TAAGCAAGCA AGAGACCCTG CAGACTGAGT TTAACACGTA CCACCTCGCC 
CTGCAGGACA CCGAGGAGAT GCTGAACAAG GGCTATGTGG AACACTCGGC CGTCTTGAGC 
GAACTCCAGG GCACCCGCCA GGCTGTCCAT CAGGAGCAGG AGCTACGACA AAAGATGGAC 
ATATCCATCA TGGACAAGCT GCAGGAGCAC GGGACCTCCA GCAAGATGAC CAAGTACTTT 
CATCAGCTCC TTCGCAAGCT GCAAAAGGAA AACACGAACC TGGTGACACA CCTTTCAAAA 
ATTGATGGTG ACATCGCCCA GGCCACCCTA GACATCACCA ACACCAACGG CAAGGTAGAG 
ATGCATAAGA AGACACTGTT AGATCTGGAC AAGGAGGTAA AGAGGTTCAA CGAGCTCATC 
ACCAACAGCG AGAGCGAGAT CGTCCGGCGC ACCATCCTCA TCGAGAGGAA GCAGAGCCTC 
ATCAACTTCT TCAACAAGCA GCTAGAGCAG ATGGTGTCCG TGCTGGGGGG GGAAGAAGCT 
GGACCCCTGG AACTGGAGAT CAAAAGGCTG TCGAAGCTGA CAGAAGAGTA CAACACCGGA 
GTGACCCAGG CCCAGATGAC CTGGTTGCGA TTGCAGCAGG AACTGGTCCA GATCAGCCAC 
GAGCGTGAGG AGCGGCTGGA GTCTGTGGAC CAACTGAAGA AGGAGGTGCA CATCATGGAG 
CAAAAGAAGC TTCGCATAGA GAACAAGATT GAGCATGAGA AGAGGGAGCA AAAGATGGTG 
AGCCGCCACA TGAGGGACTT AGATAACGAC CTGAGCAAGC TCAATATGCT GTTGGACAAG 
AACCGGTGCA GTTCGGAACT GCTGGAGCAG AACAACGCTG TGGCTGAGAC AGAGTTCGTG 
CGCACTCTGA AGGATGCGGA AAGAGAGACC ATCCAAATGC AGGAAAAGCT GTCCGAACTC 
TGTGAGGAAA AGGCCACTCT CCTCAACAGC CTAGTGGAGG CCGAACACCA GATCATGCTC 
TGGGAGAAAA AAATCCAACT GGCCAAGGAG ATGCGCAGCT CGGTGGACTC CGATACTGGG 
CAGACGGAGA TCCGTGCCAT GAAGGCGGAG ATCCACAGGA TGAGGGTTAA GCACGGACAG 
CTACTGAAGC AGCAGGAGAA GATGATCCGA GACATGGAGC TGGCTGTGGC CCGCAGGGAG 
ACCATCGTCA TCCAGGCTGA AGGGCAGAGC AAGATAGACA AGAAGATAGT CACCAAGTCC 
GACTTCCACT TCCAGCAGAG CGAGCTGCGG AAGAAAATCA GGGAGGTTCA CAAGGCCACA 
GAGGAGTGCT CCAAAACCGT CTTGGAACTG GAGGAAGCTC AGAAGCTCCT GAGCAGCTCC 
CTCCAGGAAA AGCAGCAGTC GCTGTCGGAT ATGCAGAGTG ACACAGATGT TCTTGAAGAG 
GAGATCAGCC ATCTCTCGGC CCTCAAACGG AAGAACCTTT TGGAGATCGT GGCCCTGCAG 
ACCCGCGCCA AGCACCTGCA GGCCGCCGTT GATGGGAAAT ACGTGTTCTT GCACCGCAAC 
AGCAAGGCCC AGCTTATGGA GCGTAAGCGC CTGGGCATGA AGCTGTCCCA GCTCAGCAGC 
GTCCTCTCCC GCGTGCAGGA AGACTACCCC CAGTACCAGG AGATGCTGCA GAAAATTCAA 
GAGAAGATTG CTACCAGGCT GGAGGCCCCA GAGCCCTCCT AG

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

RefSeq	NP_001128160.1
CDS	629..4390
Translation	MAEPEDQADGSNLEGEQTSAEEETEQQYTEGHEVSPQLENSGQKTAEGREPTQDPERGITTDSEGRLEGEMVDAERVSTEGEAISEGEVGSIGEAFPETEVEFIGEAPPDTVVEFIGEAPPGTEVEFIGETTPETQAEPTGEATPGVAVKTIRKAEQEVEVIREVISETDVDSIVKAIQGVDLESIGATIPQKKVKYTAKARPQDEAEPTGEPAPEGDFDVSEQEKAGHPSELDELSDIISSPAFSYSDVSPWDMGEEEAKALTTQDISQESVYEPIELIQPTEPTEPPEDSVVRPIEPSRQRSFPMGARHRFRLSIMGSLTPSDIDDLPLETEEALQQESVQPPPRAHEETRIQFLDQVQTLSLEDETQIERPMSEGSDEAEEEGAQLMVLDPDHPLMVRFQEALKSYLNRQIDKLKLDIQELDVATKQTRIQRQELGVNLYGVQQHLARLQMQLEKSHDRHSLVACERRRKEEELQCNRALYNKTYATAKEERKKFAALQTEMESLALHLFYMQNIDQDVRDDIQVMKQVVKKTETEKMNAEIEKKKQDLFVDQLTERAHQLEENIALYEAQYLSQAEDTRVLRKAVTEAITEIDTIIMEKKRILQQWTTSLVGMKHRNEAYRTVMDALRECEHQVKSIDSEIEAYKKSIMQEEEKNEKLARLLNRAETEAALVQKMTTQCLSKQETLQTEFNTYHLALQDTEEMLNKGYVEHSAVLSELQGTRQAVHQEQELRQKMDISIMDKLQEHGTSSKMTKYFHQLLRKLQKENTNLVTHLSKIDGDIAQATLDITNTNGKVEMHKKTLLDLDKEVKRFNELITNSESEIVRRTILIERKQSLINFFNKQLEQMVSVLGGEEAGPLELEIKRLSKLTEEYNTGVTQAQMTWLRLQQELVQISHEREERLESVDQLKKEVHIMEQKKLRIENKIEHEKREQKMVSRHMRDLDNDLSKLNMLLDKNRCSSELLEQNNAVAETEFVRTLKDAERETIQMQEKLSELCEEKATLLNSLVEAEHQIMLWEKKIQLAKEMRSSVDSDTGQTEIRAMKAEIHRMRVKHGQLLKQQEKMIRDMELAVARRETIVIQAEGQSKIDKKIVTKSDFHFQQSELRKKIREVHKATEECSKTVLELEEAQKLLSSSLQEKQQSLSDMQSDTDVLEEEISHLSALKRKNLLEIVALQTRAKHLQAAVDGKYVFLHRNSKAQLMERKRLGMKLSQLSSVLSRVQEDYPQYQEMLQKIQEKIATRLEAPEPS

Target ORF information:

RefSeq Version	NM_001134688.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus coiled-coil domain containing 40 (Ccdc40), mRNA.

Target ORF information:

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

NM_001134688.1

ORF Insert Sequence:

ATGGCGGAGC CGGAGGACCA GGCTGACGGG TCAAACCTGG AAGGCGAACA GACATCTGCG 
GAAGAGGAGA CAGAGCAGCA GTACACTGAA GGCCATGAGG TATCACCACA GTTGGAAAAC 
AGTGGCCAAA AAACTGCTGA GGGTAGAGAG CCCACCCAAG ATCCTGAAAG GGGCATTACA 
ACTGATAGCG AAGGCAGATT AGAAGGGGAA ATGGTGGATG CTGAGAGAGT CAGCACTGAA 
GGAGAAGCCA TCTCTGAAGG AGAAGTGGGG TCCATTGGAG AGGCTTTCCC AGAAACAGAA 
GTGGAATTCA TTGGAGAGGC TCCCCCAGAC ACAGTAGTGG AATTCATTGG AGAGGCTCCC 
CCAGGAACAG AAGTGGAATT CATTGGAGAG ACCACACCAG AAACACAGGC GGAACCCACT 
GGAGAGGCTA CCCCAGGAGT GGCTGTGAAA ACCATCAGAA AAGCGGAACA AGAAGTTGAA 
GTCATTAGAG AAGTCATCTC AGAAACTGAT GTGGACTCCA TTGTAAAAGC TATCCAAGGA 
GTGGACTTAG AATCCATTGG AGCCACCATA CCACAAAAAA AAGTTAAATA CACTGCAAAG 
GCCAGACCCC AAGATGAAGC GGAACCCACT GGAGAACCTG CCCCAGAAGG AGATTTTGAC 
GTTTCTGAAC AAGAGAAAGC AGGCCATCCC TCTGAGTTGG ACGAGCTCTC TGATATAATC 
AGCTCTCCTG CGTTCTCCTA CTCTGATGTC AGCCCCTGGG ACATGGGGGA AGAGGAGGCA 
AAAGCCTTAA CAACACAGGA CATATCCCAG GAAAGCGTCT ACGAGCCCAT AGAGCTCATA 
CAGCCCACAG AGCCCACAGA GCCTCCAGAG GACAGTGTGG TGAGACCCAT AGAGCCCTCC 
CGTCAAAGAT CCTTTCCTAT GGGGGCACGG CACCGCTTCA GACTGAGCAT TATGGGAAGT 
TTGACTCCCT CGGACATTGA CGATCTTCCC CTGGAAACAG AGGAAGCTCT TCAGCAAGAG 
TCAGTGCAGC CACCTCCCAG AGCCCATGAA GAAACCCGAA TACAGTTCCT AGACCAGGTC 
CAGACCCTCA GCCTCGAGGA CGAGACCCAG ATCGAAAGAC CAATGTCTGA AGGGAGTGAC 
GAAGCAGAGG AGGAAGGCGC CCAACTGATG GTGCTAGACC CAGACCACCC CCTGATGGTC 
AGATTCCAGG AGGCTCTGAA GAGCTACCTC AACCGGCAGA TCGACAAGCT GAAGTTGGAC 
ATCCAGGAAC TGGATGTGGC CACCAAGCAA ACCCGAATCC AGAGGCAGGA GCTGGGCGTG 
AACCTCTACG GGGTCCAGCA GCACCTGGCC CGCCTGCAGA TGCAGCTGGA GAAGAGCCAT 
GACCGACACT CTCTGGTCGC CTGCGAGCGG AGGAGGAAGG AGGAGGAGCT GCAGTGCAAC 
CGCGCCCTCT ACAACAAGAC CTATGCAACC GCCAAAGAGG AACGAAAGAA GTTTGCGGCC 
CTGCAGACCG AGATGGAGAG CCTGGCCCTG CACCTCTTCT ACATGCAGAA CATAGACCAG 
GACGTGCGTG ATGACATCCA AGTCATGAAG CAGGTGGTGA AAAAGACCGA GACAGAGAAG 
ATGAACGCAG AGATAGAGAA GAAAAAGCAG GACCTGTTCG TGGACCAGCT CACAGAAAGA 
GCGCACCAGC TGGAAGAGAA CATTGCCCTG TATGAGGCTC AATACTTGTC CCAGGCTGAG 
GACACCCGGG TTCTCAGGAA GGCAGTGACT GAGGCCATCA CAGAGATTGA CACTATTATC 
ATGGAGAAAA AGCGTATCCT GCAGCAGTGG ACCACCAGCC TAGTGGGCAT GAAGCACCGT 
AATGAGGCAT ACAGGACCGT GATGGATGCA CTGAGGGAGT GTGAGCATCA GGTGAAGTCC 
ATAGACAGTG AGATCGAGGC CTATAAGAAG TCCATCATGC AGGAGGAAGA GAAGAACGAG 
AAGCTGGCCC GCCTCCTGAA CCGCGCAGAG ACAGAAGCCG CCCTGGTGCA GAAGATGACC 
ACCCAGTGCT TAAGCAAGCA AGAGACCCTG CAGACTGAGT TTAACACGTA CCACCTCGCC 
CTGCAGGACA CCGAGGAGAT GCTGAACAAG GGCTATGTGG AACACTCGGC CGTCTTGAGC 
GAACTCCAGG GCACCCGCCA GGCTGTCCAT CAGGAGCAGG AGCTACGACA AAAGATGGAC 
ATATCCATCA TGGACAAGCT GCAGGAGCAC GGGACCTCCA GCAAGATGAC CAAGTACTTT 
CATCAGCTCC TTCGCAAGCT GCAAAAGGAA AACACGAACC TGGTGACACA CCTTTCAAAA 
ATTGATGGTG ACATCGCCCA GGCCACCCTA GACATCACCA ACACCAACGG CAAGGTAGAG 
ATGCATAAGA AGACACTGTT AGATCTGGAC AAGGAGGTAA AGAGGTTCAA CGAGCTCATC 
ACCAACAGCG AGAGCGAGAT CGTCCGGCGC ACCATCCTCA TCGAGAGGAA GCAGAGCCTC 
ATCAACTTCT TCAACAAGCA GCTAGAGCAG ATGGTGTCCG TGCTGGGGGG GGAAGAAGCT 
GGACCCCTGG AACTGGAGAT CAAAAGGCTG TCGAAGCTGA CAGAAGAGTA CAACACCGGA 
GTGACCCAGG CCCAGATGAC CTGGTTGCGA TTGCAGCAGG AACTGGTCCA GATCAGCCAC 
GAGCGTGAGG AGCGGCTGGA GTCTGTGGAC CAACTGAAGA AGGAGGTGCA CATCATGGAG 
CAAAAGAAGC TTCGCATAGA GAACAAGATT GAGCATGAGA AGAGGGAGCA AAAGATGGTG 
AGCCGCCACA TGAGGGACTT AGATAACGAC CTGAGCAAGC TCAATATGCT GTTGGACAAG 
AACCGGTGCA GTTCGGAACT GCTGGAGCAG AACAACGCTG TGGCTGAGAC AGAGTTCGTG 
CGCACTCTGA AGGATGCGGA AAGAGAGACC ATCCAAATGC AGGAAAAGCT GTCCGAACTC 
TGTGAGGAAA AGGCCACTCT CCTCAACAGC CTAGTGGAGG CCGAACACCA GATCATGCTC 
TGGGAGAAAA AAATCCAACT GGCCAAGGAG ATGCGCAGCT CGGTGGACTC CGATACTGGG 
CAGACGGAGA TCCGTGCCAT GAAGGCGGAG ATCCACAGGA TGAGGGTTAA GCACGGACAG 
CTACTGAAGC AGCAGGAGAA GATGATCCGA GACATGGAGC TGGCTGTGGC CCGCAGGGAG 
ACCATCGTCA TCCAGGCTGA AGGGCAGAGC AAGATAGACA AGAAGATAGT CACCAAGTCC 
GACTTCCACT TCCAGCAGAG CGAGCTGCGG AAGAAAATCA GGGAGGTTCA CAAGGCCACA 
GAGGAGTGCT CCAAAACCGT CTTGGAACTG GAGGAAGCTC AGAAGCTCCT GAGCAGCTCC 
CTCCAGGAAA AGCAGCAGTC GCTGTCGGAT ATGCAGAGTG ACACAGATGT TCTTGAAGAG 
GAGATCAGCC ATCTCTCGGC CCTCAAACGG AAGAACCTTT TGGAGATCGT GGCCCTGCAG 
ACCCGCGCCA AGCACCTGCA GGCCGCCGTT GATGGGAAAT ACGTGTTCTT GCACCGCAAC 
AGCAAGGCCC AGCTTATGGA GCGTAAGCGC CTGGGCATGA AGCTGTCCCA GCTCAGCAGC 
GTCCTCTCCC GCGTGCAGGA AGACTACCCC CAGTACCAGG AGATGCTGCA GAAAATTCAA 
GAGAAGATTG CTACCAGGCT GGAGGCCCCA GAGCCCTCCT AG

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

Ccdc40 ( XM_008768470.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008766692.1 Rattus norvegicus coiled-coil domain containing 40 (Ccdc40), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa44644
Clone ID Related Accession (Same CDS sequence)	XM_008768470.2
Accession Version	XM_008768470.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3051bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	coiled-coil domain-containing protein 40 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005109.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008768470.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 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##

ATGGCGGAGC CGGAGGACCA GGCTGACGGC AGGTCAAACC TGGAAGGCGA ACAGACATCT 
GCGGAAGAGG AGACAGAGCA GCAGTACACT GAAGGCCATG AGGTATCACC ACAGTTGGAA 
AACAGTGGCC AAAAAACTGC TGAGGGTAGA GAGCCCACCC AAGATCCTGA AAGGGGCATT 
ACAACTGATA GCGAAGGCAG ATTAGAAGGG GAAATGGTGG ATGCTGAGAG AGTCAGCACT 
GAAGGAGAAG CCATCTCTGA AGGAGAAGTG GGGTCCATTG GAGAGGCTTT CCCAGAAACA 
GAAGTGGAAT TCATTGGAGA GGCTCCCCCA GACACAGTAG TGGAATTCAT TGGAGAGGCT 
CCCCCAGGAA CAGAAGTGGA ATTCATTGGA GAGACCACAC CAGAAACACA GGCGGAACCC 
ACTGGAGAGG CTACCCCAGG AGTGGCTGTG AAAACCATCA GAAAAGCGGA ACAAGAAGTT 
GAAGTCATTA GAGAAGTCAT CTCAGAAACT GATGTGGACT CCATTGTAAA AGCTATCCAA 
GGAGTGGACT TAGAATCCAT TGGAGCCACC ATACCACAAA AAAAAGTTAA ATACACTGCA 
AAGGCCAGAC CCCAAGATGA AGCGGAACCC ACTGGAGAAC CTGCCCCAGA AGGAGATTTT 
GACGTTTCTG AACAAGAGAA AGCAGGCCAT CCCTCTGAGT TGGACGAGCT CTCTGATATA 
ATCAGCTCTC CTGCGTTCTC CTACTCTGAT GTCAGCCCCT GGGACATGGG GGAAGAGGAG 
GCAAAAGCCT TAACAACACA GGACATATCC CAGGAAAGCG TCTACGAGCC CATAGAGCTC 
ATACAGCCCA CAGAGCCCAC AGAGCCTCCA GAGGACAGTG TGGTGAGACC CATAGAGCCC 
TCCCGTCAAA GATCCTTTCC TATGGGGGCA CGGCACCGCT TCAGACTGAG CATTATGGGA 
AGTTTGACTC CCTCGGACAT TGACGATCTT CCCCTGGAAA CAGAGGAAGC TCTTCAGCAA 
GAGTCAGTGC AGCCACCTCC CAGAGCCCAT GAAGAAACCC GAATACAGTT CCTAGACCAG 
GTCCAGACCC TCAGCCTCGA GGACGAGACC CAGATCGAAA GACCAATGTC TGAAGGGAGT 
GACGAAGCAG AGGAGGAAGG CGCCCAACTG ATGGTGCTAG ACCCAGACCA CCCCCTGATG 
GTCAGATTCC AGGAGGCTCT GAAGAGCTAC CTCAACCGGC AGATCGACAA GCTGAAGTTG 
GACATCCAGG AACTGGATGT GGCCACCAAG CAAACCCGAA TCCAGAGGCA GGAGCTGGGC 
GTGAACCTCT ACGGGGTCCA GCAGCACCTG GCCCGCCTGC AGATGCAGCT GGAGAAGAGC 
CATGACCGAC ACTCTCTGGT CGCCTGCGAG CGGAGGAGGA AGGAGGAGGA GCTGCAGTGC 
AACCGCGCCC TCTACAACAA GACCTATGCA ACCGCCAAAG AGGAACGAAA GAAGTTTGCG 
GCCCTGCAGA CCGAGATGGA GAGCCTGGCC CTGCACCTCT TCTACATGCA GAACATAGAC 
CAGGACGTGC GTGATGACAT CCAAGTCATG AAGCAGGTGG TGAAAAAGAC CGAGACAGAG 
AAGATGAACG CAGAGATAGA GAAGAAAAAG CAGGACCTGT TCGTGGACCA GCTCACAGAA 
AGAGCGCACC AGCTGGAAGA GAACATTGCC CTGTATGAGG CTCAATACTT GTCCCAGGCT 
GAGGACACCC GGGTTCTCAG GAAGGCAGTG ACTGAGGCCA TCACAGAGAT TGACACTATT 
ATCATGGAGA AAAAGCGTAT CCTGCAGCAG TGGACCACCA GCCTAGTGGG CATGAAGCAC 
CGTAATGAGG CATACAGGAC CGTGATGGAT GCACTGAGGG AGTGTGAGCA TCAGGTGAAG 
TCCATAGACA GTGAGATCGA GGCCTATAAG AAGTCCATCA TGCAGGAGGA AGAGAAGAAC 
GAGAAGCTGG CCCGCCTCCT GAACCGCGCA GAGACAGAAG CCGCCCTGGT GCAGAAGATG 
ACCACCCAGT GCTTAAGCAA GCAAGAGACC CTGCAGACTG AGTTTAACAC GTACCAGCTC 
GCCCTGCAGG ACACCGAGGA GATGCTGAAC AAGGGCTATG TGGAACACTC GGCCGTCTTG 
AGCGAACTCC AGGGCACCCG CCAGGCTGTC CATCAGGAGC AGGAGCTACG ACAAAAGATG 
GACATATCCA TCATGGACAA GCTGCAGGAG CACGGGACCT CCAGCAAGAT GACCAAGTAC 
TTTCATCAGC TCCTTCGCAA GCTGCAAAAG GAAAACACGA ACCTGGTGAC ACACCTTTCA 
AAAATTGATG GTGACATCGC CCAGGCCACC CTAGACATCA CCAACACCAA CGGCAAGGTA 
GAGATGCATA AGAAGACACT GTTAGATCTG GACAAGGAGG TAAAGAGGTT CAACGAGCTC 
ATCACCAACA GCGAGAGCGA GATCGTCCGG CGCACCATCC TCATCGAGAG GAAGCAGAGC 
CTCATCAACT TCTTCAACAA GCAGCTAGAG CAGATGGTGT CCGTGCTGGG GGGGGAAGAA 
GCTGGACCCC TGGAACTGGA GATCAAAAGG CTGTCGAAGC TGACAGAAGA GTACAACACC 
GGAGTGACCC AGGCCCAGAT GACCTGGTTG CGATTGCAGC AGGAACTGGT CCAGATCAGC 
CACGAGCGTG AGGAGCGGCT GGAGTCTGTG GACCAACTGA AGAAGGAGGT GCACATCATG 
GAGCAAAAGA AGCTTCGCAT AGAGAACAAG ATTGAGCATG AGAAGAGGGA GCAAAAGATG 
GTGAGCCGCC ACATGAGGGA CTTAGATAAC GACCTGAGCA AGCTCAATAT GCTGTTGGAC 
AAGAACCGGT GCAGTTCGGA ACTGCTGGAG CAGAACAACG CTGTGGCTGA GACAGAGTTC 
GTGCGCACTC TGAAGGATGC GGAAAGAGAG ACCATCCAAA TGCAGGAAAA GCTGTCCGAA 
CTCTGTGAGG AAAAGGCCAC TCTCCTCAAC AGCCTAGTGG AGGCCGAGTG A

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

RefSeq	XP_008766692.1
CDS	61..3111
Translation	MAEPEDQADGRSNLEGEQTSAEEETEQQYTEGHEVSPQLENSGQKTAEGREPTQDPERGITTDSEGRLEGEMVDAERVSTEGEAISEGEVGSIGEAFPETEVEFIGEAPPDTVVEFIGEAPPGTEVEFIGETTPETQAEPTGEATPGVAVKTIRKAEQEVEVIREVISETDVDSIVKAIQGVDLESIGATIPQKKVKYTAKARPQDEAEPTGEPAPEGDFDVSEQEKAGHPSELDELSDIISSPAFSYSDVSPWDMGEEEAKALTTQDISQESVYEPIELIQPTEPTEPPEDSVVRPIEPSRQRSFPMGARHRFRLSIMGSLTPSDIDDLPLETEEALQQESVQPPPRAHEETRIQFLDQVQTLSLEDETQIERPMSEGSDEAEEEGAQLMVLDPDHPLMVRFQEALKSYLNRQIDKLKLDIQELDVATKQTRIQRQELGVNLYGVQQHLARLQMQLEKSHDRHSLVACERRRKEEELQCNRALYNKTYATAKEERKKFAALQTEMESLALHLFYMQNIDQDVRDDIQVMKQVVKKTETEKMNAEIEKKKQDLFVDQLTERAHQLEENIALYEAQYLSQAEDTRVLRKAVTEAITEIDTIIMEKKRILQQWTTSLVGMKHRNEAYRTVMDALRECEHQVKSIDSEIEAYKKSIMQEEEKNEKLARLLNRAETEAALVQKMTTQCLSKQETLQTEFNTYQLALQDTEEMLNKGYVEHSAVLSELQGTRQAVHQEQELRQKMDISIMDKLQEHGTSSKMTKYFHQLLRKLQKENTNLVTHLSKIDGDIAQATLDITNTNGKVEMHKKTLLDLDKEVKRFNELITNSESEIVRRTILIERKQSLINFFNKQLEQMVSVLGGEEAGPLELEIKRLSKLTEEYNTGVTQAQMTWLRLQQELVQISHEREERLESVDQLKKEVHIMEQKKLRIENKIEHEKREQKMVSRHMRDLDNDLSKLNMLLDKNRCSSELLEQNNAVAETEFVRTLKDAERETIQMQEKLSELCEEKATLLNSLVEAE

Target ORF information:

RefSeq Version	XM_008768470.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus coiled-coil domain containing 40 (Ccdc40), transcript variant X1, mRNA.

Target ORF information:

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

XM_008768470.2

ORF Insert Sequence:

ATGGCGGAGC CGGAGGACCA GGCTGACGGC AGGTCAAACC TGGAAGGCGA ACAGACATCT 
GCGGAAGAGG AGACAGAGCA GCAGTACACT GAAGGCCATG AGGTATCACC ACAGTTGGAA 
AACAGTGGCC AAAAAACTGC TGAGGGTAGA GAGCCCACCC AAGATCCTGA AAGGGGCATT 
ACAACTGATA GCGAAGGCAG ATTAGAAGGG GAAATGGTGG ATGCTGAGAG AGTCAGCACT 
GAAGGAGAAG CCATCTCTGA AGGAGAAGTG GGGTCCATTG GAGAGGCTTT CCCAGAAACA 
GAAGTGGAAT TCATTGGAGA GGCTCCCCCA GACACAGTAG TGGAATTCAT TGGAGAGGCT 
CCCCCAGGAA CAGAAGTGGA ATTCATTGGA GAGACCACAC CAGAAACACA GGCGGAACCC 
ACTGGAGAGG CTACCCCAGG AGTGGCTGTG AAAACCATCA GAAAAGCGGA ACAAGAAGTT 
GAAGTCATTA GAGAAGTCAT CTCAGAAACT GATGTGGACT CCATTGTAAA AGCTATCCAA 
GGAGTGGACT TAGAATCCAT TGGAGCCACC ATACCACAAA AAAAAGTTAA ATACACTGCA 
AAGGCCAGAC CCCAAGATGA AGCGGAACCC ACTGGAGAAC CTGCCCCAGA AGGAGATTTT 
GACGTTTCTG AACAAGAGAA AGCAGGCCAT CCCTCTGAGT TGGACGAGCT CTCTGATATA 
ATCAGCTCTC CTGCGTTCTC CTACTCTGAT GTCAGCCCCT GGGACATGGG GGAAGAGGAG 
GCAAAAGCCT TAACAACACA GGACATATCC CAGGAAAGCG TCTACGAGCC CATAGAGCTC 
ATACAGCCCA CAGAGCCCAC AGAGCCTCCA GAGGACAGTG TGGTGAGACC CATAGAGCCC 
TCCCGTCAAA GATCCTTTCC TATGGGGGCA CGGCACCGCT TCAGACTGAG CATTATGGGA 
AGTTTGACTC CCTCGGACAT TGACGATCTT CCCCTGGAAA CAGAGGAAGC TCTTCAGCAA 
GAGTCAGTGC AGCCACCTCC CAGAGCCCAT GAAGAAACCC GAATACAGTT CCTAGACCAG 
GTCCAGACCC TCAGCCTCGA GGACGAGACC CAGATCGAAA GACCAATGTC TGAAGGGAGT 
GACGAAGCAG AGGAGGAAGG CGCCCAACTG ATGGTGCTAG ACCCAGACCA CCCCCTGATG 
GTCAGATTCC AGGAGGCTCT GAAGAGCTAC CTCAACCGGC AGATCGACAA GCTGAAGTTG 
GACATCCAGG AACTGGATGT GGCCACCAAG CAAACCCGAA TCCAGAGGCA GGAGCTGGGC 
GTGAACCTCT ACGGGGTCCA GCAGCACCTG GCCCGCCTGC AGATGCAGCT GGAGAAGAGC 
CATGACCGAC ACTCTCTGGT CGCCTGCGAG CGGAGGAGGA AGGAGGAGGA GCTGCAGTGC 
AACCGCGCCC TCTACAACAA GACCTATGCA ACCGCCAAAG AGGAACGAAA GAAGTTTGCG 
GCCCTGCAGA CCGAGATGGA GAGCCTGGCC CTGCACCTCT TCTACATGCA GAACATAGAC 
CAGGACGTGC GTGATGACAT CCAAGTCATG AAGCAGGTGG TGAAAAAGAC CGAGACAGAG 
AAGATGAACG CAGAGATAGA GAAGAAAAAG CAGGACCTGT TCGTGGACCA GCTCACAGAA 
AGAGCGCACC AGCTGGAAGA GAACATTGCC CTGTATGAGG CTCAATACTT GTCCCAGGCT 
GAGGACACCC GGGTTCTCAG GAAGGCAGTG ACTGAGGCCA TCACAGAGAT TGACACTATT 
ATCATGGAGA AAAAGCGTAT CCTGCAGCAG TGGACCACCA GCCTAGTGGG CATGAAGCAC 
CGTAATGAGG CATACAGGAC CGTGATGGAT GCACTGAGGG AGTGTGAGCA TCAGGTGAAG 
TCCATAGACA GTGAGATCGA GGCCTATAAG AAGTCCATCA TGCAGGAGGA AGAGAAGAAC 
GAGAAGCTGG CCCGCCTCCT GAACCGCGCA GAGACAGAAG CCGCCCTGGT GCAGAAGATG 
ACCACCCAGT GCTTAAGCAA GCAAGAGACC CTGCAGACTG AGTTTAACAC GTACCAGCTC 
GCCCTGCAGG ACACCGAGGA GATGCTGAAC AAGGGCTATG TGGAACACTC GGCCGTCTTG 
AGCGAACTCC AGGGCACCCG CCAGGCTGTC CATCAGGAGC AGGAGCTACG ACAAAAGATG 
GACATATCCA TCATGGACAA GCTGCAGGAG CACGGGACCT CCAGCAAGAT GACCAAGTAC 
TTTCATCAGC TCCTTCGCAA GCTGCAAAAG GAAAACACGA ACCTGGTGAC ACACCTTTCA 
AAAATTGATG GTGACATCGC CCAGGCCACC CTAGACATCA CCAACACCAA CGGCAAGGTA 
GAGATGCATA AGAAGACACT GTTAGATCTG GACAAGGAGG TAAAGAGGTT CAACGAGCTC 
ATCACCAACA GCGAGAGCGA GATCGTCCGG CGCACCATCC TCATCGAGAG GAAGCAGAGC 
CTCATCAACT TCTTCAACAA GCAGCTAGAG CAGATGGTGT CCGTGCTGGG GGGGGAAGAA 
GCTGGACCCC TGGAACTGGA GATCAAAAGG CTGTCGAAGC TGACAGAAGA GTACAACACC 
GGAGTGACCC AGGCCCAGAT GACCTGGTTG CGATTGCAGC AGGAACTGGT CCAGATCAGC 
CACGAGCGTG AGGAGCGGCT GGAGTCTGTG GACCAACTGA AGAAGGAGGT GCACATCATG 
GAGCAAAAGA AGCTTCGCAT AGAGAACAAG ATTGAGCATG AGAAGAGGGA GCAAAAGATG 
GTGAGCCGCC ACATGAGGGA CTTAGATAAC GACCTGAGCA AGCTCAATAT GCTGTTGGAC 
AAGAACCGGT GCAGTTCGGA ACTGCTGGAG CAGAACAACG CTGTGGCTGA GACAGAGTTC 
GTGCGCACTC TGAAGGATGC GGAAAGAGAG ACCATCCAAA TGCAGGAAAA GCTGTCCGAA 
CTCTGTGAGG AAAAGGCCAC TCTCCTCAAC AGCCTAGTGG AGGCCGAGTG A

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

Ccdc40 ( XM_008768471.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008766693.1 Rattus norvegicus coiled-coil domain containing 40 (Ccdc40), transcript variant X2, mRNA.

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CloneID	ORa44645
Clone ID Related Accession (Same CDS sequence)	XM_008768471.2
Accession Version	XM_008768471.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3048bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	coiled-coil domain-containing protein 40 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005109.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008768471.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 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##

ATGGCGGAGC CGGAGGACCA GGCTGACGGG TCAAACCTGG AAGGCGAACA GACATCTGCG 
GAAGAGGAGA CAGAGCAGCA GTACACTGAA GGCCATGAGG TATCACCACA GTTGGAAAAC 
AGTGGCCAAA AAACTGCTGA GGGTAGAGAG CCCACCCAAG ATCCTGAAAG GGGCATTACA 
ACTGATAGCG AAGGCAGATT AGAAGGGGAA ATGGTGGATG CTGAGAGAGT CAGCACTGAA 
GGAGAAGCCA TCTCTGAAGG AGAAGTGGGG TCCATTGGAG AGGCTTTCCC AGAAACAGAA 
GTGGAATTCA TTGGAGAGGC TCCCCCAGAC ACAGTAGTGG AATTCATTGG AGAGGCTCCC 
CCAGGAACAG AAGTGGAATT CATTGGAGAG ACCACACCAG AAACACAGGC GGAACCCACT 
GGAGAGGCTA CCCCAGGAGT GGCTGTGAAA ACCATCAGAA AAGCGGAACA AGAAGTTGAA 
GTCATTAGAG AAGTCATCTC AGAAACTGAT GTGGACTCCA TTGTAAAAGC TATCCAAGGA 
GTGGACTTAG AATCCATTGG AGCCACCATA CCACAAAAAA AAGTTAAATA CACTGCAAAG 
GCCAGACCCC AAGATGAAGC GGAACCCACT GGAGAACCTG CCCCAGAAGG AGATTTTGAC 
GTTTCTGAAC AAGAGAAAGC AGGCCATCCC TCTGAGTTGG ACGAGCTCTC TGATATAATC 
AGCTCTCCTG CGTTCTCCTA CTCTGATGTC AGCCCCTGGG ACATGGGGGA AGAGGAGGCA 
AAAGCCTTAA CAACACAGGA CATATCCCAG GAAAGCGTCT ACGAGCCCAT AGAGCTCATA 
CAGCCCACAG AGCCCACAGA GCCTCCAGAG GACAGTGTGG TGAGACCCAT AGAGCCCTCC 
CGTCAAAGAT CCTTTCCTAT GGGGGCACGG CACCGCTTCA GACTGAGCAT TATGGGAAGT 
TTGACTCCCT CGGACATTGA CGATCTTCCC CTGGAAACAG AGGAAGCTCT TCAGCAAGAG 
TCAGTGCAGC CACCTCCCAG AGCCCATGAA GAAACCCGAA TACAGTTCCT AGACCAGGTC 
CAGACCCTCA GCCTCGAGGA CGAGACCCAG ATCGAAAGAC CAATGTCTGA AGGGAGTGAC 
GAAGCAGAGG AGGAAGGCGC CCAACTGATG GTGCTAGACC CAGACCACCC CCTGATGGTC 
AGATTCCAGG AGGCTCTGAA GAGCTACCTC AACCGGCAGA TCGACAAGCT GAAGTTGGAC 
ATCCAGGAAC TGGATGTGGC CACCAAGCAA ACCCGAATCC AGAGGCAGGA GCTGGGCGTG 
AACCTCTACG GGGTCCAGCA GCACCTGGCC CGCCTGCAGA TGCAGCTGGA GAAGAGCCAT 
GACCGACACT CTCTGGTCGC CTGCGAGCGG AGGAGGAAGG AGGAGGAGCT GCAGTGCAAC 
CGCGCCCTCT ACAACAAGAC CTATGCAACC GCCAAAGAGG AACGAAAGAA GTTTGCGGCC 
CTGCAGACCG AGATGGAGAG CCTGGCCCTG CACCTCTTCT ACATGCAGAA CATAGACCAG 
GACGTGCGTG ATGACATCCA AGTCATGAAG CAGGTGGTGA AAAAGACCGA GACAGAGAAG 
ATGAACGCAG AGATAGAGAA GAAAAAGCAG GACCTGTTCG TGGACCAGCT CACAGAAAGA 
GCGCACCAGC TGGAAGAGAA CATTGCCCTG TATGAGGCTC AATACTTGTC CCAGGCTGAG 
GACACCCGGG TTCTCAGGAA GGCAGTGACT GAGGCCATCA CAGAGATTGA CACTATTATC 
ATGGAGAAAA AGCGTATCCT GCAGCAGTGG ACCACCAGCC TAGTGGGCAT GAAGCACCGT 
AATGAGGCAT ACAGGACCGT GATGGATGCA CTGAGGGAGT GTGAGCATCA GGTGAAGTCC 
ATAGACAGTG AGATCGAGGC CTATAAGAAG TCCATCATGC AGGAGGAAGA GAAGAACGAG 
AAGCTGGCCC GCCTCCTGAA CCGCGCAGAG ACAGAAGCCG CCCTGGTGCA GAAGATGACC 
ACCCAGTGCT TAAGCAAGCA AGAGACCCTG CAGACTGAGT TTAACACGTA CCAGCTCGCC 
CTGCAGGACA CCGAGGAGAT GCTGAACAAG GGCTATGTGG AACACTCGGC CGTCTTGAGC 
GAACTCCAGG GCACCCGCCA GGCTGTCCAT CAGGAGCAGG AGCTACGACA AAAGATGGAC 
ATATCCATCA TGGACAAGCT GCAGGAGCAC GGGACCTCCA GCAAGATGAC CAAGTACTTT 
CATCAGCTCC TTCGCAAGCT GCAAAAGGAA AACACGAACC TGGTGACACA CCTTTCAAAA 
ATTGATGGTG ACATCGCCCA GGCCACCCTA GACATCACCA ACACCAACGG CAAGGTAGAG 
ATGCATAAGA AGACACTGTT AGATCTGGAC AAGGAGGTAA AGAGGTTCAA CGAGCTCATC 
ACCAACAGCG AGAGCGAGAT CGTCCGGCGC ACCATCCTCA TCGAGAGGAA GCAGAGCCTC 
ATCAACTTCT TCAACAAGCA GCTAGAGCAG ATGGTGTCCG TGCTGGGGGG GGAAGAAGCT 
GGACCCCTGG AACTGGAGAT CAAAAGGCTG TCGAAGCTGA CAGAAGAGTA CAACACCGGA 
GTGACCCAGG CCCAGATGAC CTGGTTGCGA TTGCAGCAGG AACTGGTCCA GATCAGCCAC 
GAGCGTGAGG AGCGGCTGGA GTCTGTGGAC CAACTGAAGA AGGAGGTGCA CATCATGGAG 
CAAAAGAAGC TTCGCATAGA GAACAAGATT GAGCATGAGA AGAGGGAGCA AAAGATGGTG 
AGCCGCCACA TGAGGGACTT AGATAACGAC CTGAGCAAGC TCAATATGCT GTTGGACAAG 
AACCGGTGCA GTTCGGAACT GCTGGAGCAG AACAACGCTG TGGCTGAGAC AGAGTTCGTG 
CGCACTCTGA AGGATGCGGA AAGAGAGACC ATCCAAATGC AGGAAAAGCT GTCCGAACTC 
TGTGAGGAAA AGGCCACTCT CCTCAACAGC CTAGTGGAGG CCGAGTGA

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

RefSeq	XP_008766693.1
CDS	61..3108
Translation	MAEPEDQADGSNLEGEQTSAEEETEQQYTEGHEVSPQLENSGQKTAEGREPTQDPERGITTDSEGRLEGEMVDAERVSTEGEAISEGEVGSIGEAFPETEVEFIGEAPPDTVVEFIGEAPPGTEVEFIGETTPETQAEPTGEATPGVAVKTIRKAEQEVEVIREVISETDVDSIVKAIQGVDLESIGATIPQKKVKYTAKARPQDEAEPTGEPAPEGDFDVSEQEKAGHPSELDELSDIISSPAFSYSDVSPWDMGEEEAKALTTQDISQESVYEPIELIQPTEPTEPPEDSVVRPIEPSRQRSFPMGARHRFRLSIMGSLTPSDIDDLPLETEEALQQESVQPPPRAHEETRIQFLDQVQTLSLEDETQIERPMSEGSDEAEEEGAQLMVLDPDHPLMVRFQEALKSYLNRQIDKLKLDIQELDVATKQTRIQRQELGVNLYGVQQHLARLQMQLEKSHDRHSLVACERRRKEEELQCNRALYNKTYATAKEERKKFAALQTEMESLALHLFYMQNIDQDVRDDIQVMKQVVKKTETEKMNAEIEKKKQDLFVDQLTERAHQLEENIALYEAQYLSQAEDTRVLRKAVTEAITEIDTIIMEKKRILQQWTTSLVGMKHRNEAYRTVMDALRECEHQVKSIDSEIEAYKKSIMQEEEKNEKLARLLNRAETEAALVQKMTTQCLSKQETLQTEFNTYQLALQDTEEMLNKGYVEHSAVLSELQGTRQAVHQEQELRQKMDISIMDKLQEHGTSSKMTKYFHQLLRKLQKENTNLVTHLSKIDGDIAQATLDITNTNGKVEMHKKTLLDLDKEVKRFNELITNSESEIVRRTILIERKQSLINFFNKQLEQMVSVLGGEEAGPLELEIKRLSKLTEEYNTGVTQAQMTWLRLQQELVQISHEREERLESVDQLKKEVHIMEQKKLRIENKIEHEKREQKMVSRHMRDLDNDLSKLNMLLDKNRCSSELLEQNNAVAETEFVRTLKDAERETIQMQEKLSELCEEKATLLNSLVEAE

Target ORF information:

RefSeq Version	XM_008768471.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus coiled-coil domain containing 40 (Ccdc40), transcript variant X2, mRNA.

Target ORF information:

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

XM_008768471.2

ORF Insert Sequence:

ATGGCGGAGC CGGAGGACCA GGCTGACGGG TCAAACCTGG AAGGCGAACA GACATCTGCG 
GAAGAGGAGA CAGAGCAGCA GTACACTGAA GGCCATGAGG TATCACCACA GTTGGAAAAC 
AGTGGCCAAA AAACTGCTGA GGGTAGAGAG CCCACCCAAG ATCCTGAAAG GGGCATTACA 
ACTGATAGCG AAGGCAGATT AGAAGGGGAA ATGGTGGATG CTGAGAGAGT CAGCACTGAA 
GGAGAAGCCA TCTCTGAAGG AGAAGTGGGG TCCATTGGAG AGGCTTTCCC AGAAACAGAA 
GTGGAATTCA TTGGAGAGGC TCCCCCAGAC ACAGTAGTGG AATTCATTGG AGAGGCTCCC 
CCAGGAACAG AAGTGGAATT CATTGGAGAG ACCACACCAG AAACACAGGC GGAACCCACT 
GGAGAGGCTA CCCCAGGAGT GGCTGTGAAA ACCATCAGAA AAGCGGAACA AGAAGTTGAA 
GTCATTAGAG AAGTCATCTC AGAAACTGAT GTGGACTCCA TTGTAAAAGC TATCCAAGGA 
GTGGACTTAG AATCCATTGG AGCCACCATA CCACAAAAAA AAGTTAAATA CACTGCAAAG 
GCCAGACCCC AAGATGAAGC GGAACCCACT GGAGAACCTG CCCCAGAAGG AGATTTTGAC 
GTTTCTGAAC AAGAGAAAGC AGGCCATCCC TCTGAGTTGG ACGAGCTCTC TGATATAATC 
AGCTCTCCTG CGTTCTCCTA CTCTGATGTC AGCCCCTGGG ACATGGGGGA AGAGGAGGCA 
AAAGCCTTAA CAACACAGGA CATATCCCAG GAAAGCGTCT ACGAGCCCAT AGAGCTCATA 
CAGCCCACAG AGCCCACAGA GCCTCCAGAG GACAGTGTGG TGAGACCCAT AGAGCCCTCC 
CGTCAAAGAT CCTTTCCTAT GGGGGCACGG CACCGCTTCA GACTGAGCAT TATGGGAAGT 
TTGACTCCCT CGGACATTGA CGATCTTCCC CTGGAAACAG AGGAAGCTCT TCAGCAAGAG 
TCAGTGCAGC CACCTCCCAG AGCCCATGAA GAAACCCGAA TACAGTTCCT AGACCAGGTC 
CAGACCCTCA GCCTCGAGGA CGAGACCCAG ATCGAAAGAC CAATGTCTGA AGGGAGTGAC 
GAAGCAGAGG AGGAAGGCGC CCAACTGATG GTGCTAGACC CAGACCACCC CCTGATGGTC 
AGATTCCAGG AGGCTCTGAA GAGCTACCTC AACCGGCAGA TCGACAAGCT GAAGTTGGAC 
ATCCAGGAAC TGGATGTGGC CACCAAGCAA ACCCGAATCC AGAGGCAGGA GCTGGGCGTG 
AACCTCTACG GGGTCCAGCA GCACCTGGCC CGCCTGCAGA TGCAGCTGGA GAAGAGCCAT 
GACCGACACT CTCTGGTCGC CTGCGAGCGG AGGAGGAAGG AGGAGGAGCT GCAGTGCAAC 
CGCGCCCTCT ACAACAAGAC CTATGCAACC GCCAAAGAGG AACGAAAGAA GTTTGCGGCC 
CTGCAGACCG AGATGGAGAG CCTGGCCCTG CACCTCTTCT ACATGCAGAA CATAGACCAG 
GACGTGCGTG ATGACATCCA AGTCATGAAG CAGGTGGTGA AAAAGACCGA GACAGAGAAG 
ATGAACGCAG AGATAGAGAA GAAAAAGCAG GACCTGTTCG TGGACCAGCT CACAGAAAGA 
GCGCACCAGC TGGAAGAGAA CATTGCCCTG TATGAGGCTC AATACTTGTC CCAGGCTGAG 
GACACCCGGG TTCTCAGGAA GGCAGTGACT GAGGCCATCA CAGAGATTGA CACTATTATC 
ATGGAGAAAA AGCGTATCCT GCAGCAGTGG ACCACCAGCC TAGTGGGCAT GAAGCACCGT 
AATGAGGCAT ACAGGACCGT GATGGATGCA CTGAGGGAGT GTGAGCATCA GGTGAAGTCC 
ATAGACAGTG AGATCGAGGC CTATAAGAAG TCCATCATGC AGGAGGAAGA GAAGAACGAG 
AAGCTGGCCC GCCTCCTGAA CCGCGCAGAG ACAGAAGCCG CCCTGGTGCA GAAGATGACC 
ACCCAGTGCT TAAGCAAGCA AGAGACCCTG CAGACTGAGT TTAACACGTA CCAGCTCGCC 
CTGCAGGACA CCGAGGAGAT GCTGAACAAG GGCTATGTGG AACACTCGGC CGTCTTGAGC 
GAACTCCAGG GCACCCGCCA GGCTGTCCAT CAGGAGCAGG AGCTACGACA AAAGATGGAC 
ATATCCATCA TGGACAAGCT GCAGGAGCAC GGGACCTCCA GCAAGATGAC CAAGTACTTT 
CATCAGCTCC TTCGCAAGCT GCAAAAGGAA AACACGAACC TGGTGACACA CCTTTCAAAA 
ATTGATGGTG ACATCGCCCA GGCCACCCTA GACATCACCA ACACCAACGG CAAGGTAGAG 
ATGCATAAGA AGACACTGTT AGATCTGGAC AAGGAGGTAA AGAGGTTCAA CGAGCTCATC 
ACCAACAGCG AGAGCGAGAT CGTCCGGCGC ACCATCCTCA TCGAGAGGAA GCAGAGCCTC 
ATCAACTTCT TCAACAAGCA GCTAGAGCAG ATGGTGTCCG TGCTGGGGGG GGAAGAAGCT 
GGACCCCTGG AACTGGAGAT CAAAAGGCTG TCGAAGCTGA CAGAAGAGTA CAACACCGGA 
GTGACCCAGG CCCAGATGAC CTGGTTGCGA TTGCAGCAGG AACTGGTCCA GATCAGCCAC 
GAGCGTGAGG AGCGGCTGGA GTCTGTGGAC CAACTGAAGA AGGAGGTGCA CATCATGGAG 
CAAAAGAAGC TTCGCATAGA GAACAAGATT GAGCATGAGA AGAGGGAGCA AAAGATGGTG 
AGCCGCCACA TGAGGGACTT AGATAACGAC CTGAGCAAGC TCAATATGCT GTTGGACAAG 
AACCGGTGCA GTTCGGAACT GCTGGAGCAG AACAACGCTG TGGCTGAGAC AGAGTTCGTG 
CGCACTCTGA AGGATGCGGA AAGAGAGACC ATCCAAATGC AGGAAAAGCT GTCCGAACTC 
TGTGAGGAAA AGGCCACTCT CCTCAACAGC CTAGTGGAGG CCGAGTGA

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

PubMed

Mutations in GAS8, a Gene Encoding a Nexin-Dynein Regulatory Complex Subunit, Cause Primary Ciliary Dyskinesia with Axonemal Disorganization.
Human mutation37(8)776-85(2016 08)
Jeanson L,Thomas L,Copin B,Coste A,Sermet-Gaudelus I,Dastot-Le Moal F,Duquesnoy P,Montantin G,Collot N,Tissier S,Papon JF,Clement A,Louis B,Escudier E,Amselem S,Legendre M

Loss-of-Function GAS8 Mutations Cause Primary Ciliary Dyskinesia and Disrupt the Nexin-Dynein Regulatory Complex.
American journal of human genetics97(4)546-54(2015 Oct)
Olbrich H,Cremers C,Loges NT,Werner C,Nielsen KG,Marthin JK,Philipsen M,Wallmeier J,Pennekamp P,Menchen T,Edelbusch C,Dougherty GW,Schwartz O,Thiele H,Altm?ller J,Rommelmann F,Omran H

Mutations in CCDC39 and CCDC40 are the major cause of primary ciliary dyskinesia with axonemal disorganization and absent inner dynein arms.
Human mutation34(3)462-72(2013 Mar)
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Delineation of CCDC39/CCDC40 mutation spectrum and associated phenotypes in primary ciliary dyskinesia.
Journal of medical genetics49(6)410-6(2012 Jun)
Blanchon S,Legendre M,Copin B,Duquesnoy P,Montantin G,Kott E,Dastot F,Jeanson L,Cachanado M,Rousseau A,Papon JF,Beydon N,Brouard J,Crestani B,Deschildre A,D?sir J,Dollfus H,Leheup B,Tamalet A,Thumerelle C,Vojtek AM,Escalier D,Coste A,de Blic J,Cl?ment A,Escudier E,Amselem S

High prevalence of respiratory ciliary dysfunction in congenital heart disease patients with heterotaxy.
Circulation125(18)2232-42(2012 May)
Nakhleh N,Francis R,Giese RA,Tian X,Li Y,Zariwala MA,Yagi H,Khalifa O,Kureshi S,Chatterjee B,Sabol SL,Swisher M,Connelly PS,Daniels MP,Srinivasan A,Kuehl K,Kravitz N,Burns K,Sami I,Omran H,Barmada M,Olivier K,Chawla KK,Leigh M,Jonas R,Knowles M,Leatherbury L,Lo CW

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Ccdc40 cDNA ORF clone, Rattus norvegicus(Norway rat)

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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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