CCDC18 cDNA ORF clone, Balaenoptera acutorostrata scammoni

Gene
Clones
gRNAs

Summary

Gene Symbol	CCDC18
Entrez Gene ID	103019176
Full Name	coiled-coil domain containing 18
Gene Type	protein-coding
Organism	Balaenoptera acutorostrata scammoni

mRNA and Protein(s)

mRNA	Protein	Name
XM_007169580.1	XP_007169642.1	coiled-coil domain-containing protein 18

Pathways from BioSystems
Gene Ontology

The following CCDC18 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC18 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
OBa151149	XM_007169580.1 Latest version!	Balaenoptera acutorostrata scammoni coiled-coil domain containing 18 (CCDC18), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

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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)

CCDC18 ( XM_007169580.1 ) cDNA ORF clone, Balaenoptera acutorostrata scammoni -> XP_007169642.1 Balaenoptera acutorostrata scammoni coiled-coil domain containing 18 (CCDC18), mRNA.

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CloneID	OBa151149
Clone ID Related Accession (Same CDS sequence)	XM_007169580.1
Accession Version	XM_007169580.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4551bp) 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	1549814400000
Organism	Balaenoptera acutorostrata scammoni
Product	coiled-coil domain-containing protein 18
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006725576.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Balaenoptera acutorostrata scammoni Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAATCTA GTTCCTCAGA CTACTATAAT AAAGACAATG AAGAAGAAAG TTTGCTGGCA 
AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
GAAGAGTTAT CTAGTGTTAG TCCAAGTGAA AATTCTCATT ATGCCTCTAG TCTCTCAAGG 
TCTGAAAGGC TCGTTCTGGA AGATCTTTCT CAGCCTAGCC AGCTTGGACT TTTGAATTAC 
TCACCTTATA AAAAAGTTTG TAAAATGCCC AATAGTGGTA CTGATTTTCA AAAAAAGCCA 
AGAGATAAGA TGTCTTTTTC ATCTTCTACC CCTGTGGATC AGGAAATCAA AAGTCTTCGA 
GAGAAACTTA ATAAACTTAG GCAACAGAAT GCTTGTTTGG TTTCACAGAA TCATTCTTTA 
ATGACTAAAA TAGAATCTGT CCACTTTGAA TTGACACAGT CAAGAGCAAA AGTTTCTGTG 
CTTGAATCTG CTCAACAACA GGCAGCCAAT GTACCAATCT TAGAAGAACA GATTATAAAT 
TTGGAAGCAG AAGTTTCAGC CCAAGATAAA GTTTTGAGAG AGGCAGAAGA TAAATTAGAG 
CAGAGTCAGA AAATGGTGAC TGAAAAGGAA CAGAGTTTGC AGAAGTCCCA AGAGGAATGT 
ATAAAGCTGA AGGTAGACTT ACTTGAACAA AGTAAACAAA GAAAGAGAGC TGAACGACAG 
AGGAATGAAG CACTATATAA TGCTGAAGAG CTAAGTAAAG CTTTCCAACA TTATAAAGAA 
AAAGTGGCTG AAAAACTGGA AAAGGTTCAA GCTGAAGAAG CAATATTAGA GAAAAATCTA 
ATTAACTGTG AAAAAGAAAA TAAAAGGCTA CAGGAAAAGT GTGGTCTATA TAAAAGTGAA 
CTTGAAATTC TGAAAGAGAA ATTAAGGCAG TTACAAGAAG AAAATAATAA TGGAAAAGAA 
AAATTAAGAA TCATGGCAGT GAAAAATTCA GAAGTCATGG CACAACTAAC TGAATCTAGA 
CAAAGTATTC TTAAGCTAGA GAGTGAGTTA GAGGATAAAG ACGAAATACT TAGAGAAAAA 
TTTTCTCTGA TGAATGAAAA CCGAGAATTA AAAGTTCGTA TTGTAACACA GAATGAGAGA 
CTGGATTTGT GTCAGCAAGA AATAGAAAGT TCAAGGGTGG AACTGAGAAG TTTGGAAAAA 
ATTATGTCCC AGTTGCCATT AAAAAGAGAA ATGTTTGGTT TTAAATCATC TCTGTCTAAG 
CACCAGATGA GTATTTTGTC AAACAAGGAA GACAGTTACA TTGGCTGCTG TGAGACAAAT 
AAAACGGTGA TTTCGGAGTT GAGGATTAAG CTTGCAATGA AAGAGGCAGA AATTCAAAAG 
CTTCAGGCAA ACCTGACTGC TAATCAATTA TCTCACAATC TTATTGCTTC TAATGACAAC 
CAAGAAAGTG GCAAATTAAA TAGTTTAGAA ACAGAACCTG TAAAACTAGG AGGTAATCAA 
GTAGAAAGTA TAAAAGTTCA AAATCAACAT ACTGTGAACA AGCAATATGA AAGAGAAAGG 
CAAAGACTTG CTTCTGGAAT AGAAGAACTA CGTGATAAGT TGATGCAGAT AGAAGCTGAG 
AATTCTGATT TGAAGGTTAA CATGGCCCAC AGAACTAGTC AGTTTCAGCT GATTCAAGAG 
GAGCTGCTAG AGAAAGCTTC AAACTCTAGC AAACTTGAAA GTGAAATGAC AAAGAAATGT 
TCTCAACTTT TAACTCTAGA GAAACAGCTA GAAGAAAAAA TAGTTGCTTA TTCCTCTATT 
GCTGCAAAAA ATACGGAACT AGAACAGGAA CTTATGGAAA AGAATGAAAA GATTAGAAGT 
CTAGAAACTA ATATCAATAC AGAGCATGAG AAAATTTGTT TAGCTTTTGA AAAGGCAAAG 
AAAATTCATC TTGACCAGCA TAAAGAAATG GAAAAGCAGA TTGAAAGACT TGAATCTCAA 
CTAGAGAAAA AAGAACAACA ATTTAAAGAA CAAGAAAAGA CTATGTCCAT GTTGCAGCAA 
GATATAATAT GTAAACAACA TCACCTTGAA TCACTAGACA GACTCTTGAC GGAAAGCAAA 
GGGGAAATGG AAAAGGAAAA TATGAAGAAA GATGAAGCTT TGAAAACATT ACAGAACCAA 
GTATCTGAAG AAACAATCAA GGTCAGACAA CTAGATTCAG CATTGGAAAT TTGTAAGGAA 
GAACTTGCTT TGCATTTGAA CCAATTGGAA GGAAATAAAG AAAAGTTTGA AAAACAGCTA 
AAGAAGAAAT CTGAAGAAGT ATATTGTTTA CAGAAAGAGC TGAAGATTAA AAATCACAGT 
CTTCAAGAGA CTACTGAGCA AAATGTTATT CTGCAGCATA CTCTTCAACA ACAGCAGCAA 
ATGTTACAAC AAGAGACAAT TAGAAATGGA GAGCTAGAAG ACATTCAAAC TAAACTTGAA 
AAACAGGTAT CAAAACTTGA ACAAGAGCTT CAGAAACAAA GGGAAAGTTC AGCTGAAAAG 
TTGAGAAAAA TGGAGGAAAA ATGTGAAGCA GCCACATATG AAGCAGATTT AAAAAGGCAA 
AAAGTTATTG AGCTTACTGG TACTGCCAGG CAAGTAAAAC TTGAGATGGA TCACTACAAA 
GAAGAACTGT ATAAAATGGA AAAAGAAATA AAGCACCTAA AACGAGATGG AGAAAATAAA 
GCAATGCATC TCTCTCAGTT AGACATGATA TTAGAACAGA CAAGGACAGA ACTAGATAAG 
AAAACAAACG CTGTGAAGGA GTTAGAAAAG TTACAGCACC ACACTGAAAC TGAACTAACA 
GAAGCCTTGC AGAAACGGGA AGTACTAGAG ACTGAACTAC AAAATGCTCA TGGAGAATTA 
AAGAGTACTT TAAGACAACT CCAGGAATTG AGAGATGTTC TACAGAAGGC TCAGTTATCA 
TTAGAGGAAA AATACACTAC TATAAAGGAT CTCACAGCTG AACTTAGGGA ATGCAAGATG 
GAGATTGAAG ACAAAAAGCA AGAACTCCTT GAAATGGATC AGGCACTTAA GGAGAGAAAT 
TGGGAGCTAA AGCAAAGAGC AGCTCAAGTT ACACATTTGG ATATGACTAT TCGTGAGTAC 
AGGGGAGAAA TGGAACAGAA AATAATTAAA TTGGAGGGTA CTGTGGAGAA ATCAGAATTG 
GAACTTAAAG AAAGCAACAA ACAGATAGAA GCTTTGAATG AAAAATTGCA AAATGCCAAA 
GAACAGCTTC GAGAAAAAGA GTTTATAACA CTACAGAATG AACAGGAGAT AAGTCAACTG 
AAAAAAGAAA CTGAACGAAC ACAAGAAAAG ATGAAAGAAA TGGAAAGTGT TATGAAAGAG 
CAGGAACAGT ACATTGCAAC TCAGTACAAG GAGGCCATAG ATTTGGAGCA AGAATTGAGG 
CTAACTCGGG AGCAGATGCA GAACTCTCAT ACAGAATTGG TGGAGGCTCG TCGTCAACAA 
GTCCAAGCAC AGAGAGAAGT AGAAAGGCTG TCAAGTGAAC TGGAGGAAAT AAAGCAACTC 
TCTAAAGAGA AAGAATCTCA TGGAAAACAT TTAGCTGAAG AATTGGGGGC TTCTCAAGTA 
CGTGAAGCTC AGTTAGAAGC AAGAATGCAA GCAGAAATCA AGAAATTGTC AGCAGAAGTA 
GAATCTGTCA AAGAAGCTTA TCATCTAGAG ATGATTTCAC ATCAGGAGAA GCATGCAAAG 
TGGAAGATTA CTGCTGATTC TCAAAAGACT TCTGTTCAGC AACTAAATGA ACAGTTAGAG 
AAAGCAAAAC TAGAATTAGA AGAAGCTCAG GACACTGTAA GCAATTTGCA TCAGCAAGTC 
AAAGACAGGA ATGAAGTAAT TGAAGCTACA AATGAAGCAT TACTTATTAA AGAATCAGAA 
TTAACCAGAT TGCAAGCCAA AATTTCTGGA CATGAAAGGG CAGAAGACAT CAAGTTTCTA 
CCAGCCCCAT TTACATCTCC AGTAGAAATT GCGCCTGATA TTCAAGATTC AAAATTTGCT 
AAGCATTCTC ACACAGCTTT CTTCAAGTGT AGAAAACTAC GTCGCTCTAT TAGTGCCAGT 
GACCTTAGTT TCAGAACTCG TAGTGATGAA GATCTTTCTG AAGAATTACT GCAGGACTTA 
AAAAAAATGC AATTGGAACA ACCTTCAACA TTAGAAGAAA GCCAGAAGGA TCTGACTTAT 
ACCCAGTCAG ACTCATTTAA ACCTCTCCCA TATGACCTAG AAGATGATAG TTCTGAGAAT 
AATGACTTCA GTACTCTTAG TGGAATGCTA AGATATATAA ACAAAGAAGT GAGACTATTA 
AAAAAGTCTT CTATGCAAAC AGGTGCTGGT TCAACTCAGA GTTTTAGCTG TGCCAGTGGC 
CAGGCACTGT ATTTCCCAGC CTCTCCAGTG ACTAAGTTCT CACCAGAAGA CTACAAGCAG 
AAATGTGTAA AACTTCAGGT GTGGGCATTA AAATATTACG TGCATGCTCC TCCAAGTTCT 
TCTCCTTTCT CTAGAGCTGG AATTGCCTGC AACCCAACTT CAATCATATA G

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

RefSeq	XP_007169642.1
CDS	314..4864
Translation	MESSSSDYYNKDNEEESLLANVASLRHELKITEWSLQSLGEELSSVSPSENSHYASSLSRSERLVLEDLSQPSQLGLLNYSPYKKVCKMPNSGTDFQKKPRDKMSFSSSTPVDQEIKSLREKLNKLRQQNACLVSQNHSLMTKIESVHFELTQSRAKVSVLESAQQQAANVPILEEQIINLEAEVSAQDKVLREAEDKLEQSQKMVTEKEQSLQKSQEECIKLKVDLLEQSKQRKRAERQRNEALYNAEELSKAFQHYKEKVAEKLEKVQAEEAILEKNLINCEKENKRLQEKCGLYKSELEILKEKLRQLQEENNNGKEKLRIMAVKNSEVMAQLTESRQSILKLESELEDKDEILREKFSLMNENRELKVRIVTQNERLDLCQQEIESSRVELRSLEKIMSQLPLKREMFGFKSSLSKHQMSILSNKEDSYIGCCETNKTVISELRIKLAMKEAEIQKLQANLTANQLSHNLIASNDNQESGKLNSLETEPVKLGGNQVESIKVQNQHTVNKQYERERQRLASGIEELRDKLMQIEAENSDLKVNMAHRTSQFQLIQEELLEKASNSSKLESEMTKKCSQLLTLEKQLEEKIVAYSSIAAKNTELEQELMEKNEKIRSLETNINTEHEKICLAFEKAKKIHLDQHKEMEKQIERLESQLEKKEQQFKEQEKTMSMLQQDIICKQHHLESLDRLLTESKGEMEKENMKKDEALKTLQNQVSEETIKVRQLDSALEICKEELALHLNQLEGNKEKFEKQLKKKSEEVYCLQKELKIKNHSLQETTEQNVILQHTLQQQQQMLQQETIRNGELEDIQTKLEKQVSKLEQELQKQRESSAEKLRKMEEKCEAATYEADLKRQKVIELTGTARQVKLEMDHYKEELYKMEKEIKHLKRDGENKAMHLSQLDMILEQTRTELDKKTNAVKELEKLQHHTETELTEALQKREVLETELQNAHGELKSTLRQLQELRDVLQKAQLSLEEKYTTIKDLTAELRECKMEIEDKKQELLEMDQALKERNWELKQRAAQVTHLDMTIREYRGEMEQKIIKLEGTVEKSELELKESNKQIEALNEKLQNAKEQLREKEFITLQNEQEISQLKKETERTQEKMKEMESVMKEQEQYIATQYKEAIDLEQELRLTREQMQNSHTELVEARRQQVQAQREVERLSSELEEIKQLSKEKESHGKHLAEELGASQVREAQLEARMQAEIKKLSAEVESVKEAYHLEMISHQEKHAKWKITADSQKTSVQQLNEQLEKAKLELEEAQDTVSNLHQQVKDRNEVIEATNEALLIKESELTRLQAKISGHERAEDIKFLPAPFTSPVEIAPDIQDSKFAKHSHTAFFKCRKLRRSISASDLSFRTRSDEDLSEELLQDLKKMQLEQPSTLEESQKDLTYTQSDSFKPLPYDLEDDSSENNDFSTLSGMLRYINKEVRLLKKSSMQTGAGSTQSFSCASGQALYFPASPVTKFSPEDYKQKCVKLQVWALKYYVHAPPSSSPFSRAGIACNPTSII

Target ORF information:

RefSeq Version	XM_007169580.1
Organism	Balaenoptera acutorostrata scammoni
Definition	Balaenoptera acutorostrata scammoni coiled-coil domain containing 18 (CCDC18), mRNA.

Target ORF information:

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

XM_007169580.1

ORF Insert Sequence:

ATGGAATCTA GTTCCTCAGA CTACTATAAT AAAGACAATG AAGAAGAAAG TTTGCTGGCA 
AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
GAAGAGTTAT CTAGTGTTAG TCCAAGTGAA AATTCTCATT ATGCCTCTAG TCTCTCAAGG 
TCTGAAAGGC TCGTTCTGGA AGATCTTTCT CAGCCTAGCC AGCTTGGACT TTTGAATTAC 
TCACCTTATA AAAAAGTTTG TAAAATGCCC AATAGTGGTA CTGATTTTCA AAAAAAGCCA 
AGAGATAAGA TGTCTTTTTC ATCTTCTACC CCTGTGGATC AGGAAATCAA AAGTCTTCGA 
GAGAAACTTA ATAAACTTAG GCAACAGAAT GCTTGTTTGG TTTCACAGAA TCATTCTTTA 
ATGACTAAAA TAGAATCTGT CCACTTTGAA TTGACACAGT CAAGAGCAAA AGTTTCTGTG 
CTTGAATCTG CTCAACAACA GGCAGCCAAT GTACCAATCT TAGAAGAACA GATTATAAAT 
TTGGAAGCAG AAGTTTCAGC CCAAGATAAA GTTTTGAGAG AGGCAGAAGA TAAATTAGAG 
CAGAGTCAGA AAATGGTGAC TGAAAAGGAA CAGAGTTTGC AGAAGTCCCA AGAGGAATGT 
ATAAAGCTGA AGGTAGACTT ACTTGAACAA AGTAAACAAA GAAAGAGAGC TGAACGACAG 
AGGAATGAAG CACTATATAA TGCTGAAGAG CTAAGTAAAG CTTTCCAACA TTATAAAGAA 
AAAGTGGCTG AAAAACTGGA AAAGGTTCAA GCTGAAGAAG CAATATTAGA GAAAAATCTA 
ATTAACTGTG AAAAAGAAAA TAAAAGGCTA CAGGAAAAGT GTGGTCTATA TAAAAGTGAA 
CTTGAAATTC TGAAAGAGAA ATTAAGGCAG TTACAAGAAG AAAATAATAA TGGAAAAGAA 
AAATTAAGAA TCATGGCAGT GAAAAATTCA GAAGTCATGG CACAACTAAC TGAATCTAGA 
CAAAGTATTC TTAAGCTAGA GAGTGAGTTA GAGGATAAAG ACGAAATACT TAGAGAAAAA 
TTTTCTCTGA TGAATGAAAA CCGAGAATTA AAAGTTCGTA TTGTAACACA GAATGAGAGA 
CTGGATTTGT GTCAGCAAGA AATAGAAAGT TCAAGGGTGG AACTGAGAAG TTTGGAAAAA 
ATTATGTCCC AGTTGCCATT AAAAAGAGAA ATGTTTGGTT TTAAATCATC TCTGTCTAAG 
CACCAGATGA GTATTTTGTC AAACAAGGAA GACAGTTACA TTGGCTGCTG TGAGACAAAT 
AAAACGGTGA TTTCGGAGTT GAGGATTAAG CTTGCAATGA AAGAGGCAGA AATTCAAAAG 
CTTCAGGCAA ACCTGACTGC TAATCAATTA TCTCACAATC TTATTGCTTC TAATGACAAC 
CAAGAAAGTG GCAAATTAAA TAGTTTAGAA ACAGAACCTG TAAAACTAGG AGGTAATCAA 
GTAGAAAGTA TAAAAGTTCA AAATCAACAT ACTGTGAACA AGCAATATGA AAGAGAAAGG 
CAAAGACTTG CTTCTGGAAT AGAAGAACTA CGTGATAAGT TGATGCAGAT AGAAGCTGAG 
AATTCTGATT TGAAGGTTAA CATGGCCCAC AGAACTAGTC AGTTTCAGCT GATTCAAGAG 
GAGCTGCTAG AGAAAGCTTC AAACTCTAGC AAACTTGAAA GTGAAATGAC AAAGAAATGT 
TCTCAACTTT TAACTCTAGA GAAACAGCTA GAAGAAAAAA TAGTTGCTTA TTCCTCTATT 
GCTGCAAAAA ATACGGAACT AGAACAGGAA CTTATGGAAA AGAATGAAAA GATTAGAAGT 
CTAGAAACTA ATATCAATAC AGAGCATGAG AAAATTTGTT TAGCTTTTGA AAAGGCAAAG 
AAAATTCATC TTGACCAGCA TAAAGAAATG GAAAAGCAGA TTGAAAGACT TGAATCTCAA 
CTAGAGAAAA AAGAACAACA ATTTAAAGAA CAAGAAAAGA CTATGTCCAT GTTGCAGCAA 
GATATAATAT GTAAACAACA TCACCTTGAA TCACTAGACA GACTCTTGAC GGAAAGCAAA 
GGGGAAATGG AAAAGGAAAA TATGAAGAAA GATGAAGCTT TGAAAACATT ACAGAACCAA 
GTATCTGAAG AAACAATCAA GGTCAGACAA CTAGATTCAG CATTGGAAAT TTGTAAGGAA 
GAACTTGCTT TGCATTTGAA CCAATTGGAA GGAAATAAAG AAAAGTTTGA AAAACAGCTA 
AAGAAGAAAT CTGAAGAAGT ATATTGTTTA CAGAAAGAGC TGAAGATTAA AAATCACAGT 
CTTCAAGAGA CTACTGAGCA AAATGTTATT CTGCAGCATA CTCTTCAACA ACAGCAGCAA 
ATGTTACAAC AAGAGACAAT TAGAAATGGA GAGCTAGAAG ACATTCAAAC TAAACTTGAA 
AAACAGGTAT CAAAACTTGA ACAAGAGCTT CAGAAACAAA GGGAAAGTTC AGCTGAAAAG 
TTGAGAAAAA TGGAGGAAAA ATGTGAAGCA GCCACATATG AAGCAGATTT AAAAAGGCAA 
AAAGTTATTG AGCTTACTGG TACTGCCAGG CAAGTAAAAC TTGAGATGGA TCACTACAAA 
GAAGAACTGT ATAAAATGGA AAAAGAAATA AAGCACCTAA AACGAGATGG AGAAAATAAA 
GCAATGCATC TCTCTCAGTT AGACATGATA TTAGAACAGA CAAGGACAGA ACTAGATAAG 
AAAACAAACG CTGTGAAGGA GTTAGAAAAG TTACAGCACC ACACTGAAAC TGAACTAACA 
GAAGCCTTGC AGAAACGGGA AGTACTAGAG ACTGAACTAC AAAATGCTCA TGGAGAATTA 
AAGAGTACTT TAAGACAACT CCAGGAATTG AGAGATGTTC TACAGAAGGC TCAGTTATCA 
TTAGAGGAAA AATACACTAC TATAAAGGAT CTCACAGCTG AACTTAGGGA ATGCAAGATG 
GAGATTGAAG ACAAAAAGCA AGAACTCCTT GAAATGGATC AGGCACTTAA GGAGAGAAAT 
TGGGAGCTAA AGCAAAGAGC AGCTCAAGTT ACACATTTGG ATATGACTAT TCGTGAGTAC 
AGGGGAGAAA TGGAACAGAA AATAATTAAA TTGGAGGGTA CTGTGGAGAA ATCAGAATTG 
GAACTTAAAG AAAGCAACAA ACAGATAGAA GCTTTGAATG AAAAATTGCA AAATGCCAAA 
GAACAGCTTC GAGAAAAAGA GTTTATAACA CTACAGAATG AACAGGAGAT AAGTCAACTG 
AAAAAAGAAA CTGAACGAAC ACAAGAAAAG ATGAAAGAAA TGGAAAGTGT TATGAAAGAG 
CAGGAACAGT ACATTGCAAC TCAGTACAAG GAGGCCATAG ATTTGGAGCA AGAATTGAGG 
CTAACTCGGG AGCAGATGCA GAACTCTCAT ACAGAATTGG TGGAGGCTCG TCGTCAACAA 
GTCCAAGCAC AGAGAGAAGT AGAAAGGCTG TCAAGTGAAC TGGAGGAAAT AAAGCAACTC 
TCTAAAGAGA AAGAATCTCA TGGAAAACAT TTAGCTGAAG AATTGGGGGC TTCTCAAGTA 
CGTGAAGCTC AGTTAGAAGC AAGAATGCAA GCAGAAATCA AGAAATTGTC AGCAGAAGTA 
GAATCTGTCA AAGAAGCTTA TCATCTAGAG ATGATTTCAC ATCAGGAGAA GCATGCAAAG 
TGGAAGATTA CTGCTGATTC TCAAAAGACT TCTGTTCAGC AACTAAATGA ACAGTTAGAG 
AAAGCAAAAC TAGAATTAGA AGAAGCTCAG GACACTGTAA GCAATTTGCA TCAGCAAGTC 
AAAGACAGGA ATGAAGTAAT TGAAGCTACA AATGAAGCAT TACTTATTAA AGAATCAGAA 
TTAACCAGAT TGCAAGCCAA AATTTCTGGA CATGAAAGGG CAGAAGACAT CAAGTTTCTA 
CCAGCCCCAT TTACATCTCC AGTAGAAATT GCGCCTGATA TTCAAGATTC AAAATTTGCT 
AAGCATTCTC ACACAGCTTT CTTCAAGTGT AGAAAACTAC GTCGCTCTAT TAGTGCCAGT 
GACCTTAGTT TCAGAACTCG TAGTGATGAA GATCTTTCTG AAGAATTACT GCAGGACTTA 
AAAAAAATGC AATTGGAACA ACCTTCAACA TTAGAAGAAA GCCAGAAGGA TCTGACTTAT 
ACCCAGTCAG ACTCATTTAA ACCTCTCCCA TATGACCTAG AAGATGATAG TTCTGAGAAT 
AATGACTTCA GTACTCTTAG TGGAATGCTA AGATATATAA ACAAAGAAGT GAGACTATTA 
AAAAAGTCTT CTATGCAAAC AGGTGCTGGT TCAACTCAGA GTTTTAGCTG TGCCAGTGGC 
CAGGCACTGT ATTTCCCAGC CTCTCCAGTG ACTAAGTTCT CACCAGAAGA CTACAAGCAG 
AAATGTGTAA AACTTCAGGT GTGGGCATTA AAATATTACG TGCATGCTCC TCCAAGTTCT 
TCTCCTTTCT CTAGAGCTGG AATTGCCTGC AACCCAACTT CAATCATATA G

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

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CCDC18 cDNA ORF clone, Balaenoptera acutorostrata scammoni

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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