CCDC66 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	CCDC66
Entrez Gene ID	100478708
Full Name	coiled-coil domain containing 66
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011231206.2	XP_011229508.1	coiled-coil domain-containing protein 66 isoform X1
XM_019805156.1	XP_019660715.1	coiled-coil domain-containing protein 66 isoform X3
XM_019805166.1	XP_019660725.1	coiled-coil domain-containing protein 66 isoform X3
XM_019805151.1	XP_019660710.1	coiled-coil domain-containing protein 66 isoform X2
XM_019805170.1	XP_019660729.1	coiled-coil domain-containing protein 66 isoform X4
XM_011231214.2	XP_011229516.1	coiled-coil domain-containing protein 66 isoform X5
XM_011231225.2	XP_011229527.1	coiled-coil domain-containing protein 66 isoform X6
XM_011231235.2	XP_011229537.1	coiled-coil domain-containing protein 66 isoform X7

Pathways from BioSystems
Gene Ontology

The following CCDC66 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC66 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)
OAc28941	XM_011231206.2 Latest version!	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$510.30 $729.00
OAc28943	XM_011231214.2 Latest version!	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$510.30 $729.00
OAc28945	XM_011231225.2 Latest version!	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$510.30 $729.00
OAc28947	XM_011231235.2 Latest version!	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$426.30 $609.00
OAc88683	XM_019805151.1 Latest version!	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAc88684	XM_019805166.1 Latest version!	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAc88684	XM_019805156.1 Latest version!	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAc88685	XM_019805170.1 Latest version!	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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)

CCDC66 ( XM_011231206.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011229508.1 Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc28941
Clone ID Related Accession (Same CDS sequence)	XM_011231206.2
Accession Version	XM_011231206.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2880bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	coiled-coil domain-containing protein 66 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217312.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011231206.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACTTGG GAGATGGTTT AAAGCTTGAA ACTGAATTGT TGGATGGAAA AACGAAGTTA 
ATATTGTCTC CATTTGAATG TAAATCAAAA AATTCTGTGA AGATGGGAAA TAAGACCAAG 
ATTGCAAAAT GTCCTTTAAG AACAAAACAA ACTGGATACA TTCTGAAATC AACCCAAAAT 
ACTTGTATAA GGAGTGGAAA ACTTTTGCAA AAGAAGAGAA TGGGTTCAGA AACTTCACTG 
GCAAAAGGTG AAAAAAATAG TATGACTTTT TCACCCACTA AGGATATATG CAAGCAGTAT 
GTAGATAAAG ACTGTCTTTA TGTCCAGAAA GAGATTTCAC CTGCAACCCC CAATATACAG 
AAGACTAGAA ACACGATAAA TACATCTGTA GTAGCTAAAC AGAAGCTTTG CAAAAAGCAC 
ATCACAGCTG AAAATATGAA GAGCAATTTG GTGTGCCTAA CACAAGACCA ACTACAACAG 
ATTTTGTCTT TGAACCAAGG AAATAAATCT ATTTCCCTGA TTGAAAATGG AAAGGAGGAA 
ACAAGTCAGG GCAGTCTGCA TTTAAACAGT ATTTCCAATC AGCCAGAGGA TGAGAACGTT 
ACGGGAGTAT TCAAAAAAAC TGATGCTCTT TCGTCTGTCC TGGATGAAAA TAAATCTGTT 
TTAAATAAAA ATCAAGAGAC ATCTAAGCAG TATGAGCAGA AAATTGCCAT AGAGAATGTA 
TGGAAACCAG CTGACATTTT CAGTACTCTG GGGGAAAGAG AACGTGACAG AAGTTTGTTG 
GAAGCAAAGA AAGCCCAGTG GAAGAAAGAG CTTGATGAAC AGGTTGCTTT AAAGAAGAAA 
GAAAAAGAAG CTTCTGAAAA ATGGAGTAAT CCTTGGAAAA AATTTGAAAG TGATAAAATA 
GTATGGGAAA ATTTTCAAAT TCTTGACCCG TCTAAGACTT ATGCTAGCTC TTCCAGCATT 
CTGTCACAGT CTCCCAGTCA GATAACAGTG GCCCAGGCTG ATGGGCACCC ACTACCTAGA 
GCTAGTCAGA TTTTAGAGGA AGCATTACCA CCAGAGCGCC CTTTCAGTGC CTCGAAACAA 
GAACAGCAGA GGAAATGGAT TGAAGATTTG AATAAGCAAA TAGAAGATGA TCGGCAAAGA 
AAAACAGAGG GAAAAATTAC ATCTTCAAAG GGTGAGGAAC ATGACAGATG GGCAATGCAT 
TTTGATTCAT TAAAGAACTA TCCTGCTTCT CAGTCTCAAA TGTCCTCTCG GTCACCACAC 
AACCAACCAG AGTACTTCTG TGTCTCTCCG GACACTCAGG AACTGGCTGA TCTCCACAGT 
GTTTATACAC CTACAACTGG AAGCCAGGTC GAACCTTCAG AGGAGGAGCA TATAGCAAAA 
CCTGTTAGAG ATATAACCAC GGCAAATAGT CAGAAAACAA ACTTTCTCCG TTCTATGACT 
GCTCTCTTGG ATCCGGCTCA GATCGAAGAA CGTGACAGGC GACGACAGAA ACAGTTAGAG 
CATCAGAAAG CCATCACTGC TCAGGTAGAA GAGAAACGCA GGAAGAAGCA GCTGGAAGAG 
CAGCAAAGAA AGAAGGAAGA AGAAGAAGAG GAGCGTCGCT TAGCACGGGA ACGAGAAGAG 
ATGCAGAAAC AGTATGAACA AGACGTACTT AAGCAAAAAC AAAAGGAAGA AATCATGACT 
CTCAAGACAA ATGAGCTATT CCAGACGATG CAGAGAGCAC AGGAGCTAGC ACAGAGGCTG 
AAACAAGAAC AGAGAATCCG AGAATTGGCT CAAAAGGGAC ATGACACTTC TGGATTGATT 
AAAAACCTTG GCGGACATGG CTTGGATGAT GTCAGTGGTA AAAAGAATAC ATGTATCAAT 
TCTACAACCT CTCCCAAAAA GGATACTGCT GTACAAACAG ATGACTTAAA TACAGGAACA 
TTCACCAGTG CAGAATCATG CTGTGGAACA GTAATAGAGA GGGAAATTCT AAATTGTTCA 
TCTCCTGAGA TTCCTGCAGA CTTTAATGAA CAGTTTAACA CTAAGAAAGA CAAAGAGGAA 
CTCATAAATC AGGTTAAAGG AACCAACTTA GAAAAAGAAA ACAGCTGGTA TAATGATCAG 
TGTAATGAGT TTGCAAGGAC AGAGAAAACA CATATGAAGA AATGTCCTAA AAGGCCTGAT 
TGGAATATAA ATAAGCCACT CAAAAGGTAT ATCCCAGCAT CAGAAAAGTA CCCTAAACAG 
CTGCAAAAGC AGAGAGAAGA AAAAAAAGTA AGAAGGCAGA TGGAACTGCT CAATTTGGTA 
GAAAGAAATA ATCCTGGACA TCTTTGTCAA AACAGAGGCA CTTCACCAGT TCTTCCTTCA 
TGTCAAGAAA CTGAGCCAAG GTTCAGGTGG CATCTAATCA AAAAGGAAGA AGAGCCTCTG 
AAAAGTAATG CTTTTGGCAA GGAAAGGTCT CAGTCACCAC CAGTTCCAGT AGTGAAAAAC 
AGAACACAAC AAACTCAGAC ACTAAAAAAC AGTAATTATG AAAGAGAGAA TCTGATCTTA 
GAAGGCAGTC AAACAGAAAC ATTACCTGGG CCTTCTGAAC CATCCCATTT TATCCCCTAT 
GTCCGAACCA ATGAGATTTA TTACCTTGAT CCAGATGCAC CACTGTCTAG GCCTTTAACC 
CAGGATCTTC AGTACCAAAA TCCACATGAC TGTGACCAAG AACAACGGCA GCTATTTGAT 
TCTGATGTCA GGGACCCACT TCTTAATCCT AACTTGGTGA AAAACAGGGA TCGACAGCAA 
GCAATCCTTA AGGGACTATC AGAACTGAGA CAGGGCCTTC TCCAGAAGCA AAGGGAGTTG 
GAAACTAATC TGATGCCTTT AGCTGCAAAT CAAGAAGAGA ATTTTAATTC TTCGTTTTAA

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

RefSeq	XP_011229508.1
CDS	58..2937
Translation	MNLGDGLKLETELLDGKTKLILSPFECKSKNSVKMGNKTKIAKCPLRTKQTGYILKSTQNTCIRSGKLLQKKRMGSETSLAKGEKNSMTFSPTKDICKQYVDKDCLYVQKEISPATPNIQKTRNTINTSVVAKQKLCKKHITAENMKSNLVCLTQDQLQQILSLNQGNKSISLIENGKEETSQGSLHLNSISNQPEDENVTGVFKKTDALSSVLDENKSVLNKNQETSKQYEQKIAIENVWKPADIFSTLGERERDRSLLEAKKAQWKKELDEQVALKKKEKEASEKWSNPWKKFESDKIVWENFQILDPSKTYASSSSILSQSPSQITVAQADGHPLPRASQILEEALPPERPFSASKQEQQRKWIEDLNKQIEDDRQRKTEGKITSSKGEEHDRWAMHFDSLKNYPASQSQMSSRSPHNQPEYFCVSPDTQELADLHSVYTPTTGSQVEPSEEEHIAKPVRDITTANSQKTNFLRSMTALLDPAQIEERDRRRQKQLEHQKAITAQVEEKRRKKQLEEQQRKKEEEEEERRLAREREEMQKQYEQDVLKQKQKEEIMTLKTNELFQTMQRAQELAQRLKQEQRIRELAQKGHDTSGLIKNLGGHGLDDVSGKKNTCINSTTSPKKDTAVQTDDLNTGTFTSAESCCGTVIEREILNCSSPEIPADFNEQFNTKKDKEELINQVKGTNLEKENSWYNDQCNEFARTEKTHMKKCPKRPDWNINKPLKRYIPASEKYPKQLQKQREEKKVRRQMELLNLVERNNPGHLCQNRGTSPVLPSCQETEPRFRWHLIKKEEEPLKSNAFGKERSQSPPVPVVKNRTQQTQTLKNSNYERENLILEGSQTETLPGPSEPSHFIPYVRTNEIYYLDPDAPLSRPLTQDLQYQNPHDCDQEQRQLFDSDVRDPLLNPNLVKNRDRQQAILKGLSELRQGLLQKQRELETNLMPLAANQEENFNSSF

Target ORF information:

RefSeq Version	XM_011231206.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X1, mRNA.

Target ORF information:

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

XM_011231206.2

ORF Insert Sequence:

ATGAACTTGG GAGATGGTTT AAAGCTTGAA ACTGAATTGT TGGATGGAAA AACGAAGTTA 
ATATTGTCTC CATTTGAATG TAAATCAAAA AATTCTGTGA AGATGGGAAA TAAGACCAAG 
ATTGCAAAAT GTCCTTTAAG AACAAAACAA ACTGGATACA TTCTGAAATC AACCCAAAAT 
ACTTGTATAA GGAGTGGAAA ACTTTTGCAA AAGAAGAGAA TGGGTTCAGA AACTTCACTG 
GCAAAAGGTG AAAAAAATAG TATGACTTTT TCACCCACTA AGGATATATG CAAGCAGTAT 
GTAGATAAAG ACTGTCTTTA TGTCCAGAAA GAGATTTCAC CTGCAACCCC CAATATACAG 
AAGACTAGAA ACACGATAAA TACATCTGTA GTAGCTAAAC AGAAGCTTTG CAAAAAGCAC 
ATCACAGCTG AAAATATGAA GAGCAATTTG GTGTGCCTAA CACAAGACCA ACTACAACAG 
ATTTTGTCTT TGAACCAAGG AAATAAATCT ATTTCCCTGA TTGAAAATGG AAAGGAGGAA 
ACAAGTCAGG GCAGTCTGCA TTTAAACAGT ATTTCCAATC AGCCAGAGGA TGAGAACGTT 
ACGGGAGTAT TCAAAAAAAC TGATGCTCTT TCGTCTGTCC TGGATGAAAA TAAATCTGTT 
TTAAATAAAA ATCAAGAGAC ATCTAAGCAG TATGAGCAGA AAATTGCCAT AGAGAATGTA 
TGGAAACCAG CTGACATTTT CAGTACTCTG GGGGAAAGAG AACGTGACAG AAGTTTGTTG 
GAAGCAAAGA AAGCCCAGTG GAAGAAAGAG CTTGATGAAC AGGTTGCTTT AAAGAAGAAA 
GAAAAAGAAG CTTCTGAAAA ATGGAGTAAT CCTTGGAAAA AATTTGAAAG TGATAAAATA 
GTATGGGAAA ATTTTCAAAT TCTTGACCCG TCTAAGACTT ATGCTAGCTC TTCCAGCATT 
CTGTCACAGT CTCCCAGTCA GATAACAGTG GCCCAGGCTG ATGGGCACCC ACTACCTAGA 
GCTAGTCAGA TTTTAGAGGA AGCATTACCA CCAGAGCGCC CTTTCAGTGC CTCGAAACAA 
GAACAGCAGA GGAAATGGAT TGAAGATTTG AATAAGCAAA TAGAAGATGA TCGGCAAAGA 
AAAACAGAGG GAAAAATTAC ATCTTCAAAG GGTGAGGAAC ATGACAGATG GGCAATGCAT 
TTTGATTCAT TAAAGAACTA TCCTGCTTCT CAGTCTCAAA TGTCCTCTCG GTCACCACAC 
AACCAACCAG AGTACTTCTG TGTCTCTCCG GACACTCAGG AACTGGCTGA TCTCCACAGT 
GTTTATACAC CTACAACTGG AAGCCAGGTC GAACCTTCAG AGGAGGAGCA TATAGCAAAA 
CCTGTTAGAG ATATAACCAC GGCAAATAGT CAGAAAACAA ACTTTCTCCG TTCTATGACT 
GCTCTCTTGG ATCCGGCTCA GATCGAAGAA CGTGACAGGC GACGACAGAA ACAGTTAGAG 
CATCAGAAAG CCATCACTGC TCAGGTAGAA GAGAAACGCA GGAAGAAGCA GCTGGAAGAG 
CAGCAAAGAA AGAAGGAAGA AGAAGAAGAG GAGCGTCGCT TAGCACGGGA ACGAGAAGAG 
ATGCAGAAAC AGTATGAACA AGACGTACTT AAGCAAAAAC AAAAGGAAGA AATCATGACT 
CTCAAGACAA ATGAGCTATT CCAGACGATG CAGAGAGCAC AGGAGCTAGC ACAGAGGCTG 
AAACAAGAAC AGAGAATCCG AGAATTGGCT CAAAAGGGAC ATGACACTTC TGGATTGATT 
AAAAACCTTG GCGGACATGG CTTGGATGAT GTCAGTGGTA AAAAGAATAC ATGTATCAAT 
TCTACAACCT CTCCCAAAAA GGATACTGCT GTACAAACAG ATGACTTAAA TACAGGAACA 
TTCACCAGTG CAGAATCATG CTGTGGAACA GTAATAGAGA GGGAAATTCT AAATTGTTCA 
TCTCCTGAGA TTCCTGCAGA CTTTAATGAA CAGTTTAACA CTAAGAAAGA CAAAGAGGAA 
CTCATAAATC AGGTTAAAGG AACCAACTTA GAAAAAGAAA ACAGCTGGTA TAATGATCAG 
TGTAATGAGT TTGCAAGGAC AGAGAAAACA CATATGAAGA AATGTCCTAA AAGGCCTGAT 
TGGAATATAA ATAAGCCACT CAAAAGGTAT ATCCCAGCAT CAGAAAAGTA CCCTAAACAG 
CTGCAAAAGC AGAGAGAAGA AAAAAAAGTA AGAAGGCAGA TGGAACTGCT CAATTTGGTA 
GAAAGAAATA ATCCTGGACA TCTTTGTCAA AACAGAGGCA CTTCACCAGT TCTTCCTTCA 
TGTCAAGAAA CTGAGCCAAG GTTCAGGTGG CATCTAATCA AAAAGGAAGA AGAGCCTCTG 
AAAAGTAATG CTTTTGGCAA GGAAAGGTCT CAGTCACCAC CAGTTCCAGT AGTGAAAAAC 
AGAACACAAC AAACTCAGAC ACTAAAAAAC AGTAATTATG AAAGAGAGAA TCTGATCTTA 
GAAGGCAGTC AAACAGAAAC ATTACCTGGG CCTTCTGAAC CATCCCATTT TATCCCCTAT 
GTCCGAACCA ATGAGATTTA TTACCTTGAT CCAGATGCAC CACTGTCTAG GCCTTTAACC 
CAGGATCTTC AGTACCAAAA TCCACATGAC TGTGACCAAG AACAACGGCA GCTATTTGAT 
TCTGATGTCA GGGACCCACT TCTTAATCCT AACTTGGTGA AAAACAGGGA TCGACAGCAA 
GCAATCCTTA AGGGACTATC AGAACTGAGA CAGGGCCTTC TCCAGAAGCA AAGGGAGTTG 
GAAACTAATC TGATGCCTTT AGCTGCAAAT CAAGAAGAGA ATTTTAATTC TTCGTTTTAA

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

CCDC66 ( XM_011231214.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011229516.1 Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OAc28943
Clone ID Related Accession (Same CDS sequence)	XM_011231214.2
Accession Version	XM_011231214.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2751bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	coiled-coil domain-containing protein 66 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217312.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011231214.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACTTGG GAGATGGTTT AAAGCTTGAA ACTGAATTGT TGGATGGAAA AACGAAGTTA 
ATATTGTCTC CATTTGAATG TAAATCAAAA AATTCTGTGA AGATGGGAAA TAAGACCAAG 
ATTGCAAAAT GTCCTTTAAG AACAAAACAA ACTGGATACA TTCTGAAATC AACCCAAAAT 
ACTTGTATAA GGAGTGGAAA ACTTTTGCAA AAGAAGAGAA TGGGTTCAGA AACTTCACTG 
GCAAAAGGTG AAAAAAATAG TATGACTTTT TCACCCACTA AGGATATATG CAAGCAGTAT 
GTAGATAAAG ACTGTCTTTA TGTCCAGAAA GAGATTTCAC CTGCAACCCC CAATATACAG 
AAGACTAGAA ACACGATAAA TACATCTGTA GTAGCTAAAC AGAAGCTTTG CAAAAAGCAC 
ATCACAGCTG AAAATATGAA GAGCAATTTG GTGTGCCTAA CACAAGACCA ACTACAACAG 
ATTTTGTCTT TGAACCAAGG AAATAAATCT ATTTCCCTGA TTGAAAATGG AAAGGAGGAA 
ACAAGTCAGG GCAGTCTGCA TTTAAACAGT ATTTCCAATC AGCCAGAGGA TGAGAACGTT 
ACGGGAGTAT TCAAAAAAAC TGATGCTCTT TCGTCTGTCC TGGATGAAAA TAAATCTGTT 
TTAAATAAAA ATCAAGAGAC ATCTAAGCAG TATGAGCAGA AAATTGCCAT AGAGAATGTA 
TGGAAACCAG CTGACATTTT CAGTACTCTG GGGGAAAGAG AACGTGACAG AAGTTTGTTG 
GAAGCAAAGA AAGCCCAGTG GAAGAAAGAG CTTGATGAAC AGGTTGCTTT AAAGAAGAAA 
GAAAAAGAAG CTTCTGAAAA ATGGAGTAAT CCTTGGAAAA AATTTGAAAG TGATAAAATA 
GTATGGGAAA ATTTTCAAAT TCTTGACCCG TCTAAGACTT ATGCTAGCTC TTCCAGCATT 
CTGTCACAGT CTCCCAGTCA GATAACAGTG GCCCAGGCTG ATGGGCACCC ACTACCTAGA 
GCTAGTCAGA TTTTAGAGGA AGCATTACCA CCAGAGCGCC CTTTCAGTGC CTCGAAACAA 
GAACAGCAGA GGAAATGGAT TGAAGATTTG AATAAGCAAA TAGAAGATGA TCGGCAAAGA 
AAAACAGAGG GAAAAATTAC ATCTTCAAAG GAACTGGCTG ATCTCCACAG TGTTTATACA 
CCTACAACTG GAAGCCAGGT CGAACCTTCA GAGGAGGAGC ATATAGCAAA ACCTGTTAGA 
GATATAACCA CGGCAAATAG TCAGAAAACA AACTTTCTCC GTTCTATGAC TGCTCTCTTG 
GATCCGGCTC AGATCGAAGA ACGTGACAGG CGACGACAGA AACAGTTAGA GCATCAGAAA 
GCCATCACTG CTCAGGTAGA AGAGAAACGC AGGAAGAAGC AGCTGGAAGA GCAGCAAAGA 
AAGAAGGAAG AAGAAGAAGA GGAGCGTCGC TTAGCACGGG AACGAGAAGA GATGCAGAAA 
CAGTATGAAC AAGACGTACT TAAGCAAAAA CAAAAGGAAG AAATCATGAC TCTCAAGACA 
AATGAGCTAT TCCAGACGAT GCAGAGAGCA CAGGAGCTAG CACAGAGGCT GAAACAAGAA 
CAGAGAATCC GAGAATTGGC TCAAAAGGGA CATGACACTT CTGGATTGAT TAAAAACCTT 
GGCGGACATG GCTTGGATGA TGTCAGTGGT AAAAAGAATA CATGTATCAA TTCTACAACC 
TCTCCCAAAA AGGATACTGC TGTACAAACA GATGACTTAA ATACAGGAAC ATTCACCAGT 
GCAGAATCAT GCTGTGGAAC AGTAATAGAG AGGGAAATTC TAAATTGTTC ATCTCCTGAG 
ATTCCTGCAG ACTTTAATGA ACAGTTTAAC ACTAAGAAAG ACAAAGAGGA ACTCATAAAT 
CAGGTTAAAG GAACCAACTT AGAAAAAGAA AACAGCTGGT ATAATGATCA GTGTAATGAG 
TTTGCAAGGA CAGAGAAAAC ACATATGAAG AAATGTCCTA AAAGGCCTGA TTGGAATATA 
AATAAGCCAC TCAAAAGGTA TATCCCAGCA TCAGAAAAGT ACCCTAAACA GCTGCAAAAG 
CAGAGAGAAG AAAAAAAAGT AAGAAGGCAG ATGGAACTGC TCAATTTGGT AGAAAGAAAT 
AATCCTGGAC ATCTTTGTCA AAACAGAGGC ACTTCACCAG TTCTTCCTTC ATGTCAAGAA 
ACTGAGCCAA GGTTCAGGTG GCATCTAATC AAAAAGGAAG AAGAGCCTCT GAAAAGTAAT 
GCTTTTGGCA AGGAAAGGTC TCAGTCACCA CCAGTTCCAG TAGTGAAAAA CAGAACACAA 
CAAACTCAGA CACTAAAAAA CAGTAATTAT GAAAGAGAGA ATCTGATCTT AGAAGGCAGT 
CAAACAGAAA CATTACCTGG GCCTTCTGAA CCATCCCATT TTATCCCCTA TGTCCGAACC 
AATGAGATTT ATTACCTTGA TCCAGATGCA CCACTGTCTA GGCCTTTAAC CCAGGATCTT 
CAGTACCAAA ATCCACATGA CTGTGACCAA GAACAACGGC AGCTATTTGA TTCTGATGTC 
AGGGACCCAC TTCTTAATCC TAACTTGGTG AAAAACAGGG ATCGACAGCA AGCAATCCTT 
AAGGGACTAT CAGAACTGAG ACAGGGCCTT CTCCAGAAGC AAAGGGAGTT GGAAACTAAT 
CTGATGCCTT TAGCTGCAAA TCAAGAAGAG AATTTTAATT CTTCGTTTTA A

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

RefSeq	XP_011229516.1
CDS	58..2808
Translation	MNLGDGLKLETELLDGKTKLILSPFECKSKNSVKMGNKTKIAKCPLRTKQTGYILKSTQNTCIRSGKLLQKKRMGSETSLAKGEKNSMTFSPTKDICKQYVDKDCLYVQKEISPATPNIQKTRNTINTSVVAKQKLCKKHITAENMKSNLVCLTQDQLQQILSLNQGNKSISLIENGKEETSQGSLHLNSISNQPEDENVTGVFKKTDALSSVLDENKSVLNKNQETSKQYEQKIAIENVWKPADIFSTLGERERDRSLLEAKKAQWKKELDEQVALKKKEKEASEKWSNPWKKFESDKIVWENFQILDPSKTYASSSSILSQSPSQITVAQADGHPLPRASQILEEALPPERPFSASKQEQQRKWIEDLNKQIEDDRQRKTEGKITSSKELADLHSVYTPTTGSQVEPSEEEHIAKPVRDITTANSQKTNFLRSMTALLDPAQIEERDRRRQKQLEHQKAITAQVEEKRRKKQLEEQQRKKEEEEEERRLAREREEMQKQYEQDVLKQKQKEEIMTLKTNELFQTMQRAQELAQRLKQEQRIRELAQKGHDTSGLIKNLGGHGLDDVSGKKNTCINSTTSPKKDTAVQTDDLNTGTFTSAESCCGTVIEREILNCSSPEIPADFNEQFNTKKDKEELINQVKGTNLEKENSWYNDQCNEFARTEKTHMKKCPKRPDWNINKPLKRYIPASEKYPKQLQKQREEKKVRRQMELLNLVERNNPGHLCQNRGTSPVLPSCQETEPRFRWHLIKKEEEPLKSNAFGKERSQSPPVPVVKNRTQQTQTLKNSNYERENLILEGSQTETLPGPSEPSHFIPYVRTNEIYYLDPDAPLSRPLTQDLQYQNPHDCDQEQRQLFDSDVRDPLLNPNLVKNRDRQQAILKGLSELRQGLLQKQRELETNLMPLAANQEENFNSSF

Target ORF information:

RefSeq Version	XM_011231214.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X6, mRNA.

Target ORF information:

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

XM_011231214.2

ORF Insert Sequence:

ATGAACTTGG GAGATGGTTT AAAGCTTGAA ACTGAATTGT TGGATGGAAA AACGAAGTTA 
ATATTGTCTC CATTTGAATG TAAATCAAAA AATTCTGTGA AGATGGGAAA TAAGACCAAG 
ATTGCAAAAT GTCCTTTAAG AACAAAACAA ACTGGATACA TTCTGAAATC AACCCAAAAT 
ACTTGTATAA GGAGTGGAAA ACTTTTGCAA AAGAAGAGAA TGGGTTCAGA AACTTCACTG 
GCAAAAGGTG AAAAAAATAG TATGACTTTT TCACCCACTA AGGATATATG CAAGCAGTAT 
GTAGATAAAG ACTGTCTTTA TGTCCAGAAA GAGATTTCAC CTGCAACCCC CAATATACAG 
AAGACTAGAA ACACGATAAA TACATCTGTA GTAGCTAAAC AGAAGCTTTG CAAAAAGCAC 
ATCACAGCTG AAAATATGAA GAGCAATTTG GTGTGCCTAA CACAAGACCA ACTACAACAG 
ATTTTGTCTT TGAACCAAGG AAATAAATCT ATTTCCCTGA TTGAAAATGG AAAGGAGGAA 
ACAAGTCAGG GCAGTCTGCA TTTAAACAGT ATTTCCAATC AGCCAGAGGA TGAGAACGTT 
ACGGGAGTAT TCAAAAAAAC TGATGCTCTT TCGTCTGTCC TGGATGAAAA TAAATCTGTT 
TTAAATAAAA ATCAAGAGAC ATCTAAGCAG TATGAGCAGA AAATTGCCAT AGAGAATGTA 
TGGAAACCAG CTGACATTTT CAGTACTCTG GGGGAAAGAG AACGTGACAG AAGTTTGTTG 
GAAGCAAAGA AAGCCCAGTG GAAGAAAGAG CTTGATGAAC AGGTTGCTTT AAAGAAGAAA 
GAAAAAGAAG CTTCTGAAAA ATGGAGTAAT CCTTGGAAAA AATTTGAAAG TGATAAAATA 
GTATGGGAAA ATTTTCAAAT TCTTGACCCG TCTAAGACTT ATGCTAGCTC TTCCAGCATT 
CTGTCACAGT CTCCCAGTCA GATAACAGTG GCCCAGGCTG ATGGGCACCC ACTACCTAGA 
GCTAGTCAGA TTTTAGAGGA AGCATTACCA CCAGAGCGCC CTTTCAGTGC CTCGAAACAA 
GAACAGCAGA GGAAATGGAT TGAAGATTTG AATAAGCAAA TAGAAGATGA TCGGCAAAGA 
AAAACAGAGG GAAAAATTAC ATCTTCAAAG GAACTGGCTG ATCTCCACAG TGTTTATACA 
CCTACAACTG GAAGCCAGGT CGAACCTTCA GAGGAGGAGC ATATAGCAAA ACCTGTTAGA 
GATATAACCA CGGCAAATAG TCAGAAAACA AACTTTCTCC GTTCTATGAC TGCTCTCTTG 
GATCCGGCTC AGATCGAAGA ACGTGACAGG CGACGACAGA AACAGTTAGA GCATCAGAAA 
GCCATCACTG CTCAGGTAGA AGAGAAACGC AGGAAGAAGC AGCTGGAAGA GCAGCAAAGA 
AAGAAGGAAG AAGAAGAAGA GGAGCGTCGC TTAGCACGGG AACGAGAAGA GATGCAGAAA 
CAGTATGAAC AAGACGTACT TAAGCAAAAA CAAAAGGAAG AAATCATGAC TCTCAAGACA 
AATGAGCTAT TCCAGACGAT GCAGAGAGCA CAGGAGCTAG CACAGAGGCT GAAACAAGAA 
CAGAGAATCC GAGAATTGGC TCAAAAGGGA CATGACACTT CTGGATTGAT TAAAAACCTT 
GGCGGACATG GCTTGGATGA TGTCAGTGGT AAAAAGAATA CATGTATCAA TTCTACAACC 
TCTCCCAAAA AGGATACTGC TGTACAAACA GATGACTTAA ATACAGGAAC ATTCACCAGT 
GCAGAATCAT GCTGTGGAAC AGTAATAGAG AGGGAAATTC TAAATTGTTC ATCTCCTGAG 
ATTCCTGCAG ACTTTAATGA ACAGTTTAAC ACTAAGAAAG ACAAAGAGGA ACTCATAAAT 
CAGGTTAAAG GAACCAACTT AGAAAAAGAA AACAGCTGGT ATAATGATCA GTGTAATGAG 
TTTGCAAGGA CAGAGAAAAC ACATATGAAG AAATGTCCTA AAAGGCCTGA TTGGAATATA 
AATAAGCCAC TCAAAAGGTA TATCCCAGCA TCAGAAAAGT ACCCTAAACA GCTGCAAAAG 
CAGAGAGAAG AAAAAAAAGT AAGAAGGCAG ATGGAACTGC TCAATTTGGT AGAAAGAAAT 
AATCCTGGAC ATCTTTGTCA AAACAGAGGC ACTTCACCAG TTCTTCCTTC ATGTCAAGAA 
ACTGAGCCAA GGTTCAGGTG GCATCTAATC AAAAAGGAAG AAGAGCCTCT GAAAAGTAAT 
GCTTTTGGCA AGGAAAGGTC TCAGTCACCA CCAGTTCCAG TAGTGAAAAA CAGAACACAA 
CAAACTCAGA CACTAAAAAA CAGTAATTAT GAAAGAGAGA ATCTGATCTT AGAAGGCAGT 
CAAACAGAAA CATTACCTGG GCCTTCTGAA CCATCCCATT TTATCCCCTA TGTCCGAACC 
AATGAGATTT ATTACCTTGA TCCAGATGCA CCACTGTCTA GGCCTTTAAC CCAGGATCTT 
CAGTACCAAA ATCCACATGA CTGTGACCAA GAACAACGGC AGCTATTTGA TTCTGATGTC 
AGGGACCCAC TTCTTAATCC TAACTTGGTG AAAAACAGGG ATCGACAGCA AGCAATCCTT 
AAGGGACTAT CAGAACTGAG ACAGGGCCTT CTCCAGAAGC AAAGGGAGTT GGAAACTAAT 
CTGATGCCTT TAGCTGCAAA TCAAGAAGAG AATTTTAATT CTTCGTTTTA A

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

CCDC66 ( XM_011231225.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011229527.1 Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X7, mRNA.

Price & Availability↑

CloneID	OAc28945
Clone ID Related Accession (Same CDS sequence)	XM_011231225.2
Accession Version	XM_011231225.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2583bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	coiled-coil domain-containing protein 66 isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217312.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011231225.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACTTGG GAGATGGTTT AAAGCTTGAA ACTGAATTGT TGGATGGAAA AACGAAGTTA 
ATATTGTCTC CATTTGAATG TAAATCAAAA AATTCTGTGA AGATGGGAAA TAAGACCAAG 
ATTGCAAAAT GTCCTTTAAG AACAAAACAA ACTGGATACA TTCTGAAATC AACCCAAAAT 
ACTTGTATAA GGAGTGGAAA ACTTTTGCAA AAGAAGAGAA TGGGTTCAGA AACTTCACTG 
GCAAAAGGTC AGGGCAGTCT GCATTTAAAC AGTATTTCCA ATCAGCCAGA GGATGAGAAC 
GTTACGGGAG TATTCAAAAA AACTGATGCT CTTTCGTCTG TCCTGGATGA AAATAAATCT 
GTTTTAAATA AAAATCAAGA GACATCTAAG CAGTATGAGC AGAAAATTGC CATAGAGAAT 
GTATGGAAAC CAGCTGACAT TTTCAGTACT CTGGGGGAAA GAGAACGTGA CAGAAGTTTG 
TTGGAAGCAA AGAAAGCCCA GTGGAAGAAA GAGCTTGATG AACAGGTTGC TTTAAAGAAG 
AAAGAAAAAG AAGCTTCTGA AAAATGGAGT AATCCTTGGA AAAAATTTGA AAGTGATAAA 
ATAGTATGGG AAAATTTTCA AATTCTTGAC CCGTCTAAGA CTTATGCTAG CTCTTCCAGC 
ATTCTGTCAC AGTCTCCCAG TCAGATAACA GTGGCCCAGG CTGATGGGCA CCCACTACCT 
AGAGCTAGTC AGATTTTAGA GGAAGCATTA CCACCAGAGC GCCCTTTCAG TGCCTCGAAA 
CAAGAACAGC AGAGGAAATG GATTGAAGAT TTGAATAAGC AAATAGAAGA TGATCGGCAA 
AGAAAAACAG AGGGAAAAAT TACATCTTCA AAGGGTGAGG AACATGACAG ATGGGCAATG 
CATTTTGATT CATTAAAGAA CTATCCTGCT TCTCAGTCTC AAATGTCCTC TCGGTCACCA 
CACAACCAAC CAGAGTACTT CTGTGTCTCT CCGGACACTC AGGAACTGGC TGATCTCCAC 
AGTGTTTATA CACCTACAAC TGGAAGCCAG GTCGAACCTT CAGAGGAGGA GCATATAGCA 
AAACCTGTTA GAGATATAAC CACGGCAAAT AGTCAGAAAA CAAACTTTCT CCGTTCTATG 
ACTGCTCTCT TGGATCCGGC TCAGATCGAA GAACGTGACA GGCGACGACA GAAACAGTTA 
GAGCATCAGA AAGCCATCAC TGCTCAGGTA GAAGAGAAAC GCAGGAAGAA GCAGCTGGAA 
GAGCAGCAAA GAAAGAAGGA AGAAGAAGAA GAGGAGCGTC GCTTAGCACG GGAACGAGAA 
GAGATGCAGA AACAGTATGA ACAAGACGTA CTTAAGCAAA AACAAAAGGA AGAAATCATG 
ACTCTCAAGA CAAATGAGCT ATTCCAGACG ATGCAGAGAG CACAGGAGCT AGCACAGAGG 
CTGAAACAAG AACAGAGAAT CCGAGAATTG GCTCAAAAGG GACATGACAC TTCTGGATTG 
ATTAAAAACC TTGGCGGACA TGGCTTGGAT GATGTCAGTG GTAAAAAGAA TACATGTATC 
AATTCTACAA CCTCTCCCAA AAAGGATACT GCTGTACAAA CAGATGACTT AAATACAGGA 
ACATTCACCA GTGCAGAATC ATGCTGTGGA ACAGTAATAG AGAGGGAAAT TCTAAATTGT 
TCATCTCCTG AGATTCCTGC AGACTTTAAT GAACAGTTTA ACACTAAGAA AGACAAAGAG 
GAACTCATAA ATCAGGTTAA AGGAACCAAC TTAGAAAAAG AAAACAGCTG GTATAATGAT 
CAGTGTAATG AGTTTGCAAG GACAGAGAAA ACACATATGA AGAAATGTCC TAAAAGGCCT 
GATTGGAATA TAAATAAGCC ACTCAAAAGG TATATCCCAG CATCAGAAAA GTACCCTAAA 
CAGCTGCAAA AGCAGAGAGA AGAAAAAAAA GTAAGAAGGC AGATGGAACT GCTCAATTTG 
GTAGAAAGAA ATAATCCTGG ACATCTTTGT CAAAACAGAG GCACTTCACC AGTTCTTCCT 
TCATGTCAAG AAACTGAGCC AAGGTTCAGG TGGCATCTAA TCAAAAAGGA AGAAGAGCCT 
CTGAAAAGTA ATGCTTTTGG CAAGGAAAGG TCTCAGTCAC CACCAGTTCC AGTAGTGAAA 
AACAGAACAC AACAAACTCA GACACTAAAA AACAGTAATT ATGAAAGAGA GAATCTGATC 
TTAGAAGGCA GTCAAACAGA AACATTACCT GGGCCTTCTG AACCATCCCA TTTTATCCCC 
TATGTCCGAA CCAATGAGAT TTATTACCTT GATCCAGATG CACCACTGTC TAGGCCTTTA 
ACCCAGGATC TTCAGTACCA AAATCCACAT GACTGTGACC AAGAACAACG GCAGCTATTT 
GATTCTGATG TCAGGGACCC ACTTCTTAAT CCTAACTTGG TGAAAAACAG GGATCGACAG 
CAAGCAATCC TTAAGGGACT ATCAGAACTG AGACAGGGCC TTCTCCAGAA GCAAAGGGAG 
TTGGAAACTA ATCTGATGCC TTTAGCTGCA AATCAAGAAG AGAATTTTAA TTCTTCGTTT 
TAA

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

RefSeq	XP_011229527.1
CDS	58..2640
Translation	MNLGDGLKLETELLDGKTKLILSPFECKSKNSVKMGNKTKIAKCPLRTKQTGYILKSTQNTCIRSGKLLQKKRMGSETSLAKGQGSLHLNSISNQPEDENVTGVFKKTDALSSVLDENKSVLNKNQETSKQYEQKIAIENVWKPADIFSTLGERERDRSLLEAKKAQWKKELDEQVALKKKEKEASEKWSNPWKKFESDKIVWENFQILDPSKTYASSSSILSQSPSQITVAQADGHPLPRASQILEEALPPERPFSASKQEQQRKWIEDLNKQIEDDRQRKTEGKITSSKGEEHDRWAMHFDSLKNYPASQSQMSSRSPHNQPEYFCVSPDTQELADLHSVYTPTTGSQVEPSEEEHIAKPVRDITTANSQKTNFLRSMTALLDPAQIEERDRRRQKQLEHQKAITAQVEEKRRKKQLEEQQRKKEEEEEERRLAREREEMQKQYEQDVLKQKQKEEIMTLKTNELFQTMQRAQELAQRLKQEQRIRELAQKGHDTSGLIKNLGGHGLDDVSGKKNTCINSTTSPKKDTAVQTDDLNTGTFTSAESCCGTVIEREILNCSSPEIPADFNEQFNTKKDKEELINQVKGTNLEKENSWYNDQCNEFARTEKTHMKKCPKRPDWNINKPLKRYIPASEKYPKQLQKQREEKKVRRQMELLNLVERNNPGHLCQNRGTSPVLPSCQETEPRFRWHLIKKEEEPLKSNAFGKERSQSPPVPVVKNRTQQTQTLKNSNYERENLILEGSQTETLPGPSEPSHFIPYVRTNEIYYLDPDAPLSRPLTQDLQYQNPHDCDQEQRQLFDSDVRDPLLNPNLVKNRDRQQAILKGLSELRQGLLQKQRELETNLMPLAANQEENFNSSF

Target ORF information:

RefSeq Version	XM_011231225.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X7, mRNA.

Target ORF information:

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

XM_011231225.2

ORF Insert Sequence:

ATGAACTTGG GAGATGGTTT AAAGCTTGAA ACTGAATTGT TGGATGGAAA AACGAAGTTA 
ATATTGTCTC CATTTGAATG TAAATCAAAA AATTCTGTGA AGATGGGAAA TAAGACCAAG 
ATTGCAAAAT GTCCTTTAAG AACAAAACAA ACTGGATACA TTCTGAAATC AACCCAAAAT 
ACTTGTATAA GGAGTGGAAA ACTTTTGCAA AAGAAGAGAA TGGGTTCAGA AACTTCACTG 
GCAAAAGGTC AGGGCAGTCT GCATTTAAAC AGTATTTCCA ATCAGCCAGA GGATGAGAAC 
GTTACGGGAG TATTCAAAAA AACTGATGCT CTTTCGTCTG TCCTGGATGA AAATAAATCT 
GTTTTAAATA AAAATCAAGA GACATCTAAG CAGTATGAGC AGAAAATTGC CATAGAGAAT 
GTATGGAAAC CAGCTGACAT TTTCAGTACT CTGGGGGAAA GAGAACGTGA CAGAAGTTTG 
TTGGAAGCAA AGAAAGCCCA GTGGAAGAAA GAGCTTGATG AACAGGTTGC TTTAAAGAAG 
AAAGAAAAAG AAGCTTCTGA AAAATGGAGT AATCCTTGGA AAAAATTTGA AAGTGATAAA 
ATAGTATGGG AAAATTTTCA AATTCTTGAC CCGTCTAAGA CTTATGCTAG CTCTTCCAGC 
ATTCTGTCAC AGTCTCCCAG TCAGATAACA GTGGCCCAGG CTGATGGGCA CCCACTACCT 
AGAGCTAGTC AGATTTTAGA GGAAGCATTA CCACCAGAGC GCCCTTTCAG TGCCTCGAAA 
CAAGAACAGC AGAGGAAATG GATTGAAGAT TTGAATAAGC AAATAGAAGA TGATCGGCAA 
AGAAAAACAG AGGGAAAAAT TACATCTTCA AAGGGTGAGG AACATGACAG ATGGGCAATG 
CATTTTGATT CATTAAAGAA CTATCCTGCT TCTCAGTCTC AAATGTCCTC TCGGTCACCA 
CACAACCAAC CAGAGTACTT CTGTGTCTCT CCGGACACTC AGGAACTGGC TGATCTCCAC 
AGTGTTTATA CACCTACAAC TGGAAGCCAG GTCGAACCTT CAGAGGAGGA GCATATAGCA 
AAACCTGTTA GAGATATAAC CACGGCAAAT AGTCAGAAAA CAAACTTTCT CCGTTCTATG 
ACTGCTCTCT TGGATCCGGC TCAGATCGAA GAACGTGACA GGCGACGACA GAAACAGTTA 
GAGCATCAGA AAGCCATCAC TGCTCAGGTA GAAGAGAAAC GCAGGAAGAA GCAGCTGGAA 
GAGCAGCAAA GAAAGAAGGA AGAAGAAGAA GAGGAGCGTC GCTTAGCACG GGAACGAGAA 
GAGATGCAGA AACAGTATGA ACAAGACGTA CTTAAGCAAA AACAAAAGGA AGAAATCATG 
ACTCTCAAGA CAAATGAGCT ATTCCAGACG ATGCAGAGAG CACAGGAGCT AGCACAGAGG 
CTGAAACAAG AACAGAGAAT CCGAGAATTG GCTCAAAAGG GACATGACAC TTCTGGATTG 
ATTAAAAACC TTGGCGGACA TGGCTTGGAT GATGTCAGTG GTAAAAAGAA TACATGTATC 
AATTCTACAA CCTCTCCCAA AAAGGATACT GCTGTACAAA CAGATGACTT AAATACAGGA 
ACATTCACCA GTGCAGAATC ATGCTGTGGA ACAGTAATAG AGAGGGAAAT TCTAAATTGT 
TCATCTCCTG AGATTCCTGC AGACTTTAAT GAACAGTTTA ACACTAAGAA AGACAAAGAG 
GAACTCATAA ATCAGGTTAA AGGAACCAAC TTAGAAAAAG AAAACAGCTG GTATAATGAT 
CAGTGTAATG AGTTTGCAAG GACAGAGAAA ACACATATGA AGAAATGTCC TAAAAGGCCT 
GATTGGAATA TAAATAAGCC ACTCAAAAGG TATATCCCAG CATCAGAAAA GTACCCTAAA 
CAGCTGCAAA AGCAGAGAGA AGAAAAAAAA GTAAGAAGGC AGATGGAACT GCTCAATTTG 
GTAGAAAGAA ATAATCCTGG ACATCTTTGT CAAAACAGAG GCACTTCACC AGTTCTTCCT 
TCATGTCAAG AAACTGAGCC AAGGTTCAGG TGGCATCTAA TCAAAAAGGA AGAAGAGCCT 
CTGAAAAGTA ATGCTTTTGG CAAGGAAAGG TCTCAGTCAC CACCAGTTCC AGTAGTGAAA 
AACAGAACAC AACAAACTCA GACACTAAAA AACAGTAATT ATGAAAGAGA GAATCTGATC 
TTAGAAGGCA GTCAAACAGA AACATTACCT GGGCCTTCTG AACCATCCCA TTTTATCCCC 
TATGTCCGAA CCAATGAGAT TTATTACCTT GATCCAGATG CACCACTGTC TAGGCCTTTA 
ACCCAGGATC TTCAGTACCA AAATCCACAT GACTGTGACC AAGAACAACG GCAGCTATTT 
GATTCTGATG TCAGGGACCC ACTTCTTAAT CCTAACTTGG TGAAAAACAG GGATCGACAG 
CAAGCAATCC TTAAGGGACT ATCAGAACTG AGACAGGGCC TTCTCCAGAA GCAAAGGGAG 
TTGGAAACTA ATCTGATGCC TTTAGCTGCA AATCAAGAAG AGAATTTTAA TTCTTCGTTT 
TAA

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

CCDC66 ( XM_011231235.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011229537.1 Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X8, mRNA.

Price & Availability↑

CloneID	OAc28947
Clone ID Related Accession (Same CDS sequence)	XM_011231235.2
Accession Version	XM_011231235.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2445bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	coiled-coil domain-containing protein 66 isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217312.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011231235.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGAGCA ATTTGGTGTG CCTAACACAA GACCAACTAC AACAGATTTT GTCTTTGAAC 
CAAGGAAATA AATCTATTTC CCTGATTGAA AATGGAAAGG AGGAAACAAG TCAGGGCAGT 
CTGCATTTAA ACAGTATTTC CAATCAGCCA GAGGATGAGA ACGTTACGGG AGTATTCAAA 
AAAACTGATG CTCTTTCGTC TGTCCTGGAT GAAAATAAAT CTGTTTTAAA TAAAAATCAA 
GAGACATCTA AGCAGTATGA GCAGAAAATT GCCATAGAGA ATGTATGGAA ACCAGCTGAC 
ATTTTCAGTA CTCTGGGGGA AAGAGAACGT GACAGAAGTT TGTTGGAAGC AAAGAAAGCC 
CAGTGGAAGA AAGAGCTTGA TGAACAGGTT GCTTTAAAGA AGAAAGAAAA AGAAGCTTCT 
GAAAAATGGA GTAATCCTTG GAAAAAATTT GAAAGTGATA AAATAGTATG GGAAAATTTT 
CAAATTCTTG ACCCGTCTAA GACTTATGCT AGCTCTTCCA GCATTCTGTC ACAGTCTCCC 
AGTCAGATAA CAGTGGCCCA GGCTGATGGG CACCCACTAC CTAGAGCTAG TCAGATTTTA 
GAGGAAGCAT TACCACCAGA GCGCCCTTTC AGTGCCTCGA AACAAGAACA GCAGAGGAAA 
TGGATTGAAG ATTTGAATAA GCAAATAGAA GATGATCGGC AAAGAAAAAC AGAGGGAAAA 
ATTACATCTT CAAAGGGTGA GGAACATGAC AGATGGGCAA TGCATTTTGA TTCATTAAAG 
AACTATCCTG CTTCTCAGTC TCAAATGTCC TCTCGGTCAC CACACAACCA ACCAGAGTAC 
TTCTGTGTCT CTCCGGACAC TCAGGAACTG GCTGATCTCC ACAGTGTTTA TACACCTACA 
ACTGGAAGCC AGGTCGAACC TTCAGAGGAG GAGCATATAG CAAAACCTGT TAGAGATATA 
ACCACGGCAA ATAGTCAGAA AACAAACTTT CTCCGTTCTA TGACTGCTCT CTTGGATCCG 
GCTCAGATCG AAGAACGTGA CAGGCGACGA CAGAAACAGT TAGAGCATCA GAAAGCCATC 
ACTGCTCAGG TAGAAGAGAA ACGCAGGAAG AAGCAGCTGG AAGAGCAGCA AAGAAAGAAG 
GAAGAAGAAG AAGAGGAGCG TCGCTTAGCA CGGGAACGAG AAGAGATGCA GAAACAGTAT 
GAACAAGACG TACTTAAGCA AAAACAAAAG GAAGAAATCA TGACTCTCAA GACAAATGAG 
CTATTCCAGA CGATGCAGAG AGCACAGGAG CTAGCACAGA GGCTGAAACA AGAACAGAGA 
ATCCGAGAAT TGGCTCAAAA GGGACATGAC ACTTCTGGAT TGATTAAAAA CCTTGGCGGA 
CATGGCTTGG ATGATGTCAG TGGTAAAAAG AATACATGTA TCAATTCTAC AACCTCTCCC 
AAAAAGGATA CTGCTGTACA AACAGATGAC TTAAATACAG GAACATTCAC CAGTGCAGAA 
TCATGCTGTG GAACAGTAAT AGAGAGGGAA ATTCTAAATT GTTCATCTCC TGAGATTCCT 
GCAGACTTTA ATGAACAGTT TAACACTAAG AAAGACAAAG AGGAACTCAT AAATCAGGTT 
AAAGGAACCA ACTTAGAAAA AGAAAACAGC TGGTATAATG ATCAGTGTAA TGAGTTTGCA 
AGGACAGAGA AAACACATAT GAAGAAATGT CCTAAAAGGC CTGATTGGAA TATAAATAAG 
CCACTCAAAA GGTATATCCC AGCATCAGAA AAGTACCCTA AACAGCTGCA AAAGCAGAGA 
GAAGAAAAAA AAGTAAGAAG GCAGATGGAA CTGCTCAATT TGGTAGAAAG AAATAATCCT 
GGACATCTTT GTCAAAACAG AGGCACTTCA CCAGTTCTTC CTTCATGTCA AGAAACTGAG 
CCAAGGTTCA GGTGGCATCT AATCAAAAAG GAAGAAGAGC CTCTGAAAAG TAATGCTTTT 
GGCAAGGAAA GGTCTCAGTC ACCACCAGTT CCAGTAGTGA AAAACAGAAC ACAACAAACT 
CAGACACTAA AAAACAGTAA TTATGAAAGA GAGAATCTGA TCTTAGAAGG CAGTCAAACA 
GAAACATTAC CTGGGCCTTC TGAACCATCC CATTTTATCC CCTATGTCCG AACCAATGAG 
ATTTATTACC TTGATCCAGA TGCACCACTG TCTAGGCCTT TAACCCAGGA TCTTCAGTAC 
CAAAATCCAC ATGACTGTGA CCAAGAACAA CGGCAGCTAT TTGATTCTGA TGTCAGGGAC 
CCACTTCTTA ATCCTAACTT GGTGAAAAAC AGGGATCGAC AGCAAGCAAT CCTTAAGGGA 
CTATCAGAAC TGAGACAGGG CCTTCTCCAG AAGCAAAGGG AGTTGGAAAC TAATCTGATG 
CCTTTAGCTG CAAATCAAGA AGAGAATTTT AATTCTTCGT TTTAA

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

RefSeq	XP_011229537.1
CDS	196..2640
Translation	MKSNLVCLTQDQLQQILSLNQGNKSISLIENGKEETSQGSLHLNSISNQPEDENVTGVFKKTDALSSVLDENKSVLNKNQETSKQYEQKIAIENVWKPADIFSTLGERERDRSLLEAKKAQWKKELDEQVALKKKEKEASEKWSNPWKKFESDKIVWENFQILDPSKTYASSSSILSQSPSQITVAQADGHPLPRASQILEEALPPERPFSASKQEQQRKWIEDLNKQIEDDRQRKTEGKITSSKGEEHDRWAMHFDSLKNYPASQSQMSSRSPHNQPEYFCVSPDTQELADLHSVYTPTTGSQVEPSEEEHIAKPVRDITTANSQKTNFLRSMTALLDPAQIEERDRRRQKQLEHQKAITAQVEEKRRKKQLEEQQRKKEEEEEERRLAREREEMQKQYEQDVLKQKQKEEIMTLKTNELFQTMQRAQELAQRLKQEQRIRELAQKGHDTSGLIKNLGGHGLDDVSGKKNTCINSTTSPKKDTAVQTDDLNTGTFTSAESCCGTVIEREILNCSSPEIPADFNEQFNTKKDKEELINQVKGTNLEKENSWYNDQCNEFARTEKTHMKKCPKRPDWNINKPLKRYIPASEKYPKQLQKQREEKKVRRQMELLNLVERNNPGHLCQNRGTSPVLPSCQETEPRFRWHLIKKEEEPLKSNAFGKERSQSPPVPVVKNRTQQTQTLKNSNYERENLILEGSQTETLPGPSEPSHFIPYVRTNEIYYLDPDAPLSRPLTQDLQYQNPHDCDQEQRQLFDSDVRDPLLNPNLVKNRDRQQAILKGLSELRQGLLQKQRELETNLMPLAANQEENFNSSF

Target ORF information:

RefSeq Version	XM_011231235.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X8, mRNA.

Target ORF information:

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

XM_011231235.2

ORF Insert Sequence:

ATGAAGAGCA ATTTGGTGTG CCTAACACAA GACCAACTAC AACAGATTTT GTCTTTGAAC 
CAAGGAAATA AATCTATTTC CCTGATTGAA AATGGAAAGG AGGAAACAAG TCAGGGCAGT 
CTGCATTTAA ACAGTATTTC CAATCAGCCA GAGGATGAGA ACGTTACGGG AGTATTCAAA 
AAAACTGATG CTCTTTCGTC TGTCCTGGAT GAAAATAAAT CTGTTTTAAA TAAAAATCAA 
GAGACATCTA AGCAGTATGA GCAGAAAATT GCCATAGAGA ATGTATGGAA ACCAGCTGAC 
ATTTTCAGTA CTCTGGGGGA AAGAGAACGT GACAGAAGTT TGTTGGAAGC AAAGAAAGCC 
CAGTGGAAGA AAGAGCTTGA TGAACAGGTT GCTTTAAAGA AGAAAGAAAA AGAAGCTTCT 
GAAAAATGGA GTAATCCTTG GAAAAAATTT GAAAGTGATA AAATAGTATG GGAAAATTTT 
CAAATTCTTG ACCCGTCTAA GACTTATGCT AGCTCTTCCA GCATTCTGTC ACAGTCTCCC 
AGTCAGATAA CAGTGGCCCA GGCTGATGGG CACCCACTAC CTAGAGCTAG TCAGATTTTA 
GAGGAAGCAT TACCACCAGA GCGCCCTTTC AGTGCCTCGA AACAAGAACA GCAGAGGAAA 
TGGATTGAAG ATTTGAATAA GCAAATAGAA GATGATCGGC AAAGAAAAAC AGAGGGAAAA 
ATTACATCTT CAAAGGGTGA GGAACATGAC AGATGGGCAA TGCATTTTGA TTCATTAAAG 
AACTATCCTG CTTCTCAGTC TCAAATGTCC TCTCGGTCAC CACACAACCA ACCAGAGTAC 
TTCTGTGTCT CTCCGGACAC TCAGGAACTG GCTGATCTCC ACAGTGTTTA TACACCTACA 
ACTGGAAGCC AGGTCGAACC TTCAGAGGAG GAGCATATAG CAAAACCTGT TAGAGATATA 
ACCACGGCAA ATAGTCAGAA AACAAACTTT CTCCGTTCTA TGACTGCTCT CTTGGATCCG 
GCTCAGATCG AAGAACGTGA CAGGCGACGA CAGAAACAGT TAGAGCATCA GAAAGCCATC 
ACTGCTCAGG TAGAAGAGAA ACGCAGGAAG AAGCAGCTGG AAGAGCAGCA AAGAAAGAAG 
GAAGAAGAAG AAGAGGAGCG TCGCTTAGCA CGGGAACGAG AAGAGATGCA GAAACAGTAT 
GAACAAGACG TACTTAAGCA AAAACAAAAG GAAGAAATCA TGACTCTCAA GACAAATGAG 
CTATTCCAGA CGATGCAGAG AGCACAGGAG CTAGCACAGA GGCTGAAACA AGAACAGAGA 
ATCCGAGAAT TGGCTCAAAA GGGACATGAC ACTTCTGGAT TGATTAAAAA CCTTGGCGGA 
CATGGCTTGG ATGATGTCAG TGGTAAAAAG AATACATGTA TCAATTCTAC AACCTCTCCC 
AAAAAGGATA CTGCTGTACA AACAGATGAC TTAAATACAG GAACATTCAC CAGTGCAGAA 
TCATGCTGTG GAACAGTAAT AGAGAGGGAA ATTCTAAATT GTTCATCTCC TGAGATTCCT 
GCAGACTTTA ATGAACAGTT TAACACTAAG AAAGACAAAG AGGAACTCAT AAATCAGGTT 
AAAGGAACCA ACTTAGAAAA AGAAAACAGC TGGTATAATG ATCAGTGTAA TGAGTTTGCA 
AGGACAGAGA AAACACATAT GAAGAAATGT CCTAAAAGGC CTGATTGGAA TATAAATAAG 
CCACTCAAAA GGTATATCCC AGCATCAGAA AAGTACCCTA AACAGCTGCA AAAGCAGAGA 
GAAGAAAAAA AAGTAAGAAG GCAGATGGAA CTGCTCAATT TGGTAGAAAG AAATAATCCT 
GGACATCTTT GTCAAAACAG AGGCACTTCA CCAGTTCTTC CTTCATGTCA AGAAACTGAG 
CCAAGGTTCA GGTGGCATCT AATCAAAAAG GAAGAAGAGC CTCTGAAAAG TAATGCTTTT 
GGCAAGGAAA GGTCTCAGTC ACCACCAGTT CCAGTAGTGA AAAACAGAAC ACAACAAACT 
CAGACACTAA AAAACAGTAA TTATGAAAGA GAGAATCTGA TCTTAGAAGG CAGTCAAACA 
GAAACATTAC CTGGGCCTTC TGAACCATCC CATTTTATCC CCTATGTCCG AACCAATGAG 
ATTTATTACC TTGATCCAGA TGCACCACTG TCTAGGCCTT TAACCCAGGA TCTTCAGTAC 
CAAAATCCAC ATGACTGTGA CCAAGAACAA CGGCAGCTAT TTGATTCTGA TGTCAGGGAC 
CCACTTCTTA ATCCTAACTT GGTGAAAAAC AGGGATCGAC AGCAAGCAAT CCTTAAGGGA 
CTATCAGAAC TGAGACAGGG CCTTCTCCAG AAGCAAAGGG AGTTGGAAAC TAATCTGATG 
CCTTTAGCTG CAAATCAAGA AGAGAATTTT AATTCTTCGT TTTAA

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

CCDC66 ( XM_019805151.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019660710.1 Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc88683
Clone ID Related Accession (Same CDS sequence)	XM_019805151.1
Accession Version	XM_019805151.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2817bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	coiled-coil domain-containing protein 66 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217312.1) 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 Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACTTGG GAGATGGTTT AAAGCTTGAA ACTGAATTGT TGGATGGAAA AACGAAGTTA 
ATATTGTCTC CATTTGAATG TAAATCAAAA AATTCTGTGA AGATGGGAAA TAAGACCAAG 
ATTGCAAAAT GTCCTTTAAG AACAAAACAA ACTGGATACA TTCTGAAATC AACCCAAAAT 
ACTTGTATAA GGAGTGGAAA ACTTTTGCAA AAGAAGAGAA TGGGTTCAGA AACTTCACTG 
GCAAAAGGTG AAAAAAATAG TATGACTTTT TCACCCACTA AGGATATATG CAAGCAGTAT 
GTAGATAAAG ACTGTCTTTA TGTCCAGAAA GAGATTTCAC CTGCAACCCC CAATATACAG 
AAGACTAGAA ACACGATAAA TACATCTGTA GTAGCTAAAC AGAAGCTTTG CAAAAAGCAC 
ATCACAGCTG AAAATATGAA GAGCAATTTG GTGTGCCTAA CACAAGACCA ACTACAACAG 
ATTTTGTCTT TGAACCAAGG AAATAAATCT ATTTCCCTGA TTGAAAATGG AAAGGAGGAA 
ACAAGTCAGG GCAGTCTGCA TTTAAACAGT ATTTCCAATC AGCCAGAGGA TGAGAACGTT 
ACGGGAGTAT TCAAAAAAAC TGATGCTCTT TCGTCTGTCC TGGATGAAAA TAAATCTGTT 
TTAAATAAAA ATCAAGAGAC ATCTAAGCAG TATGAGCAGA AAATTGCCAT AGAGAATGTA 
TGGAAACCAG CTGACATTTT CAGTACTCTG GGGGAAAGAG AACGTGACAG AAGTTTGTTG 
GAAGCAAAGA AAGCCCAGTG GAAGAAAGAG CTTGATGAAC AGGTTGCTTT AAAGAAGAAA 
GAAAAAGAAG CTTCTGAAAA ATGGAGTAAT CCTTGGAAAA AATTTGAAAG TGATAAAATA 
GTATGGGAAA ATTTTCAAAT TCTTGACCCG TCTAAGACTT ATGCTAGCTC TTCCAGCATT 
CTGTCACAGT CTCCCAGTCA GATAACAGTG GCCCAGGCTG ATGGGCACCC ACTACCTAGA 
GCTAGTCAGA TTTTAGAGGA AGCATTACCA CCAGAGCGCC CTTTCAGTGC CTCGAAACAA 
GAACAGCAGA GGAAATGGAT TGAAGATTTG AATAAGCAAA TAGAAGATGA TCGGCAAAGA 
AAAACAGAGG GAAAAATTAC ATCTTCAAAG TCTCAAATGT CCTCTCGGTC ACCACACAAC 
CAACCAGAGT ACTTCTGTGT CTCTCCGGAC ACTCAGGAAC TGGCTGATCT CCACAGTGTT 
TATACACCTA CAACTGGAAG CCAGGTCGAA CCTTCAGAGG AGGAGCATAT AGCAAAACCT 
GTTAGAGATA TAACCACGGC AAATAGTCAG AAAACAAACT TTCTCCGTTC TATGACTGCT 
CTCTTGGATC CGGCTCAGAT CGAAGAACGT GACAGGCGAC GACAGAAACA GTTAGAGCAT 
CAGAAAGCCA TCACTGCTCA GGTAGAAGAG AAACGCAGGA AGAAGCAGCT GGAAGAGCAG 
CAAAGAAAGA AGGAAGAAGA AGAAGAGGAG CGTCGCTTAG CACGGGAACG AGAAGAGATG 
CAGAAACAGT ATGAACAAGA CGTACTTAAG CAAAAACAAA AGGAAGAAAT CATGACTCTC 
AAGACAAATG AGCTATTCCA GACGATGCAG AGAGCACAGG AGCTAGCACA GAGGCTGAAA 
CAAGAACAGA GAATCCGAGA ATTGGCTCAA AAGGGACATG ACACTTCTGG ATTGATTAAA 
AACCTTGGCG GACATGGCTT GGATGATGTC AGTGGTAAAA AGAATACATG TATCAATTCT 
ACAACCTCTC CCAAAAAGGA TACTGCTGTA CAAACAGATG ACTTAAATAC AGGAACATTC 
ACCAGTGCAG AATCATGCTG TGGAACAGTA ATAGAGAGGG AAATTCTAAA TTGTTCATCT 
CCTGAGATTC CTGCAGACTT TAATGAACAG TTTAACACTA AGAAAGACAA AGAGGAACTC 
ATAAATCAGG TTAAAGGAAC CAACTTAGAA AAAGAAAACA GCTGGTATAA TGATCAGTGT 
AATGAGTTTG CAAGGACAGA GAAAACACAT ATGAAGAAAT GTCCTAAAAG GCCTGATTGG 
AATATAAATA AGCCACTCAA AAGGTATATC CCAGCATCAG AAAAGTACCC TAAACAGCTG 
CAAAAGCAGA GAGAAGAAAA AAAAGTAAGA AGGCAGATGG AACTGCTCAA TTTGGTAGAA 
AGAAATAATC CTGGACATCT TTGTCAAAAC AGAGGCACTT CACCAGTTCT TCCTTCATGT 
CAAGAAACTG AGCCAAGGTT CAGGTGGCAT CTAATCAAAA AGGAAGAAGA GCCTCTGAAA 
AGTAATGCTT TTGGCAAGGA AAGGTCTCAG TCACCACCAG TTCCAGTAGT GAAAAACAGA 
ACACAACAAA CTCAGACACT AAAAAACAGT AATTATGAAA GAGAGAATCT GATCTTAGAA 
GGCAGTCAAA CAGAAACATT ACCTGGGCCT TCTGAACCAT CCCATTTTAT CCCCTATGTC 
CGAACCAATG AGATTTATTA CCTTGATCCA GATGCACCAC TGTCTAGGCC TTTAACCCAG 
GATCTTCAGT ACCAAAATCC ACATGACTGT GACCAAGAAC AACGGCAGCT ATTTGATTCT 
GATGTCAGGG ACCCACTTCT TAATCCTAAC TTGGTGAAAA ACAGGGATCG ACAGCAAGCA 
ATCCTTAAGG GACTATCAGA ACTGAGACAG GGCCTTCTCC AGAAGCAAAG GGAGTTGGAA 
ACTAATCTGA TGCCTTTAGC TGCAAATCAA GAAGAGAATT TTAATTCTTC GTTTTAA

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

RefSeq	XP_019660710.1
CDS	58..2874
Translation	MNLGDGLKLETELLDGKTKLILSPFECKSKNSVKMGNKTKIAKCPLRTKQTGYILKSTQNTCIRSGKLLQKKRMGSETSLAKGEKNSMTFSPTKDICKQYVDKDCLYVQKEISPATPNIQKTRNTINTSVVAKQKLCKKHITAENMKSNLVCLTQDQLQQILSLNQGNKSISLIENGKEETSQGSLHLNSISNQPEDENVTGVFKKTDALSSVLDENKSVLNKNQETSKQYEQKIAIENVWKPADIFSTLGERERDRSLLEAKKAQWKKELDEQVALKKKEKEASEKWSNPWKKFESDKIVWENFQILDPSKTYASSSSILSQSPSQITVAQADGHPLPRASQILEEALPPERPFSASKQEQQRKWIEDLNKQIEDDRQRKTEGKITSSKSQMSSRSPHNQPEYFCVSPDTQELADLHSVYTPTTGSQVEPSEEEHIAKPVRDITTANSQKTNFLRSMTALLDPAQIEERDRRRQKQLEHQKAITAQVEEKRRKKQLEEQQRKKEEEEEERRLAREREEMQKQYEQDVLKQKQKEEIMTLKTNELFQTMQRAQELAQRLKQEQRIRELAQKGHDTSGLIKNLGGHGLDDVSGKKNTCINSTTSPKKDTAVQTDDLNTGTFTSAESCCGTVIEREILNCSSPEIPADFNEQFNTKKDKEELINQVKGTNLEKENSWYNDQCNEFARTEKTHMKKCPKRPDWNINKPLKRYIPASEKYPKQLQKQREEKKVRRQMELLNLVERNNPGHLCQNRGTSPVLPSCQETEPRFRWHLIKKEEEPLKSNAFGKERSQSPPVPVVKNRTQQTQTLKNSNYERENLILEGSQTETLPGPSEPSHFIPYVRTNEIYYLDPDAPLSRPLTQDLQYQNPHDCDQEQRQLFDSDVRDPLLNPNLVKNRDRQQAILKGLSELRQGLLQKQRELETNLMPLAANQEENFNSSF

Target ORF information:

RefSeq Version	XM_019805151.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X2, mRNA.

Target ORF information:

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

XM_019805151.1

ORF Insert Sequence:

ATGAACTTGG GAGATGGTTT AAAGCTTGAA ACTGAATTGT TGGATGGAAA AACGAAGTTA 
ATATTGTCTC CATTTGAATG TAAATCAAAA AATTCTGTGA AGATGGGAAA TAAGACCAAG 
ATTGCAAAAT GTCCTTTAAG AACAAAACAA ACTGGATACA TTCTGAAATC AACCCAAAAT 
ACTTGTATAA GGAGTGGAAA ACTTTTGCAA AAGAAGAGAA TGGGTTCAGA AACTTCACTG 
GCAAAAGGTG AAAAAAATAG TATGACTTTT TCACCCACTA AGGATATATG CAAGCAGTAT 
GTAGATAAAG ACTGTCTTTA TGTCCAGAAA GAGATTTCAC CTGCAACCCC CAATATACAG 
AAGACTAGAA ACACGATAAA TACATCTGTA GTAGCTAAAC AGAAGCTTTG CAAAAAGCAC 
ATCACAGCTG AAAATATGAA GAGCAATTTG GTGTGCCTAA CACAAGACCA ACTACAACAG 
ATTTTGTCTT TGAACCAAGG AAATAAATCT ATTTCCCTGA TTGAAAATGG AAAGGAGGAA 
ACAAGTCAGG GCAGTCTGCA TTTAAACAGT ATTTCCAATC AGCCAGAGGA TGAGAACGTT 
ACGGGAGTAT TCAAAAAAAC TGATGCTCTT TCGTCTGTCC TGGATGAAAA TAAATCTGTT 
TTAAATAAAA ATCAAGAGAC ATCTAAGCAG TATGAGCAGA AAATTGCCAT AGAGAATGTA 
TGGAAACCAG CTGACATTTT CAGTACTCTG GGGGAAAGAG AACGTGACAG AAGTTTGTTG 
GAAGCAAAGA AAGCCCAGTG GAAGAAAGAG CTTGATGAAC AGGTTGCTTT AAAGAAGAAA 
GAAAAAGAAG CTTCTGAAAA ATGGAGTAAT CCTTGGAAAA AATTTGAAAG TGATAAAATA 
GTATGGGAAA ATTTTCAAAT TCTTGACCCG TCTAAGACTT ATGCTAGCTC TTCCAGCATT 
CTGTCACAGT CTCCCAGTCA GATAACAGTG GCCCAGGCTG ATGGGCACCC ACTACCTAGA 
GCTAGTCAGA TTTTAGAGGA AGCATTACCA CCAGAGCGCC CTTTCAGTGC CTCGAAACAA 
GAACAGCAGA GGAAATGGAT TGAAGATTTG AATAAGCAAA TAGAAGATGA TCGGCAAAGA 
AAAACAGAGG GAAAAATTAC ATCTTCAAAG TCTCAAATGT CCTCTCGGTC ACCACACAAC 
CAACCAGAGT ACTTCTGTGT CTCTCCGGAC ACTCAGGAAC TGGCTGATCT CCACAGTGTT 
TATACACCTA CAACTGGAAG CCAGGTCGAA CCTTCAGAGG AGGAGCATAT AGCAAAACCT 
GTTAGAGATA TAACCACGGC AAATAGTCAG AAAACAAACT TTCTCCGTTC TATGACTGCT 
CTCTTGGATC CGGCTCAGAT CGAAGAACGT GACAGGCGAC GACAGAAACA GTTAGAGCAT 
CAGAAAGCCA TCACTGCTCA GGTAGAAGAG AAACGCAGGA AGAAGCAGCT GGAAGAGCAG 
CAAAGAAAGA AGGAAGAAGA AGAAGAGGAG CGTCGCTTAG CACGGGAACG AGAAGAGATG 
CAGAAACAGT ATGAACAAGA CGTACTTAAG CAAAAACAAA AGGAAGAAAT CATGACTCTC 
AAGACAAATG AGCTATTCCA GACGATGCAG AGAGCACAGG AGCTAGCACA GAGGCTGAAA 
CAAGAACAGA GAATCCGAGA ATTGGCTCAA AAGGGACATG ACACTTCTGG ATTGATTAAA 
AACCTTGGCG GACATGGCTT GGATGATGTC AGTGGTAAAA AGAATACATG TATCAATTCT 
ACAACCTCTC CCAAAAAGGA TACTGCTGTA CAAACAGATG ACTTAAATAC AGGAACATTC 
ACCAGTGCAG AATCATGCTG TGGAACAGTA ATAGAGAGGG AAATTCTAAA TTGTTCATCT 
CCTGAGATTC CTGCAGACTT TAATGAACAG TTTAACACTA AGAAAGACAA AGAGGAACTC 
ATAAATCAGG TTAAAGGAAC CAACTTAGAA AAAGAAAACA GCTGGTATAA TGATCAGTGT 
AATGAGTTTG CAAGGACAGA GAAAACACAT ATGAAGAAAT GTCCTAAAAG GCCTGATTGG 
AATATAAATA AGCCACTCAA AAGGTATATC CCAGCATCAG AAAAGTACCC TAAACAGCTG 
CAAAAGCAGA GAGAAGAAAA AAAAGTAAGA AGGCAGATGG AACTGCTCAA TTTGGTAGAA 
AGAAATAATC CTGGACATCT TTGTCAAAAC AGAGGCACTT CACCAGTTCT TCCTTCATGT 
CAAGAAACTG AGCCAAGGTT CAGGTGGCAT CTAATCAAAA AGGAAGAAGA GCCTCTGAAA 
AGTAATGCTT TTGGCAAGGA AAGGTCTCAG TCACCACCAG TTCCAGTAGT GAAAAACAGA 
ACACAACAAA CTCAGACACT AAAAAACAGT AATTATGAAA GAGAGAATCT GATCTTAGAA 
GGCAGTCAAA CAGAAACATT ACCTGGGCCT TCTGAACCAT CCCATTTTAT CCCCTATGTC 
CGAACCAATG AGATTTATTA CCTTGATCCA GATGCACCAC TGTCTAGGCC TTTAACCCAG 
GATCTTCAGT ACCAAAATCC ACATGACTGT GACCAAGAAC AACGGCAGCT ATTTGATTCT 
GATGTCAGGG ACCCACTTCT TAATCCTAAC TTGGTGAAAA ACAGGGATCG ACAGCAAGCA 
ATCCTTAAGG GACTATCAGA ACTGAGACAG GGCCTTCTCC AGAAGCAAAG GGAGTTGGAA 
ACTAATCTGA TGCCTTTAGC TGCAAATCAA GAAGAGAATT TTAATTCTTC GTTTTAA

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

CCDC66 ( XM_019805156.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019660715.1 Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAc88684
Clone ID Related Accession (Same CDS sequence)	XM_019805156.1 , XM_019805166.1
Accession Version	XM_019805156.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2778bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	coiled-coil domain-containing protein 66 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217312.1) 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 Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGAAATA AGACCAAGAT TGCAAAATGT CCTTTAAGAA CAAAACAAAC TGGATACATT 
CTGAAATCAA CCCAAAATAC TTGTATAAGG AGTGGAAAAC TTTTGCAAAA GAAGAGAATG 
GGTTCAGAAA CTTCACTGGC AAAAGGTGAA AAAAATAGTA TGACTTTTTC ACCCACTAAG 
GATATATGCA AGCAGTATGT AGATAAAGAC TGTCTTTATG TCCAGAAAGA GATTTCACCT 
GCAACCCCCA ATATACAGAA GACTAGAAAC ACGATAAATA CATCTGTAGT AGCTAAACAG 
AAGCTTTGCA AAAAGCACAT CACAGCTGAA AATATGAAGA GCAATTTGGT GTGCCTAACA 
CAAGACCAAC TACAACAGAT TTTGTCTTTG AACCAAGGAA ATAAATCTAT TTCCCTGATT 
GAAAATGGAA AGGAGGAAAC AAGTCAGGGC AGTCTGCATT TAAACAGTAT TTCCAATCAG 
CCAGAGGATG AGAACGTTAC GGGAGTATTC AAAAAAACTG ATGCTCTTTC GTCTGTCCTG 
GATGAAAATA AATCTGTTTT AAATAAAAAT CAAGAGACAT CTAAGCAGTA TGAGCAGAAA 
ATTGCCATAG AGAATGTATG GAAACCAGCT GACATTTTCA GTACTCTGGG GGAAAGAGAA 
CGTGACAGAA GTTTGTTGGA AGCAAAGAAA GCCCAGTGGA AGAAAGAGCT TGATGAACAG 
GTTGCTTTAA AGAAGAAAGA AAAAGAAGCT TCTGAAAAAT GGAGTAATCC TTGGAAAAAA 
TTTGAAAGTG ATAAAATAGT ATGGGAAAAT TTTCAAATTC TTGACCCGTC TAAGACTTAT 
GCTAGCTCTT CCAGCATTCT GTCACAGTCT CCCAGTCAGA TAACAGTGGC CCAGGCTGAT 
GGGCACCCAC TACCTAGAGC TAGTCAGATT TTAGAGGAAG CATTACCACC AGAGCGCCCT 
TTCAGTGCCT CGAAACAAGA ACAGCAGAGG AAATGGATTG AAGATTTGAA TAAGCAAATA 
GAAGATGATC GGCAAAGAAA AACAGAGGGA AAAATTACAT CTTCAAAGGG TGAGGAACAT 
GACAGATGGG CAATGCATTT TGATTCATTA AAGAACTATC CTGCTTCTCA GTCTCAAATG 
TCCTCTCGGT CACCACACAA CCAACCAGAG TACTTCTGTG TCTCTCCGGA CACTCAGGAA 
CTGGCTGATC TCCACAGTGT TTATACACCT ACAACTGGAA GCCAGGTCGA ACCTTCAGAG 
GAGGAGCATA TAGCAAAACC TGTTAGAGAT ATAACCACGG CAAATAGTCA GAAAACAAAC 
TTTCTCCGTT CTATGACTGC TCTCTTGGAT CCGGCTCAGA TCGAAGAACG TGACAGGCGA 
CGACAGAAAC AGTTAGAGCA TCAGAAAGCC ATCACTGCTC AGGTAGAAGA GAAACGCAGG 
AAGAAGCAGC TGGAAGAGCA GCAAAGAAAG AAGGAAGAAG AAGAAGAGGA GCGTCGCTTA 
GCACGGGAAC GAGAAGAGAT GCAGAAACAG TATGAACAAG ACGTACTTAA GCAAAAACAA 
AAGGAAGAAA TCATGACTCT CAAGACAAAT GAGCTATTCC AGACGATGCA GAGAGCACAG 
GAGCTAGCAC AGAGGCTGAA ACAAGAACAG AGAATCCGAG AATTGGCTCA AAAGGGACAT 
GACACTTCTG GATTGATTAA AAACCTTGGC GGACATGGCT TGGATGATGT CAGTGGTAAA 
AAGAATACAT GTATCAATTC TACAACCTCT CCCAAAAAGG ATACTGCTGT ACAAACAGAT 
GACTTAAATA CAGGAACATT CACCAGTGCA GAATCATGCT GTGGAACAGT AATAGAGAGG 
GAAATTCTAA ATTGTTCATC TCCTGAGATT CCTGCAGACT TTAATGAACA GTTTAACACT 
AAGAAAGACA AAGAGGAACT CATAAATCAG GTTAAAGGAA CCAACTTAGA AAAAGAAAAC 
AGCTGGTATA ATGATCAGTG TAATGAGTTT GCAAGGACAG AGAAAACACA TATGAAGAAA 
TGTCCTAAAA GGCCTGATTG GAATATAAAT AAGCCACTCA AAAGGTATAT CCCAGCATCA 
GAAAAGTACC CTAAACAGCT GCAAAAGCAG AGAGAAGAAA AAAAAGTAAG AAGGCAGATG 
GAACTGCTCA ATTTGGTAGA AAGAAATAAT CCTGGACATC TTTGTCAAAA CAGAGGCACT 
TCACCAGTTC TTCCTTCATG TCAAGAAACT GAGCCAAGGT TCAGGTGGCA TCTAATCAAA 
AAGGAAGAAG AGCCTCTGAA AAGTAATGCT TTTGGCAAGG AAAGGTCTCA GTCACCACCA 
GTTCCAGTAG TGAAAAACAG AACACAACAA ACTCAGACAC TAAAAAACAG TAATTATGAA 
AGAGAGAATC TGATCTTAGA AGGCAGTCAA ACAGAAACAT TACCTGGGCC TTCTGAACCA 
TCCCATTTTA TCCCCTATGT CCGAACCAAT GAGATTTATT ACCTTGATCC AGATGCACCA 
CTGTCTAGGC CTTTAACCCA GGATCTTCAG TACCAAAATC CACATGACTG TGACCAAGAA 
CAACGGCAGC TATTTGATTC TGATGTCAGG GACCCACTTC TTAATCCTAA CTTGGTGAAA 
AACAGGGATC GACAGCAAGC AATCCTTAAG GGACTATCAG AACTGAGACA GGGCCTTCTC 
CAGAAGCAAA GGGAGTTGGA AACTAATCTG ATGCCTTTAG CTGCAAATCA AGAAGAGAAT 
TTTAATTCTT CGTTTTAA

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

RefSeq	XP_019660715.1
CDS	38..2815
Translation	MGNKTKIAKCPLRTKQTGYILKSTQNTCIRSGKLLQKKRMGSETSLAKGEKNSMTFSPTKDICKQYVDKDCLYVQKEISPATPNIQKTRNTINTSVVAKQKLCKKHITAENMKSNLVCLTQDQLQQILSLNQGNKSISLIENGKEETSQGSLHLNSISNQPEDENVTGVFKKTDALSSVLDENKSVLNKNQETSKQYEQKIAIENVWKPADIFSTLGERERDRSLLEAKKAQWKKELDEQVALKKKEKEASEKWSNPWKKFESDKIVWENFQILDPSKTYASSSSILSQSPSQITVAQADGHPLPRASQILEEALPPERPFSASKQEQQRKWIEDLNKQIEDDRQRKTEGKITSSKGEEHDRWAMHFDSLKNYPASQSQMSSRSPHNQPEYFCVSPDTQELADLHSVYTPTTGSQVEPSEEEHIAKPVRDITTANSQKTNFLRSMTALLDPAQIEERDRRRQKQLEHQKAITAQVEEKRRKKQLEEQQRKKEEEEEERRLAREREEMQKQYEQDVLKQKQKEEIMTLKTNELFQTMQRAQELAQRLKQEQRIRELAQKGHDTSGLIKNLGGHGLDDVSGKKNTCINSTTSPKKDTAVQTDDLNTGTFTSAESCCGTVIEREILNCSSPEIPADFNEQFNTKKDKEELINQVKGTNLEKENSWYNDQCNEFARTEKTHMKKCPKRPDWNINKPLKRYIPASEKYPKQLQKQREEKKVRRQMELLNLVERNNPGHLCQNRGTSPVLPSCQETEPRFRWHLIKKEEEPLKSNAFGKERSQSPPVPVVKNRTQQTQTLKNSNYERENLILEGSQTETLPGPSEPSHFIPYVRTNEIYYLDPDAPLSRPLTQDLQYQNPHDCDQEQRQLFDSDVRDPLLNPNLVKNRDRQQAILKGLSELRQGLLQKQRELETNLMPLAANQEENFNSSF

Target ORF information:

RefSeq Version	XM_019805156.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X3, mRNA.

Target ORF information:

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

XM_019805156.1

ORF Insert Sequence:

ATGGGAAATA AGACCAAGAT TGCAAAATGT CCTTTAAGAA CAAAACAAAC TGGATACATT 
CTGAAATCAA CCCAAAATAC TTGTATAAGG AGTGGAAAAC TTTTGCAAAA GAAGAGAATG 
GGTTCAGAAA CTTCACTGGC AAAAGGTGAA AAAAATAGTA TGACTTTTTC ACCCACTAAG 
GATATATGCA AGCAGTATGT AGATAAAGAC TGTCTTTATG TCCAGAAAGA GATTTCACCT 
GCAACCCCCA ATATACAGAA GACTAGAAAC ACGATAAATA CATCTGTAGT AGCTAAACAG 
AAGCTTTGCA AAAAGCACAT CACAGCTGAA AATATGAAGA GCAATTTGGT GTGCCTAACA 
CAAGACCAAC TACAACAGAT TTTGTCTTTG AACCAAGGAA ATAAATCTAT TTCCCTGATT 
GAAAATGGAA AGGAGGAAAC AAGTCAGGGC AGTCTGCATT TAAACAGTAT TTCCAATCAG 
CCAGAGGATG AGAACGTTAC GGGAGTATTC AAAAAAACTG ATGCTCTTTC GTCTGTCCTG 
GATGAAAATA AATCTGTTTT AAATAAAAAT CAAGAGACAT CTAAGCAGTA TGAGCAGAAA 
ATTGCCATAG AGAATGTATG GAAACCAGCT GACATTTTCA GTACTCTGGG GGAAAGAGAA 
CGTGACAGAA GTTTGTTGGA AGCAAAGAAA GCCCAGTGGA AGAAAGAGCT TGATGAACAG 
GTTGCTTTAA AGAAGAAAGA AAAAGAAGCT TCTGAAAAAT GGAGTAATCC TTGGAAAAAA 
TTTGAAAGTG ATAAAATAGT ATGGGAAAAT TTTCAAATTC TTGACCCGTC TAAGACTTAT 
GCTAGCTCTT CCAGCATTCT GTCACAGTCT CCCAGTCAGA TAACAGTGGC CCAGGCTGAT 
GGGCACCCAC TACCTAGAGC TAGTCAGATT TTAGAGGAAG CATTACCACC AGAGCGCCCT 
TTCAGTGCCT CGAAACAAGA ACAGCAGAGG AAATGGATTG AAGATTTGAA TAAGCAAATA 
GAAGATGATC GGCAAAGAAA AACAGAGGGA AAAATTACAT CTTCAAAGGG TGAGGAACAT 
GACAGATGGG CAATGCATTT TGATTCATTA AAGAACTATC CTGCTTCTCA GTCTCAAATG 
TCCTCTCGGT CACCACACAA CCAACCAGAG TACTTCTGTG TCTCTCCGGA CACTCAGGAA 
CTGGCTGATC TCCACAGTGT TTATACACCT ACAACTGGAA GCCAGGTCGA ACCTTCAGAG 
GAGGAGCATA TAGCAAAACC TGTTAGAGAT ATAACCACGG CAAATAGTCA GAAAACAAAC 
TTTCTCCGTT CTATGACTGC TCTCTTGGAT CCGGCTCAGA TCGAAGAACG TGACAGGCGA 
CGACAGAAAC AGTTAGAGCA TCAGAAAGCC ATCACTGCTC AGGTAGAAGA GAAACGCAGG 
AAGAAGCAGC TGGAAGAGCA GCAAAGAAAG AAGGAAGAAG AAGAAGAGGA GCGTCGCTTA 
GCACGGGAAC GAGAAGAGAT GCAGAAACAG TATGAACAAG ACGTACTTAA GCAAAAACAA 
AAGGAAGAAA TCATGACTCT CAAGACAAAT GAGCTATTCC AGACGATGCA GAGAGCACAG 
GAGCTAGCAC AGAGGCTGAA ACAAGAACAG AGAATCCGAG AATTGGCTCA AAAGGGACAT 
GACACTTCTG GATTGATTAA AAACCTTGGC GGACATGGCT TGGATGATGT CAGTGGTAAA 
AAGAATACAT GTATCAATTC TACAACCTCT CCCAAAAAGG ATACTGCTGT ACAAACAGAT 
GACTTAAATA CAGGAACATT CACCAGTGCA GAATCATGCT GTGGAACAGT AATAGAGAGG 
GAAATTCTAA ATTGTTCATC TCCTGAGATT CCTGCAGACT TTAATGAACA GTTTAACACT 
AAGAAAGACA AAGAGGAACT CATAAATCAG GTTAAAGGAA CCAACTTAGA AAAAGAAAAC 
AGCTGGTATA ATGATCAGTG TAATGAGTTT GCAAGGACAG AGAAAACACA TATGAAGAAA 
TGTCCTAAAA GGCCTGATTG GAATATAAAT AAGCCACTCA AAAGGTATAT CCCAGCATCA 
GAAAAGTACC CTAAACAGCT GCAAAAGCAG AGAGAAGAAA AAAAAGTAAG AAGGCAGATG 
GAACTGCTCA ATTTGGTAGA AAGAAATAAT CCTGGACATC TTTGTCAAAA CAGAGGCACT 
TCACCAGTTC TTCCTTCATG TCAAGAAACT GAGCCAAGGT TCAGGTGGCA TCTAATCAAA 
AAGGAAGAAG AGCCTCTGAA AAGTAATGCT TTTGGCAAGG AAAGGTCTCA GTCACCACCA 
GTTCCAGTAG TGAAAAACAG AACACAACAA ACTCAGACAC TAAAAAACAG TAATTATGAA 
AGAGAGAATC TGATCTTAGA AGGCAGTCAA ACAGAAACAT TACCTGGGCC TTCTGAACCA 
TCCCATTTTA TCCCCTATGT CCGAACCAAT GAGATTTATT ACCTTGATCC AGATGCACCA 
CTGTCTAGGC CTTTAACCCA GGATCTTCAG TACCAAAATC CACATGACTG TGACCAAGAA 
CAACGGCAGC TATTTGATTC TGATGTCAGG GACCCACTTC TTAATCCTAA CTTGGTGAAA 
AACAGGGATC GACAGCAAGC AATCCTTAAG GGACTATCAG AACTGAGACA GGGCCTTCTC 
CAGAAGCAAA GGGAGTTGGA AACTAATCTG ATGCCTTTAG CTGCAAATCA AGAAGAGAAT 
TTTAATTCTT CGTTTTAA

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

CCDC66 ( XM_019805166.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019660725.1 Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAc88684
Clone ID Related Accession (Same CDS sequence)	XM_019805156.1 , XM_019805166.1
Accession Version	XM_019805166.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2778bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	coiled-coil domain-containing protein 66 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217312.1) 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 Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGAAATA AGACCAAGAT TGCAAAATGT CCTTTAAGAA CAAAACAAAC TGGATACATT 
CTGAAATCAA CCCAAAATAC TTGTATAAGG AGTGGAAAAC TTTTGCAAAA GAAGAGAATG 
GGTTCAGAAA CTTCACTGGC AAAAGGTGAA AAAAATAGTA TGACTTTTTC ACCCACTAAG 
GATATATGCA AGCAGTATGT AGATAAAGAC TGTCTTTATG TCCAGAAAGA GATTTCACCT 
GCAACCCCCA ATATACAGAA GACTAGAAAC ACGATAAATA CATCTGTAGT AGCTAAACAG 
AAGCTTTGCA AAAAGCACAT CACAGCTGAA AATATGAAGA GCAATTTGGT GTGCCTAACA 
CAAGACCAAC TACAACAGAT TTTGTCTTTG AACCAAGGAA ATAAATCTAT TTCCCTGATT 
GAAAATGGAA AGGAGGAAAC AAGTCAGGGC AGTCTGCATT TAAACAGTAT TTCCAATCAG 
CCAGAGGATG AGAACGTTAC GGGAGTATTC AAAAAAACTG ATGCTCTTTC GTCTGTCCTG 
GATGAAAATA AATCTGTTTT AAATAAAAAT CAAGAGACAT CTAAGCAGTA TGAGCAGAAA 
ATTGCCATAG AGAATGTATG GAAACCAGCT GACATTTTCA GTACTCTGGG GGAAAGAGAA 
CGTGACAGAA GTTTGTTGGA AGCAAAGAAA GCCCAGTGGA AGAAAGAGCT TGATGAACAG 
GTTGCTTTAA AGAAGAAAGA AAAAGAAGCT TCTGAAAAAT GGAGTAATCC TTGGAAAAAA 
TTTGAAAGTG ATAAAATAGT ATGGGAAAAT TTTCAAATTC TTGACCCGTC TAAGACTTAT 
GCTAGCTCTT CCAGCATTCT GTCACAGTCT CCCAGTCAGA TAACAGTGGC CCAGGCTGAT 
GGGCACCCAC TACCTAGAGC TAGTCAGATT TTAGAGGAAG CATTACCACC AGAGCGCCCT 
TTCAGTGCCT CGAAACAAGA ACAGCAGAGG AAATGGATTG AAGATTTGAA TAAGCAAATA 
GAAGATGATC GGCAAAGAAA AACAGAGGGA AAAATTACAT CTTCAAAGGG TGAGGAACAT 
GACAGATGGG CAATGCATTT TGATTCATTA AAGAACTATC CTGCTTCTCA GTCTCAAATG 
TCCTCTCGGT CACCACACAA CCAACCAGAG TACTTCTGTG TCTCTCCGGA CACTCAGGAA 
CTGGCTGATC TCCACAGTGT TTATACACCT ACAACTGGAA GCCAGGTCGA ACCTTCAGAG 
GAGGAGCATA TAGCAAAACC TGTTAGAGAT ATAACCACGG CAAATAGTCA GAAAACAAAC 
TTTCTCCGTT CTATGACTGC TCTCTTGGAT CCGGCTCAGA TCGAAGAACG TGACAGGCGA 
CGACAGAAAC AGTTAGAGCA TCAGAAAGCC ATCACTGCTC AGGTAGAAGA GAAACGCAGG 
AAGAAGCAGC TGGAAGAGCA GCAAAGAAAG AAGGAAGAAG AAGAAGAGGA GCGTCGCTTA 
GCACGGGAAC GAGAAGAGAT GCAGAAACAG TATGAACAAG ACGTACTTAA GCAAAAACAA 
AAGGAAGAAA TCATGACTCT CAAGACAAAT GAGCTATTCC AGACGATGCA GAGAGCACAG 
GAGCTAGCAC AGAGGCTGAA ACAAGAACAG AGAATCCGAG AATTGGCTCA AAAGGGACAT 
GACACTTCTG GATTGATTAA AAACCTTGGC GGACATGGCT TGGATGATGT CAGTGGTAAA 
AAGAATACAT GTATCAATTC TACAACCTCT CCCAAAAAGG ATACTGCTGT ACAAACAGAT 
GACTTAAATA CAGGAACATT CACCAGTGCA GAATCATGCT GTGGAACAGT AATAGAGAGG 
GAAATTCTAA ATTGTTCATC TCCTGAGATT CCTGCAGACT TTAATGAACA GTTTAACACT 
AAGAAAGACA AAGAGGAACT CATAAATCAG GTTAAAGGAA CCAACTTAGA AAAAGAAAAC 
AGCTGGTATA ATGATCAGTG TAATGAGTTT GCAAGGACAG AGAAAACACA TATGAAGAAA 
TGTCCTAAAA GGCCTGATTG GAATATAAAT AAGCCACTCA AAAGGTATAT CCCAGCATCA 
GAAAAGTACC CTAAACAGCT GCAAAAGCAG AGAGAAGAAA AAAAAGTAAG AAGGCAGATG 
GAACTGCTCA ATTTGGTAGA AAGAAATAAT CCTGGACATC TTTGTCAAAA CAGAGGCACT 
TCACCAGTTC TTCCTTCATG TCAAGAAACT GAGCCAAGGT TCAGGTGGCA TCTAATCAAA 
AAGGAAGAAG AGCCTCTGAA AAGTAATGCT TTTGGCAAGG AAAGGTCTCA GTCACCACCA 
GTTCCAGTAG TGAAAAACAG AACACAACAA ACTCAGACAC TAAAAAACAG TAATTATGAA 
AGAGAGAATC TGATCTTAGA AGGCAGTCAA ACAGAAACAT TACCTGGGCC TTCTGAACCA 
TCCCATTTTA TCCCCTATGT CCGAACCAAT GAGATTTATT ACCTTGATCC AGATGCACCA 
CTGTCTAGGC CTTTAACCCA GGATCTTCAG TACCAAAATC CACATGACTG TGACCAAGAA 
CAACGGCAGC TATTTGATTC TGATGTCAGG GACCCACTTC TTAATCCTAA CTTGGTGAAA 
AACAGGGATC GACAGCAAGC AATCCTTAAG GGACTATCAG AACTGAGACA GGGCCTTCTC 
CAGAAGCAAA GGGAGTTGGA AACTAATCTG ATGCCTTTAG CTGCAAATCA AGAAGAGAAT 
TTTAATTCTT CGTTTTAA

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

RefSeq	XP_019660725.1
CDS	46..2823
Translation	MGNKTKIAKCPLRTKQTGYILKSTQNTCIRSGKLLQKKRMGSETSLAKGEKNSMTFSPTKDICKQYVDKDCLYVQKEISPATPNIQKTRNTINTSVVAKQKLCKKHITAENMKSNLVCLTQDQLQQILSLNQGNKSISLIENGKEETSQGSLHLNSISNQPEDENVTGVFKKTDALSSVLDENKSVLNKNQETSKQYEQKIAIENVWKPADIFSTLGERERDRSLLEAKKAQWKKELDEQVALKKKEKEASEKWSNPWKKFESDKIVWENFQILDPSKTYASSSSILSQSPSQITVAQADGHPLPRASQILEEALPPERPFSASKQEQQRKWIEDLNKQIEDDRQRKTEGKITSSKGEEHDRWAMHFDSLKNYPASQSQMSSRSPHNQPEYFCVSPDTQELADLHSVYTPTTGSQVEPSEEEHIAKPVRDITTANSQKTNFLRSMTALLDPAQIEERDRRRQKQLEHQKAITAQVEEKRRKKQLEEQQRKKEEEEEERRLAREREEMQKQYEQDVLKQKQKEEIMTLKTNELFQTMQRAQELAQRLKQEQRIRELAQKGHDTSGLIKNLGGHGLDDVSGKKNTCINSTTSPKKDTAVQTDDLNTGTFTSAESCCGTVIEREILNCSSPEIPADFNEQFNTKKDKEELINQVKGTNLEKENSWYNDQCNEFARTEKTHMKKCPKRPDWNINKPLKRYIPASEKYPKQLQKQREEKKVRRQMELLNLVERNNPGHLCQNRGTSPVLPSCQETEPRFRWHLIKKEEEPLKSNAFGKERSQSPPVPVVKNRTQQTQTLKNSNYERENLILEGSQTETLPGPSEPSHFIPYVRTNEIYYLDPDAPLSRPLTQDLQYQNPHDCDQEQRQLFDSDVRDPLLNPNLVKNRDRQQAILKGLSELRQGLLQKQRELETNLMPLAANQEENFNSSF

Target ORF information:

RefSeq Version	XM_019805166.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X4, mRNA.

Target ORF information:

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

XM_019805166.1

ORF Insert Sequence:

ATGGGAAATA AGACCAAGAT TGCAAAATGT CCTTTAAGAA CAAAACAAAC TGGATACATT 
CTGAAATCAA CCCAAAATAC TTGTATAAGG AGTGGAAAAC TTTTGCAAAA GAAGAGAATG 
GGTTCAGAAA CTTCACTGGC AAAAGGTGAA AAAAATAGTA TGACTTTTTC ACCCACTAAG 
GATATATGCA AGCAGTATGT AGATAAAGAC TGTCTTTATG TCCAGAAAGA GATTTCACCT 
GCAACCCCCA ATATACAGAA GACTAGAAAC ACGATAAATA CATCTGTAGT AGCTAAACAG 
AAGCTTTGCA AAAAGCACAT CACAGCTGAA AATATGAAGA GCAATTTGGT GTGCCTAACA 
CAAGACCAAC TACAACAGAT TTTGTCTTTG AACCAAGGAA ATAAATCTAT TTCCCTGATT 
GAAAATGGAA AGGAGGAAAC AAGTCAGGGC AGTCTGCATT TAAACAGTAT TTCCAATCAG 
CCAGAGGATG AGAACGTTAC GGGAGTATTC AAAAAAACTG ATGCTCTTTC GTCTGTCCTG 
GATGAAAATA AATCTGTTTT AAATAAAAAT CAAGAGACAT CTAAGCAGTA TGAGCAGAAA 
ATTGCCATAG AGAATGTATG GAAACCAGCT GACATTTTCA GTACTCTGGG GGAAAGAGAA 
CGTGACAGAA GTTTGTTGGA AGCAAAGAAA GCCCAGTGGA AGAAAGAGCT TGATGAACAG 
GTTGCTTTAA AGAAGAAAGA AAAAGAAGCT TCTGAAAAAT GGAGTAATCC TTGGAAAAAA 
TTTGAAAGTG ATAAAATAGT ATGGGAAAAT TTTCAAATTC TTGACCCGTC TAAGACTTAT 
GCTAGCTCTT CCAGCATTCT GTCACAGTCT CCCAGTCAGA TAACAGTGGC CCAGGCTGAT 
GGGCACCCAC TACCTAGAGC TAGTCAGATT TTAGAGGAAG CATTACCACC AGAGCGCCCT 
TTCAGTGCCT CGAAACAAGA ACAGCAGAGG AAATGGATTG AAGATTTGAA TAAGCAAATA 
GAAGATGATC GGCAAAGAAA AACAGAGGGA AAAATTACAT CTTCAAAGGG TGAGGAACAT 
GACAGATGGG CAATGCATTT TGATTCATTA AAGAACTATC CTGCTTCTCA GTCTCAAATG 
TCCTCTCGGT CACCACACAA CCAACCAGAG TACTTCTGTG TCTCTCCGGA CACTCAGGAA 
CTGGCTGATC TCCACAGTGT TTATACACCT ACAACTGGAA GCCAGGTCGA ACCTTCAGAG 
GAGGAGCATA TAGCAAAACC TGTTAGAGAT ATAACCACGG CAAATAGTCA GAAAACAAAC 
TTTCTCCGTT CTATGACTGC TCTCTTGGAT CCGGCTCAGA TCGAAGAACG TGACAGGCGA 
CGACAGAAAC AGTTAGAGCA TCAGAAAGCC ATCACTGCTC AGGTAGAAGA GAAACGCAGG 
AAGAAGCAGC TGGAAGAGCA GCAAAGAAAG AAGGAAGAAG AAGAAGAGGA GCGTCGCTTA 
GCACGGGAAC GAGAAGAGAT GCAGAAACAG TATGAACAAG ACGTACTTAA GCAAAAACAA 
AAGGAAGAAA TCATGACTCT CAAGACAAAT GAGCTATTCC AGACGATGCA GAGAGCACAG 
GAGCTAGCAC AGAGGCTGAA ACAAGAACAG AGAATCCGAG AATTGGCTCA AAAGGGACAT 
GACACTTCTG GATTGATTAA AAACCTTGGC GGACATGGCT TGGATGATGT CAGTGGTAAA 
AAGAATACAT GTATCAATTC TACAACCTCT CCCAAAAAGG ATACTGCTGT ACAAACAGAT 
GACTTAAATA CAGGAACATT CACCAGTGCA GAATCATGCT GTGGAACAGT AATAGAGAGG 
GAAATTCTAA ATTGTTCATC TCCTGAGATT CCTGCAGACT TTAATGAACA GTTTAACACT 
AAGAAAGACA AAGAGGAACT CATAAATCAG GTTAAAGGAA CCAACTTAGA AAAAGAAAAC 
AGCTGGTATA ATGATCAGTG TAATGAGTTT GCAAGGACAG AGAAAACACA TATGAAGAAA 
TGTCCTAAAA GGCCTGATTG GAATATAAAT AAGCCACTCA AAAGGTATAT CCCAGCATCA 
GAAAAGTACC CTAAACAGCT GCAAAAGCAG AGAGAAGAAA AAAAAGTAAG AAGGCAGATG 
GAACTGCTCA ATTTGGTAGA AAGAAATAAT CCTGGACATC TTTGTCAAAA CAGAGGCACT 
TCACCAGTTC TTCCTTCATG TCAAGAAACT GAGCCAAGGT TCAGGTGGCA TCTAATCAAA 
AAGGAAGAAG AGCCTCTGAA AAGTAATGCT TTTGGCAAGG AAAGGTCTCA GTCACCACCA 
GTTCCAGTAG TGAAAAACAG AACACAACAA ACTCAGACAC TAAAAAACAG TAATTATGAA 
AGAGAGAATC TGATCTTAGA AGGCAGTCAA ACAGAAACAT TACCTGGGCC TTCTGAACCA 
TCCCATTTTA TCCCCTATGT CCGAACCAAT GAGATTTATT ACCTTGATCC AGATGCACCA 
CTGTCTAGGC CTTTAACCCA GGATCTTCAG TACCAAAATC CACATGACTG TGACCAAGAA 
CAACGGCAGC TATTTGATTC TGATGTCAGG GACCCACTTC TTAATCCTAA CTTGGTGAAA 
AACAGGGATC GACAGCAAGC AATCCTTAAG GGACTATCAG AACTGAGACA GGGCCTTCTC 
CAGAAGCAAA GGGAGTTGGA AACTAATCTG ATGCCTTTAG CTGCAAATCA AGAAGAGAAT 
TTTAATTCTT CGTTTTAA

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

CCDC66 ( XM_019805170.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019660729.1 Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OAc88685
Clone ID Related Accession (Same CDS sequence)	XM_019805170.1
Accession Version	XM_019805170.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2778bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	coiled-coil domain-containing protein 66 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217312.1) 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 Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACTTGG GAGATGGTTT AAAGCTTGAA ACTGAATTGT TGGATGGAAA AACGAAGTTA 
ATATTGTCTC CATTTGAATG TAAATCAAAA AATTCTGTGA AGATGGGAAA TAAGACCAAG 
ATTGCAAAAT GTCCTTTAAG AACAAAACAA ACTGGATACA TTCTGAAATC AACCCAAAAT 
ACTTGTATAA GGAGTGGAAA ACTTTTGCAA AAGAAGAGAA TGGGTTCAGA AACTTCACTG 
GCAAAAGGTG AAAAAAATAG TATGACTTTT TCACCCACTA AGGATATATG CAAGCAGTAT 
GTAGATAAAG ACTGTCTTTA TGTCCAGAAA GAGATTTCAC CTGCAACCCC CAATATACAG 
AAGACTAGAA ACACGATAAA TACATCTGTA GTAGCTAAAC AGAAGCTTTG CAAAAAGCAC 
ATCACAGCTG AAAATATGAA GAGCAATTTG GTGTGCCTAA CACAAGACCA ACTACAACAG 
ATTTTGTCTT TGAACCAAGG AAATAAATCT ATTTCCCTGA TTGAAAATGG AAAGGAGGAA 
ACAAGTCAGG GCAGTCTGCA TTTAAACAGT ATTTCCAATC AGCCAGAGGA TGAGAACGTT 
ACGGGAGTAT TCAAAAAAAC TGATGCTCTT TCGTCTGTCC TGGATGAAAA TAAATCTGTT 
TTAAATAAAA ATCAAGAGAC ATCTAAGCAG TATGAGCAGA AAATTGCCAT AGAGAATGTA 
TGGAAACCAG CTGACATTTT CAGTACTCTG GGGGAAAGAG AACGTGACAG AAGTTTGTTG 
GAAGCAAAGA AAGCCCAGTG GAAGAAAGAG CTTGATGAAC AGGTTGCTTT AAAGAAGAAA 
GAAAAAGAAG CTTCTGAAAA ATGGAGTAAT CCTTGGAAAA AATTTGAAAG TGATAAAATA 
GTATGGGAAA ATTTTCAAAT TCTTGACCCG TCTAAGGAAG CATTACCACC AGAGCGCCCT 
TTCAGTGCCT CGAAACAAGA ACAGCAGAGG AAATGGATTG AAGATTTGAA TAAGCAAATA 
GAAGATGATC GGCAAAGAAA AACAGAGGGA AAAATTACAT CTTCAAAGGG TGAGGAACAT 
GACAGATGGG CAATGCATTT TGATTCATTA AAGAACTATC CTGCTTCTCA GTCTCAAATG 
TCCTCTCGGT CACCACACAA CCAACCAGAG TACTTCTGTG TCTCTCCGGA CACTCAGGAA 
CTGGCTGATC TCCACAGTGT TTATACACCT ACAACTGGAA GCCAGGTCGA ACCTTCAGAG 
GAGGAGCATA TAGCAAAACC TGTTAGAGAT ATAACCACGG CAAATAGTCA GAAAACAAAC 
TTTCTCCGTT CTATGACTGC TCTCTTGGAT CCGGCTCAGA TCGAAGAACG TGACAGGCGA 
CGACAGAAAC AGTTAGAGCA TCAGAAAGCC ATCACTGCTC AGGTAGAAGA GAAACGCAGG 
AAGAAGCAGC TGGAAGAGCA GCAAAGAAAG AAGGAAGAAG AAGAAGAGGA GCGTCGCTTA 
GCACGGGAAC GAGAAGAGAT GCAGAAACAG TATGAACAAG ACGTACTTAA GCAAAAACAA 
AAGGAAGAAA TCATGACTCT CAAGACAAAT GAGCTATTCC AGACGATGCA GAGAGCACAG 
GAGCTAGCAC AGAGGCTGAA ACAAGAACAG AGAATCCGAG AATTGGCTCA AAAGGGACAT 
GACACTTCTG GATTGATTAA AAACCTTGGC GGACATGGCT TGGATGATGT CAGTGGTAAA 
AAGAATACAT GTATCAATTC TACAACCTCT CCCAAAAAGG ATACTGCTGT ACAAACAGAT 
GACTTAAATA CAGGAACATT CACCAGTGCA GAATCATGCT GTGGAACAGT AATAGAGAGG 
GAAATTCTAA ATTGTTCATC TCCTGAGATT CCTGCAGACT TTAATGAACA GTTTAACACT 
AAGAAAGACA AAGAGGAACT CATAAATCAG GTTAAAGGAA CCAACTTAGA AAAAGAAAAC 
AGCTGGTATA ATGATCAGTG TAATGAGTTT GCAAGGACAG AGAAAACACA TATGAAGAAA 
TGTCCTAAAA GGCCTGATTG GAATATAAAT AAGCCACTCA AAAGGTATAT CCCAGCATCA 
GAAAAGTACC CTAAACAGCT GCAAAAGCAG AGAGAAGAAA AAAAAGTAAG AAGGCAGATG 
GAACTGCTCA ATTTGGTAGA AAGAAATAAT CCTGGACATC TTTGTCAAAA CAGAGGCACT 
TCACCAGTTC TTCCTTCATG TCAAGAAACT GAGCCAAGGT TCAGGTGGCA TCTAATCAAA 
AAGGAAGAAG AGCCTCTGAA AAGTAATGCT TTTGGCAAGG AAAGGTCTCA GTCACCACCA 
GTTCCAGTAG TGAAAAACAG AACACAACAA ACTCAGACAC TAAAAAACAG TAATTATGAA 
AGAGAGAATC TGATCTTAGA AGGCAGTCAA ACAGAAACAT TACCTGGGCC TTCTGAACCA 
TCCCATTTTA TCCCCTATGT CCGAACCAAT GAGATTTATT ACCTTGATCC AGATGCACCA 
CTGTCTAGGC CTTTAACCCA GGATCTTCAG TACCAAAATC CACATGACTG TGACCAAGAA 
CAACGGCAGC TATTTGATTC TGATGTCAGG GACCCACTTC TTAATCCTAA CTTGGTGAAA 
AACAGGGATC GACAGCAAGC AATCCTTAAG GGACTATCAG AACTGAGACA GGGCCTTCTC 
CAGAAGCAAA GGGAGTTGGA AACTAATCTG ATGCCTTTAG CTGCAAATCA AGAAGAGAAT 
TTTAATTCTT CGTTTTAA

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

RefSeq	XP_019660729.1
CDS	58..2835
Translation	MNLGDGLKLETELLDGKTKLILSPFECKSKNSVKMGNKTKIAKCPLRTKQTGYILKSTQNTCIRSGKLLQKKRMGSETSLAKGEKNSMTFSPTKDICKQYVDKDCLYVQKEISPATPNIQKTRNTINTSVVAKQKLCKKHITAENMKSNLVCLTQDQLQQILSLNQGNKSISLIENGKEETSQGSLHLNSISNQPEDENVTGVFKKTDALSSVLDENKSVLNKNQETSKQYEQKIAIENVWKPADIFSTLGERERDRSLLEAKKAQWKKELDEQVALKKKEKEASEKWSNPWKKFESDKIVWENFQILDPSKEALPPERPFSASKQEQQRKWIEDLNKQIEDDRQRKTEGKITSSKGEEHDRWAMHFDSLKNYPASQSQMSSRSPHNQPEYFCVSPDTQELADLHSVYTPTTGSQVEPSEEEHIAKPVRDITTANSQKTNFLRSMTALLDPAQIEERDRRRQKQLEHQKAITAQVEEKRRKKQLEEQQRKKEEEEEERRLAREREEMQKQYEQDVLKQKQKEEIMTLKTNELFQTMQRAQELAQRLKQEQRIRELAQKGHDTSGLIKNLGGHGLDDVSGKKNTCINSTTSPKKDTAVQTDDLNTGTFTSAESCCGTVIEREILNCSSPEIPADFNEQFNTKKDKEELINQVKGTNLEKENSWYNDQCNEFARTEKTHMKKCPKRPDWNINKPLKRYIPASEKYPKQLQKQREEKKVRRQMELLNLVERNNPGHLCQNRGTSPVLPSCQETEPRFRWHLIKKEEEPLKSNAFGKERSQSPPVPVVKNRTQQTQTLKNSNYERENLILEGSQTETLPGPSEPSHFIPYVRTNEIYYLDPDAPLSRPLTQDLQYQNPHDCDQEQRQLFDSDVRDPLLNPNLVKNRDRQQAILKGLSELRQGLLQKQRELETNLMPLAANQEENFNSSF

Target ORF information:

RefSeq Version	XM_019805170.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca coiled-coil domain containing 66 (CCDC66), transcript variant X5, mRNA.

Target ORF information:

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

XM_019805170.1

ORF Insert Sequence:

ATGAACTTGG GAGATGGTTT AAAGCTTGAA ACTGAATTGT TGGATGGAAA AACGAAGTTA 
ATATTGTCTC CATTTGAATG TAAATCAAAA AATTCTGTGA AGATGGGAAA TAAGACCAAG 
ATTGCAAAAT GTCCTTTAAG AACAAAACAA ACTGGATACA TTCTGAAATC AACCCAAAAT 
ACTTGTATAA GGAGTGGAAA ACTTTTGCAA AAGAAGAGAA TGGGTTCAGA AACTTCACTG 
GCAAAAGGTG AAAAAAATAG TATGACTTTT TCACCCACTA AGGATATATG CAAGCAGTAT 
GTAGATAAAG ACTGTCTTTA TGTCCAGAAA GAGATTTCAC CTGCAACCCC CAATATACAG 
AAGACTAGAA ACACGATAAA TACATCTGTA GTAGCTAAAC AGAAGCTTTG CAAAAAGCAC 
ATCACAGCTG AAAATATGAA GAGCAATTTG GTGTGCCTAA CACAAGACCA ACTACAACAG 
ATTTTGTCTT TGAACCAAGG AAATAAATCT ATTTCCCTGA TTGAAAATGG AAAGGAGGAA 
ACAAGTCAGG GCAGTCTGCA TTTAAACAGT ATTTCCAATC AGCCAGAGGA TGAGAACGTT 
ACGGGAGTAT TCAAAAAAAC TGATGCTCTT TCGTCTGTCC TGGATGAAAA TAAATCTGTT 
TTAAATAAAA ATCAAGAGAC ATCTAAGCAG TATGAGCAGA AAATTGCCAT AGAGAATGTA 
TGGAAACCAG CTGACATTTT CAGTACTCTG GGGGAAAGAG AACGTGACAG AAGTTTGTTG 
GAAGCAAAGA AAGCCCAGTG GAAGAAAGAG CTTGATGAAC AGGTTGCTTT AAAGAAGAAA 
GAAAAAGAAG CTTCTGAAAA ATGGAGTAAT CCTTGGAAAA AATTTGAAAG TGATAAAATA 
GTATGGGAAA ATTTTCAAAT TCTTGACCCG TCTAAGGAAG CATTACCACC AGAGCGCCCT 
TTCAGTGCCT CGAAACAAGA ACAGCAGAGG AAATGGATTG AAGATTTGAA TAAGCAAATA 
GAAGATGATC GGCAAAGAAA AACAGAGGGA AAAATTACAT CTTCAAAGGG TGAGGAACAT 
GACAGATGGG CAATGCATTT TGATTCATTA AAGAACTATC CTGCTTCTCA GTCTCAAATG 
TCCTCTCGGT CACCACACAA CCAACCAGAG TACTTCTGTG TCTCTCCGGA CACTCAGGAA 
CTGGCTGATC TCCACAGTGT TTATACACCT ACAACTGGAA GCCAGGTCGA ACCTTCAGAG 
GAGGAGCATA TAGCAAAACC TGTTAGAGAT ATAACCACGG CAAATAGTCA GAAAACAAAC 
TTTCTCCGTT CTATGACTGC TCTCTTGGAT CCGGCTCAGA TCGAAGAACG TGACAGGCGA 
CGACAGAAAC AGTTAGAGCA TCAGAAAGCC ATCACTGCTC AGGTAGAAGA GAAACGCAGG 
AAGAAGCAGC TGGAAGAGCA GCAAAGAAAG AAGGAAGAAG AAGAAGAGGA GCGTCGCTTA 
GCACGGGAAC GAGAAGAGAT GCAGAAACAG TATGAACAAG ACGTACTTAA GCAAAAACAA 
AAGGAAGAAA TCATGACTCT CAAGACAAAT GAGCTATTCC AGACGATGCA GAGAGCACAG 
GAGCTAGCAC AGAGGCTGAA ACAAGAACAG AGAATCCGAG AATTGGCTCA AAAGGGACAT 
GACACTTCTG GATTGATTAA AAACCTTGGC GGACATGGCT TGGATGATGT CAGTGGTAAA 
AAGAATACAT GTATCAATTC TACAACCTCT CCCAAAAAGG ATACTGCTGT ACAAACAGAT 
GACTTAAATA CAGGAACATT CACCAGTGCA GAATCATGCT GTGGAACAGT AATAGAGAGG 
GAAATTCTAA ATTGTTCATC TCCTGAGATT CCTGCAGACT TTAATGAACA GTTTAACACT 
AAGAAAGACA AAGAGGAACT CATAAATCAG GTTAAAGGAA CCAACTTAGA AAAAGAAAAC 
AGCTGGTATA ATGATCAGTG TAATGAGTTT GCAAGGACAG AGAAAACACA TATGAAGAAA 
TGTCCTAAAA GGCCTGATTG GAATATAAAT AAGCCACTCA AAAGGTATAT CCCAGCATCA 
GAAAAGTACC CTAAACAGCT GCAAAAGCAG AGAGAAGAAA AAAAAGTAAG AAGGCAGATG 
GAACTGCTCA ATTTGGTAGA AAGAAATAAT CCTGGACATC TTTGTCAAAA CAGAGGCACT 
TCACCAGTTC TTCCTTCATG TCAAGAAACT GAGCCAAGGT TCAGGTGGCA TCTAATCAAA 
AAGGAAGAAG AGCCTCTGAA AAGTAATGCT TTTGGCAAGG AAAGGTCTCA GTCACCACCA 
GTTCCAGTAG TGAAAAACAG AACACAACAA ACTCAGACAC TAAAAAACAG TAATTATGAA 
AGAGAGAATC TGATCTTAGA AGGCAGTCAA ACAGAAACAT TACCTGGGCC TTCTGAACCA 
TCCCATTTTA TCCCCTATGT CCGAACCAAT GAGATTTATT ACCTTGATCC AGATGCACCA 
CTGTCTAGGC CTTTAACCCA GGATCTTCAG TACCAAAATC CACATGACTG TGACCAAGAA 
CAACGGCAGC TATTTGATTC TGATGTCAGG GACCCACTTC TTAATCCTAA CTTGGTGAAA 
AACAGGGATC GACAGCAAGC AATCCTTAAG GGACTATCAG AACTGAGACA GGGCCTTCTC 
CAGAAGCAAA GGGAGTTGGA AACTAATCTG ATGCCTTTAG CTGCAAATCA AGAAGAGAAT 
TTTAATTCTT CGTTTTAA

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

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CCDC66 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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