CDK13 cDNA ORF clone, Anas platyrhynchos(mallard)

Gene
Clones
gRNAs

Summary

Gene Symbol	CDK13
Entrez Gene ID	101798737
Full Name	cyclin dependent kinase 13
Gene Type	protein-coding
Organism	Anas platyrhynchos(mallard)

mRNA and Protein(s)

mRNA	Protein	Name
XM_027450129.1	XP_027305930.1	cyclin-dependent kinase 13
XM_013095212.1	XP_012950666.1	LOW QUALITY PROTEIN: cyclin-dependent kinase 13
XM_021269150.1	XP_021124825.1	LOW QUALITY PROTEIN: cyclin-dependent kinase 13

Pathways from BioSystems
Gene Ontology

The following CDK13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CDK13 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
OAn106039	XM_013095212.1 Latest version!	Anas platyrhynchos cyclin-dependent kinase 13 (CDK13), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OAn149358	XM_021269150.1 Latest version!	Anas platyrhynchos cyclin dependent kinase 13 (CDK13), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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)

CDK13 ( XM_013095212.1 ) cDNA ORF clone, Anas platyrhynchos(mallard) -> XP_012950666.1 Anas platyrhynchos cyclin-dependent kinase 13 (CDK13), mRNA.

Price & Availability↑

CloneID	OAn106039
Clone ID Related Accession (Same CDS sequence)	XM_013095212.1
Accession Version	XM_013095212.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3498bp) 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	2015-07-08
Organism	Anas platyrhynchos(Mallard)
Product	LOW QUALITY PROTEIN: cyclin-dependent kinase 13
Comment	MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004676665.1) 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 :: Anas platyrhynchos Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGAGCCAAC AGGGTGCCAT GGCAGCCAGA AGGGCCAAAC ATGTCCAGGG CTACATTGAG 
GATGGCACCG CTAGCCCGTC ACGGAGCCCC TACAGCCCCG TTATCCGGAG ATCAGCAAAA 
TCTCGAAGCA GAAGTCCGTA CTCATCAAGG CATTCAAGGT CTCGTAGCAG ACACAGGTTG 
TCCAGATCCA GAAGTCGCCA TTCGAGTATC TCTCCTAGTA CATTGACTCT GAAGAGTAGC 
CTGGCTGCTG AGCTGAACAA AAACAAAAAA GCAAGAGCTG CTGAGGCAGC TAAAGCCAGT 
GCTAAAGCTT CCAACACTTC AACACCTACC AAGGGAAACA CTGACACTGC TGCAAGCGCA 
CCTCAAGTGA ACAATGTAAA GGACCTGAAG AAAATAAAAG TTGAGCATAC ACCTTCTCCT 
ACAAGCAGTG CAAATTTGAA GAATGACAAG GCAAAAGCAA AGGCCCCACT TCCGGAAACT 
AAAGGAGAAA ATAATTTAAT TGCAGACAAA AATACTAAAC AGAAAACTGC AGCAGTAAAA 
GAGAATAAAA CAACTGTTGT AAAACAGCAG CCGGTCACTG TAAAAGAGAA AACCAAACCG 
AGTACACCGA GTGTAGTAAC CAAGGAGAAG GATCGCACTG TTGCACTACC AACCTCCACA 
CTGCCACCCT TGCCTTTGCC TCCCACGCTG CCTGAAGATA AAGACAATGA TAGTAATCTG 
CGAGAGAATC TTTCAGTGAA GACAGTTAAA GAAGCAGAGA AGAAACTTCG CCATCTGCTT 
GCAGACTTGC CACTTCCACC TGAGTTGCCT GGAGGAGCAG AGTTAGCCAA AAGTCCTGAA 
GAAAAGAAAC CAGCAGTTCA GTTACACAGC AAGAGAAGAC CAAAAATATG TGGACCACGA 
CATGGTGAAA CAAAAGAAAA AGAAATAGAC TGGGGAAAGC GCTGTGTGGA TAAATTTGAT 
ATCATTGGTA TTNNNNNNNN NNNNNNNNNN NNNNNNNNNT ACAAAGCCAG AGATAAAGAC 
ACAGGAGAAA TGGTGGCACT AAAGAAAGTG CGTTTGGATA ATGAAAAAGA AGGGTTTCCA 
ATTACAGCTA TTCGGGAGAT TAAGATTCTT CGACAGCTCA ATCACCAAAG CATTATCAAC 
ATGAAGGAAA TAGTGACAGA TAAGGAAGAT GCTTTGGACT TCAAGAAAGA TAAAGGTGCA 
TTTTACCTGG TGTTTGAATA TATGGACCAT GACTTGATGG GACTGCTGGA ATCTGGTTTG 
GTTCATTTTA ATGAAAATCA TATAAAGTCC TTTATGAGAC AGCTGATGGA GGGTTTGGCC 
TATTGCCATA AGAAGAACTT TTTGCACAGA GATATCAAAT GTTCAAATAT TCTACTAAAT 
AATAGAGGGC AGATAAAGCT TGCAGATTTT GGGCTTGCTC GGCTGTACAA CTCAGAAGAA 
AGCCGACCAT ATACCAACAA AGTTATTACG TTATGGTATC GGCCTCCTGA ACTTCTGCTT 
GGAGAAGAAA GATACACGCC AGCTATCGAT GTCTGGAGCT GTGGCTGCAT CCTGGGTGAA 
CTTTTTACAA AAAAGCCAAT ATTTCAAGCA AATCAAGAAC TCGCTCAACT GGAACTTATA 
AGCCGAATTT GTGGGAGTCC TTGTCCAGCA GTGTGGCCTG ATGTTATAAA ATTAGCTTAT 
TTCAACACGA TGAAACCAAA GAAGCAGTAT CGTCGAAAAC TAAGAGAAGA GTTTGCTTTC 
ATCCCACCGG CTGCATTAGA TTTGTTTGAT TATATGCTTG CTCTGGATCC CAGCAAACGC 
TGCACAGCCG AACAAGCCCT TCAGTGTGAG TTTCTGCGAG ATGTGGAACC ATCTAAGATG 
CCTCCCCCAG ACCTTCCTTT GTGGCAGGAT TGCCATGAGC TGTGGAGTAA GAAACGCAGA 
AGACAGAAGC AGATGGGCAT GACTGATGAC GCAACAGCAA CTAAAGTCCC TCGGAAGGAC 
CTGTCTCTAG GCATGGATGA GAGCAGAACC AACACCCCAC AAGGCATGCA AACTTCTTCC 
CAACTCAAAA CTCAGGGCAA CTCTAGTGTA GCACTTGCAA AAACAAGCAC TGGACAGCAG 
TTAAACCAGA ATGAAGTGGC AATCCTGCTA AACCTGCTAC AGTCTAAAAC AAGTGTTAGT 
TTGGCACAGT TTGCCCAAGT GTTGAATATT AAGGTAAACC CAGAGACTCA GCAGCAACTA 
AATAAAATAA ATCTTCCTGC TGGAATTTTG TCAGCAGGTG AAAAACAGTC AGAACAGCAG 
CAGCAGCCGC CGCCGCCTCC GCCACCACCG CCGGAACAGG AGCCTCTAAA ACAGCCGACC 
GTCACGCAGC CTCCTGTGCC CCCTGCTCAG CTGAGTCAGC CCAAAGTCGA GACTGACGCT 
GCCCAGGCAG CCGTACAGAG TGCATTTGCT GTTCTGTTGT CTCAGTTAAT AAAGGCTCAG 
CAAACAAAAC AGAAAGATCT GGTGTTGGAG GAGAAGGAAA ACGGATCAGG AAATGAAATG 
TCGTTACAAC TCAGGCAGCC TCCAGAGCCC ACCACTCCTG CGTCTGTCAG CCGGGACGAC 
GTGGAATCGC CAGCACCTGG TTACCCGCAC CTGATCAAGT CACTGTACAC GGCTGCTGCA 
GGTCCAGAGG ATTTGGTTAG GCAGTCTGAG ATGAGGCTTC TGAACCGAAC ACCCGAACAA 
GAACGCCCTC GGATCTTGCC TCCAGACCAG CGACCCCCAG AGCCACCAGA GCCTCCGCCT 
CTCACTGATG AAGACCTTGA TTATCGGACA GAGAACCAGC ATTTGCCTAT AAGTAACTCT 
TCAGGAACAG ATCCCCACGC AGGAGTGAAA GCAGCTCTTC TACAGCTGCT TGCTCAGCAT 
CAAGCTCAGG CAACGACGGA GGAGCCAGTA CAAACAAGTG TGGATTACCA GGCTAGAGAC 
TCCTATGTAA CAGGCCCAGA CTACAAGGAT AACTTTGGAT CGTCTACCTT CTCCTCTGCC 
CACTATGGCA GTAGCGATGG CATAGGAAGC GGGTCATCGG GAGCGTTAGA AAGGAGGAAC 
TTCCTCGGAA ACTCGGATAT TCAACCTTTG GATAACTACA GTACTGCTTC ATCTCACTCT 
GGTGGTGCCC CTCCTCCGTC TGCCTTTTCA GAATCCTTTC CCAGCTCAGT AACTGGTTAC 
GGAGACATTT ACCTCAATGC TGGCCCCATG CTATTCAGTG GAGATAAAGA CCATAGGTTT 
GAATACAGCC ACGGCCCAAT CTCAGTCCTG GGGAGCAGCA GCGACGCTTC CGCAGGGCCG 
GAGAGCACTC ATCCTCTGCC CGCCAAGATG CACAACTACA GCTATGGAAG TAACTTACAG 
GAAAACCCCG GTGGCCTCGG CCACATGCAT GGACAGACTT GGACTTCCCC TGCCCAAGGA 
CCTGGCTATT CCCAAGGATA CAGGGGACAC ATTAGCACAT CTGCAGTGAG AGGGCGAGGC 
AGAGGATTAC CATATTGA

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

RefSeq	XP_012950666.1
CDS	1..3498
Translation	MSQQGAMAARRAKHVQGYIEDGTASPSRSPYSPVIRRSAKSRSRSPYSSRHSRSRSRHRLSRSRSRHSSISPSTLTLKSSLAAELNKNKKARAAEAAKASAKASNTSTPTKGNTDTAASAPQVNNVKDLKKIKVEHTPSPTSSANLKNDKAKAKAPLPETKGENNLIADKNTKQKTAAVKENKTTVVKQQPVTVKEKTKPSTPSVVTKEKDRTVALPTSTLPPLPLPPTLPEDKDNDSNLRENLSVKTVKEAEKKLRHLLADLPLPPELPGGAELAKSPEEKKPAVQLHSKRRPKICGPRHGETKEKEIDWGKRCVDKFDIIGInullnullnullnullnullnullnullnullnullYKARDKDTGEMVALKKVRLDNEKEGFPITAIREIKILRQLNHQSIINMKEIVTDKEDALDFKKDKGAFYLVFEYMDHDLMGLLESGLVHFNENHIKSFMRQLMEGLAYCHKKNFLHRDIKCSNILLNNRGQIKLADFGLARLYNSEESRPYTNKVITLWYRPPELLLGEERYTPAIDVWSCGCILGELFTKKPIFQANQELAQLELISRICGSPCPAVWPDVIKLAYFNTMKPKKQYRRKLREEFAFIPPAALDLFDYMLALDPSKRCTAEQALQCEFLRDVEPSKMPPPDLPLWQDCHELWSKKRRRQKQMGMTDDATATKVPRKDLSLGMDESRTNTPQGMQTSSQLKTQGNSSVALAKTSTGQQLNQNEVAILLNLLQSKTSVSLAQFAQVLNIKVNPETQQQLNKINLPAGILSAGEKQSEQQQQPPPPPPPPPEQEPLKQPTVTQPPVPPAQLSQPKVETDAAQAAVQSAFAVLLSQLIKAQQTKQKDLVLEEKENGSGNEMSLQLRQPPEPTTPASVSRDDVESPAPGYPHLIKSLYTAAAGPEDLVRQSEMRLLNRTPEQERPRILPPDQRPPEPPEPPPLTDEDLDYRTENQHLPISNSSGTDPHAGVKAALLQLLAQHQAQATTEEPVQTSVDYQARDSYVTGPDYKDNFGSSTFSSAHYGSSDGIGSGSSGALERRNFLGNSDIQPLDNYSTASSHSGGAPPPSAFSESFPSSVTGYGDIYLNAGPMLFSGDKDHRFEYSHGPISVLGSSSDASAGPESTHPLPAKMHNYSYGSNLQENPGGLGHMHGQTWTSPAQGPGYSQGYRGHISTSAVRGRGRGLPY

Target ORF information:

RefSeq Version	XM_013095212.1
Organism	Anas platyrhynchos(Mallard)
Definition	Anas platyrhynchos cyclin-dependent kinase 13 (CDK13), mRNA.

Target ORF information:

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

XM_013095212.1

ORF Insert Sequence:

ATGAGCCAAC AGGGTGCCAT GGCAGCCAGA AGGGCCAAAC ATGTCCAGGG CTACATTGAG 
GATGGCACCG CTAGCCCGTC ACGGAGCCCC TACAGCCCCG TTATCCGGAG ATCAGCAAAA 
TCTCGAAGCA GAAGTCCGTA CTCATCAAGG CATTCAAGGT CTCGTAGCAG ACACAGGTTG 
TCCAGATCCA GAAGTCGCCA TTCGAGTATC TCTCCTAGTA CATTGACTCT GAAGAGTAGC 
CTGGCTGCTG AGCTGAACAA AAACAAAAAA GCAAGAGCTG CTGAGGCAGC TAAAGCCAGT 
GCTAAAGCTT CCAACACTTC AACACCTACC AAGGGAAACA CTGACACTGC TGCAAGCGCA 
CCTCAAGTGA ACAATGTAAA GGACCTGAAG AAAATAAAAG TTGAGCATAC ACCTTCTCCT 
ACAAGCAGTG CAAATTTGAA GAATGACAAG GCAAAAGCAA AGGCCCCACT TCCGGAAACT 
AAAGGAGAAA ATAATTTAAT TGCAGACAAA AATACTAAAC AGAAAACTGC AGCAGTAAAA 
GAGAATAAAA CAACTGTTGT AAAACAGCAG CCGGTCACTG TAAAAGAGAA AACCAAACCG 
AGTACACCGA GTGTAGTAAC CAAGGAGAAG GATCGCACTG TTGCACTACC AACCTCCACA 
CTGCCACCCT TGCCTTTGCC TCCCACGCTG CCTGAAGATA AAGACAATGA TAGTAATCTG 
CGAGAGAATC TTTCAGTGAA GACAGTTAAA GAAGCAGAGA AGAAACTTCG CCATCTGCTT 
GCAGACTTGC CACTTCCACC TGAGTTGCCT GGAGGAGCAG AGTTAGCCAA AAGTCCTGAA 
GAAAAGAAAC CAGCAGTTCA GTTACACAGC AAGAGAAGAC CAAAAATATG TGGACCACGA 
CATGGTGAAA CAAAAGAAAA AGAAATAGAC TGGGGAAAGC GCTGTGTGGA TAAATTTGAT 
ATCATTGGTA TTNNNNNNNN NNNNNNNNNN NNNNNNNNNT ACAAAGCCAG AGATAAAGAC 
ACAGGAGAAA TGGTGGCACT AAAGAAAGTG CGTTTGGATA ATGAAAAAGA AGGGTTTCCA 
ATTACAGCTA TTCGGGAGAT TAAGATTCTT CGACAGCTCA ATCACCAAAG CATTATCAAC 
ATGAAGGAAA TAGTGACAGA TAAGGAAGAT GCTTTGGACT TCAAGAAAGA TAAAGGTGCA 
TTTTACCTGG TGTTTGAATA TATGGACCAT GACTTGATGG GACTGCTGGA ATCTGGTTTG 
GTTCATTTTA ATGAAAATCA TATAAAGTCC TTTATGAGAC AGCTGATGGA GGGTTTGGCC 
TATTGCCATA AGAAGAACTT TTTGCACAGA GATATCAAAT GTTCAAATAT TCTACTAAAT 
AATAGAGGGC AGATAAAGCT TGCAGATTTT GGGCTTGCTC GGCTGTACAA CTCAGAAGAA 
AGCCGACCAT ATACCAACAA AGTTATTACG TTATGGTATC GGCCTCCTGA ACTTCTGCTT 
GGAGAAGAAA GATACACGCC AGCTATCGAT GTCTGGAGCT GTGGCTGCAT CCTGGGTGAA 
CTTTTTACAA AAAAGCCAAT ATTTCAAGCA AATCAAGAAC TCGCTCAACT GGAACTTATA 
AGCCGAATTT GTGGGAGTCC TTGTCCAGCA GTGTGGCCTG ATGTTATAAA ATTAGCTTAT 
TTCAACACGA TGAAACCAAA GAAGCAGTAT CGTCGAAAAC TAAGAGAAGA GTTTGCTTTC 
ATCCCACCGG CTGCATTAGA TTTGTTTGAT TATATGCTTG CTCTGGATCC CAGCAAACGC 
TGCACAGCCG AACAAGCCCT TCAGTGTGAG TTTCTGCGAG ATGTGGAACC ATCTAAGATG 
CCTCCCCCAG ACCTTCCTTT GTGGCAGGAT TGCCATGAGC TGTGGAGTAA GAAACGCAGA 
AGACAGAAGC AGATGGGCAT GACTGATGAC GCAACAGCAA CTAAAGTCCC TCGGAAGGAC 
CTGTCTCTAG GCATGGATGA GAGCAGAACC AACACCCCAC AAGGCATGCA AACTTCTTCC 
CAACTCAAAA CTCAGGGCAA CTCTAGTGTA GCACTTGCAA AAACAAGCAC TGGACAGCAG 
TTAAACCAGA ATGAAGTGGC AATCCTGCTA AACCTGCTAC AGTCTAAAAC AAGTGTTAGT 
TTGGCACAGT TTGCCCAAGT GTTGAATATT AAGGTAAACC CAGAGACTCA GCAGCAACTA 
AATAAAATAA ATCTTCCTGC TGGAATTTTG TCAGCAGGTG AAAAACAGTC AGAACAGCAG 
CAGCAGCCGC CGCCGCCTCC GCCACCACCG CCGGAACAGG AGCCTCTAAA ACAGCCGACC 
GTCACGCAGC CTCCTGTGCC CCCTGCTCAG CTGAGTCAGC CCAAAGTCGA GACTGACGCT 
GCCCAGGCAG CCGTACAGAG TGCATTTGCT GTTCTGTTGT CTCAGTTAAT AAAGGCTCAG 
CAAACAAAAC AGAAAGATCT GGTGTTGGAG GAGAAGGAAA ACGGATCAGG AAATGAAATG 
TCGTTACAAC TCAGGCAGCC TCCAGAGCCC ACCACTCCTG CGTCTGTCAG CCGGGACGAC 
GTGGAATCGC CAGCACCTGG TTACCCGCAC CTGATCAAGT CACTGTACAC GGCTGCTGCA 
GGTCCAGAGG ATTTGGTTAG GCAGTCTGAG ATGAGGCTTC TGAACCGAAC ACCCGAACAA 
GAACGCCCTC GGATCTTGCC TCCAGACCAG CGACCCCCAG AGCCACCAGA GCCTCCGCCT 
CTCACTGATG AAGACCTTGA TTATCGGACA GAGAACCAGC ATTTGCCTAT AAGTAACTCT 
TCAGGAACAG ATCCCCACGC AGGAGTGAAA GCAGCTCTTC TACAGCTGCT TGCTCAGCAT 
CAAGCTCAGG CAACGACGGA GGAGCCAGTA CAAACAAGTG TGGATTACCA GGCTAGAGAC 
TCCTATGTAA CAGGCCCAGA CTACAAGGAT AACTTTGGAT CGTCTACCTT CTCCTCTGCC 
CACTATGGCA GTAGCGATGG CATAGGAAGC GGGTCATCGG GAGCGTTAGA AAGGAGGAAC 
TTCCTCGGAA ACTCGGATAT TCAACCTTTG GATAACTACA GTACTGCTTC ATCTCACTCT 
GGTGGTGCCC CTCCTCCGTC TGCCTTTTCA GAATCCTTTC CCAGCTCAGT AACTGGTTAC 
GGAGACATTT ACCTCAATGC TGGCCCCATG CTATTCAGTG GAGATAAAGA CCATAGGTTT 
GAATACAGCC ACGGCCCAAT CTCAGTCCTG GGGAGCAGCA GCGACGCTTC CGCAGGGCCG 
GAGAGCACTC ATCCTCTGCC CGCCAAGATG CACAACTACA GCTATGGAAG TAACTTACAG 
GAAAACCCCG GTGGCCTCGG CCACATGCAT GGACAGACTT GGACTTCCCC TGCCCAAGGA 
CCTGGCTATT CCCAAGGATA CAGGGGACAC ATTAGCACAT CTGCAGTGAG AGGGCGAGGC 
AGAGGATTAC CATATTGA

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

CDK13 ( XM_021269150.1 ) cDNA ORF clone, Anas platyrhynchos(mallard) -> XP_021124825.1 Anas platyrhynchos cyclin dependent kinase 13 (CDK13), mRNA.

Price & Availability↑

CloneID	OAn149358
Clone ID Related Accession (Same CDS sequence)	XM_021269150.1
Accession Version	XM_021269150.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3810bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-05-23
Organism	Anas platyrhynchos(mallard)
Product	LOW QUALITY PROTEIN: cyclin-dependent kinase 13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004676665.1) 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 :: Anas platyrhynchos Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 10% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGGAGCGCA TCCAGCCCCG AGCTGCTGCC AGGGCCAACT ACCCACTCTG CCTGGCCCTG 
CGGAAGGTTC CAACCCAGCA CAGTGCTAGG GCTGCAACTT CTAGGGGCAG CTGTGATGGA 
ACCCATCCAG CTACCGATTC TGCAGCACCT CATCCAGGTG TAGGGAGCAC AGGGAGCGCA 
GCCCGTCCAT GCCCCACCAA TGTGTCCACT GCCTCTTATG GCACTGGGAG TGGATGGGCA 
CGGACAGGCC TGGTCCTCAT GTCATCAACC ACAAGGACAC CTCATGGCTT TGCTAGGCTT 
GGCAGGAGCC AGGGGCTGGA TTTCTGCTTG CTGCAGCTCT GCTTCGGCCC CGGATTTAAT 
CTGGGGCCTG CAAAGGACGT AGCTCTTCTG TCACGGAGCC CCTACAGCCC CGTTATCCGG 
AGATCAGCAA AATCTCGAAG CAGAAGTCCG TACTCATCAA GGCATTCAAG GTCTCGTAGC 
AGACACAGGT TGTCCAGATC CAGAAGTCGC CATTCGAGTA TCTCTCCTAG TACATTGACT 
CTGAAGAGTA GCCTGGCTGC TGAGCTGAAC AAAAACAAAA AAGCAAGAGC TGCTGAGGCA 
GCTAAAGCCA GTGCTAAAGC TTCCAACACT TCAACACCTA CCAAGGGAAA CACTGACACT 
GCTGCAAGCG CACCTCAAGT GAACAATGTA AAGGACCTGA AGAAAATAAA AGTTGAGCAT 
ACACCTTCTC CTACAAGCAG TGCAAATTTG AAGAATGACA AGGCAAAAGC AAAGGCCCCA 
CTTCCGGAAA CTAAAGGAGA AAATAATTTA ATTGCAGACA AAAATACTAA ACAGAAAACT 
GCAGCAGTAA AAGAGAATAA AACAACTGTT GTAAAACAGC AGCCGGTCAC TGTAAAAGAG 
AAAACCAAAC CGAGTACACC GAGTGTAGTA ACCAAGGAGA AGGATCGCAC TGTTGCACTA 
CCAACCTCCA CACTGCCACC CTTGCCTTTG CCTCCCACGC TGCCTGAAGA TAAAGACAAT 
GATAGTAATC TGCGAGAGAA TCTTTCAGTG AAGACAGTTA AAGAAGCAGA GAAGAAACTT 
CGCCATCTGC TTGCAGACTT GCCACTTCCA CCTGAGTTGC CTGGAGGAGC AGAGTTAGCC 
AAAAGTCCTG AAGAAAAGAA ACCAGCAGTT CAGTTACACA GCAAGAGAAG ACCAAAAATA 
TGTGGACCAC GACATGGTGA AACAAAAGAA AAAGAAATAG ACTGGGGAAA GCGCTGTGTG 
GATAAATTTG ATATCATTGG TATTNNNNNN NNNNNNNNNN NNNNNNNNNN NTACAAAGCC 
AGAGATAAAG ACACAGGAGA AATGGTGGCA CTAAAGAAAG TGCGTTTGGA TAATGAAAAA 
GAAGGGTTTC CAATTACAGC TATTCGGGAG ATTAAGATTC TTCGACAGCT CAATCACCAA 
AGCATTATCA ACATGAAGGA AATAGTGACA GATAAGGAAG ATGCTTTGGA CTTCAAGAAA 
GATAAAGGTG CATTTTACCT GGTGTTTGAA TATATGGACC ATGACTTGAT GGGACTGCTG 
GAATCTGGTT TGGTTCATTT TAATGAAAAT CATATAAAGT CCTTTATGAG ACAGCTGATG 
GAGGGTTTGG CCTATTGCCA TAAGAAGAAC TTTTTGCACA GAGATATCAA ATGTTCAAAT 
ATTCTACTAA ATAATAGAGG GCAGATAAAG CTTGCAGATT TTGGGCTTGC TCGGCTGTAC 
AACTCAGAAG AAAGCCGACC ATATACCAAC AAAGTTATTA CGTTATGGTA TCGGCCTCCT 
GAACTTCTGC TTGGAGAAGA AAGATACACG CCAGCTATCG ATGTCTGGAG CTGTGGCTGC 
ATCCTGGGTG AACTTTTTAC AAAAAAGCCA ATATTTCAAG CAAATCAAGA ACTCGCTCAA 
CTGGAACTTA TAAGCCGAAT TTGTGGGAGT CCTTGTCCAG CAGTGTGGCC TGATGTTATA 
AAATTAGCTT ATTTCAACAC GATGAAACCA AAGAAGCAGT ATCGTCGAAA ACTAAGAGAA 
GAGTTTGCTT TCATCCCACC GGCTGCATTA GATTTGTTTG ATTATATGCT TGCTCTGGAT 
CCCAGCAAAC GCTGCACAGC CGAACAAGCC CTTCAGTGTG AGTTTCTGCG AGATGTGGAA 
CCATCTAAGA TGCCTCCCCC AGACCTTCCT TTGTGGCAGG ATTGCCATGA GCTGTGGAGT 
AAGAAACGCA GAAGACAGAA GCAGATGGGC ATGACTGATG ACGCAACAGC AACTAAAGTC 
CCTCGGAAGG ACCTGTCTCT AGGCATGGAT GAGAGCAGAA CCAACACCCC ACAAGGCATG 
CAAACTTCTT CCCAACTCAA AACTCAGGGC AACTCTAGTG TAGCACTTGC AAAAACAAGC 
ACTGGACAGC AGTTAAACCA GAATGAAGTG GCAATCCTGC TAAACCTGCT ACAGTCTAAA 
ACAAGTGTTA GTTTGGCACA GTTTGCCCAA GTGTTGAATA TTAAGGTAAA CCCAGAGACT 
CAGCAGCAAC TAAATAAAAT AAATCTTCCT GCTGGAATTT TGTCAGCAGG TGAAAAACAG 
TCAGAACAGC AGCAGCAGCC GCCGCCGCCT CCGCCACCAC CGCCGGAACA GGAGCCTCTA 
AAACAGCCGA CCGTCACGCA GCCTCCTGTG CCCCCTGCTC AGCTGAGTCA GCCCAAAGTC 
GAGACTGACG CTGCCCAGGC AGCCGTACAG AGTGCATTTG CTGTTCTGTT GTCTCAGTTA 
ATAAAGGCTC AGCAAACAAA ACAGAAAGAT CTGGTGTTGG AGGAGAAGGA AAACGGATCA 
GGAAATGAAA TGTCGTTACA ACTCAGGCAG CCTCCAGAGC CCACCACTCC TGCGTCTGTC 
AGCCGGGACG ACGTGGAATC GCCAGCACCT GGTTACCCGC ACCTGATCAA GTCACTGTAC 
ACGGCTGCTG CAGGTCCAGA GGATTTGGTT AGGCAGTCTG AGATGAGGCT TCTGAACCGA 
ACACCCGAAC AAGAACGCCC TCGGATCTTG CCTCCAGACC AGCGACCCCC AGAGCCACCA 
GAGCCTCCGC CTCTCACTGA TGAAGACCTT GATTATCGGA CAGAGAACCA GCATTTGCCT 
ATAAGTAACT CTTCAGGAAC AGATCCCCAC GCAGGAGTGA AAGCAGCTCT TCTACAGCTG 
CTTGCTCAGC ATCAAGCTCA GGCAACGACG GAGGAGCCAG TACAAACAAG TGTGGATTAC 
CAGGCTAGAG ACTCCTATGT AACAGGCCCA GACTACAAGG ATAACTTTGG ATCGTCTACC 
TTCTCCTCTG CCCACTATGG CAGTAGCGAT GGCATAGGAA GCGGGTCATC GGGAGCGTTA 
GAAAGGAGGA ACTTCCTCGG AAACTCGGAT ATTCAACCTT TGGATAACTA CAGTACTGCT 
TCATCTCACT CTGGTGGTGC CCCTCCTCCG TCTGCCTTTT CAGAATCCTT TCCCAGCTCA 
GTAACTGGTT ACGGAGACAT TTACCTCAAT GCTGGCCCCA TGCTATTCAG TGGAGATAAA 
GACCATAGGT TTGAATACAG CCACGGCCCA ATCTCAGTCC TGGGGAGCAG CAGCGACGCT 
TCCGCAGGGC CGGAGAGCAC TCATCCTCTG CCCGCCAAGA TGCACAACTA CAGCTATGGA 
AGTAACTTAC AGGAAAACCC CGGTGGCCTC GGCCACATGC ATGGACAGAC TTGGACTTCC 
CCTGCCCAAG GACCTGGCTA TTCCCAAGGA TACAGGGGAC ACATTAGCAC ATCTGCAGTG 
AGAGGGCGAG GCAGAGGATT ACCATATTGA

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

RefSeq	XP_021124825.1
CDS	1..3810
Translation	MERIQPRAAARANYPLCLALRKVPTQHSARAATSRGSCDGTHPATDSAAPHPGVGSTGSAARPCPTNVSTASYGTGSGWARTGLVLMSSTTRTPHGFARLGRSQGLDFCLLQLCFGPGFNLGPAKDVALLSRSPYSPVIRRSAKSRSRSPYSSRHSRSRSRHRLSRSRSRHSSISPSTLTLKSSLAAELNKNKKARAAEAAKASAKASNTSTPTKGNTDTAASAPQVNNVKDLKKIKVEHTPSPTSSANLKNDKAKAKAPLPETKGENNLIADKNTKQKTAAVKENKTTVVKQQPVTVKEKTKPSTPSVVTKEKDRTVALPTSTLPPLPLPPTLPEDKDNDSNLRENLSVKTVKEAEKKLRHLLADLPLPPELPGGAELAKSPEEKKPAVQLHSKRRPKICGPRHGETKEKEIDWGKRCVDKFDIIGInullnullnullnullnullnullnullnullnullYKARDKDTGEMVALKKVRLDNEKEGFPITAIREIKILRQLNHQSIINMKEIVTDKEDALDFKKDKGAFYLVFEYMDHDLMGLLESGLVHFNENHIKSFMRQLMEGLAYCHKKNFLHRDIKCSNILLNNRGQIKLADFGLARLYNSEESRPYTNKVITLWYRPPELLLGEERYTPAIDVWSCGCILGELFTKKPIFQANQELAQLELISRICGSPCPAVWPDVIKLAYFNTMKPKKQYRRKLREEFAFIPPAALDLFDYMLALDPSKRCTAEQALQCEFLRDVEPSKMPPPDLPLWQDCHELWSKKRRRQKQMGMTDDATATKVPRKDLSLGMDESRTNTPQGMQTSSQLKTQGNSSVALAKTSTGQQLNQNEVAILLNLLQSKTSVSLAQFAQVLNIKVNPETQQQLNKINLPAGILSAGEKQSEQQQQPPPPPPPPPEQEPLKQPTVTQPPVPPAQLSQPKVETDAAQAAVQSAFAVLLSQLIKAQQTKQKDLVLEEKENGSGNEMSLQLRQPPEPTTPASVSRDDVESPAPGYPHLIKSLYTAAAGPEDLVRQSEMRLLNRTPEQERPRILPPDQRPPEPPEPPPLTDEDLDYRTENQHLPISNSSGTDPHAGVKAALLQLLAQHQAQATTEEPVQTSVDYQARDSYVTGPDYKDNFGSSTFSSAHYGSSDGIGSGSSGALERRNFLGNSDIQPLDNYSTASSHSGGAPPPSAFSESFPSSVTGYGDIYLNAGPMLFSGDKDHRFEYSHGPISVLGSSSDASAGPESTHPLPAKMHNYSYGSNLQENPGGLGHMHGQTWTSPAQGPGYSQGYRGHISTSAVRGRGRGLPY

Target ORF information:

RefSeq Version	XM_021269150.1
Organism	Anas platyrhynchos(mallard)
Definition	Anas platyrhynchos cyclin dependent kinase 13 (CDK13), mRNA.

Target ORF information:

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

XM_021269150.1

ORF Insert Sequence:

ATGGAGCGCA TCCAGCCCCG AGCTGCTGCC AGGGCCAACT ACCCACTCTG CCTGGCCCTG 
CGGAAGGTTC CAACCCAGCA CAGTGCTAGG GCTGCAACTT CTAGGGGCAG CTGTGATGGA 
ACCCATCCAG CTACCGATTC TGCAGCACCT CATCCAGGTG TAGGGAGCAC AGGGAGCGCA 
GCCCGTCCAT GCCCCACCAA TGTGTCCACT GCCTCTTATG GCACTGGGAG TGGATGGGCA 
CGGACAGGCC TGGTCCTCAT GTCATCAACC ACAAGGACAC CTCATGGCTT TGCTAGGCTT 
GGCAGGAGCC AGGGGCTGGA TTTCTGCTTG CTGCAGCTCT GCTTCGGCCC CGGATTTAAT 
CTGGGGCCTG CAAAGGACGT AGCTCTTCTG TCACGGAGCC CCTACAGCCC CGTTATCCGG 
AGATCAGCAA AATCTCGAAG CAGAAGTCCG TACTCATCAA GGCATTCAAG GTCTCGTAGC 
AGACACAGGT TGTCCAGATC CAGAAGTCGC CATTCGAGTA TCTCTCCTAG TACATTGACT 
CTGAAGAGTA GCCTGGCTGC TGAGCTGAAC AAAAACAAAA AAGCAAGAGC TGCTGAGGCA 
GCTAAAGCCA GTGCTAAAGC TTCCAACACT TCAACACCTA CCAAGGGAAA CACTGACACT 
GCTGCAAGCG CACCTCAAGT GAACAATGTA AAGGACCTGA AGAAAATAAA AGTTGAGCAT 
ACACCTTCTC CTACAAGCAG TGCAAATTTG AAGAATGACA AGGCAAAAGC AAAGGCCCCA 
CTTCCGGAAA CTAAAGGAGA AAATAATTTA ATTGCAGACA AAAATACTAA ACAGAAAACT 
GCAGCAGTAA AAGAGAATAA AACAACTGTT GTAAAACAGC AGCCGGTCAC TGTAAAAGAG 
AAAACCAAAC CGAGTACACC GAGTGTAGTA ACCAAGGAGA AGGATCGCAC TGTTGCACTA 
CCAACCTCCA CACTGCCACC CTTGCCTTTG CCTCCCACGC TGCCTGAAGA TAAAGACAAT 
GATAGTAATC TGCGAGAGAA TCTTTCAGTG AAGACAGTTA AAGAAGCAGA GAAGAAACTT 
CGCCATCTGC TTGCAGACTT GCCACTTCCA CCTGAGTTGC CTGGAGGAGC AGAGTTAGCC 
AAAAGTCCTG AAGAAAAGAA ACCAGCAGTT CAGTTACACA GCAAGAGAAG ACCAAAAATA 
TGTGGACCAC GACATGGTGA AACAAAAGAA AAAGAAATAG ACTGGGGAAA GCGCTGTGTG 
GATAAATTTG ATATCATTGG TATTNNNNNN NNNNNNNNNN NNNNNNNNNN NTACAAAGCC 
AGAGATAAAG ACACAGGAGA AATGGTGGCA CTAAAGAAAG TGCGTTTGGA TAATGAAAAA 
GAAGGGTTTC CAATTACAGC TATTCGGGAG ATTAAGATTC TTCGACAGCT CAATCACCAA 
AGCATTATCA ACATGAAGGA AATAGTGACA GATAAGGAAG ATGCTTTGGA CTTCAAGAAA 
GATAAAGGTG CATTTTACCT GGTGTTTGAA TATATGGACC ATGACTTGAT GGGACTGCTG 
GAATCTGGTT TGGTTCATTT TAATGAAAAT CATATAAAGT CCTTTATGAG ACAGCTGATG 
GAGGGTTTGG CCTATTGCCA TAAGAAGAAC TTTTTGCACA GAGATATCAA ATGTTCAAAT 
ATTCTACTAA ATAATAGAGG GCAGATAAAG CTTGCAGATT TTGGGCTTGC TCGGCTGTAC 
AACTCAGAAG AAAGCCGACC ATATACCAAC AAAGTTATTA CGTTATGGTA TCGGCCTCCT 
GAACTTCTGC TTGGAGAAGA AAGATACACG CCAGCTATCG ATGTCTGGAG CTGTGGCTGC 
ATCCTGGGTG AACTTTTTAC AAAAAAGCCA ATATTTCAAG CAAATCAAGA ACTCGCTCAA 
CTGGAACTTA TAAGCCGAAT TTGTGGGAGT CCTTGTCCAG CAGTGTGGCC TGATGTTATA 
AAATTAGCTT ATTTCAACAC GATGAAACCA AAGAAGCAGT ATCGTCGAAA ACTAAGAGAA 
GAGTTTGCTT TCATCCCACC GGCTGCATTA GATTTGTTTG ATTATATGCT TGCTCTGGAT 
CCCAGCAAAC GCTGCACAGC CGAACAAGCC CTTCAGTGTG AGTTTCTGCG AGATGTGGAA 
CCATCTAAGA TGCCTCCCCC AGACCTTCCT TTGTGGCAGG ATTGCCATGA GCTGTGGAGT 
AAGAAACGCA GAAGACAGAA GCAGATGGGC ATGACTGATG ACGCAACAGC AACTAAAGTC 
CCTCGGAAGG ACCTGTCTCT AGGCATGGAT GAGAGCAGAA CCAACACCCC ACAAGGCATG 
CAAACTTCTT CCCAACTCAA AACTCAGGGC AACTCTAGTG TAGCACTTGC AAAAACAAGC 
ACTGGACAGC AGTTAAACCA GAATGAAGTG GCAATCCTGC TAAACCTGCT ACAGTCTAAA 
ACAAGTGTTA GTTTGGCACA GTTTGCCCAA GTGTTGAATA TTAAGGTAAA CCCAGAGACT 
CAGCAGCAAC TAAATAAAAT AAATCTTCCT GCTGGAATTT TGTCAGCAGG TGAAAAACAG 
TCAGAACAGC AGCAGCAGCC GCCGCCGCCT CCGCCACCAC CGCCGGAACA GGAGCCTCTA 
AAACAGCCGA CCGTCACGCA GCCTCCTGTG CCCCCTGCTC AGCTGAGTCA GCCCAAAGTC 
GAGACTGACG CTGCCCAGGC AGCCGTACAG AGTGCATTTG CTGTTCTGTT GTCTCAGTTA 
ATAAAGGCTC AGCAAACAAA ACAGAAAGAT CTGGTGTTGG AGGAGAAGGA AAACGGATCA 
GGAAATGAAA TGTCGTTACA ACTCAGGCAG CCTCCAGAGC CCACCACTCC TGCGTCTGTC 
AGCCGGGACG ACGTGGAATC GCCAGCACCT GGTTACCCGC ACCTGATCAA GTCACTGTAC 
ACGGCTGCTG CAGGTCCAGA GGATTTGGTT AGGCAGTCTG AGATGAGGCT TCTGAACCGA 
ACACCCGAAC AAGAACGCCC TCGGATCTTG CCTCCAGACC AGCGACCCCC AGAGCCACCA 
GAGCCTCCGC CTCTCACTGA TGAAGACCTT GATTATCGGA CAGAGAACCA GCATTTGCCT 
ATAAGTAACT CTTCAGGAAC AGATCCCCAC GCAGGAGTGA AAGCAGCTCT TCTACAGCTG 
CTTGCTCAGC ATCAAGCTCA GGCAACGACG GAGGAGCCAG TACAAACAAG TGTGGATTAC 
CAGGCTAGAG ACTCCTATGT AACAGGCCCA GACTACAAGG ATAACTTTGG ATCGTCTACC 
TTCTCCTCTG CCCACTATGG CAGTAGCGAT GGCATAGGAA GCGGGTCATC GGGAGCGTTA 
GAAAGGAGGA ACTTCCTCGG AAACTCGGAT ATTCAACCTT TGGATAACTA CAGTACTGCT 
TCATCTCACT CTGGTGGTGC CCCTCCTCCG TCTGCCTTTT CAGAATCCTT TCCCAGCTCA 
GTAACTGGTT ACGGAGACAT TTACCTCAAT GCTGGCCCCA TGCTATTCAG TGGAGATAAA 
GACCATAGGT TTGAATACAG CCACGGCCCA ATCTCAGTCC TGGGGAGCAG CAGCGACGCT 
TCCGCAGGGC CGGAGAGCAC TCATCCTCTG CCCGCCAAGA TGCACAACTA CAGCTATGGA 
AGTAACTTAC AGGAAAACCC CGGTGGCCTC GGCCACATGC ATGGACAGAC TTGGACTTCC 
CCTGCCCAAG GACCTGGCTA TTCCCAAGGA TACAGGGGAC ACATTAGCAC ATCTGCAGTG 
AGAGGGCGAG GCAGAGGATT ACCATATTGA