SETD1A cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	SETD1A
Entrez Gene ID	100482700
Full Name	SET domain containing 1A
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019805452.1	XP_019661011.1	LOW QUALITY PROTEIN: histone-lysine N-methyltransferase SETD1A

Pathways from BioSystems
Gene Ontology

The following SETD1A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SETD1A 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
OAc96680	XM_019805452.1 Latest version!	Ailuropoda melanoleuca SET domain containing 1A (SETD1A), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

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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)

SETD1A ( XM_019805452.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019661011.1 Ailuropoda melanoleuca SET domain containing 1A (SETD1A), mRNA.

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CloneID	OAc96680
Clone ID Related Accession (Same CDS sequence)	XM_019805452.1
Accession Version	XM_019805452.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5028bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	LOW QUALITY PROTEIN: histone-lysine N-methyltransferase SETD1A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218138.1) 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## ##RefSeq-Attributes-START## frameshifts :: corrected 4 indels ##RefSeq-Attributes-END##

ATGGATCAGG AAGGTGGGGG AGATGGGCAG AAAGCCCCGA GCTTCCAGTG GCGGAACTAC 
AAGCTCATCG TGGATCCTGC CTTGGACCCT GCCTTGCGCA GGCCTTCTCA AAAGGTGTAC 
CGCTACGATG GAGTCCACTT CAGTGTCAAC GACTCGAAGT ATATCCCAGT GGAAGACCTC 
CAAGACCCCC GTTGCCATGT CAGGTCCAAA AACAGAGACT TTTCCCTCCC AGTCCCTAAG 
TTTAAGCTGG ATGAGTTCTA TATCGGACAG ATCCCCCTGA AGGAAGTGAC TTTCGCGAGG 
CTGAATGACA ACGTGCGGGA GACCTTCCTG AAGGATATGT GCCGAAAGTA CGGTGAGGTG 
GAAGAGGTAG AGATCCTTCT TCACCCCCGT ACTCGCAAGC ACCTGGGCCT GGCCCGTGTG 
CTCTTCACTA GCACCCGGGG AGCCAAGGAA ACGGTCAAAA ACCTCCACCT TACCTCCGTC 
ATGGGCAACA TCATCCATGC CCAGCTCGAC ATCAAAGGAC AACAGCGAAT GAAATACTAT 
GAACTGATAG TCAATGGCTC CTACACCCCT CAGACGGTGC CCACGGGAGG CAAGGCCCTG 
AGTGAGAAGT TCCAGGGCTC TGGTGCAGCC ACTGAGGCGA CTGAATCCCG ACGCCGCTCC 
TCCTCTGACA CGGCTGCCTA CCCCGCAGGC ACCACTGGCG TGGGCACTCC TGGCAATGGC 
ACCCCTTGCT CCCAGGACAC AAGCTTCTCC AGCAGCCGAC AAGACACCCC ATCTTCCTTT 
GGCCAGTTCA CCCCTCAGTC CTCCCAAGGA ACCCCTTACA CATCTCGGGG CAGCACCCCC 
TACTCTCAGG ACTCTGCCTA CTCCAGCAGC ACCACTTCAA CCTCCTTCAA GCCCCGGCGC 
TCGGAGAACA GCTACCAAGA TTCCTTCTCC CGCCGCCATT TCTCTGCATC TTCAGCCCCC 
ACGACCACTT CCACAGCTGC CTCCACCACG ACTGCAGCCA CTGCCTCGTC CTCCTCCTCC 
TCCTCCTCCT CGTTGTCATC GTCCTCTTCG TCCTCCTCTT CGTCCTCCTC CTCTCATTTT 
CGTGGTACTG ACTCTAACTA CCCAGCGTAT TATGAAAGCT GGACTCGCTA CCAACGCCAT 
GCTTCCTACC CTCCCCGCCG GGCCACTCGG GAGGAGCCCC CTGGGACATC TTTTGCTGAA 
AACACAGCTG AGCGCTTCCC ACCTTCCTAC ACCTCCTACT TGCCCCCTGA GCCCGGCCGG 
CCCGCTGACC AGGACTACCG GCCTCCTGCC TCGGAAGCCC CACCCCCGGA GCCTCCAGAA 
CCTGGTGGAG GTGGGGGTGG GGGGGGGCCC AGCCCTGAGA GAGAAGAAGC TCGGACCTCC 
CCCCGCCCAG CCTCACCTGC CCGCTCCGGC TCCCCGGCTC CAGAGACCAC CAATGAGAGT 
GTGCCCTTTG CTCAACATAG CAGCCTGGAT TCCCGCATCG AGATGTTGCT GAAGGAGCAG 
CGCTCCAAGT TTTCTTTCCT GGCCTCTGAC ACAGAGGAAG AGGAAGAGAA CAGCACCACA 
GGCCCTGGGT CTAGAGACAC AGGGAGCGAG GTGCCTTCTG GGTCAGGTCA CGGGCCCTGC 
ACACCCCCTC CAGCCCCAGC TAATTTTGAG GATGTGGCAC CCACAGGGAG TGGGGAACCG 
GGGGCTACCC GGGAGTCTCC CAAGGCCAAC GGACAGAACC AGGCTTCTCC ATGCTCTTCT 
GGAGAGGACA TGGAGATCTC CGACGATGAC AGGGGCGGCT CACCCCCTCN NNNNNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNNNNNCCCC CCANGGCGCC CTGATGGGCC ACCACCCCCC 
GAGTACCCCC CACCTCCTCC GCCACCCCCC CACATTTATG ACTTTGTGAA CTCCCTAGAG 
CTCATGGATC GACTTGGGGC TCAGTGGGGA GGGATGCCCA TGTCCTTCCA GATGCAGACG 
CAGATGTTAA CTCGGCTTCA CCAGCTGCGG CAGGGCAAGG GATTGACTGC TGCCTCAGCT 
GGTCCCCCTA GTGGAGCCTT TGGGGAGGGC TTCCTCCCGT TCCCACCCCC CCAAGAGGCA 
GCCTACAGCT TACCCTATGC CCTGTACACA CAAGGGCAAG AAGGCCGAGG GGCCTACTCC 
CGGGAGGCCT ACCACCTGCC TTTGCCCATG GCAGCCGAGC CCCTGCCCTC CTCCTCAGTC 
TCAGGAGAAG AGGCCAGGCT ACCTCCCAGG GAGGAAGCAG AGCCGGCAGA GGGCAAGGCC 
CTACCATCAG CAGGCACCGT GGGACGTGTG CTGGCCACCC TTGTCCAAGA GATGAAGAGC 
ATCATGCAGC GAGACCTCAA CCGCAAGATG GTGGAGAATG TGGCCTTTGG AGCCTTTGAC 
CAGTGGTGGG AGAGCAAAGA AGAGAAGGCC AAGCCATTCC AGAACGCAGC CAAACAGCAA 
GCCAAGGAGG AGGATAAAGA GAAGACGAAA CTCAAAGAGC CGGGCCTGCT GTCCCTCGTA 
GACTGGGCCA AGAGTGGGGG TACCACGGGC ATCGAGGCCT TCGCCTTTGG GTCGGGGCTG 
CGAGGGGCCC TGCGGCTGCC TTCTTTCAAG GTGAAGCGAA AAGAGCCTTC GGAAATTTCA 
GAGGCCAGTG AGGAAAAGAG GCCCCGTCCT TCCACTCCAG CTGAGGAAGA TGAAGATGAT 
GCTGAACGAG ACAAGGAGGC TGGAGAGCCC GGACGTCCGG GGACCAAGCC CGCAAAGCGA 
GATGAAGAGC GAAGCAAGAC CCAGGGCAAG CACCGCAAGT CCTTTGCTCT GGACAGTGAG 
GGAGAGGAGG CATCCCAGGA GTCCTCCTCT GAGAAGGATG AGGAGGAAGA CGAGGAAGAT 
GAAGAAGATG AAGAACGCGA GGAGGCCATG GACACTGCAA AGAAGGAGAC CGAGGCATCA 
GATGGCGAGG ACGGGGAAAG CGATTCGTCC TCCAAATGTT CTCTGTATGC TGACTCAGAT 
GGTGAAAATG ATAGCACGTC GGACTCCGAG AGCAGCAGCT CATCCAGCTC CTCGTCGTCC 
TCCTCGTCGT CCTCATCGTC CTCCTCCTCC TCATCATCTG AGTCCTCCTC GGAAGAGGAA 
GAGGAAGAGG AGCGGCCAGC AACCATACCC TCCGCATCAC CTCCCCCCAG AGATGTCCCC 
GCGCCCCCAC CAGCCCCCGT GGAAGAGCCC GAGCCAGAGC GGGTTGCGGG CTCCCCAGTC 
ACGCCTCTCC CTGAGCAGGA GAAGTCTCCA GCAAGACCTG CAGGTTCCAC GGAGGAACCG 
CCTCCCAGCA TGCCCCAGCC GCCCGCGGAG CCGCCGGCGG GGCCGNNCCC CGATGAGCGC 
CCCTCCTCTC CTATACCCCT GCTGCCCCCA CCCAAGAAAC GCCGGAAAAC TGTCTCCTTC 
TCTGCTNCNN NNNNNNNNNN NNNNNNNGCC CCACCACAGA CCAAGTCTCC TGGCCCCGTC 
TCCCGCAAAG TCCCCCGGGC CGTGGAGCGG ACCATTCGAA ACCTGCCCCT GGACCATGCG 
TCTCTGGTCA AGAGTTGGCC TGAGGACGTG TCCCGAGGAG GTCGGAGCCG GGCTGGGGGC 
CGAGGCCGTT CTACTGAGGA GGAGGAAGCC GAGCCAGGGA CGGAAGTGGA CCTGGCGGTG 
CTGGCCGACC TGGCCCTGAC CCCGGCCCGT CGTGGGCTGG CTGCCCTGCC TCCTGGCGAC 
GACTCGGAGG CCACAGAGAC ATCGGACGAG GCCGACCGCC CGGGCCCCCT GCTCAGCCAC 
ATCCTCCTGG AGCACAACTA CGCCTTGGCC GTCAAGCCGC CACCCTCCAC GCCGGCCCCC 
CGGCCCCTGG AGCCAGTTCC TGCCCCTGCG GCCCTCTTCA GCTCCCCAGC GGATGAGGTC 
CTGGAGGCCC CCGAGGTGGT GGTGGCTGAG GNNNNNNNNN NNNNNNNNNN NNNNNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNCCCC CTCCGCCCCC TCCGCCCCCC 
ACCTTCGAGC CCCGCAGTGA GTTTGAGCAG ATGACCATCT TGTATGACAT TTGGAACTCG 
GGCCTGGACT TGGAGGACAT GGGCTACCTG CGGCTCACGT ACGAGCGGCT GCTGCAGCAG 
ACCAGCGGGG CTGACTGGCT TAACGACACC CACTGGGTCC ATCACACCAT CACCAACTTG 
AGCACTCCGA AACGGAAGCG GCGGCCCCAG GACGGGCCCC GTGAGCACCA GACAGGCTCA 
GCGCGCAGCG AAGGCTATTA CCCCATCAGC AAGAAGGAAA AGGACAGGTA CCTGGATGTG 
TGCCCTGTTT CGGCCCGACA GCTGGAAGGA GCGGACACTC AGGGGACTAA CCGTGTGCTT 
TCGGAGCGCC GGTCCGAGCA GCGGCGGCTG CTGAGCGCCA TCGGCACCTC TGCTGTCATG 
GACAGTGATC TGCTGAAGCT GAACCAGCTC AAGTTCCGGA AGAAGAAGCT CCGGTTCGGC 
CGCAGCCGGA TCCACGAGTG GGGCCTGTTT GCCATGGAGC CCATTGCAGC TGACGAGATG 
GTCATCGAAT ACGTGGGTCA GAACATCCGC CAGATGGTGG CCGACATGCG GGAGAAGCGC 
TACGTGCAGG AGGGCATCGG CAGCAGCTAC CTGTTCCGGG TGGACCACGA CACCATCATC 
GATGCTACCA AGTGCGGCAA CCTGGCCAGG TTCATCAACC ACTGCTGCAT GCAGCCCAAC 
TGCTACGCCA AGGTGATCAC CATCGAGTCC CAGAAGAAGA TAGTGATTTA CTCCAAGCAG 
CCCATCGGCG TGGATGAGGA GATCACCTAC GACTACAAGT TCCCACTGGA GGACAACAAG 
ATCCCGTGTC TGTGCGGCAC TGAGAGCTGC CGCGGCTCCC TCAACTGA

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

RefSeq	XP_019661011.1
CDS	39..5066
Translation	MDQEGGGDGQKAPSFQWRNYKLIVDPALDPALRRPSQKVYRYDGVHFSVNDSKYIPVEDLQDPRCHVRSKNRDFSLPVPKFKLDEFYIGQIPLKEVTFARLNDNVRETFLKDMCRKYGEVEEVEILLHPRTRKHLGLARVLFTSTRGAKETVKNLHLTSVMGNIIHAQLDIKGQQRMKYYELIVNGSYTPQTVPTGGKALSEKFQGSGAATEATESRRRSSSDTAAYPAGTTGVGTPGNGTPCSQDTSFSSSRQDTPSSFGQFTPQSSQGTPYTSRGSTPYSQDSAYSSSTTSTSFKPRRSENSYQDSFSRRHFSASSAPTTTSTAASTTTAATASSSSSSSSSLSSSSSSSSSSSSSHFRGTDSNYPAYYESWTRYQRHASYPPRRATREEPPGTSFAENTAERFPPSYTSYLPPEPGRPADQDYRPPASEAPPPEPPEPGGGGGGGGPSPEREEARTSPRPASPARSGSPAPETTNESVPFAQHSSLDSRIEMLLKEQRSKFSFLASDTEEEEENSTTGPGSRDTGSEVPSGSGHGPCTPPPAPANFEDVAPTGSGEPGATRESPKANGQNQASPCSSGEDMEISDDDRGGSPPnullnullnullnullnullnullnullnullnullnullnullnullnullPPnullRPDGPPPPEYPPPPPPPPHIYDFVNSLELMDRLGAQWGGMPMSFQMQTQMLTRLHQLRQGKGLTAASAGPPSGAFGEGFLPFPPPQEAAYSLPYALYTQGQEGRGAYSREAYHLPLPMAAEPLPSSSVSGEEARLPPREEAEPAEGKALPSAGTVGRVLATLVQEMKSIMQRDLNRKMVENVAFGAFDQWWESKEEKAKPFQNAAKQQAKEEDKEKTKLKEPGLLSLVDWAKSGGTTGIEAFAFGSGLRGALRLPSFKVKRKEPSEISEASEEKRPRPSTPAEEDEDDAERDKEAGEPGRPGTKPAKRDEERSKTQGKHRKSFALDSEGEEASQESSSEKDEEEDEEDEEDEEREEAMDTAKKETEASDGEDGESDSSSKCSLYADSDGENDSTSDSESSSSSSSSSSSSSSSSSSSSSSSESSSEEEEEEERPATIPSASPPPRDVPAPPPAPVEEPEPERVAGSPVTPLPEQEKSPARPAGSTEEPPPSMPQPPAEPPAGPnullPDERPSSPIPLLPPPKKRRKTVSFSAnullnullnullnullnullnullnullAPPQTKSPGPVSRKVPRAVERTIRNLPLDHASLVKSWPEDVSRGGRSRAGGRGRSTEEEEAEPGTEVDLAVLADLALTPARRGLAALPPGDDSEATETSDEADRPGPLLSHILLEHNYALAVKPPPSTPAPRPLEPVPAPAALFSSPADEVLEAPEVVVAEnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullPPPPPPPPTFEPRSEFEQMTILYDIWNSGLDLEDMGYLRLTYERLLQQTSGADWLNDTHWVHHTITNLSTPKRKRRPQDGPREHQTGSARSEGYYPISKKEKDRYLDVCPVSARQLEGADTQGTNRVLSERRSEQRRLLSAIGTSAVMDSDLLKLNQLKFRKKKLRFGRSRIHEWGLFAMEPIAADEMVIEYVGQNIRQMVADMREKRYVQEGIGSSYLFRVDHDTIIDATKCGNLARFINHCCMQPNCYAKVITIESQKKIVIYSKQPIGVDEEITYDYKFPLEDNKIPCLCGTESCRGSLN

Target ORF information:

RefSeq Version	XM_019805452.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca SET domain containing 1A (SETD1A), mRNA.

Target ORF information:

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

XM_019805452.1

ORF Insert Sequence:

ATGGATCAGG AAGGTGGGGG AGATGGGCAG AAAGCCCCGA GCTTCCAGTG GCGGAACTAC 
AAGCTCATCG TGGATCCTGC CTTGGACCCT GCCTTGCGCA GGCCTTCTCA AAAGGTGTAC 
CGCTACGATG GAGTCCACTT CAGTGTCAAC GACTCGAAGT ATATCCCAGT GGAAGACCTC 
CAAGACCCCC GTTGCCATGT CAGGTCCAAA AACAGAGACT TTTCCCTCCC AGTCCCTAAG 
TTTAAGCTGG ATGAGTTCTA TATCGGACAG ATCCCCCTGA AGGAAGTGAC TTTCGCGAGG 
CTGAATGACA ACGTGCGGGA GACCTTCCTG AAGGATATGT GCCGAAAGTA CGGTGAGGTG 
GAAGAGGTAG AGATCCTTCT TCACCCCCGT ACTCGCAAGC ACCTGGGCCT GGCCCGTGTG 
CTCTTCACTA GCACCCGGGG AGCCAAGGAA ACGGTCAAAA ACCTCCACCT TACCTCCGTC 
ATGGGCAACA TCATCCATGC CCAGCTCGAC ATCAAAGGAC AACAGCGAAT GAAATACTAT 
GAACTGATAG TCAATGGCTC CTACACCCCT CAGACGGTGC CCACGGGAGG CAAGGCCCTG 
AGTGAGAAGT TCCAGGGCTC TGGTGCAGCC ACTGAGGCGA CTGAATCCCG ACGCCGCTCC 
TCCTCTGACA CGGCTGCCTA CCCCGCAGGC ACCACTGGCG TGGGCACTCC TGGCAATGGC 
ACCCCTTGCT CCCAGGACAC AAGCTTCTCC AGCAGCCGAC AAGACACCCC ATCTTCCTTT 
GGCCAGTTCA CCCCTCAGTC CTCCCAAGGA ACCCCTTACA CATCTCGGGG CAGCACCCCC 
TACTCTCAGG ACTCTGCCTA CTCCAGCAGC ACCACTTCAA CCTCCTTCAA GCCCCGGCGC 
TCGGAGAACA GCTACCAAGA TTCCTTCTCC CGCCGCCATT TCTCTGCATC TTCAGCCCCC 
ACGACCACTT CCACAGCTGC CTCCACCACG ACTGCAGCCA CTGCCTCGTC CTCCTCCTCC 
TCCTCCTCCT CGTTGTCATC GTCCTCTTCG TCCTCCTCTT CGTCCTCCTC CTCTCATTTT 
CGTGGTACTG ACTCTAACTA CCCAGCGTAT TATGAAAGCT GGACTCGCTA CCAACGCCAT 
GCTTCCTACC CTCCCCGCCG GGCCACTCGG GAGGAGCCCC CTGGGACATC TTTTGCTGAA 
AACACAGCTG AGCGCTTCCC ACCTTCCTAC ACCTCCTACT TGCCCCCTGA GCCCGGCCGG 
CCCGCTGACC AGGACTACCG GCCTCCTGCC TCGGAAGCCC CACCCCCGGA GCCTCCAGAA 
CCTGGTGGAG GTGGGGGTGG GGGGGGGCCC AGCCCTGAGA GAGAAGAAGC TCGGACCTCC 
CCCCGCCCAG CCTCACCTGC CCGCTCCGGC TCCCCGGCTC CAGAGACCAC CAATGAGAGT 
GTGCCCTTTG CTCAACATAG CAGCCTGGAT TCCCGCATCG AGATGTTGCT GAAGGAGCAG 
CGCTCCAAGT TTTCTTTCCT GGCCTCTGAC ACAGAGGAAG AGGAAGAGAA CAGCACCACA 
GGCCCTGGGT CTAGAGACAC AGGGAGCGAG GTGCCTTCTG GGTCAGGTCA CGGGCCCTGC 
ACACCCCCTC CAGCCCCAGC TAATTTTGAG GATGTGGCAC CCACAGGGAG TGGGGAACCG 
GGGGCTACCC GGGAGTCTCC CAAGGCCAAC GGACAGAACC AGGCTTCTCC ATGCTCTTCT 
GGAGAGGACA TGGAGATCTC CGACGATGAC AGGGGCGGCT CACCCCCTCN NNNNNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNNNNNCCCC CCANGGCGCC CTGATGGGCC ACCACCCCCC 
GAGTACCCCC CACCTCCTCC GCCACCCCCC CACATTTATG ACTTTGTGAA CTCCCTAGAG 
CTCATGGATC GACTTGGGGC TCAGTGGGGA GGGATGCCCA TGTCCTTCCA GATGCAGACG 
CAGATGTTAA CTCGGCTTCA CCAGCTGCGG CAGGGCAAGG GATTGACTGC TGCCTCAGCT 
GGTCCCCCTA GTGGAGCCTT TGGGGAGGGC TTCCTCCCGT TCCCACCCCC CCAAGAGGCA 
GCCTACAGCT TACCCTATGC CCTGTACACA CAAGGGCAAG AAGGCCGAGG GGCCTACTCC 
CGGGAGGCCT ACCACCTGCC TTTGCCCATG GCAGCCGAGC CCCTGCCCTC CTCCTCAGTC 
TCAGGAGAAG AGGCCAGGCT ACCTCCCAGG GAGGAAGCAG AGCCGGCAGA GGGCAAGGCC 
CTACCATCAG CAGGCACCGT GGGACGTGTG CTGGCCACCC TTGTCCAAGA GATGAAGAGC 
ATCATGCAGC GAGACCTCAA CCGCAAGATG GTGGAGAATG TGGCCTTTGG AGCCTTTGAC 
CAGTGGTGGG AGAGCAAAGA AGAGAAGGCC AAGCCATTCC AGAACGCAGC CAAACAGCAA 
GCCAAGGAGG AGGATAAAGA GAAGACGAAA CTCAAAGAGC CGGGCCTGCT GTCCCTCGTA 
GACTGGGCCA AGAGTGGGGG TACCACGGGC ATCGAGGCCT TCGCCTTTGG GTCGGGGCTG 
CGAGGGGCCC TGCGGCTGCC TTCTTTCAAG GTGAAGCGAA AAGAGCCTTC GGAAATTTCA 
GAGGCCAGTG AGGAAAAGAG GCCCCGTCCT TCCACTCCAG CTGAGGAAGA TGAAGATGAT 
GCTGAACGAG ACAAGGAGGC TGGAGAGCCC GGACGTCCGG GGACCAAGCC CGCAAAGCGA 
GATGAAGAGC GAAGCAAGAC CCAGGGCAAG CACCGCAAGT CCTTTGCTCT GGACAGTGAG 
GGAGAGGAGG CATCCCAGGA GTCCTCCTCT GAGAAGGATG AGGAGGAAGA CGAGGAAGAT 
GAAGAAGATG AAGAACGCGA GGAGGCCATG GACACTGCAA AGAAGGAGAC CGAGGCATCA 
GATGGCGAGG ACGGGGAAAG CGATTCGTCC TCCAAATGTT CTCTGTATGC TGACTCAGAT 
GGTGAAAATG ATAGCACGTC GGACTCCGAG AGCAGCAGCT CATCCAGCTC CTCGTCGTCC 
TCCTCGTCGT CCTCATCGTC CTCCTCCTCC TCATCATCTG AGTCCTCCTC GGAAGAGGAA 
GAGGAAGAGG AGCGGCCAGC AACCATACCC TCCGCATCAC CTCCCCCCAG AGATGTCCCC 
GCGCCCCCAC CAGCCCCCGT GGAAGAGCCC GAGCCAGAGC GGGTTGCGGG CTCCCCAGTC 
ACGCCTCTCC CTGAGCAGGA GAAGTCTCCA GCAAGACCTG CAGGTTCCAC GGAGGAACCG 
CCTCCCAGCA TGCCCCAGCC GCCCGCGGAG CCGCCGGCGG GGCCGNNCCC CGATGAGCGC 
CCCTCCTCTC CTATACCCCT GCTGCCCCCA CCCAAGAAAC GCCGGAAAAC TGTCTCCTTC 
TCTGCTNCNN NNNNNNNNNN NNNNNNNGCC CCACCACAGA CCAAGTCTCC TGGCCCCGTC 
TCCCGCAAAG TCCCCCGGGC CGTGGAGCGG ACCATTCGAA ACCTGCCCCT GGACCATGCG 
TCTCTGGTCA AGAGTTGGCC TGAGGACGTG TCCCGAGGAG GTCGGAGCCG GGCTGGGGGC 
CGAGGCCGTT CTACTGAGGA GGAGGAAGCC GAGCCAGGGA CGGAAGTGGA CCTGGCGGTG 
CTGGCCGACC TGGCCCTGAC CCCGGCCCGT CGTGGGCTGG CTGCCCTGCC TCCTGGCGAC 
GACTCGGAGG CCACAGAGAC ATCGGACGAG GCCGACCGCC CGGGCCCCCT GCTCAGCCAC 
ATCCTCCTGG AGCACAACTA CGCCTTGGCC GTCAAGCCGC CACCCTCCAC GCCGGCCCCC 
CGGCCCCTGG AGCCAGTTCC TGCCCCTGCG GCCCTCTTCA GCTCCCCAGC GGATGAGGTC 
CTGGAGGCCC CCGAGGTGGT GGTGGCTGAG GNNNNNNNNN NNNNNNNNNN NNNNNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNCCCC CTCCGCCCCC TCCGCCCCCC 
ACCTTCGAGC CCCGCAGTGA GTTTGAGCAG ATGACCATCT TGTATGACAT TTGGAACTCG 
GGCCTGGACT TGGAGGACAT GGGCTACCTG CGGCTCACGT ACGAGCGGCT GCTGCAGCAG 
ACCAGCGGGG CTGACTGGCT TAACGACACC CACTGGGTCC ATCACACCAT CACCAACTTG 
AGCACTCCGA AACGGAAGCG GCGGCCCCAG GACGGGCCCC GTGAGCACCA GACAGGCTCA 
GCGCGCAGCG AAGGCTATTA CCCCATCAGC AAGAAGGAAA AGGACAGGTA CCTGGATGTG 
TGCCCTGTTT CGGCCCGACA GCTGGAAGGA GCGGACACTC AGGGGACTAA CCGTGTGCTT 
TCGGAGCGCC GGTCCGAGCA GCGGCGGCTG CTGAGCGCCA TCGGCACCTC TGCTGTCATG 
GACAGTGATC TGCTGAAGCT GAACCAGCTC AAGTTCCGGA AGAAGAAGCT CCGGTTCGGC 
CGCAGCCGGA TCCACGAGTG GGGCCTGTTT GCCATGGAGC CCATTGCAGC TGACGAGATG 
GTCATCGAAT ACGTGGGTCA GAACATCCGC CAGATGGTGG CCGACATGCG GGAGAAGCGC 
TACGTGCAGG AGGGCATCGG CAGCAGCTAC CTGTTCCGGG TGGACCACGA CACCATCATC 
GATGCTACCA AGTGCGGCAA CCTGGCCAGG TTCATCAACC ACTGCTGCAT GCAGCCCAAC 
TGCTACGCCA AGGTGATCAC CATCGAGTCC CAGAAGAAGA TAGTGATTTA CTCCAAGCAG 
CCCATCGGCG TGGATGAGGA GATCACCTAC GACTACAAGT TCCCACTGGA GGACAACAAG 
ATCCCGTGTC TGTGCGGCAC TGAGAGCTGC CGCGGCTCCC TCAACTGA

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

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SETD1A cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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