NSD2 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	NSD2
Entrez Gene ID	100482078
Full Name	nuclear receptor binding SET domain protein 2
Synonyms	WHSC1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019796753.1	XP_019652312.1	LOW QUALITY PROTEIN: histone-lysine N-methyltransferase NSD2

Pathways from BioSystems
Gene Ontology

The following NSD2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NSD2 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
OAc90866	XM_019796753.1 Latest version!	Ailuropoda melanoleuca nuclear receptor binding SET domain protein 2 (NSD2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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)

NSD2 ( XM_019796753.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019652312.1 Ailuropoda melanoleuca nuclear receptor binding SET domain protein 2 (NSD2), mRNA.

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CloneID	OAc90866
Clone ID Related Accession (Same CDS sequence)	XM_019796753.1
Accession Version	XM_019796753.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4095bp) 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 NSD2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217437.1) 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 1 indel ##RefSeq-Attributes-END##

ATGGAATTTA GCATCAAANA AAGTCCTCTT TCTGTTCAGA AAGTTGTAAA GTGCGTAAAG 
ATGAAGCAGG CACCAGAAAT CCTTGGCAAT ACAAATGGAA AGACTCAGAA CTGTGAAGTG 
AATCGTGAAT GTTCTGTATT CCTCAGCAAA GCCCACCTCT CTACCAGTCT GCAGGAGGGG 
GTCATGCAAA AATTTAATGG CCATGATGCA CTTCCATTTA TTCCATCTGA GAAGCTGAAA 
GACCTAACTT CCCGTGTATT TAATGGAGAA CCTGGTGCTC ATGATGCCAA ATTACGTTTT 
GAGTCCCAAG AAGGGAAAGG ACTCGGGACA CCACCTAACA CCACCCCTAT CAAAAATGGC 
TCTCCGGAAA TTAAGCTGAA GATCACCAAA ACATACATGA ATGGGAAGCC TCTCTTTGAA 
TCTTCAATTT GTGGTGACGG TGCTGCTGCT GTGTCCCAGT CAGAAGAAAA TGGACAAAAA 
CCAGAAAATA AGGCAAGAAG GAGCAGGAAG AGAAGCATAA AATATGACTC CTTACTGGAG 
CAGGGTCTTG TTGAAGCAGC ACTGGTGTCC AAGATCTCAA GTCCCTCAGA TAAAAAGATT 
GCAGCTAAGA AAGAGTCCTG TCCAAATACT GGCAGAGACA AAGACCACCT GTTGAAATAT 
AATGTCGGTG ATTTGGTGTG GTCCAAAGTG TCCGGTTACC CTTGGTGGCC ATGCATGGTT 
TCTGCTGATC CACTTCTTCA CAACTATACC AAACTTAAAG GTCAGAAAAA GAGTGCACGC 
CAGTATCACG TACAGTTCTT TGGTGATGCC CCAGAAAGAG CTTGGATATT TGAGAAGAGC 
CTTGTAGCTT TTGAAGGAGA AGGACAGTTT GAAAAATTAT GCCAGGAAAG TGCCAAGCAG 
GCACCCACGA AAGCTGAGAA AATTAAGCTG TTGAAACCTA TTTCAGGGAA ATTGAGGGCC 
CAGTGGGAAA TGGGCATCGT TCAAGCAGAG GAAGCTGCAA GCATGTCAGT AGAGGAGCGG 
AAAGCTAAGT TCACTTTCCT CTACGTGGGG GACCAGCTTC ATCTCAACCC TCACGTAGCT 
AAGGAGGCAA GCATTGCTAT GGAGTCTCCG GGACAAATGG TAGAATCCTC AGGAGTCATT 
GAAGAAGCTG CTGATAACCC CAAGTCCATG AGAGAAGAGG GCATTCCCCT TAAGAGAAGG 
CGGAGAGCCA AGCTGTCGAG TTCTGCCGAA AACCAAGAAA GTGACCCTGG GACAGTAAAG 
AGTACTCCTC AGAAGATGGC AGAGGCCGAC CCCAAGAGAG GAGTAGGGTC TCCTCCTGGA 
AGGAAGAAGA CCACGGCCTC CGCTCCTCGA AGCAGGAAGG GAGATGCGGC ATCCCAGTTT 
TTGGTTTTCT GTCAGAAGCA CAGGGACGAG GTTGTTGCTG AGCACCCAGA CGCCTCGGGT 
GAGGAGATTG AAGAGCTCCT TGGATCCCAG TGGGACATGC TCAACGAGAA ACAGAAAGCA 
CGCTATAACA CAAAGTTTGC CCTAGTGGCC TCTTCCCAGT CTGAAGAAGA CTCTGGTAAC 
ATAAATGGGA AAAAAAGAAA CCACCCAAAG AGGACACAGG ACCCTACTGA AGACGCCGAG 
GTTGAAGACG CACCCAGGAA AAGACTCAGG ACCGACAAGC ATGGTCTTCG GAAGAGAGAG 
ACGATCAATG ACAAGACAGC CCGAACAAGC TCTTGCAAGG CAATCGAGGC AGCCGCCTCG 
CTGAAGAGCC AGGCAGCAAC GAAACATCTG TCAGATGCAT GCAAACCGCT GAAGAAGAGA 
AATCGGGCGT CCGCAGCAGC GCCTTCCACT CCTTTTAGCA AAAGTTCGTC TCCTTCTGCA 
TCCTTAACTG AGAATGAGGT CTCAGACGGC CCAGGAGACG AGCCCTTGGA ATCCCCCTAT 
GAGAGCGCAG ATGAAACTCA GACCGAAGTG TCCGTCTCAT CGAAGAAGTC TGAGCGAGGA 
GTAACCGCCA AAAAGGAGTA CGTGTGTCAG CTGTGTGAGA AGACCGGCAG CCTCGTGCTC 
TGTGAAGGCC CCTGCTGCGG AGCCTTCCAC CTCGCCTGCC TTGGGCTCTC CCGGAGGCCG 
GAAGGGAGGT TCACCTGCAG CGAATGTGCT TCAGGGATTC ACTCATGTTT TGTGTGTAAG 
GAGAGCAAGA CAGACGTGAA GCGCTGTGTC GTATCACAGT GTGGGAAGTT TTACCACGAA 
GCTTGCGTGA GGAAGTACCC TCTGACTGTG TTTGAGAGCC GAGGCTTCCG CTGCCCGCTC 
CACAGCTGCG TGAGCTGCCA TGCTTCCAAC CCTTCCAACC CAAGACCATC GAAAGGTAAA 
ATGATGCGGT GTGTCCGCTG CCCTGTCGCC TATCACGGAG GGGATGCTTG TCTGGCAGCC 
GGCTGCTCAG TGATAGCTTC CAACAGCATC ATCTGCACGG GCCATTTCAC TGCTCGCAAG 
GGGAAGAGGC ATCATGCTCA TGTCAATGTG AGCTGGTGTT TTGTGTGCTC CAAAGGGGGA 
AGCCTCCTGT GCTGCGAGTC CTGCCCGGCC GCCTTCCACC CCGACTGCCT GAACATCGAC 
ATGCCCGACG GCAGCTGGTT CTGCAATGAC TGCCGGGCCG GGAAGAAGCT GCATTTCCAG 
GACATCATCT GGGTGAAGCT CGGGAACTAC AGATGGTGGC CGGCAGAAGT TTGCCATCCC 
AAAAATGTCC CCCCAAATAT TCAGAAACTG AAGCACGAGA TTGGAGAATT CCCTGTGTTT 
TTCTTTGGGT CTAAAGATTA TTACTGGACG CATCAGGCGC GAGTGTTCCC GTACATGGAG 
GGGGACCGGG GCAGCCGTTA CCAGGGGGTC AGAGGGATCG GAAGAGTCTT CAAAAACGCA 
CTGCAGGAAG CTGAAGCTCG TTTTCGTGAA ATCAAACTTC AGAGGGAAGC CAGAGAAACG 
CAGGAGAATG AGCGCAAGCC CCCGCCATAC AAGCACATCA AGGTGAATAA GCCTTATGGG 
AAAGTCCAGA TCTATACAGC TGATATTTCT GAAATCCCGA AGTGCAACTG TAAGCCCACA 
GATGAGAATC CCTGTGGCTT TGACTCGGAG TGCTTGAACA GGATGCTGAT GTTTGAGTGC 
CACCCGCAGG TGTGTCCTGC AGGCGAGTAC TGCCAGAACC AGTGTTTCAC CAAGCGCCAG 
TACCCCGAGA CCAAGATCAT CAAGACAGAT GGCAAAGGAT GGGGCCTGGT TGCCAAGCGG 
GACATTAGAA AGGGAGAATT TGTGAACGAG TACGTTGGCG AGCTGATTGA CGAGGAGGAG 
TGCATGGCAA GAATCAAATA CGCGCACGAG AACGACATCA CCCACTTCTA CATGCTCACC 
ATAGACAAGG ACCGTATAAT AGATGCTGGC CCCAAAGGAA ACTATTCCCG ATTTATGAAC 
CACAGCTGCC AGCCCAACTG TGAGACCCTC AAGTGGACAG TGAATGGTGA CACTCGCGTG 
GGCCTGTTTG CAGTGTGTGA CATTCCTGCA GGGACAGAGC TGACCTTCAA CTACAACCTC 
GATTGTTTGG GTAACGAGAA AACAGTCTGT CGGTGTGGGG CCTCCAACTG CAGCGGGTTC 
CTCGGGGACA GACCGAAGAC CTCAACATCC CTTTCTTCAG AGGAAAAGGG CAAAAAGACG 
AAGAAAAGAA CCAGGAGGCG GAGAACCAGA GGTGAAGGGA AGAAGGAGTC CGAGGACGAG 
TGTTTCCGCT GTGGAGACGG CGGCCAGCTG GTGCTCTGTG ACCGCAAGTC CTGCACCAAG 
GCCTACCACC TGTCGTGCCT AGGCCTGGGC AAGCGGCCCT TCGGAAAGTG GGAATGTCCT 
TGGCATCATT GTGACGTGTG CGGCAAACCT TCCACTGTGT TTTGCCACTT TTGCCCCAAT 
TCGTTTTGCA AGGAACACCA AGACGGGACA GCCTTCAGCT CCACCCAGGA CGGGCGGTCA 
TACTGCTATG AGCACGACTT GGGGGCAGAG TCAGCTCGAA GCGCCAAGAC TGAGAAACCC 
TTCCCGGAAC CCACCAAGTC CAAGGGGAAA AGGAAGAAAA GGAGGTGCTG GCGGAGGGTC 
ATGGAAGGAA AATAG

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

RefSeq	XP_019652312.1
CDS	1..4095
Translation	MEFSIKnullSPLSVQKVVKCVKMKQAPEILGNTNGKTQNCEVNRECSVFLSKAHLSTSLQEGVMQKFNGHDALPFIPSEKLKDLTSRVFNGEPGAHDAKLRFESQEGKGLGTPPNTTPIKNGSPEIKLKITKTYMNGKPLFESSICGDGAAAVSQSEENGQKPENKARRSRKRSIKYDSLLEQGLVEAALVSKISSPSDKKIAAKKESCPNTGRDKDHLLKYNVGDLVWSKVSGYPWWPCMVSADPLLHNYTKLKGQKKSARQYHVQFFGDAPERAWIFEKSLVAFEGEGQFEKLCQESAKQAPTKAEKIKLLKPISGKLRAQWEMGIVQAEEAASMSVEERKAKFTFLYVGDQLHLNPHVAKEASIAMESPGQMVESSGVIEEAADNPKSMREEGIPLKRRRRAKLSSSAENQESDPGTVKSTPQKMAEADPKRGVGSPPGRKKTTASAPRSRKGDAASQFLVFCQKHRDEVVAEHPDASGEEIEELLGSQWDMLNEKQKARYNTKFALVASSQSEEDSGNINGKKRNHPKRTQDPTEDAEVEDAPRKRLRTDKHGLRKRETINDKTARTSSCKAIEAAASLKSQAATKHLSDACKPLKKRNRASAAAPSTPFSKSSSPSASLTENEVSDGPGDEPLESPYESADETQTEVSVSSKKSERGVTAKKEYVCQLCEKTGSLVLCEGPCCGAFHLACLGLSRRPEGRFTCSECASGIHSCFVCKESKTDVKRCVVSQCGKFYHEACVRKYPLTVFESRGFRCPLHSCVSCHASNPSNPRPSKGKMMRCVRCPVAYHGGDACLAAGCSVIASNSIICTGHFTARKGKRHHAHVNVSWCFVCSKGGSLLCCESCPAAFHPDCLNIDMPDGSWFCNDCRAGKKLHFQDIIWVKLGNYRWWPAEVCHPKNVPPNIQKLKHEIGEFPVFFFGSKDYYWTHQARVFPYMEGDRGSRYQGVRGIGRVFKNALQEAEARFREIKLQREARETQENERKPPPYKHIKVNKPYGKVQIYTADISEIPKCNCKPTDENPCGFDSECLNRMLMFECHPQVCPAGEYCQNQCFTKRQYPETKIIKTDGKGWGLVAKRDIRKGEFVNEYVGELIDEEECMARIKYAHENDITHFYMLTIDKDRIIDAGPKGNYSRFMNHSCQPNCETLKWTVNGDTRVGLFAVCDIPAGTELTFNYNLDCLGNEKTVCRCGASNCSGFLGDRPKTSTSLSSEEKGKKTKKRTRRRRTRGEGKKESEDECFRCGDGGQLVLCDRKSCTKAYHLSCLGLGKRPFGKWECPWHHCDVCGKPSTVFCHFCPNSFCKEHQDGTAFSSTQDGRSYCYEHDLGAESARSAKTEKPFPEPTKSKGKRKKRRCWRRVMEGK

Target ORF information:

RefSeq Version	XM_019796753.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca nuclear receptor binding SET domain protein 2 (NSD2), mRNA.

Target ORF information:

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

XM_019796753.1

ORF Insert Sequence:

ATGGAATTTA GCATCAAANA AAGTCCTCTT TCTGTTCAGA AAGTTGTAAA GTGCGTAAAG 
ATGAAGCAGG CACCAGAAAT CCTTGGCAAT ACAAATGGAA AGACTCAGAA CTGTGAAGTG 
AATCGTGAAT GTTCTGTATT CCTCAGCAAA GCCCACCTCT CTACCAGTCT GCAGGAGGGG 
GTCATGCAAA AATTTAATGG CCATGATGCA CTTCCATTTA TTCCATCTGA GAAGCTGAAA 
GACCTAACTT CCCGTGTATT TAATGGAGAA CCTGGTGCTC ATGATGCCAA ATTACGTTTT 
GAGTCCCAAG AAGGGAAAGG ACTCGGGACA CCACCTAACA CCACCCCTAT CAAAAATGGC 
TCTCCGGAAA TTAAGCTGAA GATCACCAAA ACATACATGA ATGGGAAGCC TCTCTTTGAA 
TCTTCAATTT GTGGTGACGG TGCTGCTGCT GTGTCCCAGT CAGAAGAAAA TGGACAAAAA 
CCAGAAAATA AGGCAAGAAG GAGCAGGAAG AGAAGCATAA AATATGACTC CTTACTGGAG 
CAGGGTCTTG TTGAAGCAGC ACTGGTGTCC AAGATCTCAA GTCCCTCAGA TAAAAAGATT 
GCAGCTAAGA AAGAGTCCTG TCCAAATACT GGCAGAGACA AAGACCACCT GTTGAAATAT 
AATGTCGGTG ATTTGGTGTG GTCCAAAGTG TCCGGTTACC CTTGGTGGCC ATGCATGGTT 
TCTGCTGATC CACTTCTTCA CAACTATACC AAACTTAAAG GTCAGAAAAA GAGTGCACGC 
CAGTATCACG TACAGTTCTT TGGTGATGCC CCAGAAAGAG CTTGGATATT TGAGAAGAGC 
CTTGTAGCTT TTGAAGGAGA AGGACAGTTT GAAAAATTAT GCCAGGAAAG TGCCAAGCAG 
GCACCCACGA AAGCTGAGAA AATTAAGCTG TTGAAACCTA TTTCAGGGAA ATTGAGGGCC 
CAGTGGGAAA TGGGCATCGT TCAAGCAGAG GAAGCTGCAA GCATGTCAGT AGAGGAGCGG 
AAAGCTAAGT TCACTTTCCT CTACGTGGGG GACCAGCTTC ATCTCAACCC TCACGTAGCT 
AAGGAGGCAA GCATTGCTAT GGAGTCTCCG GGACAAATGG TAGAATCCTC AGGAGTCATT 
GAAGAAGCTG CTGATAACCC CAAGTCCATG AGAGAAGAGG GCATTCCCCT TAAGAGAAGG 
CGGAGAGCCA AGCTGTCGAG TTCTGCCGAA AACCAAGAAA GTGACCCTGG GACAGTAAAG 
AGTACTCCTC AGAAGATGGC AGAGGCCGAC CCCAAGAGAG GAGTAGGGTC TCCTCCTGGA 
AGGAAGAAGA CCACGGCCTC CGCTCCTCGA AGCAGGAAGG GAGATGCGGC ATCCCAGTTT 
TTGGTTTTCT GTCAGAAGCA CAGGGACGAG GTTGTTGCTG AGCACCCAGA CGCCTCGGGT 
GAGGAGATTG AAGAGCTCCT TGGATCCCAG TGGGACATGC TCAACGAGAA ACAGAAAGCA 
CGCTATAACA CAAAGTTTGC CCTAGTGGCC TCTTCCCAGT CTGAAGAAGA CTCTGGTAAC 
ATAAATGGGA AAAAAAGAAA CCACCCAAAG AGGACACAGG ACCCTACTGA AGACGCCGAG 
GTTGAAGACG CACCCAGGAA AAGACTCAGG ACCGACAAGC ATGGTCTTCG GAAGAGAGAG 
ACGATCAATG ACAAGACAGC CCGAACAAGC TCTTGCAAGG CAATCGAGGC AGCCGCCTCG 
CTGAAGAGCC AGGCAGCAAC GAAACATCTG TCAGATGCAT GCAAACCGCT GAAGAAGAGA 
AATCGGGCGT CCGCAGCAGC GCCTTCCACT CCTTTTAGCA AAAGTTCGTC TCCTTCTGCA 
TCCTTAACTG AGAATGAGGT CTCAGACGGC CCAGGAGACG AGCCCTTGGA ATCCCCCTAT 
GAGAGCGCAG ATGAAACTCA GACCGAAGTG TCCGTCTCAT CGAAGAAGTC TGAGCGAGGA 
GTAACCGCCA AAAAGGAGTA CGTGTGTCAG CTGTGTGAGA AGACCGGCAG CCTCGTGCTC 
TGTGAAGGCC CCTGCTGCGG AGCCTTCCAC CTCGCCTGCC TTGGGCTCTC CCGGAGGCCG 
GAAGGGAGGT TCACCTGCAG CGAATGTGCT TCAGGGATTC ACTCATGTTT TGTGTGTAAG 
GAGAGCAAGA CAGACGTGAA GCGCTGTGTC GTATCACAGT GTGGGAAGTT TTACCACGAA 
GCTTGCGTGA GGAAGTACCC TCTGACTGTG TTTGAGAGCC GAGGCTTCCG CTGCCCGCTC 
CACAGCTGCG TGAGCTGCCA TGCTTCCAAC CCTTCCAACC CAAGACCATC GAAAGGTAAA 
ATGATGCGGT GTGTCCGCTG CCCTGTCGCC TATCACGGAG GGGATGCTTG TCTGGCAGCC 
GGCTGCTCAG TGATAGCTTC CAACAGCATC ATCTGCACGG GCCATTTCAC TGCTCGCAAG 
GGGAAGAGGC ATCATGCTCA TGTCAATGTG AGCTGGTGTT TTGTGTGCTC CAAAGGGGGA 
AGCCTCCTGT GCTGCGAGTC CTGCCCGGCC GCCTTCCACC CCGACTGCCT GAACATCGAC 
ATGCCCGACG GCAGCTGGTT CTGCAATGAC TGCCGGGCCG GGAAGAAGCT GCATTTCCAG 
GACATCATCT GGGTGAAGCT CGGGAACTAC AGATGGTGGC CGGCAGAAGT TTGCCATCCC 
AAAAATGTCC CCCCAAATAT TCAGAAACTG AAGCACGAGA TTGGAGAATT CCCTGTGTTT 
TTCTTTGGGT CTAAAGATTA TTACTGGACG CATCAGGCGC GAGTGTTCCC GTACATGGAG 
GGGGACCGGG GCAGCCGTTA CCAGGGGGTC AGAGGGATCG GAAGAGTCTT CAAAAACGCA 
CTGCAGGAAG CTGAAGCTCG TTTTCGTGAA ATCAAACTTC AGAGGGAAGC CAGAGAAACG 
CAGGAGAATG AGCGCAAGCC CCCGCCATAC AAGCACATCA AGGTGAATAA GCCTTATGGG 
AAAGTCCAGA TCTATACAGC TGATATTTCT GAAATCCCGA AGTGCAACTG TAAGCCCACA 
GATGAGAATC CCTGTGGCTT TGACTCGGAG TGCTTGAACA GGATGCTGAT GTTTGAGTGC 
CACCCGCAGG TGTGTCCTGC AGGCGAGTAC TGCCAGAACC AGTGTTTCAC CAAGCGCCAG 
TACCCCGAGA CCAAGATCAT CAAGACAGAT GGCAAAGGAT GGGGCCTGGT TGCCAAGCGG 
GACATTAGAA AGGGAGAATT TGTGAACGAG TACGTTGGCG AGCTGATTGA CGAGGAGGAG 
TGCATGGCAA GAATCAAATA CGCGCACGAG AACGACATCA CCCACTTCTA CATGCTCACC 
ATAGACAAGG ACCGTATAAT AGATGCTGGC CCCAAAGGAA ACTATTCCCG ATTTATGAAC 
CACAGCTGCC AGCCCAACTG TGAGACCCTC AAGTGGACAG TGAATGGTGA CACTCGCGTG 
GGCCTGTTTG CAGTGTGTGA CATTCCTGCA GGGACAGAGC TGACCTTCAA CTACAACCTC 
GATTGTTTGG GTAACGAGAA AACAGTCTGT CGGTGTGGGG CCTCCAACTG CAGCGGGTTC 
CTCGGGGACA GACCGAAGAC CTCAACATCC CTTTCTTCAG AGGAAAAGGG CAAAAAGACG 
AAGAAAAGAA CCAGGAGGCG GAGAACCAGA GGTGAAGGGA AGAAGGAGTC CGAGGACGAG 
TGTTTCCGCT GTGGAGACGG CGGCCAGCTG GTGCTCTGTG ACCGCAAGTC CTGCACCAAG 
GCCTACCACC TGTCGTGCCT AGGCCTGGGC AAGCGGCCCT TCGGAAAGTG GGAATGTCCT 
TGGCATCATT GTGACGTGTG CGGCAAACCT TCCACTGTGT TTTGCCACTT TTGCCCCAAT 
TCGTTTTGCA AGGAACACCA AGACGGGACA GCCTTCAGCT CCACCCAGGA CGGGCGGTCA 
TACTGCTATG AGCACGACTT GGGGGCAGAG TCAGCTCGAA GCGCCAAGAC TGAGAAACCC 
TTCCCGGAAC CCACCAAGTC CAAGGGGAAA AGGAAGAAAA GGAGGTGCTG GCGGAGGGTC 
ATGGAAGGAA AATAG

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

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NSD2 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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