MAPK8IP3 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	MAPK8IP3
Entrez Gene ID	100467835
Full Name	mitogen-activated protein kinase 8 interacting protein 3
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019800629.1	XP_019656188.1	LOW QUALITY PROTEIN: C-Jun-amino-terminal kinase-interacting protein 3

Pathways from BioSystems
Gene Ontology

The following MAPK8IP3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MAPK8IP3 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
OAc93476	XM_019800629.1 Latest version!	Ailuropoda melanoleuca mitogen-activated protein kinase 8 interacting protein 3 (MAPK8IP3), 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)

MAPK8IP3 ( XM_019800629.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019656188.1 Ailuropoda melanoleuca mitogen-activated protein kinase 8 interacting protein 3 (MAPK8IP3), mRNA.

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CloneID	OAc93476
Clone ID Related Accession (Same CDS sequence)	XM_019800629.1
Accession Version	XM_019800629.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4110bp) 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: C-Jun-amino-terminal kinase-interacting protein 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217683.1) 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## ab initio :: 4% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGATGGAGA TCCAGATGGA CGAGGGCGGC GGCGTGGTGG TGTACCAGGA CGACTACTGC 
TCCGGCTCGG TGATGTCGGA GCGGGTGTCG GGCCTGGCGG GCTCCATCTA CCGCGAGTTC 
GAGCGCCTCA TCCACTGCTA CGACGAGGAG GTGGTCAAGG AGCTCATGCC GCTCGTGGTC 
AACGTGCTGG AGAACCTGGA CTCGGTGCTC AGCGAGAACC AGGAGCACGA GGTGGAGCTG 
GAGCTGCTGC GCGAGGACAA CGAGCAGCTG CTCACCCAGT ACGAGCGGGA GAAGGCGCTG 
CGCAAGCAGG CCGAGGAGAA ATTCATCGAG TTTGAAGATG CCTTGGAACA AGAGAAGAAG 
GAACTACAAA TCCAGGTGGA GCACTGTGAG TTTCAGACCC GCCAGCTGGA GCTGAAAGCC 
AAGAACTATG CAGATCAGAT TTCCCGGTTG GAGGAGCGAG AGTCGGAGAT GAAGAAGGAG 
TACAACGCTT TGCACCAGCG ACACACGGAG ATGATCCAGA CCTACGTGGA ACATATCGAG 
AGGTCCAAGA TGCAGCAAGT CGGGGGAAAC AGTCAAACCG AGGGCAGCCT GCCGGGGAGG 
AGTCCTCGCC AGTCGTGGAG GAAAAGCAGG AAGGAGCGCC CCACCTCTCT GAATGTCTTC 
CCCCTGGCCG ACGGCATGTG TCCACAGGAT GAGATGTCCG AGTCAGGCCA GTCTTCGGCG 
GCTGCCACAC CCAGCACCAC GGGCACCAAG TCCAACACGC CCACGTCCTC CGTGCCCTCG 
GCCGCGGTCA CACCGCTCAA CGAGAGCCTG CAGCCCCTGG GGGACTACAG CGCCGGCACG 
AAGAGCAGCA AGCGGGCACG GGAGAAGCGC AACAGCCGCA GCCGCAACAT GGAGGTCCAG 
GTCACGCAGG AGATGCGGAA CGTCAGCATA GGCATGGGCA GCAGTGATGA GTGGTCTGAT 
GTTCAAGACA TTATTGATTC CACCCCAGAG CTGGACATGG GTCGGGAACC CCGTCTTGAT 
CGCACGGGCA ACAGCCCAAC CCAGGGGATC GTGAACAAGG CTTTTGGCAT CAACACTGAC 
TCCCTGTACC ACGAGCTGTC GACTGCAGGG TCAGAGGTCA TCGGGGACGT GGATGAAGGA 
GCCGACCTGC TAGGGGAGTT CTCAGTGCGC CATGATTTCT TTGGAATGGG CAAGGAAGTG 
GGGAATCTGC TGCTGGAGAA CTCACAGCTT CTGGAAACCA AAAATGCTCT GAATGTGGTG 
AAGAATGACC TCATTGCCAA GGTGGACCAG CTGTCCGGGG AGCAGGAGGT GCTCAGGGGG 
GACTTGGAAG CCGCCAGGCA GGCCAAACTC AGGCTGGAGG GCCGCATCAA GGACCTGGAG 
GAGGAGCTGA GGAGAGTGAA GTCCGAGGCC GTCACTGCCC GCCGTGAGCC CAAAGAAGAC 
GTGGAGGATG TAAGCAGCTA TCTCTGTACA GAACTGGACA AGGTCCCCAT GGCACAGCGT 
CGTCGCTTCA CGCGGGTGGA GATGGCCCGT GTGCTCATGG AGCGCAACCA GTACAAGGAG 
AGGTTGATGG AGCTCCAGGA GGCCGTGCGG TGGACCGAGA TGATTAGAGC ATCCCGAGAG 
CATCCGTCTG TCCAGGAGAA GAAGAAGTCC ACCATCTGGC AGTTCTTCAG CCGCCTCTTC 
AGCTCCTCGT CCAGCCCCCC TCCGGCCAAG CGGTCCTATC CCTCGGTGAA CATCCATTAC 
AAGTCTCCCA CCACGGCCGG CTTCAGCCAG CGCCGCAGCC ACGCCATGTG CCCCATCTCT 
GCTGGCAGCC GGCCTCTGGA GTTCTTCCCT GATGATGACT GCACGTCCTC CGCCCGCNCC 
GGAGAGCAGT ACCGCCAGGT GCGCGAGCAC GTGCGCAACG ACGATGGGCG GCTGCAGGCC 
TGCGGCTGGA GCCTCTCTGC CTTGTGGTTG CAGCTGAGTC CCAATGGAGG CCAGGAGGAC 
ACGCGGATGA AGAATGTGCC TGTCCCCGTG TACTGCCGCC CTCTGGTGGA GAAAGATCCA 
ACCATGAAGC TGTGGTGTGC CGCGGGTGTC AACCTGAGTG GGTGGAAACC GAGTGAGGAC 
GACTCTGGGA ACGGAGTCAA GCCCATGCCA GGCCGTGACC CTCTGACCTG TGACCGGGAA 
GTGGAAGGAG AGACCAAGAG CAATCACACG TCCCCCGAAA AGAAGGCGAA GGAGCTCCCC 
GAGCCGGACG CCACGTGCAG CCGTGTGTGG ATCCTCACCA GCACCCTGAC CACCAGCAAA 
GTGGTCATCA TCGATGCCAA CCAGCCCGGC ACCGTGGTGG ACCAGTTCAC CGTCTGCAAT 
GCCCACGTCC TGTGCATCTC CAGCATTCCA GCGGCCAGTG ACAGTGACTA CCCTCCGGGG 
GAGATCTTCC TGGACAGTGA CGTGAACCCT GAGGATTCCG GTGCCGACGG CGTGCTGGCG 
GGCATCACCC TCGTGGGCTG CGCCACCCGT TGCAACGTGC CCCGCAGCAA CTGCTCCTCC 
CGGGGGGACA CTCCAGTGCT GGACAAGGGC CAGGGGGAGG TGGCTACTGT CGCCAACGGA 
AAGGTCAACC CATCTCAGTC CACGGAGGAA GCCACGGAAG CCACGGAGGT GCCAGACTCT 
GGGCCCAGTG AGACAGAGGC AGCCGCGGTG CGGCCTGGGC CCCTCACGGA GCATGTCTTC 
ACCGATCTGG CCCCTACCCC GGCCCCCAGC ACCCAGCCTG GCAGCGAGAA TGGGTCGGAG 
GCCGACACAG GTGGGGTGCA GCCCGAGCCG GAGCCCAGCG CAGACCCCGC AGGGGCCAGC 
AATAGCGCTG CCCCAACCAT GTGGCTGGGA GCCCAGAACG GCTGGCTCTA CGTGCACTCA 
GCCGTGGCCA ACTGGAAGAA GTGTCTGCAC TCCATCAAGC TGAAGGACTC CGTGCTGAGC 
CTGGTGCACG TGAAAGGGCG AGTACTGGTG GCCCTGGCCG ACGGGACACT GGCCATCTTC 
CACCGAGGCG AAGACGGCCA GTGGGACCTG AGCAACTACC ACCTGATGGA CCTCGGCCAC 
CCCCACCACT CCATCCGCTG CATGGCTGTC GTGTGCGACC GCGTCTGGTG CGGCTACAAG 
AATAAGGTGC ACGTCATCCA GCCCAAGACA ATGCAGATCG AGAAATCATT CGATGCCCAC 
CCGCGGCGGG AGAGCCAGGT GCGGCAGCTG GCGTGGATCG GCGACGGCGT GTGGGTGTCC 
ATCCGCTTGG ACTCCACGCT GCGGCTCTAC CACGCTCACA CCCACCAGCA CCTGCAGGAC 
GTGGACATCG AGCCCTATGT CAGCAAGATG CTGGGCACAG GCAAGCTGGG CTTCTCCTTC 
GTGCGCATCA CAGCCCTGCT CATTGCGGGC AACCGCCTCT GGGTGGGCAC CGGCAACGGA 
GTGGTTATCT CCATCCCGCT GACCGAGACC GTGGTCCTGC ACCGAGGCCA GCTCCTGGGG 
CTCCGAGCCA ACAAAACGTC CCCCACGTCT GGGGAGGGAG CCCGCCCAGG GGGCGTCATC 
CACGTGTATG GCGACGACAG CAGTGACAAG TCGGCCAGCA GCTTCATCCC CTACTGCTCA 
ATGGCCCAGG CTCAGCTCTG TTTCCACGGG CACCGCGATG CTGTCAAATT TTTTGTGTCT 
GTGCCAGGGA ACGTGCTGGC TACTCTCAAC GGCAGCGTGC TCGACAGCCC GTCTGAGAGC 
CCCGGGCCCG CCGCCCCGGC CTCAGACACC GAGGGCCAGA AGCTGCAGAA CGTGCTGGTG 
CTGAGCGGTG GGGAGGGTTA CATCGACTTC CGTATCGGAG ACGGAGAGGA TGACGACACA 
GAGGAGAGCA CCGGGGACGT GAGCCAGGTG AAGCCCCTGC TGTCCAAGGC AGAGCGCAGC 
CACATCATCG TGTGGCAGGT GTCCTCCGCC CCTCTTATAA CCTCTCAAGC TGCAGCTTTC 
ACCTTAGGGC CAGGCCTCTT CGAGGGCGGA CCGCAGCGCG GGTCTGGCTG GGAGGGCGGA 
CCCCCCAAGG CAGCAAGCAG GGACTTCAGC CCGCCAAGTC TTCCCAGCCA GAGCCCACCT 
GCCTTTGCCT GCTGCCTGAA GGGGTGGTAG

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

RefSeq	XP_019656188.1
CDS	1..4110
Translation	MMEIQMDEGGGVVVYQDDYCSGSVMSERVSGLAGSIYREFERLIHCYDEEVVKELMPLVVNVLENLDSVLSENQEHEVELELLREDNEQLLTQYEREKALRKQAEEKFIEFEDALEQEKKELQIQVEHCEFQTRQLELKAKNYADQISRLEERESEMKKEYNALHQRHTEMIQTYVEHIERSKMQQVGGNSQTEGSLPGRSPRQSWRKSRKERPTSLNVFPLADGMCPQDEMSESGQSSAAATPSTTGTKSNTPTSSVPSAAVTPLNESLQPLGDYSAGTKSSKRAREKRNSRSRNMEVQVTQEMRNVSIGMGSSDEWSDVQDIIDSTPELDMGREPRLDRTGNSPTQGIVNKAFGINTDSLYHELSTAGSEVIGDVDEGADLLGEFSVRHDFFGMGKEVGNLLLENSQLLETKNALNVVKNDLIAKVDQLSGEQEVLRGDLEAARQAKLRLEGRIKDLEEELRRVKSEAVTARREPKEDVEDVSSYLCTELDKVPMAQRRRFTRVEMARVLMERNQYKERLMELQEAVRWTEMIRASREHPSVQEKKKSTIWQFFSRLFSSSSSPPPAKRSYPSVNIHYKSPTTAGFSQRRSHAMCPISAGSRPLEFFPDDDCTSSARnullGEQYRQVREHVRNDDGRLQACGWSLSALWLQLSPNGGQEDTRMKNVPVPVYCRPLVEKDPTMKLWCAAGVNLSGWKPSEDDSGNGVKPMPGRDPLTCDREVEGETKSNHTSPEKKAKELPEPDATCSRVWILTSTLTTSKVVIIDANQPGTVVDQFTVCNAHVLCISSIPAASDSDYPPGEIFLDSDVNPEDSGADGVLAGITLVGCATRCNVPRSNCSSRGDTPVLDKGQGEVATVANGKVNPSQSTEEATEATEVPDSGPSETEAAAVRPGPLTEHVFTDLAPTPAPSTQPGSENGSEADTGGVQPEPEPSADPAGASNSAAPTMWLGAQNGWLYVHSAVANWKKCLHSIKLKDSVLSLVHVKGRVLVALADGTLAIFHRGEDGQWDLSNYHLMDLGHPHHSIRCMAVVCDRVWCGYKNKVHVIQPKTMQIEKSFDAHPRRESQVRQLAWIGDGVWVSIRLDSTLRLYHAHTHQHLQDVDIEPYVSKMLGTGKLGFSFVRITALLIAGNRLWVGTGNGVVISIPLTETVVLHRGQLLGLRANKTSPTSGEGARPGGVIHVYGDDSSDKSASSFIPYCSMAQAQLCFHGHRDAVKFFVSVPGNVLATLNGSVLDSPSESPGPAAPASDTEGQKLQNVLVLSGGEGYIDFRIGDGEDDDTEESTGDVSQVKPLLSKAERSHIIVWQVSSAPLITSQAAAFTLGPGLFEGGPQRGSGWEGGPPKAASRDFSPPSLPSQSPPAFACCLKGW

Target ORF information:

RefSeq Version	XM_019800629.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca mitogen-activated protein kinase 8 interacting protein 3 (MAPK8IP3), mRNA.

Target ORF information:

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

XM_019800629.1

ORF Insert Sequence:

ATGATGGAGA TCCAGATGGA CGAGGGCGGC GGCGTGGTGG TGTACCAGGA CGACTACTGC 
TCCGGCTCGG TGATGTCGGA GCGGGTGTCG GGCCTGGCGG GCTCCATCTA CCGCGAGTTC 
GAGCGCCTCA TCCACTGCTA CGACGAGGAG GTGGTCAAGG AGCTCATGCC GCTCGTGGTC 
AACGTGCTGG AGAACCTGGA CTCGGTGCTC AGCGAGAACC AGGAGCACGA GGTGGAGCTG 
GAGCTGCTGC GCGAGGACAA CGAGCAGCTG CTCACCCAGT ACGAGCGGGA GAAGGCGCTG 
CGCAAGCAGG CCGAGGAGAA ATTCATCGAG TTTGAAGATG CCTTGGAACA AGAGAAGAAG 
GAACTACAAA TCCAGGTGGA GCACTGTGAG TTTCAGACCC GCCAGCTGGA GCTGAAAGCC 
AAGAACTATG CAGATCAGAT TTCCCGGTTG GAGGAGCGAG AGTCGGAGAT GAAGAAGGAG 
TACAACGCTT TGCACCAGCG ACACACGGAG ATGATCCAGA CCTACGTGGA ACATATCGAG 
AGGTCCAAGA TGCAGCAAGT CGGGGGAAAC AGTCAAACCG AGGGCAGCCT GCCGGGGAGG 
AGTCCTCGCC AGTCGTGGAG GAAAAGCAGG AAGGAGCGCC CCACCTCTCT GAATGTCTTC 
CCCCTGGCCG ACGGCATGTG TCCACAGGAT GAGATGTCCG AGTCAGGCCA GTCTTCGGCG 
GCTGCCACAC CCAGCACCAC GGGCACCAAG TCCAACACGC CCACGTCCTC CGTGCCCTCG 
GCCGCGGTCA CACCGCTCAA CGAGAGCCTG CAGCCCCTGG GGGACTACAG CGCCGGCACG 
AAGAGCAGCA AGCGGGCACG GGAGAAGCGC AACAGCCGCA GCCGCAACAT GGAGGTCCAG 
GTCACGCAGG AGATGCGGAA CGTCAGCATA GGCATGGGCA GCAGTGATGA GTGGTCTGAT 
GTTCAAGACA TTATTGATTC CACCCCAGAG CTGGACATGG GTCGGGAACC CCGTCTTGAT 
CGCACGGGCA ACAGCCCAAC CCAGGGGATC GTGAACAAGG CTTTTGGCAT CAACACTGAC 
TCCCTGTACC ACGAGCTGTC GACTGCAGGG TCAGAGGTCA TCGGGGACGT GGATGAAGGA 
GCCGACCTGC TAGGGGAGTT CTCAGTGCGC CATGATTTCT TTGGAATGGG CAAGGAAGTG 
GGGAATCTGC TGCTGGAGAA CTCACAGCTT CTGGAAACCA AAAATGCTCT GAATGTGGTG 
AAGAATGACC TCATTGCCAA GGTGGACCAG CTGTCCGGGG AGCAGGAGGT GCTCAGGGGG 
GACTTGGAAG CCGCCAGGCA GGCCAAACTC AGGCTGGAGG GCCGCATCAA GGACCTGGAG 
GAGGAGCTGA GGAGAGTGAA GTCCGAGGCC GTCACTGCCC GCCGTGAGCC CAAAGAAGAC 
GTGGAGGATG TAAGCAGCTA TCTCTGTACA GAACTGGACA AGGTCCCCAT GGCACAGCGT 
CGTCGCTTCA CGCGGGTGGA GATGGCCCGT GTGCTCATGG AGCGCAACCA GTACAAGGAG 
AGGTTGATGG AGCTCCAGGA GGCCGTGCGG TGGACCGAGA TGATTAGAGC ATCCCGAGAG 
CATCCGTCTG TCCAGGAGAA GAAGAAGTCC ACCATCTGGC AGTTCTTCAG CCGCCTCTTC 
AGCTCCTCGT CCAGCCCCCC TCCGGCCAAG CGGTCCTATC CCTCGGTGAA CATCCATTAC 
AAGTCTCCCA CCACGGCCGG CTTCAGCCAG CGCCGCAGCC ACGCCATGTG CCCCATCTCT 
GCTGGCAGCC GGCCTCTGGA GTTCTTCCCT GATGATGACT GCACGTCCTC CGCCCGCNCC 
GGAGAGCAGT ACCGCCAGGT GCGCGAGCAC GTGCGCAACG ACGATGGGCG GCTGCAGGCC 
TGCGGCTGGA GCCTCTCTGC CTTGTGGTTG CAGCTGAGTC CCAATGGAGG CCAGGAGGAC 
ACGCGGATGA AGAATGTGCC TGTCCCCGTG TACTGCCGCC CTCTGGTGGA GAAAGATCCA 
ACCATGAAGC TGTGGTGTGC CGCGGGTGTC AACCTGAGTG GGTGGAAACC GAGTGAGGAC 
GACTCTGGGA ACGGAGTCAA GCCCATGCCA GGCCGTGACC CTCTGACCTG TGACCGGGAA 
GTGGAAGGAG AGACCAAGAG CAATCACACG TCCCCCGAAA AGAAGGCGAA GGAGCTCCCC 
GAGCCGGACG CCACGTGCAG CCGTGTGTGG ATCCTCACCA GCACCCTGAC CACCAGCAAA 
GTGGTCATCA TCGATGCCAA CCAGCCCGGC ACCGTGGTGG ACCAGTTCAC CGTCTGCAAT 
GCCCACGTCC TGTGCATCTC CAGCATTCCA GCGGCCAGTG ACAGTGACTA CCCTCCGGGG 
GAGATCTTCC TGGACAGTGA CGTGAACCCT GAGGATTCCG GTGCCGACGG CGTGCTGGCG 
GGCATCACCC TCGTGGGCTG CGCCACCCGT TGCAACGTGC CCCGCAGCAA CTGCTCCTCC 
CGGGGGGACA CTCCAGTGCT GGACAAGGGC CAGGGGGAGG TGGCTACTGT CGCCAACGGA 
AAGGTCAACC CATCTCAGTC CACGGAGGAA GCCACGGAAG CCACGGAGGT GCCAGACTCT 
GGGCCCAGTG AGACAGAGGC AGCCGCGGTG CGGCCTGGGC CCCTCACGGA GCATGTCTTC 
ACCGATCTGG CCCCTACCCC GGCCCCCAGC ACCCAGCCTG GCAGCGAGAA TGGGTCGGAG 
GCCGACACAG GTGGGGTGCA GCCCGAGCCG GAGCCCAGCG CAGACCCCGC AGGGGCCAGC 
AATAGCGCTG CCCCAACCAT GTGGCTGGGA GCCCAGAACG GCTGGCTCTA CGTGCACTCA 
GCCGTGGCCA ACTGGAAGAA GTGTCTGCAC TCCATCAAGC TGAAGGACTC CGTGCTGAGC 
CTGGTGCACG TGAAAGGGCG AGTACTGGTG GCCCTGGCCG ACGGGACACT GGCCATCTTC 
CACCGAGGCG AAGACGGCCA GTGGGACCTG AGCAACTACC ACCTGATGGA CCTCGGCCAC 
CCCCACCACT CCATCCGCTG CATGGCTGTC GTGTGCGACC GCGTCTGGTG CGGCTACAAG 
AATAAGGTGC ACGTCATCCA GCCCAAGACA ATGCAGATCG AGAAATCATT CGATGCCCAC 
CCGCGGCGGG AGAGCCAGGT GCGGCAGCTG GCGTGGATCG GCGACGGCGT GTGGGTGTCC 
ATCCGCTTGG ACTCCACGCT GCGGCTCTAC CACGCTCACA CCCACCAGCA CCTGCAGGAC 
GTGGACATCG AGCCCTATGT CAGCAAGATG CTGGGCACAG GCAAGCTGGG CTTCTCCTTC 
GTGCGCATCA CAGCCCTGCT CATTGCGGGC AACCGCCTCT GGGTGGGCAC CGGCAACGGA 
GTGGTTATCT CCATCCCGCT GACCGAGACC GTGGTCCTGC ACCGAGGCCA GCTCCTGGGG 
CTCCGAGCCA ACAAAACGTC CCCCACGTCT GGGGAGGGAG CCCGCCCAGG GGGCGTCATC 
CACGTGTATG GCGACGACAG CAGTGACAAG TCGGCCAGCA GCTTCATCCC CTACTGCTCA 
ATGGCCCAGG CTCAGCTCTG TTTCCACGGG CACCGCGATG CTGTCAAATT TTTTGTGTCT 
GTGCCAGGGA ACGTGCTGGC TACTCTCAAC GGCAGCGTGC TCGACAGCCC GTCTGAGAGC 
CCCGGGCCCG CCGCCCCGGC CTCAGACACC GAGGGCCAGA AGCTGCAGAA CGTGCTGGTG 
CTGAGCGGTG GGGAGGGTTA CATCGACTTC CGTATCGGAG ACGGAGAGGA TGACGACACA 
GAGGAGAGCA CCGGGGACGT GAGCCAGGTG AAGCCCCTGC TGTCCAAGGC AGAGCGCAGC 
CACATCATCG TGTGGCAGGT GTCCTCCGCC CCTCTTATAA CCTCTCAAGC TGCAGCTTTC 
ACCTTAGGGC CAGGCCTCTT CGAGGGCGGA CCGCAGCGCG GGTCTGGCTG GGAGGGCGGA 
CCCCCCAAGG CAGCAAGCAG GGACTTCAGC CCGCCAAGTC TTCCCAGCCA GAGCCCACCT 
GCCTTTGCCT GCTGCCTGAA GGGGTGGTAG

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

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MAPK8IP3 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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