TANC2 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	TANC2
Entrez Gene ID	100483861
Full Name	tetratricopeptide repeat, ankyrin repeat and coiled-coil containing 2
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019802608.1	XP_019658167.1	LOW QUALITY PROTEIN: protein TANC2

Pathways from BioSystems
Gene Ontology

The following TANC2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TANC2 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
OAc94801	XM_019802608.1 Latest version!	Ailuropoda melanoleuca tetratricopeptide repeat, ankyrin repeat and coiled-coil containing 2 (TANC2), 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)

TANC2 ( XM_019802608.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019658167.1 Ailuropoda melanoleuca tetratricopeptide repeat, ankyrin repeat and coiled-coil containing 2 (TANC2), mRNA.

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CloneID	OAc94801
Clone ID Related Accession (Same CDS sequence)	XM_019802608.1
Accession Version	XM_019802608.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5934bp) 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: protein TANC2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217836.1) 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##

ATGTTTCGGA ATAGTCTCAA GATGCTTCTT ACTGGAGGGA AATCAAGTCG TAAAAACAGA 
TCAAGTGATG GAGGGAGCGA GGAACCACCG GATCGAAGAC AGTCAAGTGT AGACTCTCGC 
CAAAGCCGCT CTGGGCAAGG TGGCATCTCC ACAGAAAGCG ACTGTGCTTT TGAGCCAGAC 
TACGCCGTTC CACCACTTCC AGTGAGTGAA GGTGATGCTG AACAGGAACT TGGTCCCCCT 
CCATCTGTAG ATGAGGCAGC AAACACACTC ATGACTCGTC TGGGTTTCCT CCTTGGAGAG 
AAAGTCACAG AAGTTCAGCC AGGCGACCAA TACAACATGG AAGTGCAGGA TGAAAATCAG 
ACCTCAGCCA TCACCCAGCG GATAAGTCCC TGTTCCACCT TGACTAGTAG CACTGCCTCT 
CCACCAGCCA GTAGCCCCTG CTCCACCCTC CCACCAGTCA GTTCAAATGC AACTGCCAAG 
GATTGCAGCT ATGGGGCTGT TACCAGTCCA ACCTCTACCC TTGAAAGCAG AGATAGCGGC 
ATTATTGCTA CGTTGACAAG CTATTCTGAA AATGTAGAAC GCACAAAATA CGTCGGGGAA 
AGCAGTAAAG AATTAGGATC TGGAGGAAAC CTGAAACCTT GGCAGTCTCA AAAATCCAGC 
ATGGATTCCT GTTTGTATCG AGTAGATGAA AACATGACGG CTTCCACCTA TAGTCTGAAT 
AAGATCCCAG AGAGGAATTT GGAAACAGTT CTATCACAAT CAGTACAGTC TATCCCTCTG 
TATCTTATGC CACGGCCAAA TTCAGTAGCA GCCACAAGCT CTGCCCACTT GGAGGACCTT 
GCTTACCTGG ATGAGCAGAG ACATACACCT TTGAGAACTT CTCTTCGAAT GCCGAGGCAG 
AGCATGGGCG GTGCTCGCAC ACAACAGGAT TTAAGAGTTC ACTTTGCACC TTATAGGCCT 
CCAGATATCT CCCTGAAGCC TCTGCTCTTT GAAGTGCCCA GCATCACTAC AGAGTCCGTG 
TTTGTTGGCC GGGATTGGGT TTTCCACGAA ATAGATGCTC AACTTCAGAG TTCAAATGCC 
AGTGTGAACC AAGGAGTAGT GATTGTGGGA AATATTGGGT TTGGCAAAAC TGCCATCATC 
TCTAGACTGG TGGCCCTCAG CTGCCACGGA ACACGGATGA GACAGATCGC CTCCGACAGC 
CCACACGCCT CCCCCAAACA TGTGGATGCC AACAGAGAGC TGCCACTCAC ACAGCCACCT 
TCAGCCCACT CATCCATCCC CAGTGGAAGC TGCCCAGGAA CCCCAGAAAT GCGCAGGCGG 
CAGGAGGAGG CTATGCGGAG ACTAGCCTCA CAGGTGGTTG CCTATCACTA TTGCCAAGCA 
GATAATGCCT ACACCTGCCT GGTACCAGAA TTTGTCCACA ATGTCGCTGC CCTGCTCTGC 
CGCTCACCTC AGCTGGCAGC CTATCGGGAG CAGCTTCTTC GGGAGCCTCA TTTACAGAGC 
ATGCTGAGCC TTCGGTCCTG TGTTCAAGAC CCCATGGCCT CCTTCCGGAG GGGAGTCCTG 
GAGCCCCTGG AGAATCTCCA CAAAGAGAGA AAAATCCCAG ATGAAGATTT CATCATCTTA 
ATTGATGGAT TAAATGAAGC AGAATTTCAC AAACCGGATT ATGGGGATAC AATTGTTTCA 
TTTCTGAGTA AAATGATTGG AAAATTTCCT TCTTGGCTCA AACTAATTGT AACAGTTAGG 
ACCAGTTTAC AGGAAATTAC CAAGCTGCTG CCTTTCCATA GGATTTTTTT GGATCGACTA 
GAAGAGAATG AAGCCATAGA CCAGGATCTG CAGGCTTACA TCCTGCACCG GATACACAGC 
AGCTCAGAGA TCCAGAATAA CATTTCACTT AATGGCAAAA TGGACAATAC TACATTTGGC 
AAACTCAGTT CTCACCTCAA GACCCTCAGT CAAGGGTCTT ATCTATACCT GAAACTCACA 
TTTGACCTCA TAGAGAAAGG CTATCTAGTG TTAAAGAGCT CTAGCTACAA AGTAGTTCCT 
GTTTCGCTCT CTGAGGTTTA TTTACTCCAG TGCAATATGA AGTTCCCAAC CCAGTCTTCC 
TTTGACCGGG TGATGCCTCT CCTGAATGTG GCAGTGGCCT CTCTGCACCC ACTGACTGAT 
GAACATATCT TCCAGGCCAT CAATGCTGGT AGCATTGAAG GCACACTAGA ATGGGAGGAT 
TTTCAGCAGA GAATGGAGAA CCTCTCCATG TTCCTAATCA AGCGCAGAGA CATGACTCGT 
ATGTTTGTAC ATCCTTCTTT TCGAGAATGG CTTATCTGGA GAGAAGAAGG AGAGAAAACC 
AAATTTCTCT GTGATCCCAG GAGTGGTCAC ACATTACTTG CTTTCTGGTT TTCCCGTCAA 
GAGGGAAAAC TAAACCGACA GCAGACTATT GAACTGGGAC ATCACATCCT CAAAGCACAC 
ATTTTTAAGG GTTTGAGTAA AAAAGTTGGT GTGTCATCTT CCATCCTCCA AGGGCTCTGG 
ATCTCCTATA GCACAGAAGG TCTTTCCATG GCATTGGCAT CTTTACGAAA TCTCTACACT 
CCAAATATAA AGGTCAGCCG ACTGCTGATT TTGGGAGGTG CCAACATTAA TTACCGGACA 
GAGGTTTTAA ATAATGCTCC AGTTCTGTGT GTCCAGTCTC ATCTTGGTTA CACAGAAATG 
GTAGCCCTGC TGTTGGAGTT TGGGGCCAAT GTGGATGCCT CTTCTGAAAG CGGCCTGACT 
CCTCTGGGCT ATGCCGCGGC GGCAGGCTAC CTGAGCATCG TTGTGCTGCT GTGCAAGAAA 
CGCGCCAAGG TGGATCATTT GGACAAGAAT GGGCAGTGTG CTTTGGTCCA TGCTGCACTC 
CGAGGTCACC TGGAGGTTGT CAAGTTTTTG ATTCAGTGTG ACTGGACGAT GGCTGGCCAG 
CAGCAAGGCG TATTTAAGAA GAGCCACGCC ATCCAGCAGG CCCTCATTGC CGCAGCCAGC 
ATGGGATACA CTGAGATTGT CTCCTACCTA CTTGATCTTC CAGAAAAAGA TGAGGAAGAA 
GTAGAGCGAG CACAGATCAA CAGTTTTGAC AGTCTCTGGG GAGAGACAGC ACTGACAGCT 
GCAGCCGGAA GAGGCAAACT GGAGGTATGC CGTCTGCTCT TGGAACAGGG AGCAGCAGTG 
GCCCAGCCAA ACCGCCGAGG GGCAGTGCCC CTGTTCAGCA CTGTTCGCCA GGGCCACTGG 
CAGATTGTTG ATCTTTTACT CACCCACGGA GCTGATGTCA ACATGGCAGA CAAGCAGGGT 
CGTACTCCCC TGATGATGGC TGCCTCCGAA GGCCATCTAG GAACTGTGGA CTTTCTGCTT 
GCACAAGGTG CCTCCATTGC TCTAATGGAC AAAGAAGGAC TGACAGCCCT CAGCTGGGCT 
TGTTTGAAGG GTCATCTCTC AGTAGTACGT TCCCTGGTGG ATAACGGGGC TGCTACAGAC 
CATGCTGACA AAAACGGCCG CACCCCACTG GATCTGGCAG CTTTCTACGG TGATGCCGAG 
GTGGTCCAGT TCCTGGTGGA TCACGGGGCC ATGATTGAAC ATGTGGACTA TAGCGGAATG 
CGCCCTCTGG ACAGAGCAGT AGGGTGCCGG AACACTTCTG TTGTTGTCAC TCTTCTGAAG 
AAAGGAGCCA AGATAGGTCC AGCCACATGG GCGATGGCCA CCTCCAAACC AGACATCATG 
ATCATCCTGT TGAGCAAGCT GATGGAAGAG GGGGACATGT TTTATAAGAA AGGTAAAGTA 
AAGGAAGCTG CCCAGCGCTA CCAGTACGCC CTGAAGAAAT TCCCTCGAGA AGGGTTTGGT 
GAGGACTTGA AAACCTTCCG GGAACTAAAG GTGTCTCTCC TTCTCAACCT CTCTCGATGT 
CGCAGGAAAA TGAACGATTT TGGAATGGCG GAGGAATTTG CTACTAAGGC CCTGGAGCTG 
AAACCGAAAT CTTATGAAGC TTACTATGCA AGAGCAAGGG CAAAACGCAG CAGCAGACAG 
TTTGCAGCAG CCTTAGAGGA TCTGAACGAG GCCATCAAGC TCTGTCCGAA CAACCGTGAG 
ATCCAGAGGN CTCCCCCCCC CCCCCCCCCC CCCCCCCCCC CCCCCCCGCC GCTCCCGGAG 
GAGACGGAGC CCGAGCCGCA GCACGAAGAC ATATACTCTG TACAGGATAT ATTCGAGGAG 
GAGTACCTGG AACAGGATGT TGAAAACGTG TCCATCGGCC TCCAGACCGA GGCTCGGCCC 
AGTCAAGGGC TGCCGATCAT CCAGAGCCCG CCCTCATCTC CGGCCCATCG GGACTCCGCC 
TACATCTCCA GCTCGCCCCT TGGCTCGCAT CAGGTTTTTG ACTTCCGTTC CAGTAGTTCC 
GTAGGTTCTC CCACCAGACA GGGCTATCAG TCCACCTCAC CCGCTCTTTC TCCAACTCAC 
CAGAACTCTC ATTACAGGCC TAGTCCACCA CATACTTCCC CAGCCCACCA GAGCGGCTCT 
TACCGCTTTA GCCCCCCTCC CGTAGGAGGA CAGGGCAAGG AATACCCAAG CCCTCCCCCG 
TCCCCCCTCC GTAGAGGCCC TCAGTATCGG GCCAGCCCAC CAGCTGAGAG CATGAGTGTC 
TATAGATCCC AGTCTGGCTC ACCCGTGCGT TATCAGCAAG AAACAAACGT TAGTCAGCTT 
CCTGGCAGAC CAAAATCTCC ATTATCCAAA ATGGCCCAGC GGCCCTACCA GATGCCTCAG 
CTTCCTGTGG CAGTTCCCCA GCAAGGGCTC AGGCTACAGC CTGCCAAGGC CCAGATTGTG 
AGAAGCAACC AGCCCAGCTC AGCGGTTCAT TCAAGCACTG TCCTGTCCAC AGGGGCCTAT 
GGCCAGGTAG CCCACTCGAT GGCTAGTAAA TACCAGTCTT CACAAGGAGA CATGGGAGTA 
AGTCAGAGCC GGTTGGTTTA TCAAGGGTCA ATTGGGGGGA TCGTAGGGGA TGGGAGACCT 
GTGCAGCATG TCCAGGCTAG CCTGAGTGCA GGTGCCATCT GTCAGCATGG AGGGTTGACC 
AAAGAAGACC TTCCACAGCG ACCTTCCTCA GCATATCGGG GTGGTATGAG ATACAGCCAG 
ACACCACAGA TTGGGCGTAG CCAGTCTGCA TCCTACTACC CAGTCTGTCA CTCAAAACTA 
GACCTGGAGC GTTCCTCCAG CCAGCTAGGT TCCCCTGATG TGTCGCATTT AATCAGAAGA 
CCTATTAGCA TCAGCCCGAA TGAAATCAAA CCCCACCCAC CAACTCCCAG GCCTCTGCTG 
CACTCCCAGA GCGTAGGCCT CCGCTTCTCT CCATCTAGCA ATAGTATCTC ATCGGCCTCC 
AACCTCACTC CTACCTTCCG GCCATCTTCC TCGATTCAAC AAATGGAGAT CCCTCTAAAA 
CCGGCATATG ATAGGTCATG TGACGAGCTG TCACCAGTGT CTCCCACTCA AGGAGGTTAC 
CCCAGCGAGC CCACCCGATC CAGGACCACA CCATTCATGG GGATCATAGA TAAAACAGCC 
CGGACTCAAC AGTACCCTCA CCTTCACCAG CAGAATCGGA CCTGGGCTGT GTCATCCGTG 
GATACTGTCC TCAGTCCCAC ATCTCCAGGC AACCTTCCTC AGCCTGAGTC CTTCAGTCCA 
CCATCATCCA TCAGCAACAT TGCCTTTTAT AACAAAACCA ACAATGCACA GAATGGCCAT 
TTGCTGGAGG ACGATTATTA CAGCCCCCAT GGGATGCTGG CTAATGGGTC CCGCGGAGAC 
CTCTTGGAGA GAGTCGGCCA GGCCTCCTCA TATCCCGATG TGAAGGTGGC CCGGACCCTC 
CCTGTGGCTC AGGCATACCA GGACAACCTG TACAGGCAGT TGTCCCGGGA CTCTCGACAA 
GGGCAGACAT CCCCTATCAA ACCAAAGAGA CCATTTGTGG AGTCTAATGT TTAA

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

RefSeq	XP_019658167.1
CDS	171..6104
Translation	MFRNSLKMLLTGGKSSRKNRSSDGGSEEPPDRRQSSVDSRQSRSGQGGISTESDCAFEPDYAVPPLPVSEGDAEQELGPPPSVDEAANTLMTRLGFLLGEKVTEVQPGDQYNMEVQDENQTSAITQRISPCSTLTSSTASPPASSPCSTLPPVSSNATAKDCSYGAVTSPTSTLESRDSGIIATLTSYSENVERTKYVGESSKELGSGGNLKPWQSQKSSMDSCLYRVDENMTASTYSLNKIPERNLETVLSQSVQSIPLYLMPRPNSVAATSSAHLEDLAYLDEQRHTPLRTSLRMPRQSMGGARTQQDLRVHFAPYRPPDISLKPLLFEVPSITTESVFVGRDWVFHEIDAQLQSSNASVNQGVVIVGNIGFGKTAIISRLVALSCHGTRMRQIASDSPHASPKHVDANRELPLTQPPSAHSSIPSGSCPGTPEMRRRQEEAMRRLASQVVAYHYCQADNAYTCLVPEFVHNVAALLCRSPQLAAYREQLLREPHLQSMLSLRSCVQDPMASFRRGVLEPLENLHKERKIPDEDFIILIDGLNEAEFHKPDYGDTIVSFLSKMIGKFPSWLKLIVTVRTSLQEITKLLPFHRIFLDRLEENEAIDQDLQAYILHRIHSSSEIQNNISLNGKMDNTTFGKLSSHLKTLSQGSYLYLKLTFDLIEKGYLVLKSSSYKVVPVSLSEVYLLQCNMKFPTQSSFDRVMPLLNVAVASLHPLTDEHIFQAINAGSIEGTLEWEDFQQRMENLSMFLIKRRDMTRMFVHPSFREWLIWREEGEKTKFLCDPRSGHTLLAFWFSRQEGKLNRQQTIELGHHILKAHIFKGLSKKVGVSSSILQGLWISYSTEGLSMALASLRNLYTPNIKVSRLLILGGANINYRTEVLNNAPVLCVQSHLGYTEMVALLLEFGANVDASSESGLTPLGYAAAAGYLSIVVLLCKKRAKVDHLDKNGQCALVHAALRGHLEVVKFLIQCDWTMAGQQQGVFKKSHAIQQALIAAASMGYTEIVSYLLDLPEKDEEEVERAQINSFDSLWGETALTAAAGRGKLEVCRLLLEQGAAVAQPNRRGAVPLFSTVRQGHWQIVDLLLTHGADVNMADKQGRTPLMMAASEGHLGTVDFLLAQGASIALMDKEGLTALSWACLKGHLSVVRSLVDNGAATDHADKNGRTPLDLAAFYGDAEVVQFLVDHGAMIEHVDYSGMRPLDRAVGCRNTSVVVTLLKKGAKIGPATWAMATSKPDIMIILLSKLMEEGDMFYKKGKVKEAAQRYQYALKKFPREGFGEDLKTFRELKVSLLLNLSRCRRKMNDFGMAEEFATKALELKPKSYEAYYARARAKRSSRQFAAALEDLNEAIKLCPNNREIQRnullPPPPPPPPPPPPPLPEETEPEPQHEDIYSVQDIFEEEYLEQDVENVSIGLQTEARPSQGLPIIQSPPSSPAHRDSAYISSSPLGSHQVFDFRSSSSVGSPTRQGYQSTSPALSPTHQNSHYRPSPPHTSPAHQSGSYRFSPPPVGGQGKEYPSPPPSPLRRGPQYRASPPAESMSVYRSQSGSPVRYQQETNVSQLPGRPKSPLSKMAQRPYQMPQLPVAVPQQGLRLQPAKAQIVRSNQPSSAVHSSTVLSTGAYGQVAHSMASKYQSSQGDMGVSQSRLVYQGSIGGIVGDGRPVQHVQASLSAGAICQHGGLTKEDLPQRPSSAYRGGMRYSQTPQIGRSQSASYYPVCHSKLDLERSSSQLGSPDVSHLIRRPISISPNEIKPHPPTPRPLLHSQSVGLRFSPSSNSISSASNLTPTFRPSSSIQQMEIPLKPAYDRSCDELSPVSPTQGGYPSEPTRSRTTPFMGIIDKTARTQQYPHLHQQNRTWAVSSVDTVLSPTSPGNLPQPESFSPPSSISNIAFYNKTNNAQNGHLLEDDYYSPHGMLANGSRGDLLERVGQASSYPDVKVARTLPVAQAYQDNLYRQLSRDSRQGQTSPIKPKRPFVESNV

Target ORF information:

RefSeq Version	XM_019802608.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca tetratricopeptide repeat, ankyrin repeat and coiled-coil containing 2 (TANC2), mRNA.

Target ORF information:

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

XM_019802608.1

ORF Insert Sequence:

ATGTTTCGGA ATAGTCTCAA GATGCTTCTT ACTGGAGGGA AATCAAGTCG TAAAAACAGA 
TCAAGTGATG GAGGGAGCGA GGAACCACCG GATCGAAGAC AGTCAAGTGT AGACTCTCGC 
CAAAGCCGCT CTGGGCAAGG TGGCATCTCC ACAGAAAGCG ACTGTGCTTT TGAGCCAGAC 
TACGCCGTTC CACCACTTCC AGTGAGTGAA GGTGATGCTG AACAGGAACT TGGTCCCCCT 
CCATCTGTAG ATGAGGCAGC AAACACACTC ATGACTCGTC TGGGTTTCCT CCTTGGAGAG 
AAAGTCACAG AAGTTCAGCC AGGCGACCAA TACAACATGG AAGTGCAGGA TGAAAATCAG 
ACCTCAGCCA TCACCCAGCG GATAAGTCCC TGTTCCACCT TGACTAGTAG CACTGCCTCT 
CCACCAGCCA GTAGCCCCTG CTCCACCCTC CCACCAGTCA GTTCAAATGC AACTGCCAAG 
GATTGCAGCT ATGGGGCTGT TACCAGTCCA ACCTCTACCC TTGAAAGCAG AGATAGCGGC 
ATTATTGCTA CGTTGACAAG CTATTCTGAA AATGTAGAAC GCACAAAATA CGTCGGGGAA 
AGCAGTAAAG AATTAGGATC TGGAGGAAAC CTGAAACCTT GGCAGTCTCA AAAATCCAGC 
ATGGATTCCT GTTTGTATCG AGTAGATGAA AACATGACGG CTTCCACCTA TAGTCTGAAT 
AAGATCCCAG AGAGGAATTT GGAAACAGTT CTATCACAAT CAGTACAGTC TATCCCTCTG 
TATCTTATGC CACGGCCAAA TTCAGTAGCA GCCACAAGCT CTGCCCACTT GGAGGACCTT 
GCTTACCTGG ATGAGCAGAG ACATACACCT TTGAGAACTT CTCTTCGAAT GCCGAGGCAG 
AGCATGGGCG GTGCTCGCAC ACAACAGGAT TTAAGAGTTC ACTTTGCACC TTATAGGCCT 
CCAGATATCT CCCTGAAGCC TCTGCTCTTT GAAGTGCCCA GCATCACTAC AGAGTCCGTG 
TTTGTTGGCC GGGATTGGGT TTTCCACGAA ATAGATGCTC AACTTCAGAG TTCAAATGCC 
AGTGTGAACC AAGGAGTAGT GATTGTGGGA AATATTGGGT TTGGCAAAAC TGCCATCATC 
TCTAGACTGG TGGCCCTCAG CTGCCACGGA ACACGGATGA GACAGATCGC CTCCGACAGC 
CCACACGCCT CCCCCAAACA TGTGGATGCC AACAGAGAGC TGCCACTCAC ACAGCCACCT 
TCAGCCCACT CATCCATCCC CAGTGGAAGC TGCCCAGGAA CCCCAGAAAT GCGCAGGCGG 
CAGGAGGAGG CTATGCGGAG ACTAGCCTCA CAGGTGGTTG CCTATCACTA TTGCCAAGCA 
GATAATGCCT ACACCTGCCT GGTACCAGAA TTTGTCCACA ATGTCGCTGC CCTGCTCTGC 
CGCTCACCTC AGCTGGCAGC CTATCGGGAG CAGCTTCTTC GGGAGCCTCA TTTACAGAGC 
ATGCTGAGCC TTCGGTCCTG TGTTCAAGAC CCCATGGCCT CCTTCCGGAG GGGAGTCCTG 
GAGCCCCTGG AGAATCTCCA CAAAGAGAGA AAAATCCCAG ATGAAGATTT CATCATCTTA 
ATTGATGGAT TAAATGAAGC AGAATTTCAC AAACCGGATT ATGGGGATAC AATTGTTTCA 
TTTCTGAGTA AAATGATTGG AAAATTTCCT TCTTGGCTCA AACTAATTGT AACAGTTAGG 
ACCAGTTTAC AGGAAATTAC CAAGCTGCTG CCTTTCCATA GGATTTTTTT GGATCGACTA 
GAAGAGAATG AAGCCATAGA CCAGGATCTG CAGGCTTACA TCCTGCACCG GATACACAGC 
AGCTCAGAGA TCCAGAATAA CATTTCACTT AATGGCAAAA TGGACAATAC TACATTTGGC 
AAACTCAGTT CTCACCTCAA GACCCTCAGT CAAGGGTCTT ATCTATACCT GAAACTCACA 
TTTGACCTCA TAGAGAAAGG CTATCTAGTG TTAAAGAGCT CTAGCTACAA AGTAGTTCCT 
GTTTCGCTCT CTGAGGTTTA TTTACTCCAG TGCAATATGA AGTTCCCAAC CCAGTCTTCC 
TTTGACCGGG TGATGCCTCT CCTGAATGTG GCAGTGGCCT CTCTGCACCC ACTGACTGAT 
GAACATATCT TCCAGGCCAT CAATGCTGGT AGCATTGAAG GCACACTAGA ATGGGAGGAT 
TTTCAGCAGA GAATGGAGAA CCTCTCCATG TTCCTAATCA AGCGCAGAGA CATGACTCGT 
ATGTTTGTAC ATCCTTCTTT TCGAGAATGG CTTATCTGGA GAGAAGAAGG AGAGAAAACC 
AAATTTCTCT GTGATCCCAG GAGTGGTCAC ACATTACTTG CTTTCTGGTT TTCCCGTCAA 
GAGGGAAAAC TAAACCGACA GCAGACTATT GAACTGGGAC ATCACATCCT CAAAGCACAC 
ATTTTTAAGG GTTTGAGTAA AAAAGTTGGT GTGTCATCTT CCATCCTCCA AGGGCTCTGG 
ATCTCCTATA GCACAGAAGG TCTTTCCATG GCATTGGCAT CTTTACGAAA TCTCTACACT 
CCAAATATAA AGGTCAGCCG ACTGCTGATT TTGGGAGGTG CCAACATTAA TTACCGGACA 
GAGGTTTTAA ATAATGCTCC AGTTCTGTGT GTCCAGTCTC ATCTTGGTTA CACAGAAATG 
GTAGCCCTGC TGTTGGAGTT TGGGGCCAAT GTGGATGCCT CTTCTGAAAG CGGCCTGACT 
CCTCTGGGCT ATGCCGCGGC GGCAGGCTAC CTGAGCATCG TTGTGCTGCT GTGCAAGAAA 
CGCGCCAAGG TGGATCATTT GGACAAGAAT GGGCAGTGTG CTTTGGTCCA TGCTGCACTC 
CGAGGTCACC TGGAGGTTGT CAAGTTTTTG ATTCAGTGTG ACTGGACGAT GGCTGGCCAG 
CAGCAAGGCG TATTTAAGAA GAGCCACGCC ATCCAGCAGG CCCTCATTGC CGCAGCCAGC 
ATGGGATACA CTGAGATTGT CTCCTACCTA CTTGATCTTC CAGAAAAAGA TGAGGAAGAA 
GTAGAGCGAG CACAGATCAA CAGTTTTGAC AGTCTCTGGG GAGAGACAGC ACTGACAGCT 
GCAGCCGGAA GAGGCAAACT GGAGGTATGC CGTCTGCTCT TGGAACAGGG AGCAGCAGTG 
GCCCAGCCAA ACCGCCGAGG GGCAGTGCCC CTGTTCAGCA CTGTTCGCCA GGGCCACTGG 
CAGATTGTTG ATCTTTTACT CACCCACGGA GCTGATGTCA ACATGGCAGA CAAGCAGGGT 
CGTACTCCCC TGATGATGGC TGCCTCCGAA GGCCATCTAG GAACTGTGGA CTTTCTGCTT 
GCACAAGGTG CCTCCATTGC TCTAATGGAC AAAGAAGGAC TGACAGCCCT CAGCTGGGCT 
TGTTTGAAGG GTCATCTCTC AGTAGTACGT TCCCTGGTGG ATAACGGGGC TGCTACAGAC 
CATGCTGACA AAAACGGCCG CACCCCACTG GATCTGGCAG CTTTCTACGG TGATGCCGAG 
GTGGTCCAGT TCCTGGTGGA TCACGGGGCC ATGATTGAAC ATGTGGACTA TAGCGGAATG 
CGCCCTCTGG ACAGAGCAGT AGGGTGCCGG AACACTTCTG TTGTTGTCAC TCTTCTGAAG 
AAAGGAGCCA AGATAGGTCC AGCCACATGG GCGATGGCCA CCTCCAAACC AGACATCATG 
ATCATCCTGT TGAGCAAGCT GATGGAAGAG GGGGACATGT TTTATAAGAA AGGTAAAGTA 
AAGGAAGCTG CCCAGCGCTA CCAGTACGCC CTGAAGAAAT TCCCTCGAGA AGGGTTTGGT 
GAGGACTTGA AAACCTTCCG GGAACTAAAG GTGTCTCTCC TTCTCAACCT CTCTCGATGT 
CGCAGGAAAA TGAACGATTT TGGAATGGCG GAGGAATTTG CTACTAAGGC CCTGGAGCTG 
AAACCGAAAT CTTATGAAGC TTACTATGCA AGAGCAAGGG CAAAACGCAG CAGCAGACAG 
TTTGCAGCAG CCTTAGAGGA TCTGAACGAG GCCATCAAGC TCTGTCCGAA CAACCGTGAG 
ATCCAGAGGN CTCCCCCCCC CCCCCCCCCC CCCCCCCCCC CCCCCCCGCC GCTCCCGGAG 
GAGACGGAGC CCGAGCCGCA GCACGAAGAC ATATACTCTG TACAGGATAT ATTCGAGGAG 
GAGTACCTGG AACAGGATGT TGAAAACGTG TCCATCGGCC TCCAGACCGA GGCTCGGCCC 
AGTCAAGGGC TGCCGATCAT CCAGAGCCCG CCCTCATCTC CGGCCCATCG GGACTCCGCC 
TACATCTCCA GCTCGCCCCT TGGCTCGCAT CAGGTTTTTG ACTTCCGTTC CAGTAGTTCC 
GTAGGTTCTC CCACCAGACA GGGCTATCAG TCCACCTCAC CCGCTCTTTC TCCAACTCAC 
CAGAACTCTC ATTACAGGCC TAGTCCACCA CATACTTCCC CAGCCCACCA GAGCGGCTCT 
TACCGCTTTA GCCCCCCTCC CGTAGGAGGA CAGGGCAAGG AATACCCAAG CCCTCCCCCG 
TCCCCCCTCC GTAGAGGCCC TCAGTATCGG GCCAGCCCAC CAGCTGAGAG CATGAGTGTC 
TATAGATCCC AGTCTGGCTC ACCCGTGCGT TATCAGCAAG AAACAAACGT TAGTCAGCTT 
CCTGGCAGAC CAAAATCTCC ATTATCCAAA ATGGCCCAGC GGCCCTACCA GATGCCTCAG 
CTTCCTGTGG CAGTTCCCCA GCAAGGGCTC AGGCTACAGC CTGCCAAGGC CCAGATTGTG 
AGAAGCAACC AGCCCAGCTC AGCGGTTCAT TCAAGCACTG TCCTGTCCAC AGGGGCCTAT 
GGCCAGGTAG CCCACTCGAT GGCTAGTAAA TACCAGTCTT CACAAGGAGA CATGGGAGTA 
AGTCAGAGCC GGTTGGTTTA TCAAGGGTCA ATTGGGGGGA TCGTAGGGGA TGGGAGACCT 
GTGCAGCATG TCCAGGCTAG CCTGAGTGCA GGTGCCATCT GTCAGCATGG AGGGTTGACC 
AAAGAAGACC TTCCACAGCG ACCTTCCTCA GCATATCGGG GTGGTATGAG ATACAGCCAG 
ACACCACAGA TTGGGCGTAG CCAGTCTGCA TCCTACTACC CAGTCTGTCA CTCAAAACTA 
GACCTGGAGC GTTCCTCCAG CCAGCTAGGT TCCCCTGATG TGTCGCATTT AATCAGAAGA 
CCTATTAGCA TCAGCCCGAA TGAAATCAAA CCCCACCCAC CAACTCCCAG GCCTCTGCTG 
CACTCCCAGA GCGTAGGCCT CCGCTTCTCT CCATCTAGCA ATAGTATCTC ATCGGCCTCC 
AACCTCACTC CTACCTTCCG GCCATCTTCC TCGATTCAAC AAATGGAGAT CCCTCTAAAA 
CCGGCATATG ATAGGTCATG TGACGAGCTG TCACCAGTGT CTCCCACTCA AGGAGGTTAC 
CCCAGCGAGC CCACCCGATC CAGGACCACA CCATTCATGG GGATCATAGA TAAAACAGCC 
CGGACTCAAC AGTACCCTCA CCTTCACCAG CAGAATCGGA CCTGGGCTGT GTCATCCGTG 
GATACTGTCC TCAGTCCCAC ATCTCCAGGC AACCTTCCTC AGCCTGAGTC CTTCAGTCCA 
CCATCATCCA TCAGCAACAT TGCCTTTTAT AACAAAACCA ACAATGCACA GAATGGCCAT 
TTGCTGGAGG ACGATTATTA CAGCCCCCAT GGGATGCTGG CTAATGGGTC CCGCGGAGAC 
CTCTTGGAGA GAGTCGGCCA GGCCTCCTCA TATCCCGATG TGAAGGTGGC CCGGACCCTC 
CCTGTGGCTC AGGCATACCA GGACAACCTG TACAGGCAGT TGTCCCGGGA CTCTCGACAA 
GGGCAGACAT CCCCTATCAA ACCAAAGAGA CCATTTGTGG AGTCTAATGT TTAA

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

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TANC2 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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