ARAP1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	ARAP1
Entrez Gene ID	100481955
Full Name	ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019807890.1	XP_019663449.1	arf-GAP with Rho-GAP domain, ANK repeat and PH domain-containing protein 1 isoform X2
XM_019807891.1	XP_019663450.1	arf-GAP with Rho-GAP domain, ANK repeat and PH domain-containing protein 1 isoform X3
XM_019807889.1	XP_019663448.1	arf-GAP with Rho-GAP domain, ANK repeat and PH domain-containing protein 1 isoform X1
XM_019807888.1	XP_019663447.1	arf-GAP with Rho-GAP domain, ANK repeat and PH domain-containing protein 1 isoform X1

Pathways from BioSystems
Gene Ontology

The following ARAP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARAP1 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)
OAc98293	XM_019807888.1 Latest version!	Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
OAc98293	XM_019807889.1 Latest version!	Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
OAc98294	XM_019807890.1 Latest version!	Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
OAc98295	XM_019807891.1 Latest version!	Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*Business Day

** 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)

ARAP1 ( XM_019807889.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019663448.1 Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc98293
Clone ID Related Accession (Same CDS sequence)	XM_019807889.1 , XM_019807888.1
Accession Version	XM_019807889.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4257bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	arf-GAP with Rho-GAP domain, ANK repeat and PH domain-containing protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218509.1) 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##

ATGGCGGAGG CCGGGGATGC AGCGCTGTCT GTGGCTGAGT GGCTGCGGGC GCTGCACCTG 
GAGCAGTACT CCGGGCTCTT CGAGCAGCAT GGACTGGTGT GGGCCACAGA GTGCCAAGGC 
CTCAGCGATG CCCGCCTGCT GGACATGGGC ATGCTGCTGC CTGGTCACCC CGCCNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNCTGGAGAG GAGGAGGGGC TGCCCCCCGC CCCTCCCATC 
CCACCCCGGA GGAGCTGCCT GCCACCTGCC TGCTTCTCCG CCCCATCCAC AGCAGCCCCG 
GACCCTGTGC TGCCCCCACT GCCTGCCAAG CGGCATTTGG CAGAGTTAAG TGTTCCGCCT 
GTGCCCCCCC GCACTGGGAC CCCCCGCCTG CTGGTGAGCC TTCCCTCCAA GGAAGAGGAG 
CTACTGTCAC CACCGCTGTC ATCCCTTCCC CAGCCAGAGC CTGAGGAGCC CCCCGCCACC 
TTCCCCCGGG TGCCTCCACA GTCCCCGTCT CCACCTCCCA GCCCCCCGGA GATCCCCCCA 
AAGCCTGTTC GCCTGCTCCC AGAGTTCGAT GACTCTGACT ACGATGAGGT TCCAGAGGAG 
GGGCCAGGGG CCCCAGCCGG CCTGATGACC AAGAAGGAGG AGCTCCCAGT GAGCCACGTC 
CCACGGGCTG TGCGTGTGGC CAGTCTGCTG AGCGAGGGGG AGGAACTGTC TGGGGACGAC 
GACCAAGGAG ATGAAGATGA GGATGACCAC GCCTACGAGG GCATCCCCAA TGGTGGATGG 
CACACCAGCA GCCTGAGCTC ATCCCTGCCC AGCAGCCTCC TGATCCCCGA GCTCCCACCA 
CACCCCATGG ACGGGCTCCC TGGGGGCTCC ACCCCCATCA CACCGGTCAT CAAGGCCGGC 
TGGCTGGACA AGAACCCACC GCAGGGATCT TACATTTATC AGAAGCGATG GGTGAGACTG 
GATGCCGATC ACCTGCGATA CTTTGACAGT AACAAGGACG CCTACTCTAA GCGCTTTATC 
TCTGTGGCCT GCATCTCCCG CGTGGCTGCC ATCGGGGACC AGAAGTTTGA AGTGATCACA 
AACAACCGGA CCTTTGCCTT CCGGGCAGAG AGCGATGCGG AGCGGAAGGA GTGGATGCAG 
GCGCTGCAGC AGGCAGTGGC CGAGCAGGCT GCCCGGGCCC GGCAGTCCAG CACTTACCCT 
TTGGGTGTTC GAGGCTCAGA GCTACCTGAC CGTGCTGGGA GCCTGGAACT ACGTGGTTTC 
AAGAATAAAC TGTATGTGGC CGTGGTTGGG GACAAAGTGC AGCTGTACAA GAATCTGGAG 
GAGTACCACC TGGGCATTGG CATCACCTTC ATTGACATGA GTGTAGGCAA CGTGAAGGAA 
GCCGACCGGC GCAGCTTCGA CCTCACCACC CCCTACCGCA TCTTCAGCTT CTCAGCCGAG 
TCGGAGCTAG AGAAGGAGCA GTGGCTGGAG GCCATGCAGG GAGCCATTGC CGAGGCCCTG 
TCTACCTCGG AGGTGGCCGA GCGCATCTGG GCCGTGGCCC CCAACAGGTT CTGTGCCGAC 
TGCGGGGCTG CCCAGCCTGA CTGGGCCTCC ATCAACCTCT GTGTCGTCAT CTGCAAGCGC 
TGTGCAGGGG AGCACCGTGG CCTGGGCGCT GGGGTCTCCA AGGTTCGGAG CCTGAAGATG 
GACAGGAAGG TGTGGACGGA AACACTCATC GAGCTCTTCT TACAGCTGGG CAATGGCACT 
GGGAACCGCT TCTGGGCAGC CAACGTGCCC CCCAGTGAGG CTCTGCAGCC CAACAGCAGC 
CCTGGTGCCC GGCGGCGCCA CCTGGAGGCC AAATACCGTG AGGGCAAGTA CCGCCGCTAC 
CACCCGCTCT TTGGCAACCA GGAGGAACTG GACAAGGCTC TGTGTGCTGC AGTCACTACC 
ACAGACCTGG CTGAGACCCA AGCTCTCCTG GGCTGTGGGG CTGGGGTCAA CTGCTTCTCA 
GGGGATCCTG AGGCTCCCAC ACCCCTGGCT CTTGCCGAGC AAGCAGGCCA GATACTGCAG 
ATGGAATTCC TTCGGAACAA CCGGACCACG GAGGTACCTC GGCTGGATTC AGTGAAGCCC 
CTGGAAAAGC ACTACTCAGT TGTCTTGCCA ACTGTGAGCC ACAGTGGCTT TCTCTACAAG 
ACCGCCTCGG CCAGCAAGCT GCTGCAGGAC CGCCGTGCCC GGGAAGAGTT CAGCCGACGC 
TGGTGTGTCC TTAGCGACGG GGTCTTAAGC TACTATGAGA ATGAGCGGGC AGTGACCCCC 
AACGGGGAGA TTCGTGCCAG CGAGATTGTG TGCCTGGCAG TGCCCCCTCC TGACACCCAT 
GGCTTTGAGC ACACCTTTGA GGTGTACACA GAGGGAGAGC GGCTGTACCT GTTTGGGCTG 
GAGAGTGCAG AGCTGGCTCG TGAGTGGGTC AAGTGCATTG CAAAGGCGTT CACACCTCCC 
CTGGCTGAAG ATCTGCTGGC CTGGGATTTT GAGCGGCTTG GGCGCCTACC TTACAAAGCT 
GGCCTGAGCC TACAGCGGGC CCAGGAGGGC TGGTTCTCCC TCACTGGCTC TGAGCTCCGT 
GCTGTCTTCC CAGAGGGACC CTGTGAGGAG CCGCTACAAC TTCGGAAACT GCAGGAGCTT 
TCCGTCCAAG GGGACAGCGA GAACCAGGTG CTGGTGCTGG TGGAGCGAAG GAGGACGCTG 
TACATCCAGG GGGAGCGACG GCTGGACTTC ACAGGCTGGC TGGGGGCCAT CCAGAAAGCA 
GCGGCCAGCT CAGGGGACAC GCTGTCGGAG CAGCAGCTCG GAGACTCAGA TATCCCCGTG 
ATTGTGTACC GCTGTGTGGA CTACATCACG CAGTGTGGCT TGACGTCCGA GGGCATCTAC 
CGCAAGTGCG GGCAGACGTC AAAGACTCAG CGGCTGCTGG AGAGCCTACG GCAGGACGCT 
CGGTCTGTGC GCCTCAAGGA GGGGGAGCAG CACGTGGATG ATGTCTCCTC AGCACTCAAG 
CGCTTCCTGC GAGACCTGCC CGATGGGCTC TTCACTCGCG CCCAGCGCCT GGCCTGGCTG 
GACACTTCAG AGATTGAGGA TGAGGAGGAG AAGGTCTCCA GGTACCGAGA GCTCCTGGCT 
CGTCTGCCTC CAGTCAACCG TGCCACAGCG AAGGCCCTTA TCAGCCACCT GTACTGCGTC 
CAGTGCTTCT CAGACACAAA CCAGATGAAC ACACACAACT TGGCTATTGT GTTTGGGCCC 
ACGCTCTTCC AGACTGATGG GCAGGACTAC AAGGCTGGCC GTGTGGTGGA AGACCTCATC 
AGCCATTATG TGGTGGTGTT TAGTGTAGAT GAGGAGGAGC TGAGGAAGCA GAAGGAGGAG 
ATCACTGCCA TTGTGAAGAT GCGTGTGGCT GGCACCGCCA GTGGGACCCA GCACGCCGGT 
GACTTCATCT GCACGGTGTA CCTGGAGGAG AAGAAGGCAG ACACAGAACA GCATATCAAG 
ATCCCGGCAT CCATGACAGC TGAGGAGCTC ACCTTGGAGA TCCTGGATCG CAGGAATGTG 
GGCATCAGGG AGAGGGACTA CTGGACCTGC TTCGAGGTCA ATGAGAGGGA GGAGGCAGAG 
CGCCCCCTGC ACTTTGCGGA GAAGGTGCTG CCCATCCTGC ACGGGCTGGG CACAGACAGC 
TACCTGGTGG TGAAGAAGCA CCCGTCCATG GAGGCCATGC TGCTGTACCT GGCCAGCCAT 
GTGGGCGACA CCAAGCACGG CATGATGAAG TTCCGTGAGG ACCGTAGCCT CCTGGGCCTG 
GGCCTGCCCT CGGGTGGCTT TCACGATCGA TACTTCATCC TCAACAGCAG CTGTCTGCGG 
CTCTACAAGG AGATCCGGAG CCAGAGGCCG TGGAGCGGGG CCCCTGAGAC CAGTCACCGG 
CCTGAGAAGG AGTGGCCTGT CAGGAGTCTC AAAGTCTACC TGGGAGTGAA GAAGAAACTG 
CGGCCACCCA CCTGCTGGGG CTTCACAGTG GTGCACGAGA CTGAGAAGCA TGAGAAGCAG 
CAGTGGTACC TCTGCTGCGA GACGCAGATG GAACTCCGGG AGTGGTTTGC CACCTTCCTC 
TTTGTGCAGC ACGACGGGCT GGTGTGGCCC TCAGAGCCCT CCCGTGTGTC CCGGGCAGTG 
CCTGAGGTCC GGCTGGGCAG CGTATCCTTG ATCCCCCTGC GTGGCAGTGA GAACGAGATG 
CGCCGGAGTG TGGCTGCCTT CGCTGCAGAC CCCCTTTCTC TCCTCCGCAA CGTCTGA

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

RefSeq	XP_019663448.1
CDS	773..5029
Translation	MAEAGDAALSVAEWLRALHLEQYSGLFEQHGLVWATECQGLSDARLLDMGMLLPGHPAnullnullnullnullnullnullnullnullnullnullGEEEGLPPAPPIPPRRSCLPPACFSAPSTAAPDPVLPPLPAKRHLAELSVPPVPPRTGTPRLLVSLPSKEEELLSPPLSSLPQPEPEEPPATFPRVPPQSPSPPPSPPEIPPKPVRLLPEFDDSDYDEVPEEGPGAPAGLMTKKEELPVSHVPRAVRVASLLSEGEELSGDDDQGDEDEDDHAYEGIPNGGWHTSSLSSSLPSSLLIPELPPHPMDGLPGGSTPITPVIKAGWLDKNPPQGSYIYQKRWVRLDADHLRYFDSNKDAYSKRFISVACISRVAAIGDQKFEVITNNRTFAFRAESDAERKEWMQALQQAVAEQAARARQSSTYPLGVRGSELPDRAGSLELRGFKNKLYVAVVGDKVQLYKNLEEYHLGIGITFIDMSVGNVKEADRRSFDLTTPYRIFSFSAESELEKEQWLEAMQGAIAEALSTSEVAERIWAVAPNRFCADCGAAQPDWASINLCVVICKRCAGEHRGLGAGVSKVRSLKMDRKVWTETLIELFLQLGNGTGNRFWAANVPPSEALQPNSSPGARRRHLEAKYREGKYRRYHPLFGNQEELDKALCAAVTTTDLAETQALLGCGAGVNCFSGDPEAPTPLALAEQAGQILQMEFLRNNRTTEVPRLDSVKPLEKHYSVVLPTVSHSGFLYKTASASKLLQDRRAREEFSRRWCVLSDGVLSYYENERAVTPNGEIRASEIVCLAVPPPDTHGFEHTFEVYTEGERLYLFGLESAELAREWVKCIAKAFTPPLAEDLLAWDFERLGRLPYKAGLSLQRAQEGWFSLTGSELRAVFPEGPCEEPLQLRKLQELSVQGDSENQVLVLVERRRTLYIQGERRLDFTGWLGAIQKAAASSGDTLSEQQLGDSDIPVIVYRCVDYITQCGLTSEGIYRKCGQTSKTQRLLESLRQDARSVRLKEGEQHVDDVSSALKRFLRDLPDGLFTRAQRLAWLDTSEIEDEEEKVSRYRELLARLPPVNRATAKALISHLYCVQCFSDTNQMNTHNLAIVFGPTLFQTDGQDYKAGRVVEDLISHYVVVFSVDEEELRKQKEEITAIVKMRVAGTASGTQHAGDFICTVYLEEKKADTEQHIKIPASMTAEELTLEILDRRNVGIRERDYWTCFEVNEREEAERPLHFAEKVLPILHGLGTDSYLVVKKHPSMEAMLLYLASHVGDTKHGMMKFREDRSLLGLGLPSGGFHDRYFILNSSCLRLYKEIRSQRPWSGAPETSHRPEKEWPVRSLKVYLGVKKKLRPPTCWGFTVVHETEKHEKQQWYLCCETQMELREWFATFLFVQHDGLVWPSEPSRVSRAVPEVRLGSVSLIPLRGSENEMRRSVAAFAADPLSLLRNV

Target ORF information:

RefSeq Version	XM_019807889.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X2, mRNA.

Target ORF information:

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

XM_019807889.1

ORF Insert Sequence:

ATGGCGGAGG CCGGGGATGC AGCGCTGTCT GTGGCTGAGT GGCTGCGGGC GCTGCACCTG 
GAGCAGTACT CCGGGCTCTT CGAGCAGCAT GGACTGGTGT GGGCCACAGA GTGCCAAGGC 
CTCAGCGATG CCCGCCTGCT GGACATGGGC ATGCTGCTGC CTGGTCACCC CGCCNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNCTGGAGAG GAGGAGGGGC TGCCCCCCGC CCCTCCCATC 
CCACCCCGGA GGAGCTGCCT GCCACCTGCC TGCTTCTCCG CCCCATCCAC AGCAGCCCCG 
GACCCTGTGC TGCCCCCACT GCCTGCCAAG CGGCATTTGG CAGAGTTAAG TGTTCCGCCT 
GTGCCCCCCC GCACTGGGAC CCCCCGCCTG CTGGTGAGCC TTCCCTCCAA GGAAGAGGAG 
CTACTGTCAC CACCGCTGTC ATCCCTTCCC CAGCCAGAGC CTGAGGAGCC CCCCGCCACC 
TTCCCCCGGG TGCCTCCACA GTCCCCGTCT CCACCTCCCA GCCCCCCGGA GATCCCCCCA 
AAGCCTGTTC GCCTGCTCCC AGAGTTCGAT GACTCTGACT ACGATGAGGT TCCAGAGGAG 
GGGCCAGGGG CCCCAGCCGG CCTGATGACC AAGAAGGAGG AGCTCCCAGT GAGCCACGTC 
CCACGGGCTG TGCGTGTGGC CAGTCTGCTG AGCGAGGGGG AGGAACTGTC TGGGGACGAC 
GACCAAGGAG ATGAAGATGA GGATGACCAC GCCTACGAGG GCATCCCCAA TGGTGGATGG 
CACACCAGCA GCCTGAGCTC ATCCCTGCCC AGCAGCCTCC TGATCCCCGA GCTCCCACCA 
CACCCCATGG ACGGGCTCCC TGGGGGCTCC ACCCCCATCA CACCGGTCAT CAAGGCCGGC 
TGGCTGGACA AGAACCCACC GCAGGGATCT TACATTTATC AGAAGCGATG GGTGAGACTG 
GATGCCGATC ACCTGCGATA CTTTGACAGT AACAAGGACG CCTACTCTAA GCGCTTTATC 
TCTGTGGCCT GCATCTCCCG CGTGGCTGCC ATCGGGGACC AGAAGTTTGA AGTGATCACA 
AACAACCGGA CCTTTGCCTT CCGGGCAGAG AGCGATGCGG AGCGGAAGGA GTGGATGCAG 
GCGCTGCAGC AGGCAGTGGC CGAGCAGGCT GCCCGGGCCC GGCAGTCCAG CACTTACCCT 
TTGGGTGTTC GAGGCTCAGA GCTACCTGAC CGTGCTGGGA GCCTGGAACT ACGTGGTTTC 
AAGAATAAAC TGTATGTGGC CGTGGTTGGG GACAAAGTGC AGCTGTACAA GAATCTGGAG 
GAGTACCACC TGGGCATTGG CATCACCTTC ATTGACATGA GTGTAGGCAA CGTGAAGGAA 
GCCGACCGGC GCAGCTTCGA CCTCACCACC CCCTACCGCA TCTTCAGCTT CTCAGCCGAG 
TCGGAGCTAG AGAAGGAGCA GTGGCTGGAG GCCATGCAGG GAGCCATTGC CGAGGCCCTG 
TCTACCTCGG AGGTGGCCGA GCGCATCTGG GCCGTGGCCC CCAACAGGTT CTGTGCCGAC 
TGCGGGGCTG CCCAGCCTGA CTGGGCCTCC ATCAACCTCT GTGTCGTCAT CTGCAAGCGC 
TGTGCAGGGG AGCACCGTGG CCTGGGCGCT GGGGTCTCCA AGGTTCGGAG CCTGAAGATG 
GACAGGAAGG TGTGGACGGA AACACTCATC GAGCTCTTCT TACAGCTGGG CAATGGCACT 
GGGAACCGCT TCTGGGCAGC CAACGTGCCC CCCAGTGAGG CTCTGCAGCC CAACAGCAGC 
CCTGGTGCCC GGCGGCGCCA CCTGGAGGCC AAATACCGTG AGGGCAAGTA CCGCCGCTAC 
CACCCGCTCT TTGGCAACCA GGAGGAACTG GACAAGGCTC TGTGTGCTGC AGTCACTACC 
ACAGACCTGG CTGAGACCCA AGCTCTCCTG GGCTGTGGGG CTGGGGTCAA CTGCTTCTCA 
GGGGATCCTG AGGCTCCCAC ACCCCTGGCT CTTGCCGAGC AAGCAGGCCA GATACTGCAG 
ATGGAATTCC TTCGGAACAA CCGGACCACG GAGGTACCTC GGCTGGATTC AGTGAAGCCC 
CTGGAAAAGC ACTACTCAGT TGTCTTGCCA ACTGTGAGCC ACAGTGGCTT TCTCTACAAG 
ACCGCCTCGG CCAGCAAGCT GCTGCAGGAC CGCCGTGCCC GGGAAGAGTT CAGCCGACGC 
TGGTGTGTCC TTAGCGACGG GGTCTTAAGC TACTATGAGA ATGAGCGGGC AGTGACCCCC 
AACGGGGAGA TTCGTGCCAG CGAGATTGTG TGCCTGGCAG TGCCCCCTCC TGACACCCAT 
GGCTTTGAGC ACACCTTTGA GGTGTACACA GAGGGAGAGC GGCTGTACCT GTTTGGGCTG 
GAGAGTGCAG AGCTGGCTCG TGAGTGGGTC AAGTGCATTG CAAAGGCGTT CACACCTCCC 
CTGGCTGAAG ATCTGCTGGC CTGGGATTTT GAGCGGCTTG GGCGCCTACC TTACAAAGCT 
GGCCTGAGCC TACAGCGGGC CCAGGAGGGC TGGTTCTCCC TCACTGGCTC TGAGCTCCGT 
GCTGTCTTCC CAGAGGGACC CTGTGAGGAG CCGCTACAAC TTCGGAAACT GCAGGAGCTT 
TCCGTCCAAG GGGACAGCGA GAACCAGGTG CTGGTGCTGG TGGAGCGAAG GAGGACGCTG 
TACATCCAGG GGGAGCGACG GCTGGACTTC ACAGGCTGGC TGGGGGCCAT CCAGAAAGCA 
GCGGCCAGCT CAGGGGACAC GCTGTCGGAG CAGCAGCTCG GAGACTCAGA TATCCCCGTG 
ATTGTGTACC GCTGTGTGGA CTACATCACG CAGTGTGGCT TGACGTCCGA GGGCATCTAC 
CGCAAGTGCG GGCAGACGTC AAAGACTCAG CGGCTGCTGG AGAGCCTACG GCAGGACGCT 
CGGTCTGTGC GCCTCAAGGA GGGGGAGCAG CACGTGGATG ATGTCTCCTC AGCACTCAAG 
CGCTTCCTGC GAGACCTGCC CGATGGGCTC TTCACTCGCG CCCAGCGCCT GGCCTGGCTG 
GACACTTCAG AGATTGAGGA TGAGGAGGAG AAGGTCTCCA GGTACCGAGA GCTCCTGGCT 
CGTCTGCCTC CAGTCAACCG TGCCACAGCG AAGGCCCTTA TCAGCCACCT GTACTGCGTC 
CAGTGCTTCT CAGACACAAA CCAGATGAAC ACACACAACT TGGCTATTGT GTTTGGGCCC 
ACGCTCTTCC AGACTGATGG GCAGGACTAC AAGGCTGGCC GTGTGGTGGA AGACCTCATC 
AGCCATTATG TGGTGGTGTT TAGTGTAGAT GAGGAGGAGC TGAGGAAGCA GAAGGAGGAG 
ATCACTGCCA TTGTGAAGAT GCGTGTGGCT GGCACCGCCA GTGGGACCCA GCACGCCGGT 
GACTTCATCT GCACGGTGTA CCTGGAGGAG AAGAAGGCAG ACACAGAACA GCATATCAAG 
ATCCCGGCAT CCATGACAGC TGAGGAGCTC ACCTTGGAGA TCCTGGATCG CAGGAATGTG 
GGCATCAGGG AGAGGGACTA CTGGACCTGC TTCGAGGTCA ATGAGAGGGA GGAGGCAGAG 
CGCCCCCTGC ACTTTGCGGA GAAGGTGCTG CCCATCCTGC ACGGGCTGGG CACAGACAGC 
TACCTGGTGG TGAAGAAGCA CCCGTCCATG GAGGCCATGC TGCTGTACCT GGCCAGCCAT 
GTGGGCGACA CCAAGCACGG CATGATGAAG TTCCGTGAGG ACCGTAGCCT CCTGGGCCTG 
GGCCTGCCCT CGGGTGGCTT TCACGATCGA TACTTCATCC TCAACAGCAG CTGTCTGCGG 
CTCTACAAGG AGATCCGGAG CCAGAGGCCG TGGAGCGGGG CCCCTGAGAC CAGTCACCGG 
CCTGAGAAGG AGTGGCCTGT CAGGAGTCTC AAAGTCTACC TGGGAGTGAA GAAGAAACTG 
CGGCCACCCA CCTGCTGGGG CTTCACAGTG GTGCACGAGA CTGAGAAGCA TGAGAAGCAG 
CAGTGGTACC TCTGCTGCGA GACGCAGATG GAACTCCGGG AGTGGTTTGC CACCTTCCTC 
TTTGTGCAGC ACGACGGGCT GGTGTGGCCC TCAGAGCCCT CCCGTGTGTC CCGGGCAGTG 
CCTGAGGTCC GGCTGGGCAG CGTATCCTTG ATCCCCCTGC GTGGCAGTGA GAACGAGATG 
CGCCGGAGTG TGGCTGCCTT CGCTGCAGAC CCCCTTTCTC TCCTCCGCAA CGTCTGA

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

ARAP1 ( XM_019807888.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019663447.1 Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc98293
Clone ID Related Accession (Same CDS sequence)	XM_019807889.1 , XM_019807888.1
Accession Version	XM_019807888.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4257bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	arf-GAP with Rho-GAP domain, ANK repeat and PH domain-containing protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218509.1) 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##

ATGGCGGAGG CCGGGGATGC AGCGCTGTCT GTGGCTGAGT GGCTGCGGGC GCTGCACCTG 
GAGCAGTACT CCGGGCTCTT CGAGCAGCAT GGACTGGTGT GGGCCACAGA GTGCCAAGGC 
CTCAGCGATG CCCGCCTGCT GGACATGGGC ATGCTGCTGC CTGGTCACCC CGCCNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNCTGGAGAG GAGGAGGGGC TGCCCCCCGC CCCTCCCATC 
CCACCCCGGA GGAGCTGCCT GCCACCTGCC TGCTTCTCCG CCCCATCCAC AGCAGCCCCG 
GACCCTGTGC TGCCCCCACT GCCTGCCAAG CGGCATTTGG CAGAGTTAAG TGTTCCGCCT 
GTGCCCCCCC GCACTGGGAC CCCCCGCCTG CTGGTGAGCC TTCCCTCCAA GGAAGAGGAG 
CTACTGTCAC CACCGCTGTC ATCCCTTCCC CAGCCAGAGC CTGAGGAGCC CCCCGCCACC 
TTCCCCCGGG TGCCTCCACA GTCCCCGTCT CCACCTCCCA GCCCCCCGGA GATCCCCCCA 
AAGCCTGTTC GCCTGCTCCC AGAGTTCGAT GACTCTGACT ACGATGAGGT TCCAGAGGAG 
GGGCCAGGGG CCCCAGCCGG CCTGATGACC AAGAAGGAGG AGCTCCCAGT GAGCCACGTC 
CCACGGGCTG TGCGTGTGGC CAGTCTGCTG AGCGAGGGGG AGGAACTGTC TGGGGACGAC 
GACCAAGGAG ATGAAGATGA GGATGACCAC GCCTACGAGG GCATCCCCAA TGGTGGATGG 
CACACCAGCA GCCTGAGCTC ATCCCTGCCC AGCAGCCTCC TGATCCCCGA GCTCCCACCA 
CACCCCATGG ACGGGCTCCC TGGGGGCTCC ACCCCCATCA CACCGGTCAT CAAGGCCGGC 
TGGCTGGACA AGAACCCACC GCAGGGATCT TACATTTATC AGAAGCGATG GGTGAGACTG 
GATGCCGATC ACCTGCGATA CTTTGACAGT AACAAGGACG CCTACTCTAA GCGCTTTATC 
TCTGTGGCCT GCATCTCCCG CGTGGCTGCC ATCGGGGACC AGAAGTTTGA AGTGATCACA 
AACAACCGGA CCTTTGCCTT CCGGGCAGAG AGCGATGCGG AGCGGAAGGA GTGGATGCAG 
GCGCTGCAGC AGGCAGTGGC CGAGCAGGCT GCCCGGGCCC GGCAGTCCAG CACTTACCCT 
TTGGGTGTTC GAGGCTCAGA GCTACCTGAC CGTGCTGGGA GCCTGGAACT ACGTGGTTTC 
AAGAATAAAC TGTATGTGGC CGTGGTTGGG GACAAAGTGC AGCTGTACAA GAATCTGGAG 
GAGTACCACC TGGGCATTGG CATCACCTTC ATTGACATGA GTGTAGGCAA CGTGAAGGAA 
GCCGACCGGC GCAGCTTCGA CCTCACCACC CCCTACCGCA TCTTCAGCTT CTCAGCCGAG 
TCGGAGCTAG AGAAGGAGCA GTGGCTGGAG GCCATGCAGG GAGCCATTGC CGAGGCCCTG 
TCTACCTCGG AGGTGGCCGA GCGCATCTGG GCCGTGGCCC CCAACAGGTT CTGTGCCGAC 
TGCGGGGCTG CCCAGCCTGA CTGGGCCTCC ATCAACCTCT GTGTCGTCAT CTGCAAGCGC 
TGTGCAGGGG AGCACCGTGG CCTGGGCGCT GGGGTCTCCA AGGTTCGGAG CCTGAAGATG 
GACAGGAAGG TGTGGACGGA AACACTCATC GAGCTCTTCT TACAGCTGGG CAATGGCACT 
GGGAACCGCT TCTGGGCAGC CAACGTGCCC CCCAGTGAGG CTCTGCAGCC CAACAGCAGC 
CCTGGTGCCC GGCGGCGCCA CCTGGAGGCC AAATACCGTG AGGGCAAGTA CCGCCGCTAC 
CACCCGCTCT TTGGCAACCA GGAGGAACTG GACAAGGCTC TGTGTGCTGC AGTCACTACC 
ACAGACCTGG CTGAGACCCA AGCTCTCCTG GGCTGTGGGG CTGGGGTCAA CTGCTTCTCA 
GGGGATCCTG AGGCTCCCAC ACCCCTGGCT CTTGCCGAGC AAGCAGGCCA GATACTGCAG 
ATGGAATTCC TTCGGAACAA CCGGACCACG GAGGTACCTC GGCTGGATTC AGTGAAGCCC 
CTGGAAAAGC ACTACTCAGT TGTCTTGCCA ACTGTGAGCC ACAGTGGCTT TCTCTACAAG 
ACCGCCTCGG CCAGCAAGCT GCTGCAGGAC CGCCGTGCCC GGGAAGAGTT CAGCCGACGC 
TGGTGTGTCC TTAGCGACGG GGTCTTAAGC TACTATGAGA ATGAGCGGGC AGTGACCCCC 
AACGGGGAGA TTCGTGCCAG CGAGATTGTG TGCCTGGCAG TGCCCCCTCC TGACACCCAT 
GGCTTTGAGC ACACCTTTGA GGTGTACACA GAGGGAGAGC GGCTGTACCT GTTTGGGCTG 
GAGAGTGCAG AGCTGGCTCG TGAGTGGGTC AAGTGCATTG CAAAGGCGTT CACACCTCCC 
CTGGCTGAAG ATCTGCTGGC CTGGGATTTT GAGCGGCTTG GGCGCCTACC TTACAAAGCT 
GGCCTGAGCC TACAGCGGGC CCAGGAGGGC TGGTTCTCCC TCACTGGCTC TGAGCTCCGT 
GCTGTCTTCC CAGAGGGACC CTGTGAGGAG CCGCTACAAC TTCGGAAACT GCAGGAGCTT 
TCCGTCCAAG GGGACAGCGA GAACCAGGTG CTGGTGCTGG TGGAGCGAAG GAGGACGCTG 
TACATCCAGG GGGAGCGACG GCTGGACTTC ACAGGCTGGC TGGGGGCCAT CCAGAAAGCA 
GCGGCCAGCT CAGGGGACAC GCTGTCGGAG CAGCAGCTCG GAGACTCAGA TATCCCCGTG 
ATTGTGTACC GCTGTGTGGA CTACATCACG CAGTGTGGCT TGACGTCCGA GGGCATCTAC 
CGCAAGTGCG GGCAGACGTC AAAGACTCAG CGGCTGCTGG AGAGCCTACG GCAGGACGCT 
CGGTCTGTGC GCCTCAAGGA GGGGGAGCAG CACGTGGATG ATGTCTCCTC AGCACTCAAG 
CGCTTCCTGC GAGACCTGCC CGATGGGCTC TTCACTCGCG CCCAGCGCCT GGCCTGGCTG 
GACACTTCAG AGATTGAGGA TGAGGAGGAG AAGGTCTCCA GGTACCGAGA GCTCCTGGCT 
CGTCTGCCTC CAGTCAACCG TGCCACAGCG AAGGCCCTTA TCAGCCACCT GTACTGCGTC 
CAGTGCTTCT CAGACACAAA CCAGATGAAC ACACACAACT TGGCTATTGT GTTTGGGCCC 
ACGCTCTTCC AGACTGATGG GCAGGACTAC AAGGCTGGCC GTGTGGTGGA AGACCTCATC 
AGCCATTATG TGGTGGTGTT TAGTGTAGAT GAGGAGGAGC TGAGGAAGCA GAAGGAGGAG 
ATCACTGCCA TTGTGAAGAT GCGTGTGGCT GGCACCGCCA GTGGGACCCA GCACGCCGGT 
GACTTCATCT GCACGGTGTA CCTGGAGGAG AAGAAGGCAG ACACAGAACA GCATATCAAG 
ATCCCGGCAT CCATGACAGC TGAGGAGCTC ACCTTGGAGA TCCTGGATCG CAGGAATGTG 
GGCATCAGGG AGAGGGACTA CTGGACCTGC TTCGAGGTCA ATGAGAGGGA GGAGGCAGAG 
CGCCCCCTGC ACTTTGCGGA GAAGGTGCTG CCCATCCTGC ACGGGCTGGG CACAGACAGC 
TACCTGGTGG TGAAGAAGCA CCCGTCCATG GAGGCCATGC TGCTGTACCT GGCCAGCCAT 
GTGGGCGACA CCAAGCACGG CATGATGAAG TTCCGTGAGG ACCGTAGCCT CCTGGGCCTG 
GGCCTGCCCT CGGGTGGCTT TCACGATCGA TACTTCATCC TCAACAGCAG CTGTCTGCGG 
CTCTACAAGG AGATCCGGAG CCAGAGGCCG TGGAGCGGGG CCCCTGAGAC CAGTCACCGG 
CCTGAGAAGG AGTGGCCTGT CAGGAGTCTC AAAGTCTACC TGGGAGTGAA GAAGAAACTG 
CGGCCACCCA CCTGCTGGGG CTTCACAGTG GTGCACGAGA CTGAGAAGCA TGAGAAGCAG 
CAGTGGTACC TCTGCTGCGA GACGCAGATG GAACTCCGGG AGTGGTTTGC CACCTTCCTC 
TTTGTGCAGC ACGACGGGCT GGTGTGGCCC TCAGAGCCCT CCCGTGTGTC CCGGGCAGTG 
CCTGAGGTCC GGCTGGGCAG CGTATCCTTG ATCCCCCTGC GTGGCAGTGA GAACGAGATG 
CGCCGGAGTG TGGCTGCCTT CGCTGCAGAC CCCCTTTCTC TCCTCCGCAA CGTCTGA

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

RefSeq	XP_019663447.1
CDS	180..4436
Translation	MAEAGDAALSVAEWLRALHLEQYSGLFEQHGLVWATECQGLSDARLLDMGMLLPGHPAnullnullnullnullnullnullnullnullnullnullGEEEGLPPAPPIPPRRSCLPPACFSAPSTAAPDPVLPPLPAKRHLAELSVPPVPPRTGTPRLLVSLPSKEEELLSPPLSSLPQPEPEEPPATFPRVPPQSPSPPPSPPEIPPKPVRLLPEFDDSDYDEVPEEGPGAPAGLMTKKEELPVSHVPRAVRVASLLSEGEELSGDDDQGDEDEDDHAYEGIPNGGWHTSSLSSSLPSSLLIPELPPHPMDGLPGGSTPITPVIKAGWLDKNPPQGSYIYQKRWVRLDADHLRYFDSNKDAYSKRFISVACISRVAAIGDQKFEVITNNRTFAFRAESDAERKEWMQALQQAVAEQAARARQSSTYPLGVRGSELPDRAGSLELRGFKNKLYVAVVGDKVQLYKNLEEYHLGIGITFIDMSVGNVKEADRRSFDLTTPYRIFSFSAESELEKEQWLEAMQGAIAEALSTSEVAERIWAVAPNRFCADCGAAQPDWASINLCVVICKRCAGEHRGLGAGVSKVRSLKMDRKVWTETLIELFLQLGNGTGNRFWAANVPPSEALQPNSSPGARRRHLEAKYREGKYRRYHPLFGNQEELDKALCAAVTTTDLAETQALLGCGAGVNCFSGDPEAPTPLALAEQAGQILQMEFLRNNRTTEVPRLDSVKPLEKHYSVVLPTVSHSGFLYKTASASKLLQDRRAREEFSRRWCVLSDGVLSYYENERAVTPNGEIRASEIVCLAVPPPDTHGFEHTFEVYTEGERLYLFGLESAELAREWVKCIAKAFTPPLAEDLLAWDFERLGRLPYKAGLSLQRAQEGWFSLTGSELRAVFPEGPCEEPLQLRKLQELSVQGDSENQVLVLVERRRTLYIQGERRLDFTGWLGAIQKAAASSGDTLSEQQLGDSDIPVIVYRCVDYITQCGLTSEGIYRKCGQTSKTQRLLESLRQDARSVRLKEGEQHVDDVSSALKRFLRDLPDGLFTRAQRLAWLDTSEIEDEEEKVSRYRELLARLPPVNRATAKALISHLYCVQCFSDTNQMNTHNLAIVFGPTLFQTDGQDYKAGRVVEDLISHYVVVFSVDEEELRKQKEEITAIVKMRVAGTASGTQHAGDFICTVYLEEKKADTEQHIKIPASMTAEELTLEILDRRNVGIRERDYWTCFEVNEREEAERPLHFAEKVLPILHGLGTDSYLVVKKHPSMEAMLLYLASHVGDTKHGMMKFREDRSLLGLGLPSGGFHDRYFILNSSCLRLYKEIRSQRPWSGAPETSHRPEKEWPVRSLKVYLGVKKKLRPPTCWGFTVVHETEKHEKQQWYLCCETQMELREWFATFLFVQHDGLVWPSEPSRVSRAVPEVRLGSVSLIPLRGSENEMRRSVAAFAADPLSLLRNV

Target ORF information:

RefSeq Version	XM_019807888.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X1, mRNA.

Target ORF information:

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

XM_019807888.1

ORF Insert Sequence:

ATGGCGGAGG CCGGGGATGC AGCGCTGTCT GTGGCTGAGT GGCTGCGGGC GCTGCACCTG 
GAGCAGTACT CCGGGCTCTT CGAGCAGCAT GGACTGGTGT GGGCCACAGA GTGCCAAGGC 
CTCAGCGATG CCCGCCTGCT GGACATGGGC ATGCTGCTGC CTGGTCACCC CGCCNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNCTGGAGAG GAGGAGGGGC TGCCCCCCGC CCCTCCCATC 
CCACCCCGGA GGAGCTGCCT GCCACCTGCC TGCTTCTCCG CCCCATCCAC AGCAGCCCCG 
GACCCTGTGC TGCCCCCACT GCCTGCCAAG CGGCATTTGG CAGAGTTAAG TGTTCCGCCT 
GTGCCCCCCC GCACTGGGAC CCCCCGCCTG CTGGTGAGCC TTCCCTCCAA GGAAGAGGAG 
CTACTGTCAC CACCGCTGTC ATCCCTTCCC CAGCCAGAGC CTGAGGAGCC CCCCGCCACC 
TTCCCCCGGG TGCCTCCACA GTCCCCGTCT CCACCTCCCA GCCCCCCGGA GATCCCCCCA 
AAGCCTGTTC GCCTGCTCCC AGAGTTCGAT GACTCTGACT ACGATGAGGT TCCAGAGGAG 
GGGCCAGGGG CCCCAGCCGG CCTGATGACC AAGAAGGAGG AGCTCCCAGT GAGCCACGTC 
CCACGGGCTG TGCGTGTGGC CAGTCTGCTG AGCGAGGGGG AGGAACTGTC TGGGGACGAC 
GACCAAGGAG ATGAAGATGA GGATGACCAC GCCTACGAGG GCATCCCCAA TGGTGGATGG 
CACACCAGCA GCCTGAGCTC ATCCCTGCCC AGCAGCCTCC TGATCCCCGA GCTCCCACCA 
CACCCCATGG ACGGGCTCCC TGGGGGCTCC ACCCCCATCA CACCGGTCAT CAAGGCCGGC 
TGGCTGGACA AGAACCCACC GCAGGGATCT TACATTTATC AGAAGCGATG GGTGAGACTG 
GATGCCGATC ACCTGCGATA CTTTGACAGT AACAAGGACG CCTACTCTAA GCGCTTTATC 
TCTGTGGCCT GCATCTCCCG CGTGGCTGCC ATCGGGGACC AGAAGTTTGA AGTGATCACA 
AACAACCGGA CCTTTGCCTT CCGGGCAGAG AGCGATGCGG AGCGGAAGGA GTGGATGCAG 
GCGCTGCAGC AGGCAGTGGC CGAGCAGGCT GCCCGGGCCC GGCAGTCCAG CACTTACCCT 
TTGGGTGTTC GAGGCTCAGA GCTACCTGAC CGTGCTGGGA GCCTGGAACT ACGTGGTTTC 
AAGAATAAAC TGTATGTGGC CGTGGTTGGG GACAAAGTGC AGCTGTACAA GAATCTGGAG 
GAGTACCACC TGGGCATTGG CATCACCTTC ATTGACATGA GTGTAGGCAA CGTGAAGGAA 
GCCGACCGGC GCAGCTTCGA CCTCACCACC CCCTACCGCA TCTTCAGCTT CTCAGCCGAG 
TCGGAGCTAG AGAAGGAGCA GTGGCTGGAG GCCATGCAGG GAGCCATTGC CGAGGCCCTG 
TCTACCTCGG AGGTGGCCGA GCGCATCTGG GCCGTGGCCC CCAACAGGTT CTGTGCCGAC 
TGCGGGGCTG CCCAGCCTGA CTGGGCCTCC ATCAACCTCT GTGTCGTCAT CTGCAAGCGC 
TGTGCAGGGG AGCACCGTGG CCTGGGCGCT GGGGTCTCCA AGGTTCGGAG CCTGAAGATG 
GACAGGAAGG TGTGGACGGA AACACTCATC GAGCTCTTCT TACAGCTGGG CAATGGCACT 
GGGAACCGCT TCTGGGCAGC CAACGTGCCC CCCAGTGAGG CTCTGCAGCC CAACAGCAGC 
CCTGGTGCCC GGCGGCGCCA CCTGGAGGCC AAATACCGTG AGGGCAAGTA CCGCCGCTAC 
CACCCGCTCT TTGGCAACCA GGAGGAACTG GACAAGGCTC TGTGTGCTGC AGTCACTACC 
ACAGACCTGG CTGAGACCCA AGCTCTCCTG GGCTGTGGGG CTGGGGTCAA CTGCTTCTCA 
GGGGATCCTG AGGCTCCCAC ACCCCTGGCT CTTGCCGAGC AAGCAGGCCA GATACTGCAG 
ATGGAATTCC TTCGGAACAA CCGGACCACG GAGGTACCTC GGCTGGATTC AGTGAAGCCC 
CTGGAAAAGC ACTACTCAGT TGTCTTGCCA ACTGTGAGCC ACAGTGGCTT TCTCTACAAG 
ACCGCCTCGG CCAGCAAGCT GCTGCAGGAC CGCCGTGCCC GGGAAGAGTT CAGCCGACGC 
TGGTGTGTCC TTAGCGACGG GGTCTTAAGC TACTATGAGA ATGAGCGGGC AGTGACCCCC 
AACGGGGAGA TTCGTGCCAG CGAGATTGTG TGCCTGGCAG TGCCCCCTCC TGACACCCAT 
GGCTTTGAGC ACACCTTTGA GGTGTACACA GAGGGAGAGC GGCTGTACCT GTTTGGGCTG 
GAGAGTGCAG AGCTGGCTCG TGAGTGGGTC AAGTGCATTG CAAAGGCGTT CACACCTCCC 
CTGGCTGAAG ATCTGCTGGC CTGGGATTTT GAGCGGCTTG GGCGCCTACC TTACAAAGCT 
GGCCTGAGCC TACAGCGGGC CCAGGAGGGC TGGTTCTCCC TCACTGGCTC TGAGCTCCGT 
GCTGTCTTCC CAGAGGGACC CTGTGAGGAG CCGCTACAAC TTCGGAAACT GCAGGAGCTT 
TCCGTCCAAG GGGACAGCGA GAACCAGGTG CTGGTGCTGG TGGAGCGAAG GAGGACGCTG 
TACATCCAGG GGGAGCGACG GCTGGACTTC ACAGGCTGGC TGGGGGCCAT CCAGAAAGCA 
GCGGCCAGCT CAGGGGACAC GCTGTCGGAG CAGCAGCTCG GAGACTCAGA TATCCCCGTG 
ATTGTGTACC GCTGTGTGGA CTACATCACG CAGTGTGGCT TGACGTCCGA GGGCATCTAC 
CGCAAGTGCG GGCAGACGTC AAAGACTCAG CGGCTGCTGG AGAGCCTACG GCAGGACGCT 
CGGTCTGTGC GCCTCAAGGA GGGGGAGCAG CACGTGGATG ATGTCTCCTC AGCACTCAAG 
CGCTTCCTGC GAGACCTGCC CGATGGGCTC TTCACTCGCG CCCAGCGCCT GGCCTGGCTG 
GACACTTCAG AGATTGAGGA TGAGGAGGAG AAGGTCTCCA GGTACCGAGA GCTCCTGGCT 
CGTCTGCCTC CAGTCAACCG TGCCACAGCG AAGGCCCTTA TCAGCCACCT GTACTGCGTC 
CAGTGCTTCT CAGACACAAA CCAGATGAAC ACACACAACT TGGCTATTGT GTTTGGGCCC 
ACGCTCTTCC AGACTGATGG GCAGGACTAC AAGGCTGGCC GTGTGGTGGA AGACCTCATC 
AGCCATTATG TGGTGGTGTT TAGTGTAGAT GAGGAGGAGC TGAGGAAGCA GAAGGAGGAG 
ATCACTGCCA TTGTGAAGAT GCGTGTGGCT GGCACCGCCA GTGGGACCCA GCACGCCGGT 
GACTTCATCT GCACGGTGTA CCTGGAGGAG AAGAAGGCAG ACACAGAACA GCATATCAAG 
ATCCCGGCAT CCATGACAGC TGAGGAGCTC ACCTTGGAGA TCCTGGATCG CAGGAATGTG 
GGCATCAGGG AGAGGGACTA CTGGACCTGC TTCGAGGTCA ATGAGAGGGA GGAGGCAGAG 
CGCCCCCTGC ACTTTGCGGA GAAGGTGCTG CCCATCCTGC ACGGGCTGGG CACAGACAGC 
TACCTGGTGG TGAAGAAGCA CCCGTCCATG GAGGCCATGC TGCTGTACCT GGCCAGCCAT 
GTGGGCGACA CCAAGCACGG CATGATGAAG TTCCGTGAGG ACCGTAGCCT CCTGGGCCTG 
GGCCTGCCCT CGGGTGGCTT TCACGATCGA TACTTCATCC TCAACAGCAG CTGTCTGCGG 
CTCTACAAGG AGATCCGGAG CCAGAGGCCG TGGAGCGGGG CCCCTGAGAC CAGTCACCGG 
CCTGAGAAGG AGTGGCCTGT CAGGAGTCTC AAAGTCTACC TGGGAGTGAA GAAGAAACTG 
CGGCCACCCA CCTGCTGGGG CTTCACAGTG GTGCACGAGA CTGAGAAGCA TGAGAAGCAG 
CAGTGGTACC TCTGCTGCGA GACGCAGATG GAACTCCGGG AGTGGTTTGC CACCTTCCTC 
TTTGTGCAGC ACGACGGGCT GGTGTGGCCC TCAGAGCCCT CCCGTGTGTC CCGGGCAGTG 
CCTGAGGTCC GGCTGGGCAG CGTATCCTTG ATCCCCCTGC GTGGCAGTGA GAACGAGATG 
CGCCGGAGTG TGGCTGCCTT CGCTGCAGAC CCCCTTTCTC TCCTCCGCAA CGTCTGA

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

ARAP1 ( XM_019807890.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019663449.1 Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X3, mRNA.

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CloneID	OAc98294
Clone ID Related Accession (Same CDS sequence)	XM_019807890.1
Accession Version	XM_019807890.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4224bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	arf-GAP with Rho-GAP domain, ANK repeat and PH domain-containing protein 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218509.1) 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##

ATGGCGGAGG CCGGGGATGC AGCGCTGTCT GTGGCTGAGT GGCTGCGGGC GCTGCACCTG 
GAGCAGTACT CCGGGCTCTT CGAGCAGCAT GGACTGGTGT GGGCCACAGA GTGCCAAGGC 
CTCAGCGATG CCCGCCTGCT GGACATGGGC ATGCTGCTGC CTGGTCACCC CGCCNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNCTGGAGAG GAGGAGGGGC TGCCCCCCGC CCCTCCCATC 
CCACCCCGGA GGAGCTGCCT GCCACCTGCC TGCTTCTCCG CCCCATCCAC AGCAGCCCCG 
GACCCTGTGC TGCCCCCACT GCCTGCCAAG CGGCATTTGG CAGAGTTAAG TGTTCCGCCT 
GTGCCCCCCC GCACTGGGAC CCCCCGCCTG CTGGTGAGCC TTCCCTCCAA GGAAGAGGAG 
CTACTGTCAC CACCGCTGTC ATCCCTTCCC CAGCCAGAGC CTGAGGAGCC CCCCGCCACC 
TTCCCCCGGG TGCCTCCACA GTCCCCGTCT CCACCTCCCA GCCCCCCGGA GATCCCCCCA 
AAGCCTGTTC GCCTGCTCCC AGAGTTCGAT GACTCTGACT ACGATGAGGT TCCAGAGGAG 
GGGCCAGGGG CCCCAGCCGG CCTGATGACC AAGAAGGAGG AGCTCCCAGT GAGCCACGTC 
CCACGGGCTG TGCGTGTGGC CAGTCTGCTG AGCGAGGGGG AGGAACTGTC TGGGGACGAC 
GACCAAGGAG ATGAAGATGA GGATGACCAC GCCTACGAGG GCATCCCCAA TGGTGGATGG 
CACACCAGCA GCCTGAGCTC ATCCCTGCCC AGCAGCCTCC TGATCCCCGA GCTCCCACCA 
CACCCCATGG ACGGGCTCCC TGGGGGCTCC ACCCCCATCA CACCGGTCAT CAAGGCCGGC 
TGGCTGGACA AGAACCCACC GCAGGGATCT TACATTTATC AGAAGCGATG GGTGAGACTG 
GATGCCGATC ACCTGCGATA CTTTGACAGT AACAAGGACG CCTACTCTAA GCGCTTTATC 
TCTGTGGCCT GCATCTCCCG CGTGGCTGCC ATCGGGGACC AGAAGTTTGA AGTGATCACA 
AACAACCGGA CCTTTGCCTT CCGGGCAGAG AGCGATGCGG AGCGGAAGGA GTGGATGCAG 
GCGCTGCAGC AGGCAGTGGC CGAGCAGGCT GCCCGGGCCC GGCAGTCCAG CACTTACCCT 
TTGGGTGTTC GAGGCTCAGA GCTACCTGAC CGTGCTGGGA GCCTGGAACT ACGTGGTTTC 
AAGAATAAAC TGTATGTGGC CGTGGTTGGG GACAAAGTGC AGCTGTACAA GAATCTGGAG 
GAGTACCACC TGGGCATTGG CATCACCTTC ATTGACATGA GTGTAGGCAA CGTGAAGGAA 
GCCGACCGGC GCAGCTTCGA CCTCACCACC CCCTACCGCA TCTTCAGCTT CTCAGCCGAG 
TCGGAGCTAG AGAAGGAGCA GTGGCTGGAG GCCATGCAGG GAGCCATTGC CGAGGCCCTG 
TCTACCTCGG AGGTGGCCGA GCGCATCTGG GCCGTGGCCC CCAACAGGTT CTGTGCCGAC 
TGCGGGGCTG CCCAGCCTGA CTGGGCCTCC ATCAACCTCT GTGTCGTCAT CTGCAAGCGC 
TGTGCAGGGG AGCACCGTGG CCTGGGCGCT GGGGTCTCCA AGGTTCGGAG CCTGAAGATG 
GACAGGAAGG TGTGGACGGA AACACTCATC GAGCTCTTCT TACAGCTGGG CAATGGCACT 
GGGAACCGCT TCTGGGCAGC CAACGTGCCC CCCAGTGAGG CTCTGCAGCC CAACAGCAGC 
CCTGGTGCCC GGCGGCGCCA CCTGGAGGCC AAATACCGTG AGGGCAAGTA CCGCCGCTAC 
CACCCGCTCT TTGGCAACCA GGAGGAACTG GACAAGGCTC TGTGTGCTGC AGTCACTACC 
ACAGACCTGG CTGAGACCCA AGCTCTCCTG GGCTGTGGGG CTGGGGTCAA CTGCTTCTCA 
GGGGATCCTG AGGCTCCCAC ACCCCTGGCT CTTGCCGAGC AAGCAGGCCA GATACTGCAG 
ATGGAATTCC TTCGGAACAA CCGGACCACG GAGGTACCTC GGCTGGATTC AGTGAAGCCC 
CTGGAAAAGC ACTACTCAGT TGTCTTGCCA ACTGTGAGCC ACAGTGGCTT TCTCTACAAG 
ACCGCCTCGG CCAGCAAGCT GCTGCAGGAC CGCCGTGCCC GGGAAGAGTT CAGCCGACGC 
TGGTGTGTCC TTAGCGACGG GGTCTTAAGC TACTATGAGA ATGAGCGGGC AGTGACCCCC 
AACGGGGAGA TTCGTGCCAG CGAGATTGTG TGCCTGGCAG TGCCCCCTCC TGACACCCAT 
GGCTTTGAGC ACACCTTTGA GGTGTACACA GAGGGAGAGC GGCTGTACCT GTTTGGGCTG 
GAGAGTGCAG AGCTGGCTCG TGAGTGGGTC AAGTGCATTG CAAAGGCGTT CACACCTCCC 
CTGGCTGAAG ATCTGCTGGC CTGGGATTTT GAGCGGCTTG GGCGCCTACC TTACAAAGCT 
GGCCTGAGCC TACAGCGGGC CCAGGAGGGC TGGTTCTCCC TCACTGGCTC TGAGCTCCGT 
GCTGTCTTCC CAGAGGGACC CTGTGAGGAG CCGCTACAAC TTCGGAAACT GCAGGAGCTT 
TCCGTCCAAG GGGACAGCGA GAACCAGGTG CTGGTGCTGG TGGAGCGAAG GAGGACGCTG 
TACATCCAGG GGGAGCGACG GCTGGACTTC ACAGGCTGGC TGGGGGCCAT CCAGAAAGCA 
GCGGCCAGCT CAGGGGACAC GCTGTCGGAG CAGCAGCTCG GAGACTCAGA TATCCCCGTG 
ATTGTGTACC GCTGTGTGGA CTACATCACG CAGTGTGGCT TGACGTCCGA GGGCATCTAC 
CGCAAGTGCG GGCAGACGTC AAAGACTCAG CGGCTGCTGG AGAGCCTACG GCAGGACGCT 
CGGTCTGTGC GCCTCAAGGA GGGGGAGCAG CACGTGGATG ATGTCTCCTC AGCACTCAAG 
CGCTTCCTGC GAGACCTGCC CGATGGGCTC TTCACTCGCG CCCAGCGCCT GGCCTGGCTG 
GACACTTCAG AGATTGAGGA TGAGGAGGAG AAGGTCTCCA GGTACCGAGA GCTCCTGGCT 
CGTCTGCCTC CAGTCAACCG TGCCACAGCG AAGGCCCTTA TCAGCCACCT GTACTGCGTC 
CAGTGCTTCT CAGACACAAA CCAGATGAAC ACACACAACT TGGCTATTGT GTTTGGGCCC 
ACGCTCTTCC AGACTGATGG GCAGGACTAC AAGGCTGGCC GTGTGGTGGA AGACCTCATC 
AGCCATTATG TGGTGGTGTT TAGTGTAGAT GAGGAGGAGC TGAGGAAGCA GAAGGAGGAG 
ATCACTGCCA TTGTGAAGAT GCGTGTGGCT GGCACCGCCA GTGGGACCCA GCACGCCGGT 
GACTTCATCT GCACGGTGTA CCTGGAGGAG AAGAAGGCAG ACACAGAACA GCATATCAAG 
ATCCCGGCAT CCATGACAGC TGAGGAGCTC ACCTTGGAGA TCCTGGATCG CAGGAATGTG 
GGCATCAGGG AGAGGGACTA CTGGACCTGC TTCGAGGTCA ATGAGAGGGA GGAGGCAGAG 
CGCCCCCTGC ACTTTGCGGA GAAGGTGCTG CCCATCCTGC ACGGGCTGGG CACAGACAGC 
TACCTGGTGG TGAAGAAGCA CCCGTCCATG GAGGCCATGC TGCTGTACCT GGCCAGCCAT 
GTGGGCGACA CCAAGCACGG CATGATGAAG TTCCGTGAGG ACCGTAGCCT CCTGGGCCTG 
GGCCTGCCCT CGGGTGGCTT TCACGATCGA TACTTCATCC TCAACAGCAG CTGTCTGCGG 
CTCTACAAGG AGATCCGGAG TCACCGGCCT GAGAAGGAGT GGCCTGTCAG GAGTCTCAAA 
GTCTACCTGG GAGTGAAGAA GAAACTGCGG CCACCCACCT GCTGGGGCTT CACAGTGGTG 
CACGAGACTG AGAAGCATGA GAAGCAGCAG TGGTACCTCT GCTGCGAGAC GCAGATGGAA 
CTCCGGGAGT GGTTTGCCAC CTTCCTCTTT GTGCAGCACG ACGGGCTGGT GTGGCCCTCA 
GAGCCCTCCC GTGTGTCCCG GGCAGTGCCT GAGGTCCGGC TGGGCAGCGT ATCCTTGATC 
CCCCTGCGTG GCAGTGAGAA CGAGATGCGC CGGAGTGTGG CTGCCTTCGC TGCAGACCCC 
CTTTCTCTCC TCCGCAACGT CTGA

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

RefSeq	XP_019663449.1
CDS	180..4403
Translation	MAEAGDAALSVAEWLRALHLEQYSGLFEQHGLVWATECQGLSDARLLDMGMLLPGHPAnullnullnullnullnullnullnullnullnullnullGEEEGLPPAPPIPPRRSCLPPACFSAPSTAAPDPVLPPLPAKRHLAELSVPPVPPRTGTPRLLVSLPSKEEELLSPPLSSLPQPEPEEPPATFPRVPPQSPSPPPSPPEIPPKPVRLLPEFDDSDYDEVPEEGPGAPAGLMTKKEELPVSHVPRAVRVASLLSEGEELSGDDDQGDEDEDDHAYEGIPNGGWHTSSLSSSLPSSLLIPELPPHPMDGLPGGSTPITPVIKAGWLDKNPPQGSYIYQKRWVRLDADHLRYFDSNKDAYSKRFISVACISRVAAIGDQKFEVITNNRTFAFRAESDAERKEWMQALQQAVAEQAARARQSSTYPLGVRGSELPDRAGSLELRGFKNKLYVAVVGDKVQLYKNLEEYHLGIGITFIDMSVGNVKEADRRSFDLTTPYRIFSFSAESELEKEQWLEAMQGAIAEALSTSEVAERIWAVAPNRFCADCGAAQPDWASINLCVVICKRCAGEHRGLGAGVSKVRSLKMDRKVWTETLIELFLQLGNGTGNRFWAANVPPSEALQPNSSPGARRRHLEAKYREGKYRRYHPLFGNQEELDKALCAAVTTTDLAETQALLGCGAGVNCFSGDPEAPTPLALAEQAGQILQMEFLRNNRTTEVPRLDSVKPLEKHYSVVLPTVSHSGFLYKTASASKLLQDRRAREEFSRRWCVLSDGVLSYYENERAVTPNGEIRASEIVCLAVPPPDTHGFEHTFEVYTEGERLYLFGLESAELAREWVKCIAKAFTPPLAEDLLAWDFERLGRLPYKAGLSLQRAQEGWFSLTGSELRAVFPEGPCEEPLQLRKLQELSVQGDSENQVLVLVERRRTLYIQGERRLDFTGWLGAIQKAAASSGDTLSEQQLGDSDIPVIVYRCVDYITQCGLTSEGIYRKCGQTSKTQRLLESLRQDARSVRLKEGEQHVDDVSSALKRFLRDLPDGLFTRAQRLAWLDTSEIEDEEEKVSRYRELLARLPPVNRATAKALISHLYCVQCFSDTNQMNTHNLAIVFGPTLFQTDGQDYKAGRVVEDLISHYVVVFSVDEEELRKQKEEITAIVKMRVAGTASGTQHAGDFICTVYLEEKKADTEQHIKIPASMTAEELTLEILDRRNVGIRERDYWTCFEVNEREEAERPLHFAEKVLPILHGLGTDSYLVVKKHPSMEAMLLYLASHVGDTKHGMMKFREDRSLLGLGLPSGGFHDRYFILNSSCLRLYKEIRSHRPEKEWPVRSLKVYLGVKKKLRPPTCWGFTVVHETEKHEKQQWYLCCETQMELREWFATFLFVQHDGLVWPSEPSRVSRAVPEVRLGSVSLIPLRGSENEMRRSVAAFAADPLSLLRNV

Target ORF information:

RefSeq Version	XM_019807890.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X3, mRNA.

Target ORF information:

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

XM_019807890.1

ORF Insert Sequence:

ATGGCGGAGG CCGGGGATGC AGCGCTGTCT GTGGCTGAGT GGCTGCGGGC GCTGCACCTG 
GAGCAGTACT CCGGGCTCTT CGAGCAGCAT GGACTGGTGT GGGCCACAGA GTGCCAAGGC 
CTCAGCGATG CCCGCCTGCT GGACATGGGC ATGCTGCTGC CTGGTCACCC CGCCNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNCTGGAGAG GAGGAGGGGC TGCCCCCCGC CCCTCCCATC 
CCACCCCGGA GGAGCTGCCT GCCACCTGCC TGCTTCTCCG CCCCATCCAC AGCAGCCCCG 
GACCCTGTGC TGCCCCCACT GCCTGCCAAG CGGCATTTGG CAGAGTTAAG TGTTCCGCCT 
GTGCCCCCCC GCACTGGGAC CCCCCGCCTG CTGGTGAGCC TTCCCTCCAA GGAAGAGGAG 
CTACTGTCAC CACCGCTGTC ATCCCTTCCC CAGCCAGAGC CTGAGGAGCC CCCCGCCACC 
TTCCCCCGGG TGCCTCCACA GTCCCCGTCT CCACCTCCCA GCCCCCCGGA GATCCCCCCA 
AAGCCTGTTC GCCTGCTCCC AGAGTTCGAT GACTCTGACT ACGATGAGGT TCCAGAGGAG 
GGGCCAGGGG CCCCAGCCGG CCTGATGACC AAGAAGGAGG AGCTCCCAGT GAGCCACGTC 
CCACGGGCTG TGCGTGTGGC CAGTCTGCTG AGCGAGGGGG AGGAACTGTC TGGGGACGAC 
GACCAAGGAG ATGAAGATGA GGATGACCAC GCCTACGAGG GCATCCCCAA TGGTGGATGG 
CACACCAGCA GCCTGAGCTC ATCCCTGCCC AGCAGCCTCC TGATCCCCGA GCTCCCACCA 
CACCCCATGG ACGGGCTCCC TGGGGGCTCC ACCCCCATCA CACCGGTCAT CAAGGCCGGC 
TGGCTGGACA AGAACCCACC GCAGGGATCT TACATTTATC AGAAGCGATG GGTGAGACTG 
GATGCCGATC ACCTGCGATA CTTTGACAGT AACAAGGACG CCTACTCTAA GCGCTTTATC 
TCTGTGGCCT GCATCTCCCG CGTGGCTGCC ATCGGGGACC AGAAGTTTGA AGTGATCACA 
AACAACCGGA CCTTTGCCTT CCGGGCAGAG AGCGATGCGG AGCGGAAGGA GTGGATGCAG 
GCGCTGCAGC AGGCAGTGGC CGAGCAGGCT GCCCGGGCCC GGCAGTCCAG CACTTACCCT 
TTGGGTGTTC GAGGCTCAGA GCTACCTGAC CGTGCTGGGA GCCTGGAACT ACGTGGTTTC 
AAGAATAAAC TGTATGTGGC CGTGGTTGGG GACAAAGTGC AGCTGTACAA GAATCTGGAG 
GAGTACCACC TGGGCATTGG CATCACCTTC ATTGACATGA GTGTAGGCAA CGTGAAGGAA 
GCCGACCGGC GCAGCTTCGA CCTCACCACC CCCTACCGCA TCTTCAGCTT CTCAGCCGAG 
TCGGAGCTAG AGAAGGAGCA GTGGCTGGAG GCCATGCAGG GAGCCATTGC CGAGGCCCTG 
TCTACCTCGG AGGTGGCCGA GCGCATCTGG GCCGTGGCCC CCAACAGGTT CTGTGCCGAC 
TGCGGGGCTG CCCAGCCTGA CTGGGCCTCC ATCAACCTCT GTGTCGTCAT CTGCAAGCGC 
TGTGCAGGGG AGCACCGTGG CCTGGGCGCT GGGGTCTCCA AGGTTCGGAG CCTGAAGATG 
GACAGGAAGG TGTGGACGGA AACACTCATC GAGCTCTTCT TACAGCTGGG CAATGGCACT 
GGGAACCGCT TCTGGGCAGC CAACGTGCCC CCCAGTGAGG CTCTGCAGCC CAACAGCAGC 
CCTGGTGCCC GGCGGCGCCA CCTGGAGGCC AAATACCGTG AGGGCAAGTA CCGCCGCTAC 
CACCCGCTCT TTGGCAACCA GGAGGAACTG GACAAGGCTC TGTGTGCTGC AGTCACTACC 
ACAGACCTGG CTGAGACCCA AGCTCTCCTG GGCTGTGGGG CTGGGGTCAA CTGCTTCTCA 
GGGGATCCTG AGGCTCCCAC ACCCCTGGCT CTTGCCGAGC AAGCAGGCCA GATACTGCAG 
ATGGAATTCC TTCGGAACAA CCGGACCACG GAGGTACCTC GGCTGGATTC AGTGAAGCCC 
CTGGAAAAGC ACTACTCAGT TGTCTTGCCA ACTGTGAGCC ACAGTGGCTT TCTCTACAAG 
ACCGCCTCGG CCAGCAAGCT GCTGCAGGAC CGCCGTGCCC GGGAAGAGTT CAGCCGACGC 
TGGTGTGTCC TTAGCGACGG GGTCTTAAGC TACTATGAGA ATGAGCGGGC AGTGACCCCC 
AACGGGGAGA TTCGTGCCAG CGAGATTGTG TGCCTGGCAG TGCCCCCTCC TGACACCCAT 
GGCTTTGAGC ACACCTTTGA GGTGTACACA GAGGGAGAGC GGCTGTACCT GTTTGGGCTG 
GAGAGTGCAG AGCTGGCTCG TGAGTGGGTC AAGTGCATTG CAAAGGCGTT CACACCTCCC 
CTGGCTGAAG ATCTGCTGGC CTGGGATTTT GAGCGGCTTG GGCGCCTACC TTACAAAGCT 
GGCCTGAGCC TACAGCGGGC CCAGGAGGGC TGGTTCTCCC TCACTGGCTC TGAGCTCCGT 
GCTGTCTTCC CAGAGGGACC CTGTGAGGAG CCGCTACAAC TTCGGAAACT GCAGGAGCTT 
TCCGTCCAAG GGGACAGCGA GAACCAGGTG CTGGTGCTGG TGGAGCGAAG GAGGACGCTG 
TACATCCAGG GGGAGCGACG GCTGGACTTC ACAGGCTGGC TGGGGGCCAT CCAGAAAGCA 
GCGGCCAGCT CAGGGGACAC GCTGTCGGAG CAGCAGCTCG GAGACTCAGA TATCCCCGTG 
ATTGTGTACC GCTGTGTGGA CTACATCACG CAGTGTGGCT TGACGTCCGA GGGCATCTAC 
CGCAAGTGCG GGCAGACGTC AAAGACTCAG CGGCTGCTGG AGAGCCTACG GCAGGACGCT 
CGGTCTGTGC GCCTCAAGGA GGGGGAGCAG CACGTGGATG ATGTCTCCTC AGCACTCAAG 
CGCTTCCTGC GAGACCTGCC CGATGGGCTC TTCACTCGCG CCCAGCGCCT GGCCTGGCTG 
GACACTTCAG AGATTGAGGA TGAGGAGGAG AAGGTCTCCA GGTACCGAGA GCTCCTGGCT 
CGTCTGCCTC CAGTCAACCG TGCCACAGCG AAGGCCCTTA TCAGCCACCT GTACTGCGTC 
CAGTGCTTCT CAGACACAAA CCAGATGAAC ACACACAACT TGGCTATTGT GTTTGGGCCC 
ACGCTCTTCC AGACTGATGG GCAGGACTAC AAGGCTGGCC GTGTGGTGGA AGACCTCATC 
AGCCATTATG TGGTGGTGTT TAGTGTAGAT GAGGAGGAGC TGAGGAAGCA GAAGGAGGAG 
ATCACTGCCA TTGTGAAGAT GCGTGTGGCT GGCACCGCCA GTGGGACCCA GCACGCCGGT 
GACTTCATCT GCACGGTGTA CCTGGAGGAG AAGAAGGCAG ACACAGAACA GCATATCAAG 
ATCCCGGCAT CCATGACAGC TGAGGAGCTC ACCTTGGAGA TCCTGGATCG CAGGAATGTG 
GGCATCAGGG AGAGGGACTA CTGGACCTGC TTCGAGGTCA ATGAGAGGGA GGAGGCAGAG 
CGCCCCCTGC ACTTTGCGGA GAAGGTGCTG CCCATCCTGC ACGGGCTGGG CACAGACAGC 
TACCTGGTGG TGAAGAAGCA CCCGTCCATG GAGGCCATGC TGCTGTACCT GGCCAGCCAT 
GTGGGCGACA CCAAGCACGG CATGATGAAG TTCCGTGAGG ACCGTAGCCT CCTGGGCCTG 
GGCCTGCCCT CGGGTGGCTT TCACGATCGA TACTTCATCC TCAACAGCAG CTGTCTGCGG 
CTCTACAAGG AGATCCGGAG TCACCGGCCT GAGAAGGAGT GGCCTGTCAG GAGTCTCAAA 
GTCTACCTGG GAGTGAAGAA GAAACTGCGG CCACCCACCT GCTGGGGCTT CACAGTGGTG 
CACGAGACTG AGAAGCATGA GAAGCAGCAG TGGTACCTCT GCTGCGAGAC GCAGATGGAA 
CTCCGGGAGT GGTTTGCCAC CTTCCTCTTT GTGCAGCACG ACGGGCTGGT GTGGCCCTCA 
GAGCCCTCCC GTGTGTCCCG GGCAGTGCCT GAGGTCCGGC TGGGCAGCGT ATCCTTGATC 
CCCCTGCGTG GCAGTGAGAA CGAGATGCGC CGGAGTGTGG CTGCCTTCGC TGCAGACCCC 
CTTTCTCTCC TCCGCAACGT CTGA

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

ARAP1 ( XM_019807891.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019663450.1 Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X4, mRNA.

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CloneID	OAc98295
Clone ID Related Accession (Same CDS sequence)	XM_019807891.1
Accession Version	XM_019807891.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3666bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	arf-GAP with Rho-GAP domain, ANK repeat and PH domain-containing protein 1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218509.1) 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##

ATGACCAAGA AGGAGGAGCT CCCAGTGAGC CACGTCCCAC GGGCTGTGCG TGTGGCCAGT 
CTGCTGAGCG AGGGGGAGGA ACTGTCTGGG GACGACGACC AAGGAGATGA AGATGAGGAT 
GACCACGCCT ACGAGGGCAT CCCCAATGGT GGATGGCACA CCAGCAGCCT GAGCTCATCC 
CTGCCCAGCA GCCTCCTGAT CCCCGAGCTC CCACCACACC CCATGGACGG GCTCCCTGGG 
GGCTCCACCC CCATCACACC GGTCATCAAG GCCGGCTGGC TGGACAAGAA CCCACCGCAG 
GGATCTTACA TTTATCAGAA GCGATGGGTG AGACTGGATG CCGATCACCT GCGATACTTT 
GACAGTAACA AGGACGCCTA CTCTAAGCGC TTTATCTCTG TGGCCTGCAT CTCCCGCGTG 
GCTGCCATCG GGGACCAGAA GTTTGAAGTG ATCACAAACA ACCGGACCTT TGCCTTCCGG 
GCAGAGAGCG ATGCGGAGCG GAAGGAGTGG ATGCAGGCGC TGCAGCAGGC AGTGGCCGAG 
CAGGCTGCCC GGGCCCGGCA GTCCAGCACT TACCCTTTGG GTGTTCGAGG CTCAGAGCTA 
CCTGACCGTG CTGGGAGCCT GGAACTACGT GGTTTCAAGA ATAAACTGTA TGTGGCCGTG 
GTTGGGGACA AAGTGCAGCT GTACAAGAAT CTGGAGGAGT ACCACCTGGG CATTGGCATC 
ACCTTCATTG ACATGAGTGT AGGCAACGTG AAGGAAGCCG ACCGGCGCAG CTTCGACCTC 
ACCACCCCCT ACCGCATCTT CAGCTTCTCA GCCGAGTCGG AGCTAGAGAA GGAGCAGTGG 
CTGGAGGCCA TGCAGGGAGC CATTGCCGAG GCCCTGTCTA CCTCGGAGGT GGCCGAGCGC 
ATCTGGGCCG TGGCCCCCAA CAGGTTCTGT GCCGACTGCG GGGCTGCCCA GCCTGACTGG 
GCCTCCATCA ACCTCTGTGT CGTCATCTGC AAGCGCTGTG CAGGGGAGCA CCGTGGCCTG 
GGCGCTGGGG TCTCCAAGGT TCGGAGCCTG AAGATGGACA GGAAGGTGTG GACGGAAACA 
CTCATCGAGC TCTTCTTACA GCTGGGCAAT GGCACTGGGA ACCGCTTCTG GGCAGCCAAC 
GTGCCCCCCA GTGAGGCTCT GCAGCCCAAC AGCAGCCCTG GTGCCCGGCG GCGCCACCTG 
GAGGCCAAAT ACCGTGAGGG CAAGTACCGC CGCTACCACC CGCTCTTTGG CAACCAGGAG 
GAACTGGACA AGGCTCTGTG TGCTGCAGTC ACTACCACAG ACCTGGCTGA GACCCAAGCT 
CTCCTGGGCT GTGGGGCTGG GGTCAACTGC TTCTCAGGGG ATCCTGAGGC TCCCACACCC 
CTGGCTCTTG CCGAGCAAGC AGGCCAGATA CTGCAGATGG AATTCCTTCG GAACAACCGG 
ACCACGGAGG TACCTCGGCT GGATTCAGTG AAGCCCCTGG AAAAGCACTA CTCAGTTGTC 
TTGCCAACTG TGAGCCACAG TGGCTTTCTC TACAAGACCG CCTCGGCCAG CAAGCTGCTG 
CAGGACCGCC GTGCCCGGGA AGAGTTCAGC CGACGCTGGT GTGTCCTTAG CGACGGGGTC 
TTAAGCTACT ATGAGAATGA GCGGGCAGTG ACCCCCAACG GGGAGATTCG TGCCAGCGAG 
ATTGTGTGCC TGGCAGTGCC CCCTCCTGAC ACCCATGGCT TTGAGCACAC CTTTGAGGTG 
TACACAGAGG GAGAGCGGCT GTACCTGTTT GGGCTGGAGA GTGCAGAGCT GGCTCGTGAG 
TGGGTCAAGT GCATTGCAAA GGCGTTCACA CCTCCCCTGG CTGAAGATCT GCTGGCCTGG 
GATTTTGAGC GGCTTGGGCG CCTACCTTAC AAAGCTGGCC TGAGCCTACA GCGGGCCCAG 
GAGGGCTGGT TCTCCCTCAC TGGCTCTGAG CTCCGTGCTG TCTTCCCAGA GGGACCCTGT 
GAGGAGCCGC TACAACTTCG GAAACTGCAG GAGCTTTCCG TCCAAGGGGA CAGCGAGAAC 
CAGGTGCTGG TGCTGGTGGA GCGAAGGAGG ACGCTGTACA TCCAGGGGGA GCGACGGCTG 
GACTTCACAG GCTGGCTGGG GGCCATCCAG AAAGCAGCGG CCAGCTCAGG GGACACGCTG 
TCGGAGCAGC AGCTCGGAGA CTCAGATATC CCCGTGATTG TGTACCGCTG TGTGGACTAC 
ATCACGCAGT GTGGCTTGAC GTCCGAGGGC ATCTACCGCA AGTGCGGGCA GACGTCAAAG 
ACTCAGCGGC TGCTGGAGAG CCTACGGCAG GACGCTCGGT CTGTGCGCCT CAAGGAGGGG 
GAGCAGCACG TGGATGATGT CTCCTCAGCA CTCAAGCGCT TCCTGCGAGA CCTGCCCGAT 
GGGCTCTTCA CTCGCGCCCA GCGCCTGGCC TGGCTGGACA CTTCAGAGAT TGAGGATGAG 
GAGGAGAAGG TCTCCAGGTA CCGAGAGCTC CTGGCTCGTC TGCCTCCAGT CAACCGTGCC 
ACAGCGAAGG CCCTTATCAG CCACCTGTAC TGCGTCCAGT GCTTCTCAGA CACAAACCAG 
ATGAACACAC ACAACTTGGC TATTGTGTTT GGGCCCACGC TCTTCCAGAC TGATGGGCAG 
GACTACAAGG CTGGCCGTGT GGTGGAAGAC CTCATCAGCC ATTATGTGGT GGTGTTTAGT 
GTAGATGAGG AGGAGCTGAG GAAGCAGAAG GAGGAGATCA CTGCCATTGT GAAGATGCGT 
GTGGCTGGCA CCGCCAGTGG GACCCAGCAC GCCGGTGACT TCATCTGCAC GGTGTACCTG 
GAGGAGAAGA AGGCAGACAC AGAACAGCAT ATCAAGATCC CGGCATCCAT GACAGCTGAG 
GAGCTCACCT TGGAGATCCT GGATCGCAGG AATGTGGGCA TCAGGGAGAG GGACTACTGG 
ACCTGCTTCG AGGTCAATGA GAGGGAGGAG GCAGAGCGCC CCCTGCACTT TGCGGAGAAG 
GTGCTGCCCA TCCTGCACGG GCTGGGCACA GACAGCTACC TGGTGGTGAA GAAGCACCCG 
TCCATGGAGG CCATGCTGCT GTACCTGGCC AGCCATGTGG GCGACACCAA GCACGGCATG 
ATGAAGTTCC GTGAGGACCG TAGCCTCCTG GGCCTGGGCC TGCCCTCGGG TGGCTTTCAC 
GATCGATACT TCATCCTCAA CAGCAGCTGT CTGCGGCTCT ACAAGGAGAT CCGGAGCCAG 
AGGCCGTGGA GCGGGGCCCC TGAGACCAGT CACCGGCCTG AGAAGGAGTG GCCTGTCAGG 
AGTCTCAAAG TCTACCTGGG AGTGAAGAAG AAACTGCGGC CACCCACCTG CTGGGGCTTC 
ACAGTGGTGC ACGAGACTGA GAAGCATGAG AAGCAGCAGT GGTACCTCTG CTGCGAGACG 
CAGATGGAAC TCCGGGAGTG GTTTGCCACC TTCCTCTTTG TGCAGCACGA CGGGCTGGTG 
TGGCCCTCAG AGCCCTCCCG TGTGTCCCGG GCAGTGCCTG AGGTCCGGCT GGGCAGCGTA 
TCCTTGATCC CCCTGCGTGG CAGTGAGAAC GAGATGCGCC GGAGTGTGGC TGCCTTCGCT 
GCAGACCCCC TTTCTTTCAC AGGAGCCCCC TCTTTGCCTG GCCCTGGGGG ACCCCAGCTG 
ACCTGA

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

RefSeq	XP_019663450.1
CDS	135..3800
Translation	MTKKEELPVSHVPRAVRVASLLSEGEELSGDDDQGDEDEDDHAYEGIPNGGWHTSSLSSSLPSSLLIPELPPHPMDGLPGGSTPITPVIKAGWLDKNPPQGSYIYQKRWVRLDADHLRYFDSNKDAYSKRFISVACISRVAAIGDQKFEVITNNRTFAFRAESDAERKEWMQALQQAVAEQAARARQSSTYPLGVRGSELPDRAGSLELRGFKNKLYVAVVGDKVQLYKNLEEYHLGIGITFIDMSVGNVKEADRRSFDLTTPYRIFSFSAESELEKEQWLEAMQGAIAEALSTSEVAERIWAVAPNRFCADCGAAQPDWASINLCVVICKRCAGEHRGLGAGVSKVRSLKMDRKVWTETLIELFLQLGNGTGNRFWAANVPPSEALQPNSSPGARRRHLEAKYREGKYRRYHPLFGNQEELDKALCAAVTTTDLAETQALLGCGAGVNCFSGDPEAPTPLALAEQAGQILQMEFLRNNRTTEVPRLDSVKPLEKHYSVVLPTVSHSGFLYKTASASKLLQDRRAREEFSRRWCVLSDGVLSYYENERAVTPNGEIRASEIVCLAVPPPDTHGFEHTFEVYTEGERLYLFGLESAELAREWVKCIAKAFTPPLAEDLLAWDFERLGRLPYKAGLSLQRAQEGWFSLTGSELRAVFPEGPCEEPLQLRKLQELSVQGDSENQVLVLVERRRTLYIQGERRLDFTGWLGAIQKAAASSGDTLSEQQLGDSDIPVIVYRCVDYITQCGLTSEGIYRKCGQTSKTQRLLESLRQDARSVRLKEGEQHVDDVSSALKRFLRDLPDGLFTRAQRLAWLDTSEIEDEEEKVSRYRELLARLPPVNRATAKALISHLYCVQCFSDTNQMNTHNLAIVFGPTLFQTDGQDYKAGRVVEDLISHYVVVFSVDEEELRKQKEEITAIVKMRVAGTASGTQHAGDFICTVYLEEKKADTEQHIKIPASMTAEELTLEILDRRNVGIRERDYWTCFEVNEREEAERPLHFAEKVLPILHGLGTDSYLVVKKHPSMEAMLLYLASHVGDTKHGMMKFREDRSLLGLGLPSGGFHDRYFILNSSCLRLYKEIRSQRPWSGAPETSHRPEKEWPVRSLKVYLGVKKKLRPPTCWGFTVVHETEKHEKQQWYLCCETQMELREWFATFLFVQHDGLVWPSEPSRVSRAVPEVRLGSVSLIPLRGSENEMRRSVAAFAADPLSFTGAPSLPGPGGPQLT

Target ORF information:

RefSeq Version	XM_019807891.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (ARAP1), transcript variant X4, mRNA.

Target ORF information:

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

XM_019807891.1

ORF Insert Sequence:

ATGACCAAGA AGGAGGAGCT CCCAGTGAGC CACGTCCCAC GGGCTGTGCG TGTGGCCAGT 
CTGCTGAGCG AGGGGGAGGA ACTGTCTGGG GACGACGACC AAGGAGATGA AGATGAGGAT 
GACCACGCCT ACGAGGGCAT CCCCAATGGT GGATGGCACA CCAGCAGCCT GAGCTCATCC 
CTGCCCAGCA GCCTCCTGAT CCCCGAGCTC CCACCACACC CCATGGACGG GCTCCCTGGG 
GGCTCCACCC CCATCACACC GGTCATCAAG GCCGGCTGGC TGGACAAGAA CCCACCGCAG 
GGATCTTACA TTTATCAGAA GCGATGGGTG AGACTGGATG CCGATCACCT GCGATACTTT 
GACAGTAACA AGGACGCCTA CTCTAAGCGC TTTATCTCTG TGGCCTGCAT CTCCCGCGTG 
GCTGCCATCG GGGACCAGAA GTTTGAAGTG ATCACAAACA ACCGGACCTT TGCCTTCCGG 
GCAGAGAGCG ATGCGGAGCG GAAGGAGTGG ATGCAGGCGC TGCAGCAGGC AGTGGCCGAG 
CAGGCTGCCC GGGCCCGGCA GTCCAGCACT TACCCTTTGG GTGTTCGAGG CTCAGAGCTA 
CCTGACCGTG CTGGGAGCCT GGAACTACGT GGTTTCAAGA ATAAACTGTA TGTGGCCGTG 
GTTGGGGACA AAGTGCAGCT GTACAAGAAT CTGGAGGAGT ACCACCTGGG CATTGGCATC 
ACCTTCATTG ACATGAGTGT AGGCAACGTG AAGGAAGCCG ACCGGCGCAG CTTCGACCTC 
ACCACCCCCT ACCGCATCTT CAGCTTCTCA GCCGAGTCGG AGCTAGAGAA GGAGCAGTGG 
CTGGAGGCCA TGCAGGGAGC CATTGCCGAG GCCCTGTCTA CCTCGGAGGT GGCCGAGCGC 
ATCTGGGCCG TGGCCCCCAA CAGGTTCTGT GCCGACTGCG GGGCTGCCCA GCCTGACTGG 
GCCTCCATCA ACCTCTGTGT CGTCATCTGC AAGCGCTGTG CAGGGGAGCA CCGTGGCCTG 
GGCGCTGGGG TCTCCAAGGT TCGGAGCCTG AAGATGGACA GGAAGGTGTG GACGGAAACA 
CTCATCGAGC TCTTCTTACA GCTGGGCAAT GGCACTGGGA ACCGCTTCTG GGCAGCCAAC 
GTGCCCCCCA GTGAGGCTCT GCAGCCCAAC AGCAGCCCTG GTGCCCGGCG GCGCCACCTG 
GAGGCCAAAT ACCGTGAGGG CAAGTACCGC CGCTACCACC CGCTCTTTGG CAACCAGGAG 
GAACTGGACA AGGCTCTGTG TGCTGCAGTC ACTACCACAG ACCTGGCTGA GACCCAAGCT 
CTCCTGGGCT GTGGGGCTGG GGTCAACTGC TTCTCAGGGG ATCCTGAGGC TCCCACACCC 
CTGGCTCTTG CCGAGCAAGC AGGCCAGATA CTGCAGATGG AATTCCTTCG GAACAACCGG 
ACCACGGAGG TACCTCGGCT GGATTCAGTG AAGCCCCTGG AAAAGCACTA CTCAGTTGTC 
TTGCCAACTG TGAGCCACAG TGGCTTTCTC TACAAGACCG CCTCGGCCAG CAAGCTGCTG 
CAGGACCGCC GTGCCCGGGA AGAGTTCAGC CGACGCTGGT GTGTCCTTAG CGACGGGGTC 
TTAAGCTACT ATGAGAATGA GCGGGCAGTG ACCCCCAACG GGGAGATTCG TGCCAGCGAG 
ATTGTGTGCC TGGCAGTGCC CCCTCCTGAC ACCCATGGCT TTGAGCACAC CTTTGAGGTG 
TACACAGAGG GAGAGCGGCT GTACCTGTTT GGGCTGGAGA GTGCAGAGCT GGCTCGTGAG 
TGGGTCAAGT GCATTGCAAA GGCGTTCACA CCTCCCCTGG CTGAAGATCT GCTGGCCTGG 
GATTTTGAGC GGCTTGGGCG CCTACCTTAC AAAGCTGGCC TGAGCCTACA GCGGGCCCAG 
GAGGGCTGGT TCTCCCTCAC TGGCTCTGAG CTCCGTGCTG TCTTCCCAGA GGGACCCTGT 
GAGGAGCCGC TACAACTTCG GAAACTGCAG GAGCTTTCCG TCCAAGGGGA CAGCGAGAAC 
CAGGTGCTGG TGCTGGTGGA GCGAAGGAGG ACGCTGTACA TCCAGGGGGA GCGACGGCTG 
GACTTCACAG GCTGGCTGGG GGCCATCCAG AAAGCAGCGG CCAGCTCAGG GGACACGCTG 
TCGGAGCAGC AGCTCGGAGA CTCAGATATC CCCGTGATTG TGTACCGCTG TGTGGACTAC 
ATCACGCAGT GTGGCTTGAC GTCCGAGGGC ATCTACCGCA AGTGCGGGCA GACGTCAAAG 
ACTCAGCGGC TGCTGGAGAG CCTACGGCAG GACGCTCGGT CTGTGCGCCT CAAGGAGGGG 
GAGCAGCACG TGGATGATGT CTCCTCAGCA CTCAAGCGCT TCCTGCGAGA CCTGCCCGAT 
GGGCTCTTCA CTCGCGCCCA GCGCCTGGCC TGGCTGGACA CTTCAGAGAT TGAGGATGAG 
GAGGAGAAGG TCTCCAGGTA CCGAGAGCTC CTGGCTCGTC TGCCTCCAGT CAACCGTGCC 
ACAGCGAAGG CCCTTATCAG CCACCTGTAC TGCGTCCAGT GCTTCTCAGA CACAAACCAG 
ATGAACACAC ACAACTTGGC TATTGTGTTT GGGCCCACGC TCTTCCAGAC TGATGGGCAG 
GACTACAAGG CTGGCCGTGT GGTGGAAGAC CTCATCAGCC ATTATGTGGT GGTGTTTAGT 
GTAGATGAGG AGGAGCTGAG GAAGCAGAAG GAGGAGATCA CTGCCATTGT GAAGATGCGT 
GTGGCTGGCA CCGCCAGTGG GACCCAGCAC GCCGGTGACT TCATCTGCAC GGTGTACCTG 
GAGGAGAAGA AGGCAGACAC AGAACAGCAT ATCAAGATCC CGGCATCCAT GACAGCTGAG 
GAGCTCACCT TGGAGATCCT GGATCGCAGG AATGTGGGCA TCAGGGAGAG GGACTACTGG 
ACCTGCTTCG AGGTCAATGA GAGGGAGGAG GCAGAGCGCC CCCTGCACTT TGCGGAGAAG 
GTGCTGCCCA TCCTGCACGG GCTGGGCACA GACAGCTACC TGGTGGTGAA GAAGCACCCG 
TCCATGGAGG CCATGCTGCT GTACCTGGCC AGCCATGTGG GCGACACCAA GCACGGCATG 
ATGAAGTTCC GTGAGGACCG TAGCCTCCTG GGCCTGGGCC TGCCCTCGGG TGGCTTTCAC 
GATCGATACT TCATCCTCAA CAGCAGCTGT CTGCGGCTCT ACAAGGAGAT CCGGAGCCAG 
AGGCCGTGGA GCGGGGCCCC TGAGACCAGT CACCGGCCTG AGAAGGAGTG GCCTGTCAGG 
AGTCTCAAAG TCTACCTGGG AGTGAAGAAG AAACTGCGGC CACCCACCTG CTGGGGCTTC 
ACAGTGGTGC ACGAGACTGA GAAGCATGAG AAGCAGCAGT GGTACCTCTG CTGCGAGACG 
CAGATGGAAC TCCGGGAGTG GTTTGCCACC TTCCTCTTTG TGCAGCACGA CGGGCTGGTG 
TGGCCCTCAG AGCCCTCCCG TGTGTCCCGG GCAGTGCCTG AGGTCCGGCT GGGCAGCGTA 
TCCTTGATCC CCCTGCGTGG CAGTGAGAAC GAGATGCGCC GGAGTGTGGC TGCCTTCGCT 
GCAGACCCCC TTTCTTTCAC AGGAGCCCCC TCTTTGCCTG GCCCTGGGGG ACCCCAGCTG 
ACCTGA

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

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ARAP1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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