RAPGEF1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	RAPGEF1
Entrez Gene ID	100478465
Full Name	Rap guanine nucleotide exchange factor 1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019795301.1	XP_019650860.1	LOW QUALITY PROTEIN: rap guanine nucleotide exchange factor 1

Pathways from BioSystems
Gene Ontology

The following RAPGEF1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RAPGEF1 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
OAc89966	XM_019795301.1 Latest version!	Ailuropoda melanoleuca Rap guanine nucleotide exchange factor 1 (RAPGEF1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

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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)

RAPGEF1 ( XM_019795301.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019650860.1 Ailuropoda melanoleuca Rap guanine nucleotide exchange factor 1 (RAPGEF1), mRNA.

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CloneID	OAc89966
Clone ID Related Accession (Same CDS sequence)	XM_019795301.1
Accession Version	XM_019795301.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3933bp) 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	LOW QUALITY PROTEIN: rap guanine nucleotide exchange factor 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217371.1) 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 :: 2% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGGGCAATG CTGCTGAGAA ACAGAAGCCT CGGAAACGAA GCCGTCTGTG CCCCTGGAAG 
CAAGACTCTC AGCGTTCTCA TCTCTCCTCC TTCACCATGA AGCTGAAGGA CAAATTCCAC 
TCACCCAAAA TCAAGAGAAC GCCATCAAAG AAGGGAAAAC CAGCTGAGGT GTCTGTGAAA 
AATGCGGAGA AGCCTGTGAG CAAAGAGGCA ACAGACAGAT TTCTACCAGA GGGCTACCCT 
CTCCCCTTGG ATCTGGAGCA CCAGGCAGTA GAGTTTATGT CCACCAGTGC TGTGGCTTCC 
AGGTCTCAGA GGCAGAAGAA CCTGAGCTGG CTGGAAGAGA AAGAGAAAGA AGTTGTTAGT 
GCCTTGCGCT ACTTTAAGAC CATTGTGGAC AAAATGGCTA TTGATAAGAA GGTACTGGAG 
ATGCTTCCAG GGTCAGCCAG CAAGGTGCTG GAGGCCATCT TACCCCTGGT GCAGAGTGAT 
CCTCGAATTC AACACAGCTC AGCCCTCTCC TCCTGCTATA GCCGAGTGTA CCAAAGTCTC 
GCCAACCTCA TCCGTTGGTC TGACCAAGTG ATGCTAGAAG GTGTGAACTC AGAAGATAAA 
GAGACAGTGA CAACCGTGAA GGGAGTCATC AAGGCTGTGC TGGACGGAGT GAAGGAGCTG 
GTCAGACTTA CCATCGAGAA GCAGGGGCAT CCGTCTCCAA CCAGCCCAGT GAAACCCAGT 
TCCCCAGCCT GCAAACCCGA CAGCCAGTCT GAGCTCCCCC TGACAGATCG AGAGATGGAG 
ATTCTAAACA AAACAAGTGG CCTGTCCCAG TCGGCCGAGC TACTCCCAGA CTCTACAGAT 
GAGGAGGTCG CACCCCCAAA GCCTCCCTTA CCTGGCATTC GGGTGGTTGA TAACAGTCCT 
CCACCAGCAT TGCCACCGAA GAAAAGACAG TCAGCTCCAT CCCCGACACG AGTGCGAGTG 
GCTGTCGTTG CCCCCATGAG TCGAGCCACC AGTGGCTCCA GTTTGCCTGT TGGAATTAAT 
AGGCAGGATT TTGACGTGGA CTGTTACACA CAGAGGCGAC TCTCAGGAGG CAGCCATTCG 
TACGGCGGAG AGTCGCCCCG CCTGTCCCCC TGCAGCAGCA TAGGCAAGCT CAGCAAGTCA 
GACGAGCAGC TGTCCTCTCT GGACAGGGAC AGCGGCCAGT GCTCCCGGAA CACAAGCTGT 
GAAACACTAG ATCACTATGA CCCTGACTAC GAATTCCTTC AGCAAGACCT CTCTAACGCC 
GACCAGATAC CTCAGCAAGT GGCCTGTAAC CTTAGCCCGT TGCCGGAGTC CTTGGGAGAG 
TCTGGCTCTC CATTTCTTGG CCATCCTTTC CAGTTGCCTC CAGCACCTGG CGGCTGTCCC 
CAGCCAGAGG GAACGTCGGC CCCAGGACAG CAGATGGACA CGCCGCCTGC TCTCCCCGAG 
AAGAAGCGCA GGAGTGCGGC CTCCCAGACC ACGGACAGCT CTGGCTGCAG GGTGTCCTAC 
GAGCGGCACC CCTCCCAGTA CGACAACATC TCCGAGGATG ACCTGCAGAA CCCAGCCTCG 
GTCCCGTCCG TCCCCTTCAC GCCCTTTGCT GCTATTCTCC CCTTTCAGCA AGGAGGGTCC 
TCCGCCTCTG TCGAATTTGT GGGTGATTTC ACTGTTCCTG AATCAACGGG TGACCCGGAA 
AAACCGCCTC CTTTACCAGA GAAGAAAAAC AAACACATGC TGGCCTACAT GCAGCTGCTC 
GAGGACTACT CGGAACCGCA GCCATCCGTG TTCTACCAGA CGCCGCAGAA CGAGCACATC 
TACCAGCAGA AGAACAAGCT CCTCATGGAG GTGTACGGCT TCAACGACTA CCCCGTGGCC 
GGGACCCTGC GCTTCCGCAG GCCCGGGGCT GGGCTGCCGT GGGCCACGCT GCTTCCCACA 
CGGGTAGCAG CCAGTGGAGC CTTCATGCGA ACCTGCCTGA CTGTTCTCTG CTTTTCTCCC 
TCCTTCCCTG TCCTCCCTCT TGTCCCTTCT GTCCAGCAGG CCTCCTATGC TGCTTCTTCC 
TTCTCCTCTG TCTCCTACTG TGTCCAGCAA ACTAAAGTGG CCTTCACCCC CGAGGACAGC 
AGTGCCACTC AGGGCATCAG TGTGTCCGTC TCTAACTCCT TTCTCAGCCG GCACGGCAAC 
TTGCCTGTGC CCTCGTATAA ATCTGTGTTT AGGTCCTACT CCCAGGATTT CGTGCCTCAC 
AACCAAGCTT CCGTTCAACC TTTCCTTCCG TCCACCTCCT CTTCCTCTCC ACATTTCCCA 
CCCGTCCACC AGTCTCAGAG CTCTGACTTA GCGGTGCCAA CCGTAGCCAG TCTGCCTCCC 
AGCACCGTGG ACGGGCCTCT CTCATCTTCT CAGGAGAGCA ACTTTCATGG GAACACTGTC 
TGCCTTCCTT CCGAAACCTC TTTCACTGAC TCGCCCCAGA CGCCTTCGAG TGAAAACACC 
AGTGAGGAGG CTGGTGAGGG TGAATACGTC AATCTGTATT CCTCTGGCCA GAGCAGCGAG 
GAGCTGGCTC ACTCTCGAGG AGAATCACCA GCTATGAAAG ACGGACATCC CAGAGATCTC 
TCGTCGGCCA GCAGTGCACC CGGGAAGGAG AGCAGAGACG GCGACAGGGC CTCAAGGTCA 
CCAGATGGTT CAGAGTTGGC TCAGTCGGAG GAGGAAGTGG ATGAGCTGTC CCTCATCGAC 
CACAGCGAGA TTATGGCGAG GCTGACCCTC AAGCAGGAGG GTGACGATGG GCCAGACGTC 
CGTGGCGGGT CTGGAGATAT CCTACTGGTG CACGCTACTG AGACAGACAG GAAAGATTTG 
GTGCTGTACT GTGAGGCCTT CCTGACCACC TACAGGACCT TCATCACCCC GGAGGAGCTC 
ATCAGGAAAA TGGCTTTCCT TAACCCACAC TCCACGTACG AGAAGTTCTC ACCCTTTGCT 
GACACGTTCA AGAAGCGCGT CAGCAAGAAC ACGTTCTTCG TGCTGGTGCG GGTGGTGGAT 
GAGCTCTGCC TCGTGGAGTT GACCGAAGAG ATCTTGAAGC TGCTGATGGA GCTGGTCTTC 
CGCTTGGTGT GCAGTGGGGA GCTCAGCCTG GCCCGTGTGC TCCGGAAGAA CATCCTGGAC 
AAGGTGGACC AGAAGAAACT GCTCAGGTGT GCCAACTCCG ACCAGCCCCT GGCAGCCCGG 
GGGGTAGCCG CCAGGCCGGG GACTTTGCAT GACTTTCACA GCCATGAAAT AGCCGAGCAG 
CTGACCCTGC TGGATGCTGA GCTCTTCTAT AAAATAGAGA TTCCTGAGGT TTTGCTTTGG 
GCAAAAGAGC AGAATGAGGA GAAAAGCCCC AACTTGACCC AGTTCACAGA GCACTTCAAC 
AACATGTCAT ACTGGGTGCG CTCAATCATC ATGTTACAGG AGAAAGCCCA GGACAGGGAG 
CGGCTGCTGT TGAAGTTCAT CAAGATCATG AAGCACCTAC GGAAGCTGAA CAACTTTAAC 
TCCTACCTGG CCATCCTCTC GGCGCTGGAC TCGGCTCCCA TCCGCAGGCT GGAGTGGCAG 
AAGCAGACCT CGGAGGGCCT GGCCGAGTAC TGTACGCTGA TCGACAGCTC GTCCTCCTTC 
CGCGCCTACC GGGCCGCCCT CTCCGAGGTG GAGCCCCCCT GTATCCCGTA CCTGGGCCTC 
ATCCTGCAGG ACCTCACCTT TGTTCACCTG GGAAACCCAG ACTATATTGA TGGGAAGGTG 
AATTTTTCCA AACGGTGGCA GCAGTTCAAC ATTCTGGACA GCATGCGGTG CTTCCAGCAA 
GCGCACTACG ATATCCGAAG AAACGATGAT ATCATAAACT TCTTCAATGA CTTCAGCGAC 
CACCTGGCGG AGGAGGCCCT GTGGGAACTT TCTCTGAAAA TCAAACCTAG GAACATAACA 
AGGAGAAAAA CAGACCGGGA GGAGAAGACC TAG

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

RefSeq	XP_019650860.1
CDS	1294..5226
Translation	MGNAAEKQKPRKRSRLCPWKQDSQRSHLSSFTMKLKDKFHSPKIKRTPSKKGKPAEVSVKNAEKPVSKEATDRFLPEGYPLPLDLEHQAVEFMSTSAVASRSQRQKNLSWLEEKEKEVVSALRYFKTIVDKMAIDKKVLEMLPGSASKVLEAILPLVQSDPRIQHSSALSSCYSRVYQSLANLIRWSDQVMLEGVNSEDKETVTTVKGVIKAVLDGVKELVRLTIEKQGHPSPTSPVKPSSPACKPDSQSELPLTDREMEILNKTSGLSQSAELLPDSTDEEVAPPKPPLPGIRVVDNSPPPALPPKKRQSAPSPTRVRVAVVAPMSRATSGSSLPVGINRQDFDVDCYTQRRLSGGSHSYGGESPRLSPCSSIGKLSKSDEQLSSLDRDSGQCSRNTSCETLDHYDPDYEFLQQDLSNADQIPQQVACNLSPLPESLGESGSPFLGHPFQLPPAPGGCPQPEGTSAPGQQMDTPPALPEKKRRSAASQTTDSSGCRVSYERHPSQYDNISEDDLQNPASVPSVPFTPFAAILPFQQGGSSASVEFVGDFTVPESTGDPEKPPPLPEKKNKHMLAYMQLLEDYSEPQPSVFYQTPQNEHIYQQKNKLLMEVYGFNDYPVAGTLRFRRPGAGLPWATLLPTRVAASGAFMRTCLTVLCFSPSFPVLPLVPSVQQASYAASSFSSVSYCVQQTKVAFTPEDSSATQGISVSVSNSFLSRHGNLPVPSYKSVFRSYSQDFVPHNQASVQPFLPSTSSSSPHFPPVHQSQSSDLAVPTVASLPPSTVDGPLSSSQESNFHGNTVCLPSETSFTDSPQTPSSENTSEEAGEGEYVNLYSSGQSSEELAHSRGESPAMKDGHPRDLSSASSAPGKESRDGDRASRSPDGSELAQSEEEVDELSLIDHSEIMARLTLKQEGDDGPDVRGGSGDILLVHATETDRKDLVLYCEAFLTTYRTFITPEELIRKMAFLNPHSTYEKFSPFADTFKKRVSKNTFFVLVRVVDELCLVELTEEILKLLMELVFRLVCSGELSLARVLRKNILDKVDQKKLLRCANSDQPLAARGVAARPGTLHDFHSHEIAEQLTLLDAELFYKIEIPEVLLWAKEQNEEKSPNLTQFTEHFNNMSYWVRSIIMLQEKAQDRERLLLKFIKIMKHLRKLNNFNSYLAILSALDSAPIRRLEWQKQTSEGLAEYCTLIDSSSSFRAYRAALSEVEPPCIPYLGLILQDLTFVHLGNPDYIDGKVNFSKRWQQFNILDSMRCFQQAHYDIRRNDDIINFFNDFSDHLAEEALWELSLKIKPRNITRRKTDREEKT

Target ORF information:

RefSeq Version	XM_019795301.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca Rap guanine nucleotide exchange factor 1 (RAPGEF1), mRNA.

Target ORF information:

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

XM_019795301.1

ORF Insert Sequence:

ATGGGCAATG CTGCTGAGAA ACAGAAGCCT CGGAAACGAA GCCGTCTGTG CCCCTGGAAG 
CAAGACTCTC AGCGTTCTCA TCTCTCCTCC TTCACCATGA AGCTGAAGGA CAAATTCCAC 
TCACCCAAAA TCAAGAGAAC GCCATCAAAG AAGGGAAAAC CAGCTGAGGT GTCTGTGAAA 
AATGCGGAGA AGCCTGTGAG CAAAGAGGCA ACAGACAGAT TTCTACCAGA GGGCTACCCT 
CTCCCCTTGG ATCTGGAGCA CCAGGCAGTA GAGTTTATGT CCACCAGTGC TGTGGCTTCC 
AGGTCTCAGA GGCAGAAGAA CCTGAGCTGG CTGGAAGAGA AAGAGAAAGA AGTTGTTAGT 
GCCTTGCGCT ACTTTAAGAC CATTGTGGAC AAAATGGCTA TTGATAAGAA GGTACTGGAG 
ATGCTTCCAG GGTCAGCCAG CAAGGTGCTG GAGGCCATCT TACCCCTGGT GCAGAGTGAT 
CCTCGAATTC AACACAGCTC AGCCCTCTCC TCCTGCTATA GCCGAGTGTA CCAAAGTCTC 
GCCAACCTCA TCCGTTGGTC TGACCAAGTG ATGCTAGAAG GTGTGAACTC AGAAGATAAA 
GAGACAGTGA CAACCGTGAA GGGAGTCATC AAGGCTGTGC TGGACGGAGT GAAGGAGCTG 
GTCAGACTTA CCATCGAGAA GCAGGGGCAT CCGTCTCCAA CCAGCCCAGT GAAACCCAGT 
TCCCCAGCCT GCAAACCCGA CAGCCAGTCT GAGCTCCCCC TGACAGATCG AGAGATGGAG 
ATTCTAAACA AAACAAGTGG CCTGTCCCAG TCGGCCGAGC TACTCCCAGA CTCTACAGAT 
GAGGAGGTCG CACCCCCAAA GCCTCCCTTA CCTGGCATTC GGGTGGTTGA TAACAGTCCT 
CCACCAGCAT TGCCACCGAA GAAAAGACAG TCAGCTCCAT CCCCGACACG AGTGCGAGTG 
GCTGTCGTTG CCCCCATGAG TCGAGCCACC AGTGGCTCCA GTTTGCCTGT TGGAATTAAT 
AGGCAGGATT TTGACGTGGA CTGTTACACA CAGAGGCGAC TCTCAGGAGG CAGCCATTCG 
TACGGCGGAG AGTCGCCCCG CCTGTCCCCC TGCAGCAGCA TAGGCAAGCT CAGCAAGTCA 
GACGAGCAGC TGTCCTCTCT GGACAGGGAC AGCGGCCAGT GCTCCCGGAA CACAAGCTGT 
GAAACACTAG ATCACTATGA CCCTGACTAC GAATTCCTTC AGCAAGACCT CTCTAACGCC 
GACCAGATAC CTCAGCAAGT GGCCTGTAAC CTTAGCCCGT TGCCGGAGTC CTTGGGAGAG 
TCTGGCTCTC CATTTCTTGG CCATCCTTTC CAGTTGCCTC CAGCACCTGG CGGCTGTCCC 
CAGCCAGAGG GAACGTCGGC CCCAGGACAG CAGATGGACA CGCCGCCTGC TCTCCCCGAG 
AAGAAGCGCA GGAGTGCGGC CTCCCAGACC ACGGACAGCT CTGGCTGCAG GGTGTCCTAC 
GAGCGGCACC CCTCCCAGTA CGACAACATC TCCGAGGATG ACCTGCAGAA CCCAGCCTCG 
GTCCCGTCCG TCCCCTTCAC GCCCTTTGCT GCTATTCTCC CCTTTCAGCA AGGAGGGTCC 
TCCGCCTCTG TCGAATTTGT GGGTGATTTC ACTGTTCCTG AATCAACGGG TGACCCGGAA 
AAACCGCCTC CTTTACCAGA GAAGAAAAAC AAACACATGC TGGCCTACAT GCAGCTGCTC 
GAGGACTACT CGGAACCGCA GCCATCCGTG TTCTACCAGA CGCCGCAGAA CGAGCACATC 
TACCAGCAGA AGAACAAGCT CCTCATGGAG GTGTACGGCT TCAACGACTA CCCCGTGGCC 
GGGACCCTGC GCTTCCGCAG GCCCGGGGCT GGGCTGCCGT GGGCCACGCT GCTTCCCACA 
CGGGTAGCAG CCAGTGGAGC CTTCATGCGA ACCTGCCTGA CTGTTCTCTG CTTTTCTCCC 
TCCTTCCCTG TCCTCCCTCT TGTCCCTTCT GTCCAGCAGG CCTCCTATGC TGCTTCTTCC 
TTCTCCTCTG TCTCCTACTG TGTCCAGCAA ACTAAAGTGG CCTTCACCCC CGAGGACAGC 
AGTGCCACTC AGGGCATCAG TGTGTCCGTC TCTAACTCCT TTCTCAGCCG GCACGGCAAC 
TTGCCTGTGC CCTCGTATAA ATCTGTGTTT AGGTCCTACT CCCAGGATTT CGTGCCTCAC 
AACCAAGCTT CCGTTCAACC TTTCCTTCCG TCCACCTCCT CTTCCTCTCC ACATTTCCCA 
CCCGTCCACC AGTCTCAGAG CTCTGACTTA GCGGTGCCAA CCGTAGCCAG TCTGCCTCCC 
AGCACCGTGG ACGGGCCTCT CTCATCTTCT CAGGAGAGCA ACTTTCATGG GAACACTGTC 
TGCCTTCCTT CCGAAACCTC TTTCACTGAC TCGCCCCAGA CGCCTTCGAG TGAAAACACC 
AGTGAGGAGG CTGGTGAGGG TGAATACGTC AATCTGTATT CCTCTGGCCA GAGCAGCGAG 
GAGCTGGCTC ACTCTCGAGG AGAATCACCA GCTATGAAAG ACGGACATCC CAGAGATCTC 
TCGTCGGCCA GCAGTGCACC CGGGAAGGAG AGCAGAGACG GCGACAGGGC CTCAAGGTCA 
CCAGATGGTT CAGAGTTGGC TCAGTCGGAG GAGGAAGTGG ATGAGCTGTC CCTCATCGAC 
CACAGCGAGA TTATGGCGAG GCTGACCCTC AAGCAGGAGG GTGACGATGG GCCAGACGTC 
CGTGGCGGGT CTGGAGATAT CCTACTGGTG CACGCTACTG AGACAGACAG GAAAGATTTG 
GTGCTGTACT GTGAGGCCTT CCTGACCACC TACAGGACCT TCATCACCCC GGAGGAGCTC 
ATCAGGAAAA TGGCTTTCCT TAACCCACAC TCCACGTACG AGAAGTTCTC ACCCTTTGCT 
GACACGTTCA AGAAGCGCGT CAGCAAGAAC ACGTTCTTCG TGCTGGTGCG GGTGGTGGAT 
GAGCTCTGCC TCGTGGAGTT GACCGAAGAG ATCTTGAAGC TGCTGATGGA GCTGGTCTTC 
CGCTTGGTGT GCAGTGGGGA GCTCAGCCTG GCCCGTGTGC TCCGGAAGAA CATCCTGGAC 
AAGGTGGACC AGAAGAAACT GCTCAGGTGT GCCAACTCCG ACCAGCCCCT GGCAGCCCGG 
GGGGTAGCCG CCAGGCCGGG GACTTTGCAT GACTTTCACA GCCATGAAAT AGCCGAGCAG 
CTGACCCTGC TGGATGCTGA GCTCTTCTAT AAAATAGAGA TTCCTGAGGT TTTGCTTTGG 
GCAAAAGAGC AGAATGAGGA GAAAAGCCCC AACTTGACCC AGTTCACAGA GCACTTCAAC 
AACATGTCAT ACTGGGTGCG CTCAATCATC ATGTTACAGG AGAAAGCCCA GGACAGGGAG 
CGGCTGCTGT TGAAGTTCAT CAAGATCATG AAGCACCTAC GGAAGCTGAA CAACTTTAAC 
TCCTACCTGG CCATCCTCTC GGCGCTGGAC TCGGCTCCCA TCCGCAGGCT GGAGTGGCAG 
AAGCAGACCT CGGAGGGCCT GGCCGAGTAC TGTACGCTGA TCGACAGCTC GTCCTCCTTC 
CGCGCCTACC GGGCCGCCCT CTCCGAGGTG GAGCCCCCCT GTATCCCGTA CCTGGGCCTC 
ATCCTGCAGG ACCTCACCTT TGTTCACCTG GGAAACCCAG ACTATATTGA TGGGAAGGTG 
AATTTTTCCA AACGGTGGCA GCAGTTCAAC ATTCTGGACA GCATGCGGTG CTTCCAGCAA 
GCGCACTACG ATATCCGAAG AAACGATGAT ATCATAAACT TCTTCAATGA CTTCAGCGAC 
CACCTGGCGG AGGAGGCCCT GTGGGAACTT TCTCTGAAAA TCAAACCTAG GAACATAACA 
AGGAGAAAAA CAGACCGGGA GGAGAAGACC TAG