Uhrf1bp1 cDNA ORF clone, Chinchilla lanigera(long-tailed chinchilla)

Gene
Clones
gRNAs

Summary

Gene Symbol	Uhrf1bp1
Entrez Gene ID	102012244
Full Name	UHRF1 binding protein 1
Gene Type	protein-coding
Organism	Chinchilla lanigera(long-tailed chinchilla)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005390117.2	XP_005390174.1	UHRF1-binding protein 1

Pathways from BioSystems
Gene Ontology

The following Uhrf1bp1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Uhrf1bp1 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
OCh213996	XM_005390117.2 Latest version!	Chinchilla lanigera UHRF1 binding protein 1 (Uhrf1bp1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00

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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)

Uhrf1bp1 ( XM_005390117.2 ) cDNA ORF clone, Chinchilla lanigera(long-tailed chinchilla) -> XP_005390174.1 Chinchilla lanigera UHRF1 binding protein 1 (Uhrf1bp1), mRNA.

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CloneID	OCh213996
Clone ID Related Accession (Same CDS sequence)	XM_005390117.2
Accession Version	XM_005390117.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4560bp) 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	2015-08-18
Organism	Chinchilla lanigera(long-tailed chinchilla)
Product	UHRF1-binding protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004955437.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Aug 19, 2015 this sequence version replaced XM_005390117.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Chinchilla lanigera Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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 ##RefSeq-Attributes-END##

ATGGGTTACA TCTTGTATGG ACCAACCAGA ATGGAAATGC ACTGGACTGC GAGCCAGAAC 
ATGGGTTCTA GCTCTGAGTA TCAAGAACCC TCCCGCTCGC AGCCCGGACC CCGGCGTGCT 
CCTTCCCGGC GGCTCCTTCC CTTCTTCCTC CTGACCCTGT TGCATCACCC TGGAAAAGGC 
GTGAGCCCCG CGCGCAGGGC CGGTCCTCCG AGCGCCCTTC TCCGCCTGCT GCTCTTCTCG 
CTATACAGAC TAACTGCAGA AAGGTTCACT AAGAATCTTT CTCCGGACAA AATCAACCTG 
AGCACTCTGA AAGGGGAGGG CCAGTTGACC AACCTGGAGT TGGATGAAGA GGTTCTGCAG 
AACGTGCTGG AGCTACCTAC CTGGTTAGCC ATCACTCGGG TCTACTGCAA CAGGGCCTCC 
ATCCGGATCC AATGGACGAA GTTGAAGACA CACCCAATTT GCTTGTGCCT GGATAAGGTC 
GAGGTGGAGA TGAAGACCTG TGAGGAGCCT CGGCCCCCCA ATGGACAGTC TCCCATTGCC 
CTGGCTTCAG GACAGAGTGA ATACGGCTTT GCTGAGAAGG TGGTGGAGGG GATGTTCATC 
ATCGTCAACT CCATCACTAT CAAGATTCAC TCCAAGGCCT TCCATGCTTC TTTTGAATTG 
TGGCAGCTGC AGGGCTACAG TGTCAACCCC AGCTGGCAGC AGAGTGACCT TCGCCTGACC 
CGCATCACCG ATCCCCACCG AGGAGAGGTT TTAACATTTA AGGAAATAAC TTGGCAGACC 
CTTCGAATTG AGGCAGATGC TACAGATAAT AGTGACCAGG ACTCCATAAC TACCCCATTG 
AGGCTTATTA CCAACCAAGG CAGGATCCAG ATAGCCCTCA AGAGAAGAAC CAAAGACTGC 
AATGTGGTGG CTTCCAAGCT GATGTTCCTG CTGGATGACC TGCTGTGGGT GCTCACTGAC 
TCACAGCTCA AGGCTATGAT GAAGTACGCG GAGTCCCTGA GTGAGGCCAT GGAGAAGTCA 
GCCCAGCAGA GGAAGAGCCT GGCTCCCGAG CCTGTGCAGG TCACTCCGCC TGCTCCCACT 
GCCCAGCAGT CCTGGGCCCA GGCATTTGGT GGCAGCCAGG GCAACAGCAG CAGCAGCAGC 
AGCAGCAGCA GCAGCAGCAG CCGCCTCAGC CAATACTTCG AGAAATTTGA TGTGAAGGAG 
TCCTCCTACC ACCTGCTCAT CTCCCGCCTG GACCTGCACA TCTGTGACGA TAGCCAGTCT 
CGAGAGCCAG GTGTCTCTGC AAACAGACTC ATGGGTGGCG CCATGCAGCT TACTTTCCGC 
AAGATGGCAT TTGACTATTA CCCGTTCCAC TGGGCAGGTG ATAGCTGCAA ACACTGGGCT 
CGGCACTGCG AGGCCATGGA GACCAGAGGC CAGTGGGCCC AGAAGCTGGT GACGGAATTC 
CAGACTAAGA TGGAGAAGTG GCATGAAGAG GCGGGGCTGA AGACGTCCTG GCACCTGGGG 
GTGGATGCTC CCTTCCGGAG AAAAGCAGCT TCTCTCTCCA GTCCTCAAAA GCACCCTCTT 
GAAAGGATGC CCTCACGGGG CCGGCAGGCT GCCTTCCGAC CTCCAGCATG GCATCGCCTG 
CGCTCTAGCT GCATGGTTGT GCGAGTGGAT GACCTGGACA TCCACCAGGT TTCTACAGCT 
GGACAGCCAA GCAAGAAGCC TTCTACACTC CTTTCCTGCA GCCGCAAGCT CCACAGCCTG 
CCCGCTCAGG TCTCTGCAAT TCATGTCGAG TTCACCGAGT ATTACTTCCC GGATAACCAG 
GAGCTCCCAG TTCCCTGTCC CAATCTCTAC ATTCAGTTAA ATGGTCTGAC ATTTACTGTG 
GATCCAGTCA GCCTGCTCTG GGGAAACCTC TTCTGCCTCG ATTTATACCG CAGCTTGGAG 
CAGTTTAAAG CTATCTATAA GCTGGAAGAT TCAAGGCAGA AAGATCAACA CTTGGACATC 
CGGCTGGATG CCTTCCGGTT GAAGGTGAGC TTCCCACTGG AGAAGCGAGA GCAGGCGAAG 
TTGCATCGTC CCCAGGCCCT TGTCTTCTCT TCATCTGGCA TGGTTGCCAC CAATACCCGT 
CATGCCCCAC ATTGTGGCTG TCCCGACCTC CAGAGTGTCT TCCGGGGTTT TGCTGCTGCT 
GAGTTCTTTC ACTCTAATTA TGATCACTTC CCCAAGGTAC CTGGGGGCTT TAGCCTTCTG 
CACATGCTGT TTTTGCACCA TGCCTTCCAG ATGGATTCTG GCCTCTCCCG GCCTAGTACC 
TTCCCTCCCC AGAGGCCTGA GGCTTCCCAG GACCTCTGGT CCATCCACTT TACCCAGATC 
TCCTTGGACT TTGAGGGAAC AGAGAACGTA AAAGGCCGTC CCTTGAATTT TGTGGCCCCT 
TTCCCCTTGT CCATGTGGGT CTGCCTGCCT CTCCGCTGGC AACAAGCCCA GGCCCGCAGG 
CTCCTTTTGG CCTCAGAGGG GAGGCTCAAA CCATCAGCCA GTTTTGGAAG TCCTGTCCAG 
TCTGAGGCTC TGGCCCCCGA TTCTGTGTCG CATCAGAGGT CAAAGACTGA GCATGACCTG 
AAGAGCCTGT CAGGCCTCAC GGAAGTCACA GACATTCTAG GAGAAGGCAG TGGTGCGGCA 
GACAGCAAAG GGCCTCCCAC AGAGCTGGAG GACGCAGCTG ATGTCCATAT GCTCGTGCAC 
ACCCCTGCCC ACATCCGCGT GAGGCTGGAC CACTACCAGT ACTTGGCCTT GCTCCGCCTG 
AAGGACGTGC TGCAAGGGCT TCAGGAGCAG CTGGCCAAGG ACACACAGGC CATGACTGGG 
TCTCCCCTGC AGGACCAGAC AGCTTGCATT GGAGTCCTCT TCCCCAGTGC AGAGGTGGCT 
CTGCTCATGC ATCCTGCCCC TGGGGCTGTT GATGCGGACT CTACAGGCTC AGATACCACC 
AGCCTCATAG ATTCCGAGCT GTCTCCCTCA GAGGAGCGGG AGCCGAAGTC TGACACATCC 
TCAGAGCAGG GCCCCGCAAG CCCTGAGAAG GTCCTGGAGG ACAGCAGCAC GGAACATATA 
GATGCGTCCC AGGAGAGGCC ACACAGCAAT GGAGAGCTGC AGAACCTGGG TCCCCCGGCA 
CAGCAGGTGG CAGGGAAGGG CCACGAGGCT GTCGAGTCCC TACAGGCCAA GAAACTGAGC 
AGAGCCCAGG CCTCCAGCTC TCCAGCTGTG TCGAAGTCCC CTGTGGGCAG GGATCCTGCT 
GTGAATGGAC AGGGCGAGCC CATCCCCCTG AAGAACATTG AGGGAGAATT ATCAAGTGCT 
ATCCACATGA CCAAGGACGC CACCAAGGAG GCTCTGCATG CCACCATGGA CCTCACCAAG 
GAAGCAGTGT CCCTGACTAA GGATGCCTTC AGTCTGGGCA GAGATCGAAT GACCTCCACC 
ATGCATAAGA TGTTGTCCCT ACCCGCAGCC AAGGAGCCCA TGGCCAGGGC AGATGAGGGG 
GCGGCAACCC CAATGAGTGG AGGAGCTGGC CGACTCCGAT TTTTCTCCAT GAAGAGGACG 
ATGTCTCAGC AGTCATTCGA TGGTGTCCTG TTGGACAACA GTGGTCCTGA AGACCGAATT 
TCAGTGGACA GCGATGGCAG CGACAGCCTT GTGATGCTCC TGGAGTCGGA ATCTGGTCTA 
GAGTCTGTTC CGCTGGGCTC TCTTCCAAGT GTCTTGGATG ATGCTGGTGT TCAGAGCAGC 
CCTGTTGTGG ATAACTGTGG CCAAGTGTCC CCAGAGGCTG ACAGCTTGGT TTCCCCCAGC 
AGAGAGGACC TTGTCCTTCA CCCGGTCTCA GTTCTGATCC TGAGGGTGAA GGAGGTGTCT 
TTTGGGATTG AGGTACGTGG TGAGGACCTG AGTGTAGCCG TGCAAGCAGA AGAACTGGGC 
CTGCAGCAGC CAGGCACCAT GGCACTCTGG AAGTTCCTGC ATGGACAGTA CCCTGAGACA 
ACCCTCCAAG AATCCTCAAA TGTGCGGACT GACCACATCC GCCCAGCCGT GGGCCTTCGC 
TTTGAGGTGG GGCCTGGTGC GGCTGTTCAT TCTCCCCTGG CTACACAAAA TGGTTTCCTG 
CATCTCGTGC TTCATGGCTG TAACCTCGAG CTTCTCACTT CGGTGCTTAA TGGCCTGGGC 
CCCTTCTTGG AGGACGAGGA AGTGCCAGTA GTCGTCCCAA TGCAGATTGA GCTCCTGAAC 
TCCAGTGTCA CCCTAAAGGA TGACATCCCC CCCATCTATC CAACGTCCCC GGGCCCTGTC 
CCCGTCACTC TGGCCATGGA GCATGTTGTG CTGAAGCGCA GTGATGACGG TGTCTTCCAC 
ATCAGCGCTG TTGCTCAGGA CAGACCACCT GCTGAAGTAC CTAAAAGTGA GAAGAGGCAG 
CCCCCCGAAG AGCAGGTGTT GCTGGTGCCC CCTGGAGAGG TTTTTGGAGA GCAGGTGAAA 
GAACTGCCTG CCCTTCAAAA AGAACTTACA GAAACTAAGC AAGCATTGGC CAATGCCAAG 
CTGGAGAAAG AAACACTTCT TCAGGAGATT AGGAGATATA ACCCCCTCTT TGAGCTCTGA

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

RefSeq	XP_005390174.1
CDS	1..4560
Translation	MGYILYGPTRMEMHWTASQNMGSSSEYQEPSRSQPGPRRAPSRRLLPFFLLTLLHHPGKGVSPARRAGPPSALLRLLLFSLYRLTAERFTKNLSPDKINLSTLKGEGQLTNLELDEEVLQNVLELPTWLAITRVYCNRASIRIQWTKLKTHPICLCLDKVEVEMKTCEEPRPPNGQSPIALASGQSEYGFAEKVVEGMFIIVNSITIKIHSKAFHASFELWQLQGYSVNPSWQQSDLRLTRITDPHRGEVLTFKEITWQTLRIEADATDNSDQDSITTPLRLITNQGRIQIALKRRTKDCNVVASKLMFLLDDLLWVLTDSQLKAMMKYAESLSEAMEKSAQQRKSLAPEPVQVTPPAPTAQQSWAQAFGGSQGNSSSSSSSSSSSSRLSQYFEKFDVKESSYHLLISRLDLHICDDSQSREPGVSANRLMGGAMQLTFRKMAFDYYPFHWAGDSCKHWARHCEAMETRGQWAQKLVTEFQTKMEKWHEEAGLKTSWHLGVDAPFRRKAASLSSPQKHPLERMPSRGRQAAFRPPAWHRLRSSCMVVRVDDLDIHQVSTAGQPSKKPSTLLSCSRKLHSLPAQVSAIHVEFTEYYFPDNQELPVPCPNLYIQLNGLTFTVDPVSLLWGNLFCLDLYRSLEQFKAIYKLEDSRQKDQHLDIRLDAFRLKVSFPLEKREQAKLHRPQALVFSSSGMVATNTRHAPHCGCPDLQSVFRGFAAAEFFHSNYDHFPKVPGGFSLLHMLFLHHAFQMDSGLSRPSTFPPQRPEASQDLWSIHFTQISLDFEGTENVKGRPLNFVAPFPLSMWVCLPLRWQQAQARRLLLASEGRLKPSASFGSPVQSEALAPDSVSHQRSKTEHDLKSLSGLTEVTDILGEGSGAADSKGPPTELEDAADVHMLVHTPAHIRVRLDHYQYLALLRLKDVLQGLQEQLAKDTQAMTGSPLQDQTACIGVLFPSAEVALLMHPAPGAVDADSTGSDTTSLIDSELSPSEEREPKSDTSSEQGPASPEKVLEDSSTEHIDASQERPHSNGELQNLGPPAQQVAGKGHEAVESLQAKKLSRAQASSSPAVSKSPVGRDPAVNGQGEPIPLKNIEGELSSAIHMTKDATKEALHATMDLTKEAVSLTKDAFSLGRDRMTSTMHKMLSLPAAKEPMARADEGAATPMSGGAGRLRFFSMKRTMSQQSFDGVLLDNSGPEDRISVDSDGSDSLVMLLESESGLESVPLGSLPSVLDDAGVQSSPVVDNCGQVSPEADSLVSPSREDLVLHPVSVLILRVKEVSFGIEVRGEDLSVAVQAEELGLQQPGTMALWKFLHGQYPETTLQESSNVRTDHIRPAVGLRFEVGPGAAVHSPLATQNGFLHLVLHGCNLELLTSVLNGLGPFLEDEEVPVVVPMQIELLNSSVTLKDDIPPIYPTSPGPVPVTLAMEHVVLKRSDDGVFHISAVAQDRPPAEVPKSEKRQPPEEQVLLVPPGEVFGEQVKELPALQKELTETKQALANAKLEKETLLQEIRRYNPLFEL

Target ORF information:

RefSeq Version	XM_005390117.2
Organism	Chinchilla lanigera(long-tailed chinchilla)
Definition	Chinchilla lanigera UHRF1 binding protein 1 (Uhrf1bp1), mRNA.

Target ORF information:

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

XM_005390117.2

ORF Insert Sequence:

ATGGGTTACA TCTTGTATGG ACCAACCAGA ATGGAAATGC ACTGGACTGC GAGCCAGAAC 
ATGGGTTCTA GCTCTGAGTA TCAAGAACCC TCCCGCTCGC AGCCCGGACC CCGGCGTGCT 
CCTTCCCGGC GGCTCCTTCC CTTCTTCCTC CTGACCCTGT TGCATCACCC TGGAAAAGGC 
GTGAGCCCCG CGCGCAGGGC CGGTCCTCCG AGCGCCCTTC TCCGCCTGCT GCTCTTCTCG 
CTATACAGAC TAACTGCAGA AAGGTTCACT AAGAATCTTT CTCCGGACAA AATCAACCTG 
AGCACTCTGA AAGGGGAGGG CCAGTTGACC AACCTGGAGT TGGATGAAGA GGTTCTGCAG 
AACGTGCTGG AGCTACCTAC CTGGTTAGCC ATCACTCGGG TCTACTGCAA CAGGGCCTCC 
ATCCGGATCC AATGGACGAA GTTGAAGACA CACCCAATTT GCTTGTGCCT GGATAAGGTC 
GAGGTGGAGA TGAAGACCTG TGAGGAGCCT CGGCCCCCCA ATGGACAGTC TCCCATTGCC 
CTGGCTTCAG GACAGAGTGA ATACGGCTTT GCTGAGAAGG TGGTGGAGGG GATGTTCATC 
ATCGTCAACT CCATCACTAT CAAGATTCAC TCCAAGGCCT TCCATGCTTC TTTTGAATTG 
TGGCAGCTGC AGGGCTACAG TGTCAACCCC AGCTGGCAGC AGAGTGACCT TCGCCTGACC 
CGCATCACCG ATCCCCACCG AGGAGAGGTT TTAACATTTA AGGAAATAAC TTGGCAGACC 
CTTCGAATTG AGGCAGATGC TACAGATAAT AGTGACCAGG ACTCCATAAC TACCCCATTG 
AGGCTTATTA CCAACCAAGG CAGGATCCAG ATAGCCCTCA AGAGAAGAAC CAAAGACTGC 
AATGTGGTGG CTTCCAAGCT GATGTTCCTG CTGGATGACC TGCTGTGGGT GCTCACTGAC 
TCACAGCTCA AGGCTATGAT GAAGTACGCG GAGTCCCTGA GTGAGGCCAT GGAGAAGTCA 
GCCCAGCAGA GGAAGAGCCT GGCTCCCGAG CCTGTGCAGG TCACTCCGCC TGCTCCCACT 
GCCCAGCAGT CCTGGGCCCA GGCATTTGGT GGCAGCCAGG GCAACAGCAG CAGCAGCAGC 
AGCAGCAGCA GCAGCAGCAG CCGCCTCAGC CAATACTTCG AGAAATTTGA TGTGAAGGAG 
TCCTCCTACC ACCTGCTCAT CTCCCGCCTG GACCTGCACA TCTGTGACGA TAGCCAGTCT 
CGAGAGCCAG GTGTCTCTGC AAACAGACTC ATGGGTGGCG CCATGCAGCT TACTTTCCGC 
AAGATGGCAT TTGACTATTA CCCGTTCCAC TGGGCAGGTG ATAGCTGCAA ACACTGGGCT 
CGGCACTGCG AGGCCATGGA GACCAGAGGC CAGTGGGCCC AGAAGCTGGT GACGGAATTC 
CAGACTAAGA TGGAGAAGTG GCATGAAGAG GCGGGGCTGA AGACGTCCTG GCACCTGGGG 
GTGGATGCTC CCTTCCGGAG AAAAGCAGCT TCTCTCTCCA GTCCTCAAAA GCACCCTCTT 
GAAAGGATGC CCTCACGGGG CCGGCAGGCT GCCTTCCGAC CTCCAGCATG GCATCGCCTG 
CGCTCTAGCT GCATGGTTGT GCGAGTGGAT GACCTGGACA TCCACCAGGT TTCTACAGCT 
GGACAGCCAA GCAAGAAGCC TTCTACACTC CTTTCCTGCA GCCGCAAGCT CCACAGCCTG 
CCCGCTCAGG TCTCTGCAAT TCATGTCGAG TTCACCGAGT ATTACTTCCC GGATAACCAG 
GAGCTCCCAG TTCCCTGTCC CAATCTCTAC ATTCAGTTAA ATGGTCTGAC ATTTACTGTG 
GATCCAGTCA GCCTGCTCTG GGGAAACCTC TTCTGCCTCG ATTTATACCG CAGCTTGGAG 
CAGTTTAAAG CTATCTATAA GCTGGAAGAT TCAAGGCAGA AAGATCAACA CTTGGACATC 
CGGCTGGATG CCTTCCGGTT GAAGGTGAGC TTCCCACTGG AGAAGCGAGA GCAGGCGAAG 
TTGCATCGTC CCCAGGCCCT TGTCTTCTCT TCATCTGGCA TGGTTGCCAC CAATACCCGT 
CATGCCCCAC ATTGTGGCTG TCCCGACCTC CAGAGTGTCT TCCGGGGTTT TGCTGCTGCT 
GAGTTCTTTC ACTCTAATTA TGATCACTTC CCCAAGGTAC CTGGGGGCTT TAGCCTTCTG 
CACATGCTGT TTTTGCACCA TGCCTTCCAG ATGGATTCTG GCCTCTCCCG GCCTAGTACC 
TTCCCTCCCC AGAGGCCTGA GGCTTCCCAG GACCTCTGGT CCATCCACTT TACCCAGATC 
TCCTTGGACT TTGAGGGAAC AGAGAACGTA AAAGGCCGTC CCTTGAATTT TGTGGCCCCT 
TTCCCCTTGT CCATGTGGGT CTGCCTGCCT CTCCGCTGGC AACAAGCCCA GGCCCGCAGG 
CTCCTTTTGG CCTCAGAGGG GAGGCTCAAA CCATCAGCCA GTTTTGGAAG TCCTGTCCAG 
TCTGAGGCTC TGGCCCCCGA TTCTGTGTCG CATCAGAGGT CAAAGACTGA GCATGACCTG 
AAGAGCCTGT CAGGCCTCAC GGAAGTCACA GACATTCTAG GAGAAGGCAG TGGTGCGGCA 
GACAGCAAAG GGCCTCCCAC AGAGCTGGAG GACGCAGCTG ATGTCCATAT GCTCGTGCAC 
ACCCCTGCCC ACATCCGCGT GAGGCTGGAC CACTACCAGT ACTTGGCCTT GCTCCGCCTG 
AAGGACGTGC TGCAAGGGCT TCAGGAGCAG CTGGCCAAGG ACACACAGGC CATGACTGGG 
TCTCCCCTGC AGGACCAGAC AGCTTGCATT GGAGTCCTCT TCCCCAGTGC AGAGGTGGCT 
CTGCTCATGC ATCCTGCCCC TGGGGCTGTT GATGCGGACT CTACAGGCTC AGATACCACC 
AGCCTCATAG ATTCCGAGCT GTCTCCCTCA GAGGAGCGGG AGCCGAAGTC TGACACATCC 
TCAGAGCAGG GCCCCGCAAG CCCTGAGAAG GTCCTGGAGG ACAGCAGCAC GGAACATATA 
GATGCGTCCC AGGAGAGGCC ACACAGCAAT GGAGAGCTGC AGAACCTGGG TCCCCCGGCA 
CAGCAGGTGG CAGGGAAGGG CCACGAGGCT GTCGAGTCCC TACAGGCCAA GAAACTGAGC 
AGAGCCCAGG CCTCCAGCTC TCCAGCTGTG TCGAAGTCCC CTGTGGGCAG GGATCCTGCT 
GTGAATGGAC AGGGCGAGCC CATCCCCCTG AAGAACATTG AGGGAGAATT ATCAAGTGCT 
ATCCACATGA CCAAGGACGC CACCAAGGAG GCTCTGCATG CCACCATGGA CCTCACCAAG 
GAAGCAGTGT CCCTGACTAA GGATGCCTTC AGTCTGGGCA GAGATCGAAT GACCTCCACC 
ATGCATAAGA TGTTGTCCCT ACCCGCAGCC AAGGAGCCCA TGGCCAGGGC AGATGAGGGG 
GCGGCAACCC CAATGAGTGG AGGAGCTGGC CGACTCCGAT TTTTCTCCAT GAAGAGGACG 
ATGTCTCAGC AGTCATTCGA TGGTGTCCTG TTGGACAACA GTGGTCCTGA AGACCGAATT 
TCAGTGGACA GCGATGGCAG CGACAGCCTT GTGATGCTCC TGGAGTCGGA ATCTGGTCTA 
GAGTCTGTTC CGCTGGGCTC TCTTCCAAGT GTCTTGGATG ATGCTGGTGT TCAGAGCAGC 
CCTGTTGTGG ATAACTGTGG CCAAGTGTCC CCAGAGGCTG ACAGCTTGGT TTCCCCCAGC 
AGAGAGGACC TTGTCCTTCA CCCGGTCTCA GTTCTGATCC TGAGGGTGAA GGAGGTGTCT 
TTTGGGATTG AGGTACGTGG TGAGGACCTG AGTGTAGCCG TGCAAGCAGA AGAACTGGGC 
CTGCAGCAGC CAGGCACCAT GGCACTCTGG AAGTTCCTGC ATGGACAGTA CCCTGAGACA 
ACCCTCCAAG AATCCTCAAA TGTGCGGACT GACCACATCC GCCCAGCCGT GGGCCTTCGC 
TTTGAGGTGG GGCCTGGTGC GGCTGTTCAT TCTCCCCTGG CTACACAAAA TGGTTTCCTG 
CATCTCGTGC TTCATGGCTG TAACCTCGAG CTTCTCACTT CGGTGCTTAA TGGCCTGGGC 
CCCTTCTTGG AGGACGAGGA AGTGCCAGTA GTCGTCCCAA TGCAGATTGA GCTCCTGAAC 
TCCAGTGTCA CCCTAAAGGA TGACATCCCC CCCATCTATC CAACGTCCCC GGGCCCTGTC 
CCCGTCACTC TGGCCATGGA GCATGTTGTG CTGAAGCGCA GTGATGACGG TGTCTTCCAC 
ATCAGCGCTG TTGCTCAGGA CAGACCACCT GCTGAAGTAC CTAAAAGTGA GAAGAGGCAG 
CCCCCCGAAG AGCAGGTGTT GCTGGTGCCC CCTGGAGAGG TTTTTGGAGA GCAGGTGAAA 
GAACTGCCTG CCCTTCAAAA AGAACTTACA GAAACTAAGC AAGCATTGGC CAATGCCAAG 
CTGGAGAAAG AAACACTTCT TCAGGAGATT AGGAGATATA ACCCCCTCTT TGAGCTCTGA