UGGT1 cDNA ORF clone, Buceros rhinoceros silvestris

Gene
Clones
gRNAs

Summary

Gene Symbol	UGGT1
Entrez Gene ID	104495679
Full Name	UDP-glucose glycoprotein glucosyltransferase 1
Gene Type	protein-coding
Organism	Buceros rhinoceros silvestris

mRNA and Protein(s)

mRNA	Protein	Name
XM_010138674.1	XP_010136976.1	UDP-glucose:glycoprotein glucosyltransferase 1

Pathways from BioSystems
Gene Ontology

The following UGGT1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UGGT1 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
OBu38913	XM_010138674.1 Latest version!	Buceros rhinoceros silvestris UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

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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)

UGGT1 ( XM_010138674.1 ) cDNA ORF clone, Buceros rhinoceros silvestris -> XP_010136976.1 Buceros rhinoceros silvestris UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), mRNA.

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CloneID	OBu38913
Clone ID Related Accession (Same CDS sequence)	XM_010138674.1
Accession Version	XM_010138674.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4596bp) 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	2014-11-05
Organism	Buceros rhinoceros silvestris
Product	UDP-glucose:glycoprotein glucosyltransferase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010418810.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Buceros rhinoceros silvestris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCTCTTGT AAAAGGAGAT 
TCTAAGGCTG TGACAACATC CCTAACCACA AAGTGGTCTT CAACTCCTTT ATTACTTGAA 
ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
CAAAATATTA AGACAACTGA ACATGATGGT GGTGATTATT CGTCTTACCA TGAAATGCTG 
AAAGTAGCTT GTCAGAGTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT CTCCTTGTCT 
TTACGCTCTT ACTCTGCAAC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAACCTCCA 
CCAAAGGGCT GTACCCTATT TTTCGCTGTG CATGGGGAGA AGACCTGTGA ATTTGACTCT 
CTTGGAAACC TTTTACAGGC AGCTTCAGAA AGGCCAAAGC CATTTTTATT CAAAGGGGAC 
CACAAATACC CAGTGTCAAA TCCTGAAAGT CCTGTTGTCA TACTGTATGC TGAGATTGGC 
TCAGAGGAGT TCTACAGATA CCATAAGAAA CTTGTTTTAA AAGCTGAGGC AGGAGAAATC 
ACTTATGTCC TCAGGCACTA TATCGCTAAT CCCAGTGAAG AAAAAGTCTA CCTTTCTGGC 
TATGGTGTGG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACACAGGTC 
AAAGCCACAG ATGTGAATGC TACAGTAATA GATGAAAATG ACCCTATAGA TGAAGTGCAA 
GGATTTCTGT TTGGAAAACT AAGGCAGTTG TATCCTGACT TGACGGAAGA GCTGAAAGAG 
CTGAGAAAAC ACCTGGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT GTGGCAGTTA 
CAAGATTTAA GTTTTCAAAC TGCTGCTCGT ATTTTGGCTG CTCCCCTTGT GGATGCTTTG 
ATGGTCATGA AAGATCTCAG TCAGAACTTC CCTACAAAGG CCAGAGCCAT CACAAAAGCA 
GTTGTTTCTT CAGAACTCAG GGCAGAAATT GAAGAGAACC AAAAGTATTT CAAAGGAACG 
TTAGGATTGC AACCAGGAGA TTCTGCGCTG TTCATCAATG GACTACTCAT TGATTTAGAC 
ACTCAGGACA TATTTAGCTT GATTGATGTG CTGCGCAATG AAGCCCGCGT GATGGAAGGC 
CTGCACAGCT TAGGCATTGA GGGCCTCTCC TTGCACAATG TTCTGAAGCT GAACATCCAG 
CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCAG CTATTTCATG GATCAACAAT 
CTTGAAGTTG ACAGTCGGTA TAATTCCTGG CCTTCCAGTG TGCAAGAGCT GCTGCGTCCC 
ACGTTTCCAG GTGTCATCAG ACAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
GATCCCACTC ATGAGACCAC TGCAGAATTA CTGAATGTGG CAGAGATGTT CTTCAGTAAC 
CACATCCCTC TGAGGATAGG AGTAGTCTTT GTGGTTAATG ACTCGGAGGA TGTTGATGGA 
CTTCAGGATC CTGGTGTTGC CCTCCTTAGG GCATACAATT ATGTGGCACA AGAAATGGAC 
AGTAATTATG CTTTCCAGAC TGTCATGTCT ATCTATAACA AAGTAAAATC AGGAACTCAG 
CTGAAAGTGG AGCATGTGGT TAGTGTTCTT GAGAAACAGT ATCCTTACGT GGAAGTCAAC 
AGCATTCTGG GGATTGATTC TGCCTATGAT CAAAACAGAA AGGCGGCGAG AGCTTACTAT 
GAGCAGACTG GAGTAGGTCC TCTCCCTGTC GTGCTGTTCA ATGGAATGCC TTTTCAAAAA 
GATCAGATGG ATCCTGATGA CCTAGAAACC GTGACAATGC ACAAAATCCT GGAAACCACG 
AGCATCTTCC AGCGAGCTGT GTATCTGGGT GAATTATCTA ATGACCAAGA TGTGGTTGAG 
TATATCATGA ACCAGCCTAA TGTTGTTCCA AGGATTAACT CAAGAATCTT AACATCTGAC 
AGAGAGTACC TCGATCTGAC AGGAATGAAT AACTTTTTTG TGGATGACTT TGCTCGATTT 
ACCGTGTTGG AGTCCAAAGA TAAGACAGCT GCTGTCGCAA ACAGCATGAC CTACTTAACA 
AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC AGTTACTTTT 
TGGATTGTCG GTGATTTTGA TAAACCTTCA GGGAGGCAAT TGCTGTATGA TGCAATTAAA 
CATCAGAAAT CCAGCAATAA TGTTCGAATT AGCACGATTA ATAATCCTAG TGAAGATCCA 
AATAGCCAGA ACACAATTGT TGCTAAAGCC ATATGGGCAG CTCTACAGAC ACAAACGTCA 
AATAATGCCA AGAACTTCAT CACCAAAATG GCAAAAGAAG AAACTGCAAA GGCACTAGAG 
GCAGGAGCCG ACATTTTAGA ATTTGCCGTT GGGGGTATGG ATATCAATAG TTTCAAAGAA 
GCCTTTGAGT CTCCCAAGGT GGACTTTATT CTGTCCCATG CTATATATTG CAGAGATGTT 
CTAAAGCTGA AGAAGGGGCA AAGGGCTGTG ATCAGCAATG GAAGGATTAT TGGCCCGTTA 
GAGGATGGTG AGATGTTCAA TCAGGACGAC TTTCATCTCC TTGAGAATAT CATACTGAAG 
ACATCAGGAC AGAAAATTAA ATCTCAGATA CAGCAGCTGG GATTTGAAGA AGACCTTGCA 
AGTGACTTAG TAATGAAAGT GGATGCTCTT CTTTCTGCTC AGCCAAAAGG AGAGGCAAGG 
ATTGAGTATC ATTTCTTTGA GGAACGATAC AGTGCAGTTA AACTGAGACC AAAACAGGGG 
GAGACATACT TTGATGTTGT GGCTATTGTT GATCCTGTGA CCAGAGATGC ACAAAGACTT 
GCTCCGTTAC TTCTGGTTTT GAACCAATTG ATAAACATGA ACCTGAGAGT GTTTATGAAC 
TGCCAGTCCA AGCTTTCTGA CATGCCTCTG AAAAGCTTTT ATCGCTATGT TTTGGAGCCA 
GAGATTTCTT TCACAGCAGA GAATAACTTC GCTCCAGGAC CAATTGCCAA GTTTTTGGAT 
ATGCCCCAAT CTCCACTGTT CACTTTGAAC CTAAATACTC CTGAGAGCTG GATGGTGGAA 
TCTGTCAGAA CCCCATATGA CCTTGATAAC ATTTACTTAG AGGAGGTGGA CAGTATTGTA 
GCTGCAGAAT ATGAACTGGA GTATCTGCTT CTGGAAGGAC ACTGCTATGA TATTACTACT 
GGACAGCCAC CTCGGGGCCT CCAGTTTACA CTGGGAACAT CAGCCAATCC TGTCATCGTT 
GACACCATTG TTATGGCCAA CTTGGGTTAC TTCCAGTTAA AAGCCAACCC GGGTGCCTGG 
ACTCTACGAC TGAGGAAAGG CAGATCTGAG GATATCTACA GAATCTACAG CCATGACGGC 
ACAGACTCTC CACCTGAAGC TAGCGAAGTT ATTGTTGTTC TCAACAACTT CAAGAGCAAA 
ATTATTAAAG TGAAGGTTCA GAAAAAACTA GATATGATGA ATGAAGATCT TCTAAGTGAT 
GGTACCAGTG AGAATGAATC CGGATTCTGG GAATCTCTCA AATGGGGATT CACAGGAGGA 
CAAAAGACTG AAGATGTGAA ACAGGAGAAA GATGATGTAC TAAATATATT CTCTGTGGCT 
TCAGGACACC TATATGAAAG ATTCCTACGC ATAATGATGT TGTCTGTGCT GAAACATACT 
AAGACTCCTT TAAAGTTTTG GTTTCTGAAG AACTACTTAT CACCTACGTT CAAGGAGTTC 
ATCCCGTACA TGGCAGAGAA GTATAACTTC CAGTATGAGC TTGTCCAGTA TAAGTGGCCA 
CGCTGGCTTC ATCAGCAAAC AGAGAAACAG CGTATCATCT GGGGTTACAA GATCCTCTTT 
CTAGATGTGC TCTTCCCATT AGCTGTTGAT AAAATCCTGT TTGTGGATGC TGATCAGATT 
GTGCGCACAG ATCTGAAGGA ATTAAGAGAT TTCAATCTGG ATGGTGCTCC CTATGGATAT 
ACTCCATTCT GTGACAGTCG AAGAGAAATG GATGGCTACA GGTTCTGGAA ATCCGGATAC 
TGGGCAAGTC ATTTAGCTGG ACGAAAATAC CACATCAGTG CTCTGTATGT TGTGGATCTG 
AAGAAGTTCA GAAAGATAGC AGCTGGAGAT CGACTAAGAG GACAATATCA GGGTCTTAGT 
CAGGATCCGA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CTAACAACAT GATCCACCAG 
GTGCCAATTA AATCCCTCCC GCAGGAGTGG CTGTGGTGTG AAACATGGTG CGACGATTCC 
TCAAAGAAGA GAGCAAAAAC CATTGATCTG TGTAATAACC CAATGACCAA AGAGCCCAAG 
CTTCAAGCAG CGATGCGTAT AGTTCCAGAA TGGCAGGACT ACGACCAAGA AATCAAACTG 
CTCCAGAGTC TTTTCCAGAA AGAAAAAGAA ACGGGATCAC CAGCTAAGAT GCCAGGACAA 
CACACACACG ACCCAGTGAA ACATGTGGAA TTATGA

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

RefSeq	XP_010136976.1
CDS	1..4596
Translation	MGILIAVLGIWFSSSLVKGDSKAVTTSLTTKWSSTPLLLETSEFLSEEGQEKFWNFVEASQNIKTTEHDGGDYSSYHEMLKVACQSLSPLQQNLLKFSLSLRSYSATVQAFQQIAADEPPPKGCTLFFAVHGEKTCEFDSLGNLLQAASERPKPFLFKGDHKYPVSNPESPVVILYAEIGSEEFYRYHKKLVLKAEAGEITYVLRHYIANPSEEKVYLSGYGVELAIKSTEYKAKDDTQVKATDVNATVIDENDPIDEVQGFLFGKLRQLYPDLTEELKELRKHLVESTNEMAPLKVWQLQDLSFQTAARILAAPLVDALMVMKDLSQNFPTKARAITKAVVSSELRAEIEENQKYFKGTLGLQPGDSALFINGLLIDLDTQDIFSLIDVLRNEARVMEGLHSLGIEGLSLHNVLKLNIQPSDSDYAVDIRSPAISWINNLEVDSRYNSWPSSVQELLRPTFPGVIRQIRKNFHNFVLIVDPTHETTAELLNVAEMFFSNHIPLRIGVVFVVNDSEDVDGLQDPGVALLRAYNYVAQEMDSNYAFQTVMSIYNKVKSGTQLKVEHVVSVLEKQYPYVEVNSILGIDSAYDQNRKAARAYYEQTGVGPLPVVLFNGMPFQKDQMDPDDLETVTMHKILETTSIFQRAVYLGELSNDQDVVEYIMNQPNVVPRINSRILTSDREYLDLTGMNNFFVDDFARFTVLESKDKTAAVANSMTYLTKKGMSSKEIYDDSFVRPVTFWIVGDFDKPSGRQLLYDAIKHQKSSNNVRISTINNPSEDPNSQNTIVAKAIWAALQTQTSNNAKNFITKMAKEETAKALEAGADILEFAVGGMDINSFKEAFESPKVDFILSHAIYCRDVLKLKKGQRAVISNGRIIGPLEDGEMFNQDDFHLLENIILKTSGQKIKSQIQQLGFEEDLASDLVMKVDALLSAQPKGEARIEYHFFEERYSAVKLRPKQGETYFDVVAIVDPVTRDAQRLAPLLLVLNQLINMNLRVFMNCQSKLSDMPLKSFYRYVLEPEISFTAENNFAPGPIAKFLDMPQSPLFTLNLNTPESWMVESVRTPYDLDNIYLEEVDSIVAAEYELEYLLLEGHCYDITTGQPPRGLQFTLGTSANPVIVDTIVMANLGYFQLKANPGAWTLRLRKGRSEDIYRIYSHDGTDSPPEASEVIVVLNNFKSKIIKVKVQKKLDMMNEDLLSDGTSENESGFWESLKWGFTGGQKTEDVKQEKDDVLNIFSVASGHLYERFLRIMMLSVLKHTKTPLKFWFLKNYLSPTFKEFIPYMAEKYNFQYELVQYKWPRWLHQQTEKQRIIWGYKILFLDVLFPLAVDKILFVDADQIVRTDLKELRDFNLDGAPYGYTPFCDSRREMDGYRFWKSGYWASHLAGRKYHISALYVVDLKKFRKIAAGDRLRGQYQGLSQDPNSLSNLDQDLPNNMIHQVPIKSLPQEWLWCETWCDDSSKKRAKTIDLCNNPMTKEPKLQAAMRIVPEWQDYDQEIKLLQSLFQKEKETGSPAKMPGQHTHDPVKHVEL

Target ORF information:

RefSeq Version	XM_010138674.1
Organism	Buceros rhinoceros silvestris
Definition	Buceros rhinoceros silvestris UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), mRNA.

Target ORF information:

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

XM_010138674.1

ORF Insert Sequence:

ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCTCTTGT AAAAGGAGAT 
TCTAAGGCTG TGACAACATC CCTAACCACA AAGTGGTCTT CAACTCCTTT ATTACTTGAA 
ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
CAAAATATTA AGACAACTGA ACATGATGGT GGTGATTATT CGTCTTACCA TGAAATGCTG 
AAAGTAGCTT GTCAGAGTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT CTCCTTGTCT 
TTACGCTCTT ACTCTGCAAC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAACCTCCA 
CCAAAGGGCT GTACCCTATT TTTCGCTGTG CATGGGGAGA AGACCTGTGA ATTTGACTCT 
CTTGGAAACC TTTTACAGGC AGCTTCAGAA AGGCCAAAGC CATTTTTATT CAAAGGGGAC 
CACAAATACC CAGTGTCAAA TCCTGAAAGT CCTGTTGTCA TACTGTATGC TGAGATTGGC 
TCAGAGGAGT TCTACAGATA CCATAAGAAA CTTGTTTTAA AAGCTGAGGC AGGAGAAATC 
ACTTATGTCC TCAGGCACTA TATCGCTAAT CCCAGTGAAG AAAAAGTCTA CCTTTCTGGC 
TATGGTGTGG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACACAGGTC 
AAAGCCACAG ATGTGAATGC TACAGTAATA GATGAAAATG ACCCTATAGA TGAAGTGCAA 
GGATTTCTGT TTGGAAAACT AAGGCAGTTG TATCCTGACT TGACGGAAGA GCTGAAAGAG 
CTGAGAAAAC ACCTGGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT GTGGCAGTTA 
CAAGATTTAA GTTTTCAAAC TGCTGCTCGT ATTTTGGCTG CTCCCCTTGT GGATGCTTTG 
ATGGTCATGA AAGATCTCAG TCAGAACTTC CCTACAAAGG CCAGAGCCAT CACAAAAGCA 
GTTGTTTCTT CAGAACTCAG GGCAGAAATT GAAGAGAACC AAAAGTATTT CAAAGGAACG 
TTAGGATTGC AACCAGGAGA TTCTGCGCTG TTCATCAATG GACTACTCAT TGATTTAGAC 
ACTCAGGACA TATTTAGCTT GATTGATGTG CTGCGCAATG AAGCCCGCGT GATGGAAGGC 
CTGCACAGCT TAGGCATTGA GGGCCTCTCC TTGCACAATG TTCTGAAGCT GAACATCCAG 
CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCAG CTATTTCATG GATCAACAAT 
CTTGAAGTTG ACAGTCGGTA TAATTCCTGG CCTTCCAGTG TGCAAGAGCT GCTGCGTCCC 
ACGTTTCCAG GTGTCATCAG ACAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
GATCCCACTC ATGAGACCAC TGCAGAATTA CTGAATGTGG CAGAGATGTT CTTCAGTAAC 
CACATCCCTC TGAGGATAGG AGTAGTCTTT GTGGTTAATG ACTCGGAGGA TGTTGATGGA 
CTTCAGGATC CTGGTGTTGC CCTCCTTAGG GCATACAATT ATGTGGCACA AGAAATGGAC 
AGTAATTATG CTTTCCAGAC TGTCATGTCT ATCTATAACA AAGTAAAATC AGGAACTCAG 
CTGAAAGTGG AGCATGTGGT TAGTGTTCTT GAGAAACAGT ATCCTTACGT GGAAGTCAAC 
AGCATTCTGG GGATTGATTC TGCCTATGAT CAAAACAGAA AGGCGGCGAG AGCTTACTAT 
GAGCAGACTG GAGTAGGTCC TCTCCCTGTC GTGCTGTTCA ATGGAATGCC TTTTCAAAAA 
GATCAGATGG ATCCTGATGA CCTAGAAACC GTGACAATGC ACAAAATCCT GGAAACCACG 
AGCATCTTCC AGCGAGCTGT GTATCTGGGT GAATTATCTA ATGACCAAGA TGTGGTTGAG 
TATATCATGA ACCAGCCTAA TGTTGTTCCA AGGATTAACT CAAGAATCTT AACATCTGAC 
AGAGAGTACC TCGATCTGAC AGGAATGAAT AACTTTTTTG TGGATGACTT TGCTCGATTT 
ACCGTGTTGG AGTCCAAAGA TAAGACAGCT GCTGTCGCAA ACAGCATGAC CTACTTAACA 
AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC AGTTACTTTT 
TGGATTGTCG GTGATTTTGA TAAACCTTCA GGGAGGCAAT TGCTGTATGA TGCAATTAAA 
CATCAGAAAT CCAGCAATAA TGTTCGAATT AGCACGATTA ATAATCCTAG TGAAGATCCA 
AATAGCCAGA ACACAATTGT TGCTAAAGCC ATATGGGCAG CTCTACAGAC ACAAACGTCA 
AATAATGCCA AGAACTTCAT CACCAAAATG GCAAAAGAAG AAACTGCAAA GGCACTAGAG 
GCAGGAGCCG ACATTTTAGA ATTTGCCGTT GGGGGTATGG ATATCAATAG TTTCAAAGAA 
GCCTTTGAGT CTCCCAAGGT GGACTTTATT CTGTCCCATG CTATATATTG CAGAGATGTT 
CTAAAGCTGA AGAAGGGGCA AAGGGCTGTG ATCAGCAATG GAAGGATTAT TGGCCCGTTA 
GAGGATGGTG AGATGTTCAA TCAGGACGAC TTTCATCTCC TTGAGAATAT CATACTGAAG 
ACATCAGGAC AGAAAATTAA ATCTCAGATA CAGCAGCTGG GATTTGAAGA AGACCTTGCA 
AGTGACTTAG TAATGAAAGT GGATGCTCTT CTTTCTGCTC AGCCAAAAGG AGAGGCAAGG 
ATTGAGTATC ATTTCTTTGA GGAACGATAC AGTGCAGTTA AACTGAGACC AAAACAGGGG 
GAGACATACT TTGATGTTGT GGCTATTGTT GATCCTGTGA CCAGAGATGC ACAAAGACTT 
GCTCCGTTAC TTCTGGTTTT GAACCAATTG ATAAACATGA ACCTGAGAGT GTTTATGAAC 
TGCCAGTCCA AGCTTTCTGA CATGCCTCTG AAAAGCTTTT ATCGCTATGT TTTGGAGCCA 
GAGATTTCTT TCACAGCAGA GAATAACTTC GCTCCAGGAC CAATTGCCAA GTTTTTGGAT 
ATGCCCCAAT CTCCACTGTT CACTTTGAAC CTAAATACTC CTGAGAGCTG GATGGTGGAA 
TCTGTCAGAA CCCCATATGA CCTTGATAAC ATTTACTTAG AGGAGGTGGA CAGTATTGTA 
GCTGCAGAAT ATGAACTGGA GTATCTGCTT CTGGAAGGAC ACTGCTATGA TATTACTACT 
GGACAGCCAC CTCGGGGCCT CCAGTTTACA CTGGGAACAT CAGCCAATCC TGTCATCGTT 
GACACCATTG TTATGGCCAA CTTGGGTTAC TTCCAGTTAA AAGCCAACCC GGGTGCCTGG 
ACTCTACGAC TGAGGAAAGG CAGATCTGAG GATATCTACA GAATCTACAG CCATGACGGC 
ACAGACTCTC CACCTGAAGC TAGCGAAGTT ATTGTTGTTC TCAACAACTT CAAGAGCAAA 
ATTATTAAAG TGAAGGTTCA GAAAAAACTA GATATGATGA ATGAAGATCT TCTAAGTGAT 
GGTACCAGTG AGAATGAATC CGGATTCTGG GAATCTCTCA AATGGGGATT CACAGGAGGA 
CAAAAGACTG AAGATGTGAA ACAGGAGAAA GATGATGTAC TAAATATATT CTCTGTGGCT 
TCAGGACACC TATATGAAAG ATTCCTACGC ATAATGATGT TGTCTGTGCT GAAACATACT 
AAGACTCCTT TAAAGTTTTG GTTTCTGAAG AACTACTTAT CACCTACGTT CAAGGAGTTC 
ATCCCGTACA TGGCAGAGAA GTATAACTTC CAGTATGAGC TTGTCCAGTA TAAGTGGCCA 
CGCTGGCTTC ATCAGCAAAC AGAGAAACAG CGTATCATCT GGGGTTACAA GATCCTCTTT 
CTAGATGTGC TCTTCCCATT AGCTGTTGAT AAAATCCTGT TTGTGGATGC TGATCAGATT 
GTGCGCACAG ATCTGAAGGA ATTAAGAGAT TTCAATCTGG ATGGTGCTCC CTATGGATAT 
ACTCCATTCT GTGACAGTCG AAGAGAAATG GATGGCTACA GGTTCTGGAA ATCCGGATAC 
TGGGCAAGTC ATTTAGCTGG ACGAAAATAC CACATCAGTG CTCTGTATGT TGTGGATCTG 
AAGAAGTTCA GAAAGATAGC AGCTGGAGAT CGACTAAGAG GACAATATCA GGGTCTTAGT 
CAGGATCCGA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CTAACAACAT GATCCACCAG 
GTGCCAATTA AATCCCTCCC GCAGGAGTGG CTGTGGTGTG AAACATGGTG CGACGATTCC 
TCAAAGAAGA GAGCAAAAAC CATTGATCTG TGTAATAACC CAATGACCAA AGAGCCCAAG 
CTTCAAGCAG CGATGCGTAT AGTTCCAGAA TGGCAGGACT ACGACCAAGA AATCAAACTG 
CTCCAGAGTC TTTTCCAGAA AGAAAAAGAA ACGGGATCAC CAGCTAAGAT GCCAGGACAA 
CACACACACG ACCCAGTGAA ACATGTGGAA TTATGA