UGGT1 cDNA ORF clone, Cuculus canorus(common cuckoo)

Gene
Clones
gRNAs

Summary

Gene Symbol	UGGT1
Entrez Gene ID	104066385
Full Name	UDP-glucose glycoprotein glucosyltransferase 1
Gene Type	protein-coding
Organism	Cuculus canorus(common cuckoo)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009568979.1	XP_009567274.1	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
OCu51384	XM_009568979.1 Latest version!	Cuculus canorus UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$881.30 $1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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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_009568979.1 ) cDNA ORF clone, Cuculus canorus(common cuckoo) -> XP_009567274.1 Cuculus canorus UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), mRNA.

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CloneID	OCu51384
Clone ID Related Accession (Same CDS sequence)	XM_009568979.1
Accession Version	XM_009568979.1 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	2014-10-13
Organism	Cuculus canorus(common cuckoo)
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_009246631.1) 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 :: Cuculus canorus 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 TTATTGCAAT TCTTGGAATC TGGTTTGGCT CTTCACTTGT AAGAGGAGAT 
TCTAAGGCTG TGACAACGTC TCTGACTACG AAGTGGTCTT CAACTCCTTT GTTGCTTGAA 
ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
CAAAACATTA AGACATCTGA ACACGATGGT AGTGATTATT CTTCTTACCA TGAAATGCTG 
AAAGTGGCCT GCCAGACTCT GTCCCCTCTG CAGCAGAATC TGTTGAAGTT TTCCCTGTCT 
TTGCGTTCTT ACTCTGCAAC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAACCTCCG 
CCGAAGGGCT GTACCCTGTT TTTTGCTGTG CACGGGGAGA AGACATGTGA ATTTGACTCT 
CTTGGAAACC TTTTAGAGGG AGCTTCAGAA AGGCCAAAGC CGTTTCTGTT CAAAGGGGAC 
CACAAATACC CTGCGTCAAA CCCTGAAAGT CCTGTCGTCA TACTCTACGC TGAGATTGGC 
TCAGAGGAGT TCTACAGACA CCACAAGAGG CTTGTTTTAA AGGCTGAGGC AGGAGAAATC 
ACTTACGTCC TCAGGCACTA CATTGCTAAT CCCAGTCAAG AAAAAGTGTA CCTCTCTGGC 
TATGGTGTGG AACTGGCTAT CAAAAGTACA GAATATAAGG CCAAGGATGA TACACAGGTG 
AAAGGCACGG ATGTGAATGC TACGGTAATA GATGAAAACG ACCCAATTGA TGAAGTGCAG 
GGATTTTTGT TTGGAAAACT AAGGCAGTTG TATCCTGACT TGACAGAAGA GCTGAAGGAG 
CTTAGAAAAC ACCTTGTGGA AAGTACCAAT GAAATGGCCC CTCTGAAAGT GTGGCAATTG 
CAAGATTTAA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCGGT GGATGCCTTG 
ATGGTCATGA AAGATCTCAG TCAGAACTTC CCTACGAAGG CCAGAGCCAT AACAAAAACA 
GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AGAAGTATTT CAAAGGAACA 
TTAGGATTAC AACCAGGAGA CTCTGCCCTG TTCATCAACG GACTGCTTAT TGATTTAGAC 
ACTCAGGACA TATTCAGCCT GATTGATGTG CTGCGCAATG AAGCCCGCGT TATGGAAGGC 
CTGCACAGCT TAGGGATTGA GGGTCTTTCC CTGCACAATG TTCTGAAATT GAACATCCAG 
CCATCGGATT CTGACTATGC TGTGGACATC AGAAGCCCTG CAATTTCATG GATCAACAAT 
CTTGAAGTTG ACAGTCGATA TAATTCCTGG CCTTCCAGTG TGCAAGAACT GCTGCGTCCC 
ACATTTCCAG GCGTGATCAG ACAAATCAGA AAGAACTTCC ATAATTTTGT GCTGATAGTA 
GATCCTGCTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAGATGTT CTTCAGTAAC 
CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTGAATG ACTCGGAGGA TGTTGACGGG 
CTTCAGGATC CTGGAGTTGC CCTCCTTAGG GCATACAATT ATGCGGCACA AGAAGTGGAC 
AATAATTATG CTTTCCAGAC TGTCATGTCT ATATATAACA AAGTAAAAAC GGGAGATCAA 
CTCAAAGTGG AGCATGTCCT CAGTGTTCTT GAGAAACAGT ATCCTTATGT GGAAATCAAC 
AGCATTCTGG GAATTGATTC TGCCTACGAT CAAAACAGAA AAGAAGCGAG AAGTTACTAT 
GAGCAGACGG GTGTAGGTCC TCTCCCTGTG GTGCTGTTCA ATGGAATGCC TTTTCAAAGA 
GATCAGCTGG ATCCTGATGA CTTAGAAACT GTAACGATGC ACAAAATGCT GGAAACCACA 
AGCATCTTCC AGCGAGCTGT GTACCTGGGT GAATTATCTA ATGACCAAGA TGTGGTTGAG 
TATATTATGA ACCAGCCGAA CGTTGTTCCA AGAATTAATT CAAGAATCTT AATGTCTGAC 
AGAGAGTACC TAGATCTGAC AGGAATGAAT AACTTTTACG TGGATGACTT TGCTCGATTT 
ACCACATTGG ATTCCAAAGA TAAGACAGCT GCTGTTGCAA ACAGCATGAC CTACTTAACA 
AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC AGTTACTTTT 
TGGATTGTTG GCGATTTTGA CAAAGCTTCG GGGAGGCAAT TGTTGTACGA TGCAATTAAA 
CATCAGAAAT CCAGCAATAA TGTTCGCATA AGCATGATTA ACAACCCCAG TGAAGATCCA 
AACAGCCAGA ACACGCTTGT CGCTAGAGCC ATATGGGCGG CTCTGCAGAC ACAAACGTCA 
AATAATGCCA AGAACTTCAT CACCAAAATG GCAAAAGAAG AAAATGCAAA GGCTCTGGAG 
GCAGGAGCTG ATGTCTTAGA ATTTGCTGTT GGGGGGATGG ATATCAATAT TTTCAAAGAA 
GCCTTTGAAT CTCCCAGGGT GGATTTTATC CTGTCCCATG CTATATACTG CAGAGATGTC 
CTGAAGCTGA AGAAGGGGCA GAGAGCTGTG ATCAGCAACG GAAGGATTAT TGGCCCATTA 
GAGGACGGCG AGATGTTCAA TCAGGATGAT TTTCATCTCC TTGAGAATAT CATACTAAAG 
ACGTCAGGAC AGAAAATCAA AGCTCAGATT CAGCAGCTGG GATTCGAAGA AGATCTTGCA 
AGTGACTTGG TAATGAAGGT GGATGCTCTT CTTTCTGCTC AACCAAAAGG AGAGGCTCGG 
ATTGAATACC ACTTTTTTGA AGAACGATAC AGTGCAGTTA AACTGAGACC AAAAGAAGGA 
GAGACGTACT TTGATGTTGT GGCTATTGTT GATCCGGTGA CCAGAGATGC TCAAAGACTT 
GCTCCGTTGC TTTTGGTTTT GAACCAATTG ATAAATATGA ACCTACGAGT GTTTATGAAC 
TGTCAGTCCA AGCTTTCTGA CATGCCACTG AAAAGCTTTT ATCGCTATGT TTTGGAGCCG 
GAGATTTCTT TCACAGCAGA TAACAGCTTT GCTCCTGGAC CAATCGCCAA GTTTCTGGAT 
ATGCCCCAGT CTCCTTTGTT CACTTTGAAC CTAAATACTC CTGAGAGCTG GATGGTGGAA 
TCTGTCAGAA CCCCGTATGA TCTTGATAAT ATTTATCTAC AGGAGGTGGA TAGTGTTGTA 
GCTGCAGAAT ATGAATTGGA GTATCTACTT CTGGAAGGAC ACTGCTATGA TATTACTACT 
GGACAGCCTC CTCGGGGGCT CCAGTTTACA CTGGGAACTT CAACCAGTCC TGTGATCGTT 
GATACCATTG TTATGGCCAA CCTGGGTTAC TTCCAGTTAA AAGCCAACCC TGGTGCATGG 
ACTCTAAGGC TCAGAAAGGG CAGATCTGAG GACATCTACA GAATCTACAG CCACGATGGT 
ACAGACTCTC CACCTGAGGC TAGCGAAGTT ATAGTTGTTC TCAACAACTT CAAGAGCAAA 
ATTATCAAAG TAAAGGTTCA GAAAAAACTA GATATGATGA ATGAAGATCT ACTGAGTGAT 
GGTACCAGCG AGAATGAATC TGGATTCTGG GAATCTCTCA AATGGGGGTT CACAGGAGGA 
CAAAAGAATG AAGATGTGAA ACAGGATAAA GACGATGTAC TAAATATCTT CTCTGTGGCT 
TCAGGACACC TGTATGAAAG ATTCCTACGC ATCATGATGT TGTCTGTGCT GAAGCATACT 
AAGACTCCTT TAAAATTTTG GTTTCTGAAG AACTACTTAT CACCAACATT CAAGGAGTTC 
ATCCCATACA TGGCAGAGAA GTATAATTTC CAGTACGAGC TTGTCCAGTA TAAATGGCCA 
CGCTGGCTTC ATCAGCAAAC AGAGAAACAG CGCATCATCT GGGGTTACAA GATCCTCTTT 
CTAGATGTGC TTTTCCCATT AGCTGTTGAT AAGATCCTCT TTGTGGATGC TGATCAGATT 
GTTCGCACAG ACCTAAAGGA ATTAAGAGAC TTCAACCTAG ATGGTGCTCC TTATGGATAT 
ACTCCATTCT GTGACAGTCG AAGAGAAATG GATGGCTACA GGTTCTGGAA ATCAGGATAC 
TGGGCGAGTC ATTTAGCTGG AAGAAAATAC CATATCAGTG CTTTGTATGT CGTGGATCTG 
AAGAAGTTCA GAAAGATAGC AGCTGGAGAC CGACTCAGAG GACAATATCA GGGTCTTAGT 
CAGGATCCTA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CTAACAACAT GATCCACCAG 
GTGCCAATTA AATCACTCCC CCAGGAGTGG CTGTGGTGTG AAACATGGTG TGATGATTCC 
TCAAAGAAGA GAGCAAAAAC CATCGATCTG TGTAATAACC CAATGACCAA AGAGCCCAAA 
CTGCAAGCAG CGATGCGCAT CGTTCCAGAG TGGCAGGACT ACGACCAAGA AATCAAACTG 
CTCCAAAGTC TTTTCCAGAA AGAGAAAGAA ACAGGAACAC CAGCGAAGAT GCCAGGACAA 
CACACACATG ATCCAGCAGC ACACGTGGAA TTATGA

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

RefSeq	XP_009567274.1
CDS	1..4596
Translation	MGILIAILGIWFGSSLVRGDSKAVTTSLTTKWSSTPLLLETSEFLSEEGQEKFWNFVEASQNIKTSEHDGSDYSSYHEMLKVACQTLSPLQQNLLKFSLSLRSYSATVQAFQQIAADEPPPKGCTLFFAVHGEKTCEFDSLGNLLEGASERPKPFLFKGDHKYPASNPESPVVILYAEIGSEEFYRHHKRLVLKAEAGEITYVLRHYIANPSQEKVYLSGYGVELAIKSTEYKAKDDTQVKGTDVNATVIDENDPIDEVQGFLFGKLRQLYPDLTEELKELRKHLVESTNEMAPLKVWQLQDLSFQTAARILTAPPVDALMVMKDLSQNFPTKARAITKTVVSSELRAEIEENQKYFKGTLGLQPGDSALFINGLLIDLDTQDIFSLIDVLRNEARVMEGLHSLGIEGLSLHNVLKLNIQPSDSDYAVDIRSPAISWINNLEVDSRYNSWPSSVQELLRPTFPGVIRQIRKNFHNFVLIVDPAHETTAELLNVAEMFFSNHIPLRIGLVFVVNDSEDVDGLQDPGVALLRAYNYAAQEVDNNYAFQTVMSIYNKVKTGDQLKVEHVLSVLEKQYPYVEINSILGIDSAYDQNRKEARSYYEQTGVGPLPVVLFNGMPFQRDQLDPDDLETVTMHKMLETTSIFQRAVYLGELSNDQDVVEYIMNQPNVVPRINSRILMSDREYLDLTGMNNFYVDDFARFTTLDSKDKTAAVANSMTYLTKKGMSSKEIYDDSFVRPVTFWIVGDFDKASGRQLLYDAIKHQKSSNNVRISMINNPSEDPNSQNTLVARAIWAALQTQTSNNAKNFITKMAKEENAKALEAGADVLEFAVGGMDINIFKEAFESPRVDFILSHAIYCRDVLKLKKGQRAVISNGRIIGPLEDGEMFNQDDFHLLENIILKTSGQKIKAQIQQLGFEEDLASDLVMKVDALLSAQPKGEARIEYHFFEERYSAVKLRPKEGETYFDVVAIVDPVTRDAQRLAPLLLVLNQLINMNLRVFMNCQSKLSDMPLKSFYRYVLEPEISFTADNSFAPGPIAKFLDMPQSPLFTLNLNTPESWMVESVRTPYDLDNIYLQEVDSVVAAEYELEYLLLEGHCYDITTGQPPRGLQFTLGTSTSPVIVDTIVMANLGYFQLKANPGAWTLRLRKGRSEDIYRIYSHDGTDSPPEASEVIVVLNNFKSKIIKVKVQKKLDMMNEDLLSDGTSENESGFWESLKWGFTGGQKNEDVKQDKDDVLNIFSVASGHLYERFLRIMMLSVLKHTKTPLKFWFLKNYLSPTFKEFIPYMAEKYNFQYELVQYKWPRWLHQQTEKQRIIWGYKILFLDVLFPLAVDKILFVDADQIVRTDLKELRDFNLDGAPYGYTPFCDSRREMDGYRFWKSGYWASHLAGRKYHISALYVVDLKKFRKIAAGDRLRGQYQGLSQDPNSLSNLDQDLPNNMIHQVPIKSLPQEWLWCETWCDDSSKKRAKTIDLCNNPMTKEPKLQAAMRIVPEWQDYDQEIKLLQSLFQKEKETGTPAKMPGQHTHDPAAHVEL

Target ORF information:

RefSeq Version	XM_009568979.1
Organism	Cuculus canorus(common cuckoo)
Definition	Cuculus canorus 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_009568979.1

ORF Insert Sequence:

ATGGGAATAC TTATTGCAAT TCTTGGAATC TGGTTTGGCT CTTCACTTGT AAGAGGAGAT 
TCTAAGGCTG TGACAACGTC TCTGACTACG AAGTGGTCTT CAACTCCTTT GTTGCTTGAA 
ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
CAAAACATTA AGACATCTGA ACACGATGGT AGTGATTATT CTTCTTACCA TGAAATGCTG 
AAAGTGGCCT GCCAGACTCT GTCCCCTCTG CAGCAGAATC TGTTGAAGTT TTCCCTGTCT 
TTGCGTTCTT ACTCTGCAAC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAACCTCCG 
CCGAAGGGCT GTACCCTGTT TTTTGCTGTG CACGGGGAGA AGACATGTGA ATTTGACTCT 
CTTGGAAACC TTTTAGAGGG AGCTTCAGAA AGGCCAAAGC CGTTTCTGTT CAAAGGGGAC 
CACAAATACC CTGCGTCAAA CCCTGAAAGT CCTGTCGTCA TACTCTACGC TGAGATTGGC 
TCAGAGGAGT TCTACAGACA CCACAAGAGG CTTGTTTTAA AGGCTGAGGC AGGAGAAATC 
ACTTACGTCC TCAGGCACTA CATTGCTAAT CCCAGTCAAG AAAAAGTGTA CCTCTCTGGC 
TATGGTGTGG AACTGGCTAT CAAAAGTACA GAATATAAGG CCAAGGATGA TACACAGGTG 
AAAGGCACGG ATGTGAATGC TACGGTAATA GATGAAAACG ACCCAATTGA TGAAGTGCAG 
GGATTTTTGT TTGGAAAACT AAGGCAGTTG TATCCTGACT TGACAGAAGA GCTGAAGGAG 
CTTAGAAAAC ACCTTGTGGA AAGTACCAAT GAAATGGCCC CTCTGAAAGT GTGGCAATTG 
CAAGATTTAA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCGGT GGATGCCTTG 
ATGGTCATGA AAGATCTCAG TCAGAACTTC CCTACGAAGG CCAGAGCCAT AACAAAAACA 
GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AGAAGTATTT CAAAGGAACA 
TTAGGATTAC AACCAGGAGA CTCTGCCCTG TTCATCAACG GACTGCTTAT TGATTTAGAC 
ACTCAGGACA TATTCAGCCT GATTGATGTG CTGCGCAATG AAGCCCGCGT TATGGAAGGC 
CTGCACAGCT TAGGGATTGA GGGTCTTTCC CTGCACAATG TTCTGAAATT GAACATCCAG 
CCATCGGATT CTGACTATGC TGTGGACATC AGAAGCCCTG CAATTTCATG GATCAACAAT 
CTTGAAGTTG ACAGTCGATA TAATTCCTGG CCTTCCAGTG TGCAAGAACT GCTGCGTCCC 
ACATTTCCAG GCGTGATCAG ACAAATCAGA AAGAACTTCC ATAATTTTGT GCTGATAGTA 
GATCCTGCTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAGATGTT CTTCAGTAAC 
CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTGAATG ACTCGGAGGA TGTTGACGGG 
CTTCAGGATC CTGGAGTTGC CCTCCTTAGG GCATACAATT ATGCGGCACA AGAAGTGGAC 
AATAATTATG CTTTCCAGAC TGTCATGTCT ATATATAACA AAGTAAAAAC GGGAGATCAA 
CTCAAAGTGG AGCATGTCCT CAGTGTTCTT GAGAAACAGT ATCCTTATGT GGAAATCAAC 
AGCATTCTGG GAATTGATTC TGCCTACGAT CAAAACAGAA AAGAAGCGAG AAGTTACTAT 
GAGCAGACGG GTGTAGGTCC TCTCCCTGTG GTGCTGTTCA ATGGAATGCC TTTTCAAAGA 
GATCAGCTGG ATCCTGATGA CTTAGAAACT GTAACGATGC ACAAAATGCT GGAAACCACA 
AGCATCTTCC AGCGAGCTGT GTACCTGGGT GAATTATCTA ATGACCAAGA TGTGGTTGAG 
TATATTATGA ACCAGCCGAA CGTTGTTCCA AGAATTAATT CAAGAATCTT AATGTCTGAC 
AGAGAGTACC TAGATCTGAC AGGAATGAAT AACTTTTACG TGGATGACTT TGCTCGATTT 
ACCACATTGG ATTCCAAAGA TAAGACAGCT GCTGTTGCAA ACAGCATGAC CTACTTAACA 
AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC AGTTACTTTT 
TGGATTGTTG GCGATTTTGA CAAAGCTTCG GGGAGGCAAT TGTTGTACGA TGCAATTAAA 
CATCAGAAAT CCAGCAATAA TGTTCGCATA AGCATGATTA ACAACCCCAG TGAAGATCCA 
AACAGCCAGA ACACGCTTGT CGCTAGAGCC ATATGGGCGG CTCTGCAGAC ACAAACGTCA 
AATAATGCCA AGAACTTCAT CACCAAAATG GCAAAAGAAG AAAATGCAAA GGCTCTGGAG 
GCAGGAGCTG ATGTCTTAGA ATTTGCTGTT GGGGGGATGG ATATCAATAT TTTCAAAGAA 
GCCTTTGAAT CTCCCAGGGT GGATTTTATC CTGTCCCATG CTATATACTG CAGAGATGTC 
CTGAAGCTGA AGAAGGGGCA GAGAGCTGTG ATCAGCAACG GAAGGATTAT TGGCCCATTA 
GAGGACGGCG AGATGTTCAA TCAGGATGAT TTTCATCTCC TTGAGAATAT CATACTAAAG 
ACGTCAGGAC AGAAAATCAA AGCTCAGATT CAGCAGCTGG GATTCGAAGA AGATCTTGCA 
AGTGACTTGG TAATGAAGGT GGATGCTCTT CTTTCTGCTC AACCAAAAGG AGAGGCTCGG 
ATTGAATACC ACTTTTTTGA AGAACGATAC AGTGCAGTTA AACTGAGACC AAAAGAAGGA 
GAGACGTACT TTGATGTTGT GGCTATTGTT GATCCGGTGA CCAGAGATGC TCAAAGACTT 
GCTCCGTTGC TTTTGGTTTT GAACCAATTG ATAAATATGA ACCTACGAGT GTTTATGAAC 
TGTCAGTCCA AGCTTTCTGA CATGCCACTG AAAAGCTTTT ATCGCTATGT TTTGGAGCCG 
GAGATTTCTT TCACAGCAGA TAACAGCTTT GCTCCTGGAC CAATCGCCAA GTTTCTGGAT 
ATGCCCCAGT CTCCTTTGTT CACTTTGAAC CTAAATACTC CTGAGAGCTG GATGGTGGAA 
TCTGTCAGAA CCCCGTATGA TCTTGATAAT ATTTATCTAC AGGAGGTGGA TAGTGTTGTA 
GCTGCAGAAT ATGAATTGGA GTATCTACTT CTGGAAGGAC ACTGCTATGA TATTACTACT 
GGACAGCCTC CTCGGGGGCT CCAGTTTACA CTGGGAACTT CAACCAGTCC TGTGATCGTT 
GATACCATTG TTATGGCCAA CCTGGGTTAC TTCCAGTTAA AAGCCAACCC TGGTGCATGG 
ACTCTAAGGC TCAGAAAGGG CAGATCTGAG GACATCTACA GAATCTACAG CCACGATGGT 
ACAGACTCTC CACCTGAGGC TAGCGAAGTT ATAGTTGTTC TCAACAACTT CAAGAGCAAA 
ATTATCAAAG TAAAGGTTCA GAAAAAACTA GATATGATGA ATGAAGATCT ACTGAGTGAT 
GGTACCAGCG AGAATGAATC TGGATTCTGG GAATCTCTCA AATGGGGGTT CACAGGAGGA 
CAAAAGAATG AAGATGTGAA ACAGGATAAA GACGATGTAC TAAATATCTT CTCTGTGGCT 
TCAGGACACC TGTATGAAAG ATTCCTACGC ATCATGATGT TGTCTGTGCT GAAGCATACT 
AAGACTCCTT TAAAATTTTG GTTTCTGAAG AACTACTTAT CACCAACATT CAAGGAGTTC 
ATCCCATACA TGGCAGAGAA GTATAATTTC CAGTACGAGC TTGTCCAGTA TAAATGGCCA 
CGCTGGCTTC ATCAGCAAAC AGAGAAACAG CGCATCATCT GGGGTTACAA GATCCTCTTT 
CTAGATGTGC TTTTCCCATT AGCTGTTGAT AAGATCCTCT TTGTGGATGC TGATCAGATT 
GTTCGCACAG ACCTAAAGGA ATTAAGAGAC TTCAACCTAG ATGGTGCTCC TTATGGATAT 
ACTCCATTCT GTGACAGTCG AAGAGAAATG GATGGCTACA GGTTCTGGAA ATCAGGATAC 
TGGGCGAGTC ATTTAGCTGG AAGAAAATAC CATATCAGTG CTTTGTATGT CGTGGATCTG 
AAGAAGTTCA GAAAGATAGC AGCTGGAGAC CGACTCAGAG GACAATATCA GGGTCTTAGT 
CAGGATCCTA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CTAACAACAT GATCCACCAG 
GTGCCAATTA AATCACTCCC CCAGGAGTGG CTGTGGTGTG AAACATGGTG TGATGATTCC 
TCAAAGAAGA GAGCAAAAAC CATCGATCTG TGTAATAACC CAATGACCAA AGAGCCCAAA 
CTGCAAGCAG CGATGCGCAT CGTTCCAGAG TGGCAGGACT ACGACCAAGA AATCAAACTG 
CTCCAAAGTC TTTTCCAGAA AGAGAAAGAA ACAGGAACAC CAGCGAAGAT GCCAGGACAA 
CACACACATG ATCCAGCAGC ACACGTGGAA TTATGA