QSER1 cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka)

Gene
Clones
gRNAs

Summary

Gene Symbol	QSER1
Entrez Gene ID	105814609
Full Name	glutamine and serine rich 1
Gene Type	protein-coding
Organism	Propithecus coquereli(Coquerel's sifaka)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012649658.1	XP_012505112.1	glutamine and serine-rich protein 1

Pathways from BioSystems
Gene Ontology

The following QSER1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the QSER1 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
OPr107937	XM_012649658.1 Latest version!	Propithecus coquereli glutamine and serine rich 1 (QSER1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00

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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)

QSER1 ( XM_012649658.1 ) cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka) -> XP_012505112.1 Propithecus coquereli glutamine and serine rich 1 (QSER1), mRNA.

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CloneID	OPr107937
Clone ID Related Accession (Same CDS sequence)	XM_012649658.1
Accession Version	XM_012649658.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5208bp) 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	2015-05-31
Organism	Propithecus coquereli(Coquerel's sifaka)
Product	glutamine and serine-rich protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012148619.1) 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 :: Propithecus coquereli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAATTTTC TCTCTGCTGT TGAATCCCGA ACTGCTCAGG CTGCTTCTTC AGGAACTGTT 
CTTTTACCAC AATTCAGGGC TCCATCCTGG CAGACAGGCA TGCATTCCTC AGCAGCAACT 
GAGCTGTTTG TTACTGGACC TTTGCCAAGC ACTGGAACAC TTCCACCATC TGCCCTCCCT 
GCTTATCAGC ATCCCAACAC CTTCAGCAAT AGAAACTTTG CTACCACCTC ACCTTTGGTG 
CTTCAGGACT CAACTTTTAA CACTACATCA AATGGAATTT TAAATCCTCA TGACCCTTTG 
CTACAAATCA AGACTTCCCA GGGAACTGTT CCAACTGCTT TAGCATTCGA GCGCCTGGGC 
AGTTCTGCAT TAAGTAACAA TATACCACCT CAGTCTTCAA CGTATCGCTC AGCTCAAGAA 
TCTGCTCCCC ATCTTTTACA ACCTCAGTTT AGTTTGTTGC CTTCAGGACT TGGGGGAGCC 
CAGCAAACTC CTCAAGCCTA CAGTTCAACT CTCTTTACTA GTTCTACTGC TTCCATTGAA 
AGAGCTCTCC TTCGAGAATG TAGTGTTATT AAACACCATC AGCGGCCTTC AGGTACCCAG 
TCTATTCAGG CACAACTGAC TGGTTCACAG CACTCCTTAC ATAGTTATCT ATCAAATGCA 
AGTGTAGTTA ATTTTCAGGA AACAACCAGG CAGTCATCTT TATCCTGTAG CGCAATTGGA 
GATTCCACTC AGGTGAGCAA TGGAGGATTG CAACAGAAGA CCTCCCAGGT CTCAGTGGAG 
CTTGCTCAGT CTTATTCATC CGTAATTCCA TCGTCAGGGT ATCTTCCTTC TACTACAAAA 
GTAAAAAGCT GTTCTATAGA ACAACCACTA ACATCAACTA AGAACCCCAA ACCTCAGAGT 
ATAATTCCTC CTGTGCAAAC ACTAAGCTAT TCCACACCTT TACATAACCA GAGTTCTGTA 
ATATCGGGCC AAGCACAAAT TTATTCTACA GCGCAGCTAC CAAGCCTTTT ATCAGTTAGT 
CAGTCCCAAA ATTATGGTTT AGTACAGCCA CATAATGTGC CATCTATTGT TCATTCACAG 
GTTTATAGGT CCAGCAAGGT TGAGAAATTG CCATCCTTAT ATAAAACATT GACTTTTTCT 
GGGTCATCTC AGACTATAAC TTCTGAAAAT CAGACACTCA GTTATTCATC TAATCAGCAA 
GAGGTATTAT CTTCAGTCAC AAATGAGAAT TTCCCTGCTC AGACTAGAGA TCTGTCTTCA 
GTCAGTCAGT CTCAAAGTTA TTCATCAGGT CACTCTCAGG GTTTATCACC AGTTAGCCAG 
ACGCAGGTTA GTTACTCATC TCAATCACAA GTTTTGTCAG TTGTTAGTCC TTCGGAAAGC 
TATGCTTCAG GGCAGTCCCT GACATTAACA GCCCCTTCTC TTTCTTACTC TTCTGCCTCT 
CGGGCTCAGA ATTTGCCAGA TTCTAGCCCA ACCCAAAATT ATATTTCTGT GCATTCTTCC 
CAAAATGTTC AGACTCAAGA GTCATCATCT CCCCAGTCCC AGAAGTTTTT GCCTGCTGTC 
CAGTCACCTT TTGCATCCTC TACTCATTGT CAGACATTGC AGAATAACAT ACCTTCCCCT 
GATCCAACGT CTTACGCTGA AAGAAAACTT GATTCGGATG TGTATACATC TTCAAAGCAA 
GAAGACGATT TTCCAATGCA AGAGTTACAA GTATTGCAGC CACAAGCATC TCTTGAGTCG 
TCAACCCAGA GGCTGTCTGA TGGGGAAATT AATGCTCAAG AATCAACTTA CAAGGTGTCA 
AAAGCAGATG ACAGATATTC TCAGAGTGTA ATCAGAAGTA ATTCCCATCT TGAAGATCAA 
GTTGTTGGGA TTGCTCTACA AGGATCAAAA AAAGAAGAAA GCATGATTGG TTCAGTGACA 
CAAATTAACC AACAAATTGT CCAAGTCAAT AATGCAGCCA CCCTTGATCT TAAGAAAGGA 
ACTAATTTAA TACAAACTCC ACAAGTAAGG TTGAATGCTA AAGACCTAAA CCAGCAGCAT 
TCTCTTGTAC ATAAGGTGCA TGAAACCAAG GTCCAGGAAC AGCATGATCA AATAATTAAT 
GCCTCATCTC AAGTTCAAAT TCCAAATCAT GCTTTAGGAC ATGGCCATCA GGCATCACTT 
CCTAATACAC AAGTCCTTTT AGATTCTGCC TGTGATTTAC AAATCCTTCA GCAGTCAATA 
TTGCAGGCAG GTTTAGGACA AGTAAAGGCA TCTTTACAAG CACAGCGTGT TCAAAGTCCT 
CAACAAATAG CACATCCTTT CCTTCAGATG GATGGTCATA TTATTCAGAG CAATGGTGAT 
CATTCTCAGC AGCAGCTCCA TCCTCAAACT TCGGAAATTA TGAAAATGGA CCTCTCTGAG 
TCTTCAAAAC AATTACAACA ACATCTAACA ACAAAGGGCC ATTTTAGTGA AACAAATCGA 
CATGATTCAA AAAATCAGTT TGTTTCTCTT GGATCAATAT GTTTCCCAGA GGCAATGCTT 
CTCAGTGATG AAAGAAATAT TTTATCAAAC GTAGATGATA TTTTAGCAGC TACAGCAGCA 
GCTTGTGGGG TTACACCTTC TGATTTTTCC AAGTCAACTT CAAATGAAAC TATGCAGGCT 
GTTGAAGATG GTGACTCTAA ATCTCATTTT CAGCAGTCAT TAGATGTCAG GCATGTGACT 
TCTGATTTTA ACTCTATAAC AGCTACAGTT GGAAAGTCAC AGAATATAAA TGAAATTTCC 
TTAAATGGAA ATCAAGTTAC TGTAAACCTT TCACCAGTCC CCACCCTTCA GTCAAAAATC 
ACTCTTGAAC AACAGCACAT TGAAACACCT GGTCAAAATG TACCAACTAA AGTAACTTCA 
GCAGTGGTTG GACCAAGTCA TGAAGTCCAG GAGCAAAGTT CTGGCCCATT CAAGAAACAG 
TCTGCTGCCA ATCATGAATC TGAAGAAGAC AGTGAAGTTC CTGTTGATAG TACATTACAT 
AATAACAGAA ACCAAGAGTT TGTTTCTAGT AGTCGAAGTA TAAGTGGAGA GAGTGCTACA 
TCAGAGAATG AATTTACCTT AGGGGGTGAT GACAGTGGTG TGTCAATGAA CCCAGTTAGG 
AGCACACTTG CACTGTTGGC CATGGCCCAA CCTGGGGATG CAATCAGTGT CAAGATGGAA 
GAAGAAAATC AAGATTTAAT GCCTTTTAAC CTTCAGAAGA AAACAGCTAA AGGAAAAGGG 
CAAGTTAAAG AGGAAGACAA CAGTAATCAG AAACAGCTGA AAAGACCTGT CCAAGGCAAA 
CGCCAGAATC CAAGGGGAAC AGATATATAT TTACCATATA CTCCTCCTTC CTCGGAAAGC 
TGCCATGATG GTTATCAGCA TCAAGAAAAA ATGAGGCAGA AGATCAAAGA AGTGGAGGAA 
AAACAACCAG AAGTCAAAAC AGGATTTATT GCTTCTTTCT TAGATTTTCT GAAATCTGGG 
CCCAAGCAGC AGTTTTCCAC TCTTGCTGTA CGAATGCCTA ACAGGACTAG ACGGCCAGGG 
ACCCAGATGG TTCGTACATT TTGTCCCCCA CCACTTCCAA AGACTTCATC AACACCCACA 
CCTTTAGTGT CTGAAAGTGG GGGTAACGGT CCATCAGAAA AAGTTGATAA TGAACTTAAA 
AATTTGGAAC ATTTATCTTC ATTTTCTTCT GATGAAGATG ATCCTGGAGT ATGCAGTCAT 
GATATTTATA AAAGCGTCTC TACTCCTTTA ACTGCTTTGG ATGCTACTTC TGATAAAAAG 
AAGAAAACAG AAGCCCTACA AGTGGCAACT ACTAGCCCAA CTGCAAATGC TACTGGTACT 
GCTACTACTT CCTCCACCAC TGTGGGTGCA GTTAAGCAAG AAACTCACCA CTGTACTTCA 
TCTGCAATAA ATATCCTGGA AAATATAAAC TCTACAGAAC CCTCAAAGCC CACCGAACTT 
GATGGTCTTC CTTCAGACCA ATTTGCAAAA GGACAAGACA CTGTTGCCAT AGAAGGTCAT 
ACAGATGAGG AGAACACAGA AAGTGGAGGA GAAGGCCAAT ACAGAGAACG TGATGAATTT 
GTGGTAAAGA TAGAAGACAT AGAGACTTTT AAGGAGGCAT TAAAAACAGG AAAAGAACCT 
CCAGCTATTT GGAAAGTACA AAAAGCTTTA TTACAGAAAT TTGTTCCTGA AATTCGAGAT 
GGGCAAAGAG AATTTGCAGC TACAAATAGT TACCTTGGTT ATTTTGGAGA TGCAAAGAGT 
AAATACAAAA GGATATATGT GAAGTTCATT GAAAATGCAA ACAAAAAGGA GTATGTCAGA 
GTGTGTTCTA AAAAGCCAAG AAATAAGCCT TCACAAACTA TCAGAACTGT TCAAGCTAAG 
TCAAGTAGTA GCAGTAAAAT TTCTGATACT CCAACATCAA AATCTACAAC TACAAAAGCC 
CCTTCCATGA AACCCAAAGT TAAACAAGTA AAAGTAAAGG CTGAGCCACC ACCAAAGAAA 
CGGAAGAAAT GGAAAGAAGA ATTTTCATCA TCTCAATCTG ACTCATCTCC TGAAATCCAT 
TCTAGTAGTA GTGATGATGA GGAATTTGAT CCTCCAGCTC CCTTTGTCAC TCGCTTTTTG 
AACACAAGAG CAATGAAGGA AACCTTTAAG AGCTACATGG AATTGCTTGT TAGCATTGCC 
TTGGACCCTG ACACAATGCA AGCCTTAGAG AAGAGCAATG ATGAACTACT TTTACCTCAT 
ATGAAAAAAA TAGATGGCAT GCTAAATGAT AACCGAAAGA GACTTCTTTT GAATCTTCAT 
TTGGATCAAT CATTCAAGAA TGCTTTGGAA AGTTTTCCTG AACTAACAAT AATTACTCGA 
GACTCTAAAG CAAAAAGCGG AGGACCTGCT ATTTCTAAAA TCAAAATGAA TGGCAAAGCT 
TACAATAAGA AAACCCTAAG GACTTCTAAA ACAACCACTA AATCTGCACA AGAGTTTTCT 
GTTGATCCAG AGAAAATACA GTTGTATGCT TTGTATCATT CACTGCATCA TTATAAATAT 
CATGTTTATC TGATATGTAA GGATGAGATT TCTTCAGTAC AGAAAAAAAA TGAAGATTTA 
GGACAGGAGG AAATTGTTCA ACTTTGTATG AAAAATGTAA AATGGGTGGA GGACCTATTT 
GAAAAATTTG GAGAACTTCT AAATCATGTA CAGCAGAGAT GTTCCTAA

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

RefSeq	XP_012505112.1
CDS	318..5525
Translation	MNFLSAVESRTAQAASSGTVLLPQFRAPSWQTGMHSSAATELFVTGPLPSTGTLPPSALPAYQHPNTFSNRNFATTSPLVLQDSTFNTTSNGILNPHDPLLQIKTSQGTVPTALAFERLGSSALSNNIPPQSSTYRSAQESAPHLLQPQFSLLPSGLGGAQQTPQAYSSTLFTSSTASIERALLRECSVIKHHQRPSGTQSIQAQLTGSQHSLHSYLSNASVVNFQETTRQSSLSCSAIGDSTQVSNGGLQQKTSQVSVELAQSYSSVIPSSGYLPSTTKVKSCSIEQPLTSTKNPKPQSIIPPVQTLSYSTPLHNQSSVISGQAQIYSTAQLPSLLSVSQSQNYGLVQPHNVPSIVHSQVYRSSKVEKLPSLYKTLTFSGSSQTITSENQTLSYSSNQQEVLSSVTNENFPAQTRDLSSVSQSQSYSSGHSQGLSPVSQTQVSYSSQSQVLSVVSPSESYASGQSLTLTAPSLSYSSASRAQNLPDSSPTQNYISVHSSQNVQTQESSSPQSQKFLPAVQSPFASSTHCQTLQNNIPSPDPTSYAERKLDSDVYTSSKQEDDFPMQELQVLQPQASLESSTQRLSDGEINAQESTYKVSKADDRYSQSVIRSNSHLEDQVVGIALQGSKKEESMIGSVTQINQQIVQVNNAATLDLKKGTNLIQTPQVRLNAKDLNQQHSLVHKVHETKVQEQHDQIINASSQVQIPNHALGHGHQASLPNTQVLLDSACDLQILQQSILQAGLGQVKASLQAQRVQSPQQIAHPFLQMDGHIIQSNGDHSQQQLHPQTSEIMKMDLSESSKQLQQHLTTKGHFSETNRHDSKNQFVSLGSICFPEAMLLSDERNILSNVDDILAATAAACGVTPSDFSKSTSNETMQAVEDGDSKSHFQQSLDVRHVTSDFNSITATVGKSQNINEISLNGNQVTVNLSPVPTLQSKITLEQQHIETPGQNVPTKVTSAVVGPSHEVQEQSSGPFKKQSAANHESEEDSEVPVDSTLHNNRNQEFVSSSRSISGESATSENEFTLGGDDSGVSMNPVRSTLALLAMAQPGDAISVKMEEENQDLMPFNLQKKTAKGKGQVKEEDNSNQKQLKRPVQGKRQNPRGTDIYLPYTPPSSESCHDGYQHQEKMRQKIKEVEEKQPEVKTGFIASFLDFLKSGPKQQFSTLAVRMPNRTRRPGTQMVRTFCPPPLPKTSSTPTPLVSESGGNGPSEKVDNELKNLEHLSSFSSDEDDPGVCSHDIYKSVSTPLTALDATSDKKKKTEALQVATTSPTANATGTATTSSTTVGAVKQETHHCTSSAINILENINSTEPSKPTELDGLPSDQFAKGQDTVAIEGHTDEENTESGGEGQYRERDEFVVKIEDIETFKEALKTGKEPPAIWKVQKALLQKFVPEIRDGQREFAATNSYLGYFGDAKSKYKRIYVKFIENANKKEYVRVCSKKPRNKPSQTIRTVQAKSSSSSKISDTPTSKSTTTKAPSMKPKVKQVKVKAEPPPKKRKKWKEEFSSSQSDSSPEIHSSSSDDEEFDPPAPFVTRFLNTRAMKETFKSYMELLVSIALDPDTMQALEKSNDELLLPHMKKIDGMLNDNRKRLLLNLHLDQSFKNALESFPELTIITRDSKAKSGGPAISKIKMNGKAYNKKTLRTSKTTTKSAQEFSVDPEKIQLYALYHSLHHYKYHVYLICKDEISSVQKKNEDLGQEEIVQLCMKNVKWVEDLFEKFGELLNHVQQRCS

Target ORF information:

RefSeq Version	XM_012649658.1
Organism	Propithecus coquereli(Coquerel's sifaka)
Definition	Propithecus coquereli glutamine and serine rich 1 (QSER1), mRNA.

Target ORF information:

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

XM_012649658.1

ORF Insert Sequence:

ATGAATTTTC TCTCTGCTGT TGAATCCCGA ACTGCTCAGG CTGCTTCTTC AGGAACTGTT 
CTTTTACCAC AATTCAGGGC TCCATCCTGG CAGACAGGCA TGCATTCCTC AGCAGCAACT 
GAGCTGTTTG TTACTGGACC TTTGCCAAGC ACTGGAACAC TTCCACCATC TGCCCTCCCT 
GCTTATCAGC ATCCCAACAC CTTCAGCAAT AGAAACTTTG CTACCACCTC ACCTTTGGTG 
CTTCAGGACT CAACTTTTAA CACTACATCA AATGGAATTT TAAATCCTCA TGACCCTTTG 
CTACAAATCA AGACTTCCCA GGGAACTGTT CCAACTGCTT TAGCATTCGA GCGCCTGGGC 
AGTTCTGCAT TAAGTAACAA TATACCACCT CAGTCTTCAA CGTATCGCTC AGCTCAAGAA 
TCTGCTCCCC ATCTTTTACA ACCTCAGTTT AGTTTGTTGC CTTCAGGACT TGGGGGAGCC 
CAGCAAACTC CTCAAGCCTA CAGTTCAACT CTCTTTACTA GTTCTACTGC TTCCATTGAA 
AGAGCTCTCC TTCGAGAATG TAGTGTTATT AAACACCATC AGCGGCCTTC AGGTACCCAG 
TCTATTCAGG CACAACTGAC TGGTTCACAG CACTCCTTAC ATAGTTATCT ATCAAATGCA 
AGTGTAGTTA ATTTTCAGGA AACAACCAGG CAGTCATCTT TATCCTGTAG CGCAATTGGA 
GATTCCACTC AGGTGAGCAA TGGAGGATTG CAACAGAAGA CCTCCCAGGT CTCAGTGGAG 
CTTGCTCAGT CTTATTCATC CGTAATTCCA TCGTCAGGGT ATCTTCCTTC TACTACAAAA 
GTAAAAAGCT GTTCTATAGA ACAACCACTA ACATCAACTA AGAACCCCAA ACCTCAGAGT 
ATAATTCCTC CTGTGCAAAC ACTAAGCTAT TCCACACCTT TACATAACCA GAGTTCTGTA 
ATATCGGGCC AAGCACAAAT TTATTCTACA GCGCAGCTAC CAAGCCTTTT ATCAGTTAGT 
CAGTCCCAAA ATTATGGTTT AGTACAGCCA CATAATGTGC CATCTATTGT TCATTCACAG 
GTTTATAGGT CCAGCAAGGT TGAGAAATTG CCATCCTTAT ATAAAACATT GACTTTTTCT 
GGGTCATCTC AGACTATAAC TTCTGAAAAT CAGACACTCA GTTATTCATC TAATCAGCAA 
GAGGTATTAT CTTCAGTCAC AAATGAGAAT TTCCCTGCTC AGACTAGAGA TCTGTCTTCA 
GTCAGTCAGT CTCAAAGTTA TTCATCAGGT CACTCTCAGG GTTTATCACC AGTTAGCCAG 
ACGCAGGTTA GTTACTCATC TCAATCACAA GTTTTGTCAG TTGTTAGTCC TTCGGAAAGC 
TATGCTTCAG GGCAGTCCCT GACATTAACA GCCCCTTCTC TTTCTTACTC TTCTGCCTCT 
CGGGCTCAGA ATTTGCCAGA TTCTAGCCCA ACCCAAAATT ATATTTCTGT GCATTCTTCC 
CAAAATGTTC AGACTCAAGA GTCATCATCT CCCCAGTCCC AGAAGTTTTT GCCTGCTGTC 
CAGTCACCTT TTGCATCCTC TACTCATTGT CAGACATTGC AGAATAACAT ACCTTCCCCT 
GATCCAACGT CTTACGCTGA AAGAAAACTT GATTCGGATG TGTATACATC TTCAAAGCAA 
GAAGACGATT TTCCAATGCA AGAGTTACAA GTATTGCAGC CACAAGCATC TCTTGAGTCG 
TCAACCCAGA GGCTGTCTGA TGGGGAAATT AATGCTCAAG AATCAACTTA CAAGGTGTCA 
AAAGCAGATG ACAGATATTC TCAGAGTGTA ATCAGAAGTA ATTCCCATCT TGAAGATCAA 
GTTGTTGGGA TTGCTCTACA AGGATCAAAA AAAGAAGAAA GCATGATTGG TTCAGTGACA 
CAAATTAACC AACAAATTGT CCAAGTCAAT AATGCAGCCA CCCTTGATCT TAAGAAAGGA 
ACTAATTTAA TACAAACTCC ACAAGTAAGG TTGAATGCTA AAGACCTAAA CCAGCAGCAT 
TCTCTTGTAC ATAAGGTGCA TGAAACCAAG GTCCAGGAAC AGCATGATCA AATAATTAAT 
GCCTCATCTC AAGTTCAAAT TCCAAATCAT GCTTTAGGAC ATGGCCATCA GGCATCACTT 
CCTAATACAC AAGTCCTTTT AGATTCTGCC TGTGATTTAC AAATCCTTCA GCAGTCAATA 
TTGCAGGCAG GTTTAGGACA AGTAAAGGCA TCTTTACAAG CACAGCGTGT TCAAAGTCCT 
CAACAAATAG CACATCCTTT CCTTCAGATG GATGGTCATA TTATTCAGAG CAATGGTGAT 
CATTCTCAGC AGCAGCTCCA TCCTCAAACT TCGGAAATTA TGAAAATGGA CCTCTCTGAG 
TCTTCAAAAC AATTACAACA ACATCTAACA ACAAAGGGCC ATTTTAGTGA AACAAATCGA 
CATGATTCAA AAAATCAGTT TGTTTCTCTT GGATCAATAT GTTTCCCAGA GGCAATGCTT 
CTCAGTGATG AAAGAAATAT TTTATCAAAC GTAGATGATA TTTTAGCAGC TACAGCAGCA 
GCTTGTGGGG TTACACCTTC TGATTTTTCC AAGTCAACTT CAAATGAAAC TATGCAGGCT 
GTTGAAGATG GTGACTCTAA ATCTCATTTT CAGCAGTCAT TAGATGTCAG GCATGTGACT 
TCTGATTTTA ACTCTATAAC AGCTACAGTT GGAAAGTCAC AGAATATAAA TGAAATTTCC 
TTAAATGGAA ATCAAGTTAC TGTAAACCTT TCACCAGTCC CCACCCTTCA GTCAAAAATC 
ACTCTTGAAC AACAGCACAT TGAAACACCT GGTCAAAATG TACCAACTAA AGTAACTTCA 
GCAGTGGTTG GACCAAGTCA TGAAGTCCAG GAGCAAAGTT CTGGCCCATT CAAGAAACAG 
TCTGCTGCCA ATCATGAATC TGAAGAAGAC AGTGAAGTTC CTGTTGATAG TACATTACAT 
AATAACAGAA ACCAAGAGTT TGTTTCTAGT AGTCGAAGTA TAAGTGGAGA GAGTGCTACA 
TCAGAGAATG AATTTACCTT AGGGGGTGAT GACAGTGGTG TGTCAATGAA CCCAGTTAGG 
AGCACACTTG CACTGTTGGC CATGGCCCAA CCTGGGGATG CAATCAGTGT CAAGATGGAA 
GAAGAAAATC AAGATTTAAT GCCTTTTAAC CTTCAGAAGA AAACAGCTAA AGGAAAAGGG 
CAAGTTAAAG AGGAAGACAA CAGTAATCAG AAACAGCTGA AAAGACCTGT CCAAGGCAAA 
CGCCAGAATC CAAGGGGAAC AGATATATAT TTACCATATA CTCCTCCTTC CTCGGAAAGC 
TGCCATGATG GTTATCAGCA TCAAGAAAAA ATGAGGCAGA AGATCAAAGA AGTGGAGGAA 
AAACAACCAG AAGTCAAAAC AGGATTTATT GCTTCTTTCT TAGATTTTCT GAAATCTGGG 
CCCAAGCAGC AGTTTTCCAC TCTTGCTGTA CGAATGCCTA ACAGGACTAG ACGGCCAGGG 
ACCCAGATGG TTCGTACATT TTGTCCCCCA CCACTTCCAA AGACTTCATC AACACCCACA 
CCTTTAGTGT CTGAAAGTGG GGGTAACGGT CCATCAGAAA AAGTTGATAA TGAACTTAAA 
AATTTGGAAC ATTTATCTTC ATTTTCTTCT GATGAAGATG ATCCTGGAGT ATGCAGTCAT 
GATATTTATA AAAGCGTCTC TACTCCTTTA ACTGCTTTGG ATGCTACTTC TGATAAAAAG 
AAGAAAACAG AAGCCCTACA AGTGGCAACT ACTAGCCCAA CTGCAAATGC TACTGGTACT 
GCTACTACTT CCTCCACCAC TGTGGGTGCA GTTAAGCAAG AAACTCACCA CTGTACTTCA 
TCTGCAATAA ATATCCTGGA AAATATAAAC TCTACAGAAC CCTCAAAGCC CACCGAACTT 
GATGGTCTTC CTTCAGACCA ATTTGCAAAA GGACAAGACA CTGTTGCCAT AGAAGGTCAT 
ACAGATGAGG AGAACACAGA AAGTGGAGGA GAAGGCCAAT ACAGAGAACG TGATGAATTT 
GTGGTAAAGA TAGAAGACAT AGAGACTTTT AAGGAGGCAT TAAAAACAGG AAAAGAACCT 
CCAGCTATTT GGAAAGTACA AAAAGCTTTA TTACAGAAAT TTGTTCCTGA AATTCGAGAT 
GGGCAAAGAG AATTTGCAGC TACAAATAGT TACCTTGGTT ATTTTGGAGA TGCAAAGAGT 
AAATACAAAA GGATATATGT GAAGTTCATT GAAAATGCAA ACAAAAAGGA GTATGTCAGA 
GTGTGTTCTA AAAAGCCAAG AAATAAGCCT TCACAAACTA TCAGAACTGT TCAAGCTAAG 
TCAAGTAGTA GCAGTAAAAT TTCTGATACT CCAACATCAA AATCTACAAC TACAAAAGCC 
CCTTCCATGA AACCCAAAGT TAAACAAGTA AAAGTAAAGG CTGAGCCACC ACCAAAGAAA 
CGGAAGAAAT GGAAAGAAGA ATTTTCATCA TCTCAATCTG ACTCATCTCC TGAAATCCAT 
TCTAGTAGTA GTGATGATGA GGAATTTGAT CCTCCAGCTC CCTTTGTCAC TCGCTTTTTG 
AACACAAGAG CAATGAAGGA AACCTTTAAG AGCTACATGG AATTGCTTGT TAGCATTGCC 
TTGGACCCTG ACACAATGCA AGCCTTAGAG AAGAGCAATG ATGAACTACT TTTACCTCAT 
ATGAAAAAAA TAGATGGCAT GCTAAATGAT AACCGAAAGA GACTTCTTTT GAATCTTCAT 
TTGGATCAAT CATTCAAGAA TGCTTTGGAA AGTTTTCCTG AACTAACAAT AATTACTCGA 
GACTCTAAAG CAAAAAGCGG AGGACCTGCT ATTTCTAAAA TCAAAATGAA TGGCAAAGCT 
TACAATAAGA AAACCCTAAG GACTTCTAAA ACAACCACTA AATCTGCACA AGAGTTTTCT 
GTTGATCCAG AGAAAATACA GTTGTATGCT TTGTATCATT CACTGCATCA TTATAAATAT 
CATGTTTATC TGATATGTAA GGATGAGATT TCTTCAGTAC AGAAAAAAAA TGAAGATTTA 
GGACAGGAGG AAATTGTTCA ACTTTGTATG AAAAATGTAA AATGGGTGGA GGACCTATTT 
GAAAAATTTG GAGAACTTCT AAATCATGTA CAGCAGAGAT GTTCCTAA