LOC111345550 cDNA ORF clone, Stylophora pistillata

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC111345550
Entrez Gene ID	111345550
Full Name	hemicentin-1-like
Gene Type	protein-coding
Organism	Stylophora pistillata

mRNA and Protein(s)

mRNA	Protein	Name
XM_022952838.1	XP_022808573.1	LOW QUALITY PROTEIN: hemicentin-1-like

Pathways from BioSystems
Gene Ontology

The following LOC111345550 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111345550 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
OSt126942	XM_022952838.1 Latest version!	Stylophora pistillata hemicentin-1-like (LOC111345550), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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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)

LOC111345550 ( XM_022952838.1 ) cDNA ORF clone, Stylophora pistillata -> XP_022808573.1 Stylophora pistillata hemicentin-1-like (LOC111345550), mRNA.

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CloneID	OSt126942
Clone ID Related Accession (Same CDS sequence)	XM_022952838.1
Accession Version	XM_022952838.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4299bp) 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	2017-10-24
Organism	Stylophora pistillata
Product	LOW QUALITY PROTEIN: hemicentin-1-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019218669.1) 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 :: Stylophora pistillata Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END##

ATGATGCAGC TGATCTATTT TGGGCTTGTG CTGTCTTTAT CTTCCTTAGA GTGGTGTTTT 
GTAGACTGTA AGCCAGCCTT TACCAAGACA CCCAGCAGCA ATGGCAAAGT CTATGTGGAT 
AAAGGCACCA ACTCATTTGC GTTATCGTGG GACTTTAACA CAGACGGAGA AACAGTTACT 
TGGGTGGATC TGATGTACAA AAAGAGCGGT TCCTCAGACG AGCTCATTGC CAGAAAAATT 
GGAAAACAAC TCCAAGTCCC GAGAACAACT AATTATTTTG GAAGAGTTAC CACTACAACA 
GAGAAAGCCA CGTTTGTTAT ATGGTACATT GCTGAAAGCG ACGAAAGAAC ATTTGAATGC 
AAGGTTTACT TCTCATCAGT ATCTAACCCC TGGATAATGA GTGCTGTTAA GCTAATTGTA 
GTTGTTAAAC CGAAGATCAC ACTTTACACG ACGCAAGCCC TCTTGATGAC CGAAGGAGAC 
ACCAGAACGC TGCTATGTGT TGCCAGTGGC AACCCTAGAC CATCCTACAC TTGGTATAAA 
AACAACGTAA GGGTTCAGGA AGGTTCCGAC AACTCCAACT ACACAATAAC ATCAGCCAAT 
AGGTATCAGA CAGGGATGTA CCGATGTGAA GCTGTTGTCA CTACTTCAAC GCTGGGTCCA 
TATAGGGCTG ACTATAATGT TAGTGTAACA GTAAGATACA AGCCTCAGCA CAAAGTTAAC 
AGTTTGGAAC GCAATGAAAC CTTTTATTTA GGGCGTGATG CAATGTTTTA TTGCCGAACA 
GAAGCATTCC CTATTGCAAT CCAGTACAGC TGGTTTAAGA ATGACAACCA AATTTCCAAT 
TCAAGGGACT AAACGATCGT TAATTTCGGT TATGGAGAAA GCAGACTAAC GGTTAAGCAA 
GTTAAAAAAA GTAGCGTTGG ACGATACTCT TGCTATGGAA ATAATGACGT TGGAAATGGA 
AAGAAGAAAT CCGTTTTCTT AACTGTTCAT TATGCTCCTC TGGAAATAAC TCTAAAACCA 
GATCCAGCAG TTGTGAGATT CAATCAGACT TTAATTCTGA CTTGCCAGGC AGATGCTGTT 
CCATTACCTC GATACTCTTG GATGTTTAAT GGAAAAACTC ACACCAAAGC TATTCATAAC 
ATCCTAAAGC TAACGAATGT ACAAGTAAAC GATGCAGGAA ACTACACCTG CGTAGCAGAA 
AACTTTTTTG GACGCAAAAA CACAACAAGA GTTGTCAACG TAGAATATGC CCCTGCCGTT 
CAGTCTTTTA CTACTGGAAC TCCTAAAAAC ACTGTAGTTC AAGGAACACC CGTGACGGTT 
ACGTGCAGTG CAAGTGGTTA CCCTGCTCCA ACGATTACGA TAAAAAGAAA TGACACTGTT 
ATCAGTAATG TGGGGGGATT TGCAATACCC AACATACAGG TCAACGAAGA ATATACCATA 
TACACATGTG AGCCGAGAAA TACTATAGGA ACAGGTGCTA AGAAAGAATT GAAGATTACA 
GTGCAAGTTC CACCGACCAT TTCTGGAAAA CTTCCAGATT CCAAAAATGT AAGAAAGGAA 
AATGAAGCAA TTTTGTACCA ATGTGGAGCT GAAGGCAAAC CGGCACCAAA CATCACCTGG 
AAATTTAAAG GAAAGAATCT TATCGATAAG CCACCATTCA ATATCTCCAC CACAGTGCGT 
GTATCGTCCG ATAAGCTTAG GACGACTCAG TCAGTTCTCA CCATTGAACA ATTAACTTGG 
AGAGAAAGTG GTACTTTTTC TTGTCTTGCA TTCAACGACG CTGGTCAAGC GATACAATCT 
ACAGAACTCG AAGTCGAGTA TCGACCAGTT GTTCAGTCTA TGGCAGATCA CCCTAAAAAC 
CTCACCGTGG ATGAGGGAAC AAATGCAACT TTCACTTGTA AAACAAAGGG TTATCCATCT 
ACCCAAGCTC ACATGTGGCA GTTTAATGGA AGCAGAATTT CGGGAGCTAA CTGCTCAGGT 
TGTCATATAG CAACGTTCAC AAAACCTTAC GTGAAAAAAA CTGACGCTGG GTGGTATTCT 
TGCACTGGCA GGAACATTCT GGGAGAAGGT CCTCCTGCAT TGGCATATTT AACAGTTAAG 
TATCGTCCAA CAATAATCTC CTCGCAAGAA CTATATACAG TAAACGAGAC TAGAAATGTT 
TCCATGTTGT GTCGGGCAGA TGGCTTGCCA AAACCTAAAA TTGTTTGGAA AAAGAAAGGC 
ACTAGTGAGG TTCTCGAAAT TGGTGAACAG TTTCATGTCC TCAATGCCCA GGACATTCAT 
AATGGTTTGT ATTGTTGTAC TGCAAGCAAT TACCTTGGGC AGCACACAAA CGAGGTCACG 
TTGAATGTTC AAATGCAAAA TATCTCTCAG ATGAACGACA CTTCTACCAT GAAAGTGACA 
GTCAACAACA CGGGTGAATA TTTCCATTGT GTGGCCTCAA ACCCTCTTGG AAGCGACAAC 
TTGAGATATA CGATACGAAG AAGAGGTGTC CCTGATCCTC CACGCGATGT GAAACTCCTG 
GCTTTTAAAG TAGCTGGGGC TAAAACTGTG AATGTGAACG TGACTTGGAC ACCTGGATAC 
AGTGGAGGAT ATGAACAAAC ATTTACAATT TATTTTCGTG TGAAAGGAAG CGACAGTGAC 
TTTGAGGAGC AATATGTTGG ACGCTCAGAA AACCACATGT ACACCATACG AGGACTTAAC 
CCTAAGACCG ACTATGAATT TACTGTTCAG GCTTCAAATA TAGATGGCAA AAGTCAAAAA 
TCAACCATAG TTAACGTTGT GACGCCAGAA TCCTCAATAC CCATACCAGC TAAAAGAGGA 
AAAGTCAATG CAACAAGAAA CCCAGATGAC GCCTCTGTAA TATTGGTTGA GTGGACAATA 
GAAGATAAAG AGGTCAGAAA GTTGAACCTT GAAATCCAGC AGGGTGGGGA GGGTGCTTGG 
AAGCCTGTCT CTAGAGCAAG AAATGTGGAT ACGTCTCTAA AACACTTCAC AGTGACAGGT 
CTCAGGGTCG AGGAGATATA CAGATTCAGA ATGGACATGA GAAGGCCAAG GGAGCAGAAT 
CCTGTGTATG TGTATAGTGA CGTAGTGCCA GCCGGTCATA TTAACCCCAT ACCTGAGAAG 
AGGGAAAAAA AAGCGTTCCT CTTTCCAACG TGGATGATTT CTGTCATTGC TGGTAGTTCA 
GGAGCATTAC TTCTTCTCCT TTTTGTTCTT TGCCTCTGTC GACGTAGGCG TCGTCGCAAG 
ACAGTTGATG AAGTTGGACA AGGGAAGAAG AATGCACCGT CAAGCTATGT AGTCGGCGGT 
CCAGATGTGG TTCCTACAGT GAGTAGGAGA GGCTCGTGTG GGGGCCAGGA ATCTATAGAA 
GACGATCCGT TTGTAGTCGC TGCATCCATG CAGGCCTTGG ATTCAACGGA TAGAAAAAAG 
AAAAAACTTG ATGCCTCTAT CAATCATGGA TACCAGCCTG AAGAGATACT ACTCAAGCCA 
GGCTCTCGTC AGGAGCAAAA TGGCCACGTT GTACACAGCA AAGAAAAACC TGAACCAGAC 
TCAGCCTACC CAGCCAAAGG ACCACAAAGA GATTTCAACA CATTTGCCAC AAGCGTCGAA 
CTTGTTCGAA CTCCAAGTAG AAATACAACC GCCATCGAGA ATCCTGTCTG CACAGCAGTG 
GACAAAAAGG AGTCTTTTTC TCAAACGAAA GAGTCAACCT TGCCTTTGCC TACCAAACAC 
CAAAATGGCG TGGTCAAAGG ACCTCTTGAT CCAACGGTAC ATTATGCTAC ATCTCAAAAG 
AAAAAGACTT CTAAGAGAAC TCGTCCAGAG CCACAAGACT CAGCAAATAC TGAACCTGCT 
CGACACAACC CTTTGAAAGA TAAACCTAAA GAGGATCCTC CGCTTGGAGA TCTAGATCTG 
GATGACCCTT CCAGCCTTCC AGCCAGCAAA AGACCATCAG AAAAACCAAC CTCCATAGCC 
ATGTTGCCCT GCAGGCAGGC CGCCAACACC TTCCCAAAAA ATCTAAGTAA TGGTTCACCC 
GGACCACCAG GATTTTTTTA CATACCTATC AACAGAAAGG CACGAGCTCA AACTTACGGA 
GCAAATATGC CACATCAACC ACCTCTGCCA GGACGACCAA GAAAGCGCTA TGCAACAGTT 
GATGGTCAAC TAGTAAGGCT AAACTCGCAG GGTTCGGAAG ATTCTCGGAG TTCCCAGTCG 
ACACAAAAGA CGCACATCTC AAAACCGGAA GACCCGACGG AATGTGAATG CGACATAAGT 
GGAGTATCGA ATATGAGTTA TGTTAGTTAC CTGGTGTGA

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

RefSeq	XP_022808573.1
CDS	41..4339
Translation	MMQLIYFGLVLSLSSLEWCFVDCKPAFTKTPSSNGKVYVDKGTNSFALSWDFNTDGETVTWVDLMYKKSGSSDELIARKIGKQLQVPRTTNYFGRVTTTTEKATFVIWYIAESDERTFECKVYFSSVSNPWIMSAVKLIVVVKPKITLYTTQALLMTEGDTRTLLCVASGNPRPSYTWYKNNVRVQEGSDNSNYTITSANRYQTGMYRCEAVVTTSTLGPYRADYNVSVTVRYKPQHKVNSLERNETFYLGRDAMFYCRTEAFPIAIQYSWFKNDNQISNSRD*TIVNFGYGESRLTVKQVKKSSVGRYSCYGNNDVGNGKKKSVFLTVHYAPLEITLKPDPAVVRFNQTLILTCQADAVPLPRYSWMFNGKTHTKAIHNILKLTNVQVNDAGNYTCVAENFFGRKNTTRVVNVEYAPAVQSFTTGTPKNTVVQGTPVTVTCSASGYPAPTITIKRNDTVISNVGGFAIPNIQVNEEYTIYTCEPRNTIGTGAKKELKITVQVPPTISGKLPDSKNVRKENEAILYQCGAEGKPAPNITWKFKGKNLIDKPPFNISTTVRVSSDKLRTTQSVLTIEQLTWRESGTFSCLAFNDAGQAIQSTELEVEYRPVVQSMADHPKNLTVDEGTNATFTCKTKGYPSTQAHMWQFNGSRISGANCSGCHIATFTKPYVKKTDAGWYSCTGRNILGEGPPALAYLTVKYRPTIISSQELYTVNETRNVSMLCRADGLPKPKIVWKKKGTSEVLEIGEQFHVLNAQDIHNGLYCCTASNYLGQHTNEVTLNVQMQNISQMNDTSTMKVTVNNTGEYFHCVASNPLGSDNLRYTIRRRGVPDPPRDVKLLAFKVAGAKTVNVNVTWTPGYSGGYEQTFTIYFRVKGSDSDFEEQYVGRSENHMYTIRGLNPKTDYEFTVQASNIDGKSQKSTIVNVVTPESSIPIPAKRGKVNATRNPDDASVILVEWTIEDKEVRKLNLEIQQGGEGAWKPVSRARNVDTSLKHFTVTGLRVEEIYRFRMDMRRPREQNPVYVYSDVVPAGHINPIPEKREKKAFLFPTWMISVIAGSSGALLLLLFVLCLCRRRRRRKTVDEVGQGKKNAPSSYVVGGPDVVPTVSRRGSCGGQESIEDDPFVVAASMQALDSTDRKKKKLDASINHGYQPEEILLKPGSRQEQNGHVVHSKEKPEPDSAYPAKGPQRDFNTFATSVELVRTPSRNTTAIENPVCTAVDKKESFSQTKESTLPLPTKHQNGVVKGPLDPTVHYATSQKKKTSKRTRPEPQDSANTEPARHNPLKDKPKEDPPLGDLDLDDPSSLPASKRPSEKPTSIAMLPCRQAANTFPKNLSNGSPGPPGFFYIPINRKARAQTYGANMPHQPPLPGRPRKRYATVDGQLVRLNSQGSEDSRSSQSTQKTHISKPEDPTECECDISGVSNMSYVSYLV

Target ORF information:

RefSeq Version	XM_022952838.1
Organism	Stylophora pistillata
Definition	Stylophora pistillata hemicentin-1-like (LOC111345550), mRNA.

Target ORF information:

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

XM_022952838.1

ORF Insert Sequence:

ATGATGCAGC TGATCTATTT TGGGCTTGTG CTGTCTTTAT CTTCCTTAGA GTGGTGTTTT 
GTAGACTGTA AGCCAGCCTT TACCAAGACA CCCAGCAGCA ATGGCAAAGT CTATGTGGAT 
AAAGGCACCA ACTCATTTGC GTTATCGTGG GACTTTAACA CAGACGGAGA AACAGTTACT 
TGGGTGGATC TGATGTACAA AAAGAGCGGT TCCTCAGACG AGCTCATTGC CAGAAAAATT 
GGAAAACAAC TCCAAGTCCC GAGAACAACT AATTATTTTG GAAGAGTTAC CACTACAACA 
GAGAAAGCCA CGTTTGTTAT ATGGTACATT GCTGAAAGCG ACGAAAGAAC ATTTGAATGC 
AAGGTTTACT TCTCATCAGT ATCTAACCCC TGGATAATGA GTGCTGTTAA GCTAATTGTA 
GTTGTTAAAC CGAAGATCAC ACTTTACACG ACGCAAGCCC TCTTGATGAC CGAAGGAGAC 
ACCAGAACGC TGCTATGTGT TGCCAGTGGC AACCCTAGAC CATCCTACAC TTGGTATAAA 
AACAACGTAA GGGTTCAGGA AGGTTCCGAC AACTCCAACT ACACAATAAC ATCAGCCAAT 
AGGTATCAGA CAGGGATGTA CCGATGTGAA GCTGTTGTCA CTACTTCAAC GCTGGGTCCA 
TATAGGGCTG ACTATAATGT TAGTGTAACA GTAAGATACA AGCCTCAGCA CAAAGTTAAC 
AGTTTGGAAC GCAATGAAAC CTTTTATTTA GGGCGTGATG CAATGTTTTA TTGCCGAACA 
GAAGCATTCC CTATTGCAAT CCAGTACAGC TGGTTTAAGA ATGACAACCA AATTTCCAAT 
TCAAGGGACT AAACGATCGT TAATTTCGGT TATGGAGAAA GCAGACTAAC GGTTAAGCAA 
GTTAAAAAAA GTAGCGTTGG ACGATACTCT TGCTATGGAA ATAATGACGT TGGAAATGGA 
AAGAAGAAAT CCGTTTTCTT AACTGTTCAT TATGCTCCTC TGGAAATAAC TCTAAAACCA 
GATCCAGCAG TTGTGAGATT CAATCAGACT TTAATTCTGA CTTGCCAGGC AGATGCTGTT 
CCATTACCTC GATACTCTTG GATGTTTAAT GGAAAAACTC ACACCAAAGC TATTCATAAC 
ATCCTAAAGC TAACGAATGT ACAAGTAAAC GATGCAGGAA ACTACACCTG CGTAGCAGAA 
AACTTTTTTG GACGCAAAAA CACAACAAGA GTTGTCAACG TAGAATATGC CCCTGCCGTT 
CAGTCTTTTA CTACTGGAAC TCCTAAAAAC ACTGTAGTTC AAGGAACACC CGTGACGGTT 
ACGTGCAGTG CAAGTGGTTA CCCTGCTCCA ACGATTACGA TAAAAAGAAA TGACACTGTT 
ATCAGTAATG TGGGGGGATT TGCAATACCC AACATACAGG TCAACGAAGA ATATACCATA 
TACACATGTG AGCCGAGAAA TACTATAGGA ACAGGTGCTA AGAAAGAATT GAAGATTACA 
GTGCAAGTTC CACCGACCAT TTCTGGAAAA CTTCCAGATT CCAAAAATGT AAGAAAGGAA 
AATGAAGCAA TTTTGTACCA ATGTGGAGCT GAAGGCAAAC CGGCACCAAA CATCACCTGG 
AAATTTAAAG GAAAGAATCT TATCGATAAG CCACCATTCA ATATCTCCAC CACAGTGCGT 
GTATCGTCCG ATAAGCTTAG GACGACTCAG TCAGTTCTCA CCATTGAACA ATTAACTTGG 
AGAGAAAGTG GTACTTTTTC TTGTCTTGCA TTCAACGACG CTGGTCAAGC GATACAATCT 
ACAGAACTCG AAGTCGAGTA TCGACCAGTT GTTCAGTCTA TGGCAGATCA CCCTAAAAAC 
CTCACCGTGG ATGAGGGAAC AAATGCAACT TTCACTTGTA AAACAAAGGG TTATCCATCT 
ACCCAAGCTC ACATGTGGCA GTTTAATGGA AGCAGAATTT CGGGAGCTAA CTGCTCAGGT 
TGTCATATAG CAACGTTCAC AAAACCTTAC GTGAAAAAAA CTGACGCTGG GTGGTATTCT 
TGCACTGGCA GGAACATTCT GGGAGAAGGT CCTCCTGCAT TGGCATATTT AACAGTTAAG 
TATCGTCCAA CAATAATCTC CTCGCAAGAA CTATATACAG TAAACGAGAC TAGAAATGTT 
TCCATGTTGT GTCGGGCAGA TGGCTTGCCA AAACCTAAAA TTGTTTGGAA AAAGAAAGGC 
ACTAGTGAGG TTCTCGAAAT TGGTGAACAG TTTCATGTCC TCAATGCCCA GGACATTCAT 
AATGGTTTGT ATTGTTGTAC TGCAAGCAAT TACCTTGGGC AGCACACAAA CGAGGTCACG 
TTGAATGTTC AAATGCAAAA TATCTCTCAG ATGAACGACA CTTCTACCAT GAAAGTGACA 
GTCAACAACA CGGGTGAATA TTTCCATTGT GTGGCCTCAA ACCCTCTTGG AAGCGACAAC 
TTGAGATATA CGATACGAAG AAGAGGTGTC CCTGATCCTC CACGCGATGT GAAACTCCTG 
GCTTTTAAAG TAGCTGGGGC TAAAACTGTG AATGTGAACG TGACTTGGAC ACCTGGATAC 
AGTGGAGGAT ATGAACAAAC ATTTACAATT TATTTTCGTG TGAAAGGAAG CGACAGTGAC 
TTTGAGGAGC AATATGTTGG ACGCTCAGAA AACCACATGT ACACCATACG AGGACTTAAC 
CCTAAGACCG ACTATGAATT TACTGTTCAG GCTTCAAATA TAGATGGCAA AAGTCAAAAA 
TCAACCATAG TTAACGTTGT GACGCCAGAA TCCTCAATAC CCATACCAGC TAAAAGAGGA 
AAAGTCAATG CAACAAGAAA CCCAGATGAC GCCTCTGTAA TATTGGTTGA GTGGACAATA 
GAAGATAAAG AGGTCAGAAA GTTGAACCTT GAAATCCAGC AGGGTGGGGA GGGTGCTTGG 
AAGCCTGTCT CTAGAGCAAG AAATGTGGAT ACGTCTCTAA AACACTTCAC AGTGACAGGT 
CTCAGGGTCG AGGAGATATA CAGATTCAGA ATGGACATGA GAAGGCCAAG GGAGCAGAAT 
CCTGTGTATG TGTATAGTGA CGTAGTGCCA GCCGGTCATA TTAACCCCAT ACCTGAGAAG 
AGGGAAAAAA AAGCGTTCCT CTTTCCAACG TGGATGATTT CTGTCATTGC TGGTAGTTCA 
GGAGCATTAC TTCTTCTCCT TTTTGTTCTT TGCCTCTGTC GACGTAGGCG TCGTCGCAAG 
ACAGTTGATG AAGTTGGACA AGGGAAGAAG AATGCACCGT CAAGCTATGT AGTCGGCGGT 
CCAGATGTGG TTCCTACAGT GAGTAGGAGA GGCTCGTGTG GGGGCCAGGA ATCTATAGAA 
GACGATCCGT TTGTAGTCGC TGCATCCATG CAGGCCTTGG ATTCAACGGA TAGAAAAAAG 
AAAAAACTTG ATGCCTCTAT CAATCATGGA TACCAGCCTG AAGAGATACT ACTCAAGCCA 
GGCTCTCGTC AGGAGCAAAA TGGCCACGTT GTACACAGCA AAGAAAAACC TGAACCAGAC 
TCAGCCTACC CAGCCAAAGG ACCACAAAGA GATTTCAACA CATTTGCCAC AAGCGTCGAA 
CTTGTTCGAA CTCCAAGTAG AAATACAACC GCCATCGAGA ATCCTGTCTG CACAGCAGTG 
GACAAAAAGG AGTCTTTTTC TCAAACGAAA GAGTCAACCT TGCCTTTGCC TACCAAACAC 
CAAAATGGCG TGGTCAAAGG ACCTCTTGAT CCAACGGTAC ATTATGCTAC ATCTCAAAAG 
AAAAAGACTT CTAAGAGAAC TCGTCCAGAG CCACAAGACT CAGCAAATAC TGAACCTGCT 
CGACACAACC CTTTGAAAGA TAAACCTAAA GAGGATCCTC CGCTTGGAGA TCTAGATCTG 
GATGACCCTT CCAGCCTTCC AGCCAGCAAA AGACCATCAG AAAAACCAAC CTCCATAGCC 
ATGTTGCCCT GCAGGCAGGC CGCCAACACC TTCCCAAAAA ATCTAAGTAA TGGTTCACCC 
GGACCACCAG GATTTTTTTA CATACCTATC AACAGAAAGG CACGAGCTCA AACTTACGGA 
GCAAATATGC CACATCAACC ACCTCTGCCA GGACGACCAA GAAAGCGCTA TGCAACAGTT 
GATGGTCAAC TAGTAAGGCT AAACTCGCAG GGTTCGGAAG ATTCTCGGAG TTCCCAGTCG 
ACACAAAAGA CGCACATCTC AAAACCGGAA GACCCGACGG AATGTGAATG CGACATAAGT 
GGAGTATCGA ATATGAGTTA TGTTAGTTAC CTGGTGTGA