YLPM1 cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	YLPM1
Entrez Gene ID	102567006
Full Name	YLP motif containing 1
Gene Type	protein-coding
Organism	Alligator mississippiensis(American alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019488686.1	XP_019344231.1	YLP motif-containing protein 1

Pathways from BioSystems
Gene Ontology

The following YLPM1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the YLPM1 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
OAl58074	XM_019488686.1 Latest version!	Alligator mississippiensis YLP motif containing 1 (YLPM1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$1161.30 $1659.00

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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)

YLPM1 ( XM_019488686.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019344231.1 Alligator mississippiensis YLP motif containing 1 (YLPM1), mRNA.

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CloneID	OAl58074
Clone ID Related Accession (Same CDS sequence)	XM_019488686.1
Accession Version	XM_019488686.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 6033bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	YLP motif-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017710206.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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 ##RefSeq-Attributes-END##

ATGGAGCTGT CGTCGCCGCC GCAGTCGCCG GGCCCCGCAC CGCCCTACCC CCCGCCTGGC 
TACCTGCCGG CTGAGCCCGC GCCGGCCCAG CCGCCCTCCT ACCCGCCCCG TGTGCCCAGC 
TACTCGGAAC CACCACCCAG CGCTTCACAG TCCTACCTGC CACCGGGCCA GGCCTACACC 
GCGCCTCCCC CGGCCTACCT GCCGCCGCCC CAACCCAAGC CCCAGCCCCT CTTCCAGGCC 
TCATTGCCAC CACCCACTGC GGCGGCCTCT CAGGACAGTG CTGCCAAGGA GGCTGGCGCT 
GGGGTCGAGC CGCACAGCAC CGCGCAGCCC GACCCCTCCA CCATGACACC CCAGGAACAG 
CAGCAGTATT GGTACCAGCA ACACCTACTT AGCTTGCAGC AGAGGGCAAA AGCCCATGCA 
CAGGGACAGC AGCAACTGAA GAGCACAGGA ACAGTGAAGG ATGCTCCTGA GCAGAGAGTA 
AAGCAAGAGG AAGGGAAAGC GCATGCTACC AATCGGCAGT CTGAAGCTCC TTCACTTAAA 
GAGCCTGCAA CACCAGCCCC CAAAGAAGAG GATCCTCTTC TCTCAGCTGC CGAATCAAAG 
CTGAATATTG AACCTCCTGA GGACTCTGAG GAAGACTTGA GGTTGCAGCA GTTGCAGGTG 
GCAGCAGCAC AGTGGCAGCA GCATCCACAC CATCGAGTTG GCTTTCAGTA TCAGAGAATA 
ATGCAGAAGC ATGCACAGCT GCAACAGATC CTACAGCAGT ATCAACAGAT CATACAGCAG 
CCTCCCCACC TACAGACCAT GTCAGTGGAC ATGCAGCTGC AACATTATGA GACACAGCAG 
AAACAGTTCC AGCAACTGCA TAAAGAATGG GAGCGTGAAT TCCAGCAATG GCAGGATCAG 
CTCCAGACCT ATCCTCACAA AGATCAGCTT CAGGAATATG AGAAACAATG GCAAACATGG 
CAGGGACAGA TGAAAGCTAC TCAATCCCAT TTGCAGGAGA AAGTAAACTC ACTTCAGAAC 
ATGAAGAATC AATACCCTGG AAGTGTTACA ATGCCACCTC CATTTGCTTC ATACACTCAA 
ACAGCTCAAG GAAGCATTCC TGTTATGCCT CCAACTTTGC CTCCCACAAC ACCTCCACAG 
GTTCCTCCAC CCCTGTCTTC TGGTTCTCAA ATTCCAAATT CATCCATTCC CCCAACATCT 
AGTTCTCAGA GCCCCCAGCC TACTGAGACA CCAAGGCCAG CTCTACTTCC CACCCCTGTT 
TCATTTGCTC CTAAAGTATC TGGCTTAGCT GCAACTTTAC CCTATCATTC TCAGATAACT 
TCATCTATTG CCTCTTCAGA CCAAGGAAAC ACTCAGGTTC ACATGGCTAA ACAATCTGGG 
CCATTTGCCT CAGTTTCATC TGAGCAAGGA TCTGGGGAAT TGAAAACCTC CACAGGAACT 
TCACCACTTA CACCCACCAC CTCCATCACT ACCTTCACTC AAGATAAACC TCTGAGATCA 
GGTGGATTGC TTCCAGACCC TCCAAGAGGA CCATACTTTG AAGGACCAAG AGGTCCTAGG 
TTTGATGGAC CTCGAGGAAG AGGTTTTGAG AGATTTGAAG GGCCAAGACA AAGAGGGCCT 
CGTTTTGAGG GCCAGCACTT GGAAGGTCCA AAACCCAGAT ATGAAAATCA AAAATCAGAT 
GGACAGTCTT CGAGCAAATG GGGGACTATC CCACGTGGCC CAGCATCACA GTTTTATACT 
ACCCCAACTA CATCACAGAT GCATAGTACC CGACCAAGTG GGCCCCAGTG CAGGGGTCCC 
AGGCCTTCTT TTGGACAACA GCAGCTACAA GCAGAGTCCC GGACTGAAAA CAAAGAACCT 
TTTACTGATG CTGCTGGAAA ACAACAGATG GCAAATAGAA CTCAGTCTAC TCCAATTCCC 
ATTGATACAG ATGCAAAGAA CTCTGGTCCA GTCCAGCCAA ATGAGGACTT GAAAAAAATG 
CAACAGGAAC CACCCAAATC TGAAGTAAAA GAAATCATTT CAGAGCCTAA AAAGTGGACT 
TGGAGTTCTC AGGATCCAGC ACAGCGAGCA GAAGAGTCCA AACCAACCAC TCAGCCTCCA 
CCCACACAGA ACCAAAAACT GGCATCTGTT CCCAGTAGTT CTGCAATTTT GCAATCTCCT 
GTTCCGTCAA GAACAGGAGA AACGACAATA GTGACTCCAT CCCCTGTACC AGGAGATAAA 
GACTTGAATT CTGCAGATAA TAAATTGCCT GTTTCAGATG GCACCCTGGG GCAAGATCTA 
CCTGGGTCAG AAAACAGAGT AAAAGGCACA GTTATGTCAG AAGGCAATAG AGGCACTGGA 
CCAGTAAGCA GGGGCAGAGG TCAGGGCAGA ATGGAGGATG GCCGGGGCAG AGGGATGGGC 
GGAATGGAGG AGGGCCGCGG CAGGGGGATG GGCAGATTGG AGGAGGGCCG CGGCAGGGGG 
ATGGGCAGAA TGGAGGAAGG CCATGGCAGG GGATACGGCA GAATGGACGA TGGTCGTGGC 
AGGGGGATGG GCAGAATGGA TGATGGTTGT GGCAGGGGAT ACAGCAGAAT GGATGATGGC 
TGTGGCAGGG GGATGGGCAG AATGGATGAT GGTCATGGGA CCGGGATGGG CAGAATGGAT 
GATAGCTGTG GCAGGGGGCT GGGCAGAATG GATGATGGCC AGGGTAGAAT GGACTATGGC 
CATGGCAGGG GATTGGGCAG AATGGACAAT GTCCGTGGCA GAGGACAAGC AAACAGAGGC 
ATGGGACAGG CAGCCATCCA TGGCAGAGGC ATGGCCATGG CAGCAGACAG CTGGGATAAG 
TTGTCAGATA GGTATGCAGG CAGCCAGGAG GGGTTGTCAG ATGAACGTTC AGACAGCCGG 
GAGAGACTGC CAGATGGGCA CTCGGGCAGC AGGGAGAGAG GATTTATAGG AAGGTCAGAC 
AGCCAAGAGA GGGTGTTGTC TAGCCGAGAT AGAGAGCTAG CTGGTCGACC AGGCAACAAG 
GATAGGGGGC AGGCAGCTAG CCGAGAGCAA GGTCCTGTCA GACAGACAGG TAGCCATGAG 
CGGGAACCAG TCAGGCGGGC AGGTAGCCGT GAGCGGGGCC CTTTCAGACG GGAAGGAAGC 
CGGGATGGAG GGCCCATGAG ATGGGCAGGA GGTCGGGATG GGGAGCCTAT GAGGAGGGTA 
GGAAGCGGAG ATGGGGGACC TGTCAGGCAG ACAGGTAGTC GGGAACGAGG CCTAGTTAGG 
CGGGCAGGTA GCTGGGAGAG GGAACCAGGC AGGTCTGAAA TGGGTGGTAT GGATAAACGC 
CTGGGTGACA GCTCTGAGAA ATTCCCCCCA TACCATCGAG AGGAGCCTCT CAGGGGTCCC 
TGGAGCCATG AAGAAGAGAG AATGCAAGAA GAACTACCAT TGGATAGCAG AGATGCCCCT 
CTAGACTGTG AACTAGTAGA TGATTGGGAA AGAGATCAAT ATTGGAGAGA GCATGACACA 
GATTTTCGGG ATGATTCCTT GGACCCCTAT GATAGAGGTG ACAGGTTCTC ACTCCATCAT 
TCAATGCCTC CACTATCACC TCTTCCTCCA CTCCCTCCTT TGTCTTCTGA TTTTGACAGA 
CAAGACCCTT GGTGGGATGA TTGGGAAAGG CCAAGAGAGA GAGAGATGGA TAGAGACCTG 
GACAGGATTG GAAGATCCAT GGATAGTTAT GATCGTGATT TAGATAGAGA ATGGGACGGA 
GATTATTTGA TGCCTCCAGA TGATAGAGAG ATACCAAGTC GTGATCTGGA TATTCCCCCT 
CTCCCACCCA TGCAGTCCTT TCCACCTTTG GACAGATACC ATGAGGACCG GTGGAGGGAG 
GAGAGGGACA GAGATTTATA TGACAGGGAC CGTCGAGACA GGGGGGAGTT GAGAATCCGA 
GAATACCCGG AGAGAGTGGA CAGATGGAGG GAGAAGCGAA ACTACCCTCC TGAAAGGACT 
GACTGGGAGA GAGAACGATT GTCAGAGAGG TGGTATGCTG ATGAAGAAGA AAGAATGCAA 
CCTTTGGAGG ATCAGCTAGA TTTACCCATC CCACCACCAC GTTCCTCAGA CATGTTGGAA 
GCAGATTCAA CTATGGACAC TGACCAATCA CTAGGGGGAG TAATGGTCCT TAGTCAAAGA 
CAACATGAAA TAATCCTGAA GGCTGCTCAG GAGCTGAAGA TGCTTCGGGA ACAGAAAGAG 
CAGATGCAGA AGTTGAAAGA GTTTATACCT GAGCCTGAAC TGCCAACACA TGAGACTTCT 
AGATCACAGA CCACAACTCC AAGGCCAGGT TCCTATCAGG TGTCTTCTCA ACATCCATCT 
GAGACATCAT TAGAATCTCA ACCTATCACG TCTTCTCCTG CTGTTATTAT AAAGCCACCA 
GTTCTGTTCA GGCAGCCCAC TGCAGTGACC AGACCTACTT CCACAGTGAC AAGGTCATCT 
GCCTCCGTAT CAAGGCCACT TTCTTCATCT CCTACTCCAA TTGCATCCTC AAGTCAGACT 
CCAGGTCTAA AACCATCACT TGCTACTGTG GAACAGGAAC GTTGGGATGA GGATTCTTTC 
CATGGGCTCT GGGATACCAA TGAAGATAAG GGAGCAAATT TAGAGTATGA ATTATGTAAA 
TCAGACTCGG GGTTGCCACC ACCAGCCTCA TCTTCTGTTC ACCCTTCCCT TTTGTCATCT 
GTATCAACAT CACTTTCTTC GGTTATGCCA TCAATTTCTA AACCACCTCT AATTCAGCAG 
ACTGTGGACT ATGGCCATGG CAGAGATATT ACCACCAGTA AAGTAGAACA AATTCCCTAT 
GGGGAAAGAA TAACCCTGCG ACCAGAGCCT CTGCCTGAGA GACAGCCATT CCCTAAAGAG 
CACCCAGGCC AGCGTGACCG TTACAACAGA GAAAGAGATC GTGAACCTTA CTTTGAGCGT 
CAAGGCAATT CCAGTATAGA TCACCGAGAT TTCAAGAGGG AGCGGGAAGT GCACAGAGAC 
CGTAGTTCTG GAGATTATGA TCGTGAGAGG TTTGAGAAAG AGCGCCACCC TCGAGAGGAC 
AGGGTTCCTC CAACTGTACC TTCAAGGACG CAGTCTTACC GTGACAAGAA AGATCATCCC 
TCCACAAGGC GAGGGAGCTT TGAAAGACCA TCATATGAAA GGAAGCCAGA TCGCTCAACC 
TATGATCATG GGCCTTCCAT GTTTGGAGGT GATCGAAGAA ACTACCCCGA GGAGAGAATG 
CCCATTTCTG CTCCATCAGT ACCCCGCCAG CCTCCCCCTA CCCCACGAGT GGAGAGGAAG 
CCAGAGTCTA AAAATGTAGA TGATATTTTG AAGTTACCAG GACGGGACAG CAGGCCAGAG 
AGGATTGTTA TCATAATGAG GGGATTGCCT GGCAGTGGAA AGACACATGT AGCAAAATTA 
ATCAGGGATA AGGAAGTAGA CTGCGGAGGG CCTGCACCCA GAGTGCTCAG CCTGGATGAC 
TATTTCATCA CTGAAGTGGA AAAAGAGGAG AGAGACCCAG ATACAGGGAA AAAAGTGAAG 
AAGAAGGTGA TGGAATATGA ATATGAAGCT GACATGGAAG AGACCTACCG CACGAGCATG 
TTTAAAACCT TCAAAAAGAC CTTGGATGAT GGCTTCTTTC CATTCATTAT CCTTGATGCC 
ATCAATGACA GAGTGCGGCA CTTTGAACAG TTCTGGAGTG CAGCAAAAAC AAAGGGCTTT 
GAGGTATATC TAGCTGAAAT GAGTGCAGAT AACCAGACTT GTTCCAAGAG GAATATTCAT 
GGACGCAAGC TGAAGGAGAT CAATAGGATG TCTGATCACT GGGAAACAGC ACCACGTCAC 
ATGATGCGTT TGGATATTCG TTCTCTGTTA CAAGATGCTG CTATTGAAGA GGTGGAAATG 
GAAGATTTTG ATGCAAATAT TGAAGACCAG AAAGAAGAAA ATAAGAAAGA TGCAGCAGAG 
GAAGAGGAGA GTGAACTGGG TTACATTCCG AAAAGCAAAT GGGAGATGGA CACTTCTGAG 
GCAAAACTAG GTGGGTATTT CCTTTTTTTA TAA

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

RefSeq	XP_019344231.1
CDS	151..6183
Translation	MELSSPPQSPGPAPPYPPPGYLPAEPAPAQPPSYPPRVPSYSEPPPSASQSYLPPGQAYTAPPPAYLPPPQPKPQPLFQASLPPPTAAASQDSAAKEAGAGVEPHSTAQPDPSTMTPQEQQQYWYQQHLLSLQQRAKAHAQGQQQLKSTGTVKDAPEQRVKQEEGKAHATNRQSEAPSLKEPATPAPKEEDPLLSAAESKLNIEPPEDSEEDLRLQQLQVAAAQWQQHPHHRVGFQYQRIMQKHAQLQQILQQYQQIIQQPPHLQTMSVDMQLQHYETQQKQFQQLHKEWEREFQQWQDQLQTYPHKDQLQEYEKQWQTWQGQMKATQSHLQEKVNSLQNMKNQYPGSVTMPPPFASYTQTAQGSIPVMPPTLPPTTPPQVPPPLSSGSQIPNSSIPPTSSSQSPQPTETPRPALLPTPVSFAPKVSGLAATLPYHSQITSSIASSDQGNTQVHMAKQSGPFASVSSEQGSGELKTSTGTSPLTPTTSITTFTQDKPLRSGGLLPDPPRGPYFEGPRGPRFDGPRGRGFERFEGPRQRGPRFEGQHLEGPKPRYENQKSDGQSSSKWGTIPRGPASQFYTTPTTSQMHSTRPSGPQCRGPRPSFGQQQLQAESRTENKEPFTDAAGKQQMANRTQSTPIPIDTDAKNSGPVQPNEDLKKMQQEPPKSEVKEIISEPKKWTWSSQDPAQRAEESKPTTQPPPTQNQKLASVPSSSAILQSPVPSRTGETTIVTPSPVPGDKDLNSADNKLPVSDGTLGQDLPGSENRVKGTVMSEGNRGTGPVSRGRGQGRMEDGRGRGMGGMEEGRGRGMGRLEEGRGRGMGRMEEGHGRGYGRMDDGRGRGMGRMDDGCGRGYSRMDDGCGRGMGRMDDGHGTGMGRMDDSCGRGLGRMDDGQGRMDYGHGRGLGRMDNVRGRGQANRGMGQAAIHGRGMAMAADSWDKLSDRYAGSQEGLSDERSDSRERLPDGHSGSRERGFIGRSDSQERVLSSRDRELAGRPGNKDRGQAASREQGPVRQTGSHEREPVRRAGSRERGPFRREGSRDGGPMRWAGGRDGEPMRRVGSGDGGPVRQTGSRERGLVRRAGSWEREPGRSEMGGMDKRLGDSSEKFPPYHREEPLRGPWSHEEERMQEELPLDSRDAPLDCELVDDWERDQYWREHDTDFRDDSLDPYDRGDRFSLHHSMPPLSPLPPLPPLSSDFDRQDPWWDDWERPREREMDRDLDRIGRSMDSYDRDLDREWDGDYLMPPDDREIPSRDLDIPPLPPMQSFPPLDRYHEDRWREERDRDLYDRDRRDRGELRIREYPERVDRWREKRNYPPERTDWERERLSERWYADEEERMQPLEDQLDLPIPPPRSSDMLEADSTMDTDQSLGGVMVLSQRQHEIILKAAQELKMLREQKEQMQKLKEFIPEPELPTHETSRSQTTTPRPGSYQVSSQHPSETSLESQPITSSPAVIIKPPVLFRQPTAVTRPTSTVTRSSASVSRPLSSSPTPIASSSQTPGLKPSLATVEQERWDEDSFHGLWDTNEDKGANLEYELCKSDSGLPPPASSSVHPSLLSSVSTSLSSVMPSISKPPLIQQTVDYGHGRDITTSKVEQIPYGERITLRPEPLPERQPFPKEHPGQRDRYNRERDREPYFERQGNSSIDHRDFKREREVHRDRSSGDYDRERFEKERHPREDRVPPTVPSRTQSYRDKKDHPSTRRGSFERPSYERKPDRSTYDHGPSMFGGDRRNYPEERMPISAPSVPRQPPPTPRVERKPESKNVDDILKLPGRDSRPERIVIIMRGLPGSGKTHVAKLIRDKEVDCGGPAPRVLSLDDYFITEVEKEERDPDTGKKVKKKVMEYEYEADMEETYRTSMFKTFKKTLDDGFFPFIILDAINDRVRHFEQFWSAAKTKGFEVYLAEMSADNQTCSKRNIHGRKLKEINRMSDHWETAPRHMMRLDIRSLLQDAAIEEVEMEDFDANIEDQKEENKKDAAEEEESELGYIPKSKWEMDTSEAKLGGYFLFL

Target ORF information:

RefSeq Version	XM_019488686.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis YLP motif containing 1 (YLPM1), mRNA.

Target ORF information:

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

XM_019488686.1

ORF Insert Sequence:

ATGGAGCTGT CGTCGCCGCC GCAGTCGCCG GGCCCCGCAC CGCCCTACCC CCCGCCTGGC 
TACCTGCCGG CTGAGCCCGC GCCGGCCCAG CCGCCCTCCT ACCCGCCCCG TGTGCCCAGC 
TACTCGGAAC CACCACCCAG CGCTTCACAG TCCTACCTGC CACCGGGCCA GGCCTACACC 
GCGCCTCCCC CGGCCTACCT GCCGCCGCCC CAACCCAAGC CCCAGCCCCT CTTCCAGGCC 
TCATTGCCAC CACCCACTGC GGCGGCCTCT CAGGACAGTG CTGCCAAGGA GGCTGGCGCT 
GGGGTCGAGC CGCACAGCAC CGCGCAGCCC GACCCCTCCA CCATGACACC CCAGGAACAG 
CAGCAGTATT GGTACCAGCA ACACCTACTT AGCTTGCAGC AGAGGGCAAA AGCCCATGCA 
CAGGGACAGC AGCAACTGAA GAGCACAGGA ACAGTGAAGG ATGCTCCTGA GCAGAGAGTA 
AAGCAAGAGG AAGGGAAAGC GCATGCTACC AATCGGCAGT CTGAAGCTCC TTCACTTAAA 
GAGCCTGCAA CACCAGCCCC CAAAGAAGAG GATCCTCTTC TCTCAGCTGC CGAATCAAAG 
CTGAATATTG AACCTCCTGA GGACTCTGAG GAAGACTTGA GGTTGCAGCA GTTGCAGGTG 
GCAGCAGCAC AGTGGCAGCA GCATCCACAC CATCGAGTTG GCTTTCAGTA TCAGAGAATA 
ATGCAGAAGC ATGCACAGCT GCAACAGATC CTACAGCAGT ATCAACAGAT CATACAGCAG 
CCTCCCCACC TACAGACCAT GTCAGTGGAC ATGCAGCTGC AACATTATGA GACACAGCAG 
AAACAGTTCC AGCAACTGCA TAAAGAATGG GAGCGTGAAT TCCAGCAATG GCAGGATCAG 
CTCCAGACCT ATCCTCACAA AGATCAGCTT CAGGAATATG AGAAACAATG GCAAACATGG 
CAGGGACAGA TGAAAGCTAC TCAATCCCAT TTGCAGGAGA AAGTAAACTC ACTTCAGAAC 
ATGAAGAATC AATACCCTGG AAGTGTTACA ATGCCACCTC CATTTGCTTC ATACACTCAA 
ACAGCTCAAG GAAGCATTCC TGTTATGCCT CCAACTTTGC CTCCCACAAC ACCTCCACAG 
GTTCCTCCAC CCCTGTCTTC TGGTTCTCAA ATTCCAAATT CATCCATTCC CCCAACATCT 
AGTTCTCAGA GCCCCCAGCC TACTGAGACA CCAAGGCCAG CTCTACTTCC CACCCCTGTT 
TCATTTGCTC CTAAAGTATC TGGCTTAGCT GCAACTTTAC CCTATCATTC TCAGATAACT 
TCATCTATTG CCTCTTCAGA CCAAGGAAAC ACTCAGGTTC ACATGGCTAA ACAATCTGGG 
CCATTTGCCT CAGTTTCATC TGAGCAAGGA TCTGGGGAAT TGAAAACCTC CACAGGAACT 
TCACCACTTA CACCCACCAC CTCCATCACT ACCTTCACTC AAGATAAACC TCTGAGATCA 
GGTGGATTGC TTCCAGACCC TCCAAGAGGA CCATACTTTG AAGGACCAAG AGGTCCTAGG 
TTTGATGGAC CTCGAGGAAG AGGTTTTGAG AGATTTGAAG GGCCAAGACA AAGAGGGCCT 
CGTTTTGAGG GCCAGCACTT GGAAGGTCCA AAACCCAGAT ATGAAAATCA AAAATCAGAT 
GGACAGTCTT CGAGCAAATG GGGGACTATC CCACGTGGCC CAGCATCACA GTTTTATACT 
ACCCCAACTA CATCACAGAT GCATAGTACC CGACCAAGTG GGCCCCAGTG CAGGGGTCCC 
AGGCCTTCTT TTGGACAACA GCAGCTACAA GCAGAGTCCC GGACTGAAAA CAAAGAACCT 
TTTACTGATG CTGCTGGAAA ACAACAGATG GCAAATAGAA CTCAGTCTAC TCCAATTCCC 
ATTGATACAG ATGCAAAGAA CTCTGGTCCA GTCCAGCCAA ATGAGGACTT GAAAAAAATG 
CAACAGGAAC CACCCAAATC TGAAGTAAAA GAAATCATTT CAGAGCCTAA AAAGTGGACT 
TGGAGTTCTC AGGATCCAGC ACAGCGAGCA GAAGAGTCCA AACCAACCAC TCAGCCTCCA 
CCCACACAGA ACCAAAAACT GGCATCTGTT CCCAGTAGTT CTGCAATTTT GCAATCTCCT 
GTTCCGTCAA GAACAGGAGA AACGACAATA GTGACTCCAT CCCCTGTACC AGGAGATAAA 
GACTTGAATT CTGCAGATAA TAAATTGCCT GTTTCAGATG GCACCCTGGG GCAAGATCTA 
CCTGGGTCAG AAAACAGAGT AAAAGGCACA GTTATGTCAG AAGGCAATAG AGGCACTGGA 
CCAGTAAGCA GGGGCAGAGG TCAGGGCAGA ATGGAGGATG GCCGGGGCAG AGGGATGGGC 
GGAATGGAGG AGGGCCGCGG CAGGGGGATG GGCAGATTGG AGGAGGGCCG CGGCAGGGGG 
ATGGGCAGAA TGGAGGAAGG CCATGGCAGG GGATACGGCA GAATGGACGA TGGTCGTGGC 
AGGGGGATGG GCAGAATGGA TGATGGTTGT GGCAGGGGAT ACAGCAGAAT GGATGATGGC 
TGTGGCAGGG GGATGGGCAG AATGGATGAT GGTCATGGGA CCGGGATGGG CAGAATGGAT 
GATAGCTGTG GCAGGGGGCT GGGCAGAATG GATGATGGCC AGGGTAGAAT GGACTATGGC 
CATGGCAGGG GATTGGGCAG AATGGACAAT GTCCGTGGCA GAGGACAAGC AAACAGAGGC 
ATGGGACAGG CAGCCATCCA TGGCAGAGGC ATGGCCATGG CAGCAGACAG CTGGGATAAG 
TTGTCAGATA GGTATGCAGG CAGCCAGGAG GGGTTGTCAG ATGAACGTTC AGACAGCCGG 
GAGAGACTGC CAGATGGGCA CTCGGGCAGC AGGGAGAGAG GATTTATAGG AAGGTCAGAC 
AGCCAAGAGA GGGTGTTGTC TAGCCGAGAT AGAGAGCTAG CTGGTCGACC AGGCAACAAG 
GATAGGGGGC AGGCAGCTAG CCGAGAGCAA GGTCCTGTCA GACAGACAGG TAGCCATGAG 
CGGGAACCAG TCAGGCGGGC AGGTAGCCGT GAGCGGGGCC CTTTCAGACG GGAAGGAAGC 
CGGGATGGAG GGCCCATGAG ATGGGCAGGA GGTCGGGATG GGGAGCCTAT GAGGAGGGTA 
GGAAGCGGAG ATGGGGGACC TGTCAGGCAG ACAGGTAGTC GGGAACGAGG CCTAGTTAGG 
CGGGCAGGTA GCTGGGAGAG GGAACCAGGC AGGTCTGAAA TGGGTGGTAT GGATAAACGC 
CTGGGTGACA GCTCTGAGAA ATTCCCCCCA TACCATCGAG AGGAGCCTCT CAGGGGTCCC 
TGGAGCCATG AAGAAGAGAG AATGCAAGAA GAACTACCAT TGGATAGCAG AGATGCCCCT 
CTAGACTGTG AACTAGTAGA TGATTGGGAA AGAGATCAAT ATTGGAGAGA GCATGACACA 
GATTTTCGGG ATGATTCCTT GGACCCCTAT GATAGAGGTG ACAGGTTCTC ACTCCATCAT 
TCAATGCCTC CACTATCACC TCTTCCTCCA CTCCCTCCTT TGTCTTCTGA TTTTGACAGA 
CAAGACCCTT GGTGGGATGA TTGGGAAAGG CCAAGAGAGA GAGAGATGGA TAGAGACCTG 
GACAGGATTG GAAGATCCAT GGATAGTTAT GATCGTGATT TAGATAGAGA ATGGGACGGA 
GATTATTTGA TGCCTCCAGA TGATAGAGAG ATACCAAGTC GTGATCTGGA TATTCCCCCT 
CTCCCACCCA TGCAGTCCTT TCCACCTTTG GACAGATACC ATGAGGACCG GTGGAGGGAG 
GAGAGGGACA GAGATTTATA TGACAGGGAC CGTCGAGACA GGGGGGAGTT GAGAATCCGA 
GAATACCCGG AGAGAGTGGA CAGATGGAGG GAGAAGCGAA ACTACCCTCC TGAAAGGACT 
GACTGGGAGA GAGAACGATT GTCAGAGAGG TGGTATGCTG ATGAAGAAGA AAGAATGCAA 
CCTTTGGAGG ATCAGCTAGA TTTACCCATC CCACCACCAC GTTCCTCAGA CATGTTGGAA 
GCAGATTCAA CTATGGACAC TGACCAATCA CTAGGGGGAG TAATGGTCCT TAGTCAAAGA 
CAACATGAAA TAATCCTGAA GGCTGCTCAG GAGCTGAAGA TGCTTCGGGA ACAGAAAGAG 
CAGATGCAGA AGTTGAAAGA GTTTATACCT GAGCCTGAAC TGCCAACACA TGAGACTTCT 
AGATCACAGA CCACAACTCC AAGGCCAGGT TCCTATCAGG TGTCTTCTCA ACATCCATCT 
GAGACATCAT TAGAATCTCA ACCTATCACG TCTTCTCCTG CTGTTATTAT AAAGCCACCA 
GTTCTGTTCA GGCAGCCCAC TGCAGTGACC AGACCTACTT CCACAGTGAC AAGGTCATCT 
GCCTCCGTAT CAAGGCCACT TTCTTCATCT CCTACTCCAA TTGCATCCTC AAGTCAGACT 
CCAGGTCTAA AACCATCACT TGCTACTGTG GAACAGGAAC GTTGGGATGA GGATTCTTTC 
CATGGGCTCT GGGATACCAA TGAAGATAAG GGAGCAAATT TAGAGTATGA ATTATGTAAA 
TCAGACTCGG GGTTGCCACC ACCAGCCTCA TCTTCTGTTC ACCCTTCCCT TTTGTCATCT 
GTATCAACAT CACTTTCTTC GGTTATGCCA TCAATTTCTA AACCACCTCT AATTCAGCAG 
ACTGTGGACT ATGGCCATGG CAGAGATATT ACCACCAGTA AAGTAGAACA AATTCCCTAT 
GGGGAAAGAA TAACCCTGCG ACCAGAGCCT CTGCCTGAGA GACAGCCATT CCCTAAAGAG 
CACCCAGGCC AGCGTGACCG TTACAACAGA GAAAGAGATC GTGAACCTTA CTTTGAGCGT 
CAAGGCAATT CCAGTATAGA TCACCGAGAT TTCAAGAGGG AGCGGGAAGT GCACAGAGAC 
CGTAGTTCTG GAGATTATGA TCGTGAGAGG TTTGAGAAAG AGCGCCACCC TCGAGAGGAC 
AGGGTTCCTC CAACTGTACC TTCAAGGACG CAGTCTTACC GTGACAAGAA AGATCATCCC 
TCCACAAGGC GAGGGAGCTT TGAAAGACCA TCATATGAAA GGAAGCCAGA TCGCTCAACC 
TATGATCATG GGCCTTCCAT GTTTGGAGGT GATCGAAGAA ACTACCCCGA GGAGAGAATG 
CCCATTTCTG CTCCATCAGT ACCCCGCCAG CCTCCCCCTA CCCCACGAGT GGAGAGGAAG 
CCAGAGTCTA AAAATGTAGA TGATATTTTG AAGTTACCAG GACGGGACAG CAGGCCAGAG 
AGGATTGTTA TCATAATGAG GGGATTGCCT GGCAGTGGAA AGACACATGT AGCAAAATTA 
ATCAGGGATA AGGAAGTAGA CTGCGGAGGG CCTGCACCCA GAGTGCTCAG CCTGGATGAC 
TATTTCATCA CTGAAGTGGA AAAAGAGGAG AGAGACCCAG ATACAGGGAA AAAAGTGAAG 
AAGAAGGTGA TGGAATATGA ATATGAAGCT GACATGGAAG AGACCTACCG CACGAGCATG 
TTTAAAACCT TCAAAAAGAC CTTGGATGAT GGCTTCTTTC CATTCATTAT CCTTGATGCC 
ATCAATGACA GAGTGCGGCA CTTTGAACAG TTCTGGAGTG CAGCAAAAAC AAAGGGCTTT 
GAGGTATATC TAGCTGAAAT GAGTGCAGAT AACCAGACTT GTTCCAAGAG GAATATTCAT 
GGACGCAAGC TGAAGGAGAT CAATAGGATG TCTGATCACT GGGAAACAGC ACCACGTCAC 
ATGATGCGTT TGGATATTCG TTCTCTGTTA CAAGATGCTG CTATTGAAGA GGTGGAAATG 
GAAGATTTTG ATGCAAATAT TGAAGACCAG AAAGAAGAAA ATAAGAAAGA TGCAGCAGAG 
GAAGAGGAGA GTGAACTGGG TTACATTCCG AAAAGCAAAT GGGAGATGGA CACTTCTGAG 
GCAAAACTAG GTGGGTATTT CCTTTTTTTA TAA