MROH2A cDNA ORF clone, Myotis brandtii(Brandt's bat)

Gene
Clones
gRNAs

Summary

Gene Symbol	MROH2A
Entrez Gene ID	102263016
Full Name	maestro heat like repeat family member 2A
Gene Type	protein-coding
Organism	Myotis brandtii(Brandt's bat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014544145.1	XP_014399631.1	LOW QUALITY PROTEIN: maestro heat-like repeat-containing protein family member 2A

Pathways from BioSystems
Gene Ontology

The following MROH2A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MROH2A 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
OMy49843	XM_014544145.1 Latest version!	Myotis brandtii maestro heat-like repeat family member 2A (MROH2A), 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)

MROH2A ( XM_014544145.1 ) cDNA ORF clone, Myotis brandtii(Brandt's bat) -> XP_014399631.1 Myotis brandtii maestro heat-like repeat family member 2A (MROH2A), mRNA.

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CloneID	OMy49843
Clone ID Related Accession (Same CDS sequence)	XM_014544145.1
Accession Version	XM_014544145.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5067bp) 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	2015-11-03
Organism	Myotis brandtii(Brandt's bat)
Product	LOW QUALITY PROTEIN: maestro heat-like repeat-containing protein family member 2A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005363609.1) 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 :: Myotis brandtii Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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##

ATGGCAGGAT CAGCAGCAGA CTCAAACGAG GGCCTGTCAG AAGAAACAGA GGACCTGGAA 
CCTCTGGAAC GAGATGATGG TGGGACTTTC CAACAAGTCA CAAACCTCCT CAACATCATA 
GACAGCGAAT CAAAGATGGA TGCTGCTGGG GCAGGTCCTG ACATGCGGAA GACACTGGCC 
TCGGTGATAA TCACGGAGAA GGCCACCGCC AAGCCCTGTA TGGTGATGAA CGCTCTCATC 
CGCTGCCTAC AGGTGCCAGA GATATCCACC CAGCGGAAAG TCAACATTTA CAACATCCTG 
CAGGAGATCA TTCAGCAGGA GGGGGAGCTG GAGGAGCAGT GTGTCCACAG GCTGGTGACC 
ATTGCCTCCA AGGAGATGCG GGAGATCCTG GAGGTGGAGG GTTACATGAA GGCAGAGGTG 
GCCAGTGACA CCCTGGTAGC TTTGTCCCGG AACCACTTCA GTGTGGTCAT GTATGAGATG 
CAGCACCGTC TCAAGCCCCT CGACCTCACA GACGAGTTTG TTATCATCAC CCTGGCGAAG 
CTGGCCAACG GCAATGTGTT TGAGTTCATG CCCTACATGG GCATCACCCT GGCAACCATA 
TTCACGATGC TGAGACTCGT CAACGAAGCC AAGATGCGCC AGGTGATCTG TGGTGCCATG 
GAGACCTTCT GTGAGACGGT GCAGTTCTAC CTGAGGCATC TGGAGGACAG CGTGTACCCT 
GTGATGACAG AGGAGCAGTT TGCTATAAAG CTGTTCCCCA TGTATCGCTA TTTTGTGACC 
GTGTGGCTGA GGAGCTATAA CCCAGAGGTG AAGCTGGGGG TCATCAAGTC CCTGAGGCCC 
ATGCTGAACC TGCTCCTGCC CAACGATGAC CTGCGGGAGG AGGTGTACGA CTACCTCCCC 
CTGCTGCTGG CAGAGTACCA GGGCAAAGGT CATCTGCCAC CATTTGGCCA TCTGTTGCAG 
GTCTTGAGGC AGATCCTAGA AGTGTCGGTC ATCACCAGCA CCCCCGTCCC CCAAATGCAT 
CTACACACTA TTTTCACAGA ACTGCACACC CAGGTGTGCA CCAAGGCCCC CGTCCAGCAG 
CAGTACAGCA GCCAGAACGT GAGGGAGATC GAACACTGCT TCATAGCCCT CGCTCGCTCC 
TACCCTAAGG AGCTGATGAA GTTCTTTCTC AGCCAAATGG AGATAAGCAA GGAGGCCATC 
CGCGTGGGAA CCCTCACCCT GATCAGGGCA GTGGTGGGCG CAGATGATCC CAGAATGAAT 
ATCAAGACCA TCTGCCTGGC CATCCGGGTG GTCAAGAACA CCATCTCTGA CACCCGCTCC 
AAGGTGAGAA TGGCAATTCT CCGCATCATC GGCCAGCTGG CTCTGTCTGG CTTCCAGGAC 
AGGATCAAAG GCTGGGGCCT AAAGTACGTG TCCATTCAGC TGACCCTGTC CACCTACAAA 
TTGACGAATC GCCGGGAGAG CTTTCATCAG AGGGACCTGG AGGAAAAGAT GGTCCACAAA 
GTCACCATGG ACACCGTGAA GATCATAACC TCTGCTGTCA GTGGGATGAC CAACGAGTTT 
TGGGTGAGGC TCTTGTGCTA CATCATGGAG ACCAATAACA TGGAGGTCTT GACCCCCATC 
TGCATCAGCC TCACAAACCT GGCGGAACGC CAGTTCCACA TCGTGGATGG GGAGGCCAGC 
GTGGCCAGCA AGAGCAGGCA TGTGGACCTG CCTGCACCGC AGAAGCTGCT GGCCCGTCTC 
CTGGTGCTGA TGTCATCCCC CTACGAAGGG GAAGGGAGGG GGATAGCCAT GCTCAACCTT 
CTGAGGACCC TGAGTCACAG CATTGCACCC TCCATGGCCG ACATGTGGGA GCTGGAGATT 
CCACTGCTGA TCAAGTACCT GGAAGAACAT ACTAAGTTTA CCTGGAATCA GGAGACTTGG 
GCGGACAAGC TGATTCAGTT TCTGAGACTC TCCCTCAAGA AGACTCGGGG TTCCAACTGG 
AGCCTGCGTC TGGCCAAAGA GCTGAATAAC CAGATCGAGA GCTTTGACAG CCCCTCCCTG 
GAGAAGAGCT TCCTGTACCG GGCATTGGGC TTCACCTTGG CCACAGGCCT GGAGGCTGAC 
AAGGTGGAGG TGTTGCTGCT GGAGCTGCTG TACAAGACCG ACTACAGCAA GGACTTTGAC 
CGAGAGGGCG TGATTCTGTG CTTTGGCCTG TGCGCCCAGG GCCAGGTGAA GACTGTGCTG 
AGTGTGCTCC AGGACTTTGA GGAGAGGATT CAGGAATCAG AGGAGTCCTG GCAGATCGGT 
GCTTGGCGGA AGGACCACCC CTGGAGGCGG GAGACAGTGA AGAGCGCTCT CATGGTGATG 
TACAGCTGTG TGGCCTTGCA CTGCCACTGG CAGATGCTTC TCACTCATGT GGACACCCCC 
ATCACCGCCA AGATCATTCA CCACTACACC AGCAGCTCCC AGGACATCTG CCTCAAAATG 
GCCTTCATGA AGAGTGTGGT GCAGATCTCA AATGCCATCG AAAACCTCAA GGGCCCGGGG 
GACTTTCAAT TTGCCCAGAA GATGACTCTT ACTGCCATTA TAGTGGCGAT CATCAAGGCG 
GAGCCGACCG ACAATCTGGT GTCTCCCATG CGCACCATGG CCATGGATGC CCTCCTGCAC 
CTGAGCAAAG TGAAGCCTTT CTACTCCACA GAGGAAAACA GTGAGCTGAT GGATATCAGT 
ATACATTCTG TAATTTCTCT CCAACCCCCA GGAAAGGACA ATGAGTCCAT TAAGACCCTG 
TACATGAATG CCCTGTGTGT CCTGCAACAG CTGATGGAGG GCCTTTTGCA GAGGCAGATG 
GACCCCAAGG GCCTGCAGGA GATGGTGCAT CTCCTGGAAA AGTGGATCTT GTCCGAGAAA 
GAATGGGAGC GGGAGAAGGC TATGAACCTG CATCTTTGTC TCATGCAGAG CTACATCCAG 
AGCATCGGCG TCTGTATCCC CCTGAAGCTG GGGCAGTTTG GCACACTGAT TGGACTCATC 
GCCCCATGCA CCTGTGACTC CAACAAAAGA ACTCGCCTGG CCTCAGCGGA TGTCCTGTCC 
AGCCTGCTGG ATCTGCATGC AAGCCAGACC TGCTCTTCAT GGGATGCGTG CAAAGAGTTG 
GAGCTTGCGA GATGCAAGCA GGACCTCCAG GGCTTGGAGG TGGAGAAGAT TTTCAGTGCG 
TCCTCCAGAA TTGCTAAGGT GATTTGCATG CAGTTTAATT GCGATGAGGT GGTCTCGCTC 
ATCCAGAAGC TCTGTGAGAA CATCGGGGCC ATGGGCCTCC AGCATGACAA GGCCTCCGTC 
ACCTGGATAG ACATCTTCCT CCAGATGCGG GTCAAGGAGC TGGAGGATAA GGTGGCTGAG 
ATCCTGGGTG CCATCTTGGT CCACCTGCCC GTGGTGGATC ACCAGGAGGT GCGGCGCAAC 
CTCATCGAGG GCATTCTCCT GTTGGCCCAC TACCACCAGG AGACGGTCCT CACGTCGCTC 
CTGAGGCAGC CCCTGCCCAT GCAGAGCCAC CTGGTGGAGG TGTGGCTGGC TGTGGCGGAG 
AATGTACCCT TTGCCCGGTT GATGCTCCAC GGGCTGATGG GCCGGCTGCA GTCCCGGTTC 
ACCCCCAGGG CCAACGCCAC CTCCAAGGCT GACATCTGGC GCCTGGCTGC AGTAGACCCT 
CTGATGACCC TCTGCACCAT CCACCTTCTC ATCGAGAAGA TGGACAAGGA CGACAAACTC 
CCGGACCTCC TCCCGGACCT CATCTACACC CTCCTGATGC AGCTGGGCAG CAGCCAGGGG 
CCGGAGGCGG TGTCGCCCGC CCTGAAGACG TGGAGACTCA TCCACACGGG GACCCTGCCC 
GAGGAGATCA ACCTGCAGAG GTGCTCTCGA GGCAGGATCA CAATCAAATC CATGCAGCTT 
TTGTTCAAGA GACTCGACAG TGAGCAGCTG GTCCACATGC TGGAAGAGCA GGGCGTGTGG 
GCCCTCCTGG AGAGTGGCTC CACTTTCCTG CAAGGAGCAG GCCTGCTGGC CAGGCTGTGC 
ATTCGGAATG CGGAGGGCTA CAGGCAGAGG CTGTCGGAGC TGGTGCTCAG AGGCATGGCC 
TCGGAGGTCC TCAGCTGCCG TGTCAGCAGC ACAGCGATCT GCGTGGAAGT GAGGCTCAGG 
GGTGGTTTTC CTTTCTAGTT CATGAGCGAC CCAATTCTGT ACCAGGAGAG GCTGCTGAAG 
CCCGCCATGC AGCTGCTAGA GAAGGGCGTG GACCAGAGGG AGGAGGTCCT GCAGGTGCTG 
TCCCTGCGTG CCCTCGGCAA CATGGCCCTG GGCGCCCCCA AGAAGGTGAG GCAGTACCGC 
AAGCTGCTCC TGGAGAAGTG CCTATATGCC CTGAGGGATG CCCGCAGCAC CAGCGTGCCC 
TCTGAGGGCA TGGAGGCCCT GGCCAAGATC CTGGCCGAGC TCCGGGAAGG GGACGTAGGG 
TCCTTCTTCA ATGCCATCTC CGAGCAGTGC AGGTCCTTCT TTGACAACGA GAGCGAGCTG 
CTGCGCTTGA AAGCCTTCCT CCTGTTCAGC AAGCTGGCCA AGGTGGTCAG GGTTTCCAAG 
AAGCACTTCT TCAAGGGGGA AGTGAAGAGA GCCTGGGTCC CACTCATGCT GCACTGCCAG 
GACCCCTGCC CCGACGCAGC CCAGGCCTGT GTGGAGACCA TGTATCAGTG TGTGCACTTC 
TGGGGCTGCA AGGGCCTAGT GGACTCCTCG AGGCAAAGAG ACACCAAGGG GGCTGATGAG 
ATGGCCACTT TCCAGACGAC CCTGTGCTCC GTCCTGACTC AGAAAAAGCC TGCTGTTCTC 
TACAGTTTCT TGCTAGAAAC AATGCCCTAC ATTAAAAGTA ACTTGTCAAG GATCAGAATC 
GCTTCCTGCA ACTTGGCAGG GATTATTATG AAGCAGATGT CTGAACATTA TCTGAAAAAG 
CTGGACTTTG TGGCATTACG GAATTCCCTC CAGGAGCTAC AGTTGGACAC AGATCCTGGG 
GTGCAGAGGG CAGCCCTGGA GACTCTCAAA ATCTTGGATA CCTGCAGTCA GCACCGGCTT 
TTGGCTTCCC CCAAAGGAAT CTCCTAG

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

RefSeq	XP_014399631.1
CDS	1..5067
Translation	MAGSAADSNEGLSEETEDLEPLERDDGGTFQQVTNLLNIIDSESKMDAAGAGPDMRKTLASVIITEKATAKPCMVMNALIRCLQVPEISTQRKVNIYNILQEIIQQEGELEEQCVHRLVTIASKEMREILEVEGYMKAEVASDTLVALSRNHFSVVMYEMQHRLKPLDLTDEFVIITLAKLANGNVFEFMPYMGITLATIFTMLRLVNEAKMRQVICGAMETFCETVQFYLRHLEDSVYPVMTEEQFAIKLFPMYRYFVTVWLRSYNPEVKLGVIKSLRPMLNLLLPNDDLREEVYDYLPLLLAEYQGKGHLPPFGHLLQVLRQILEVSVITSTPVPQMHLHTIFTELHTQVCTKAPVQQQYSSQNVREIEHCFIALARSYPKELMKFFLSQMEISKEAIRVGTLTLIRAVVGADDPRMNIKTICLAIRVVKNTISDTRSKVRMAILRIIGQLALSGFQDRIKGWGLKYVSIQLTLSTYKLTNRRESFHQRDLEEKMVHKVTMDTVKIITSAVSGMTNEFWVRLLCYIMETNNMEVLTPICISLTNLAERQFHIVDGEASVASKSRHVDLPAPQKLLARLLVLMSSPYEGEGRGIAMLNLLRTLSHSIAPSMADMWELEIPLLIKYLEEHTKFTWNQETWADKLIQFLRLSLKKTRGSNWSLRLAKELNNQIESFDSPSLEKSFLYRALGFTLATGLEADKVEVLLLELLYKTDYSKDFDREGVILCFGLCAQGQVKTVLSVLQDFEERIQESEESWQIGAWRKDHPWRRETVKSALMVMYSCVALHCHWQMLLTHVDTPITAKIIHHYTSSSQDICLKMAFMKSVVQISNAIENLKGPGDFQFAQKMTLTAIIVAIIKAEPTDNLVSPMRTMAMDALLHLSKVKPFYSTEENSELMDISIHSVISLQPPGKDNESIKTLYMNALCVLQQLMEGLLQRQMDPKGLQEMVHLLEKWILSEKEWEREKAMNLHLCLMQSYIQSIGVCIPLKLGQFGTLIGLIAPCTCDSNKRTRLASADVLSSLLDLHASQTCSSWDACKELELARCKQDLQGLEVEKIFSASSRIAKVICMQFNCDEVVSLIQKLCENIGAMGLQHDKASVTWIDIFLQMRVKELEDKVAEILGAILVHLPVVDHQEVRRNLIEGILLLAHYHQETVLTSLLRQPLPMQSHLVEVWLAVAENVPFARLMLHGLMGRLQSRFTPRANATSKADIWRLAAVDPLMTLCTIHLLIEKMDKDDKLPDLLPDLIYTLLMQLGSSQGPEAVSPALKTWRLIHTGTLPEEINLQRCSRGRITIKSMQLLFKRLDSEQLVHMLEEQGVWALLESGSTFLQGAGLLARLCIRNAEGYRQRLSELVLRGMASEVLSCRVSSTAICVEVRLRGGFPF*FMSDPILYQERLLKPAMQLLEKGVDQREEVLQVLSLRALGNMALGAPKKVRQYRKLLLEKCLYALRDARSTSVPSEGMEALAKILAELREGDVGSFFNAISEQCRSFFDNESELLRLKAFLLFSKLAKVVRVSKKHFFKGEVKRAWVPLMLHCQDPCPDAAQACVETMYQCVHFWGCKGLVDSSRQRDTKGADEMATFQTTLCSVLTQKKPAVLYSFLLETMPYIKSNLSRIRIASCNLAGIIMKQMSEHYLKKLDFVALRNSLQELQLDTDPGVQRAALETLKILDTCSQHRLLASPKGIS

Target ORF information:

RefSeq Version	XM_014544145.1
Organism	Myotis brandtii(Brandt's bat)
Definition	Myotis brandtii maestro heat-like repeat family member 2A (MROH2A), mRNA.

Target ORF information:

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

XM_014544145.1

ORF Insert Sequence:

ATGGCAGGAT CAGCAGCAGA CTCAAACGAG GGCCTGTCAG AAGAAACAGA GGACCTGGAA 
CCTCTGGAAC GAGATGATGG TGGGACTTTC CAACAAGTCA CAAACCTCCT CAACATCATA 
GACAGCGAAT CAAAGATGGA TGCTGCTGGG GCAGGTCCTG ACATGCGGAA GACACTGGCC 
TCGGTGATAA TCACGGAGAA GGCCACCGCC AAGCCCTGTA TGGTGATGAA CGCTCTCATC 
CGCTGCCTAC AGGTGCCAGA GATATCCACC CAGCGGAAAG TCAACATTTA CAACATCCTG 
CAGGAGATCA TTCAGCAGGA GGGGGAGCTG GAGGAGCAGT GTGTCCACAG GCTGGTGACC 
ATTGCCTCCA AGGAGATGCG GGAGATCCTG GAGGTGGAGG GTTACATGAA GGCAGAGGTG 
GCCAGTGACA CCCTGGTAGC TTTGTCCCGG AACCACTTCA GTGTGGTCAT GTATGAGATG 
CAGCACCGTC TCAAGCCCCT CGACCTCACA GACGAGTTTG TTATCATCAC CCTGGCGAAG 
CTGGCCAACG GCAATGTGTT TGAGTTCATG CCCTACATGG GCATCACCCT GGCAACCATA 
TTCACGATGC TGAGACTCGT CAACGAAGCC AAGATGCGCC AGGTGATCTG TGGTGCCATG 
GAGACCTTCT GTGAGACGGT GCAGTTCTAC CTGAGGCATC TGGAGGACAG CGTGTACCCT 
GTGATGACAG AGGAGCAGTT TGCTATAAAG CTGTTCCCCA TGTATCGCTA TTTTGTGACC 
GTGTGGCTGA GGAGCTATAA CCCAGAGGTG AAGCTGGGGG TCATCAAGTC CCTGAGGCCC 
ATGCTGAACC TGCTCCTGCC CAACGATGAC CTGCGGGAGG AGGTGTACGA CTACCTCCCC 
CTGCTGCTGG CAGAGTACCA GGGCAAAGGT CATCTGCCAC CATTTGGCCA TCTGTTGCAG 
GTCTTGAGGC AGATCCTAGA AGTGTCGGTC ATCACCAGCA CCCCCGTCCC CCAAATGCAT 
CTACACACTA TTTTCACAGA ACTGCACACC CAGGTGTGCA CCAAGGCCCC CGTCCAGCAG 
CAGTACAGCA GCCAGAACGT GAGGGAGATC GAACACTGCT TCATAGCCCT CGCTCGCTCC 
TACCCTAAGG AGCTGATGAA GTTCTTTCTC AGCCAAATGG AGATAAGCAA GGAGGCCATC 
CGCGTGGGAA CCCTCACCCT GATCAGGGCA GTGGTGGGCG CAGATGATCC CAGAATGAAT 
ATCAAGACCA TCTGCCTGGC CATCCGGGTG GTCAAGAACA CCATCTCTGA CACCCGCTCC 
AAGGTGAGAA TGGCAATTCT CCGCATCATC GGCCAGCTGG CTCTGTCTGG CTTCCAGGAC 
AGGATCAAAG GCTGGGGCCT AAAGTACGTG TCCATTCAGC TGACCCTGTC CACCTACAAA 
TTGACGAATC GCCGGGAGAG CTTTCATCAG AGGGACCTGG AGGAAAAGAT GGTCCACAAA 
GTCACCATGG ACACCGTGAA GATCATAACC TCTGCTGTCA GTGGGATGAC CAACGAGTTT 
TGGGTGAGGC TCTTGTGCTA CATCATGGAG ACCAATAACA TGGAGGTCTT GACCCCCATC 
TGCATCAGCC TCACAAACCT GGCGGAACGC CAGTTCCACA TCGTGGATGG GGAGGCCAGC 
GTGGCCAGCA AGAGCAGGCA TGTGGACCTG CCTGCACCGC AGAAGCTGCT GGCCCGTCTC 
CTGGTGCTGA TGTCATCCCC CTACGAAGGG GAAGGGAGGG GGATAGCCAT GCTCAACCTT 
CTGAGGACCC TGAGTCACAG CATTGCACCC TCCATGGCCG ACATGTGGGA GCTGGAGATT 
CCACTGCTGA TCAAGTACCT GGAAGAACAT ACTAAGTTTA CCTGGAATCA GGAGACTTGG 
GCGGACAAGC TGATTCAGTT TCTGAGACTC TCCCTCAAGA AGACTCGGGG TTCCAACTGG 
AGCCTGCGTC TGGCCAAAGA GCTGAATAAC CAGATCGAGA GCTTTGACAG CCCCTCCCTG 
GAGAAGAGCT TCCTGTACCG GGCATTGGGC TTCACCTTGG CCACAGGCCT GGAGGCTGAC 
AAGGTGGAGG TGTTGCTGCT GGAGCTGCTG TACAAGACCG ACTACAGCAA GGACTTTGAC 
CGAGAGGGCG TGATTCTGTG CTTTGGCCTG TGCGCCCAGG GCCAGGTGAA GACTGTGCTG 
AGTGTGCTCC AGGACTTTGA GGAGAGGATT CAGGAATCAG AGGAGTCCTG GCAGATCGGT 
GCTTGGCGGA AGGACCACCC CTGGAGGCGG GAGACAGTGA AGAGCGCTCT CATGGTGATG 
TACAGCTGTG TGGCCTTGCA CTGCCACTGG CAGATGCTTC TCACTCATGT GGACACCCCC 
ATCACCGCCA AGATCATTCA CCACTACACC AGCAGCTCCC AGGACATCTG CCTCAAAATG 
GCCTTCATGA AGAGTGTGGT GCAGATCTCA AATGCCATCG AAAACCTCAA GGGCCCGGGG 
GACTTTCAAT TTGCCCAGAA GATGACTCTT ACTGCCATTA TAGTGGCGAT CATCAAGGCG 
GAGCCGACCG ACAATCTGGT GTCTCCCATG CGCACCATGG CCATGGATGC CCTCCTGCAC 
CTGAGCAAAG TGAAGCCTTT CTACTCCACA GAGGAAAACA GTGAGCTGAT GGATATCAGT 
ATACATTCTG TAATTTCTCT CCAACCCCCA GGAAAGGACA ATGAGTCCAT TAAGACCCTG 
TACATGAATG CCCTGTGTGT CCTGCAACAG CTGATGGAGG GCCTTTTGCA GAGGCAGATG 
GACCCCAAGG GCCTGCAGGA GATGGTGCAT CTCCTGGAAA AGTGGATCTT GTCCGAGAAA 
GAATGGGAGC GGGAGAAGGC TATGAACCTG CATCTTTGTC TCATGCAGAG CTACATCCAG 
AGCATCGGCG TCTGTATCCC CCTGAAGCTG GGGCAGTTTG GCACACTGAT TGGACTCATC 
GCCCCATGCA CCTGTGACTC CAACAAAAGA ACTCGCCTGG CCTCAGCGGA TGTCCTGTCC 
AGCCTGCTGG ATCTGCATGC AAGCCAGACC TGCTCTTCAT GGGATGCGTG CAAAGAGTTG 
GAGCTTGCGA GATGCAAGCA GGACCTCCAG GGCTTGGAGG TGGAGAAGAT TTTCAGTGCG 
TCCTCCAGAA TTGCTAAGGT GATTTGCATG CAGTTTAATT GCGATGAGGT GGTCTCGCTC 
ATCCAGAAGC TCTGTGAGAA CATCGGGGCC ATGGGCCTCC AGCATGACAA GGCCTCCGTC 
ACCTGGATAG ACATCTTCCT CCAGATGCGG GTCAAGGAGC TGGAGGATAA GGTGGCTGAG 
ATCCTGGGTG CCATCTTGGT CCACCTGCCC GTGGTGGATC ACCAGGAGGT GCGGCGCAAC 
CTCATCGAGG GCATTCTCCT GTTGGCCCAC TACCACCAGG AGACGGTCCT CACGTCGCTC 
CTGAGGCAGC CCCTGCCCAT GCAGAGCCAC CTGGTGGAGG TGTGGCTGGC TGTGGCGGAG 
AATGTACCCT TTGCCCGGTT GATGCTCCAC GGGCTGATGG GCCGGCTGCA GTCCCGGTTC 
ACCCCCAGGG CCAACGCCAC CTCCAAGGCT GACATCTGGC GCCTGGCTGC AGTAGACCCT 
CTGATGACCC TCTGCACCAT CCACCTTCTC ATCGAGAAGA TGGACAAGGA CGACAAACTC 
CCGGACCTCC TCCCGGACCT CATCTACACC CTCCTGATGC AGCTGGGCAG CAGCCAGGGG 
CCGGAGGCGG TGTCGCCCGC CCTGAAGACG TGGAGACTCA TCCACACGGG GACCCTGCCC 
GAGGAGATCA ACCTGCAGAG GTGCTCTCGA GGCAGGATCA CAATCAAATC CATGCAGCTT 
TTGTTCAAGA GACTCGACAG TGAGCAGCTG GTCCACATGC TGGAAGAGCA GGGCGTGTGG 
GCCCTCCTGG AGAGTGGCTC CACTTTCCTG CAAGGAGCAG GCCTGCTGGC CAGGCTGTGC 
ATTCGGAATG CGGAGGGCTA CAGGCAGAGG CTGTCGGAGC TGGTGCTCAG AGGCATGGCC 
TCGGAGGTCC TCAGCTGCCG TGTCAGCAGC ACAGCGATCT GCGTGGAAGT GAGGCTCAGG 
GGTGGTTTTC CTTTCTAGTT CATGAGCGAC CCAATTCTGT ACCAGGAGAG GCTGCTGAAG 
CCCGCCATGC AGCTGCTAGA GAAGGGCGTG GACCAGAGGG AGGAGGTCCT GCAGGTGCTG 
TCCCTGCGTG CCCTCGGCAA CATGGCCCTG GGCGCCCCCA AGAAGGTGAG GCAGTACCGC 
AAGCTGCTCC TGGAGAAGTG CCTATATGCC CTGAGGGATG CCCGCAGCAC CAGCGTGCCC 
TCTGAGGGCA TGGAGGCCCT GGCCAAGATC CTGGCCGAGC TCCGGGAAGG GGACGTAGGG 
TCCTTCTTCA ATGCCATCTC CGAGCAGTGC AGGTCCTTCT TTGACAACGA GAGCGAGCTG 
CTGCGCTTGA AAGCCTTCCT CCTGTTCAGC AAGCTGGCCA AGGTGGTCAG GGTTTCCAAG 
AAGCACTTCT TCAAGGGGGA AGTGAAGAGA GCCTGGGTCC CACTCATGCT GCACTGCCAG 
GACCCCTGCC CCGACGCAGC CCAGGCCTGT GTGGAGACCA TGTATCAGTG TGTGCACTTC 
TGGGGCTGCA AGGGCCTAGT GGACTCCTCG AGGCAAAGAG ACACCAAGGG GGCTGATGAG 
ATGGCCACTT TCCAGACGAC CCTGTGCTCC GTCCTGACTC AGAAAAAGCC TGCTGTTCTC 
TACAGTTTCT TGCTAGAAAC AATGCCCTAC ATTAAAAGTA ACTTGTCAAG GATCAGAATC 
GCTTCCTGCA ACTTGGCAGG GATTATTATG AAGCAGATGT CTGAACATTA TCTGAAAAAG 
CTGGACTTTG TGGCATTACG GAATTCCCTC CAGGAGCTAC AGTTGGACAC AGATCCTGGG 
GTGCAGAGGG CAGCCCTGGA GACTCTCAAA ATCTTGGATA CCTGCAGTCA GCACCGGCTT 
TTGGCTTCCC CCAAAGGAAT CTCCTAG