YTHDC2 cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene
Clones
gRNAs

Summary

Gene Symbol	YTHDC2
Entrez Gene ID	100016147
Full Name	YTH domain containing 2
Gene Type	protein-coding
Organism	Monodelphis domestica(gray short-tailed opossum)

mRNA and Protein(s)

mRNA	Protein	Name
XM_001370029.3	XP_001370066.1	probable ATP-dependent RNA helicase YTHDC2

Pathways from BioSystems
Gene Ontology

The following YTHDC2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the YTHDC2 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
OMc15108	XM_001370029.3 Latest version!	Monodelphis domestica YTH domain containing 2 (YTHDC2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$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)

YTHDC2 ( XM_001370029.3 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_001370066.1 Monodelphis domestica YTH domain containing 2 (YTHDC2), mRNA.

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CloneID	OMc15108
Clone ID Related Accession (Same CDS sequence)	XM_001370029.3
Accession Version	XM_001370029.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4344bp) 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	2016-04-26
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	probable ATP-dependent RNA helicase YTHDC2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008803.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_001370029.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCAGGC CGAGCAGCGT CTCCCCGCGG CCCCCGGCTC CAGGCGGCGG TGGTGGTGGC 
GGTGGCGGCG GTGGCGGCGG CGGCGGTGGC GGTGGCGGGA GTGGCGGAGT CTCTTCTCAG 
TGCGGCTCTT CCGCAAGTGG TGGCCGAGCC AAGGGGCTGA AGGACATTCG CATTGATGAG 
GAGGTGAAGA TCGCCGTCAA CATCGCCCTG GAGCGATTTC GTTATGGAGA TCAGAGGGAA 
ATGGAATTTC CTTCTTCTTT AACCAGTACT GAAAGAGCTT TTATTCATCG GTTAAGCCAG 
TCTCTTGGTT TGGTCTCCAA AAGCAAAGGA AAGGGAGCAA ATAGGTACTT AACTGTGAAG 
AAGAAGGATG GATCAGAAAC AGCACATGCA ATGATGACCT GTAGTTTGAC TCACAATACA 
AAACATGCTG TTAGGAGTCT AATTCAAAGA TTTCCAGTCA CCAATAAAGA ACGTACAGAA 
CTTCTGCCTA AAACAGAACG GGGAAATGTG TTTGCAGTTG AAGCTGAAAA CCGAGAAATG 
AGCAAGACAA GTGGACGGCT GAACAATGGC ATACCTCAGA TTCCAGTGAA AAGGGGAGAA 
TCAGAATTTG ATTCTTTTAG ACAGTCTTTA CCAGTGTTTG AGAAACAAGA AGAAATTGTC 
AAAATAATTA AAGATAATAA GGTTGTTTTG ATTGTTGGAG AAACTGGGTC AGGAAAGACC 
ACACAGATCC CTCAGTTCCT TTTAGATGAC TGCTTTAAAA ATGGAATTCC TTGCCGTATA 
TTTTGTACTC AACCAAGACG TTTAGCAGCT ATTGCTGTGG CTGAAAGAGT TGCAGCAGAA 
AGAAGAGAAA AGATTGGCCA GACAATTGGC TATCAGATAC GATTAGAAAG CAGAGTTTCT 
CCAAAGACTC TTCTGACATT TTGCACTAAT GGAGTATTAC TTCGCACATT GATGGCAGGA 
GATAGCACAT TATCAACTGT GACACATGTT ATTGTGGATG AAGTACACGA AAGGGATCGA 
TTTAGTGATT TTTTGCTGAC AAAGTTAAGA GATTTGTTAC AGAAACATCC AACTTTGAAA 
CTGATTCTTT CTAGTGCTGC GTTAGATGTG AATCTCTTCA TAAGATATTT TGGAAGTTGT 
CCAGTGATAT ACATACAGGG AAGACCTTTC GAAGTAAAAG AGATGTTTCT GGAAGACATT 
TTAAGAAGTA CAGGATACAC AAACAAAGAA ATGTTAAAAT ACAAAAAGGA AAAGCAGCGA 
GAAGAGAAAC AGCAAACTAC CCTTACCGAA TGGTACTCAG CTCAAGAGAA TAGCATCAAA 
CCTGAATCTC AGAGGCAAAG AACGGTTCCA AATGTTACTG AAGAATATGA TTTATTGGAT 
GATGGTGGTG ATGCTGTGTT CAGTCAACTG ACCGAAAAAG ATGTGAATTG CCTTGAACCA 
TGGCTAATAA AAGAAATGGA TGCTTGTCTT TCTGACATAT GGCTGCATAA AGATGTTGAT 
GCCTTTGCTC AGGTGTTTCA CCTTATTTTA ACTGAAAATG TTAGCGTGGA TTACAGGCAC 
AGCGAAACCA GTGCAACAGC ACTAATGGTT GCTGCAGGAA GAGGTTTTTT GAGTCAAGTA 
GAACAGTTAA TTAGTATGGG AGCCAATGTC CATAGCAAAG CATCAAATGG CTGGATGGCT 
TTAGATTGGG CTAAACACTT TGGACAGACT GAGATTGTAG ACCTTTTGGA GTCTTACAGT 
GCTTCATTGG AATTTGGAAA CCTAGATGAA AGTTCCTTAG TCCAAGCGAA TGGAAGTGAT 
CTCAATGCAG AAGACAGAGA ATTATTAAAA GCATATCATC ACAGTTTTGA TGATGAAAAA 
GTAGACTTGG ATTTGATTAT GCACCTTCTC TATAATATCT GTCATAGTTG TGATGCTGGA 
GCAATCTTAA TTTTCCTGCC TGGATATGAT GAAATTGTTG GACTGAGAGA TCGCATTCTG 
TTTGATGACA AGCGTTTTGC AGATAACACA CATAGGTATC AAGTCTTTAT GCTTCATTCA 
AATATGCAAA CATCTGATCA AAAAAAAGTA CTAAAAAATC CACCCTCAGG TATTCGGAAA 
ATAATTCTTT CTACCAATAT TGCAGAAACA AGCATTACAG TCAATGATGT TGTCTTTGTT 
ATTGATTCTG GCAAGGTGAA AGAGAAATCC TTTGATGCCC TGAATTATGT TACGATGCTA 
AAAATGGTTT GGATTTCAAA AGCCAGTGCT ATCCAAAGAA AAGGCAGAGC GGGGCGTTGT 
AGACCGGGAA TCTGTTTTCG TCTATTCAGC AGACTTCGAT TTCAGAATAT GTTGGAATTT 
CAGACACCAG AACTTCTGAG AATGCCACTT CAGGAGCTTT GTTTACATAC CAAACTATTA 
GCACCTATTA ATTGTCCCAT TGCTGACTTT CTTATGAAAG CCCCAGAACC TCCACCAGCT 
TTGATTGTTA GAAATGCTGT TCAAATGCTC AAGACAATAG ATGCTATGGA TACCTGGGAG 
GATCTGACTG AGCTTGGATA TCATTTGGCT GACTTGCCAG TAGAACCACA TCTTGGTAAA 
ATGGTCTTGT GTGCTGTCGT TTTGAAGTGT CTGGATCCTA TCCTTACCAT TGCCTGTACT 
CTAGCATATA GAGATCCTTT TGTGCTACCC ACACAAGCTT CTCAAAAGCG TGCAGCCATG 
CTGTGTAGGA AACGTTTTAC TGCAGGCACC TTTAGCGACC ATATGGCACT TCTGAGAGCA 
TTTCAGGCAT GGCAGAAAGC ACGAAGCGAT GGATGGGAAC GAGCTTTTTG TGAAAAGAAT 
TTTCTTTCAC AAGCTACAAT GGAAATCATC ATAGGCATGA GAACTCAGTT GCTCGGTCAG 
CTTAGAGCAT CAGGTTTTGT TAGAGCACGA GGTGGTGGTG ACATTCGGGA TGTTAACACA 
AATTCTGAGA ATTGGGCTGT GGTTAAAGCT GCACTGGTGG CAGGCATGTA TCCTAATTTA 
GTTCATGTGG ACAGAGAGAA TGTAGTATTG ACAGGACCAA AAGAGAAAAA AGTACGGTTT 
CATCCAACTT CTGTTCTCAG TCAGCCACAG TATAAAAAGA TTCCTCCAGC TAATGGCCAA 
GCAGCAGCTC TTCAAGCACT CCCCACAGAT TGGCTCATAT ATGATGAAAT GACCAGAGCA 
CATAGAATAG CCAATATCCG ATGCTGTTCT GCTGTGACAC CTGTGACTGT TTCAGTATTT 
TGTGGACCAG CTAGGTTAGC AAGTAATGCT CTTCAGGAAC CTTCATCTTT TAGAGTGGAT 
GGTGTTCCTA ATGACAGCAG TGACAGTGAA ATGGAAGATA GGACCACTGC TAATTTGGCT 
GCCTTGAAAC TGGATGAGTG GCTAAATTTC AAAATGGATC CAGAGGCTGC CAGCTTATTG 
CTACAACTTA GACAAAAATG GCATAGTTTA TTTTTGCGCC GTATGAGAGC TCCTTCCAAG 
CCTTGGTCTC AAGTTGATGA AGCAACTATA AGAGCAATTA TAGCCGTTTT AAGCACAGAA 
GAACAGTCTG CAGGATTACA GCAACCATCA GGAATTGGCC AGCGACCAAG ACCAATGTCT 
TCAGAGGAAC TTCCTTTAGC ATCTTCTTGG AGGTCAAATA ATAGCAGGAA AAGTTCAGCA 
GATACTGAAT TCTCTGATGA CTCTTCTAAT GCAGAACGAG TCTTGATGAA GTCTCCATCT 
CCAGCATTCC ACCCACCCCA GAAATATAAG GATAGAGGTA TTTTGCATCC TAAACGAAGC 
TCTGATGATC GATCTGACCA ATCTTCTGTG AAATCTACAG ATAGTAGTAG TTATCCTAGT 
CCTTGTGCTA GTCCTTCTCC TCCATCCTCA GGAAAGGGTT CAAAATCCCC TTCACCAAGG 
CCAAATATGC CAGTTCGATA CTTCATAATG AAAAGTAGCA ATCTGAGAAA TCTTGAGATT 
TCTCAACAGA AGGGTATATG GTCTACAACT CCTAGCAATG AGCGAAAATT AAATAGAGCC 
TTTTGGGAGA GCAGCATGGT TTATTTGGTG TTTTCTGTTC AAGGATCTGG ACATTTCCAG 
GGGTTTTCAA GGATGTCTTC AGAGATAGGA CGGGAAAAGA GTCAGGATTG GGGCTCAGCA 
GGTCTTGGAG GAGTGTTCAA GGTGGAATGG ATACGAAAAG AAAGTCTTCC TTTTCAGTTT 
GCACACCATT TACTCAATCC TTGGAATGAC AATAAGAAAG TACAAATAAG CAGAGATGGA 
CAGGAATTGG AGCCCCAGGT TGGAGAACAA CTCTTACAGT TATGGGAACG TATTCCTCTA 
GGAGAGAAAA ATGCAACTGA TTGA

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

RefSeq	XP_001370066.1
CDS	271..4614
Translation	MSRPSSVSPRPPAPGGGGGGGGGGGGGGGGGGGSGGVSSQCGSSASGGRAKGLKDIRIDEEVKIAVNIALERFRYGDQREMEFPSSLTSTERAFIHRLSQSLGLVSKSKGKGANRYLTVKKKDGSETAHAMMTCSLTHNTKHAVRSLIQRFPVTNKERTELLPKTERGNVFAVEAENREMSKTSGRLNNGIPQIPVKRGESEFDSFRQSLPVFEKQEEIVKIIKDNKVVLIVGETGSGKTTQIPQFLLDDCFKNGIPCRIFCTQPRRLAAIAVAERVAAERREKIGQTIGYQIRLESRVSPKTLLTFCTNGVLLRTLMAGDSTLSTVTHVIVDEVHERDRFSDFLLTKLRDLLQKHPTLKLILSSAALDVNLFIRYFGSCPVIYIQGRPFEVKEMFLEDILRSTGYTNKEMLKYKKEKQREEKQQTTLTEWYSAQENSIKPESQRQRTVPNVTEEYDLLDDGGDAVFSQLTEKDVNCLEPWLIKEMDACLSDIWLHKDVDAFAQVFHLILTENVSVDYRHSETSATALMVAAGRGFLSQVEQLISMGANVHSKASNGWMALDWAKHFGQTEIVDLLESYSASLEFGNLDESSLVQANGSDLNAEDRELLKAYHHSFDDEKVDLDLIMHLLYNICHSCDAGAILIFLPGYDEIVGLRDRILFDDKRFADNTHRYQVFMLHSNMQTSDQKKVLKNPPSGIRKIILSTNIAETSITVNDVVFVIDSGKVKEKSFDALNYVTMLKMVWISKASAIQRKGRAGRCRPGICFRLFSRLRFQNMLEFQTPELLRMPLQELCLHTKLLAPINCPIADFLMKAPEPPPALIVRNAVQMLKTIDAMDTWEDLTELGYHLADLPVEPHLGKMVLCAVVLKCLDPILTIACTLAYRDPFVLPTQASQKRAAMLCRKRFTAGTFSDHMALLRAFQAWQKARSDGWERAFCEKNFLSQATMEIIIGMRTQLLGQLRASGFVRARGGGDIRDVNTNSENWAVVKAALVAGMYPNLVHVDRENVVLTGPKEKKVRFHPTSVLSQPQYKKIPPANGQAAALQALPTDWLIYDEMTRAHRIANIRCCSAVTPVTVSVFCGPARLASNALQEPSSFRVDGVPNDSSDSEMEDRTTANLAALKLDEWLNFKMDPEAASLLLQLRQKWHSLFLRRMRAPSKPWSQVDEATIRAIIAVLSTEEQSAGLQQPSGIGQRPRPMSSEELPLASSWRSNNSRKSSADTEFSDDSSNAERVLMKSPSPAFHPPQKYKDRGILHPKRSSDDRSDQSSVKSTDSSSYPSPCASPSPPSSGKGSKSPSPRPNMPVRYFIMKSSNLRNLEISQQKGIWSTTPSNERKLNRAFWESSMVYLVFSVQGSGHFQGFSRMSSEIGREKSQDWGSAGLGGVFKVEWIRKESLPFQFAHHLLNPWNDNKKVQISRDGQELEPQVGEQLLQLWERIPLGEKNATD

Target ORF information:

RefSeq Version	XM_001370029.3
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica YTH domain containing 2 (YTHDC2), mRNA.

Target ORF information:

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

XM_001370029.3

ORF Insert Sequence:

ATGTCCAGGC CGAGCAGCGT CTCCCCGCGG CCCCCGGCTC CAGGCGGCGG TGGTGGTGGC 
GGTGGCGGCG GTGGCGGCGG CGGCGGTGGC GGTGGCGGGA GTGGCGGAGT CTCTTCTCAG 
TGCGGCTCTT CCGCAAGTGG TGGCCGAGCC AAGGGGCTGA AGGACATTCG CATTGATGAG 
GAGGTGAAGA TCGCCGTCAA CATCGCCCTG GAGCGATTTC GTTATGGAGA TCAGAGGGAA 
ATGGAATTTC CTTCTTCTTT AACCAGTACT GAAAGAGCTT TTATTCATCG GTTAAGCCAG 
TCTCTTGGTT TGGTCTCCAA AAGCAAAGGA AAGGGAGCAA ATAGGTACTT AACTGTGAAG 
AAGAAGGATG GATCAGAAAC AGCACATGCA ATGATGACCT GTAGTTTGAC TCACAATACA 
AAACATGCTG TTAGGAGTCT AATTCAAAGA TTTCCAGTCA CCAATAAAGA ACGTACAGAA 
CTTCTGCCTA AAACAGAACG GGGAAATGTG TTTGCAGTTG AAGCTGAAAA CCGAGAAATG 
AGCAAGACAA GTGGACGGCT GAACAATGGC ATACCTCAGA TTCCAGTGAA AAGGGGAGAA 
TCAGAATTTG ATTCTTTTAG ACAGTCTTTA CCAGTGTTTG AGAAACAAGA AGAAATTGTC 
AAAATAATTA AAGATAATAA GGTTGTTTTG ATTGTTGGAG AAACTGGGTC AGGAAAGACC 
ACACAGATCC CTCAGTTCCT TTTAGATGAC TGCTTTAAAA ATGGAATTCC TTGCCGTATA 
TTTTGTACTC AACCAAGACG TTTAGCAGCT ATTGCTGTGG CTGAAAGAGT TGCAGCAGAA 
AGAAGAGAAA AGATTGGCCA GACAATTGGC TATCAGATAC GATTAGAAAG CAGAGTTTCT 
CCAAAGACTC TTCTGACATT TTGCACTAAT GGAGTATTAC TTCGCACATT GATGGCAGGA 
GATAGCACAT TATCAACTGT GACACATGTT ATTGTGGATG AAGTACACGA AAGGGATCGA 
TTTAGTGATT TTTTGCTGAC AAAGTTAAGA GATTTGTTAC AGAAACATCC AACTTTGAAA 
CTGATTCTTT CTAGTGCTGC GTTAGATGTG AATCTCTTCA TAAGATATTT TGGAAGTTGT 
CCAGTGATAT ACATACAGGG AAGACCTTTC GAAGTAAAAG AGATGTTTCT GGAAGACATT 
TTAAGAAGTA CAGGATACAC AAACAAAGAA ATGTTAAAAT ACAAAAAGGA AAAGCAGCGA 
GAAGAGAAAC AGCAAACTAC CCTTACCGAA TGGTACTCAG CTCAAGAGAA TAGCATCAAA 
CCTGAATCTC AGAGGCAAAG AACGGTTCCA AATGTTACTG AAGAATATGA TTTATTGGAT 
GATGGTGGTG ATGCTGTGTT CAGTCAACTG ACCGAAAAAG ATGTGAATTG CCTTGAACCA 
TGGCTAATAA AAGAAATGGA TGCTTGTCTT TCTGACATAT GGCTGCATAA AGATGTTGAT 
GCCTTTGCTC AGGTGTTTCA CCTTATTTTA ACTGAAAATG TTAGCGTGGA TTACAGGCAC 
AGCGAAACCA GTGCAACAGC ACTAATGGTT GCTGCAGGAA GAGGTTTTTT GAGTCAAGTA 
GAACAGTTAA TTAGTATGGG AGCCAATGTC CATAGCAAAG CATCAAATGG CTGGATGGCT 
TTAGATTGGG CTAAACACTT TGGACAGACT GAGATTGTAG ACCTTTTGGA GTCTTACAGT 
GCTTCATTGG AATTTGGAAA CCTAGATGAA AGTTCCTTAG TCCAAGCGAA TGGAAGTGAT 
CTCAATGCAG AAGACAGAGA ATTATTAAAA GCATATCATC ACAGTTTTGA TGATGAAAAA 
GTAGACTTGG ATTTGATTAT GCACCTTCTC TATAATATCT GTCATAGTTG TGATGCTGGA 
GCAATCTTAA TTTTCCTGCC TGGATATGAT GAAATTGTTG GACTGAGAGA TCGCATTCTG 
TTTGATGACA AGCGTTTTGC AGATAACACA CATAGGTATC AAGTCTTTAT GCTTCATTCA 
AATATGCAAA CATCTGATCA AAAAAAAGTA CTAAAAAATC CACCCTCAGG TATTCGGAAA 
ATAATTCTTT CTACCAATAT TGCAGAAACA AGCATTACAG TCAATGATGT TGTCTTTGTT 
ATTGATTCTG GCAAGGTGAA AGAGAAATCC TTTGATGCCC TGAATTATGT TACGATGCTA 
AAAATGGTTT GGATTTCAAA AGCCAGTGCT ATCCAAAGAA AAGGCAGAGC GGGGCGTTGT 
AGACCGGGAA TCTGTTTTCG TCTATTCAGC AGACTTCGAT TTCAGAATAT GTTGGAATTT 
CAGACACCAG AACTTCTGAG AATGCCACTT CAGGAGCTTT GTTTACATAC CAAACTATTA 
GCACCTATTA ATTGTCCCAT TGCTGACTTT CTTATGAAAG CCCCAGAACC TCCACCAGCT 
TTGATTGTTA GAAATGCTGT TCAAATGCTC AAGACAATAG ATGCTATGGA TACCTGGGAG 
GATCTGACTG AGCTTGGATA TCATTTGGCT GACTTGCCAG TAGAACCACA TCTTGGTAAA 
ATGGTCTTGT GTGCTGTCGT TTTGAAGTGT CTGGATCCTA TCCTTACCAT TGCCTGTACT 
CTAGCATATA GAGATCCTTT TGTGCTACCC ACACAAGCTT CTCAAAAGCG TGCAGCCATG 
CTGTGTAGGA AACGTTTTAC TGCAGGCACC TTTAGCGACC ATATGGCACT TCTGAGAGCA 
TTTCAGGCAT GGCAGAAAGC ACGAAGCGAT GGATGGGAAC GAGCTTTTTG TGAAAAGAAT 
TTTCTTTCAC AAGCTACAAT GGAAATCATC ATAGGCATGA GAACTCAGTT GCTCGGTCAG 
CTTAGAGCAT CAGGTTTTGT TAGAGCACGA GGTGGTGGTG ACATTCGGGA TGTTAACACA 
AATTCTGAGA ATTGGGCTGT GGTTAAAGCT GCACTGGTGG CAGGCATGTA TCCTAATTTA 
GTTCATGTGG ACAGAGAGAA TGTAGTATTG ACAGGACCAA AAGAGAAAAA AGTACGGTTT 
CATCCAACTT CTGTTCTCAG TCAGCCACAG TATAAAAAGA TTCCTCCAGC TAATGGCCAA 
GCAGCAGCTC TTCAAGCACT CCCCACAGAT TGGCTCATAT ATGATGAAAT GACCAGAGCA 
CATAGAATAG CCAATATCCG ATGCTGTTCT GCTGTGACAC CTGTGACTGT TTCAGTATTT 
TGTGGACCAG CTAGGTTAGC AAGTAATGCT CTTCAGGAAC CTTCATCTTT TAGAGTGGAT 
GGTGTTCCTA ATGACAGCAG TGACAGTGAA ATGGAAGATA GGACCACTGC TAATTTGGCT 
GCCTTGAAAC TGGATGAGTG GCTAAATTTC AAAATGGATC CAGAGGCTGC CAGCTTATTG 
CTACAACTTA GACAAAAATG GCATAGTTTA TTTTTGCGCC GTATGAGAGC TCCTTCCAAG 
CCTTGGTCTC AAGTTGATGA AGCAACTATA AGAGCAATTA TAGCCGTTTT AAGCACAGAA 
GAACAGTCTG CAGGATTACA GCAACCATCA GGAATTGGCC AGCGACCAAG ACCAATGTCT 
TCAGAGGAAC TTCCTTTAGC ATCTTCTTGG AGGTCAAATA ATAGCAGGAA AAGTTCAGCA 
GATACTGAAT TCTCTGATGA CTCTTCTAAT GCAGAACGAG TCTTGATGAA GTCTCCATCT 
CCAGCATTCC ACCCACCCCA GAAATATAAG GATAGAGGTA TTTTGCATCC TAAACGAAGC 
TCTGATGATC GATCTGACCA ATCTTCTGTG AAATCTACAG ATAGTAGTAG TTATCCTAGT 
CCTTGTGCTA GTCCTTCTCC TCCATCCTCA GGAAAGGGTT CAAAATCCCC TTCACCAAGG 
CCAAATATGC CAGTTCGATA CTTCATAATG AAAAGTAGCA ATCTGAGAAA TCTTGAGATT 
TCTCAACAGA AGGGTATATG GTCTACAACT CCTAGCAATG AGCGAAAATT AAATAGAGCC 
TTTTGGGAGA GCAGCATGGT TTATTTGGTG TTTTCTGTTC AAGGATCTGG ACATTTCCAG 
GGGTTTTCAA GGATGTCTTC AGAGATAGGA CGGGAAAAGA GTCAGGATTG GGGCTCAGCA 
GGTCTTGGAG GAGTGTTCAA GGTGGAATGG ATACGAAAAG AAAGTCTTCC TTTTCAGTTT 
GCACACCATT TACTCAATCC TTGGAATGAC AATAAGAAAG TACAAATAAG CAGAGATGGA 
CAGGAATTGG AGCCCCAGGT TGGAGAACAA CTCTTACAGT TATGGGAACG TATTCCTCTA 
GGAGAGAAAA ATGCAACTGA TTGA