LOC110389599 cDNA ORF clone, Numida meleagris(helmeted guineafowl)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC110389599
Entrez Gene ID	110389599
Full Name	serine-protein kinase ATM-like
Gene Type	protein-coding
Organism	Numida meleagris(helmeted guineafowl)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021380305.1	XP_021235980.1	serine-protein kinase ATM-like

Pathways from BioSystems
Gene Ontology

The following LOC110389599 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC110389599 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
ONu04518	XM_021380305.1 Latest version!	Numida meleagris serine-protein kinase ATM-like (LOC110389599), 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)

LOC110389599 ( XM_021380305.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021235980.1 Numida meleagris serine-protein kinase ATM-like (LOC110389599), mRNA.

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CloneID	ONu04518
Clone ID Related Accession (Same CDS sequence)	XM_021380305.1
Accession Version	XM_021380305.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5148bp) 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	2017-06-06
Organism	Numida meleagris(helmeted guineafowl)
Product	serine-protein kinase ATM-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034409.1) and transcript sequence (GBYG01011877.1) 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 :: Numida meleagris 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## assembly gap :: added 175 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGACATTAC ATGACCCACC TAACACTAAG GCAGAAGAGG GATCTCATCT AAGTAAATAT 
ATTAGGGAAC TGGATCCTGC TCCTAATCCT CCTCATTTTC CTTCTTACGT GATTAAGGCA 
ACCTTGGACC ACATTAGCAA CTGTCACAAA AGCAAACTAA AAAGTCTCGT TGCAGTTCTT 
TCTAAAAGCC CTGATTCATT CCAGAAAATT CTGCTAGCCC TTTGTAAGCA TGCATCAGAT 
ACAAACAATA TATACAAGAA GCACAGAGTT CTTACAATTT ATCATTTCTT TGTTAGTCTG 
TTACTTAAAG AAATAAAAGA TGGTTTAGGA GGAGCATGGG CTTTTGTCCT TCGAGATGTG 
ATCTATACGC TGATTCACCA CATCAGCAGC AGACCTCTTA TCTTTAGAGA TGTATCCACG 
CGCAGCTTTT CGCTCTGTTG TGATCTTCTT CAGCGTGTTT GCCACACAGC AGTTACATGT 
TGCAATGACG CTCTGGAGAG CCACCTTCAT GTTATTGTAG GAACGCTAAT ACCTCTTGCT 
GTGGACCAGC CTAAGATTCA GCCACAGGTC TTAGGCTTGT TGAAGTATCT AGTGATAGAC 
AGTAAGGATA ATGAATACCT CTACCAAGCA ATCAAACGCT TAGATCCTTT TCCTGAATAT 
CCTGCTTTTA AAGAGCTGCG AACAACTCAA CTGGAGATAA AGTACAGTAA GGGACCATAT 
TCTCTTTTGG AGGAAATTAA TCGCTTTCTC TCAGTTAGTG TTTGTGATTC ACTGCCCTTA 
ACACGACTTG AAGGACTGTA TGATTTACGC AAACAATTGG AACAATATAA GGATCAGATG 
AAGGATCTCC TGAAAATTTT TCAGGAAAAA CCAGAAGATT CTGTAATGGT GAAGCTTGTG 
GTGAGCTTAC TGCAGCTGTC CAAGATGGCG CTTAATCATG CAGGTGAAAA AGCGGTGCTG 
GAGGCTGTGG GAAGTTGCTT GGGAGAAATA GGTCCCATGG ATTTCTCCAC CATAGCTCTT 
CAGCATGCTG AAAATGCACT GGATTCTAAA GCATTGGATT TGCTTGAAGA TAAAAAGCTT 
CAGTGGGTTT TCATAATGTT AACTCAAATA AATACCGCTT TAACGGATAA TTGTATTGAT 
GTTAGAGCTG CTGCTGTTTC CTGTTTGAAA AACATATTAG CCACCAATTC TGGCAGTGAA 
TTTTGGGAAG TTTATAAAAA TAAAGGTGAT CCCATGTTAA TCTATCTACA GCCTTTCAGA 
ATGTCCAAGA AGAAGGTTTT GGCAGTGCCA GCTAACGATT CAGAGGCTTC TTCAGAAACT 
TTGGATGACA CAAATCTGTG GATTCCTCTG GGAGAAAGTC ATGAGACCTG GATCAAGAAC 
CTAACCCGTT CAATACTGGA CAGCGGAGGC GTGCAAAATG AAGTTCTCCA GTTAATGAAG 
CCACTATGTG AGGTGAAAAC GGACTTGAGT CAAACTTTGC TTCCATACCT GATTCATGAT 
ATCCTTCTTC ATGATTCAAA TGAATCTTGG CGAAATATTT TGTCAGTTCA TGTACGGAAG 
TTTTTTACTG CCTGTTGCAG ATTTGCCTCA TCTAGTAGAT CTGCTACACC ACCAAATTCT 
GACTCAGAGC AAGAAAGCCA TGTTCTTAGA AGTTTGGATA AAGTGTCTCG AAGAACCATG 
CTTGCTGTCA TTGATTACTT AAGGAGGCAA AAGAGATCTG TTTCAGGTAC AGTTTTTGAT 
GACAGCTTCT GGCTAGATCT GAATTATCTT GAGGTTGCTG TAGCAGCACA GTCTTGTGCT 
GCTCACTTCA CAGCCCTGCT CTATGCAGAA ATCTATGCAG ACAAGATAAA TATAGACAAA 
CAGCAAGAAA GGTCTTCTTT TAAAGCAGCT AAAAGTCTGA CATTTGAAGA AGAAAGTGAA 
AAATCAACTA TTTCTATTTT GAATGAAAAA AGTAAAGAAA CTGGCATAAG TTTACAGGAC 
CTTCTCATGG ACGTATATAA AAGTATTGGA GAGCCTGACA GTCTCTATGG CTGTGGTGGG 
GGAAGAATGT TACAGCCATT AGCACGGATA AGAACTTATG AGCATGAAGC AGTATGGGAT 
AAAGCTCTTC TAATATACGA CCTTGAGGCA ACCCTTACTC CATCTACTCG CCAGGCAGGA 
ATAATAGAGG CTTTGCAGAA TTTTGGGCTT TGCCACACTC TTTCCATATA TTTAAAAGGA 
CTGGAACACA AAAACACTGA GTGGTGTGCA GAACTACAGG AAATACGCTA CCAGGCAGCA 
TGGAGGAACA TGCAGTGGGA CAACATCTCT TCCGTCAAGA ATGAGACAGG AGGATCCGGG 
TACCATGAAT CATTGTATGA TGCTCTTCAG TCTTTACGAG ATAAGGAATT TTCTACCTTT 
TATGACACTC TTAAAGTTGC CAGGGTGAAT GAAGTAGAAG AGCTGTGCAA AGGCAGTCTC 
GAGTCTGTGT ATACATTATA TCCAAGTCTT TGCAGATTAC AGCTAATTGA AGAATTGGAA 
AATATAGGTC TACTATTTTC CAGACCTGCT ACTACTCAAC AACTGAACGA TATTTATTTG 
AAATGGCAGA GACAGTCCCA GCTCCTCGAG GACAGCGACT TCCGTTTCCA GGAACCTATC 
ATGGCTCTGC GCACTGTAAT TTTAGAGGTC TTGCTTGAAA AGGAGAACGA AAATGCCAGA 
AGAGAATGTA TTAAAGACAT TCTCACCAAA CATCTCGTGG AGCTCTCTAA ATTGGCAAGA 
ACCGCTAATA ATACCCAGCT TCCAGAAAGA GCTATGTTTC AGATTAAACA ACACAACCCA 
ACACAATATG GAGTTTCTGA ATGGCAACTA GAAGAAGCTC AGGTTTTCTG GGCTAAAAAG 
GAAGAGAGTC TTGCACTGAA TATTCTTAAA GAATTGATAA AAAAATTAGA TGCAAATTGG 
TTTCAGGTGG AGAATGATCC ACACCTGAAA TTAATGTATA CAGAGTGTCT GAGGCTGTGT 
GGAACCTGGC TAGCAGAAAC ACGTTTGGAA AACCCTACCG TCATCATGCA GAAATACTTG 
GAGAAGGCTG TGGAAATTGC TGCAAGGCAC CATGGAGACA GCAGTGATGA ACTGGAGAAA 
GGAAAAACAA AGGCTTTCCT GTCTTTGGCT CGTTTCTCAG ATAATCAGTA CCAGCGAATT 
GAGAACTACA TGAAATCCTC AGAGTTTGAA AATAAGCAGG CATTACTGAA GAAGGCCAAG 
GAGGAGGTTG GCCTCCTGAG GGAGCGTAGA GTTGAGACAA ACAGATATAC AGTGAAGGTT 
CAGCGAGAGC TTGAGCTGGA TGAATGTGCC ATACATGCCC TAACTGAGGA TCGTCAGCGT 
TTCTTGTGTA AAGCAGTGGA GAACTACATC AACTGTTTGC TAAGTGGAGA GGAACATGAT 
ATGTGGATCT TCCGACTCTG TTCCCTATGG CTTGAAAATT CTGGAGTTGA TAGAGTCAAT 
GAAATGATGA AGAAAAATGC AGAGAAAATC CCTTCTTACA AGTTTTTGCC TCTGATGTAC 
CAGCTGGCTG CTCGAATGGG AACCAAGATG ATGGGTGGTC TAGGATTTCA TGAAGTTCTG 
AATAATCTAA TGTCTAGGAT TTCACTGGAT CACCCACATC ACACTTTGTT TATAATATTG 
GCTTTGGCAA ATGCTAACAA AGATGAACTC CTGACAAAAA CAGATGCAAA AAGAACAAAT 
AAGTTAATTA AAAACGCACC AAAAGAAATT TCACAGCTTG ATGTGGACAG AATGGAGGCT 
GCTGGAAATA TAATCAACAT CATAAGAAAA AGGAGAGCTC CCATGGTTAG AGATATAGAA 
GCACTTTGTG ATGCTTACAT CACATTAGCA AATGTAGACG CTACTCCATG GAAAACTAAA 
AGAGGAGGAA TAAGTATTCC AGATGACCAG CCAATTACTA AACTGAAGAA CCTGGAGGAT 
GTTGTTGTTC CTACCATGGA AATTAAGGTG GATCCTACAG GAAGATATGA AAATTTGGTG 
ACAGTAAGGT CTTTTAAGCC AGAATTTCAC TTAGCAGGAG GTCTGAATCT GCCAAAAATA 
ATAAATTGTG TAGGATCAGA TGGTAAAGAA AGGAGGCAGC TGGTGAAGGG CCGTAACGAT 
CTGAGACAAG ACGCTGTTAT GCAGCAGGTT TTCCAGATGT GTAATACCTT GCTCCAGCAA 
AACACTGAAA CACGGAAGAG AAAATTAACC ATCCGAAGAT ACAAGGTAGT TCCCCTTTCT 
CAGAAGAGCG GTGTGCTCGA GTGGTGCTCA GGAACGACGC CCATTGGGGA GTTCCTTGTG 
AATGCTGACA AGGGAGCCCA CAGGAGATAC AGGCCTCACG ATTACTCCAG TTTCCAGTGC 
CAGAAGATAA TGATGGATGC ACAAAAGAAA CATTCTGAAG AGAAATACAA CATCTTCATG 
GAGCTGTGTG ACAATTTTCA ACCTGTGTTT CGTTATTTCT GCATGGAAAA ATTCCGGGAT 
CCAGCTGTGT GGTTTGAAAA GCGGTTGGCG TACACTCGCA GTGTGGCTAC GTCTTCTATA 
GTCGGCTACA TCCTTGGACT TGGAGACAGG CATGTTCAGA ATATCCTGAT AGATGAGCAA 
ACTGCAGAAC TGGTGCATAT AGATCTGGGA GTTGCTTTTG AGCAAGGTAA AATCCTTCCC 
ACACCAGAGA CTGTTCCATT TAGATTAACC AGGGACATTG TGGATGGAAT GGGCATTACT 
GGAGTAGAAG GAGTCTTCAG GAGATGCTGT GAGAAAACAA TGGCTGTCAT GAGAAATTCT 
CAGGAAGCTT TGCTGACTAT TGTGGAGGTT CTGCTCTATG ATCCCCTTTT TGACTGGACC 
ATGAACCCCT TGAAGGCTTT ATATCTGCAG CAGAGACCAG AGGATGAGGC TGACATGAGC 
TCTACGCTCA GTGCTGATCC ACGAGCATGT AAAAGGAAAG CCAGCAGTGA TGACAAGAGC 
TTTAACAAGG TGGCTGAGCG CGTTCTGATG AGACTTCAGG AGAAGCTGAA AGGCGTTGAG 
GAGGGAACAG TGCTCAGCGT GGGAGGGCAG GTGAACCTGC TGATACAGCA GGCCATGGAC 
CCTAAAAACC TGAGCCAGCT CTTTCCTGGC TGGAAACCCT GGGTGTGA

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

RefSeq	XP_021235980.1
CDS	38..5185
Translation	MTLHDPPNTKAEEGSHLSKYIRELDPAPNPPHFPSYVIKATLDHISNCHKSKLKSLVAVLSKSPDSFQKILLALCKHASDTNNIYKKHRVLTIYHFFVSLLLKEIKDGLGGAWAFVLRDVIYTLIHHISSRPLIFRDVSTRSFSLCCDLLQRVCHTAVTCCNDALESHLHVIVGTLIPLAVDQPKIQPQVLGLLKYLVIDSKDNEYLYQAIKRLDPFPEYPAFKELRTTQLEIKYSKGPYSLLEEINRFLSVSVCDSLPLTRLEGLYDLRKQLEQYKDQMKDLLKIFQEKPEDSVMVKLVVSLLQLSKMALNHAGEKAVLEAVGSCLGEIGPMDFSTIALQHAENALDSKALDLLEDKKLQWVFIMLTQINTALTDNCIDVRAAAVSCLKNILATNSGSEFWEVYKNKGDPMLIYLQPFRMSKKKVLAVPANDSEASSETLDDTNLWIPLGESHETWIKNLTRSILDSGGVQNEVLQLMKPLCEVKTDLSQTLLPYLIHDILLHDSNESWRNILSVHVRKFFTACCRFASSSRSATPPNSDSEQESHVLRSLDKVSRRTMLAVIDYLRRQKRSVSGTVFDDSFWLDLNYLEVAVAAQSCAAHFTALLYAEIYADKINIDKQQERSSFKAAKSLTFEEESEKSTISILNEKSKETGISLQDLLMDVYKSIGEPDSLYGCGGGRMLQPLARIRTYEHEAVWDKALLIYDLEATLTPSTRQAGIIEALQNFGLCHTLSIYLKGLEHKNTEWCAELQEIRYQAAWRNMQWDNISSVKNETGGSGYHESLYDALQSLRDKEFSTFYDTLKVARVNEVEELCKGSLESVYTLYPSLCRLQLIEELENIGLLFSRPATTQQLNDIYLKWQRQSQLLEDSDFRFQEPIMALRTVILEVLLEKENENARRECIKDILTKHLVELSKLARTANNTQLPERAMFQIKQHNPTQYGVSEWQLEEAQVFWAKKEESLALNILKELIKKLDANWFQVENDPHLKLMYTECLRLCGTWLAETRLENPTVIMQKYLEKAVEIAARHHGDSSDELEKGKTKAFLSLARFSDNQYQRIENYMKSSEFENKQALLKKAKEEVGLLRERRVETNRYTVKVQRELELDECAIHALTEDRQRFLCKAVENYINCLLSGEEHDMWIFRLCSLWLENSGVDRVNEMMKKNAEKIPSYKFLPLMYQLAARMGTKMMGGLGFHEVLNNLMSRISLDHPHHTLFIILALANANKDELLTKTDAKRTNKLIKNAPKEISQLDVDRMEAAGNIINIIRKRRAPMVRDIEALCDAYITLANVDATPWKTKRGGISIPDDQPITKLKNLEDVVVPTMEIKVDPTGRYENLVTVRSFKPEFHLAGGLNLPKIINCVGSDGKERRQLVKGRNDLRQDAVMQQVFQMCNTLLQQNTETRKRKLTIRRYKVVPLSQKSGVLEWCSGTTPIGEFLVNADKGAHRRYRPHDYSSFQCQKIMMDAQKKHSEEKYNIFMELCDNFQPVFRYFCMEKFRDPAVWFEKRLAYTRSVATSSIVGYILGLGDRHVQNILIDEQTAELVHIDLGVAFEQGKILPTPETVPFRLTRDIVDGMGITGVEGVFRRCCEKTMAVMRNSQEALLTIVEVLLYDPLFDWTMNPLKALYLQQRPEDEADMSSTLSADPRACKRKASSDDKSFNKVAERVLMRLQEKLKGVEEGTVLSVGGQVNLLIQQAMDPKNLSQLFPGWKPWV

Target ORF information:

RefSeq Version	XM_021380305.1
Organism	Numida meleagris(helmeted guineafowl)
Definition	Numida meleagris serine-protein kinase ATM-like (LOC110389599), mRNA.

Target ORF information:

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

XM_021380305.1

ORF Insert Sequence:

ATGACATTAC ATGACCCACC TAACACTAAG GCAGAAGAGG GATCTCATCT AAGTAAATAT 
ATTAGGGAAC TGGATCCTGC TCCTAATCCT CCTCATTTTC CTTCTTACGT GATTAAGGCA 
ACCTTGGACC ACATTAGCAA CTGTCACAAA AGCAAACTAA AAAGTCTCGT TGCAGTTCTT 
TCTAAAAGCC CTGATTCATT CCAGAAAATT CTGCTAGCCC TTTGTAAGCA TGCATCAGAT 
ACAAACAATA TATACAAGAA GCACAGAGTT CTTACAATTT ATCATTTCTT TGTTAGTCTG 
TTACTTAAAG AAATAAAAGA TGGTTTAGGA GGAGCATGGG CTTTTGTCCT TCGAGATGTG 
ATCTATACGC TGATTCACCA CATCAGCAGC AGACCTCTTA TCTTTAGAGA TGTATCCACG 
CGCAGCTTTT CGCTCTGTTG TGATCTTCTT CAGCGTGTTT GCCACACAGC AGTTACATGT 
TGCAATGACG CTCTGGAGAG CCACCTTCAT GTTATTGTAG GAACGCTAAT ACCTCTTGCT 
GTGGACCAGC CTAAGATTCA GCCACAGGTC TTAGGCTTGT TGAAGTATCT AGTGATAGAC 
AGTAAGGATA ATGAATACCT CTACCAAGCA ATCAAACGCT TAGATCCTTT TCCTGAATAT 
CCTGCTTTTA AAGAGCTGCG AACAACTCAA CTGGAGATAA AGTACAGTAA GGGACCATAT 
TCTCTTTTGG AGGAAATTAA TCGCTTTCTC TCAGTTAGTG TTTGTGATTC ACTGCCCTTA 
ACACGACTTG AAGGACTGTA TGATTTACGC AAACAATTGG AACAATATAA GGATCAGATG 
AAGGATCTCC TGAAAATTTT TCAGGAAAAA CCAGAAGATT CTGTAATGGT GAAGCTTGTG 
GTGAGCTTAC TGCAGCTGTC CAAGATGGCG CTTAATCATG CAGGTGAAAA AGCGGTGCTG 
GAGGCTGTGG GAAGTTGCTT GGGAGAAATA GGTCCCATGG ATTTCTCCAC CATAGCTCTT 
CAGCATGCTG AAAATGCACT GGATTCTAAA GCATTGGATT TGCTTGAAGA TAAAAAGCTT 
CAGTGGGTTT TCATAATGTT AACTCAAATA AATACCGCTT TAACGGATAA TTGTATTGAT 
GTTAGAGCTG CTGCTGTTTC CTGTTTGAAA AACATATTAG CCACCAATTC TGGCAGTGAA 
TTTTGGGAAG TTTATAAAAA TAAAGGTGAT CCCATGTTAA TCTATCTACA GCCTTTCAGA 
ATGTCCAAGA AGAAGGTTTT GGCAGTGCCA GCTAACGATT CAGAGGCTTC TTCAGAAACT 
TTGGATGACA CAAATCTGTG GATTCCTCTG GGAGAAAGTC ATGAGACCTG GATCAAGAAC 
CTAACCCGTT CAATACTGGA CAGCGGAGGC GTGCAAAATG AAGTTCTCCA GTTAATGAAG 
CCACTATGTG AGGTGAAAAC GGACTTGAGT CAAACTTTGC TTCCATACCT GATTCATGAT 
ATCCTTCTTC ATGATTCAAA TGAATCTTGG CGAAATATTT TGTCAGTTCA TGTACGGAAG 
TTTTTTACTG CCTGTTGCAG ATTTGCCTCA TCTAGTAGAT CTGCTACACC ACCAAATTCT 
GACTCAGAGC AAGAAAGCCA TGTTCTTAGA AGTTTGGATA AAGTGTCTCG AAGAACCATG 
CTTGCTGTCA TTGATTACTT AAGGAGGCAA AAGAGATCTG TTTCAGGTAC AGTTTTTGAT 
GACAGCTTCT GGCTAGATCT GAATTATCTT GAGGTTGCTG TAGCAGCACA GTCTTGTGCT 
GCTCACTTCA CAGCCCTGCT CTATGCAGAA ATCTATGCAG ACAAGATAAA TATAGACAAA 
CAGCAAGAAA GGTCTTCTTT TAAAGCAGCT AAAAGTCTGA CATTTGAAGA AGAAAGTGAA 
AAATCAACTA TTTCTATTTT GAATGAAAAA AGTAAAGAAA CTGGCATAAG TTTACAGGAC 
CTTCTCATGG ACGTATATAA AAGTATTGGA GAGCCTGACA GTCTCTATGG CTGTGGTGGG 
GGAAGAATGT TACAGCCATT AGCACGGATA AGAACTTATG AGCATGAAGC AGTATGGGAT 
AAAGCTCTTC TAATATACGA CCTTGAGGCA ACCCTTACTC CATCTACTCG CCAGGCAGGA 
ATAATAGAGG CTTTGCAGAA TTTTGGGCTT TGCCACACTC TTTCCATATA TTTAAAAGGA 
CTGGAACACA AAAACACTGA GTGGTGTGCA GAACTACAGG AAATACGCTA CCAGGCAGCA 
TGGAGGAACA TGCAGTGGGA CAACATCTCT TCCGTCAAGA ATGAGACAGG AGGATCCGGG 
TACCATGAAT CATTGTATGA TGCTCTTCAG TCTTTACGAG ATAAGGAATT TTCTACCTTT 
TATGACACTC TTAAAGTTGC CAGGGTGAAT GAAGTAGAAG AGCTGTGCAA AGGCAGTCTC 
GAGTCTGTGT ATACATTATA TCCAAGTCTT TGCAGATTAC AGCTAATTGA AGAATTGGAA 
AATATAGGTC TACTATTTTC CAGACCTGCT ACTACTCAAC AACTGAACGA TATTTATTTG 
AAATGGCAGA GACAGTCCCA GCTCCTCGAG GACAGCGACT TCCGTTTCCA GGAACCTATC 
ATGGCTCTGC GCACTGTAAT TTTAGAGGTC TTGCTTGAAA AGGAGAACGA AAATGCCAGA 
AGAGAATGTA TTAAAGACAT TCTCACCAAA CATCTCGTGG AGCTCTCTAA ATTGGCAAGA 
ACCGCTAATA ATACCCAGCT TCCAGAAAGA GCTATGTTTC AGATTAAACA ACACAACCCA 
ACACAATATG GAGTTTCTGA ATGGCAACTA GAAGAAGCTC AGGTTTTCTG GGCTAAAAAG 
GAAGAGAGTC TTGCACTGAA TATTCTTAAA GAATTGATAA AAAAATTAGA TGCAAATTGG 
TTTCAGGTGG AGAATGATCC ACACCTGAAA TTAATGTATA CAGAGTGTCT GAGGCTGTGT 
GGAACCTGGC TAGCAGAAAC ACGTTTGGAA AACCCTACCG TCATCATGCA GAAATACTTG 
GAGAAGGCTG TGGAAATTGC TGCAAGGCAC CATGGAGACA GCAGTGATGA ACTGGAGAAA 
GGAAAAACAA AGGCTTTCCT GTCTTTGGCT CGTTTCTCAG ATAATCAGTA CCAGCGAATT 
GAGAACTACA TGAAATCCTC AGAGTTTGAA AATAAGCAGG CATTACTGAA GAAGGCCAAG 
GAGGAGGTTG GCCTCCTGAG GGAGCGTAGA GTTGAGACAA ACAGATATAC AGTGAAGGTT 
CAGCGAGAGC TTGAGCTGGA TGAATGTGCC ATACATGCCC TAACTGAGGA TCGTCAGCGT 
TTCTTGTGTA AAGCAGTGGA GAACTACATC AACTGTTTGC TAAGTGGAGA GGAACATGAT 
ATGTGGATCT TCCGACTCTG TTCCCTATGG CTTGAAAATT CTGGAGTTGA TAGAGTCAAT 
GAAATGATGA AGAAAAATGC AGAGAAAATC CCTTCTTACA AGTTTTTGCC TCTGATGTAC 
CAGCTGGCTG CTCGAATGGG AACCAAGATG ATGGGTGGTC TAGGATTTCA TGAAGTTCTG 
AATAATCTAA TGTCTAGGAT TTCACTGGAT CACCCACATC ACACTTTGTT TATAATATTG 
GCTTTGGCAA ATGCTAACAA AGATGAACTC CTGACAAAAA CAGATGCAAA AAGAACAAAT 
AAGTTAATTA AAAACGCACC AAAAGAAATT TCACAGCTTG ATGTGGACAG AATGGAGGCT 
GCTGGAAATA TAATCAACAT CATAAGAAAA AGGAGAGCTC CCATGGTTAG AGATATAGAA 
GCACTTTGTG ATGCTTACAT CACATTAGCA AATGTAGACG CTACTCCATG GAAAACTAAA 
AGAGGAGGAA TAAGTATTCC AGATGACCAG CCAATTACTA AACTGAAGAA CCTGGAGGAT 
GTTGTTGTTC CTACCATGGA AATTAAGGTG GATCCTACAG GAAGATATGA AAATTTGGTG 
ACAGTAAGGT CTTTTAAGCC AGAATTTCAC TTAGCAGGAG GTCTGAATCT GCCAAAAATA 
ATAAATTGTG TAGGATCAGA TGGTAAAGAA AGGAGGCAGC TGGTGAAGGG CCGTAACGAT 
CTGAGACAAG ACGCTGTTAT GCAGCAGGTT TTCCAGATGT GTAATACCTT GCTCCAGCAA 
AACACTGAAA CACGGAAGAG AAAATTAACC ATCCGAAGAT ACAAGGTAGT TCCCCTTTCT 
CAGAAGAGCG GTGTGCTCGA GTGGTGCTCA GGAACGACGC CCATTGGGGA GTTCCTTGTG 
AATGCTGACA AGGGAGCCCA CAGGAGATAC AGGCCTCACG ATTACTCCAG TTTCCAGTGC 
CAGAAGATAA TGATGGATGC ACAAAAGAAA CATTCTGAAG AGAAATACAA CATCTTCATG 
GAGCTGTGTG ACAATTTTCA ACCTGTGTTT CGTTATTTCT GCATGGAAAA ATTCCGGGAT 
CCAGCTGTGT GGTTTGAAAA GCGGTTGGCG TACACTCGCA GTGTGGCTAC GTCTTCTATA 
GTCGGCTACA TCCTTGGACT TGGAGACAGG CATGTTCAGA ATATCCTGAT AGATGAGCAA 
ACTGCAGAAC TGGTGCATAT AGATCTGGGA GTTGCTTTTG AGCAAGGTAA AATCCTTCCC 
ACACCAGAGA CTGTTCCATT TAGATTAACC AGGGACATTG TGGATGGAAT GGGCATTACT 
GGAGTAGAAG GAGTCTTCAG GAGATGCTGT GAGAAAACAA TGGCTGTCAT GAGAAATTCT 
CAGGAAGCTT TGCTGACTAT TGTGGAGGTT CTGCTCTATG ATCCCCTTTT TGACTGGACC 
ATGAACCCCT TGAAGGCTTT ATATCTGCAG CAGAGACCAG AGGATGAGGC TGACATGAGC 
TCTACGCTCA GTGCTGATCC ACGAGCATGT AAAAGGAAAG CCAGCAGTGA TGACAAGAGC 
TTTAACAAGG TGGCTGAGCG CGTTCTGATG AGACTTCAGG AGAAGCTGAA AGGCGTTGAG 
GAGGGAACAG TGCTCAGCGT GGGAGGGCAG GTGAACCTGC TGATACAGCA GGCCATGGAC 
CCTAAAAACC TGAGCCAGCT CTTTCCTGGC TGGAAACCCT GGGTGTGA