LOC106036851 cDNA ORF clone, Anser cygnoides domesticus

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106036851
Entrez Gene ID	106036851
Full Name	sodium channel protein type 5 subunit alpha-like
Gene Type	protein-coding
Organism	Anser cygnoides domesticus

mRNA and Protein(s)

mRNA	Protein	Name
XM_013182481.1	XP_013037935.1	sodium channel protein type 5 subunit alpha-like

Pathways from BioSystems
Gene Ontology

The following LOC106036851 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106036851 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
OAn132281	XM_013182481.1 Latest version!	Anser cygnoides domesticus sodium channel protein type 5 subunit alpha-like (LOC106036851), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	29-31	$1161.30 $1659.00

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Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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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)

LOC106036851 ( XM_013182481.1 ) cDNA ORF clone, Anser cygnoides domesticus -> XP_013037935.1 Anser cygnoides domesticus sodium channel protein type 5 subunit alpha-like (LOC106036851), mRNA.

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CloneID	OAn132281
Clone ID Related Accession (Same CDS sequence)	XM_013182481.1
Accession Version	XM_013182481.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 6096bp) 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	2015-07-23
Organism	Anser cygnoides domesticus
Product	sodium channel protein type 5 subunit alpha-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013185705.1) 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 :: Anser cygnoides domesticus Annotation Release 100 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##

ATGGCTGACT TCTTGTTACC ACCGGGTACT AACAGCTTCC ACCGGTTCAC ACCTGAATCC 
TTGGCTGCTA TTGAGAAACG AATTGCAGAG AAGCTTGCAA GGAATGCGAA GCAGGAGTAC 
AGAGAGCAGC TGGGTGAAGA AGAAAAACCT CAGCCTCAGT TTGATTTGCA GGCTTGCAAG 
AAGCTGCCCG ATATCTATGG GACTGTTCCT CCAGAGCTCA TTGGGGAGCC ATTGGAGGAT 
CTTGACCCCT TCTACAATGA TCGCAAGACA TTTGTAGTAC TGAACAAAGG GAAGACAATC 
TTTCGATTTA GTGCCACTCC TGCCTTGTAT ATACTTAGTC CTTTCCATCC AATCAGAAGA 
GCAGCAATTA AAATTTTGGT ACATTCATTG TTCAGTATGT TTATTATGTG CACTATTTTA 
ACTAATTGCG TGTTCATGGC ACAATCAGAG ACTCCATCAT GGAATAAATA CGTTGAGTAC 
ACTTTCACTG GCATTTACAC TTTTGAGTCA TTGATAAAAA TATTGGCGAG AGGATTTTGC 
ATGACAGAAT TCACCTTCCT TCGAGATCCA TGGAACTGGC TGGATTTCAG TGTTATTGTT 
ATGGCATACA TAACTGAATT TGTGGACCTG GGCAATGTCT CAGCCTTGCG AACGTTCAGA 
GTACTGCGGG CGCTGAAAAC AATCTCAGTC ATTTCAGGAC TGAAGACCAT TGTAGGTGCA 
CTTATCCAGT CTGTTAAGAA ACTTGCCAAT GTGATGATCC TGACCGTTTT CTGCTTGAGT 
GTCTTTGCCC TCATAGGCCT CCAGCTCTTT ATGGGCAACT TGCGACACAA GTGTGTCAGG 
GACTACACCA TGTTTAACTT CACCAATGGC ACATTGTACT TGGATGGTAG GACGTGGAAC 
AGCTCAGAGG AATTTCTTAA TGATCCAGTT AACTACTTCA TAAAAAATGG TACAGAAGAT 
GTATTACTGT GTGGCAATAG CACTGATGCT GGCACATGCC CCGAGGGATA CATATGTCTG 
AAGGCTGGGG AAAATCCGGA CCATGGTTAC ACAAGCTTTG ATACTTTTGG CTGGGCCTTT 
CTCTCTTTGT TCCGTCTTAT GACTCAGGAT TATTGGGAGC GTCTCTATCA ACAGACTCTC 
AGATCTGCTG GGAAGATCTA CATGCTCTTT TTCATGCTGG TCATCTTTCT GGGCTCATTT 
TATCTGGTCA ACTTGATTCT GGCTGTGGTG GCCATGGCGT ATGAAGAGCA GAACCAAGCC 
ACTATTGCTG AAACAGAAGA GAAGGAAAGA AAGTTTCGGG AAGCCATGGA GATGTTAAAG 
AAAGAGCAGG AGGCACTAGC TGCTAAAGGG ATTGACTCAA TGTCACTTAG CTCATTGGAA 
ATGTCACCTT TAGCATCCAA AAATGCCAAG GAAAGAAGAA ATAGGCGAAA GAAAAAGAAA 
TCTTCGGGGG AAGAATATGG GGAAGACCAG AGGAATCCCA AGTGTGAATA CGATGATGGT 
CAGAGGAGAA TGACTCTCCT TGGCATTAGT TATGGTCCCA GTGCAAACTT GGTGAAGCGC 
AGAACCAGCC ACGGAAGCAT ATTCAGTTTC CGACTCCGTG GCAGAGACAC TGGCTCCGAA 
ACAGATTTTG CCGATGATGA GATCAGCACT GCTGGGGAAA ATGAAAGCCA CCGGGGCTCT 
CTCTTAATTC CAAGATCTGG GAGGCGTCCG AGCGTGCAAA GTCAAGTGAG CCATAGTTCT 
CACCCTACTA CTCCCAACTA CACCCAGACG GGCAAAAGGA ACAGCTCAGT GGATTGCAAT 
GGTGTGGTTT CCCTGATAGG AGGAGGCACC GGGGCACTCA ACCCAGACCC TACTTCTCCT 
GCAGGGTTAC TGCTTCCCCC AGTTATTATG GAAAAACCTG GGACAGGCGA TCTGACCTCT 
CCCTCAGACG AAGCGAGCAA GAAGCAGCTT TTAATGCCCC ACCACCGCCC GTCGGTGGAC 
CACTCAGATG AACCCTTTCA GAGGCAGAGG GCAGTGAGCG CTGTCAGCAT TATCACTAGT 
GCTCTGGAAG AGCTTGAGGA ATCACACCAG AAATGTCCTC CGTGCTGGAA CCACTTTGCT 
GTTAAATTTC TCATTTGGGA TTGCTGCCCG TTTTGGCTTT TAATCAAGAA ATTTGTCAAG 
TTTGTGGTAA TGGACCCATT TACCGACCTC ACCATCACTC TCTGCATTGT GCTGAACACA 
CTCTTCATGG CCTTGGAGCA CTATAAGATG ACGAAGGAGT TTGACCACAT GCTTTACATA 
GGCAATTTGG TCTTCACTGG GATTTTTACA GCAGAAATGA TCTTCAAAGT AATTGCCCTT 
GACCCCTACT ACTATTTTCA GCAGGGCTGG AACATCTTTG ACAGCATAAT TGTTATACTG 
AGCCTGATGG AACTGGGTTT ATCCAGCATG GGAAACCTGT CTGTTTTACG CTCCTTTCGA 
CTGCTGCGAG TCTTCAAATT GGCAAAGTCC TGGCCGACCT TAAATACGCT CATTAAAATC 
ATTGGAAATT CAGTGGGTGC CCTTGGGAAC CTCACCCTTG TGCTGGCAAT CATCGTCTTT 
ATTTTTGCTG TGGTAGGAAT GCAGCTTTTT GGGAAAAGTT ACATGGACAA TGTCAAGAAG 
ATAAGCACTA CCGGCAATTT GCCACGGTGG CACATGAATG ATTTCTTCCA TTCGTTCCTC 
ATTATCTTCC GAATCCTGTG CGGGGAGTGG ATCGAGACCA TGTGGGACTG CATGGAAGTG 
GCTGGGCAGC CCCTGTGCCT TCTCGTCTTC TTGTTGGTCA TGGTGATAGG AAACCTCGTG 
GTGCTCAACC TGTTCCTTGC CTTGCTGCTG AGCTCTTTCA GTGCTGACAA CCTTTCGGCA 
CCAGATGATG ATGGGGAGAT GAACAACCTG CAGCTTGCTT TTGCTCGGAT CAACAGGGGT 
CTTCAGTATG TGAAACGCAC GACATGGGAT TTTTGCTGCA ATGTCCTCCG GCATCCCAAG 
ACCACAGCTG AAAAGAAGGC AATGATGAAG CTTGCTGCCC AGAATACAGG TGCCCTGAAC 
AACTGCGTGA ACAGTCACAC AACTGCTGAG CTTGGCAAAG ACATGGAGAA TCACAAAGAG 
AACCACGCTG AGGATGGGAT GAATAAAAAT GGGGAGAAAC ACCTGGGAAT TACAGATAAT 
GATGATTTCA TGACCAATCC TGACCTGTCC ATTTGTGTTC CTATTGCTGT GGGAGAGTCT 
GATATTGAGG AGGAAGATGA GGAGCAGAGC ACGTTTACGG AAATGGAGCA GCAGGAAAAG 
CAGCTGCAGC TGAGGGGGCA GCGATGTCAA AGCCCAGGCG CCCGGAGTCA GAACTCTGAG 
ATTTGTGAAG AGTTAAGTGA GTTGCACATG GATAAGCAGT TGAAGGCTGA GCCACCACCT 
CCAGTAGGGC AAAAAGAGCT TGATGAAATC AGTCTTTCTG AAGGCAGCAC AGTGGATTTG 
ACAAATCCCG CAGAACTGCT GGAGCAGATC CCTGAGTTTG CTGAGGAGCT GATGGAGCCT 
GAAGATTGCT TCCCCGAAGT TTGTGTGCGA TTCTTCCCAT GCTGTTCAGT GGACATCTCA 
AAATTTCCAG GCAAAATTTG GTGGAGGCTC CGTAAAACGT GCTACAGAAT TGTCGAACAC 
AACTGGTTTG AAACTTTCAT CATATTCATG ATCTTGCTGA GCAGTGGAGC CCTGGCTTTT 
GAAGATATTT ATCTTGAAGA TCGAAGAAAC ATAAAAACCA TGCTGGAATA CGCTGACAAA 
ATATTCACTT ACATCTTTGT CTTGGAAATG CTTTTGAAAT GGGTGGCTTA TGGCTTCAAG 
AAGTATTTCA CCAACGCCTG GTGCTGGCTT GACTTCCTCA TTGTAGATGT TTCCTTAATA 
AGCCTCATAG CCAACACGCT TGGATACTCT GAGATGGGCC CCATCAAATC CCTCAGGACC 
CTCCGAGCTC TGAGACCACT AAGAGCATTG TCACGATTTG AAGGGATGAG GGTGGTGGTC 
AATGCCCTCG TGGGAGCCAT CCCTTCCATC ATGAATGTTC TGCTTGTCTG CCTCATCTTC 
TGGCTCATCT TTAGCATCAT GGGAGTGAAC CTGTTTGCTG GGAAGTTTGG GAAGTGCATT 
AATAAGACAG AAGGAGATAT GCCTTTAGAC TCTAAAATAA TTAACAACAT GAGTGACTGC 
ATACTCTATA ATGTTTCTGG CACATTTTAC TGGACAAAAG TTAAAGTTAA CTTTGATAAT 
GTTGGGGCTG GGTACCTGGC TCTGCTACAA GTGGCCACAT TTAAAGGCTG GATGGATATT 
ATGTATGCAG CTGTGGATTC ACGAGAGTGG AAGAAGCAGC CTGAATGGGA ATGTAATTTG 
TACATGTACC TGTACTTTGT GATTTTCATC ATCTTTGGAT CTTTCTTCAC ACTGAACCTC 
TTCATTGGTG TCATCATTGA CAATTTTAAC CAACAGAAGA AAAAGATAAG TGGCCAAGAC 
ATCTTTATGA CAGAAGAACA GAAAAAGTAT TATAACGCAA TGAAAAAGCT GGGATCTAAG 
AAACCTCAGA AGCCAATCCC AAGGCCACTG AACAAATACC AAGGTTTTAT TTTTGACGTC 
GTCTCAAAAC AAGCCTTTGA TGTCTCCATC ATGATTCTCA TCTGCCTTAA CATGGTTACC 
ATGATGGTGG AAACGGATGA TCAAAGTCAA GAAAAAGTGA ACATCCTCCA CAAAATCAAC 
ATGCTTTTTG TTGCCATTTT CACCGGGGAG TGCATCATCA AAATGCTGGC TCTGCGACAC 
TACTACTTCA CCAATGGCTG GAACATCTTT GACTTTGTTG TCGTGATTCT GTCTATTGTA 
GGCACCGTAC TTTCTGACAT CATTCAGAAG TATTTTTTCT CTCCTACACT CTTCAGAGTC 
ATTCGCTTGG CTCGGATTGG CCGGATCCTG AGACTCATCC GGGGAGCCAA AGGAATTCGA 
ACTCTCCTTT TTGCCTTAAT GATGTCCTTA CCTGCTCTGT TCAACATTGG CCTCTTGCTG 
TTTCTGGTCA TGTTCATTTA TGCCATTTTT GGCATGGCTA ATTTTGCCTA TGTTAAGAAG 
GAATATGGGA TTGATGACAT GTTCAACTTC CAAACCTTTG CTAACAGTAT GCTCTGTCTC 
TTCCAAATCA CAACGTCAGC TGGTTGGGAT GGTCTTCTCA ATCCTATTTT GAACACCGGA 
CCACCGTATT GTGACCCAAA CCTTCCAAAT GCAAATGGTT CAAAGGGAGA CTGCGGAAGT 
CCTGCCGTAG GGATTTTATT CTTTGTTACT TATATCATTA TATCATTTCT CATTGTTGTA 
AACATGTATA TAGCCATTAT TTTAGAGAAC TTCAGTGTAG CCACTGAGGA AAGTACAGAG 
CCTCTAAGTG AGGATGATTT TGATATGTTT TATGAAATCT GGGAGAAGTT TGACCCTGAA 
GCCACTCAGT TTATTGAGTA TTCTGCACTT TCAGACTTTG CAGATGCACT GTCAGAACCT 
TTGCGCATAG CGAAACCAAA CAAAATCAAA CTCATAGCAA TGGACCTGCC CATGGTCAGT 
GGAGATAGGA TCCATTGCCT GGATATTTTG TTTGCTTTTA CAAAAAGGGT GCTAGGAGAA 
TCTGGAGAAA TGGATGCCCT TAAAATACAA ATGGAAGAAA AGTTCATGGC AGCGAATCCG 
TCTAAGATCT CGTACGAACC AATAACAACA ACTCTCAGAC GGAAACAAGA AGAGGTCTCC 
GCCATTGTCA TCCAGCGGGC CTACAGGAGA CATTTGTTTC GGCGCTCCAT GAAGCAGGCG 
TCTTACTTGT ACCGGCACAG AACTTTTGAC GGCAGCATCC TTGAGGACGA TGCACCTGAG 
AAGGAGGGTC TCATTGCATT CATGATGAAT GAAAACTACG GCAGGCCAAT AGACAAATCA 
GAAACACTGT CCTCCACGTC CTTCCCTCCA TCCTACGACA GCGTCACCAG AGGGACAAGC 
GATAATCTCC AGCTGAAGCT GACAGACTCG AGCAAAAGCG ACGAGGCTAT AGATTGTCTG 
CTCTCACCGG ACAGGGATAA AGAATCAATT GTTTAA

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

RefSeq	XP_013037935.1
CDS	131..6226
Translation	MADFLLPPGTNSFHRFTPESLAAIEKRIAEKLARNAKQEYREQLGEEEKPQPQFDLQACKKLPDIYGTVPPELIGEPLEDLDPFYNDRKTFVVLNKGKTIFRFSATPALYILSPFHPIRRAAIKILVHSLFSMFIMCTILTNCVFMAQSETPSWNKYVEYTFTGIYTFESLIKILARGFCMTEFTFLRDPWNWLDFSVIVMAYITEFVDLGNVSALRTFRVLRALKTISVISGLKTIVGALIQSVKKLANVMILTVFCLSVFALIGLQLFMGNLRHKCVRDYTMFNFTNGTLYLDGRTWNSSEEFLNDPVNYFIKNGTEDVLLCGNSTDAGTCPEGYICLKAGENPDHGYTSFDTFGWAFLSLFRLMTQDYWERLYQQTLRSAGKIYMLFFMLVIFLGSFYLVNLILAVVAMAYEEQNQATIAETEEKERKFREAMEMLKKEQEALAAKGIDSMSLSSLEMSPLASKNAKERRNRRKKKKSSGEEYGEDQRNPKCEYDDGQRRMTLLGISYGPSANLVKRRTSHGSIFSFRLRGRDTGSETDFADDEISTAGENESHRGSLLIPRSGRRPSVQSQVSHSSHPTTPNYTQTGKRNSSVDCNGVVSLIGGGTGALNPDPTSPAGLLLPPVIMEKPGTGDLTSPSDEASKKQLLMPHHRPSVDHSDEPFQRQRAVSAVSIITSALEELEESHQKCPPCWNHFAVKFLIWDCCPFWLLIKKFVKFVVMDPFTDLTITLCIVLNTLFMALEHYKMTKEFDHMLYIGNLVFTGIFTAEMIFKVIALDPYYYFQQGWNIFDSIIVILSLMELGLSSMGNLSVLRSFRLLRVFKLAKSWPTLNTLIKIIGNSVGALGNLTLVLAIIVFIFAVVGMQLFGKSYMDNVKKISTTGNLPRWHMNDFFHSFLIIFRILCGEWIETMWDCMEVAGQPLCLLVFLLVMVIGNLVVLNLFLALLLSSFSADNLSAPDDDGEMNNLQLAFARINRGLQYVKRTTWDFCCNVLRHPKTTAEKKAMMKLAAQNTGALNNCVNSHTTAELGKDMENHKENHAEDGMNKNGEKHLGITDNDDFMTNPDLSICVPIAVGESDIEEEDEEQSTFTEMEQQEKQLQLRGQRCQSPGARSQNSEICEELSELHMDKQLKAEPPPPVGQKELDEISLSEGSTVDLTNPAELLEQIPEFAEELMEPEDCFPEVCVRFFPCCSVDISKFPGKIWWRLRKTCYRIVEHNWFETFIIFMILLSSGALAFEDIYLEDRRNIKTMLEYADKIFTYIFVLEMLLKWVAYGFKKYFTNAWCWLDFLIVDVSLISLIANTLGYSEMGPIKSLRTLRALRPLRALSRFEGMRVVVNALVGAIPSIMNVLLVCLIFWLIFSIMGVNLFAGKFGKCINKTEGDMPLDSKIINNMSDCILYNVSGTFYWTKVKVNFDNVGAGYLALLQVATFKGWMDIMYAAVDSREWKKQPEWECNLYMYLYFVIFIIFGSFFTLNLFIGVIIDNFNQQKKKISGQDIFMTEEQKKYYNAMKKLGSKKPQKPIPRPLNKYQGFIFDVVSKQAFDVSIMILICLNMVTMMVETDDQSQEKVNILHKINMLFVAIFTGECIIKMLALRHYYFTNGWNIFDFVVVILSIVGTVLSDIIQKYFFSPTLFRVIRLARIGRILRLIRGAKGIRTLLFALMMSLPALFNIGLLLFLVMFIYAIFGMANFAYVKKEYGIDDMFNFQTFANSMLCLFQITTSAGWDGLLNPILNTGPPYCDPNLPNANGSKGDCGSPAVGILFFVTYIIISFLIVVNMYIAIILENFSVATEESTEPLSEDDFDMFYEIWEKFDPEATQFIEYSALSDFADALSEPLRIAKPNKIKLIAMDLPMVSGDRIHCLDILFAFTKRVLGESGEMDALKIQMEEKFMAANPSKISYEPITTTLRRKQEEVSAIVIQRAYRRHLFRRSMKQASYLYRHRTFDGSILEDDAPEKEGLIAFMMNENYGRPIDKSETLSSTSFPPSYDSVTRGTSDNLQLKLTDSSKSDEAIDCLLSPDRDKESIV

Target ORF information:

RefSeq Version	XM_013182481.1
Organism	Anser cygnoides domesticus
Definition	Anser cygnoides domesticus sodium channel protein type 5 subunit alpha-like (LOC106036851), mRNA.

Target ORF information:

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

XM_013182481.1

ORF Insert Sequence:

ATGGCTGACT TCTTGTTACC ACCGGGTACT AACAGCTTCC ACCGGTTCAC ACCTGAATCC 
TTGGCTGCTA TTGAGAAACG AATTGCAGAG AAGCTTGCAA GGAATGCGAA GCAGGAGTAC 
AGAGAGCAGC TGGGTGAAGA AGAAAAACCT CAGCCTCAGT TTGATTTGCA GGCTTGCAAG 
AAGCTGCCCG ATATCTATGG GACTGTTCCT CCAGAGCTCA TTGGGGAGCC ATTGGAGGAT 
CTTGACCCCT TCTACAATGA TCGCAAGACA TTTGTAGTAC TGAACAAAGG GAAGACAATC 
TTTCGATTTA GTGCCACTCC TGCCTTGTAT ATACTTAGTC CTTTCCATCC AATCAGAAGA 
GCAGCAATTA AAATTTTGGT ACATTCATTG TTCAGTATGT TTATTATGTG CACTATTTTA 
ACTAATTGCG TGTTCATGGC ACAATCAGAG ACTCCATCAT GGAATAAATA CGTTGAGTAC 
ACTTTCACTG GCATTTACAC TTTTGAGTCA TTGATAAAAA TATTGGCGAG AGGATTTTGC 
ATGACAGAAT TCACCTTCCT TCGAGATCCA TGGAACTGGC TGGATTTCAG TGTTATTGTT 
ATGGCATACA TAACTGAATT TGTGGACCTG GGCAATGTCT CAGCCTTGCG AACGTTCAGA 
GTACTGCGGG CGCTGAAAAC AATCTCAGTC ATTTCAGGAC TGAAGACCAT TGTAGGTGCA 
CTTATCCAGT CTGTTAAGAA ACTTGCCAAT GTGATGATCC TGACCGTTTT CTGCTTGAGT 
GTCTTTGCCC TCATAGGCCT CCAGCTCTTT ATGGGCAACT TGCGACACAA GTGTGTCAGG 
GACTACACCA TGTTTAACTT CACCAATGGC ACATTGTACT TGGATGGTAG GACGTGGAAC 
AGCTCAGAGG AATTTCTTAA TGATCCAGTT AACTACTTCA TAAAAAATGG TACAGAAGAT 
GTATTACTGT GTGGCAATAG CACTGATGCT GGCACATGCC CCGAGGGATA CATATGTCTG 
AAGGCTGGGG AAAATCCGGA CCATGGTTAC ACAAGCTTTG ATACTTTTGG CTGGGCCTTT 
CTCTCTTTGT TCCGTCTTAT GACTCAGGAT TATTGGGAGC GTCTCTATCA ACAGACTCTC 
AGATCTGCTG GGAAGATCTA CATGCTCTTT TTCATGCTGG TCATCTTTCT GGGCTCATTT 
TATCTGGTCA ACTTGATTCT GGCTGTGGTG GCCATGGCGT ATGAAGAGCA GAACCAAGCC 
ACTATTGCTG AAACAGAAGA GAAGGAAAGA AAGTTTCGGG AAGCCATGGA GATGTTAAAG 
AAAGAGCAGG AGGCACTAGC TGCTAAAGGG ATTGACTCAA TGTCACTTAG CTCATTGGAA 
ATGTCACCTT TAGCATCCAA AAATGCCAAG GAAAGAAGAA ATAGGCGAAA GAAAAAGAAA 
TCTTCGGGGG AAGAATATGG GGAAGACCAG AGGAATCCCA AGTGTGAATA CGATGATGGT 
CAGAGGAGAA TGACTCTCCT TGGCATTAGT TATGGTCCCA GTGCAAACTT GGTGAAGCGC 
AGAACCAGCC ACGGAAGCAT ATTCAGTTTC CGACTCCGTG GCAGAGACAC TGGCTCCGAA 
ACAGATTTTG CCGATGATGA GATCAGCACT GCTGGGGAAA ATGAAAGCCA CCGGGGCTCT 
CTCTTAATTC CAAGATCTGG GAGGCGTCCG AGCGTGCAAA GTCAAGTGAG CCATAGTTCT 
CACCCTACTA CTCCCAACTA CACCCAGACG GGCAAAAGGA ACAGCTCAGT GGATTGCAAT 
GGTGTGGTTT CCCTGATAGG AGGAGGCACC GGGGCACTCA ACCCAGACCC TACTTCTCCT 
GCAGGGTTAC TGCTTCCCCC AGTTATTATG GAAAAACCTG GGACAGGCGA TCTGACCTCT 
CCCTCAGACG AAGCGAGCAA GAAGCAGCTT TTAATGCCCC ACCACCGCCC GTCGGTGGAC 
CACTCAGATG AACCCTTTCA GAGGCAGAGG GCAGTGAGCG CTGTCAGCAT TATCACTAGT 
GCTCTGGAAG AGCTTGAGGA ATCACACCAG AAATGTCCTC CGTGCTGGAA CCACTTTGCT 
GTTAAATTTC TCATTTGGGA TTGCTGCCCG TTTTGGCTTT TAATCAAGAA ATTTGTCAAG 
TTTGTGGTAA TGGACCCATT TACCGACCTC ACCATCACTC TCTGCATTGT GCTGAACACA 
CTCTTCATGG CCTTGGAGCA CTATAAGATG ACGAAGGAGT TTGACCACAT GCTTTACATA 
GGCAATTTGG TCTTCACTGG GATTTTTACA GCAGAAATGA TCTTCAAAGT AATTGCCCTT 
GACCCCTACT ACTATTTTCA GCAGGGCTGG AACATCTTTG ACAGCATAAT TGTTATACTG 
AGCCTGATGG AACTGGGTTT ATCCAGCATG GGAAACCTGT CTGTTTTACG CTCCTTTCGA 
CTGCTGCGAG TCTTCAAATT GGCAAAGTCC TGGCCGACCT TAAATACGCT CATTAAAATC 
ATTGGAAATT CAGTGGGTGC CCTTGGGAAC CTCACCCTTG TGCTGGCAAT CATCGTCTTT 
ATTTTTGCTG TGGTAGGAAT GCAGCTTTTT GGGAAAAGTT ACATGGACAA TGTCAAGAAG 
ATAAGCACTA CCGGCAATTT GCCACGGTGG CACATGAATG ATTTCTTCCA TTCGTTCCTC 
ATTATCTTCC GAATCCTGTG CGGGGAGTGG ATCGAGACCA TGTGGGACTG CATGGAAGTG 
GCTGGGCAGC CCCTGTGCCT TCTCGTCTTC TTGTTGGTCA TGGTGATAGG AAACCTCGTG 
GTGCTCAACC TGTTCCTTGC CTTGCTGCTG AGCTCTTTCA GTGCTGACAA CCTTTCGGCA 
CCAGATGATG ATGGGGAGAT GAACAACCTG CAGCTTGCTT TTGCTCGGAT CAACAGGGGT 
CTTCAGTATG TGAAACGCAC GACATGGGAT TTTTGCTGCA ATGTCCTCCG GCATCCCAAG 
ACCACAGCTG AAAAGAAGGC AATGATGAAG CTTGCTGCCC AGAATACAGG TGCCCTGAAC 
AACTGCGTGA ACAGTCACAC AACTGCTGAG CTTGGCAAAG ACATGGAGAA TCACAAAGAG 
AACCACGCTG AGGATGGGAT GAATAAAAAT GGGGAGAAAC ACCTGGGAAT TACAGATAAT 
GATGATTTCA TGACCAATCC TGACCTGTCC ATTTGTGTTC CTATTGCTGT GGGAGAGTCT 
GATATTGAGG AGGAAGATGA GGAGCAGAGC ACGTTTACGG AAATGGAGCA GCAGGAAAAG 
CAGCTGCAGC TGAGGGGGCA GCGATGTCAA AGCCCAGGCG CCCGGAGTCA GAACTCTGAG 
ATTTGTGAAG AGTTAAGTGA GTTGCACATG GATAAGCAGT TGAAGGCTGA GCCACCACCT 
CCAGTAGGGC AAAAAGAGCT TGATGAAATC AGTCTTTCTG AAGGCAGCAC AGTGGATTTG 
ACAAATCCCG CAGAACTGCT GGAGCAGATC CCTGAGTTTG CTGAGGAGCT GATGGAGCCT 
GAAGATTGCT TCCCCGAAGT TTGTGTGCGA TTCTTCCCAT GCTGTTCAGT GGACATCTCA 
AAATTTCCAG GCAAAATTTG GTGGAGGCTC CGTAAAACGT GCTACAGAAT TGTCGAACAC 
AACTGGTTTG AAACTTTCAT CATATTCATG ATCTTGCTGA GCAGTGGAGC CCTGGCTTTT 
GAAGATATTT ATCTTGAAGA TCGAAGAAAC ATAAAAACCA TGCTGGAATA CGCTGACAAA 
ATATTCACTT ACATCTTTGT CTTGGAAATG CTTTTGAAAT GGGTGGCTTA TGGCTTCAAG 
AAGTATTTCA CCAACGCCTG GTGCTGGCTT GACTTCCTCA TTGTAGATGT TTCCTTAATA 
AGCCTCATAG CCAACACGCT TGGATACTCT GAGATGGGCC CCATCAAATC CCTCAGGACC 
CTCCGAGCTC TGAGACCACT AAGAGCATTG TCACGATTTG AAGGGATGAG GGTGGTGGTC 
AATGCCCTCG TGGGAGCCAT CCCTTCCATC ATGAATGTTC TGCTTGTCTG CCTCATCTTC 
TGGCTCATCT TTAGCATCAT GGGAGTGAAC CTGTTTGCTG GGAAGTTTGG GAAGTGCATT 
AATAAGACAG AAGGAGATAT GCCTTTAGAC TCTAAAATAA TTAACAACAT GAGTGACTGC 
ATACTCTATA ATGTTTCTGG CACATTTTAC TGGACAAAAG TTAAAGTTAA CTTTGATAAT 
GTTGGGGCTG GGTACCTGGC TCTGCTACAA GTGGCCACAT TTAAAGGCTG GATGGATATT 
ATGTATGCAG CTGTGGATTC ACGAGAGTGG AAGAAGCAGC CTGAATGGGA ATGTAATTTG 
TACATGTACC TGTACTTTGT GATTTTCATC ATCTTTGGAT CTTTCTTCAC ACTGAACCTC 
TTCATTGGTG TCATCATTGA CAATTTTAAC CAACAGAAGA AAAAGATAAG TGGCCAAGAC 
ATCTTTATGA CAGAAGAACA GAAAAAGTAT TATAACGCAA TGAAAAAGCT GGGATCTAAG 
AAACCTCAGA AGCCAATCCC AAGGCCACTG AACAAATACC AAGGTTTTAT TTTTGACGTC 
GTCTCAAAAC AAGCCTTTGA TGTCTCCATC ATGATTCTCA TCTGCCTTAA CATGGTTACC 
ATGATGGTGG AAACGGATGA TCAAAGTCAA GAAAAAGTGA ACATCCTCCA CAAAATCAAC 
ATGCTTTTTG TTGCCATTTT CACCGGGGAG TGCATCATCA AAATGCTGGC TCTGCGACAC 
TACTACTTCA CCAATGGCTG GAACATCTTT GACTTTGTTG TCGTGATTCT GTCTATTGTA 
GGCACCGTAC TTTCTGACAT CATTCAGAAG TATTTTTTCT CTCCTACACT CTTCAGAGTC 
ATTCGCTTGG CTCGGATTGG CCGGATCCTG AGACTCATCC GGGGAGCCAA AGGAATTCGA 
ACTCTCCTTT TTGCCTTAAT GATGTCCTTA CCTGCTCTGT TCAACATTGG CCTCTTGCTG 
TTTCTGGTCA TGTTCATTTA TGCCATTTTT GGCATGGCTA ATTTTGCCTA TGTTAAGAAG 
GAATATGGGA TTGATGACAT GTTCAACTTC CAAACCTTTG CTAACAGTAT GCTCTGTCTC 
TTCCAAATCA CAACGTCAGC TGGTTGGGAT GGTCTTCTCA ATCCTATTTT GAACACCGGA 
CCACCGTATT GTGACCCAAA CCTTCCAAAT GCAAATGGTT CAAAGGGAGA CTGCGGAAGT 
CCTGCCGTAG GGATTTTATT CTTTGTTACT TATATCATTA TATCATTTCT CATTGTTGTA 
AACATGTATA TAGCCATTAT TTTAGAGAAC TTCAGTGTAG CCACTGAGGA AAGTACAGAG 
CCTCTAAGTG AGGATGATTT TGATATGTTT TATGAAATCT GGGAGAAGTT TGACCCTGAA 
GCCACTCAGT TTATTGAGTA TTCTGCACTT TCAGACTTTG CAGATGCACT GTCAGAACCT 
TTGCGCATAG CGAAACCAAA CAAAATCAAA CTCATAGCAA TGGACCTGCC CATGGTCAGT 
GGAGATAGGA TCCATTGCCT GGATATTTTG TTTGCTTTTA CAAAAAGGGT GCTAGGAGAA 
TCTGGAGAAA TGGATGCCCT TAAAATACAA ATGGAAGAAA AGTTCATGGC AGCGAATCCG 
TCTAAGATCT CGTACGAACC AATAACAACA ACTCTCAGAC GGAAACAAGA AGAGGTCTCC 
GCCATTGTCA TCCAGCGGGC CTACAGGAGA CATTTGTTTC GGCGCTCCAT GAAGCAGGCG 
TCTTACTTGT ACCGGCACAG AACTTTTGAC GGCAGCATCC TTGAGGACGA TGCACCTGAG 
AAGGAGGGTC TCATTGCATT CATGATGAAT GAAAACTACG GCAGGCCAAT AGACAAATCA 
GAAACACTGT CCTCCACGTC CTTCCCTCCA TCCTACGACA GCGTCACCAG AGGGACAAGC 
GATAATCTCC AGCTGAAGCT GACAGACTCG AGCAAAAGCG ACGAGGCTAT AGATTGTCTG 
CTCTCACCGG ACAGGGATAA AGAATCAATT GTTTAA