LOC101807902 cDNA ORF clone, Ficedula albicollis(collared flycatcher)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC101807902
Entrez Gene ID	101807902
Full Name	myosin heavy chain, skeletal muscle-like
Gene Type	protein-coding
Organism	Ficedula albicollis(collared flycatcher)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005056077.2	XP_005056134.1	myosin heavy chain, skeletal muscle-like

Pathways from BioSystems
Gene Ontology

The following LOC101807902 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC101807902 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
OFi06295	XM_005056077.2 Latest version!	Ficedula albicollis myosin heavy chain, skeletal muscle-like (LOC101807902), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$881.30 $1259.00

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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)

LOC101807902 ( XM_005056077.2 ) cDNA ORF clone, Ficedula albicollis(collared flycatcher) -> XP_005056134.1 Ficedula albicollis myosin heavy chain, skeletal muscle-like (LOC101807902), mRNA.

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CloneID	OFi06295
Clone ID Related Accession (Same CDS sequence)	XM_005056077.2
Accession Version	XM_005056077.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4959bp) 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	2016-04-19
Organism	Ficedula albicollis(collared flycatcher)
Product	myosin heavy chain, skeletal muscle-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_021689.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 20, 2016 this sequence version replaced XM_005056077.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ficedula albicollis Annotation Release 101 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGTCTACGG ACGCCGAGAT GGCGATCTTC GGGGAGGCGG CTCCTTACCT CCGAAAATCG 
GAGAAGGAGA GAATTGAGGC CCAGAACAAA CCCTTTGATG CAAAGACATC TGTCTTTGTG 
GTACATGCAA AGGAGTCCTA TGTGAAAGGG AAAATTGAGA GTAAGGATGC AGGGAAGGTC 
ACTGTCAAGA CTGAAGGTGG AGAGACCCTG ACGGTGAAAG AAGATCAAAT CTTCTCCATG 
AACCCCCCCA AGTATGACAA AATCGAGGAC ATGGCCATGA TGACCCACCT CCACGAACCC 
GCTGTGCTGT ACAACCTCAA AGAGCGTTAC GCAGCCTGGA TGATCTACAC CTACTCGGGT 
CTCTTCTGCG TCACTGTCAA CCCCTACAAG TGGCTGCCGG TGTACAACCC CGAGGTGGTG 
TTGGCCTACC GAGGCAAGAA GCGCCAGGAG GCCCCTCCAC ACATCTTCTC CATCTCTGAC 
AACGCCTATC AGTTCATGCT GACTGATCGG GAGAACCAGT CCATCCTGAT CACCGGAGAA 
TCCGGGGCCG GGAAGACTGT GAACACAAAG CGTGTCATCC AGTACTTTGC AACAATTGCA 
GCCAGTGGGG ACAAGAAGAA GGAGGAGCAG ACCTCAGGAA AAATGCAGGG AACGCTTGAG 
GATCAAATCA TCAGCGCCAA CCCACTGCTG GAGGCCTTTG GAAATGCCAA GACCGTGAGG 
AATGACAACT CCTCACGCTT TAGTGCCATT GACATCCTGG GCTTCAGTGC TGATGAGAAA 
ACAGCCATCT ACAAGCTGAC AGGGGCTGTC ATGCACTATG GGAACCTGAA GTTCAAGCAG 
AAGCAGCGTG AGGAGCAGGC AGAGCCCGAT GGCACCGAAG TTGCTGACAA GGCTGCCTAC 
CTGATGGGTC TGAACTCAGC AGACCTGCTC AAGGCCCTCT GCTACCCCCG AGTCAAGGTG 
GGGAATGAAT ACGTGACCAA GGGCCAAACT GTGCAGCAGG TATACAATTC AGTGGGTGCC 
CTGGCTAAGT CTGTGTTTGA GAAGATGTTC CTGTGGATGG TTGTTCGCAT CAACCAACAG 
CTGGACACGA AGCAGCCCAG GCAGTACTTC ATTGGTGTCC TGGACATTGC TGGCTTTGAG 
ATCTTTGATT TCAACAGCCT GGAGCAGCTG TGCATCAACT TCACCAATGA GAAACTGCAA 
CAGTTCTTCA ACCACCACAT GTTTGTGCTG GAGCAGGAGG AGTACAAGAA GGAGGGAATT 
GAATGGGAGT TCATTGACTT TGGCATGGAC CTGGCCGCCT GCATTGAGCT CATCGAGAAG 
CCCATGGGCA TCTTCTCCAT CCTGGAAGAG GAGTGCATGT TCCCCAAGGC AACTGACACC 
TCTTTCAAGA ACAAGCTCTA TGACCAGCAC CTGGGCAAGT CCAACAACTT CCAGAAGCCC 
AAGCCCGGCA AAGGCAAGGC TGAGGCTCAC TTCTCCCTGG TGCACTACGC TGGCACAGTG 
GACTACAATA TCTCTGGCTG GCTGGAGAAG AACAAGGACC CTCTGAATGA AACTGTTGTG 
GGGCTGTATC AGAAATCATC CTTGAAGACT CTGGCCTTGC TCTTTGCATC TGCTGGTGGG 
GCAGAAGCAG AGAGCAGTGG TGGCGGTGGC AAGAAGGGCG CCAAGAAGAA GGGTTCTTCT 
TTCCAGACCG TCTCAGCTCT CTTCCGGGAA AATTTAAACA AGCTGATGAG CAATTTGAGA 
AGCACACACC CCCATTTTGT GCGGTGCCTT ATTCCTAACG AAACAAAAAC ACCTGGTGCC 
ATGGAGCACG AGCTGGTGCT GCACCAGCTG CGCTGTAACG GCGTGCTGGA AGGGATCAGG 
ATTTGCCGGA AAGGGTTCCC CAGCAGAATC CTCTATGCTG ACTTCAAACA GAGATACAAG 
GTGCTTAATG CCAGTGCCAT CCCCGAGGGA CAGTTCATTG ATAGCAAGAA GGCTTCTGAG 
AAGCTGCTTG GGTCAATCGA TGTGGACCAC ACCCAGTACA GATTTGGACA CACCAAGGTG 
TTCTTCAAAG CTGGGCTGCT GGGACTCCTG GAGGAGATGA GAGATGAGAA GCTGGCACAG 
CTCATCACCC GCACCCAGGC CATGTGTAGG GGTTACCTGA TGAGGGTGGA GTTCAAGAAA 
ATGATGGAAA GGAGGGATTC CATCTTCTGC ATCCAGTACA ATGTTCGTGC ATTCATGAAT 
GTCAAACACT GGCCATGGAT GAAGCTGTTC TTCAAGATCA AGCCCTTGCT GAAGAGTGCT 
GAGTCTGAGA AGGAAATGGC CAACATGAAA CAAGAGTTTG AGAAAACCAA GGAGGAGCTT 
GCAAAGTCAG AAGCAAAGAG GAAGGAGCTG GAGGAGAAAA TGGTGGCCCT GGTGCAGGAG 
AAAAATGACC TGCAGCTCCA AGTGCAGGCT GAAGCTGATG GTTTGGCTGA TGCTGAGGAA 
AGGTGTGACC AGCTCATCAA AACCAAAATC CAGCTGGAAG CCAAAATTAA GGAGCTGACA 
GAGAGAGCAG AAGAGGAAGA AGAGATGAAT GCTGAGCTGA CAGCAAAGAA GAGGAAACTG 
GAGGATGAAT GTTCAGAGCT GAAGAAAGAC ATTGATGACC TTGAGCTAAC ACTGGCCAAG 
GTGGAGAAGG AAAAACACGC CACCGAAAAC AAGCCCCGTG ACCTGGAAGA GGCCACGCTG 
CAGCACGAAG CCACGGCTTC CGCCCTGCGC AAGAAGCACG CGGACAGCAC AGCTGAGCTG 
GGGGAGCAGA TCGACAACCT GCAACGCGTG AAGCAGAAGC TGGAGAAGGA GAAGAGTGAG 
CTGAAGATGG AGATTGATGA CTTGGCCAGC AACATGGAGT CTGTCTCTAA AGCCAAGGCA 
AATCTGGAGA AGATGTGTCG CTCCCTAGAA GATCAGCTCA GTGAGATTAA GACAAAGGAG 
GAGGAACAGC AGCGCATAAT TAATGACATT AGTGCTCAAA GAGCTCGGCT ACAAACAGAA 
TCTGGTGAAT ATTCACGCCA GGTGGATGAG AAAGATGCTC TGATTTCTCA GCTGTCAAGA 
GGCAAGCAGG CTTTCACCCA ACAGATTGAG GAACTCAAAA GGCATCTAGA GGAAGAGATA 
AAGGCCAAGA ACGCCCTGGC CCACGCCCTG CAGTCCGCTC GCCACGACTG TGACTTGCTC 
CGGGAACAAT ATGAGGAGGA GCAGGAGGCC AAGGGGGAGC TGCAGAGAGC CCTGTCCAAG 
GCCAACAGTG AAGTGGCCCA GTGGAGAACC AAATACGAGA CGGACGCGAT TCAGCGCACG 
GAGGAGCTCG AGGAGGCCAA GAAGAAGCTG GCCCAACGTC TGCAGGATGC AGAGGAACAT 
GTTGAGGCTG TCAATGCCAA ATGTGCCTCC CTGGAAAAGA CAAAGCAGAG GCTGCAGAAT 
GAAGTGGAGG ACCTGATGAT TGACGTGGAG AGATCCAATG CTGCCTGCGC TGCTCTGGAT 
AAGAAGCAGA AGAACTTTGA CAAGATCCTG GCAGAATGGA AGCAGAAGTA TGAGGAAACG 
CAGGCTGAGC TGGAGGCCTC CCAGAAGGAG TCGCGCTCTC TCAGCACGGA GCTGTTCAAG 
ATGAAGAATG CCTATGAGGA GTCCTTGGAC CACCTGGAGA CAATGAAGCG GGAGAACAAG 
AACTTGCAGC AGGAGATTTC TGACCTCACG GAGCAGATTG CTGAGGGAGG AAAGGCAGTT 
CATGAGCTGG AGAAAGTCAA GAAACAGATT GAGCAGGAGA AGTCTGAAAT CCAGGCTGCT 
CTGGAGGAAG CTGAGAACTC CCTGGAACAT GAAGAGGGGA AGATCTTGCG GCTGCAGCTT 
GAGCTCAACC AGGTGAAGGC TGAGATTGAC AGGAAGATAG CAGAGAAGGA TGAGGAGATT 
GACCAGCTGA AGAGAAACCA CCAGCGAGTT GTGGACTCCA TGCAGAGCAC CCTGGATGCT 
GAGATCAGGA GCAGGAATGA AGCCCTGAGG CTGAAGAAGA AGATGGAGGG AGACCTGAAT 
GAAATAGAAA TCCAGTTGAG CCATGCCAAC CGCCAGGCTG CAGAGGCACA GAAGAACCTA 
AGAAATACAC AGGGAGTGCT CAAGGACACC CAGATCCATC TGGATGATGC TCTCAGGACA 
CAGGATGACC TGAAGGAGCA GGTGGCCATG GTGGAACGCA GAGCAAACCT GCTGCAGGCT 
GAAGTTGAGG AGCTCCGGGC AGCCCTGGAG CAGACAGAGC GGTCAAGGAA AGTGGCTGAG 
CAGGAATTAA TGGATGCCAG TGAGCGTGTG CAGCTCCTCC ACAGCCAGAA CACCAGTTTG 
ATCAACACCA AGAAGAAGCT GGAAACAGAC ATTGCCCAGA TCCAGGGTGA AATGGAGGAT 
ACCATCCAGG AAGCCCGCAA TGCTGAGGAG AAGGCCAAGA AGGCCATCAC AGATGCGGCC 
ATGATGGCAG AAGAGCTGAA GAAGGAGCAG GACACCAGTG CCCACCTGGA GAGGATGAAG 
AAGAACCTGG ACCAGACAGT GAAGGACCTG CAGCACCGTC TGGAAGAGGC TGAGCAGCTG 
GCACTGAAGG GAGGGAAGAA GCAGATCCAG AAGCTGGAGG CCAGGGTGCG GGAGCTGGAA 
GGGGAGGTTG ATGCTGAGCA GAAGCGCAGC GCTGAAGCCG TGAAGGGTGT GCGCAAGTAC 
GAGCGGAGGG TGAAGGAACT GACCTACCAG TCTGAGGAAG ACAGGAAAAA TGTTCTCAGG 
CTGCAGGATC TAGTGGACAA ACTGCAAACT AAGGTGAAAG CTTACAAGAG ACAAGCTGAG 
GAGGCTGAGG AGCTGTCCAA CGTCAACCTG TCCAAGTTCC GCAAGATCCA GCACGAGCTG 
GAGGAAGCCG AGGAGCGGGC TGACATTGCA GAGTCACAGG TCAACAAGCT CCGAGCCAAG 
AGCCGGGAAA TCAGCAAGAA GGCAGAAAGT GAAGAGTAA

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

RefSeq	XP_005056134.1
CDS	1..4959
Translation	MSTDAEMAIFGEAAPYLRKSEKERIEAQNKPFDAKTSVFVVHAKESYVKGKIESKDAGKVTVKTEGGETLTVKEDQIFSMNPPKYDKIEDMAMMTHLHEPAVLYNLKERYAAWMIYTYSGLFCVTVNPYKWLPVYNPEVVLAYRGKKRQEAPPHIFSISDNAYQFMLTDRENQSILITGESGAGKTVNTKRVIQYFATIAASGDKKKEEQTSGKMQGTLEDQIISANPLLEAFGNAKTVRNDNSSRFSAIDILGFSADEKTAIYKLTGAVMHYGNLKFKQKQREEQAEPDGTEVADKAAYLMGLNSADLLKALCYPRVKVGNEYVTKGQTVQQVYNSVGALAKSVFEKMFLWMVVRINQQLDTKQPRQYFIGVLDIAGFEIFDFNSLEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWEFIDFGMDLAACIELIEKPMGIFSILEEECMFPKATDTSFKNKLYDQHLGKSNNFQKPKPGKGKAEAHFSLVHYAGTVDYNISGWLEKNKDPLNETVVGLYQKSSLKTLALLFASAGGAEAESSGGGGKKGAKKKGSSFQTVSALFRENLNKLMSNLRSTHPHFVRCLIPNETKTPGAMEHELVLHQLRCNGVLEGIRICRKGFPSRILYADFKQRYKVLNASAIPEGQFIDSKKASEKLLGSIDVDHTQYRFGHTKVFFKAGLLGLLEEMRDEKLAQLITRTQAMCRGYLMRVEFKKMMERRDSIFCIQYNVRAFMNVKHWPWMKLFFKIKPLLKSAESEKEMANMKQEFEKTKEELAKSEAKRKELEEKMVALVQEKNDLQLQVQAEADGLADAEERCDQLIKTKIQLEAKIKELTERAEEEEEMNAELTAKKRKLEDECSELKKDIDDLELTLAKVEKEKHATENKPRDLEEATLQHEATASALRKKHADSTAELGEQIDNLQRVKQKLEKEKSELKMEIDDLASNMESVSKAKANLEKMCRSLEDQLSEIKTKEEEQQRIINDISAQRARLQTESGEYSRQVDEKDALISQLSRGKQAFTQQIEELKRHLEEEIKAKNALAHALQSARHDCDLLREQYEEEQEAKGELQRALSKANSEVAQWRTKYETDAIQRTEELEEAKKKLAQRLQDAEEHVEAVNAKCASLEKTKQRLQNEVEDLMIDVERSNAACAALDKKQKNFDKILAEWKQKYEETQAELEASQKESRSLSTELFKMKNAYEESLDHLETMKRENKNLQQEISDLTEQIAEGGKAVHELEKVKKQIEQEKSEIQAALEEAENSLEHEEGKILRLQLELNQVKAEIDRKIAEKDEEIDQLKRNHQRVVDSMQSTLDAEIRSRNEALRLKKKMEGDLNEIEIQLSHANRQAAEAQKNLRNTQGVLKDTQIHLDDALRTQDDLKEQVAMVERRANLLQAEVEELRAALEQTERSRKVAEQELMDASERVQLLHSQNTSLINTKKKLETDIAQIQGEMEDTIQEARNAEEKAKKAITDAAMMAEELKKEQDTSAHLERMKKNLDQTVKDLQHRLEEAEQLALKGGKKQIQKLEARVRELEGEVDAEQKRSAEAVKGVRKYERRVKELTYQSEEDRKNVLRLQDLVDKLQTKVKAYKRQAEEAEELSNVNLSKFRKIQHELEEAEERADIAESQVNKLRAKSREISKKAESEE

Target ORF information:

RefSeq Version	XM_005056077.2
Organism	Ficedula albicollis(collared flycatcher)
Definition	Ficedula albicollis myosin heavy chain, skeletal muscle-like (LOC101807902), mRNA.

Target ORF information:

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

XM_005056077.2

ORF Insert Sequence:

ATGTCTACGG ACGCCGAGAT GGCGATCTTC GGGGAGGCGG CTCCTTACCT CCGAAAATCG 
GAGAAGGAGA GAATTGAGGC CCAGAACAAA CCCTTTGATG CAAAGACATC TGTCTTTGTG 
GTACATGCAA AGGAGTCCTA TGTGAAAGGG AAAATTGAGA GTAAGGATGC AGGGAAGGTC 
ACTGTCAAGA CTGAAGGTGG AGAGACCCTG ACGGTGAAAG AAGATCAAAT CTTCTCCATG 
AACCCCCCCA AGTATGACAA AATCGAGGAC ATGGCCATGA TGACCCACCT CCACGAACCC 
GCTGTGCTGT ACAACCTCAA AGAGCGTTAC GCAGCCTGGA TGATCTACAC CTACTCGGGT 
CTCTTCTGCG TCACTGTCAA CCCCTACAAG TGGCTGCCGG TGTACAACCC CGAGGTGGTG 
TTGGCCTACC GAGGCAAGAA GCGCCAGGAG GCCCCTCCAC ACATCTTCTC CATCTCTGAC 
AACGCCTATC AGTTCATGCT GACTGATCGG GAGAACCAGT CCATCCTGAT CACCGGAGAA 
TCCGGGGCCG GGAAGACTGT GAACACAAAG CGTGTCATCC AGTACTTTGC AACAATTGCA 
GCCAGTGGGG ACAAGAAGAA GGAGGAGCAG ACCTCAGGAA AAATGCAGGG AACGCTTGAG 
GATCAAATCA TCAGCGCCAA CCCACTGCTG GAGGCCTTTG GAAATGCCAA GACCGTGAGG 
AATGACAACT CCTCACGCTT TAGTGCCATT GACATCCTGG GCTTCAGTGC TGATGAGAAA 
ACAGCCATCT ACAAGCTGAC AGGGGCTGTC ATGCACTATG GGAACCTGAA GTTCAAGCAG 
AAGCAGCGTG AGGAGCAGGC AGAGCCCGAT GGCACCGAAG TTGCTGACAA GGCTGCCTAC 
CTGATGGGTC TGAACTCAGC AGACCTGCTC AAGGCCCTCT GCTACCCCCG AGTCAAGGTG 
GGGAATGAAT ACGTGACCAA GGGCCAAACT GTGCAGCAGG TATACAATTC AGTGGGTGCC 
CTGGCTAAGT CTGTGTTTGA GAAGATGTTC CTGTGGATGG TTGTTCGCAT CAACCAACAG 
CTGGACACGA AGCAGCCCAG GCAGTACTTC ATTGGTGTCC TGGACATTGC TGGCTTTGAG 
ATCTTTGATT TCAACAGCCT GGAGCAGCTG TGCATCAACT TCACCAATGA GAAACTGCAA 
CAGTTCTTCA ACCACCACAT GTTTGTGCTG GAGCAGGAGG AGTACAAGAA GGAGGGAATT 
GAATGGGAGT TCATTGACTT TGGCATGGAC CTGGCCGCCT GCATTGAGCT CATCGAGAAG 
CCCATGGGCA TCTTCTCCAT CCTGGAAGAG GAGTGCATGT TCCCCAAGGC AACTGACACC 
TCTTTCAAGA ACAAGCTCTA TGACCAGCAC CTGGGCAAGT CCAACAACTT CCAGAAGCCC 
AAGCCCGGCA AAGGCAAGGC TGAGGCTCAC TTCTCCCTGG TGCACTACGC TGGCACAGTG 
GACTACAATA TCTCTGGCTG GCTGGAGAAG AACAAGGACC CTCTGAATGA AACTGTTGTG 
GGGCTGTATC AGAAATCATC CTTGAAGACT CTGGCCTTGC TCTTTGCATC TGCTGGTGGG 
GCAGAAGCAG AGAGCAGTGG TGGCGGTGGC AAGAAGGGCG CCAAGAAGAA GGGTTCTTCT 
TTCCAGACCG TCTCAGCTCT CTTCCGGGAA AATTTAAACA AGCTGATGAG CAATTTGAGA 
AGCACACACC CCCATTTTGT GCGGTGCCTT ATTCCTAACG AAACAAAAAC ACCTGGTGCC 
ATGGAGCACG AGCTGGTGCT GCACCAGCTG CGCTGTAACG GCGTGCTGGA AGGGATCAGG 
ATTTGCCGGA AAGGGTTCCC CAGCAGAATC CTCTATGCTG ACTTCAAACA GAGATACAAG 
GTGCTTAATG CCAGTGCCAT CCCCGAGGGA CAGTTCATTG ATAGCAAGAA GGCTTCTGAG 
AAGCTGCTTG GGTCAATCGA TGTGGACCAC ACCCAGTACA GATTTGGACA CACCAAGGTG 
TTCTTCAAAG CTGGGCTGCT GGGACTCCTG GAGGAGATGA GAGATGAGAA GCTGGCACAG 
CTCATCACCC GCACCCAGGC CATGTGTAGG GGTTACCTGA TGAGGGTGGA GTTCAAGAAA 
ATGATGGAAA GGAGGGATTC CATCTTCTGC ATCCAGTACA ATGTTCGTGC ATTCATGAAT 
GTCAAACACT GGCCATGGAT GAAGCTGTTC TTCAAGATCA AGCCCTTGCT GAAGAGTGCT 
GAGTCTGAGA AGGAAATGGC CAACATGAAA CAAGAGTTTG AGAAAACCAA GGAGGAGCTT 
GCAAAGTCAG AAGCAAAGAG GAAGGAGCTG GAGGAGAAAA TGGTGGCCCT GGTGCAGGAG 
AAAAATGACC TGCAGCTCCA AGTGCAGGCT GAAGCTGATG GTTTGGCTGA TGCTGAGGAA 
AGGTGTGACC AGCTCATCAA AACCAAAATC CAGCTGGAAG CCAAAATTAA GGAGCTGACA 
GAGAGAGCAG AAGAGGAAGA AGAGATGAAT GCTGAGCTGA CAGCAAAGAA GAGGAAACTG 
GAGGATGAAT GTTCAGAGCT GAAGAAAGAC ATTGATGACC TTGAGCTAAC ACTGGCCAAG 
GTGGAGAAGG AAAAACACGC CACCGAAAAC AAGCCCCGTG ACCTGGAAGA GGCCACGCTG 
CAGCACGAAG CCACGGCTTC CGCCCTGCGC AAGAAGCACG CGGACAGCAC AGCTGAGCTG 
GGGGAGCAGA TCGACAACCT GCAACGCGTG AAGCAGAAGC TGGAGAAGGA GAAGAGTGAG 
CTGAAGATGG AGATTGATGA CTTGGCCAGC AACATGGAGT CTGTCTCTAA AGCCAAGGCA 
AATCTGGAGA AGATGTGTCG CTCCCTAGAA GATCAGCTCA GTGAGATTAA GACAAAGGAG 
GAGGAACAGC AGCGCATAAT TAATGACATT AGTGCTCAAA GAGCTCGGCT ACAAACAGAA 
TCTGGTGAAT ATTCACGCCA GGTGGATGAG AAAGATGCTC TGATTTCTCA GCTGTCAAGA 
GGCAAGCAGG CTTTCACCCA ACAGATTGAG GAACTCAAAA GGCATCTAGA GGAAGAGATA 
AAGGCCAAGA ACGCCCTGGC CCACGCCCTG CAGTCCGCTC GCCACGACTG TGACTTGCTC 
CGGGAACAAT ATGAGGAGGA GCAGGAGGCC AAGGGGGAGC TGCAGAGAGC CCTGTCCAAG 
GCCAACAGTG AAGTGGCCCA GTGGAGAACC AAATACGAGA CGGACGCGAT TCAGCGCACG 
GAGGAGCTCG AGGAGGCCAA GAAGAAGCTG GCCCAACGTC TGCAGGATGC AGAGGAACAT 
GTTGAGGCTG TCAATGCCAA ATGTGCCTCC CTGGAAAAGA CAAAGCAGAG GCTGCAGAAT 
GAAGTGGAGG ACCTGATGAT TGACGTGGAG AGATCCAATG CTGCCTGCGC TGCTCTGGAT 
AAGAAGCAGA AGAACTTTGA CAAGATCCTG GCAGAATGGA AGCAGAAGTA TGAGGAAACG 
CAGGCTGAGC TGGAGGCCTC CCAGAAGGAG TCGCGCTCTC TCAGCACGGA GCTGTTCAAG 
ATGAAGAATG CCTATGAGGA GTCCTTGGAC CACCTGGAGA CAATGAAGCG GGAGAACAAG 
AACTTGCAGC AGGAGATTTC TGACCTCACG GAGCAGATTG CTGAGGGAGG AAAGGCAGTT 
CATGAGCTGG AGAAAGTCAA GAAACAGATT GAGCAGGAGA AGTCTGAAAT CCAGGCTGCT 
CTGGAGGAAG CTGAGAACTC CCTGGAACAT GAAGAGGGGA AGATCTTGCG GCTGCAGCTT 
GAGCTCAACC AGGTGAAGGC TGAGATTGAC AGGAAGATAG CAGAGAAGGA TGAGGAGATT 
GACCAGCTGA AGAGAAACCA CCAGCGAGTT GTGGACTCCA TGCAGAGCAC CCTGGATGCT 
GAGATCAGGA GCAGGAATGA AGCCCTGAGG CTGAAGAAGA AGATGGAGGG AGACCTGAAT 
GAAATAGAAA TCCAGTTGAG CCATGCCAAC CGCCAGGCTG CAGAGGCACA GAAGAACCTA 
AGAAATACAC AGGGAGTGCT CAAGGACACC CAGATCCATC TGGATGATGC TCTCAGGACA 
CAGGATGACC TGAAGGAGCA GGTGGCCATG GTGGAACGCA GAGCAAACCT GCTGCAGGCT 
GAAGTTGAGG AGCTCCGGGC AGCCCTGGAG CAGACAGAGC GGTCAAGGAA AGTGGCTGAG 
CAGGAATTAA TGGATGCCAG TGAGCGTGTG CAGCTCCTCC ACAGCCAGAA CACCAGTTTG 
ATCAACACCA AGAAGAAGCT GGAAACAGAC ATTGCCCAGA TCCAGGGTGA AATGGAGGAT 
ACCATCCAGG AAGCCCGCAA TGCTGAGGAG AAGGCCAAGA AGGCCATCAC AGATGCGGCC 
ATGATGGCAG AAGAGCTGAA GAAGGAGCAG GACACCAGTG CCCACCTGGA GAGGATGAAG 
AAGAACCTGG ACCAGACAGT GAAGGACCTG CAGCACCGTC TGGAAGAGGC TGAGCAGCTG 
GCACTGAAGG GAGGGAAGAA GCAGATCCAG AAGCTGGAGG CCAGGGTGCG GGAGCTGGAA 
GGGGAGGTTG ATGCTGAGCA GAAGCGCAGC GCTGAAGCCG TGAAGGGTGT GCGCAAGTAC 
GAGCGGAGGG TGAAGGAACT GACCTACCAG TCTGAGGAAG ACAGGAAAAA TGTTCTCAGG 
CTGCAGGATC TAGTGGACAA ACTGCAAACT AAGGTGAAAG CTTACAAGAG ACAAGCTGAG 
GAGGCTGAGG AGCTGTCCAA CGTCAACCTG TCCAAGTTCC GCAAGATCCA GCACGAGCTG 
GAGGAAGCCG AGGAGCGGGC TGACATTGCA GAGTCACAGG TCAACAAGCT CCGAGCCAAG 
AGCCGGGAAA TCAGCAAGAA GGCAGAAAGT GAAGAGTAA