CCDC141 cDNA ORF clone, Egretta garzetta(little egret)

Gene
Clones
gRNAs

Summary

Gene Symbol	CCDC141
Entrez Gene ID	104132713
Full Name	coiled-coil domain containing 141
Gene Type	protein-coding
Organism	Egretta garzetta(little egret)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009646042.1	XP_009644337.1	coiled-coil domain-containing protein 141

Pathways from BioSystems
Gene Ontology

The following CCDC141 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC141 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
OEg13341	XM_009646042.1 Latest version!	Egretta garzetta coiled-coil domain containing 141 (CCDC141), 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)

CCDC141 ( XM_009646042.1 ) cDNA ORF clone, Egretta garzetta(little egret) -> XP_009644337.1 Egretta garzetta coiled-coil domain containing 141 (CCDC141), mRNA.

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CloneID	OEg13341
Clone ID Related Accession (Same CDS sequence)	XM_009646042.1
Accession Version	XM_009646042.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4506bp) 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	2014-10-15
Organism	Egretta garzetta(little egret)
Product	coiled-coil domain-containing protein 141
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009260760.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Egretta garzetta Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 5% of CDS bases ##RefSeq-Attributes-END##

ATGTCACATG AAGCCAGTTC AGAGCAGAAG CTTTCTACAA CAACAGTCAG TTCAGTTGCT 
GTTCAGGCTG GAGATGCCAG TATCATTATA GCTGTACTTA AGTGTGGAAA ATGGGTGAAG 
CTTCAGCTGG CTGAATCAAC ACCAAATTTA TTAGAAATTG GCAGCAATCA AGATGAGACT 
AAAAAACTAC TGCAGGATCA TGAACTCCTC CTAGCTAAAC TTAAGGCTTT GGAAGACCGG 
GTATGGGACC TGCTGCATGA AGCAGACAAG GCTGCAGAGG AGAATAAAGA AAAGAGTCAG 
GTTTATGATG CCATGGCAGA GACCCTTGGG GATGCGTGGG ATGCCCTCAT CATTATGTTA 
GAGAAGCGAC AGGCGCTTCT GGAACTTACT TCAGTGTTCT TTGAAAATGC TCTGGAGTTT 
GCTGTTAAAA TCGACCAAGC TGAAGATTTC CTGAAAAATG CCCAAGAGTT TGACAATATT 
GACTCTTTGA GAGAACTCCT TCTGCAGCAA GAACATCATA CAAAAGAGCT TTTGGAAAAG 
TCACTTGCAC TTTTAAACAA AAGCCAAGAG CTAACTGAAT TCATAGAAGA ATTCAAATGT 
GAGGGGCCAA ATGCAAATCC GGAGCTGATT CAGGGAGCCC ACAGCAGCTG CTTGAAAATT 
GACAATCTCC TCGAAATGCT ACAAGACAGG AGACGGCAAC TGGACAGATT TCTTAAACAT 
CAGCGCCAAG GACTGGAGCA GGTTCTGCAA ATCTGTTCGT GGCACCAACA AGAGAACCAG 
GTAACATTGT GGTACAAGAA AAACATCAGA GATTATTTTC ACAAGCAAAG CTTAGGCTCT 
TCTCTATTGG AAAATGAAGA GTTACTTCTA GAGCTTGAAG AAATGGAAGT CAAAGTGAAA 
GAATGGAATT CCACTGTGGA ACAACTGGAA GCTGAAGCAC TTAAGATCTT GCTTTCAGAG 
GACTATACAG AAAAAGAACA GCTAAAGCTT TCAAATCAGA AAATCTGTCT GTTGCGAGAA 
GAAGTGTGCT TCCATATGGA AGAAAGGAAA GCCCTGCTAC AAGAGGCCAA TGACTTTTTT 
CATACTGCTG GCAAGGTACT CGATGGTCTT GAAGGTATTG AGAATTACCT TAAAATCTTT 
AATTCAGAAG GCTTACATTT GCCTATCTTG ACAATGAAGT ATGAGGAATT ACAGGAAGCA 
ATTAAAGGTT GCACAGCAAG TACCTTGCAA AAGGGACAAA CTTTAGTTAA TAAAGCAGAT 
TCTCACAGCT CTTGGGTGAC AGGGATTCAG AAAATGATGG AATATGTTAA AAAAAAAGTA 
GATCAAGTTA TCAGGCACTC TCCAGATTAT AAAGAGCTTA CTTTGAAGAA ACAACAATGG 
ACTGCCTCAC TTGAAGATCA TCTAAATAAG GTATCACAGT TGGTTAAAAA AATCACCCCG 
ATGCTTGCAG TTGGTATGGA GATTGGTCTG TATTTGTCTG AGTCAGAAAA AGTTTTGAAC 
AAACACCTTG AACTGGCTAA AGAAATGAAG GAAACTTCAC GTGAACTGGA GGCAGCTGAG 
AGAATCATCA AAGACATGGA AGAGTTTGAA CCTGAGCAGA TGGCAGCTTT TTCTAACAGA 
ACTGACTTTC TGAATGAAGA ACTGAAAAAA ATTGAAAAAA ATATCAGCTC AAAACTAGAA 
ATTCTAGAAA CTTATGTGGC CTTTTTAAAG TCAGCTATGG AGGTGGACGA TGATATTCAA 
AATCTGAAGG AATTCTATAA ATCAGAACCA CTACAAACGA ACAAGGAGGC TGAAAATAAA 
ATTACAATGG AGTCAGCTAA TACTCAGTGG CAAAAGACTA TAAAGAAGAT TTTTTCCATA 
CAAAATATGG GTTGCCATTT TCTTAATTTA GTAAATATGG TAAATGAGAG TTTAATATTA 
AAAGTAGAAA AATCTGTACG AGCGACAGAA GATATCATTG TTAATCTGAA TAAAGAAAAA 
AAAGAGCTGA CCGATCTTTG GGCCATCTGG AATTTTAAAA TTACTCAAGT AAAACCTGTC 
AAGCAACAGT GCCGGATATT TAAAGAACAA CTAAAAATTA CTACCCATGG ATTAGAGATT 
CTTCAAGAGG CACTACAGCT TGCAGCACAA GTTGACCTTG GAAGTGATCT CTTTATTGTT 
TTGGAACTAC AAAAAAAGCT TAACCAAATG AAACCACAAT GTCAGCAACT GAATGCTGAG 
CTTGAGTACC TGAAAAAATT ATTAGAATTG CCAAGCCAAA AAGGATTTCC TGTGAAAGAG 
GGTTCTGAGA GAATAAGTGA ACTTATTCAT CTCCATCAAA TGGTAAAGGA CACAGTGACA 
GAATATGATG AGATTTTCAA CAAGACAATC AATTTCCATC ACATTAAAAA AGAACTGGAA 
TGTCTATCAA AATCAGGAGA ACTGGATATT CCTGAAATAT GTGAGGACCC TGAAAATGTG 
CACCATGCTA AAGCCTACCT TGTGAATGCT CATCAGAAAC ATGCATATAT CAGACAGCTA 
TATAAACTGC TTATTACCCA GGGAGTGGAT ATCTTGTCTG CAGTGCAGCA ACCTAATTCC 
TTGAATGTTT CTGTAAAGAA TCTGAGGCAA GAACTTGCTG GATTTGAGTG TGATAGCATT 
AACTGGAGCT CCAAAGCTAA TAAATATGAG GAAGAACTGT CACAGCGTTT TCAACACTGC 
ACCACTCAAG AGGAGATAAA TGAGCTCAGA GAATCATTTA AGGATCTCAA AAAGAAATTC 
AACAATTTGA AGTTTAACTA TACGAAGAAA ACTGAAAAAG CTCGAAATCT GAAAGTACTT 
AAAGTACAGA TTCAGCAAGT TGATACGTAT GCAGAAAAAA TACAGATTCT TAAAAAGAAG 
ATGGATAATT TAGAGAAGAA GGTCATTGGC TCTGCAGCAA ATGAAGCTAA TGCTAAAGTT 
AGAGTACTCT TGGGGTCAAC CAGTGACTTA CAAAAACAGC TGAATGACTT TAGCAGAGTT 
GTGGAGGATT ACAAGCAAAA TCTGGATCTC GTGGAGCATC TGCAACAGAT GATGGAAGAG 
TGTCAATTGT GGTTTGAAGA TGTGAGTGCA ACCGTCATTA GAGTTGGAAA GTATTCTGCA 
GAATGCAAAA CAAGAGAAGC AATAGACAGT CTTTACAAGC AATTCAATAA GTTTATTGAG 
CCTACAGTGC CTCAACAAGA AGAAAAAATT CAGCAGATTA TAGACCTTGC TAAATGGTTA 
TATGGTATTG AAGAAGGAAA GAAGTATGTT GAAAAAGCCA TTCTAAAGTA CAAAGAAATC 
CTTAATTCTG TTGATGAGTT GCGTAGATCT CTGAGAGAAC TTAAGGAGAT TAAGGAGAGG 
AATATATTGG CTGATATTCC AATTATCCAT CCAGCTGGTG AGGATCTTGT TTCACAGGAT 
ACAGAGCTAT CATCTTCAGC CAAAGAGGAT CGTTTACAGA CTGAATTCCT GGCAGAAGAA 
ATACCCTCCG GAGATGAATA TGAGTGTATA TCACCTGATG ATATCTCTTT GCCACCGCTT 
TCTGAGACAC CAGAATCCAA CCTCTTACAT TCTGAAACAG AGTTAGAAGA GCAGTGCTGT 
TGTAGTTCTC ATAGTCTGCA TGTCAGTTCC TATAGCTTGC AACTGCAGAA AACCTCTAGT 
ATAAAAAAAG TGATGGAAGC ATCTGATGTC TTAACAAATT CTGCTTATGC TGATGCTACA 
AATAATAGAA TGGAAAGCCC ATCAGATCAG TTTGAGAAGT TTTGTATCTC TTCAAGAGAT 
TCTGGTCCAA AAGTCAGAGC AGTATCTCCT TTGACTTGTC CCTTACAAGG AATATCTGAA 
GCTAGCACTG CTTCCTGCAC TGTACATGCC AAACCAGTAC ATAGCATGAT GAGTGAAGTG 
TGCAAAACAC ATTTGCAACA CCTTGAACTT TGTAAAAGTG TGGCAGAAAC ACAAGAACAA 
TTGCATGACT TGAATAACTG TACTAAAACC CAGGACAGGC TGCATGCTTT GCCTGATGCA 
TTCTCAGGTT TCGTGTTTCA ATCAGACGCC AACAGAAGCT GTCAGAGGCA GATGGTCACC 
CGAGAAGAGA TTAAAAGTTC ATCAGAAAAG AACAGCATGG CCAGCCTAAC TGGACAGGCG 
CCTAACTTCT CCCAGCTTCT GTCTAACAAA ACCGTCATGG AAGGTTCTTC AGTAACTTTG 
GAAGTAGAAA TAACGGGATT CCCAGAACCT ACACTGACAT GGTACAAGAA GGGCCAGAAA 
CTGACTACAG ATGAGCGCTT AAAGCTTTTA CAAAAGGAGA CAAAGCATAT TTTGCTCATT 
CAGAAGGTGT GCGATAAAGA TGCTGGCCTC TATGTTGTTC GGGCTAAAAA TTTGAATGGC 
ACTATCTCAT CAAGTGCTGT TCTCCACGTG AAAGGTAACA GGCTGCCTAT TACAAGACTA 
GACTGGATAA TGCTGTGTGT CATCTATATT AGCATATCAC TAATGTACTG GCTATTCACA 
AGATAA

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

RefSeq	XP_009644337.1
CDS	1..4506
Translation	MSHEASSEQKLSTTTVSSVAVQAGDASIIIAVLKCGKWVKLQLAESTPNLLEIGSNQDETKKLLQDHELLLAKLKALEDRVWDLLHEADKAAEENKEKSQVYDAMAETLGDAWDALIIMLEKRQALLELTSVFFENALEFAVKIDQAEDFLKNAQEFDNIDSLRELLLQQEHHTKELLEKSLALLNKSQELTEFIEEFKCEGPNANPELIQGAHSSCLKIDNLLEMLQDRRRQLDRFLKHQRQGLEQVLQICSWHQQENQVTLWYKKNIRDYFHKQSLGSSLLENEELLLELEEMEVKVKEWNSTVEQLEAEALKILLSEDYTEKEQLKLSNQKICLLREEVCFHMEERKALLQEANDFFHTAGKVLDGLEGIENYLKIFNSEGLHLPILTMKYEELQEAIKGCTASTLQKGQTLVNKADSHSSWVTGIQKMMEYVKKKVDQVIRHSPDYKELTLKKQQWTASLEDHLNKVSQLVKKITPMLAVGMEIGLYLSESEKVLNKHLELAKEMKETSRELEAAERIIKDMEEFEPEQMAAFSNRTDFLNEELKKIEKNISSKLEILETYVAFLKSAMEVDDDIQNLKEFYKSEPLQTNKEAENKITMESANTQWQKTIKKIFSIQNMGCHFLNLVNMVNESLILKVEKSVRATEDIIVNLNKEKKELTDLWAIWNFKITQVKPVKQQCRIFKEQLKITTHGLEILQEALQLAAQVDLGSDLFIVLELQKKLNQMKPQCQQLNAELEYLKKLLELPSQKGFPVKEGSERISELIHLHQMVKDTVTEYDEIFNKTINFHHIKKELECLSKSGELDIPEICEDPENVHHAKAYLVNAHQKHAYIRQLYKLLITQGVDILSAVQQPNSLNVSVKNLRQELAGFECDSINWSSKANKYEEELSQRFQHCTTQEEINELRESFKDLKKKFNNLKFNYTKKTEKARNLKVLKVQIQQVDTYAEKIQILKKKMDNLEKKVIGSAANEANAKVRVLLGSTSDLQKQLNDFSRVVEDYKQNLDLVEHLQQMMEECQLWFEDVSATVIRVGKYSAECKTREAIDSLYKQFNKFIEPTVPQQEEKIQQIIDLAKWLYGIEEGKKYVEKAILKYKEILNSVDELRRSLRELKEIKERNILADIPIIHPAGEDLVSQDTELSSSAKEDRLQTEFLAEEIPSGDEYECISPDDISLPPLSETPESNLLHSETELEEQCCCSSHSLHVSSYSLQLQKTSSIKKVMEASDVLTNSAYADATNNRMESPSDQFEKFCISSRDSGPKVRAVSPLTCPLQGISEASTASCTVHAKPVHSMMSEVCKTHLQHLELCKSVAETQEQLHDLNNCTKTQDRLHALPDAFSGFVFQSDANRSCQRQMVTREEIKSSSEKNSMASLTGQAPNFSQLLSNKTVMEGSSVTLEVEITGFPEPTLTWYKKGQKLTTDERLKLLQKETKHILLIQKVCDKDAGLYVVRAKNLNGTISSSAVLHVKGNRLPITRLDWIMLCVIYISISLMYWLFTR

Target ORF information:

RefSeq Version	XM_009646042.1
Organism	Egretta garzetta(little egret)
Definition	Egretta garzetta coiled-coil domain containing 141 (CCDC141), mRNA.

Target ORF information:

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

XM_009646042.1

ORF Insert Sequence:

ATGTCACATG AAGCCAGTTC AGAGCAGAAG CTTTCTACAA CAACAGTCAG TTCAGTTGCT 
GTTCAGGCTG GAGATGCCAG TATCATTATA GCTGTACTTA AGTGTGGAAA ATGGGTGAAG 
CTTCAGCTGG CTGAATCAAC ACCAAATTTA TTAGAAATTG GCAGCAATCA AGATGAGACT 
AAAAAACTAC TGCAGGATCA TGAACTCCTC CTAGCTAAAC TTAAGGCTTT GGAAGACCGG 
GTATGGGACC TGCTGCATGA AGCAGACAAG GCTGCAGAGG AGAATAAAGA AAAGAGTCAG 
GTTTATGATG CCATGGCAGA GACCCTTGGG GATGCGTGGG ATGCCCTCAT CATTATGTTA 
GAGAAGCGAC AGGCGCTTCT GGAACTTACT TCAGTGTTCT TTGAAAATGC TCTGGAGTTT 
GCTGTTAAAA TCGACCAAGC TGAAGATTTC CTGAAAAATG CCCAAGAGTT TGACAATATT 
GACTCTTTGA GAGAACTCCT TCTGCAGCAA GAACATCATA CAAAAGAGCT TTTGGAAAAG 
TCACTTGCAC TTTTAAACAA AAGCCAAGAG CTAACTGAAT TCATAGAAGA ATTCAAATGT 
GAGGGGCCAA ATGCAAATCC GGAGCTGATT CAGGGAGCCC ACAGCAGCTG CTTGAAAATT 
GACAATCTCC TCGAAATGCT ACAAGACAGG AGACGGCAAC TGGACAGATT TCTTAAACAT 
CAGCGCCAAG GACTGGAGCA GGTTCTGCAA ATCTGTTCGT GGCACCAACA AGAGAACCAG 
GTAACATTGT GGTACAAGAA AAACATCAGA GATTATTTTC ACAAGCAAAG CTTAGGCTCT 
TCTCTATTGG AAAATGAAGA GTTACTTCTA GAGCTTGAAG AAATGGAAGT CAAAGTGAAA 
GAATGGAATT CCACTGTGGA ACAACTGGAA GCTGAAGCAC TTAAGATCTT GCTTTCAGAG 
GACTATACAG AAAAAGAACA GCTAAAGCTT TCAAATCAGA AAATCTGTCT GTTGCGAGAA 
GAAGTGTGCT TCCATATGGA AGAAAGGAAA GCCCTGCTAC AAGAGGCCAA TGACTTTTTT 
CATACTGCTG GCAAGGTACT CGATGGTCTT GAAGGTATTG AGAATTACCT TAAAATCTTT 
AATTCAGAAG GCTTACATTT GCCTATCTTG ACAATGAAGT ATGAGGAATT ACAGGAAGCA 
ATTAAAGGTT GCACAGCAAG TACCTTGCAA AAGGGACAAA CTTTAGTTAA TAAAGCAGAT 
TCTCACAGCT CTTGGGTGAC AGGGATTCAG AAAATGATGG AATATGTTAA AAAAAAAGTA 
GATCAAGTTA TCAGGCACTC TCCAGATTAT AAAGAGCTTA CTTTGAAGAA ACAACAATGG 
ACTGCCTCAC TTGAAGATCA TCTAAATAAG GTATCACAGT TGGTTAAAAA AATCACCCCG 
ATGCTTGCAG TTGGTATGGA GATTGGTCTG TATTTGTCTG AGTCAGAAAA AGTTTTGAAC 
AAACACCTTG AACTGGCTAA AGAAATGAAG GAAACTTCAC GTGAACTGGA GGCAGCTGAG 
AGAATCATCA AAGACATGGA AGAGTTTGAA CCTGAGCAGA TGGCAGCTTT TTCTAACAGA 
ACTGACTTTC TGAATGAAGA ACTGAAAAAA ATTGAAAAAA ATATCAGCTC AAAACTAGAA 
ATTCTAGAAA CTTATGTGGC CTTTTTAAAG TCAGCTATGG AGGTGGACGA TGATATTCAA 
AATCTGAAGG AATTCTATAA ATCAGAACCA CTACAAACGA ACAAGGAGGC TGAAAATAAA 
ATTACAATGG AGTCAGCTAA TACTCAGTGG CAAAAGACTA TAAAGAAGAT TTTTTCCATA 
CAAAATATGG GTTGCCATTT TCTTAATTTA GTAAATATGG TAAATGAGAG TTTAATATTA 
AAAGTAGAAA AATCTGTACG AGCGACAGAA GATATCATTG TTAATCTGAA TAAAGAAAAA 
AAAGAGCTGA CCGATCTTTG GGCCATCTGG AATTTTAAAA TTACTCAAGT AAAACCTGTC 
AAGCAACAGT GCCGGATATT TAAAGAACAA CTAAAAATTA CTACCCATGG ATTAGAGATT 
CTTCAAGAGG CACTACAGCT TGCAGCACAA GTTGACCTTG GAAGTGATCT CTTTATTGTT 
TTGGAACTAC AAAAAAAGCT TAACCAAATG AAACCACAAT GTCAGCAACT GAATGCTGAG 
CTTGAGTACC TGAAAAAATT ATTAGAATTG CCAAGCCAAA AAGGATTTCC TGTGAAAGAG 
GGTTCTGAGA GAATAAGTGA ACTTATTCAT CTCCATCAAA TGGTAAAGGA CACAGTGACA 
GAATATGATG AGATTTTCAA CAAGACAATC AATTTCCATC ACATTAAAAA AGAACTGGAA 
TGTCTATCAA AATCAGGAGA ACTGGATATT CCTGAAATAT GTGAGGACCC TGAAAATGTG 
CACCATGCTA AAGCCTACCT TGTGAATGCT CATCAGAAAC ATGCATATAT CAGACAGCTA 
TATAAACTGC TTATTACCCA GGGAGTGGAT ATCTTGTCTG CAGTGCAGCA ACCTAATTCC 
TTGAATGTTT CTGTAAAGAA TCTGAGGCAA GAACTTGCTG GATTTGAGTG TGATAGCATT 
AACTGGAGCT CCAAAGCTAA TAAATATGAG GAAGAACTGT CACAGCGTTT TCAACACTGC 
ACCACTCAAG AGGAGATAAA TGAGCTCAGA GAATCATTTA AGGATCTCAA AAAGAAATTC 
AACAATTTGA AGTTTAACTA TACGAAGAAA ACTGAAAAAG CTCGAAATCT GAAAGTACTT 
AAAGTACAGA TTCAGCAAGT TGATACGTAT GCAGAAAAAA TACAGATTCT TAAAAAGAAG 
ATGGATAATT TAGAGAAGAA GGTCATTGGC TCTGCAGCAA ATGAAGCTAA TGCTAAAGTT 
AGAGTACTCT TGGGGTCAAC CAGTGACTTA CAAAAACAGC TGAATGACTT TAGCAGAGTT 
GTGGAGGATT ACAAGCAAAA TCTGGATCTC GTGGAGCATC TGCAACAGAT GATGGAAGAG 
TGTCAATTGT GGTTTGAAGA TGTGAGTGCA ACCGTCATTA GAGTTGGAAA GTATTCTGCA 
GAATGCAAAA CAAGAGAAGC AATAGACAGT CTTTACAAGC AATTCAATAA GTTTATTGAG 
CCTACAGTGC CTCAACAAGA AGAAAAAATT CAGCAGATTA TAGACCTTGC TAAATGGTTA 
TATGGTATTG AAGAAGGAAA GAAGTATGTT GAAAAAGCCA TTCTAAAGTA CAAAGAAATC 
CTTAATTCTG TTGATGAGTT GCGTAGATCT CTGAGAGAAC TTAAGGAGAT TAAGGAGAGG 
AATATATTGG CTGATATTCC AATTATCCAT CCAGCTGGTG AGGATCTTGT TTCACAGGAT 
ACAGAGCTAT CATCTTCAGC CAAAGAGGAT CGTTTACAGA CTGAATTCCT GGCAGAAGAA 
ATACCCTCCG GAGATGAATA TGAGTGTATA TCACCTGATG ATATCTCTTT GCCACCGCTT 
TCTGAGACAC CAGAATCCAA CCTCTTACAT TCTGAAACAG AGTTAGAAGA GCAGTGCTGT 
TGTAGTTCTC ATAGTCTGCA TGTCAGTTCC TATAGCTTGC AACTGCAGAA AACCTCTAGT 
ATAAAAAAAG TGATGGAAGC ATCTGATGTC TTAACAAATT CTGCTTATGC TGATGCTACA 
AATAATAGAA TGGAAAGCCC ATCAGATCAG TTTGAGAAGT TTTGTATCTC TTCAAGAGAT 
TCTGGTCCAA AAGTCAGAGC AGTATCTCCT TTGACTTGTC CCTTACAAGG AATATCTGAA 
GCTAGCACTG CTTCCTGCAC TGTACATGCC AAACCAGTAC ATAGCATGAT GAGTGAAGTG 
TGCAAAACAC ATTTGCAACA CCTTGAACTT TGTAAAAGTG TGGCAGAAAC ACAAGAACAA 
TTGCATGACT TGAATAACTG TACTAAAACC CAGGACAGGC TGCATGCTTT GCCTGATGCA 
TTCTCAGGTT TCGTGTTTCA ATCAGACGCC AACAGAAGCT GTCAGAGGCA GATGGTCACC 
CGAGAAGAGA TTAAAAGTTC ATCAGAAAAG AACAGCATGG CCAGCCTAAC TGGACAGGCG 
CCTAACTTCT CCCAGCTTCT GTCTAACAAA ACCGTCATGG AAGGTTCTTC AGTAACTTTG 
GAAGTAGAAA TAACGGGATT CCCAGAACCT ACACTGACAT GGTACAAGAA GGGCCAGAAA 
CTGACTACAG ATGAGCGCTT AAAGCTTTTA CAAAAGGAGA CAAAGCATAT TTTGCTCATT 
CAGAAGGTGT GCGATAAAGA TGCTGGCCTC TATGTTGTTC GGGCTAAAAA TTTGAATGGC 
ACTATCTCAT CAAGTGCTGT TCTCCACGTG AAAGGTAACA GGCTGCCTAT TACAAGACTA 
GACTGGATAA TGCTGTGTGT CATCTATATT AGCATATCAC TAATGTACTG GCTATTCACA 
AGATAA