LTN1 cDNA ORF clone, Pelecanus crispus(Dalmatian pelican)

Gene
Clones
gRNAs

Summary

Gene Symbol	LTN1
Entrez Gene ID	104038101
Full Name	listerin E3 ubiquitin protein ligase 1
Gene Type	protein-coding
Organism	Pelecanus crispus(Dalmatian pelican)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009492371.1	XP_009490646.1	E3 ubiquitin-protein ligase listerin

Pathways from BioSystems
Gene Ontology

The following LTN1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LTN1 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
OPe117505	XM_009492371.1 Latest version!	Pelecanus crispus listerin E3 ubiquitin protein ligase 1 (LTN1), 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)

LTN1 ( XM_009492371.1 ) cDNA ORF clone, Pelecanus crispus(Dalmatian pelican) -> XP_009490646.1 Pelecanus crispus listerin E3 ubiquitin protein ligase 1 (LTN1), mRNA.

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CloneID	OPe117505
Clone ID Related Accession (Same CDS sequence)	XM_009492371.1
Accession Version	XM_009492371.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5115bp) 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	2014-10-05
Organism	Pelecanus crispus(Dalmatian pelican)
Product	E3 ubiquitin-protein ligase listerin
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009063928.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pelecanus crispus 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##

ATGGTGTTGC GAAAACTTTC TAAAAGGGAT ATCACAACAA AATTAAAAGC TATGCAAGAG 
TTTGGGACAA TGTGCAAGGA AAGAGAAGCG GAAGTTGTTA AAGGTGTTCT TCCTTACTGG 
CCAAGAATTT ATTGTAAAAT CTCACTGGAT CATGATCGCC GTGTGCGAGA AGCAACTCAG 
CAATCTTTTG AGCAACTGAT TCTTAAAGTA AAGAAACACT TAGCTCCTTA CTTAAAAAGT 
ATCATGGGAT ACTGGCTGAT TGCTCAATGT GACACTTACT CCCCTGCTGC TTCTGCTGCA 
AAAGTAGCTT TTGAAAAAGC TTTTCCTTCA AGCAAACAAC CTGAAGCCTT AGCATTCTGT 
AAAGATGAAA TTCTTCATGT CCTTCAAGAT CACCTTCTGA AAGAAACACC AGATACACTC 
AGTGACCCCC AAACTGTACC AGAGGAAGAA AGGGAAGCAA AATTTTTCCG GATTCTGACC 
TGTTCCTTGT TAGCTTTAAA AAAGTTGCTT AGCATGTTGC CAAAGAAAGA GATGCATTCA 
TTGGAGGAAA AGTTAATGTC ACTTCTGTCC CAAAACAAAT TTTGGAAATA CGGCAAACAC 
AGCATACCAC AGGTTCGCTC AGCTTTCTTT GAGCTGGCTT CTGCTTTTTG CCAGTACTTG 
CCTGAGCTGG TGAAAACTGA AGCACCAAGA GTTTGTCCTG CTGTTCTTCT CAGCATTGAT 
GACAGTGATG CTGTGGTGTG TCCTGCTCTT TGGGAAGCTG TACTTTATGC TATCACCACT 
ATTGAGGACT GTTGGAGTCA TGTAAATGCC AAAAAGGGAG TTCTACCAAA GCTATGGACA 
GTGCTTCGAG AAGGTGGACG AGGACTAGCT ACCGTTATAT ACCCAAATCT CTTGCCGTTC 
ATTAGCAAGG TACCTCCTGG CATTGCAGAA CCAAAGCTGG AATATTTCAG AACTTTTTTC 
AGCTCTATAA TTCAAGGGTT GTCAAGTGAG CGAGCAATAG CTAGCCCTTC AGAGAGTTCA 
GCAATTATAA CTGCATTTAT GGAATGTCTG CGCTTTGCCA TACTACAGAA AATAGATGAA 
GGAGATGACC AAAGACAAAT TCATCAAATG CTTATATATG AGCAGCTAAT TCCTCTTACC 
GATGCTGTAC TTAAGGAGCC CAGGTTACAA AATGGACCGT TATTTTATCA AATAGCAGAA 
ACACTGAGCT CCTGGGAAGC TAAAGTAGAA CTCTCCAATG ATGATGGCAC AGATGGAGTT 
TTCCAGAAAC TGCTGTCAAA TTTTTGGGAC CATCTTTTAA AAATGTGTGT ACTTCATGTT 
GATACGTTGG ATGCTGATGA GAAATCATTG TTTGCCATAT CTGGTATGCT AGAAATTCTT 
CAGAATCCAA GGACTGCTAC AAAACCAAAC AACAGAAAAT CTCTAAAAAT CAGATTTACA 
GATGGGGATG AATCTGAAAG AAACACAGGG AATGGAAAGC TCGCAGAAGT GAGAAGTAGT 
GACTCTGAAA TACAGGCTGA CTTGCAACAT AATTCACTTC TAAGGAAAGA ACCTTTAGAG 
AATTTAGTCT GCAACCTTGC TGAACTGAGT ATTGTGTATG TCAACGAACA GAAGTCAGAA 
CAGCATTTGA AATTTCTCTC TGCCCTGCTC AACTCTTTTT CTTCAAACAG AGTTTTTCAA 
GTACTTTTAG AGCAAGGAAA TGATGCAAGT TCTCCTCAGG CTGAATCCCA AAACAAAATT 
AAAGCTTATC ATGAAAGTCC ATCTGTACAA TTTCTGTATA TGAATTTAAT AACTTGGCTG 
AAAGAAGACT GGAGGAAAGA CACCCATTTT CTCGTTGACA TTTTGTACAG TGTGCTTAAT 
TGTTGCAACA GTAATGATGA AAGGAAAATT GTTCTTGATG ATTTAACAAA GATGGATCTG 
AAATGGATTA TTTTTCTCCA GATAATTCAA AAGGCTTGTT CAAGTACAAC AAAACTTTCC 
TTAGTCTCTG ACTGGCTGAA AGGAGATACA CTTGGAGAAA GACTTGTAAT GCTGGCAGAT 
GATCTGTGTC ACCTGGGTTT AAAACCTGTA GTAGCCTCAT CAGAATCATC CTCTTCAGAA 
AGGTGGACCC TCCTGAGCTT AGTGTTGTCG CAACACATTA AAAATGAATC TTTGATTGGT 
GAAACTTTTG TTGAAAGGAT TATTGATAAA CTTCAAGCCG CTCTGTCTAA AGCTAAGGAT 
CTTTCTGAAG CTGGAAATAC TGAACCATCA GTATCTTTCA TCTGTGATGT AGCCTCAAGC 
TTTTTCAGCT CAGTTAAAGG GTGTCTGCTG ATGCCATCCT CAGAAGACTT GCTGCTTACC 
ATCTTCCAAT TGTGTGCTCA GAGGCAGGAT GCTATGCACT TAACAGATTT ACTTGTATGT 
AAATTAAAAC ACACTTGGAT GTCTGGTGTA GATTCACTTG TGCGTCAACT TCGGAGTGTG 
CAGAAACAGA GTACCTTTTT GCGTAAATCT GCACTGTGGG TCAAGAATCA AATTCAGTCT 
TCCTCTTTGG ATGTTAAAAG CCTTCAGGTT TTGATCTCTG CAGTTAGTGA TTTGTTGTCT 
AAGCTTATGC AAGCTGACGG ACAGTCTGGA TATCTTGTGG GAGCTTATGT TGAGCATGTC 
ACACCAGACA AAACTGAGTG GGGGAAATTG CACGAGTCTC TATCCACTGA GTGGATGCAC 
AAACCTCTTT TGGAAGGAAG GCTTAGTATA AATTGTGAAC CTTTGGGATC ATGCATCAGG 
CTGTGTGGTG CAACTAAACT TCCAGGCCAT CTGTGTACTT CAGCCTTATT AAGTAAAATG 
GCACTACTTG TGTTGGAAAA TGGTATAGTC CATGGAAATG ATGATGCTGA AAGAAAGAAA 
ATTGACAATA TAATTGCAGA GCTGTTGTAC TCATTACAGT GGATTGAAGA ATTGGAGAAT 
CCTCCTTATC TGCTTCTGGA ATATATTCAT ATGTTAGAAG AAATGCACAT CACATATGAG 
AAGTTCAGTA CACTTAGTAA TACAATTAGC CTTCAGCAAA CAATATTTGA TAGATCAGAG 
GAACATGGAA GACTGTGGTC CTTAACCATG GCTAAAGTGA TTCGTGCGGA AAACACTGTA 
TCCTGTGAGA TGAAACAACT TTTTAAGACA ACAGAAGGGT TTCTGCCATT AACAGAGGGC 
AGATTGCATA CACTTCAGTG TCTGTCACCT TTTTTAATTG AGGAAGAAAA GAAAGAACTC 
ATCTTCCACT GTGTGGCCAA ACTTATGACA TGCACACAGA CAGAGCTTTC CAGCACTGAT 
GGAGCATTTG GTTGTCTTTC CATTTTGAAC TCCTGCTTGA ATGATAGAAG TATTGATTGT 
GATCACCTAC TACCTGGAAT ACTAAAAGTC ATAATATCTT GGAAAAATGA TAATGAGGAC 
AGCTTTCTCT TTAGCTGCAA TCTGAAAGAA ACAAGTGCTC AGTTGCTTGG TTTCAACATA 
GAGATGATTC GTTACCTTCC CTTGTTGCTG AAGTATTCCA CAGCTCCTTT GGCTGATAAT 
GAATGGGACT TTATCATGTG CTCCATGCTG GCTTGGTTAG AGACAACAAG TGAAAGCCGT 
TCACTTTATC ATGTCCCGCT TGTGCAGATT TTTGCTTGTG TCAGTTGTGA CTTGGCATCT 
GCCCTTAGTG CTTACTTTGA AGCTGCAGCT CCTGAAACTA CTGAAAACCT TCCTGTGAAC 
TTGATCAGTG AATGGAAGGA ATTCTTTTCT GAAGGAATTC ACAATTTGCT GTTACCTTTG 
TTGGTGAAAG TCACAGGAGA AAACAAAAAT GCATCTGAAG GCTCCTTTCA GAACTCTGTG 
TTAACATCTT TGGGTGAAGC TCTAACGTAC ATCTCAACGG ACCAGTTGCT AAACCATAAA 
TTGCCAGCAA AGTTTGTTGC AGGCCAGAAA ACAAATCTTC CAGATAAACT CCAGACTCTA 
CTAAATACGT TATCACCATT GTTGCTTTTC CGGGCTAGAC CTGTACAGAT TTCTGTCTAC 
CATATGTTGT ATAAATTAAT GCCTGAATTG CCTAAATTTG ATGACGAAGA TCTCAAATCT 
TATGGTGATG AAGAGGAGGA ATCAGCATTA TCACCTCCAG CAGCTCTTAT GTCTGTCCTG 
GCCACTCAAG AACTCTTGCT AGAAAATATC CTGGAATGCA TTCCAGTTGG AGAATTTGCA 
GTTATTCAGC CTCTGAGTGA TGAGTTCTGC CTTGTTCTAG GATATCTTCT CACTTGGAAG 
TTAACATTAG CTTTCTTCAA AGCAGCTTCT TCTCAGCTGC GAGTTCTCTA CTCACAATAC 
CTTAGAAGAA CTAAAAGCTT GAATAAACTG CTTTATCACT TGTTCAGGCT TATGCCTGAA 
AACCCTGTCT TTTCTGGGCC AACTTCAGAA GTTCCAAATA AGGACACAAA AACTTTCTTT 
ACTGAAGAGC TTCATTTAGA TGTCAAAGGG ACAGGAATCC TGTCATCCCA GATTCCGCAC 
TTGGCCTGCT CTGTGTACCA TATAACACTG AAAGACTTGC CAGCCATGGT CAGGCTTTGG 
TGGAATAGCT GTGAGAAACG TGTCTTCAAT GTTGTAGATA AATTTACGAG CAAATATGTC 
AGCAGCGTGC TTTCTTCACA AGAAATATCT TCTGTTCAGA CTAGCACACA GTTATTTAAT 
GGCATGACGG TAAAAGCTCG GTCTGCGGCA CGGGAAGTCA TTGCTACCTA TTCAGTTGAT 
GATATATTTA TTGAACTAAT AATACAGCTT CCATCAAATT ACCCACTGGG ATCCATAACA 
GTTGAGAGTG GTAAGAGGGT TGGTGTGGCC GTACAGCAAT GGCGCAACTG GATGCTACAG 
TTAAGCACAT ACCTTACACA TCAGAATGGA AGTATTATGG AAGGCTTATC TTTGTGGAAA 
AATAATGTGG ATAAACGTTT TGAGGGCGTT GAAGATTGCA TGATCTGTTT TTCAGTCATT 
CATGGTTCCA ACTATTCTCT TCCCAAAAAA GCTTGCAGAA CATGCAAGAA AAAGTTTCAT 
TCAGCTTGCT TGTACAAATG GTTCACATCC AGCAACAAAT CCACCTGTCC GCTCTGTCGA 
GAGACATTTT TCTGA

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

RefSeq	XP_009490646.1
CDS	151..5265
Translation	MVLRKLSKRDITTKLKAMQEFGTMCKEREAEVVKGVLPYWPRIYCKISLDHDRRVREATQQSFEQLILKVKKHLAPYLKSIMGYWLIAQCDTYSPAASAAKVAFEKAFPSSKQPEALAFCKDEILHVLQDHLLKETPDTLSDPQTVPEEEREAKFFRILTCSLLALKKLLSMLPKKEMHSLEEKLMSLLSQNKFWKYGKHSIPQVRSAFFELASAFCQYLPELVKTEAPRVCPAVLLSIDDSDAVVCPALWEAVLYAITTIEDCWSHVNAKKGVLPKLWTVLREGGRGLATVIYPNLLPFISKVPPGIAEPKLEYFRTFFSSIIQGLSSERAIASPSESSAIITAFMECLRFAILQKIDEGDDQRQIHQMLIYEQLIPLTDAVLKEPRLQNGPLFYQIAETLSSWEAKVELSNDDGTDGVFQKLLSNFWDHLLKMCVLHVDTLDADEKSLFAISGMLEILQNPRTATKPNNRKSLKIRFTDGDESERNTGNGKLAEVRSSDSEIQADLQHNSLLRKEPLENLVCNLAELSIVYVNEQKSEQHLKFLSALLNSFSSNRVFQVLLEQGNDASSPQAESQNKIKAYHESPSVQFLYMNLITWLKEDWRKDTHFLVDILYSVLNCCNSNDERKIVLDDLTKMDLKWIIFLQIIQKACSSTTKLSLVSDWLKGDTLGERLVMLADDLCHLGLKPVVASSESSSSERWTLLSLVLSQHIKNESLIGETFVERIIDKLQAALSKAKDLSEAGNTEPSVSFICDVASSFFSSVKGCLLMPSSEDLLLTIFQLCAQRQDAMHLTDLLVCKLKHTWMSGVDSLVRQLRSVQKQSTFLRKSALWVKNQIQSSSLDVKSLQVLISAVSDLLSKLMQADGQSGYLVGAYVEHVTPDKTEWGKLHESLSTEWMHKPLLEGRLSINCEPLGSCIRLCGATKLPGHLCTSALLSKMALLVLENGIVHGNDDAERKKIDNIIAELLYSLQWIEELENPPYLLLEYIHMLEEMHITYEKFSTLSNTISLQQTIFDRSEEHGRLWSLTMAKVIRAENTVSCEMKQLFKTTEGFLPLTEGRLHTLQCLSPFLIEEEKKELIFHCVAKLMTCTQTELSSTDGAFGCLSILNSCLNDRSIDCDHLLPGILKVIISWKNDNEDSFLFSCNLKETSAQLLGFNIEMIRYLPLLLKYSTAPLADNEWDFIMCSMLAWLETTSESRSLYHVPLVQIFACVSCDLASALSAYFEAAAPETTENLPVNLISEWKEFFSEGIHNLLLPLLVKVTGENKNASEGSFQNSVLTSLGEALTYISTDQLLNHKLPAKFVAGQKTNLPDKLQTLLNTLSPLLLFRARPVQISVYHMLYKLMPELPKFDDEDLKSYGDEEEESALSPPAALMSVLATQELLLENILECIPVGEFAVIQPLSDEFCLVLGYLLTWKLTLAFFKAASSQLRVLYSQYLRRTKSLNKLLYHLFRLMPENPVFSGPTSEVPNKDTKTFFTEELHLDVKGTGILSSQIPHLACSVYHITLKDLPAMVRLWWNSCEKRVFNVVDKFTSKYVSSVLSSQEISSVQTSTQLFNGMTVKARSAAREVIATYSVDDIFIELIIQLPSNYPLGSITVESGKRVGVAVQQWRNWMLQLSTYLTHQNGSIMEGLSLWKNNVDKRFEGVEDCMICFSVIHGSNYSLPKKACRTCKKKFHSACLYKWFTSSNKSTCPLCRETFF

Target ORF information:

RefSeq Version	XM_009492371.1
Organism	Pelecanus crispus(Dalmatian pelican)
Definition	Pelecanus crispus listerin E3 ubiquitin protein ligase 1 (LTN1), mRNA.

Target ORF information:

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

XM_009492371.1

ORF Insert Sequence:

ATGGTGTTGC GAAAACTTTC TAAAAGGGAT ATCACAACAA AATTAAAAGC TATGCAAGAG 
TTTGGGACAA TGTGCAAGGA AAGAGAAGCG GAAGTTGTTA AAGGTGTTCT TCCTTACTGG 
CCAAGAATTT ATTGTAAAAT CTCACTGGAT CATGATCGCC GTGTGCGAGA AGCAACTCAG 
CAATCTTTTG AGCAACTGAT TCTTAAAGTA AAGAAACACT TAGCTCCTTA CTTAAAAAGT 
ATCATGGGAT ACTGGCTGAT TGCTCAATGT GACACTTACT CCCCTGCTGC TTCTGCTGCA 
AAAGTAGCTT TTGAAAAAGC TTTTCCTTCA AGCAAACAAC CTGAAGCCTT AGCATTCTGT 
AAAGATGAAA TTCTTCATGT CCTTCAAGAT CACCTTCTGA AAGAAACACC AGATACACTC 
AGTGACCCCC AAACTGTACC AGAGGAAGAA AGGGAAGCAA AATTTTTCCG GATTCTGACC 
TGTTCCTTGT TAGCTTTAAA AAAGTTGCTT AGCATGTTGC CAAAGAAAGA GATGCATTCA 
TTGGAGGAAA AGTTAATGTC ACTTCTGTCC CAAAACAAAT TTTGGAAATA CGGCAAACAC 
AGCATACCAC AGGTTCGCTC AGCTTTCTTT GAGCTGGCTT CTGCTTTTTG CCAGTACTTG 
CCTGAGCTGG TGAAAACTGA AGCACCAAGA GTTTGTCCTG CTGTTCTTCT CAGCATTGAT 
GACAGTGATG CTGTGGTGTG TCCTGCTCTT TGGGAAGCTG TACTTTATGC TATCACCACT 
ATTGAGGACT GTTGGAGTCA TGTAAATGCC AAAAAGGGAG TTCTACCAAA GCTATGGACA 
GTGCTTCGAG AAGGTGGACG AGGACTAGCT ACCGTTATAT ACCCAAATCT CTTGCCGTTC 
ATTAGCAAGG TACCTCCTGG CATTGCAGAA CCAAAGCTGG AATATTTCAG AACTTTTTTC 
AGCTCTATAA TTCAAGGGTT GTCAAGTGAG CGAGCAATAG CTAGCCCTTC AGAGAGTTCA 
GCAATTATAA CTGCATTTAT GGAATGTCTG CGCTTTGCCA TACTACAGAA AATAGATGAA 
GGAGATGACC AAAGACAAAT TCATCAAATG CTTATATATG AGCAGCTAAT TCCTCTTACC 
GATGCTGTAC TTAAGGAGCC CAGGTTACAA AATGGACCGT TATTTTATCA AATAGCAGAA 
ACACTGAGCT CCTGGGAAGC TAAAGTAGAA CTCTCCAATG ATGATGGCAC AGATGGAGTT 
TTCCAGAAAC TGCTGTCAAA TTTTTGGGAC CATCTTTTAA AAATGTGTGT ACTTCATGTT 
GATACGTTGG ATGCTGATGA GAAATCATTG TTTGCCATAT CTGGTATGCT AGAAATTCTT 
CAGAATCCAA GGACTGCTAC AAAACCAAAC AACAGAAAAT CTCTAAAAAT CAGATTTACA 
GATGGGGATG AATCTGAAAG AAACACAGGG AATGGAAAGC TCGCAGAAGT GAGAAGTAGT 
GACTCTGAAA TACAGGCTGA CTTGCAACAT AATTCACTTC TAAGGAAAGA ACCTTTAGAG 
AATTTAGTCT GCAACCTTGC TGAACTGAGT ATTGTGTATG TCAACGAACA GAAGTCAGAA 
CAGCATTTGA AATTTCTCTC TGCCCTGCTC AACTCTTTTT CTTCAAACAG AGTTTTTCAA 
GTACTTTTAG AGCAAGGAAA TGATGCAAGT TCTCCTCAGG CTGAATCCCA AAACAAAATT 
AAAGCTTATC ATGAAAGTCC ATCTGTACAA TTTCTGTATA TGAATTTAAT AACTTGGCTG 
AAAGAAGACT GGAGGAAAGA CACCCATTTT CTCGTTGACA TTTTGTACAG TGTGCTTAAT 
TGTTGCAACA GTAATGATGA AAGGAAAATT GTTCTTGATG ATTTAACAAA GATGGATCTG 
AAATGGATTA TTTTTCTCCA GATAATTCAA AAGGCTTGTT CAAGTACAAC AAAACTTTCC 
TTAGTCTCTG ACTGGCTGAA AGGAGATACA CTTGGAGAAA GACTTGTAAT GCTGGCAGAT 
GATCTGTGTC ACCTGGGTTT AAAACCTGTA GTAGCCTCAT CAGAATCATC CTCTTCAGAA 
AGGTGGACCC TCCTGAGCTT AGTGTTGTCG CAACACATTA AAAATGAATC TTTGATTGGT 
GAAACTTTTG TTGAAAGGAT TATTGATAAA CTTCAAGCCG CTCTGTCTAA AGCTAAGGAT 
CTTTCTGAAG CTGGAAATAC TGAACCATCA GTATCTTTCA TCTGTGATGT AGCCTCAAGC 
TTTTTCAGCT CAGTTAAAGG GTGTCTGCTG ATGCCATCCT CAGAAGACTT GCTGCTTACC 
ATCTTCCAAT TGTGTGCTCA GAGGCAGGAT GCTATGCACT TAACAGATTT ACTTGTATGT 
AAATTAAAAC ACACTTGGAT GTCTGGTGTA GATTCACTTG TGCGTCAACT TCGGAGTGTG 
CAGAAACAGA GTACCTTTTT GCGTAAATCT GCACTGTGGG TCAAGAATCA AATTCAGTCT 
TCCTCTTTGG ATGTTAAAAG CCTTCAGGTT TTGATCTCTG CAGTTAGTGA TTTGTTGTCT 
AAGCTTATGC AAGCTGACGG ACAGTCTGGA TATCTTGTGG GAGCTTATGT TGAGCATGTC 
ACACCAGACA AAACTGAGTG GGGGAAATTG CACGAGTCTC TATCCACTGA GTGGATGCAC 
AAACCTCTTT TGGAAGGAAG GCTTAGTATA AATTGTGAAC CTTTGGGATC ATGCATCAGG 
CTGTGTGGTG CAACTAAACT TCCAGGCCAT CTGTGTACTT CAGCCTTATT AAGTAAAATG 
GCACTACTTG TGTTGGAAAA TGGTATAGTC CATGGAAATG ATGATGCTGA AAGAAAGAAA 
ATTGACAATA TAATTGCAGA GCTGTTGTAC TCATTACAGT GGATTGAAGA ATTGGAGAAT 
CCTCCTTATC TGCTTCTGGA ATATATTCAT ATGTTAGAAG AAATGCACAT CACATATGAG 
AAGTTCAGTA CACTTAGTAA TACAATTAGC CTTCAGCAAA CAATATTTGA TAGATCAGAG 
GAACATGGAA GACTGTGGTC CTTAACCATG GCTAAAGTGA TTCGTGCGGA AAACACTGTA 
TCCTGTGAGA TGAAACAACT TTTTAAGACA ACAGAAGGGT TTCTGCCATT AACAGAGGGC 
AGATTGCATA CACTTCAGTG TCTGTCACCT TTTTTAATTG AGGAAGAAAA GAAAGAACTC 
ATCTTCCACT GTGTGGCCAA ACTTATGACA TGCACACAGA CAGAGCTTTC CAGCACTGAT 
GGAGCATTTG GTTGTCTTTC CATTTTGAAC TCCTGCTTGA ATGATAGAAG TATTGATTGT 
GATCACCTAC TACCTGGAAT ACTAAAAGTC ATAATATCTT GGAAAAATGA TAATGAGGAC 
AGCTTTCTCT TTAGCTGCAA TCTGAAAGAA ACAAGTGCTC AGTTGCTTGG TTTCAACATA 
GAGATGATTC GTTACCTTCC CTTGTTGCTG AAGTATTCCA CAGCTCCTTT GGCTGATAAT 
GAATGGGACT TTATCATGTG CTCCATGCTG GCTTGGTTAG AGACAACAAG TGAAAGCCGT 
TCACTTTATC ATGTCCCGCT TGTGCAGATT TTTGCTTGTG TCAGTTGTGA CTTGGCATCT 
GCCCTTAGTG CTTACTTTGA AGCTGCAGCT CCTGAAACTA CTGAAAACCT TCCTGTGAAC 
TTGATCAGTG AATGGAAGGA ATTCTTTTCT GAAGGAATTC ACAATTTGCT GTTACCTTTG 
TTGGTGAAAG TCACAGGAGA AAACAAAAAT GCATCTGAAG GCTCCTTTCA GAACTCTGTG 
TTAACATCTT TGGGTGAAGC TCTAACGTAC ATCTCAACGG ACCAGTTGCT AAACCATAAA 
TTGCCAGCAA AGTTTGTTGC AGGCCAGAAA ACAAATCTTC CAGATAAACT CCAGACTCTA 
CTAAATACGT TATCACCATT GTTGCTTTTC CGGGCTAGAC CTGTACAGAT TTCTGTCTAC 
CATATGTTGT ATAAATTAAT GCCTGAATTG CCTAAATTTG ATGACGAAGA TCTCAAATCT 
TATGGTGATG AAGAGGAGGA ATCAGCATTA TCACCTCCAG CAGCTCTTAT GTCTGTCCTG 
GCCACTCAAG AACTCTTGCT AGAAAATATC CTGGAATGCA TTCCAGTTGG AGAATTTGCA 
GTTATTCAGC CTCTGAGTGA TGAGTTCTGC CTTGTTCTAG GATATCTTCT CACTTGGAAG 
TTAACATTAG CTTTCTTCAA AGCAGCTTCT TCTCAGCTGC GAGTTCTCTA CTCACAATAC 
CTTAGAAGAA CTAAAAGCTT GAATAAACTG CTTTATCACT TGTTCAGGCT TATGCCTGAA 
AACCCTGTCT TTTCTGGGCC AACTTCAGAA GTTCCAAATA AGGACACAAA AACTTTCTTT 
ACTGAAGAGC TTCATTTAGA TGTCAAAGGG ACAGGAATCC TGTCATCCCA GATTCCGCAC 
TTGGCCTGCT CTGTGTACCA TATAACACTG AAAGACTTGC CAGCCATGGT CAGGCTTTGG 
TGGAATAGCT GTGAGAAACG TGTCTTCAAT GTTGTAGATA AATTTACGAG CAAATATGTC 
AGCAGCGTGC TTTCTTCACA AGAAATATCT TCTGTTCAGA CTAGCACACA GTTATTTAAT 
GGCATGACGG TAAAAGCTCG GTCTGCGGCA CGGGAAGTCA TTGCTACCTA TTCAGTTGAT 
GATATATTTA TTGAACTAAT AATACAGCTT CCATCAAATT ACCCACTGGG ATCCATAACA 
GTTGAGAGTG GTAAGAGGGT TGGTGTGGCC GTACAGCAAT GGCGCAACTG GATGCTACAG 
TTAAGCACAT ACCTTACACA TCAGAATGGA AGTATTATGG AAGGCTTATC TTTGTGGAAA 
AATAATGTGG ATAAACGTTT TGAGGGCGTT GAAGATTGCA TGATCTGTTT TTCAGTCATT 
CATGGTTCCA ACTATTCTCT TCCCAAAAAA GCTTGCAGAA CATGCAAGAA AAAGTTTCAT 
TCAGCTTGCT TGTACAAATG GTTCACATCC AGCAACAAAT CCACCTGTCC GCTCTGTCGA 
GAGACATTTT TCTGA