neo1 cDNA ORF clone, Sinocyclocheilus grahami

Gene
Clones
gRNAs

Summary

Gene Symbol	neo1
Entrez Gene ID	107559439
Full Name	neogenin 1
Gene Type	protein-coding
Organism	Sinocyclocheilus grahami

mRNA and Protein(s)

mRNA	Protein	Name
XM_016243267.1	XP_016098753.1	neogenin

Pathways from BioSystems
Gene Ontology

The following neo1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the neo1 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
OSi46192	XM_016243267.1 Latest version!	Sinocyclocheilus grahami neogenin 1 (neo1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

neo1 ( XM_016243267.1 ) cDNA ORF clone, Sinocyclocheilus grahami -> XP_016098753.1 Sinocyclocheilus grahami neogenin 1 (neo1), mRNA.

Price & Availability↑

CloneID	OSi46192
Clone ID Related Accession (Same CDS sequence)	XM_016243267.1
Accession Version	XM_016243267.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4347bp) 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	2016-04-18
Organism	Sinocyclocheilus grahami
Product	neogenin
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015505864.1) 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 :: Sinocyclocheilus grahami Annotation Release 100 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##

ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CATAGTTTTA 
CATGCTGAGA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCCGGTTTTC CACGGAGCCG 
TCAGATACGC TGGCAGTGCG AGGAGCACCA ACACTGCTCA ACTGCTCAGC CCACAGCGAG 
TCTCCTGCCA AGATCGAATG GAAGAAAGAC GGCTCTTTCC TCAGCCTGGC CTCGGACGAT 
CGCAGGCAGG TCCTGGCCGA GGGTTCTCTG CTCATCAGCT CAGTGGTCCA CTCTAAACAC 
AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCCACTA TAGACAACCT GGGCACCATC 
ATAAGCCGTA CAGCTAGAGT CAATGTTGCA GGGATACCAC GGTACCTCAG TCAGCCGGAA 
GCCGCGTCGG TGCGGCTGGG TGACAGTCAC ATGCTGAACT GTGAGGTGAA TCCAGACCTG 
GTGTCTTTCA TCCGCTGGGA ACAAAACAAA GAGCTGGTTG AGCTGGACCA GAGAGTCTTC 
ACGCTGCCCA GTGGTGCTCT CGTCATCAGT AATGCCACAG AGGCAGATGC AGGCCTGTAC 
CGCTGCGTGA TCGACAACGC TGGGCCCACC AAGACCAGTG AAGAAGCAGA AATACAGATA 
CTGCCTGAAT CAGGGGAGGA AAGGACCCTG GAGTTTCTCC TGGAGCCTCA GCATGTGTAT 
AAAGCCATTG GGGAGAGCGT GCTGCTCCCC TGTGTGGTGA CGGGATATCC CACAGCCTAC 
GTCACATGGA TGCACAAAGA CCAGCTCATT GAGTACAGCA AGGGCCGCTT TGAAGTGCTT 
GGCGGAGGCA GTCTGCGGAT CTTCAATCTC ACTGAGGAAG ACGCCGGTGT GTACAGCTGC 
GTGGCAGACA ACACCAACGG ATCCATTGAG GCCCAGACTG AGCTCACGCT GAAAGCTTCC 
CCACAGTTCC TGAAGAAACC AGCTAACATA TATGCTCATG AAGCCACAGA CATCATCTTC 
GAGTGTGAGG TCACCGGCTC ACCCGCTCCC ACCATCAAAT GGGTGAAGAA CGGAGATGCC 
GTCATTCCCA GCGACTATTT CAAGATCATT AAGGAGCAGA ACTTGCAGGT GCTGGGGCTG 
GTCAAGTCAG ATGAAGGTTT CTATCAGTGT TTAGCTGAGA ATGACGCTGG CAATGTCCAG 
GCAGGTGCTC AGCTCATCAT ATTGGATCAA GATGTAGCCA TCCCCTCCCC CCCTCCCACC 
TCACTGACCC ATGCCACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGTCCC 
ACGCCCTCCG CCCCCCGTGA CGTTGTGGCC TCCCTGGTCT CCACCCGCTT CATCAAGCTG 
ACCTGGCGCC TTCCTGCTGA ACCGCATGGA GATGATGTCA CCTACTCGGT CTACTACAGC 
CTGGAGGACA ATAACAGGGA GAGGATAGTG AACACCAGCC GTCCAGGAGA AATGCAAGTC 
ACCATTCAGA ACCTCATGCC AGACACCAAG TACTCCTTCC GCGTGGTGGC CCACAACAGA 
AACGGCCCTG GAGAGAGCTC AGTGCCTCTG ACGGTCGCCA CCCAGCCTGA AGTCCAGGTA 
CCTGGTCCTG CTCCAAACCT ACAGGCAGTG GTCACGTCCC CCAGCACAGT GAGTCTCAGC 
TGGGATATGC CCCTTACAGG CGAGATCCAG AACTACAAAA TTTACTACAT GGAGAAGGGC 
ATGGACAGTG AGCAGGATCT GGATGTGAAC ACACTGTCCT ACACCATGAC TGGACTGAAG 
AAGTTCACAG AATACAGTTT CAGAGTGGTG GCCTATAACA AACATGGACC TGGAGTGTCC 
ACTGAGGACA TATCTGTGCG CACATACTCT GATGTGCCCA GTGCTCCGCC ACAGAACATG 
ACGGTTGAAG TGCTGAACTC TAAGAGCATC ATGGTCAGAT GGCAGCCTCC GCCAGCAGAT 
GCTCAGAACG GTGAGATCAC CGGCTATAAG ATCCGCTACA GGAAGGGTAC GAGGAAGAGC 
GAGGCGGCGG AGATTACTTC AGGATCGCAG CTCTATCAGC TCATAGATGG TCTGCAGCGA 
GGCACTGAAT ATATGTTGCG AGTGTCGGCC ATTACGGTCA ACGGCACGGG TCCGGCCACA 
GACTGGACCA CTGCTGAGAC GTTTGAGAGC GATCTGGATG AGACAACTGT GCCAGATGTC 
CCGAGCTCCT TGCACGTGCG GCCACTTGTG AACAGCATTG TAGTGAGCTG GACGCCCCCA 
GAGAACCAGG ACATTGTGGT GAGGGGTTAT ACTATCGGCT ATGGGATCGG CAGCCCTCAC 
GCCCAGACCA TTAAAGTGGA CTACAAACAG AGATACTACA CCATTGAGAA CTTGAATCCC 
AGCTCGCACT ACGTTATCAC ACTGAAGGCC TTCAACAACG TGGGGGAGGG AATCCCTGTG 
TATGAGAGCG CTATCACACG ACCCCAATCA GACCCCATAG ACCCTGATGT TGATTTGTAC 
GAACTTTTCC ATGCTCCATA CACTCCAGTA CCAGACCCTT TACCCATGCT GCCTCCTGTG 
GGCGTTCAGG CGTCCGTTCT GAGCCACGAC ACCATCAAAG TCACCTGGGC GGACAACTCA 
CTGCCCAAGA ACCAGAAGAT CACAGATGCA CGTTACTACA CGGTGCGCTG GAAGACCAAC 
ATACCCGCAA ACACAAAGTT CAAGGTGGCT AATACCACCA CACTGACTCA CACAGTGACG 
GGTCTTAAAC CCAACACCTT GTACGAGTTC TCGGTCATGG TGACCAAGGG CCGGAGGACC 
AGCACATGGA GCATGACTGC ACATGGAACA ACTTTTGAAA CAATCCCAAG TTCTGCGCCT 
AAAGATGTGA CTGTAGTGAG CAAAGAGGGA CAACCACGAA CCATCATCGT CAACTGGCAG 
CCACCCTCAG AAGCCAATGG AAAGATCACA GGTTACATCA TTTACTACAG CACTGATGTG 
AATGCAGAGG TTCACGATTG GGTCATTGAG CCAGTAGTGG GGAACAGGCT AACCCATCAG 
ATTCAAGACC TGACCCTTGA TACCACCTAC TACTTCAAGA TCCAGGCGCG TAACTCTAAA 
GGGATGGGTC CCATGTCTGA TGCTGTCCAG TTCCGCACTC CTAAAGCTGA ATCCTCTGAC 
AAAATGGCTA ATGACCAAGC TCCAGGTATA TTGCTGAAAG CAGGAAGACC CTCTGTACAA 
GAACAAGGTT TTGGATCAGT TGGGAAAACA GATATGTCTG GCACTGGTGA TAACCACATC 
CTGGTTATTG TCATAATTGT GTCTGTGGGT GCATTTACCA TCATCCTGGT GGTGGTTGGC 
GCCTTCCTGT GTACACGCCG TACCACAACA CAGCAGAAAA AGAAACGTGC AGCCTGCAAG 
TCCGCCAATG GATCCCACAA GTATAAGGGC AATTCCAAAG ATCTTAAGCC ACCAGACCTC 
TGGATCCACC ACGAACGTTT GGAGCTAAAA CCTATCGACA AATCGCCTGA ACCCAATCCA 
GTCATGACCG ACACACCAAT CCCCCGAACC TCCCAGGACA TCACCCCGGT GGATGGCTCC 
ATGGATCCTA TGCTCCAGAG ACGTAACTCT TACCGTGGCC ATGAATCAGA GGACAGCATG 
TCTACACTGG CAGGCCGTCG GGGAATGAGA CCTAAAATGA TGATGCCCTT TGATGCACAA 
CCCCCTCAGC CTGTGATTAG TGCTCACCCC ATCCATTCCC TCGATAACCA TCACCATCAT 
TATCACTTGG GCAGCCTGGC CTCGCCAACA CGCAGCTATC TCCACCACCA GAGCAGCACG 
CGGTCCATCG CCACCCCCAT CTCTCATCTA GACAGGGCAG AGTCCACAGA GTCAGTAAGG 
AACACCCCTA GTGCTGACAT GCACCCTCCG TCTGGGCAGC CCTCCTGCAC CACTGACCTT 
TCAGAGACAG ACATTAGCTA CCACAGCTCA GCCGCTGAGG AGGAGCCAGC ATTCAGTACA 
CCCACAGCAC ATGTTCGTCC CACGCACCCA CTCAAGAGTT TTGCAGTGCC TGCCATCCCA 
GCTCACCCCA TGTATGACTC AGCAGCATTA CCCAGTACTC CACTGCTGTC TCAGACAGGG 
CCTCACTCAG TTAAAACAGC CTCTATCGGT ACGTTGGGAA GGACGAGAAC TCCTATGCCT 
GTCATAGTTC CAAGTGCACC GGATGTCTCG GAAAGTAGCA GACTGCATGA AGATGCAGGG 
AGCAATTATG AGACGGACGA GTTGACGGAG GAAATGGCCC ATCTGGAGGG CTTAATGAAG 
GACCTAAATG CCATCACGAC AGCCTGA

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

RefSeq	XP_016098753.1
CDS	332..4678
Translation	MAERGARLLLSLFCLTIIVLHAEKGSAVRNFSPFRFSTEPSDTLAVRGAPTLLNCSAHSESPAKIEWKKDGSFLSLASDDRRQVLAEGSLLISSVVHSKHNKPDEGVYQCVATIDNLGTIISRTARVNVAGIPRYLSQPEAASVRLGDSHMLNCEVNPDLVSFIRWEQNKELVELDQRVFTLPSGALVISNATEADAGLYRCVIDNAGPTKTSEEAEIQILPESGEERTLEFLLEPQHVYKAIGESVLLPCVVTGYPTAYVTWMHKDQLIEYSKGRFEVLGGGSLRIFNLTEEDAGVYSCVADNTNGSIEAQTELTLKASPQFLKKPANIYAHEATDIIFECEVTGSPAPTIKWVKNGDAVIPSDYFKIIKEQNLQVLGLVKSDEGFYQCLAENDAGNVQAGAQLIILDQDVAIPSPPPTSLTHATTDRLMPGSRGGAGPTPSAPRDVVASLVSTRFIKLTWRLPAEPHGDDVTYSVYYSLEDNNRERIVNTSRPGEMQVTIQNLMPDTKYSFRVVAHNRNGPGESSVPLTVATQPEVQVPGPAPNLQAVVTSPSTVSLSWDMPLTGEIQNYKIYYMEKGMDSEQDLDVNTLSYTMTGLKKFTEYSFRVVAYNKHGPGVSTEDISVRTYSDVPSAPPQNMTVEVLNSKSIMVRWQPPPADAQNGEITGYKIRYRKGTRKSEAAEITSGSQLYQLIDGLQRGTEYMLRVSAITVNGTGPATDWTTAETFESDLDETTVPDVPSSLHVRPLVNSIVVSWTPPENQDIVVRGYTIGYGIGSPHAQTIKVDYKQRYYTIENLNPSSHYVITLKAFNNVGEGIPVYESAITRPQSDPIDPDVDLYELFHAPYTPVPDPLPMLPPVGVQASVLSHDTIKVTWADNSLPKNQKITDARYYTVRWKTNIPANTKFKVANTTTLTHTVTGLKPNTLYEFSVMVTKGRRTSTWSMTAHGTTFETIPSSAPKDVTVVSKEGQPRTIIVNWQPPSEANGKITGYIIYYSTDVNAEVHDWVIEPVVGNRLTHQIQDLTLDTTYYFKIQARNSKGMGPMSDAVQFRTPKAESSDKMANDQAPGILLKAGRPSVQEQGFGSVGKTDMSGTGDNHILVIVIIVSVGAFTIILVVVGAFLCTRRTTTQQKKKRAACKSANGSHKYKGNSKDLKPPDLWIHHERLELKPIDKSPEPNPVMTDTPIPRTSQDITPVDGSMDPMLQRRNSYRGHESEDSMSTLAGRRGMRPKMMMPFDAQPPQPVISAHPIHSLDNHHHHYHLGSLASPTRSYLHHQSSTRSIATPISHLDRAESTESVRNTPSADMHPPSGQPSCTTDLSETDISYHSSAAEEEPAFSTPTAHVRPTHPLKSFAVPAIPAHPMYDSAALPSTPLLSQTGPHSVKTASIGTLGRTRTPMPVIVPSAPDVSESSRLHEDAGSNYETDELTEEMAHLEGLMKDLNAITTA

Target ORF information:

RefSeq Version	XM_016243267.1
Organism	Sinocyclocheilus grahami
Definition	Sinocyclocheilus grahami neogenin 1 (neo1), mRNA.

Target ORF information:

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

XM_016243267.1

ORF Insert Sequence:

ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CATAGTTTTA 
CATGCTGAGA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCCGGTTTTC CACGGAGCCG 
TCAGATACGC TGGCAGTGCG AGGAGCACCA ACACTGCTCA ACTGCTCAGC CCACAGCGAG 
TCTCCTGCCA AGATCGAATG GAAGAAAGAC GGCTCTTTCC TCAGCCTGGC CTCGGACGAT 
CGCAGGCAGG TCCTGGCCGA GGGTTCTCTG CTCATCAGCT CAGTGGTCCA CTCTAAACAC 
AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCCACTA TAGACAACCT GGGCACCATC 
ATAAGCCGTA CAGCTAGAGT CAATGTTGCA GGGATACCAC GGTACCTCAG TCAGCCGGAA 
GCCGCGTCGG TGCGGCTGGG TGACAGTCAC ATGCTGAACT GTGAGGTGAA TCCAGACCTG 
GTGTCTTTCA TCCGCTGGGA ACAAAACAAA GAGCTGGTTG AGCTGGACCA GAGAGTCTTC 
ACGCTGCCCA GTGGTGCTCT CGTCATCAGT AATGCCACAG AGGCAGATGC AGGCCTGTAC 
CGCTGCGTGA TCGACAACGC TGGGCCCACC AAGACCAGTG AAGAAGCAGA AATACAGATA 
CTGCCTGAAT CAGGGGAGGA AAGGACCCTG GAGTTTCTCC TGGAGCCTCA GCATGTGTAT 
AAAGCCATTG GGGAGAGCGT GCTGCTCCCC TGTGTGGTGA CGGGATATCC CACAGCCTAC 
GTCACATGGA TGCACAAAGA CCAGCTCATT GAGTACAGCA AGGGCCGCTT TGAAGTGCTT 
GGCGGAGGCA GTCTGCGGAT CTTCAATCTC ACTGAGGAAG ACGCCGGTGT GTACAGCTGC 
GTGGCAGACA ACACCAACGG ATCCATTGAG GCCCAGACTG AGCTCACGCT GAAAGCTTCC 
CCACAGTTCC TGAAGAAACC AGCTAACATA TATGCTCATG AAGCCACAGA CATCATCTTC 
GAGTGTGAGG TCACCGGCTC ACCCGCTCCC ACCATCAAAT GGGTGAAGAA CGGAGATGCC 
GTCATTCCCA GCGACTATTT CAAGATCATT AAGGAGCAGA ACTTGCAGGT GCTGGGGCTG 
GTCAAGTCAG ATGAAGGTTT CTATCAGTGT TTAGCTGAGA ATGACGCTGG CAATGTCCAG 
GCAGGTGCTC AGCTCATCAT ATTGGATCAA GATGTAGCCA TCCCCTCCCC CCCTCCCACC 
TCACTGACCC ATGCCACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGTCCC 
ACGCCCTCCG CCCCCCGTGA CGTTGTGGCC TCCCTGGTCT CCACCCGCTT CATCAAGCTG 
ACCTGGCGCC TTCCTGCTGA ACCGCATGGA GATGATGTCA CCTACTCGGT CTACTACAGC 
CTGGAGGACA ATAACAGGGA GAGGATAGTG AACACCAGCC GTCCAGGAGA AATGCAAGTC 
ACCATTCAGA ACCTCATGCC AGACACCAAG TACTCCTTCC GCGTGGTGGC CCACAACAGA 
AACGGCCCTG GAGAGAGCTC AGTGCCTCTG ACGGTCGCCA CCCAGCCTGA AGTCCAGGTA 
CCTGGTCCTG CTCCAAACCT ACAGGCAGTG GTCACGTCCC CCAGCACAGT GAGTCTCAGC 
TGGGATATGC CCCTTACAGG CGAGATCCAG AACTACAAAA TTTACTACAT GGAGAAGGGC 
ATGGACAGTG AGCAGGATCT GGATGTGAAC ACACTGTCCT ACACCATGAC TGGACTGAAG 
AAGTTCACAG AATACAGTTT CAGAGTGGTG GCCTATAACA AACATGGACC TGGAGTGTCC 
ACTGAGGACA TATCTGTGCG CACATACTCT GATGTGCCCA GTGCTCCGCC ACAGAACATG 
ACGGTTGAAG TGCTGAACTC TAAGAGCATC ATGGTCAGAT GGCAGCCTCC GCCAGCAGAT 
GCTCAGAACG GTGAGATCAC CGGCTATAAG ATCCGCTACA GGAAGGGTAC GAGGAAGAGC 
GAGGCGGCGG AGATTACTTC AGGATCGCAG CTCTATCAGC TCATAGATGG TCTGCAGCGA 
GGCACTGAAT ATATGTTGCG AGTGTCGGCC ATTACGGTCA ACGGCACGGG TCCGGCCACA 
GACTGGACCA CTGCTGAGAC GTTTGAGAGC GATCTGGATG AGACAACTGT GCCAGATGTC 
CCGAGCTCCT TGCACGTGCG GCCACTTGTG AACAGCATTG TAGTGAGCTG GACGCCCCCA 
GAGAACCAGG ACATTGTGGT GAGGGGTTAT ACTATCGGCT ATGGGATCGG CAGCCCTCAC 
GCCCAGACCA TTAAAGTGGA CTACAAACAG AGATACTACA CCATTGAGAA CTTGAATCCC 
AGCTCGCACT ACGTTATCAC ACTGAAGGCC TTCAACAACG TGGGGGAGGG AATCCCTGTG 
TATGAGAGCG CTATCACACG ACCCCAATCA GACCCCATAG ACCCTGATGT TGATTTGTAC 
GAACTTTTCC ATGCTCCATA CACTCCAGTA CCAGACCCTT TACCCATGCT GCCTCCTGTG 
GGCGTTCAGG CGTCCGTTCT GAGCCACGAC ACCATCAAAG TCACCTGGGC GGACAACTCA 
CTGCCCAAGA ACCAGAAGAT CACAGATGCA CGTTACTACA CGGTGCGCTG GAAGACCAAC 
ATACCCGCAA ACACAAAGTT CAAGGTGGCT AATACCACCA CACTGACTCA CACAGTGACG 
GGTCTTAAAC CCAACACCTT GTACGAGTTC TCGGTCATGG TGACCAAGGG CCGGAGGACC 
AGCACATGGA GCATGACTGC ACATGGAACA ACTTTTGAAA CAATCCCAAG TTCTGCGCCT 
AAAGATGTGA CTGTAGTGAG CAAAGAGGGA CAACCACGAA CCATCATCGT CAACTGGCAG 
CCACCCTCAG AAGCCAATGG AAAGATCACA GGTTACATCA TTTACTACAG CACTGATGTG 
AATGCAGAGG TTCACGATTG GGTCATTGAG CCAGTAGTGG GGAACAGGCT AACCCATCAG 
ATTCAAGACC TGACCCTTGA TACCACCTAC TACTTCAAGA TCCAGGCGCG TAACTCTAAA 
GGGATGGGTC CCATGTCTGA TGCTGTCCAG TTCCGCACTC CTAAAGCTGA ATCCTCTGAC 
AAAATGGCTA ATGACCAAGC TCCAGGTATA TTGCTGAAAG CAGGAAGACC CTCTGTACAA 
GAACAAGGTT TTGGATCAGT TGGGAAAACA GATATGTCTG GCACTGGTGA TAACCACATC 
CTGGTTATTG TCATAATTGT GTCTGTGGGT GCATTTACCA TCATCCTGGT GGTGGTTGGC 
GCCTTCCTGT GTACACGCCG TACCACAACA CAGCAGAAAA AGAAACGTGC AGCCTGCAAG 
TCCGCCAATG GATCCCACAA GTATAAGGGC AATTCCAAAG ATCTTAAGCC ACCAGACCTC 
TGGATCCACC ACGAACGTTT GGAGCTAAAA CCTATCGACA AATCGCCTGA ACCCAATCCA 
GTCATGACCG ACACACCAAT CCCCCGAACC TCCCAGGACA TCACCCCGGT GGATGGCTCC 
ATGGATCCTA TGCTCCAGAG ACGTAACTCT TACCGTGGCC ATGAATCAGA GGACAGCATG 
TCTACACTGG CAGGCCGTCG GGGAATGAGA CCTAAAATGA TGATGCCCTT TGATGCACAA 
CCCCCTCAGC CTGTGATTAG TGCTCACCCC ATCCATTCCC TCGATAACCA TCACCATCAT 
TATCACTTGG GCAGCCTGGC CTCGCCAACA CGCAGCTATC TCCACCACCA GAGCAGCACG 
CGGTCCATCG CCACCCCCAT CTCTCATCTA GACAGGGCAG AGTCCACAGA GTCAGTAAGG 
AACACCCCTA GTGCTGACAT GCACCCTCCG TCTGGGCAGC CCTCCTGCAC CACTGACCTT 
TCAGAGACAG ACATTAGCTA CCACAGCTCA GCCGCTGAGG AGGAGCCAGC ATTCAGTACA 
CCCACAGCAC ATGTTCGTCC CACGCACCCA CTCAAGAGTT TTGCAGTGCC TGCCATCCCA 
GCTCACCCCA TGTATGACTC AGCAGCATTA CCCAGTACTC CACTGCTGTC TCAGACAGGG 
CCTCACTCAG TTAAAACAGC CTCTATCGGT ACGTTGGGAA GGACGAGAAC TCCTATGCCT 
GTCATAGTTC CAAGTGCACC GGATGTCTCG GAAAGTAGCA GACTGCATGA AGATGCAGGG 
AGCAATTATG AGACGGACGA GTTGACGGAG GAAATGGCCC ATCTGGAGGG CTTAATGAAG 
GACCTAAATG CCATCACGAC AGCCTGA