KIAA0922 cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka)

Gene
Clones
gRNAs

Summary

Gene Symbol	KIAA0922
Entrez Gene ID	105811132
Full Name	transmembrane 131 like
Synonyms	KIAA0922
Gene Type	protein-coding
Organism	Propithecus coquereli(Coquerel's sifaka)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012645266.1	XP_012500720.1	transmembrane protein 131-like

Pathways from BioSystems
Gene Ontology

The following KIAA0922 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KIAA0922 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
OPr104308	XM_012645266.1 Latest version!	Propithecus coquereli KIAA0922 ortholog (KIAA0922), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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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)

KIAA0922 ( XM_012645266.1 ) cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka) -> XP_012500720.1 Propithecus coquereli KIAA0922 ortholog (KIAA0922), mRNA.

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CloneID	OPr104308
Clone ID Related Accession (Same CDS sequence)	XM_012645266.1
Accession Version	XM_012645266.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4383bp) 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	2015-05-31
Organism	Propithecus coquereli(Coquerel's sifaka)
Product	transmembrane protein 131-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012147819.1) 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 :: Propithecus coquereli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGAAAA CTTCCTTCAG AATTATTTTC TTGCCTACTG AAGAAGGAAG CATTGAAAGC 
TCTTTATTTA TTAATACCTC TTCATATGGA GTCCTTTCCT ATCATGTATC TGGAATTGGC 
ACTCGCAGAA GCTCTACAGA AGGGTCTGCA AAGCAGCTAC CAAATGCTTA TTTTCTGCTT 
CCACAGGTCC AGAGCATTCA GCGATCACAA ACGCAGGCAG AAACCACTAA TACTAGCCTC 
TTGCAGGTGC AACTGGAATG CAGTTTACAT AATAAAGTGT GTCAGCAATT AAAGAGTTGT 
TACCTGGAAT CTGATGATGT TTTGCGCCTA CAAATGAGCA TAATGGTAAC AATGGAAAAC 
TCCTCAAAAG ATTTTGAAGA AAACACACAA GATTTGTTAG ATCATCTCTC TATTGTTTAT 
GTAGCTACAG ATAAATCCGA GACCTCAGAT GATTCAACGG TCAATATGTA CATACTACAT 
TCAGGAAGCA GCCTTGTGTG GATACAGGAT GTACATCATT TCTCGCAGAG AGATGCTGTG 
TCTCTGCAGT TTGAACCAGT GCTCCTCCCT ACTTCTACAA CCAACTTTAC GAAAATTGCT 
TCTTTTACTT GCAAAGCTAC ATCATGTGAC AGTGAAATTA CGGAAGATGT GAAGAAAACA 
AAGAACATTC CAACACTAAA AGCATGCCTC TCCTCTTCTG TGGTTCAAGG GTATTTTAGA 
ATGGACTCTT CTGCAACCCA GTTTCACATA GAGACTCACG AGAACACGTC AGGAGTTTGG 
TCAATATGGT ACCACAACCG TTTTGACCGT AGTGTTGTAT TAAATGATGT GTTTGTTTCC 
AAGGAGACCA AGCACATTTT AAAGATTCTG AATTTCACTG GCCCTTTATT TCTACCTCCA 
GGCTGTTGGA ATATATTTTC TTTGAAACTT GCTGTTAAAG ACATTGCCAT AAATCTATTC 
ACCAATGTAT TTTTGACTAC AAACATAGGT GCCATTTTTT CAATACCTCT ACAGATTTAC 
TCAGCACCGA CCAAGGAAGG GAGTCTGGGT TTTGAAGTGA TAGCACATTG TGGCATGCAT 
TATTTCATGG GAAAATCAAA AGCAGGAACT CCTAATTGGA ATGGGAGCCT TTCTCTGGAT 
CGGTCTACCT GGGATATGGA TTCTGAACTT GCAAATAAAT TGTATGAAAG ATGGAAGAAA 
TACAAAAATG GCGACGTCTG CAAGAGGAAT GTTTTGGGAC TGATTCGGTT TGCTCACTTG 
AAGAAATCCA AGGAGTCAGA GTCTTTTGTT TTCTTCTTGC CTCGTTTGAT TGCAGAGCCT 
GGCCTCATGT TAAACTTCAG CGCCACTGCC CTTAGGAACA GCATGGTGAA GTACTTTATG 
GTAAAGAACC CATCCTCCTG GCCGGTTTCC TTGCAGCTCC TGCCTCTCTC CTTGTACCCG 
AAACCTGAAG CTGCGGTACA TCTGCTCCAC AGATGGTTTG GCATCGATAC GCAGATGATT 
AATTTCACAA CTGGTGAATT CCAGCTCACC AAAGCTTGCC CTTACCGGGG AGTGCGTTCC 
GAAGAGTCCA GACTGGGCAC CCTCCAATTC CATTTGCAGC CTTTGGAAAT GAAAAGAGTT 
GGCATAGTTT TCACACCCGC TGACTATGGA AAAGTTACCT CACTCATACT AATCCGGAAT 
AACCTGACTG TTCTCGACAT GATCGCTGTG GAAGGGTTTG GAGCCAGAGA GTTACTGAAA 
GTAGGCGGAA GACTTCCGGG TGCGGGAGGC TCCCTCCGAT TTAAGGTGCC GGAGTCCACG 
CTGATGGACT GCCGTCGACA ACCGAAAGAC AGCAAGCAAA TGTTATCTAT TACAAAGAGC 
TTTAAAGTTG AAAATATTGG ACCTCTTCCT ATAACTGTGT CATCTCTGAA AATTAATGGG 
TATAATTGCC AAGGTTATGG ATTTGAAGTG TTAGATTGTC ATCAGTTTTC CCTGGACCCA 
AACACATCCC GTGATATCAG CATCGTGTTT ACTCCAGACT TTACATCTTC CTGGGTCATT 
CGTGACCTAA CTCTTGTAAC TGCAGCAGAC CTAGAATTTC GCTTCACGCT CAACGTGACC 
CTCCCTCATC ACCTGTTGCC CTTATGTGCA AATGTGGTGC CAGGACCCAG CTGGGAGGAG 
TCATTTTGGA GGCTCACAGT CTTTTTTGTC AGTTTGTCTC TGTTGGGTGT GATTTTAATA 
GCCTTCCAAC AAGCGCAGTA CATTCTTATG GAATTCATGA AAACAAGACA GAGGCAAAAT 
GCTAGCTCCT CATCACAGCA AAATAGCGGT CCAATGGATG TAATCAGCTC CCACTCTCAC 
AAAAGCAATT GCAAGAACTT TCTTGATACA TATGGCCCCT CTGATAAAGG CCGAGGGAAA 
GGCTGCCTTC CTGTGAACAC TCCCCAGAGC AGGATCCAGA ATGCTGCCAA GAGGAGCCCA 
GCCACCTACA GTCATTCTCA GAAGAAGCAC AAGTGCTCAG TGTACTACGG TAAACACAAA 
CCCAGCACCT CTGTGGCCAG CAGCTCCAAC ACTACTACTG AGGAAAAGCA GACTTCGACC 
CTAGGCAGCC CCCTGTCTGC TGCTAAAGAG GACATTTGCA CTGACGTCAT GGGGGAGAAC 
TGGATCAGCC TCAAATATGC CAGTGGCATG AATGTCAACC TGCAGAAGAA TTTAACCCTT 
CCCAAAAACT TATTGAACAA AGAAGAAAAC ACACTGAAAA ACACAGTTGT TGTCCATAAT 
CCTTCTTCAG AATGTAACGT GAAGGAGGGA GTACAGACAT GTATGTTTCC TAAGGAAACT 
GACATTAAAA CTTCAGGGAA CATAGCTGAG CTCAAGGAAC GGGAGCTCTG TCCACTGAAG 
ACCTCTAAGA AACTACCTGA AAATCATTTG CCGAGAAACT CACCTCATTA CCACCAGTCA 
GACTTGCCAG AAATTTCCAG GAAAAATAAT GGGAATAACC AGCAAGTGCC TGCCAAGAAT 
GAAGTAGGTA ATTGTGAAAC TTTGAAAAAG GTTGATGCAA AATCTTCAGA AAAGAAGATT 
CACAAAGCAT CTAAAGAAGA CACATGTTCT GAGAAGCAGG ACATACCTTC AGTGGAGCAA 
GAAGATCCTT CTAGGAAGAA GAAGCTTCAG GAGAAAAAGG AAGGAAATTT ACAAAATTTA 
AATTGGAATA AAAGCCGAAC ATGTAGGAAA AACAAGAAAA GGGGTGTTGC TCAGGCCTCA 
AGGTCTTCTG AACAGAGTGA ACTGAAGCTT GTGTACAATG ACTTTGAGAG GCCCGAGCTG 
AGCGGCGACA TGGATGTGAG AAACTGGGGT ACACAGGAAG ACGCCAGGGA GATTTGTAAA 
GCAGATGCCG CAGTTATAAG CGGGTTGCCT GCGGCACAGA GAGAGGCAGA GGGTTACTAC 
CAGAAACCTG AGAAGAAGTG TGTGGACAAG TTTTGCTCCG ATTCCAGCTC CGACTGTGGG 
AGCTCCTCAG GCAGCGTGCG TGCCAGCCGG GGCAGCTGGG GGAGCTGGAG CAGTGCCAGC 
AGCTCCGACG GGGACAAGAA GCCCGTGGTG GACGCCCAGC ATTTCCTGCC GGCCGGAGAC 
AGTGTTTCAC AGAATGATTT TCCTTCTGAA ACTCCCATCT CCTTAAACCT TTCTCATAAC 
ATCTGCAACC CCATTGACGT GAATAACCTC CCCCAGTACG CAGAGCCCTC CTGCCCCAGC 
CTTCCTGCGG CGCCCGCGGG CATCGAGGAA GATAAAGGTC TTTACTCACC TGGAGACCTG 
TGGCCCACCC AGCCGGTGTG TCTGGCGAGC AGCTTGAACT GCACTCTGGA GAACAGCTCG 
CCGTGTGTGC TGCAGGAGCC CGCCCCCGTC CATAACAGTT TCATCGATTG GAACGCAATG 
TGCGAAGGCC AGTTTCCCAG TGTGTACTGT CCATTGGAGT TGAACGATTA CAATGCCTTC 
CCAGAAGAAA ACATGAATTA TGCCAACGGC TTCCCCTGCC CTGCCGAAGT TCAGACAGAC 
TTTATCGATC ACAACTCTCA GTCTACCTGG AACACCCCAC CCAACATGCC TGCTGCCTGG 
GGACACGCCA GTTTCATCAA CTCTCCGCCC TACCTCACAA GCACCCGAAG CTTGTCTCCA 
ATGTCTGGAC TTTTTGGTTC CATTTGGGCC CCGCAAAGCG ATGTGTATGA AAATTGCTGC 
CCCATCAATC CTACCACGGA ACATTCTACT CACATGGAAA ACCAGGCCGT CATGTGCAAG 
GAATACTACC CGGGGTTTAA CCCGTTTCGT GCCTATATGA ACCTGGACAT ATGGACTACC 
ACAGCAAACA GGAACGCAAA CTTCCCGCTG TCCAGAGACT CCAGTTACTG TGGGAATGTG 
TGA

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

RefSeq	XP_012500720.1
CDS	202..4584
Translation	MGKTSFRIIFLPTEEGSIESSLFINTSSYGVLSYHVSGIGTRRSSTEGSAKQLPNAYFLLPQVQSIQRSQTQAETTNTSLLQVQLECSLHNKVCQQLKSCYLESDDVLRLQMSIMVTMENSSKDFEENTQDLLDHLSIVYVATDKSETSDDSTVNMYILHSGSSLVWIQDVHHFSQRDAVSLQFEPVLLPTSTTNFTKIASFTCKATSCDSEITEDVKKTKNIPTLKACLSSSVVQGYFRMDSSATQFHIETHENTSGVWSIWYHNRFDRSVVLNDVFVSKETKHILKILNFTGPLFLPPGCWNIFSLKLAVKDIAINLFTNVFLTTNIGAIFSIPLQIYSAPTKEGSLGFEVIAHCGMHYFMGKSKAGTPNWNGSLSLDRSTWDMDSELANKLYERWKKYKNGDVCKRNVLGLIRFAHLKKSKESESFVFFLPRLIAEPGLMLNFSATALRNSMVKYFMVKNPSSWPVSLQLLPLSLYPKPEAAVHLLHRWFGIDTQMINFTTGEFQLTKACPYRGVRSEESRLGTLQFHLQPLEMKRVGIVFTPADYGKVTSLILIRNNLTVLDMIAVEGFGARELLKVGGRLPGAGGSLRFKVPESTLMDCRRQPKDSKQMLSITKSFKVENIGPLPITVSSLKINGYNCQGYGFEVLDCHQFSLDPNTSRDISIVFTPDFTSSWVIRDLTLVTAADLEFRFTLNVTLPHHLLPLCANVVPGPSWEESFWRLTVFFVSLSLLGVILIAFQQAQYILMEFMKTRQRQNASSSSQQNSGPMDVISSHSHKSNCKNFLDTYGPSDKGRGKGCLPVNTPQSRIQNAAKRSPATYSHSQKKHKCSVYYGKHKPSTSVASSSNTTTEEKQTSTLGSPLSAAKEDICTDVMGENWISLKYASGMNVNLQKNLTLPKNLLNKEENTLKNTVVVHNPSSECNVKEGVQTCMFPKETDIKTSGNIAELKERELCPLKTSKKLPENHLPRNSPHYHQSDLPEISRKNNGNNQQVPAKNEVGNCETLKKVDAKSSEKKIHKASKEDTCSEKQDIPSVEQEDPSRKKKLQEKKEGNLQNLNWNKSRTCRKNKKRGVAQASRSSEQSELKLVYNDFERPELSGDMDVRNWGTQEDAREICKADAAVISGLPAAQREAEGYYQKPEKKCVDKFCSDSSSDCGSSSGSVRASRGSWGSWSSASSSDGDKKPVVDAQHFLPAGDSVSQNDFPSETPISLNLSHNICNPIDVNNLPQYAEPSCPSLPAAPAGIEEDKGLYSPGDLWPTQPVCLASSLNCTLENSSPCVLQEPAPVHNSFIDWNAMCEGQFPSVYCPLELNDYNAFPEENMNYANGFPCPAEVQTDFIDHNSQSTWNTPPNMPAAWGHASFINSPPYLTSTRSLSPMSGLFGSIWAPQSDVYENCCPINPTTEHSTHMENQAVMCKEYYPGFNPFRAYMNLDIWTTTANRNANFPLSRDSSYCGNV

Target ORF information:

RefSeq Version	XM_012645266.1
Organism	Propithecus coquereli(Coquerel's sifaka)
Definition	Propithecus coquereli KIAA0922 ortholog (KIAA0922), mRNA.

Target ORF information:

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

XM_012645266.1

ORF Insert Sequence:

ATGGGGAAAA CTTCCTTCAG AATTATTTTC TTGCCTACTG AAGAAGGAAG CATTGAAAGC 
TCTTTATTTA TTAATACCTC TTCATATGGA GTCCTTTCCT ATCATGTATC TGGAATTGGC 
ACTCGCAGAA GCTCTACAGA AGGGTCTGCA AAGCAGCTAC CAAATGCTTA TTTTCTGCTT 
CCACAGGTCC AGAGCATTCA GCGATCACAA ACGCAGGCAG AAACCACTAA TACTAGCCTC 
TTGCAGGTGC AACTGGAATG CAGTTTACAT AATAAAGTGT GTCAGCAATT AAAGAGTTGT 
TACCTGGAAT CTGATGATGT TTTGCGCCTA CAAATGAGCA TAATGGTAAC AATGGAAAAC 
TCCTCAAAAG ATTTTGAAGA AAACACACAA GATTTGTTAG ATCATCTCTC TATTGTTTAT 
GTAGCTACAG ATAAATCCGA GACCTCAGAT GATTCAACGG TCAATATGTA CATACTACAT 
TCAGGAAGCA GCCTTGTGTG GATACAGGAT GTACATCATT TCTCGCAGAG AGATGCTGTG 
TCTCTGCAGT TTGAACCAGT GCTCCTCCCT ACTTCTACAA CCAACTTTAC GAAAATTGCT 
TCTTTTACTT GCAAAGCTAC ATCATGTGAC AGTGAAATTA CGGAAGATGT GAAGAAAACA 
AAGAACATTC CAACACTAAA AGCATGCCTC TCCTCTTCTG TGGTTCAAGG GTATTTTAGA 
ATGGACTCTT CTGCAACCCA GTTTCACATA GAGACTCACG AGAACACGTC AGGAGTTTGG 
TCAATATGGT ACCACAACCG TTTTGACCGT AGTGTTGTAT TAAATGATGT GTTTGTTTCC 
AAGGAGACCA AGCACATTTT AAAGATTCTG AATTTCACTG GCCCTTTATT TCTACCTCCA 
GGCTGTTGGA ATATATTTTC TTTGAAACTT GCTGTTAAAG ACATTGCCAT AAATCTATTC 
ACCAATGTAT TTTTGACTAC AAACATAGGT GCCATTTTTT CAATACCTCT ACAGATTTAC 
TCAGCACCGA CCAAGGAAGG GAGTCTGGGT TTTGAAGTGA TAGCACATTG TGGCATGCAT 
TATTTCATGG GAAAATCAAA AGCAGGAACT CCTAATTGGA ATGGGAGCCT TTCTCTGGAT 
CGGTCTACCT GGGATATGGA TTCTGAACTT GCAAATAAAT TGTATGAAAG ATGGAAGAAA 
TACAAAAATG GCGACGTCTG CAAGAGGAAT GTTTTGGGAC TGATTCGGTT TGCTCACTTG 
AAGAAATCCA AGGAGTCAGA GTCTTTTGTT TTCTTCTTGC CTCGTTTGAT TGCAGAGCCT 
GGCCTCATGT TAAACTTCAG CGCCACTGCC CTTAGGAACA GCATGGTGAA GTACTTTATG 
GTAAAGAACC CATCCTCCTG GCCGGTTTCC TTGCAGCTCC TGCCTCTCTC CTTGTACCCG 
AAACCTGAAG CTGCGGTACA TCTGCTCCAC AGATGGTTTG GCATCGATAC GCAGATGATT 
AATTTCACAA CTGGTGAATT CCAGCTCACC AAAGCTTGCC CTTACCGGGG AGTGCGTTCC 
GAAGAGTCCA GACTGGGCAC CCTCCAATTC CATTTGCAGC CTTTGGAAAT GAAAAGAGTT 
GGCATAGTTT TCACACCCGC TGACTATGGA AAAGTTACCT CACTCATACT AATCCGGAAT 
AACCTGACTG TTCTCGACAT GATCGCTGTG GAAGGGTTTG GAGCCAGAGA GTTACTGAAA 
GTAGGCGGAA GACTTCCGGG TGCGGGAGGC TCCCTCCGAT TTAAGGTGCC GGAGTCCACG 
CTGATGGACT GCCGTCGACA ACCGAAAGAC AGCAAGCAAA TGTTATCTAT TACAAAGAGC 
TTTAAAGTTG AAAATATTGG ACCTCTTCCT ATAACTGTGT CATCTCTGAA AATTAATGGG 
TATAATTGCC AAGGTTATGG ATTTGAAGTG TTAGATTGTC ATCAGTTTTC CCTGGACCCA 
AACACATCCC GTGATATCAG CATCGTGTTT ACTCCAGACT TTACATCTTC CTGGGTCATT 
CGTGACCTAA CTCTTGTAAC TGCAGCAGAC CTAGAATTTC GCTTCACGCT CAACGTGACC 
CTCCCTCATC ACCTGTTGCC CTTATGTGCA AATGTGGTGC CAGGACCCAG CTGGGAGGAG 
TCATTTTGGA GGCTCACAGT CTTTTTTGTC AGTTTGTCTC TGTTGGGTGT GATTTTAATA 
GCCTTCCAAC AAGCGCAGTA CATTCTTATG GAATTCATGA AAACAAGACA GAGGCAAAAT 
GCTAGCTCCT CATCACAGCA AAATAGCGGT CCAATGGATG TAATCAGCTC CCACTCTCAC 
AAAAGCAATT GCAAGAACTT TCTTGATACA TATGGCCCCT CTGATAAAGG CCGAGGGAAA 
GGCTGCCTTC CTGTGAACAC TCCCCAGAGC AGGATCCAGA ATGCTGCCAA GAGGAGCCCA 
GCCACCTACA GTCATTCTCA GAAGAAGCAC AAGTGCTCAG TGTACTACGG TAAACACAAA 
CCCAGCACCT CTGTGGCCAG CAGCTCCAAC ACTACTACTG AGGAAAAGCA GACTTCGACC 
CTAGGCAGCC CCCTGTCTGC TGCTAAAGAG GACATTTGCA CTGACGTCAT GGGGGAGAAC 
TGGATCAGCC TCAAATATGC CAGTGGCATG AATGTCAACC TGCAGAAGAA TTTAACCCTT 
CCCAAAAACT TATTGAACAA AGAAGAAAAC ACACTGAAAA ACACAGTTGT TGTCCATAAT 
CCTTCTTCAG AATGTAACGT GAAGGAGGGA GTACAGACAT GTATGTTTCC TAAGGAAACT 
GACATTAAAA CTTCAGGGAA CATAGCTGAG CTCAAGGAAC GGGAGCTCTG TCCACTGAAG 
ACCTCTAAGA AACTACCTGA AAATCATTTG CCGAGAAACT CACCTCATTA CCACCAGTCA 
GACTTGCCAG AAATTTCCAG GAAAAATAAT GGGAATAACC AGCAAGTGCC TGCCAAGAAT 
GAAGTAGGTA ATTGTGAAAC TTTGAAAAAG GTTGATGCAA AATCTTCAGA AAAGAAGATT 
CACAAAGCAT CTAAAGAAGA CACATGTTCT GAGAAGCAGG ACATACCTTC AGTGGAGCAA 
GAAGATCCTT CTAGGAAGAA GAAGCTTCAG GAGAAAAAGG AAGGAAATTT ACAAAATTTA 
AATTGGAATA AAAGCCGAAC ATGTAGGAAA AACAAGAAAA GGGGTGTTGC TCAGGCCTCA 
AGGTCTTCTG AACAGAGTGA ACTGAAGCTT GTGTACAATG ACTTTGAGAG GCCCGAGCTG 
AGCGGCGACA TGGATGTGAG AAACTGGGGT ACACAGGAAG ACGCCAGGGA GATTTGTAAA 
GCAGATGCCG CAGTTATAAG CGGGTTGCCT GCGGCACAGA GAGAGGCAGA GGGTTACTAC 
CAGAAACCTG AGAAGAAGTG TGTGGACAAG TTTTGCTCCG ATTCCAGCTC CGACTGTGGG 
AGCTCCTCAG GCAGCGTGCG TGCCAGCCGG GGCAGCTGGG GGAGCTGGAG CAGTGCCAGC 
AGCTCCGACG GGGACAAGAA GCCCGTGGTG GACGCCCAGC ATTTCCTGCC GGCCGGAGAC 
AGTGTTTCAC AGAATGATTT TCCTTCTGAA ACTCCCATCT CCTTAAACCT TTCTCATAAC 
ATCTGCAACC CCATTGACGT GAATAACCTC CCCCAGTACG CAGAGCCCTC CTGCCCCAGC 
CTTCCTGCGG CGCCCGCGGG CATCGAGGAA GATAAAGGTC TTTACTCACC TGGAGACCTG 
TGGCCCACCC AGCCGGTGTG TCTGGCGAGC AGCTTGAACT GCACTCTGGA GAACAGCTCG 
CCGTGTGTGC TGCAGGAGCC CGCCCCCGTC CATAACAGTT TCATCGATTG GAACGCAATG 
TGCGAAGGCC AGTTTCCCAG TGTGTACTGT CCATTGGAGT TGAACGATTA CAATGCCTTC 
CCAGAAGAAA ACATGAATTA TGCCAACGGC TTCCCCTGCC CTGCCGAAGT TCAGACAGAC 
TTTATCGATC ACAACTCTCA GTCTACCTGG AACACCCCAC CCAACATGCC TGCTGCCTGG 
GGACACGCCA GTTTCATCAA CTCTCCGCCC TACCTCACAA GCACCCGAAG CTTGTCTCCA 
ATGTCTGGAC TTTTTGGTTC CATTTGGGCC CCGCAAAGCG ATGTGTATGA AAATTGCTGC 
CCCATCAATC CTACCACGGA ACATTCTACT CACATGGAAA ACCAGGCCGT CATGTGCAAG 
GAATACTACC CGGGGTTTAA CCCGTTTCGT GCCTATATGA ACCTGGACAT ATGGACTACC 
ACAGCAAACA GGAACGCAAA CTTCCCGCTG TCCAGAGACT CCAGTTACTG TGGGAATGTG 
TGA