LOC110992916 cDNA ORF clone, Pieris rapae(cabbage white)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC110992916
Entrez Gene ID	110992916
Full Name	cilia- and flagella-associated protein 61-like
Gene Type	protein-coding
Organism	Pieris rapae(cabbage white)

mRNA and Protein(s)

mRNA	Protein	Name
XM_022258912.1	XP_022114604.1	cilia- and flagella-associated protein 61-like

Pathways from BioSystems
Gene Ontology

The following LOC110992916 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC110992916 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
OPi77249	XM_022258912.1 Latest version!	Pieris rapae cilia- and flagella-associated protein 61-like (LOC110992916), 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)

LOC110992916 ( XM_022258912.1 ) cDNA ORF clone, Pieris rapae(cabbage white) -> XP_022114604.1 Pieris rapae cilia- and flagella-associated protein 61-like (LOC110992916), mRNA.

Price & Availability↑

CloneID	OPi77249
Clone ID Related Accession (Same CDS sequence)	XM_022258912.1
Accession Version	XM_022258912.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4062bp) 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	2017-08-09
Organism	Pieris rapae(cabbage white)
Product	cilia- and flagella-associated protein 61-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019093242.1) 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 :: Pieris rapae Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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##

ATGGTTTCTC GTATAATTCG GGCGTTGCCT TTAGGAAGTG TGCGGTTAGC AGGACCTGAT 
GATGTTCCTG CTATTATGAC TTTGGTCAAC GAATCGATGT CTCTGAATTT TCGTATTACT 
TGTCCTGCGG ATTTAAACTA TCTACTGAAA AATTGTGTTT TAACTATTTG CCAGTTAGAT 
ATAAACGGAA CAATAGTAGG TGCACTAGCT CTAAAGGATC ATCCTCTGGT GCCTTCTGTC 
AACCCCGCCG CGTGGGAAGA TTTTGTATGG ACTAAATATA AGTATGTAGA ACTAAATTCA 
CGGAATACAA TATTCCTGCA CCTGCTATGT TGGAATCCAA TTTATGCGCG AGAACTTGTT 
GATAATATGC TAAAGTCTGT ATTTATGCAT GACCCTTACC TACAGTACAT TGCCATGATG 
AGAACCATTA TTGAACATCC ACTGTTAGTA CCAGGACAGT CGCGTTCTGA GGCATCATTC 
AGACGGGTTC AAGCGTTGGA GCGAGGTGTT CCTGGAGACC AGCTCCCGAC GCTGTTAGTT 
GCTGAGAGGG GGGACGTCAG TCCTAGACTT AAGATTCGAC GAGCAGTTGA AGCGGATAAT 
GATGATATAG TGCCTATCAT AGAACAACAT TCTGTTCGAC TTCGTCAGTT GTACGGAGAT 
TTTTACGTGA GCGAGCTTAT ATCAAGACAT CCTGAATCAG AGAGGGCTTT GCTTGTGTGT 
GAGCATAAAG AAATGGCAGT TGGTGTAATG TGCCTCAACA CTGAAATAAA TTTTGAGGAG 
CTGGAGGAGA GTTTTGATCT ATCACCATTT GCCGGTCTGC GGCGTTTAGA ACGCATCATA 
AAGCCTAGAG ATAAAACCGT AGAGGGTTCA ACTGTCAGCC TCTTAGAATC AAAAGATGAT 
CCCCAAAAGG AATCGTCCTT TACAAGCGTA ATGGCTAGAG AAACTAAATC CAGGGTAACT 
TGGGTATACG GTGGTGACGA ATTCTCCAAG TTCAAAGAAC AAGAAGTGAG GGCACCACGC 
CCATCACAAC CCGGCGTGTT CAGCCAACTC GACGTATTGA ATCTCTTTCT CGAAGAGCCA 
GAGGAAATGG AATATGATAT CGTCAATATA GACCCAGACT TAATAAAAGT ACCGAAGTAC 
TTCTATGATA AAGTTGGTGA CAGCCAAGAT GAAAAATCAA AAGTTCGTCG CAGGGAATCA 
TTCTTTGACA ATAAATATCT TGATAAGGAC GTAGGAAAAA GGACATCCGA TTTCCCCGTG 
ATATTACCAG CGAAGCCACC AGAGCCAACA CGCTTTGTAG GACCACCTAA TGCCTTTCTA 
TTGGAGTTGT TTGCTATGCG CCATGATTAT GATGAACGAT ATGGTTTCGA TATGTTGGAA 
GTGGCGTTTG AGCTATTTCC AGATAGAGAT TATTGCATTG TCTGTTTGCC GACTAACCAT 
ACGTGCTTCC CGCTGCTAGA ACATTTTACT CTAGTAACAC CGTTCAATTA TCGGATGAGG 
TTTATCAATG AGACATTATA CGTGGTTCAC ATAAATTCTG TTAGAGGAGA TGTGAGAGTA 
CGTCCAGCTG AACTATACGA TGCTATTAGT ATGAATGACA TTCTGGAGAA TTCGCCAAGA 
AAGAAAGAAA TTTTGGAATT GTTTCACGAT AGTTTTGATA TTCCCTCGTT GTCATCTTTT 
TCTCTTCTCA GTCAGAATCA GCCGATTGGC TTGGTCATAC TGGGACCTCT AGAAGATACA 
ACAATCATAA GAGCACAATA TGACTTGGAC CCTGAACCTT TTAAGTATGG TACTGATGCC 
GCGGTTTTGG CGGGTATAAT GAGCCCAATA ATGGAGCCAC ACGGCCGTTG GTATTTACGT 
GACTTAATCA GATATACAAA ATATACTACG CTGTTTTACG CTTGTCGTCT TTTTGCTAAA 
GGAGAAGCGA GTCCTAACAG ACATTTAATG TCTCTATCGA GTCACATGAA ACCAGTGTTA 
CCTCGACAAT TCTTCCCCAC TGTTAGAGGA AATAAAGATC TTGAAGTGAT CTTTAAACCC 
ATGGCCACAC CTTTTGCCTT GTGGACATTA GAACGTCCGT TAACAAGTAT GCCCAAAGTG 
TACGTTAACA ATAGTATAGT GGTTGTGGGT GCCAGTCGTA CGGGCTTATC ATTTATTGAA 
TCTCTAGTTA TGGGTTCCAG TGCTCAGTAC CTAACATTCA CCAACATAAC CCTGGTCTCT 
GAGCACGGTC TTCCAACAGT TCCAGACTGT CTGAAAGCAG CCGAAATCTG CGTACCGCGT 
GACGGTAGAT ACACAGACAG ATATATAAAA AGCATGCCTT TTTACTATTA TGTCGATGTT 
TTATCCGGAC TTATGGTTAA AATTGATAGG AAAAAGAAAT GCATTCATCT AAAGGACGGT 
GGTCTGAAGT TCTATGATGA GCTGGTGCTG GTCTGTGGGC AGCAGTTTCA GCATCCTGAT 
TACTTGAAGG AATCTCCAGG CAAAGACACA GTCAAAGAAA CTGGGCCAGT GAAGTTCTGC 
GATCGTATTT TAATGGATGA TGTCAAATAC CAACCTGATA GGGTTCCACC ACCACCAGAA 
TTGCCTGAAA ATGTGATGCT TATCAATTCC CTGGACCAAG CGAATTGCTG TCTTAAAAAA 
CTGTTGAAAC TTATAAAGGA AACTAAACAT CAAGATAATC GTTTGAGTGA AGATAACAAA 
ATTGTCGTAT ACGGAGACTG CGTAGAATCA TATACATGTA TCGCAGCATT GTTGGAATTG 
GGTATAAGTG CTAAAACAAT TGCATTCGTG GAACCATTTC CTCCTGATGA CAGTAGAAAA 
ATGAGAGTTA ATTGTTTTAA TAATGAAACG ATCGATGGTC GAGTACAATT ATCTTTGAAA 
AAGTTAAACA TCCAAGTGTT TAGAAAAACT TATTTGTATG GATGGATGCA GAAAGGAGAA 
AGGGTGGAAA CTATACGACT TATATCACCT CTAACGGCGT TACATTTACC TTGCTTTGCC 
TTGTTTTATT ATGGGCTTAA AGCTATCGAT GTTTATGCGT TTAAAGCAAT AAATGAATGC 
GGCCTAGTAT ACGATGGAGG TTTAGTAGTA GGACCCAATT TCGATACGAA TGATCCTCAC 
GTATTTGCGG CTGGCCCTTG TGTGAGGTAT TCAAGGAAAC TGTATGCAAA TAATAGATTG 
CATAAATATT ATACTTCAGA GGATGTCGGA GAAGCAATGG CTCGTTTATT TCTCCGCAAA 
CTGGACCCAT TCATGACAGG TGTTCACGAA GAGGAGTCTC CCACATCTGA AACTATATCG 
CGCTTTAGCT CCAATCTTCT TCCACTTAAA GACTCTCACG CTAGTGTCGC TAGTGCTTTA 
CGACTTTCAA TGAGTGCCAT CAGAGGACGT TGGCAGCCGG TACCTAAATT CGATGCCCCG 
CTAGCACAAA CAGCAACTCT ACCCGGGCCG TTGTATTATC TTATATTGAG AAAACCCGGC 
CCTGAAGTAC CCATGGCTGT GCAGATGACA TTGCCTCATC AAGGTCACAC ATTAATAACG 
GATAAAAATG AGAATTATTT TCGCCTTCAA ATAAACGCAT TGCATACAAT TGAATCGATC 
ACCTGTTTGT CAAAGAAACG ATTTGCTTCA GACAACTTTA TTATGTTGTA TGGAAAACAT 
GAGTCGTATT TCAACAATTT GCTCGCTAGA TTCGAGTTGA ACCTGATTGA AGACTTCTAT 
GATTTCTTCA CGAAGCCGTG GATCTCGGCT TTGTATCAAG AATCATTCCA CGGTCTTATG 
ATGGAAATGG ACGACCATGG AATCAAAACG GTCCGCGATG TGCTGAAGAC GAAATATAAC 
GAGTATCTTG AAGCCAACCT TGACTTGTCA ACGTGTATGG TTACTTGCAC TGGGGAAAGG 
CTAAAGGAGT GCGGTCAGAA CGCTTGGTTA CGTCACGAGG CCGACGTGTT CTGGCGATCG 
ATAGACGGCG AACACATTGT CGGCTCGCAC CTCGCGGCCT ATCTGCGACG GAACAATGTC 
ACAAACCCCC AATACGCGAT GCCCAAAGCT GAATATATTT GA

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

RefSeq	XP_022114604.1
CDS	1..4062
Translation	MVSRIIRALPLGSVRLAGPDDVPAIMTLVNESMSLNFRITCPADLNYLLKNCVLTICQLDINGTIVGALALKDHPLVPSVNPAAWEDFVWTKYKYVELNSRNTIFLHLLCWNPIYARELVDNMLKSVFMHDPYLQYIAMMRTIIEHPLLVPGQSRSEASFRRVQALERGVPGDQLPTLLVAERGDVSPRLKIRRAVEADNDDIVPIIEQHSVRLRQLYGDFYVSELISRHPESERALLVCEHKEMAVGVMCLNTEINFEELEESFDLSPFAGLRRLERIIKPRDKTVEGSTVSLLESKDDPQKESSFTSVMARETKSRVTWVYGGDEFSKFKEQEVRAPRPSQPGVFSQLDVLNLFLEEPEEMEYDIVNIDPDLIKVPKYFYDKVGDSQDEKSKVRRRESFFDNKYLDKDVGKRTSDFPVILPAKPPEPTRFVGPPNAFLLELFAMRHDYDERYGFDMLEVAFELFPDRDYCIVCLPTNHTCFPLLEHFTLVTPFNYRMRFINETLYVVHINSVRGDVRVRPAELYDAISMNDILENSPRKKEILELFHDSFDIPSLSSFSLLSQNQPIGLVILGPLEDTTIIRAQYDLDPEPFKYGTDAAVLAGIMSPIMEPHGRWYLRDLIRYTKYTTLFYACRLFAKGEASPNRHLMSLSSHMKPVLPRQFFPTVRGNKDLEVIFKPMATPFALWTLERPLTSMPKVYVNNSIVVVGASRTGLSFIESLVMGSSAQYLTFTNITLVSEHGLPTVPDCLKAAEICVPRDGRYTDRYIKSMPFYYYVDVLSGLMVKIDRKKKCIHLKDGGLKFYDELVLVCGQQFQHPDYLKESPGKDTVKETGPVKFCDRILMDDVKYQPDRVPPPPELPENVMLINSLDQANCCLKKLLKLIKETKHQDNRLSEDNKIVVYGDCVESYTCIAALLELGISAKTIAFVEPFPPDDSRKMRVNCFNNETIDGRVQLSLKKLNIQVFRKTYLYGWMQKGERVETIRLISPLTALHLPCFALFYYGLKAIDVYAFKAINECGLVYDGGLVVGPNFDTNDPHVFAAGPCVRYSRKLYANNRLHKYYTSEDVGEAMARLFLRKLDPFMTGVHEEESPTSETISRFSSNLLPLKDSHASVASALRLSMSAIRGRWQPVPKFDAPLAQTATLPGPLYYLILRKPGPEVPMAVQMTLPHQGHTLITDKNENYFRLQINALHTIESITCLSKKRFASDNFIMLYGKHESYFNNLLARFELNLIEDFYDFFTKPWISALYQESFHGLMMEMDDHGIKTVRDVLKTKYNEYLEANLDLSTCMVTCTGERLKECGQNAWLRHEADVFWRSIDGEHIVGSHLAAYLRRNNVTNPQYAMPKAEYI

Target ORF information:

RefSeq Version	XM_022258912.1
Organism	Pieris rapae(cabbage white)
Definition	Pieris rapae cilia- and flagella-associated protein 61-like (LOC110992916), mRNA.

Target ORF information:

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

XM_022258912.1

ORF Insert Sequence:

ATGGTTTCTC GTATAATTCG GGCGTTGCCT TTAGGAAGTG TGCGGTTAGC AGGACCTGAT 
GATGTTCCTG CTATTATGAC TTTGGTCAAC GAATCGATGT CTCTGAATTT TCGTATTACT 
TGTCCTGCGG ATTTAAACTA TCTACTGAAA AATTGTGTTT TAACTATTTG CCAGTTAGAT 
ATAAACGGAA CAATAGTAGG TGCACTAGCT CTAAAGGATC ATCCTCTGGT GCCTTCTGTC 
AACCCCGCCG CGTGGGAAGA TTTTGTATGG ACTAAATATA AGTATGTAGA ACTAAATTCA 
CGGAATACAA TATTCCTGCA CCTGCTATGT TGGAATCCAA TTTATGCGCG AGAACTTGTT 
GATAATATGC TAAAGTCTGT ATTTATGCAT GACCCTTACC TACAGTACAT TGCCATGATG 
AGAACCATTA TTGAACATCC ACTGTTAGTA CCAGGACAGT CGCGTTCTGA GGCATCATTC 
AGACGGGTTC AAGCGTTGGA GCGAGGTGTT CCTGGAGACC AGCTCCCGAC GCTGTTAGTT 
GCTGAGAGGG GGGACGTCAG TCCTAGACTT AAGATTCGAC GAGCAGTTGA AGCGGATAAT 
GATGATATAG TGCCTATCAT AGAACAACAT TCTGTTCGAC TTCGTCAGTT GTACGGAGAT 
TTTTACGTGA GCGAGCTTAT ATCAAGACAT CCTGAATCAG AGAGGGCTTT GCTTGTGTGT 
GAGCATAAAG AAATGGCAGT TGGTGTAATG TGCCTCAACA CTGAAATAAA TTTTGAGGAG 
CTGGAGGAGA GTTTTGATCT ATCACCATTT GCCGGTCTGC GGCGTTTAGA ACGCATCATA 
AAGCCTAGAG ATAAAACCGT AGAGGGTTCA ACTGTCAGCC TCTTAGAATC AAAAGATGAT 
CCCCAAAAGG AATCGTCCTT TACAAGCGTA ATGGCTAGAG AAACTAAATC CAGGGTAACT 
TGGGTATACG GTGGTGACGA ATTCTCCAAG TTCAAAGAAC AAGAAGTGAG GGCACCACGC 
CCATCACAAC CCGGCGTGTT CAGCCAACTC GACGTATTGA ATCTCTTTCT CGAAGAGCCA 
GAGGAAATGG AATATGATAT CGTCAATATA GACCCAGACT TAATAAAAGT ACCGAAGTAC 
TTCTATGATA AAGTTGGTGA CAGCCAAGAT GAAAAATCAA AAGTTCGTCG CAGGGAATCA 
TTCTTTGACA ATAAATATCT TGATAAGGAC GTAGGAAAAA GGACATCCGA TTTCCCCGTG 
ATATTACCAG CGAAGCCACC AGAGCCAACA CGCTTTGTAG GACCACCTAA TGCCTTTCTA 
TTGGAGTTGT TTGCTATGCG CCATGATTAT GATGAACGAT ATGGTTTCGA TATGTTGGAA 
GTGGCGTTTG AGCTATTTCC AGATAGAGAT TATTGCATTG TCTGTTTGCC GACTAACCAT 
ACGTGCTTCC CGCTGCTAGA ACATTTTACT CTAGTAACAC CGTTCAATTA TCGGATGAGG 
TTTATCAATG AGACATTATA CGTGGTTCAC ATAAATTCTG TTAGAGGAGA TGTGAGAGTA 
CGTCCAGCTG AACTATACGA TGCTATTAGT ATGAATGACA TTCTGGAGAA TTCGCCAAGA 
AAGAAAGAAA TTTTGGAATT GTTTCACGAT AGTTTTGATA TTCCCTCGTT GTCATCTTTT 
TCTCTTCTCA GTCAGAATCA GCCGATTGGC TTGGTCATAC TGGGACCTCT AGAAGATACA 
ACAATCATAA GAGCACAATA TGACTTGGAC CCTGAACCTT TTAAGTATGG TACTGATGCC 
GCGGTTTTGG CGGGTATAAT GAGCCCAATA ATGGAGCCAC ACGGCCGTTG GTATTTACGT 
GACTTAATCA GATATACAAA ATATACTACG CTGTTTTACG CTTGTCGTCT TTTTGCTAAA 
GGAGAAGCGA GTCCTAACAG ACATTTAATG TCTCTATCGA GTCACATGAA ACCAGTGTTA 
CCTCGACAAT TCTTCCCCAC TGTTAGAGGA AATAAAGATC TTGAAGTGAT CTTTAAACCC 
ATGGCCACAC CTTTTGCCTT GTGGACATTA GAACGTCCGT TAACAAGTAT GCCCAAAGTG 
TACGTTAACA ATAGTATAGT GGTTGTGGGT GCCAGTCGTA CGGGCTTATC ATTTATTGAA 
TCTCTAGTTA TGGGTTCCAG TGCTCAGTAC CTAACATTCA CCAACATAAC CCTGGTCTCT 
GAGCACGGTC TTCCAACAGT TCCAGACTGT CTGAAAGCAG CCGAAATCTG CGTACCGCGT 
GACGGTAGAT ACACAGACAG ATATATAAAA AGCATGCCTT TTTACTATTA TGTCGATGTT 
TTATCCGGAC TTATGGTTAA AATTGATAGG AAAAAGAAAT GCATTCATCT AAAGGACGGT 
GGTCTGAAGT TCTATGATGA GCTGGTGCTG GTCTGTGGGC AGCAGTTTCA GCATCCTGAT 
TACTTGAAGG AATCTCCAGG CAAAGACACA GTCAAAGAAA CTGGGCCAGT GAAGTTCTGC 
GATCGTATTT TAATGGATGA TGTCAAATAC CAACCTGATA GGGTTCCACC ACCACCAGAA 
TTGCCTGAAA ATGTGATGCT TATCAATTCC CTGGACCAAG CGAATTGCTG TCTTAAAAAA 
CTGTTGAAAC TTATAAAGGA AACTAAACAT CAAGATAATC GTTTGAGTGA AGATAACAAA 
ATTGTCGTAT ACGGAGACTG CGTAGAATCA TATACATGTA TCGCAGCATT GTTGGAATTG 
GGTATAAGTG CTAAAACAAT TGCATTCGTG GAACCATTTC CTCCTGATGA CAGTAGAAAA 
ATGAGAGTTA ATTGTTTTAA TAATGAAACG ATCGATGGTC GAGTACAATT ATCTTTGAAA 
AAGTTAAACA TCCAAGTGTT TAGAAAAACT TATTTGTATG GATGGATGCA GAAAGGAGAA 
AGGGTGGAAA CTATACGACT TATATCACCT CTAACGGCGT TACATTTACC TTGCTTTGCC 
TTGTTTTATT ATGGGCTTAA AGCTATCGAT GTTTATGCGT TTAAAGCAAT AAATGAATGC 
GGCCTAGTAT ACGATGGAGG TTTAGTAGTA GGACCCAATT TCGATACGAA TGATCCTCAC 
GTATTTGCGG CTGGCCCTTG TGTGAGGTAT TCAAGGAAAC TGTATGCAAA TAATAGATTG 
CATAAATATT ATACTTCAGA GGATGTCGGA GAAGCAATGG CTCGTTTATT TCTCCGCAAA 
CTGGACCCAT TCATGACAGG TGTTCACGAA GAGGAGTCTC CCACATCTGA AACTATATCG 
CGCTTTAGCT CCAATCTTCT TCCACTTAAA GACTCTCACG CTAGTGTCGC TAGTGCTTTA 
CGACTTTCAA TGAGTGCCAT CAGAGGACGT TGGCAGCCGG TACCTAAATT CGATGCCCCG 
CTAGCACAAA CAGCAACTCT ACCCGGGCCG TTGTATTATC TTATATTGAG AAAACCCGGC 
CCTGAAGTAC CCATGGCTGT GCAGATGACA TTGCCTCATC AAGGTCACAC ATTAATAACG 
GATAAAAATG AGAATTATTT TCGCCTTCAA ATAAACGCAT TGCATACAAT TGAATCGATC 
ACCTGTTTGT CAAAGAAACG ATTTGCTTCA GACAACTTTA TTATGTTGTA TGGAAAACAT 
GAGTCGTATT TCAACAATTT GCTCGCTAGA TTCGAGTTGA ACCTGATTGA AGACTTCTAT 
GATTTCTTCA CGAAGCCGTG GATCTCGGCT TTGTATCAAG AATCATTCCA CGGTCTTATG 
ATGGAAATGG ACGACCATGG AATCAAAACG GTCCGCGATG TGCTGAAGAC GAAATATAAC 
GAGTATCTTG AAGCCAACCT TGACTTGTCA ACGTGTATGG TTACTTGCAC TGGGGAAAGG 
CTAAAGGAGT GCGGTCAGAA CGCTTGGTTA CGTCACGAGG CCGACGTGTT CTGGCGATCG 
ATAGACGGCG AACACATTGT CGGCTCGCAC CTCGCGGCCT ATCTGCGACG GAACAATGTC 
ACAAACCCCC AATACGCGAT GCCCAAAGCT GAATATATTT GA