HFM1 cDNA ORF clone, Condylura cristata(star-nosed mole)

Gene
Clones
gRNAs

Summary

Gene Symbol	HFM1
Entrez Gene ID	101619557
Full Name	HFM1, ATP dependent DNA helicase homolog
Gene Type	protein-coding
Organism	Condylura cristata(star-nosed mole)

mRNA and Protein(s)

mRNA	Protein	Name
XM_004689786.1	XP_004689843.1	LOW QUALITY PROTEIN: probable ATP-dependent DNA helicase HFM1

Pathways from BioSystems
Gene Ontology

The following HFM1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the HFM1 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
OCo241077	XM_004689786.1 Latest version!	Condylura cristata HFM1, ATP-dependent DNA helicase homolog (S. cerevisiae) (HFM1), 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)

HFM1 ( XM_004689786.1 ) cDNA ORF clone, Condylura cristata(star-nosed mole) -> XP_004689843.1 Condylura cristata HFM1, ATP-dependent DNA helicase homolog (S. cerevisiae) (HFM1), mRNA.

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CloneID	OCo241077
Clone ID Related Accession (Same CDS sequence)	XM_004689786.1
Accession Version	XM_004689786.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4323bp) 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	2015-06-09
Organism	Condylura cristata(star-nosed mole)
Product	LOW QUALITY PROTEIN: probable ATP-dependent DNA helicase HFM1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004567127.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Condylura cristata Annotation Release 101 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## ##RefSeq-Attributes-START## internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END##

ATGCTGAAGT CAAGTGACTC CTTATTTTCT TTGGATACTT TGTTTTCTGA ACAACCAATT 
GAAGCTGAAA ACTATCCAGT AAATGACAAA GCACTGGATT TGTTTCTCCA GCCTGCTCCA 
CTGATTTCAG AAATTCCAGA TACTCAGGCA TTAGAAGAAG AAATAGAAAG TTGTAAACTT 
TTAGGTCAGA AAAAGAGACC AAAAATGTTA ACATCAGATT TGAAGATAAC TAATGAAGAC 
AAAAATTCTG CTTCACCAAT ACAAAAGTTC CAATTTACCT CTCCTTCTAG AAAATATAAG 
GAAAATGATC TAAATTTAGG AGGGGAAGGT AAAAATGATT TACCGCATGC TGCTCTGAAG 
CTGACCTATA GTTCTTTCCA GAACAGAAAT CACATTGGCA CTGAGATAGC ACCTGAGAAA 
AGTATTTCAG ACATAAAGTT AGTTAATTTT ACAGAGGATA AAGGAGCAAG CACATCAACA 
TTTCGAAAAA GATTATTTAA AATATCTGAC AGTATGCATG GGAGTGCTTT TTCTAATGAC 
AGTATAAACT TGGATTCTCA TATTGGCTCA GTGAAAATTG CCCAAACAGA AATGAACAAA 
GGTTCATGGA AATGTAGCAA TAGTAAGCAG AAACCTCAGT ATTCAAACAT TAACATGTTT 
ACAAGTGATG CTTTTTCTGT TTCTGAACTT GGAGGAAGTA TATTCAGAGC ACCATCTTTT 
TCATCCCATC CTCACAAAAT TCAAGGGGCT ACAGAAAATG GTGCAGTTTC CTTGAAGGCT 
GTCACAGAAA TCCCAACAAA ATTTAGGAGT ATTTTCAAAG AATTCCCATA TTTCAACTAT 
ATACAGTCCA AAGCCTTTGA TGATCTTCTT TACACAGATA AGAATTTTGT GATTTGTGCT 
CCAACTGGAT CTGGAAAAAC CGTATTGTTT GAATTAGCTA TAACAAGATT GCTAATGGAA 
GTACCCTTGC CATGGTCAAA CATTAAAGTT GTTTACATGG CACCAATAAA AGCCCTGTGT 
AGTCAGCGTT TTGATGACTG GAAAGGAAAA TTTGGACCAA TAGGATTGAA TTGCAAAGAA 
CTCACTGGAG ATACAGTAAT GGATGATCTA TTTGAGATTC AGCATGCCCA TATTATTATG 
ACAACTCCAG AAAAATGGGA TAGCATGACT AGGAAATGGA GAGATAATTC CTTGGTCCAG 
TTGGTTCGGC TGTTTCTCAT TGATGAGGTA CATATTATAA AAGATGAAAA TCGAGGTCCA 
ACTCTTGAAG TTGTAGTCAG CAGAATGAAA ACTGTACAGT CTTTATCTCA TACTTCAGAA 
AATACCAGCC TCGTTATTCC AATGAGATTT GTAGCAGTAT CTGCAACAAT TCCAAATGCT 
GAGGATATTG CAGAGTGGCT TTCAGATGGT GAGAGACCTG CTGTATGCTT GAAAATGGAT 
GAGAGTCATA GACCTGTGAA ACTTCGGAAG GTGGTCCTTG GATTTCCCTG CAGTAGTAAT 
CAAACTGAAT TTAAGTTTGA TTTAACCCTC AACTACAAAA TTGCCAGTAT TATACAGACA 
TATTCTGATC AGAAACCCAC ACTTGTGTTC TGTGCAACAA GAAAAGGTGT GCAGCAGGCT 
TCCTTAGTTC TTGTGAAAGA TGCTAAATTT ATTATGACTG TGGAACAAAA GCAAAGATTA 
CAGAGGTGTG CAAATTCCAT AAGAGATACA AAACTGAGAG ATATCTTAAT ACATGGTGTT 
GCTTTTCATC ATGCTGGTAT GGAGTTATCA GATAGAAAAC TAGTTGAAGA AGCTTTTGCT 
GTTGGAGATT TACCAGTTCT TTTCACTACC AGTACTTTAG CAATGGGAGT AAATTTGCCT 
GCTCATCTAG TAGTTATAAA ATCTACAATG CATTATTCTG GAGGAATGTT TGAAGAGTAC 
AGTGAAACAG ATATTCTGCA GATGATTGGT AGAGCTGGGC GACCTCAATT TGACACTACA 
GCTACTGCGG TTATTATGAC TCGATTAAAT ACAAGAGAGA AGTACATTCA GATGTTAGCT 
TGCAGTGACA CTGTAGAAAG CAGTTTGCAC AGACATCTTA TTGAGCATTT AAATGCAGAA 
ATAGTGTTGC ACACCATCAC AGATGTGAAT GTTGCATTGG AATGGATACG GTCAACCTTG 
CTTTATATCA GAGCCTTGAA AAATCCATCT CATTATGGTT TTGTATCTGG ATTGAACAAA 
GATGGAATTG AAGCCAAATT ACAAGAATTA TGTTTGAGGA ATCTGAATGA TTTATCATCT 
CTTGATTTAA TAAAGATGGA TGACGACATT AATTGCAAAC CAACTGAGGC AGGAAGATTG 
ATGGCTTGGT ATTATATTAC ATTTGAGACA GTGAAGAAAT TTTGTGCAAT CAGTGGAAAA 
GAAACTTTAT CAGATTTGAT CACAATGATA GCCAGCTGTA AGGAATTTCT GGATATACAG 
TTAAGGACAA ATGAAAAGAA AACACTGAAT ACTTTGAATA AAGATCCAAA TCGGCTCACT 
ATCAGATTTC CAATGGAAGG AAGAATTAAA ACAAGGGAAA TGAAAGTAAA TTGTCTTATT 
CAAGCTCAGC TAGGATGCAT TCCTATACAA GACTTTGCTT TGACACAAGA TACTTCTAAG 
ATTTTCAGAA GTGGCTCACG AATTACAAAA TGGTTGTCAG ATTTTGTGGC TTCTCAAGAA 
AAGAAATTTG ATGTACTACT GAATAGTTTG ATTTTAGCAA AATGTTTTAG ATGCAGACTT 
TGGGAAAACT CTTTACATGT ATCTAAGCAG TTGGAAAAAA TCGGTAAGTA CCTAATACAG 
CCAGGCAGCT TGCCAGTGTC TTTAATTTCT AAAATATTAA CTCAAGAAAA AATTTGAGGG 
ATAATGGAAA CGAACATTAA GGAATTACAA ATAATTTTAA ATAGACATCC CCCTTTTGGA 
ACCCAAATAA AGGAAGCTGT GATGTGTCTA CCAAAATATG AACTTGAAGT GGAACAGATT 
GCAAGATACA ATGATACGAT GGCAGAAATA ATAGTGACCA TTATATTAAG AAACTTTGAA 
CAGCTACAAA CTAAAAGAAC AGCTCCAGAT TGTCACTATG TCACCTTAAT CATAGGTGAT 
GCAGATAACC AACTGGTTTT TAAGCACAAA ATTATGGATT CCGTTTTGTT AAAAGATGGA 
AACTGGGCTA AAAAGATTGA TGTGAAGAGA GCTCTTAAGT CTGAAGATCT TAGTATAAAT 
CTAATTAGTT CTGAATATGT TGGATTTGAT ATTCAGCAAA AATTTACAGT CTATTACTTA 
GGACCCAAGA GGTTTGGAAA TCAAATAATT TTGAAAAAAA AAGCAGAAGC AGTGATTTCC 
TGTTCTAAGT ATTCAGATAG GCTTGATACA GCAGGGTCCA GTAAAGGAAT GATGGCCTGC 
AAAAAACCTG GGAACCGAGA GTGCAATCAT CACTGCAAAA ATAAGCATAC ATGTGGACAT 
GACTGCTGTA AAATTGGAGT TGCACAGAAG CCAGAAATGA AAGAGTCAAC AATTTCCTCA 
TATTTATCTG ATTTAAGAAA CAGGAATGCT TCTTCATCTC TTCCTCCAGT TAAACGCCTC 
AAGATGCAGA TGAATAAATC TCAAAGTATG AACCTTAAAG AATTTGGTTT TACTCCAAAA 
CCTTCTCTTC CCAGTATATC AAGGTCAGAA TCCTTAAACA TGCCTGAATT ACCTATAAGG 
GAGCAGAGGG ATCAGCATGA TCATGCAGAA GTTCAACAAG AACAATATGA ATATCAAGAC 
AAAGAAGTTT TGAATGTGAA CTTTGAACTG GGAAATGAAG TTTGGGAAGA TTTTGATGAT 
GAAAATTTAA TAGAAGTTAC TAACTTTTCA GCTGATACTG AGATGATAAA CTCATCAGGA 
TTCGGAGACA TGTCGAATTC AAGTACCAGG GGAAGTAAGC TATCCTTCCA ACAGTCAAAG 
AGCAAATTCC AGAGAGAAAT GTCAAACAGT TTTGTTTCAT CACATGAGGA GCCAGATACT 
TATTTTTCAA ATTCTGCTAT GTCCAAGTTT GGTAGATCCT CCATGATGAA ATTACCTCAA 
CAAAGTGGAA ATGCAAATAT TGTCCATTTC CAAGAAAGAA AACAACAAAG CCTGTCACCA 
GAGATTGAAA GGTTGTGCTT TACTCATGCT GTAAAAACAC CAAATTCCTC GAAACTTGCT 
AAGAATGTGG ATTTCTTTAT CAAAAATGAT GAGAAAAAAG AAATTGATTT TAGTAGGTAT 
CATCCTGATG ATGAAGCTGA TGAAATAAAG TCTTTTCTAG GAATATTTGA TGGTATTTTC 
TAA

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

RefSeq	XP_004689843.1
CDS	19..4341
Translation	MLKSSDSLFSLDTLFSEQPIEAENYPVNDKALDLFLQPAPLISEIPDTQALEEEIESCKLLGQKKRPKMLTSDLKITNEDKNSASPIQKFQFTSPSRKYKENDLNLGGEGKNDLPHAALKLTYSSFQNRNHIGTEIAPEKSISDIKLVNFTEDKGASTSTFRKRLFKISDSMHGSAFSNDSINLDSHIGSVKIAQTEMNKGSWKCSNSKQKPQYSNINMFTSDAFSVSELGGSIFRAPSFSSHPHKIQGATENGAVSLKAVTEIPTKFRSIFKEFPYFNYIQSKAFDDLLYTDKNFVICAPTGSGKTVLFELAITRLLMEVPLPWSNIKVVYMAPIKALCSQRFDDWKGKFGPIGLNCKELTGDTVMDDLFEIQHAHIIMTTPEKWDSMTRKWRDNSLVQLVRLFLIDEVHIIKDENRGPTLEVVVSRMKTVQSLSHTSENTSLVIPMRFVAVSATIPNAEDIAEWLSDGERPAVCLKMDESHRPVKLRKVVLGFPCSSNQTEFKFDLTLNYKIASIIQTYSDQKPTLVFCATRKGVQQASLVLVKDAKFIMTVEQKQRLQRCANSIRDTKLRDILIHGVAFHHAGMELSDRKLVEEAFAVGDLPVLFTTSTLAMGVNLPAHLVVIKSTMHYSGGMFEEYSETDILQMIGRAGRPQFDTTATAVIMTRLNTREKYIQMLACSDTVESSLHRHLIEHLNAEIVLHTITDVNVALEWIRSTLLYIRALKNPSHYGFVSGLNKDGIEAKLQELCLRNLNDLSSLDLIKMDDDINCKPTEAGRLMAWYYITFETVKKFCAISGKETLSDLITMIASCKEFLDIQLRTNEKKTLNTLNKDPNRLTIRFPMEGRIKTREMKVNCLIQAQLGCIPIQDFALTQDTSKIFRSGSRITKWLSDFVASQEKKFDVLLNSLILAKCFRCRLWENSLHVSKQLEKIGKYLIQPGSLPVSLISKILTQEKI*GIMETNIKELQIILNRHPPFGTQIKEAVMCLPKYELEVEQIARYNDTMAEIIVTIILRNFEQLQTKRTAPDCHYVTLIIGDADNQLVFKHKIMDSVLLKDGNWAKKIDVKRALKSEDLSINLISSEYVGFDIQQKFTVYYLGPKRFGNQIILKKKAEAVISCSKYSDRLDTAGSSKGMMACKKPGNRECNHHCKNKHTCGHDCCKIGVAQKPEMKESTISSYLSDLRNRNASSSLPPVKRLKMQMNKSQSMNLKEFGFTPKPSLPSISRSESLNMPELPIREQRDQHDHAEVQQEQYEYQDKEVLNVNFELGNEVWEDFDDENLIEVTNFSADTEMINSSGFGDMSNSSTRGSKLSFQQSKSKFQREMSNSFVSSHEEPDTYFSNSAMSKFGRSSMMKLPQQSGNANIVHFQERKQQSLSPEIERLCFTHAVKTPNSSKLAKNVDFFIKNDEKKEIDFSRYHPDDEADEIKSFLGIFDGIF

Target ORF information:

RefSeq Version	XM_004689786.1
Organism	Condylura cristata(star-nosed mole)
Definition	Condylura cristata HFM1, ATP-dependent DNA helicase homolog (S. cerevisiae) (HFM1), mRNA.

Target ORF information:

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

XM_004689786.1

ORF Insert Sequence:

ATGCTGAAGT CAAGTGACTC CTTATTTTCT TTGGATACTT TGTTTTCTGA ACAACCAATT 
GAAGCTGAAA ACTATCCAGT AAATGACAAA GCACTGGATT TGTTTCTCCA GCCTGCTCCA 
CTGATTTCAG AAATTCCAGA TACTCAGGCA TTAGAAGAAG AAATAGAAAG TTGTAAACTT 
TTAGGTCAGA AAAAGAGACC AAAAATGTTA ACATCAGATT TGAAGATAAC TAATGAAGAC 
AAAAATTCTG CTTCACCAAT ACAAAAGTTC CAATTTACCT CTCCTTCTAG AAAATATAAG 
GAAAATGATC TAAATTTAGG AGGGGAAGGT AAAAATGATT TACCGCATGC TGCTCTGAAG 
CTGACCTATA GTTCTTTCCA GAACAGAAAT CACATTGGCA CTGAGATAGC ACCTGAGAAA 
AGTATTTCAG ACATAAAGTT AGTTAATTTT ACAGAGGATA AAGGAGCAAG CACATCAACA 
TTTCGAAAAA GATTATTTAA AATATCTGAC AGTATGCATG GGAGTGCTTT TTCTAATGAC 
AGTATAAACT TGGATTCTCA TATTGGCTCA GTGAAAATTG CCCAAACAGA AATGAACAAA 
GGTTCATGGA AATGTAGCAA TAGTAAGCAG AAACCTCAGT ATTCAAACAT TAACATGTTT 
ACAAGTGATG CTTTTTCTGT TTCTGAACTT GGAGGAAGTA TATTCAGAGC ACCATCTTTT 
TCATCCCATC CTCACAAAAT TCAAGGGGCT ACAGAAAATG GTGCAGTTTC CTTGAAGGCT 
GTCACAGAAA TCCCAACAAA ATTTAGGAGT ATTTTCAAAG AATTCCCATA TTTCAACTAT 
ATACAGTCCA AAGCCTTTGA TGATCTTCTT TACACAGATA AGAATTTTGT GATTTGTGCT 
CCAACTGGAT CTGGAAAAAC CGTATTGTTT GAATTAGCTA TAACAAGATT GCTAATGGAA 
GTACCCTTGC CATGGTCAAA CATTAAAGTT GTTTACATGG CACCAATAAA AGCCCTGTGT 
AGTCAGCGTT TTGATGACTG GAAAGGAAAA TTTGGACCAA TAGGATTGAA TTGCAAAGAA 
CTCACTGGAG ATACAGTAAT GGATGATCTA TTTGAGATTC AGCATGCCCA TATTATTATG 
ACAACTCCAG AAAAATGGGA TAGCATGACT AGGAAATGGA GAGATAATTC CTTGGTCCAG 
TTGGTTCGGC TGTTTCTCAT TGATGAGGTA CATATTATAA AAGATGAAAA TCGAGGTCCA 
ACTCTTGAAG TTGTAGTCAG CAGAATGAAA ACTGTACAGT CTTTATCTCA TACTTCAGAA 
AATACCAGCC TCGTTATTCC AATGAGATTT GTAGCAGTAT CTGCAACAAT TCCAAATGCT 
GAGGATATTG CAGAGTGGCT TTCAGATGGT GAGAGACCTG CTGTATGCTT GAAAATGGAT 
GAGAGTCATA GACCTGTGAA ACTTCGGAAG GTGGTCCTTG GATTTCCCTG CAGTAGTAAT 
CAAACTGAAT TTAAGTTTGA TTTAACCCTC AACTACAAAA TTGCCAGTAT TATACAGACA 
TATTCTGATC AGAAACCCAC ACTTGTGTTC TGTGCAACAA GAAAAGGTGT GCAGCAGGCT 
TCCTTAGTTC TTGTGAAAGA TGCTAAATTT ATTATGACTG TGGAACAAAA GCAAAGATTA 
CAGAGGTGTG CAAATTCCAT AAGAGATACA AAACTGAGAG ATATCTTAAT ACATGGTGTT 
GCTTTTCATC ATGCTGGTAT GGAGTTATCA GATAGAAAAC TAGTTGAAGA AGCTTTTGCT 
GTTGGAGATT TACCAGTTCT TTTCACTACC AGTACTTTAG CAATGGGAGT AAATTTGCCT 
GCTCATCTAG TAGTTATAAA ATCTACAATG CATTATTCTG GAGGAATGTT TGAAGAGTAC 
AGTGAAACAG ATATTCTGCA GATGATTGGT AGAGCTGGGC GACCTCAATT TGACACTACA 
GCTACTGCGG TTATTATGAC TCGATTAAAT ACAAGAGAGA AGTACATTCA GATGTTAGCT 
TGCAGTGACA CTGTAGAAAG CAGTTTGCAC AGACATCTTA TTGAGCATTT AAATGCAGAA 
ATAGTGTTGC ACACCATCAC AGATGTGAAT GTTGCATTGG AATGGATACG GTCAACCTTG 
CTTTATATCA GAGCCTTGAA AAATCCATCT CATTATGGTT TTGTATCTGG ATTGAACAAA 
GATGGAATTG AAGCCAAATT ACAAGAATTA TGTTTGAGGA ATCTGAATGA TTTATCATCT 
CTTGATTTAA TAAAGATGGA TGACGACATT AATTGCAAAC CAACTGAGGC AGGAAGATTG 
ATGGCTTGGT ATTATATTAC ATTTGAGACA GTGAAGAAAT TTTGTGCAAT CAGTGGAAAA 
GAAACTTTAT CAGATTTGAT CACAATGATA GCCAGCTGTA AGGAATTTCT GGATATACAG 
TTAAGGACAA ATGAAAAGAA AACACTGAAT ACTTTGAATA AAGATCCAAA TCGGCTCACT 
ATCAGATTTC CAATGGAAGG AAGAATTAAA ACAAGGGAAA TGAAAGTAAA TTGTCTTATT 
CAAGCTCAGC TAGGATGCAT TCCTATACAA GACTTTGCTT TGACACAAGA TACTTCTAAG 
ATTTTCAGAA GTGGCTCACG AATTACAAAA TGGTTGTCAG ATTTTGTGGC TTCTCAAGAA 
AAGAAATTTG ATGTACTACT GAATAGTTTG ATTTTAGCAA AATGTTTTAG ATGCAGACTT 
TGGGAAAACT CTTTACATGT ATCTAAGCAG TTGGAAAAAA TCGGTAAGTA CCTAATACAG 
CCAGGCAGCT TGCCAGTGTC TTTAATTTCT AAAATATTAA CTCAAGAAAA AATTTGAGGG 
ATAATGGAAA CGAACATTAA GGAATTACAA ATAATTTTAA ATAGACATCC CCCTTTTGGA 
ACCCAAATAA AGGAAGCTGT GATGTGTCTA CCAAAATATG AACTTGAAGT GGAACAGATT 
GCAAGATACA ATGATACGAT GGCAGAAATA ATAGTGACCA TTATATTAAG AAACTTTGAA 
CAGCTACAAA CTAAAAGAAC AGCTCCAGAT TGTCACTATG TCACCTTAAT CATAGGTGAT 
GCAGATAACC AACTGGTTTT TAAGCACAAA ATTATGGATT CCGTTTTGTT AAAAGATGGA 
AACTGGGCTA AAAAGATTGA TGTGAAGAGA GCTCTTAAGT CTGAAGATCT TAGTATAAAT 
CTAATTAGTT CTGAATATGT TGGATTTGAT ATTCAGCAAA AATTTACAGT CTATTACTTA 
GGACCCAAGA GGTTTGGAAA TCAAATAATT TTGAAAAAAA AAGCAGAAGC AGTGATTTCC 
TGTTCTAAGT ATTCAGATAG GCTTGATACA GCAGGGTCCA GTAAAGGAAT GATGGCCTGC 
AAAAAACCTG GGAACCGAGA GTGCAATCAT CACTGCAAAA ATAAGCATAC ATGTGGACAT 
GACTGCTGTA AAATTGGAGT TGCACAGAAG CCAGAAATGA AAGAGTCAAC AATTTCCTCA 
TATTTATCTG ATTTAAGAAA CAGGAATGCT TCTTCATCTC TTCCTCCAGT TAAACGCCTC 
AAGATGCAGA TGAATAAATC TCAAAGTATG AACCTTAAAG AATTTGGTTT TACTCCAAAA 
CCTTCTCTTC CCAGTATATC AAGGTCAGAA TCCTTAAACA TGCCTGAATT ACCTATAAGG 
GAGCAGAGGG ATCAGCATGA TCATGCAGAA GTTCAACAAG AACAATATGA ATATCAAGAC 
AAAGAAGTTT TGAATGTGAA CTTTGAACTG GGAAATGAAG TTTGGGAAGA TTTTGATGAT 
GAAAATTTAA TAGAAGTTAC TAACTTTTCA GCTGATACTG AGATGATAAA CTCATCAGGA 
TTCGGAGACA TGTCGAATTC AAGTACCAGG GGAAGTAAGC TATCCTTCCA ACAGTCAAAG 
AGCAAATTCC AGAGAGAAAT GTCAAACAGT TTTGTTTCAT CACATGAGGA GCCAGATACT 
TATTTTTCAA ATTCTGCTAT GTCCAAGTTT GGTAGATCCT CCATGATGAA ATTACCTCAA 
CAAAGTGGAA ATGCAAATAT TGTCCATTTC CAAGAAAGAA AACAACAAAG CCTGTCACCA 
GAGATTGAAA GGTTGTGCTT TACTCATGCT GTAAAAACAC CAAATTCCTC GAAACTTGCT 
AAGAATGTGG ATTTCTTTAT CAAAAATGAT GAGAAAAAAG AAATTGATTT TAGTAGGTAT 
CATCCTGATG ATGAAGCTGA TGAAATAAAG TCTTTTCTAG GAATATTTGA TGGTATTTTC 
TAA