LOC108117610 cDNA ORF clone, Drosophila eugracilis

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC108117610
Entrez Gene ID	108117610
Full Name	putative ATP-dependent RNA helicase DHX57
Gene Type	protein-coding
Organism	Drosophila eugracilis

mRNA and Protein(s)

mRNA	Protein	Name
XM_017230136.1	XP_017085625.1	putative ATP-dependent RNA helicase DHX57

Pathways from BioSystems
Gene Ontology

The following LOC108117610 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108117610 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
ODr201536	XM_017230136.1 Latest version!	Drosophila eugracilis putative ATP-dependent RNA helicase DHX57 (LOC108117610), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

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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)

LOC108117610 ( XM_017230136.1 ) cDNA ORF clone, Drosophila eugracilis -> XP_017085625.1 Drosophila eugracilis putative ATP-dependent RNA helicase DHX57 (LOC108117610), mRNA.

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CloneID	ODr201536
Clone ID Related Accession (Same CDS sequence)	XM_017230136.1
Accession Version	XM_017230136.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3864bp) 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	2016-06-15
Organism	Drosophila eugracilis
Product	putative ATP-dependent RNA helicase DHX57
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016078443.1) 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 :: Drosophila eugracilis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACGAAT TCTCGCGACA GCAAATGGAT GACTGCTTTC TGCGCAGTCC AAATGACATC 
CGCACCACCA ACGTGCAAGC GGTGCCAAAA TCGCAGGCGG ATAACAAGTC CCGAAAGACG 
GAACTACACG TCCTCCGGCT GAATGACGAG TCCCGCCAAA TCACCATGGA CACACTGCGC 
CAGATTCACG GTCCTGACTT CCAGCTGGAC GACATAAGCA AGTACAAGGA TCGCGGACGC 
GGTGGCCACG GCGTGAAGCA CTCCTATTGG CAGGATCGGG GCACTCTGAT GGTGCAGAGT 
GTCCAGGGAG TTAGCTCGTC GCGCGGGAAC GATAGCGATG GCGATCGGTT GCGTCGCTAT 
GCTTTGGCCA AACTCGAGAA CTACGGCTTC CATCCCGTCC ATTGCTTGGA GGCCTATGAT 
CACTGCTCCG GCGACACAGA GGCTGCTCTG CTGCTGCTCT ACCGCCGCTA TATGAGGATT 
GCCGAGCAGG AGGAGCTGAC CCTTGAACCT CCCAGCGAGC AGGAACTGCT GGATATGCGA 
ACGGATGAGA AGGAGGCCCT GGAGTCCATC TATGACAAGG CGTACGAGGA GCGCGAGGCG 
AATCGTGTTT GGAACCTTAA GTTTCGCATC GACCACCTAC TGGCCCACAG TCCCTCGGAG 
GTACGGAAGG CCAGGGAGGC AGCCCTAGCT GCCGCTGCTG CTGCTGCCCA GAAGTTGGTG 
GACAAAAAGA AGAAGGGGCC ACTACGATGT CGAAACTTTG ACCGCGACGG CACCTGCAAG 
TACGGACCCA AGTGCAGGTT TCCTCATCTT GCTCCGGAGC CAACTGAAAC AGATACTATC 
AAGAAGGATA GCGTTGACGA AAACGACAAC GAGCTCTGGT TTCACGTGGA GGTGCGCTTT 
CCGCCCGGAA GCCGCTATCC CTATGAGGCG CCCTTCATAT ACTTAAAAAC CACCTGTCAC 
GATATCCCCC ACGAGCTGCG CCTCCGGTAC GCTCGCCATC TGTACAAAGA AGCCAGAGAG 
ATTTGCCGTG ATGGCATTCC CTGTGTATAC AGCATTTGCG ACCTGCTGCA GTCCAATGAA 
CAGCTAGCTG GTCGCCTGGA TACGTCTGCG TTTCCTTCGC CCAAGCGTTC AATCTTCGAC 
AACGAGCCAG AGGGCGGTGG AGCGGATAAG GATGGTGACC ATCAGCAACT ACCAAAGCCC 
TCGCACTACA CCCGCGGGCA AACGTCACGA AATGAAGGGG GCAACCAGCG AAATGCGGAG 
GCACAGGCCC GGGAGAATCG TCGCCTACTG CAGCAGTTCG TAGAGCGACG GAAGGAGGAG 
CGCTACCAAA AGGTTATTGA CGGCCGCAAA CAGCTGCCCG CATTTGCCGA AATCGAACGT 
ATTCTGGCCC TGATTGAAAG CTCACCCGTA GTAGTGATAT CTGGTGAAAC GGGTTGCGGC 
AAGAGTACAC AAGTGCCGCA GTTCATCCTA GACAACTGGT TCTTCCGCGC CCTCCAACTG 
CCTCCAAAGG AGAACCTGCC GCATGTGGAA ATCATCTGCA CTCAACCACG ACGTCTCTCG 
GCCATCGGAG TAGCAGAACG AGTGGCTGCC GAGCGTTTGG ATCGCATTGG TCAGTTGGTG 
GGCTACCAGA TCCGTCTGGA AAACAAGGTG TCGCAAAGCA CACGTCTCAG TTTCTGTACC 
ACGGGCATCC TTTTGCGCCG ATTGGCTTCC GATCCGCTGC TGGAAAGCGT TACTCATGTC 
ATTGTAGACG AAGTTCATGA GCGTTCTGAG GAATCCGATT TTCTACTGCT CATCTTGAAA 
AATTTACTGC GAGAACGCAA GGATCTCAAA GTTATCCTCA TGTCCGCCAC CTTAAATGCC 
ACTCTTTTCT CGGATTACTT TGGTGGAGCA CCCGTGCTGG ATATTCCTGG ACGAACTTTC 
CCTGTTCAAC AACTTTTCTT GGAGGATATT CTGGAGATGA GCGATTTTGT CATGGAGTAC 
GATACCAAGT ACTGCCGCAA ACTAAAGAAA AATGAGCAGG ATATACTGGA GCGTGAGCTG 
GAATACGCCG ATGTACAAGC TTCGGGACAG GCGCCAGGAA AGAAGATCAA AGATGAAAAA 
CTAACTCTGG CCGAGACCTA TCAGAGATAT GCGGAATATA GCAAACCAAC TTGCAAGAGT 
ATCTACCTGA TGGAGCCCAT GACTATTAAC CCCGAACTGA TAGAATCCGT ACTTAAGTAC 
ATTGTTGAAG GCTCCCACGA TTGGCCTCGT GAGGGAACCA TCCTCATCTT TCTGCCCGGC 
TTCGGGGAAA TACAAACCGT CCACGATTCA CTGCTTGACC ACGCACTATT CTCGCCACGT 
GCTGGCAAGT TCATCTTGGT GCCCCTGCAC TCTGCTCTGT CTGGCGAGGA TCAAGCGCTA 
GTCTTTAAGA AAGCGCCACC CGGCAAACGA AAGATAGTGC TAAGCACGAA CATTGCCGAG 
ACCTCGGTGA CTATCGACGA CTGTGTGTTC GTGGTGGACT GCGGCCTTAT GAAGGAGAAG 
TGCTTCGACT CGAATCGTAA CATGGAGTCG CTAGATCTAG TCTGGGTCTC TCGTGCCAAT 
GCCAAGCAGC GAAAGGGTCG TGCTGGCCGT GTGATGCCTG GAGTTTGTAT CCACCTGTAC 
ACTAGTCATC GCTACCACCA GCACATCCTG GCCCAGCCAG TTCCGGAGAT TCAACGTGTG 
CCACTCGAGC AGATTGTGTT GCGGATCAAG ACGTTACAAA CGTTTGCTTC GCGCAATACA 
CTGTCGGTCC TTTTGGAAAC CCTAGAGGCG CCCACAGAGG ACAGTGTGCT GGGAGCCCTG 
ACACGGTTAA GGGACGTGGG AGCTCTTGAC TCAGAAGATC AGTTGACGCC GCTAGGCCAT 
CATCTCGCTG CCCTGCCCGT AGACGTCCGC ATTGGCAAAC TGATGCTTTA CGGGGCGATC 
TTCCAATGTC TGGACAGTGT GCTGACCATC GCCGCCTGCC TGAGCAATAA GTCGCCATTC 
GTAAGTCCTT TGAACAAACG CACGGAGGCG GACAAGTGCA AACGCATGTT CGCTCTGGGC 
AACAGCGATC ACCTAACAGT GCTGAATGCT TACAGGAAAT GGCTGGATGT GGCACGTAGG 
GGAAACTATG CAGCCAGCAG GAACTATGCC AGTGAACATT TCCTGTCGCT TAATACTCTT 
GAGACAATAG CCGACCTCAA ATACCAATAC CTGGAGCTAC TCGTCTCCAT TGGCTTTGTG 
CCCATCAATG TGCCGCGAAG ACGCAAGAAT GCCTGTGACA ATATTCTGAC ACTGACAGGT 
GTGGAGCAGA ACCATAATGG TGATAACAAC AGACTGCTGA CCTCGCTTCT CTGTGCCGCC 
CTCTACCCAA ACATCGTAAA GATCATGACG CCGGAACGCG TTTATGTCCA AACGGCTGGC 
GGTGCTGTGC CGCGCGAGCC GAGCCACCAA GACTTGCGTT TCAAGACTCG CGGCGATGGA 
TACGTGAAGA TCCATCCATC ATCGGTCAAC TCACATGTGG CCGTCTTTCA GGCGCCCTTC 
CTCGTCTACC AGGAGAAAGT ACGCACGAGC GCCATTTATA TCCGCGACTG CTCAATGCTG 
CCACTCATCG CCATGGTCCT GTTTGCCGGC AGCGACTTTA AGGTCGAGCT ACATGACGGT 
GACTTCCTCT TCCTTCTCGA AAGTGGCTGG ATCATACTGA AGGCCCATGA CCTCGAGACC 
GCTGAGATGG TACAGTGTCT GCGGGCGGAG TTGATCAAGC TGCTGGAAGA GAAGATTCGT 
GATCCGTGCC TTAATCTTCT GCACCACAAG AACGGCTGCC GTATGATCGG CAATATCGTT 
CACCTGATCA GTAAAAACAG CTGA

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

RefSeq	XP_017085625.1
CDS	207..4070
Translation	MDEFSRQQMDDCFLRSPNDIRTTNVQAVPKSQADNKSRKTELHVLRLNDESRQITMDTLRQIHGPDFQLDDISKYKDRGRGGHGVKHSYWQDRGTLMVQSVQGVSSSRGNDSDGDRLRRYALAKLENYGFHPVHCLEAYDHCSGDTEAALLLLYRRYMRIAEQEELTLEPPSEQELLDMRTDEKEALESIYDKAYEEREANRVWNLKFRIDHLLAHSPSEVRKAREAALAAAAAAAQKLVDKKKKGPLRCRNFDRDGTCKYGPKCRFPHLAPEPTETDTIKKDSVDENDNELWFHVEVRFPPGSRYPYEAPFIYLKTTCHDIPHELRLRYARHLYKEAREICRDGIPCVYSICDLLQSNEQLAGRLDTSAFPSPKRSIFDNEPEGGGADKDGDHQQLPKPSHYTRGQTSRNEGGNQRNAEAQARENRRLLQQFVERRKEERYQKVIDGRKQLPAFAEIERILALIESSPVVVISGETGCGKSTQVPQFILDNWFFRALQLPPKENLPHVEIICTQPRRLSAIGVAERVAAERLDRIGQLVGYQIRLENKVSQSTRLSFCTTGILLRRLASDPLLESVTHVIVDEVHERSEESDFLLLILKNLLRERKDLKVILMSATLNATLFSDYFGGAPVLDIPGRTFPVQQLFLEDILEMSDFVMEYDTKYCRKLKKNEQDILERELEYADVQASGQAPGKKIKDEKLTLAETYQRYAEYSKPTCKSIYLMEPMTINPELIESVLKYIVEGSHDWPREGTILIFLPGFGEIQTVHDSLLDHALFSPRAGKFILVPLHSALSGEDQALVFKKAPPGKRKIVLSTNIAETSVTIDDCVFVVDCGLMKEKCFDSNRNMESLDLVWVSRANAKQRKGRAGRVMPGVCIHLYTSHRYHQHILAQPVPEIQRVPLEQIVLRIKTLQTFASRNTLSVLLETLEAPTEDSVLGALTRLRDVGALDSEDQLTPLGHHLAALPVDVRIGKLMLYGAIFQCLDSVLTIAACLSNKSPFVSPLNKRTEADKCKRMFALGNSDHLTVLNAYRKWLDVARRGNYAASRNYASEHFLSLNTLETIADLKYQYLELLVSIGFVPINVPRRRKNACDNILTLTGVEQNHNGDNNRLLTSLLCAALYPNIVKIMTPERVYVQTAGGAVPREPSHQDLRFKTRGDGYVKIHPSSVNSHVAVFQAPFLVYQEKVRTSAIYIRDCSMLPLIAMVLFAGSDFKVELHDGDFLFLLESGWIILKAHDLETAEMVQCLRAELIKLLEEKIRDPCLNLLHHKNGCRMIGNIVHLISKNS

Target ORF information:

RefSeq Version	XM_017230136.1
Organism	Drosophila eugracilis
Definition	Drosophila eugracilis putative ATP-dependent RNA helicase DHX57 (LOC108117610), mRNA.

Target ORF information:

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

XM_017230136.1

ORF Insert Sequence:

ATGGACGAAT TCTCGCGACA GCAAATGGAT GACTGCTTTC TGCGCAGTCC AAATGACATC 
CGCACCACCA ACGTGCAAGC GGTGCCAAAA TCGCAGGCGG ATAACAAGTC CCGAAAGACG 
GAACTACACG TCCTCCGGCT GAATGACGAG TCCCGCCAAA TCACCATGGA CACACTGCGC 
CAGATTCACG GTCCTGACTT CCAGCTGGAC GACATAAGCA AGTACAAGGA TCGCGGACGC 
GGTGGCCACG GCGTGAAGCA CTCCTATTGG CAGGATCGGG GCACTCTGAT GGTGCAGAGT 
GTCCAGGGAG TTAGCTCGTC GCGCGGGAAC GATAGCGATG GCGATCGGTT GCGTCGCTAT 
GCTTTGGCCA AACTCGAGAA CTACGGCTTC CATCCCGTCC ATTGCTTGGA GGCCTATGAT 
CACTGCTCCG GCGACACAGA GGCTGCTCTG CTGCTGCTCT ACCGCCGCTA TATGAGGATT 
GCCGAGCAGG AGGAGCTGAC CCTTGAACCT CCCAGCGAGC AGGAACTGCT GGATATGCGA 
ACGGATGAGA AGGAGGCCCT GGAGTCCATC TATGACAAGG CGTACGAGGA GCGCGAGGCG 
AATCGTGTTT GGAACCTTAA GTTTCGCATC GACCACCTAC TGGCCCACAG TCCCTCGGAG 
GTACGGAAGG CCAGGGAGGC AGCCCTAGCT GCCGCTGCTG CTGCTGCCCA GAAGTTGGTG 
GACAAAAAGA AGAAGGGGCC ACTACGATGT CGAAACTTTG ACCGCGACGG CACCTGCAAG 
TACGGACCCA AGTGCAGGTT TCCTCATCTT GCTCCGGAGC CAACTGAAAC AGATACTATC 
AAGAAGGATA GCGTTGACGA AAACGACAAC GAGCTCTGGT TTCACGTGGA GGTGCGCTTT 
CCGCCCGGAA GCCGCTATCC CTATGAGGCG CCCTTCATAT ACTTAAAAAC CACCTGTCAC 
GATATCCCCC ACGAGCTGCG CCTCCGGTAC GCTCGCCATC TGTACAAAGA AGCCAGAGAG 
ATTTGCCGTG ATGGCATTCC CTGTGTATAC AGCATTTGCG ACCTGCTGCA GTCCAATGAA 
CAGCTAGCTG GTCGCCTGGA TACGTCTGCG TTTCCTTCGC CCAAGCGTTC AATCTTCGAC 
AACGAGCCAG AGGGCGGTGG AGCGGATAAG GATGGTGACC ATCAGCAACT ACCAAAGCCC 
TCGCACTACA CCCGCGGGCA AACGTCACGA AATGAAGGGG GCAACCAGCG AAATGCGGAG 
GCACAGGCCC GGGAGAATCG TCGCCTACTG CAGCAGTTCG TAGAGCGACG GAAGGAGGAG 
CGCTACCAAA AGGTTATTGA CGGCCGCAAA CAGCTGCCCG CATTTGCCGA AATCGAACGT 
ATTCTGGCCC TGATTGAAAG CTCACCCGTA GTAGTGATAT CTGGTGAAAC GGGTTGCGGC 
AAGAGTACAC AAGTGCCGCA GTTCATCCTA GACAACTGGT TCTTCCGCGC CCTCCAACTG 
CCTCCAAAGG AGAACCTGCC GCATGTGGAA ATCATCTGCA CTCAACCACG ACGTCTCTCG 
GCCATCGGAG TAGCAGAACG AGTGGCTGCC GAGCGTTTGG ATCGCATTGG TCAGTTGGTG 
GGCTACCAGA TCCGTCTGGA AAACAAGGTG TCGCAAAGCA CACGTCTCAG TTTCTGTACC 
ACGGGCATCC TTTTGCGCCG ATTGGCTTCC GATCCGCTGC TGGAAAGCGT TACTCATGTC 
ATTGTAGACG AAGTTCATGA GCGTTCTGAG GAATCCGATT TTCTACTGCT CATCTTGAAA 
AATTTACTGC GAGAACGCAA GGATCTCAAA GTTATCCTCA TGTCCGCCAC CTTAAATGCC 
ACTCTTTTCT CGGATTACTT TGGTGGAGCA CCCGTGCTGG ATATTCCTGG ACGAACTTTC 
CCTGTTCAAC AACTTTTCTT GGAGGATATT CTGGAGATGA GCGATTTTGT CATGGAGTAC 
GATACCAAGT ACTGCCGCAA ACTAAAGAAA AATGAGCAGG ATATACTGGA GCGTGAGCTG 
GAATACGCCG ATGTACAAGC TTCGGGACAG GCGCCAGGAA AGAAGATCAA AGATGAAAAA 
CTAACTCTGG CCGAGACCTA TCAGAGATAT GCGGAATATA GCAAACCAAC TTGCAAGAGT 
ATCTACCTGA TGGAGCCCAT GACTATTAAC CCCGAACTGA TAGAATCCGT ACTTAAGTAC 
ATTGTTGAAG GCTCCCACGA TTGGCCTCGT GAGGGAACCA TCCTCATCTT TCTGCCCGGC 
TTCGGGGAAA TACAAACCGT CCACGATTCA CTGCTTGACC ACGCACTATT CTCGCCACGT 
GCTGGCAAGT TCATCTTGGT GCCCCTGCAC TCTGCTCTGT CTGGCGAGGA TCAAGCGCTA 
GTCTTTAAGA AAGCGCCACC CGGCAAACGA AAGATAGTGC TAAGCACGAA CATTGCCGAG 
ACCTCGGTGA CTATCGACGA CTGTGTGTTC GTGGTGGACT GCGGCCTTAT GAAGGAGAAG 
TGCTTCGACT CGAATCGTAA CATGGAGTCG CTAGATCTAG TCTGGGTCTC TCGTGCCAAT 
GCCAAGCAGC GAAAGGGTCG TGCTGGCCGT GTGATGCCTG GAGTTTGTAT CCACCTGTAC 
ACTAGTCATC GCTACCACCA GCACATCCTG GCCCAGCCAG TTCCGGAGAT TCAACGTGTG 
CCACTCGAGC AGATTGTGTT GCGGATCAAG ACGTTACAAA CGTTTGCTTC GCGCAATACA 
CTGTCGGTCC TTTTGGAAAC CCTAGAGGCG CCCACAGAGG ACAGTGTGCT GGGAGCCCTG 
ACACGGTTAA GGGACGTGGG AGCTCTTGAC TCAGAAGATC AGTTGACGCC GCTAGGCCAT 
CATCTCGCTG CCCTGCCCGT AGACGTCCGC ATTGGCAAAC TGATGCTTTA CGGGGCGATC 
TTCCAATGTC TGGACAGTGT GCTGACCATC GCCGCCTGCC TGAGCAATAA GTCGCCATTC 
GTAAGTCCTT TGAACAAACG CACGGAGGCG GACAAGTGCA AACGCATGTT CGCTCTGGGC 
AACAGCGATC ACCTAACAGT GCTGAATGCT TACAGGAAAT GGCTGGATGT GGCACGTAGG 
GGAAACTATG CAGCCAGCAG GAACTATGCC AGTGAACATT TCCTGTCGCT TAATACTCTT 
GAGACAATAG CCGACCTCAA ATACCAATAC CTGGAGCTAC TCGTCTCCAT TGGCTTTGTG 
CCCATCAATG TGCCGCGAAG ACGCAAGAAT GCCTGTGACA ATATTCTGAC ACTGACAGGT 
GTGGAGCAGA ACCATAATGG TGATAACAAC AGACTGCTGA CCTCGCTTCT CTGTGCCGCC 
CTCTACCCAA ACATCGTAAA GATCATGACG CCGGAACGCG TTTATGTCCA AACGGCTGGC 
GGTGCTGTGC CGCGCGAGCC GAGCCACCAA GACTTGCGTT TCAAGACTCG CGGCGATGGA 
TACGTGAAGA TCCATCCATC ATCGGTCAAC TCACATGTGG CCGTCTTTCA GGCGCCCTTC 
CTCGTCTACC AGGAGAAAGT ACGCACGAGC GCCATTTATA TCCGCGACTG CTCAATGCTG 
CCACTCATCG CCATGGTCCT GTTTGCCGGC AGCGACTTTA AGGTCGAGCT ACATGACGGT 
GACTTCCTCT TCCTTCTCGA AAGTGGCTGG ATCATACTGA AGGCCCATGA CCTCGAGACC 
GCTGAGATGG TACAGTGTCT GCGGGCGGAG TTGATCAAGC TGCTGGAAGA GAAGATTCGT 
GATCCGTGCC TTAATCTTCT GCACCACAAG AACGGCTGCC GTATGATCGG CAATATCGTT 
CACCTGATCA GTAAAAACAG CTGA