LOC108711427 cDNA ORF clone, Xenopus laevis(African clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC108711427
Entrez Gene ID	108711427
Full Name	interleukin 16 L homeolog
General protein information	Preferred Names interleukin 16 L homeolog Names pro-interleukin-16-like
Gene Type	protein-coding
Organism	Xenopus laevis(African clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018253145.1	XP_018108634.1	pro-interleukin-16-like

Pathways from BioSystems
Gene Ontology

The following LOC108711427 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108711427 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
OAf25085	XM_018253145.1 Latest version!	Xenopus laevis pro-interleukin-16-like (LOC108711427), 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)

LOC108711427 ( XM_018253145.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018108634.1 Xenopus laevis pro-interleukin-16-like (LOC108711427), mRNA.

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CloneID	OAf25085
Clone ID Related Accession (Same CDS sequence)	XM_018253145.1
Accession Version	XM_018253145.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3888bp) 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	2016-09-19
Organism	Xenopus laevis(African clawed frog)
Product	pro-interleukin-16-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030728.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus laevis Annotation Release 100 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##

ATGCCGAACA AGTACGACTA TGAGAGAGGA AGCATTTTTA CCTCCTCACT GAAGATGCAC 
AGGCAGAACA GCACAGGCAA AAAAACCAAG AAAATCAAAA ACTTTCGCTC CCTGTCAAAA 
TCTCTGATTC TCTGCAATGC CAAAAATAGT GATGATGGGT CAAGCCTGGA AGAAAAATAC 
ACAGAGATCA CCGACACGCC ACACTCTATT GTACGGGATT GTGACTCACT GACAGCTGAT 
ACGTTACAAA TTTCTAGCAT GATCCCTGAC CCCATGATCA GAAAAATCAT TGTGTCAAAA 
GCGGCGTCAG TTGATCCAAC TCCAAGCAAA CCCTCTCTTA TGGAGCCAAA TTATTTTCTC 
GAATATCAAA CAGAAGTTGA TAATCCTTGT CCTCTGAAAA TGAAGGCTAG ATGTACCAGG 
ACAAGAAGCA ATTCAACAAG TGTCAATCCT TATTGGATTG GTGAAATTGA TCCTCAGCTC 
ACCAAGAGAC CAACACACTG CCGAGAGAGA CACTCAGCAA ACCTCTACAG CAACCGGAAA 
TCAATGTCTC AACAGCTAGA CTCTTTATCA GGTGGAGTGC AGGGTGTTTC CCGACCATCA 
AGATCTCTGA GTACAGCACA GCTAATAAAC ACAAGAAGTC TTCAAGCATC TATGATTTCC 
AACATCATCT TAATGAAAGG ACAGGGAAAG GGTTTGGGAT TCAGTATTGT TGGAGGAAAG 
GACAGTATTT ATGGGCCGGT TGGCATCTAT GTGAAGACAA TTTTTCCAGA AGGAGCAGCA 
GCGGCTGATG GGAGATTACA AGAAGGGGAT GAAATTCTGG AACTCAATGG CGAGTCCATG 
TATGGGCTAA CACATAATAA TGCTCTGCAA AAGTTTAAGC AAGTGAAGAA AGGCGTGCTC 
ACTCTGACAG TTCGCACAGG ACTTGGCGCT TTAGAAGAAA AGCCTGGCTA CTTTGCCTCC 
CAGATGTTTC GCTCCAAAAG CTCCAGTTGT TGTGTAGCCA GAGAGCATAG TCCATTACAG 
TCGGAAAGCC ATGCATTCTT ATTAAGCTCC CACAACCCCA ATGACAGAGT GCTGATGGAA 
GTGACAATGC ACAAAGAGTC GGGTGTTGGC TTGGGGATAG GACTGTGCAG TGTTCCAAAC 
TGCGGGGGAA TTTCCAGCAT ATTCATTCAT TCACTCTCTC CTGGCTCTGT GGCTCATATG 
GATGGAAGAC TCAGAGCTGG TGATGAGATT GTGGAGATAA ATGAGAGTGT TGTCAGTAAT 
AAATCTTTAA ATGAGGTGTA TGCACTTTTA AGCCACTGCC CATCTGGTCC TGTCACTATC 
CTTATTAGCA GGCATCCGGA TCCACAGATC TCTGAACAGC AGCTGAAAAA TGCTGTATCA 
CAGGCTGTGG AAAATAGCAG ATGTGAAAAG GATCCTCACC CTTGGAGCTA TGAAGGTGAG 
AGAAAGTTCT TTTCTTGCTT CCATGGCAAA TACCAGTGTG AAAGCTGCAT AGGAAAGCAT 
GCTTCTTATC TGTATAACAG TCGTAGAGAG CAGAAGCAAA TGGTCCGCTC CAGCAGTGAA 
GGAAACGATG GTCCTACATC CCTAGGTCCC AACATGAACT CCTACCAGTC ACATGTTCTG 
GCAAGTAGGG TGCATAGTGT CAATGTCCCT CTTGGAACAC AGACAACTAT ACTGCATTAT 
TCTACTCCAG TTAGGGTGGA AAACCATTCC CCTGTTAACC CTGAAGGACT AAGCGGGTCT 
CAGGTATCCT GCAAGAAATC CATTGGCCAT TCTGGAGAGA TCCTTGTGAA AAAACTAACA 
ACAAAACCAA TTCCACCACC TAGAAAGTAT TATAAAGAAG ACCTAAGGGA GGATGTAAAT 
CACAATCAAG AAAATGGACA ATCTGTGGAT GAAACAGGAA ACTTACAGCT AAAGGGAAAC 
CAGCAAATTA CAGGCGAGAG CATATTAGAC ACATCTTCAT CAACCAGCGA GTGCTCATAC 
ACTAGCGCTG CTGAGCCAGA AAAGCACTCG GACACAGGAA ATCCTGTATC AAACCACCGA 
CCACTGCTAA GAAGACAGGC ACGTGTTGAC TACAGCTTTG ACACAACAAG TGAAGATCCG 
TGGGTCAGAA TCTCCGATTG CATCAAAAAC TTGTTCAGCC CCCTCATAAA CGAAGGCCAC 
AACCTAATAG ATCTAGAAAG TAGCATCCGT TCAACAGGTG GCAATACAGA GAGACTTAGG 
CGAGATTCTG CATGCGAGGA TTCTCAAATT TGCAGCTCTC AAGATATGAG TAACTTCAAG 
AAAGGTCCAC CAGTTGCTCC CAAGCCAACC TGGTTCCGGC AGAGTCTGAA GGGATATAGG 
AATGTAGATA AGAAGCCAAC TGATGGCACA TCTCTGGATA AATACAAAGA GATTCATAAC 
AACATTAAAC CACAAACTTC AAGTCGGACA TCATCGATTA AACAAAAGAT AAATTCCTTT 
GAAACATTTA GCACACCATC ACCAACTGGA AAAATAAGCG ACAGAGGGAA TGTTACATCT 
TCAGCACTGA ATGACAAGTC CTTTAACAAA CAAGAAGTAG AAAGTGTGAC AGTCTGTTTG 
AACAATGTGA CCGTGAGCAC AGCTGAAATT CAGGTTACTG AAGTTATACA GCCTCCTGTG 
GCTATTCCAA AGTCTCCTGA AAAAGAAGAA CCGGAAGTGT CTCAGTCACC ACCAAAACCC 
TGTTTCCAGG GCATGCGAAG GAGTAGCAGT ACTAGTAATG ACCCTCAGTT TCATTATTCC 
GAGCTCAATG AACAAGTACC ATACAAGATA CCGAGCCACA GATCTAGGAG CTTTCCTCTG 
AGTGCCTCCA CACCCTCTGA TGCATTGAAG ATAAATGAAA ACTCTAGCAA GATCTATTCC 
ATCAGCAACC AGGTCTCCTC TGCTTTAATG AAGTCCTTGC TGTGTTTCCC TCAGTCTCCG 
AAGCTACAAG TCTCTTATCC CTGGCAGAAT GAATCTTACC CTGTAGATGA GATCTCATCC 
AGCCCTAAGA CTGAAAGTTA CCATTTGGAC ACTGGATTTT CTGTAAACTT GTCTGAATTA 
AGAGAGTTCG GAGCAGGACA ATCAGAAAAG GAGAAGGAGG AGGATGTCCA AGAACCGTCA 
CTTGCATTGG CTTCAGTGCC TGCTGGTCAG TCTGTCATAT CTCTGCTTCT CAGAGAAGAA 
TTAACTGCAC TGATAGAGGA AGTCAAAGAG CTAGATGAAG AAACCCTGAA GCAATTTGAT 
GACATCCACG TTGTAGTCTT GCATAAGGAA GAGGGTACTG GCCTTGGATT CAGTCTTGCG 
GGAGGACTTG ATTTGGAGAA CAAAGCTATA ACCGTGCACA GAGTTTTCCC CAGTGGGCTG 
ACTGCTCAAG AAGGAACAAT CCAGAAAGGA GATAAAGTTC TATCCATCAA TGGAAAGTCA 
TTAAAGGGAG TTACACACAA TGATGCTCTT GCCATTTTGC GCCAGGCACG CCACCCTAAA 
CAAGCTGTTA TTGTCATAAA GAAAGAGAAA GATGGAGAGC AAACACCAGA ATCCCTAGAC 
TCGGCATTCT CTGCTTTAAC TGATGACTCA ACAGCAGCAA ATTGTGATGA CACTGGGGAT 
ATCATTGTCG TTACTCTTGA AAAATCCTTG GCTGGACTTG GATTCAGTTT GGATGGGGGG 
AAAGGCTCTG TACAGGGAGA CAGACCTGTC ATCATTAACA GGATTTTTAA AGGTGTCTCA 
GAAAAGAATA ATGCAGTGCA GTATGGAGAT GAACTACTGC AGCTGGGGAA CATCAGTTTG 
CAAGGTCTCA CACGGTTTGA AGCATGGAAT TCCATTAAGT CTTTACCAAA TGGACTTGTC 
CAAGCTGTCA TCAGGAGAAA AAGCACTGAC TCCACTGTAA ACCAATAG

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

RefSeq	XP_018108634.1
CDS	914..4801
Translation	MPNKYDYERGSIFTSSLKMHRQNSTGKKTKKIKNFRSLSKSLILCNAKNSDDGSSLEEKYTEITDTPHSIVRDCDSLTADTLQISSMIPDPMIRKIIVSKAASVDPTPSKPSLMEPNYFLEYQTEVDNPCPLKMKARCTRTRSNSTSVNPYWIGEIDPQLTKRPTHCRERHSANLYSNRKSMSQQLDSLSGGVQGVSRPSRSLSTAQLINTRSLQASMISNIILMKGQGKGLGFSIVGGKDSIYGPVGIYVKTIFPEGAAAADGRLQEGDEILELNGESMYGLTHNNALQKFKQVKKGVLTLTVRTGLGALEEKPGYFASQMFRSKSSSCCVAREHSPLQSESHAFLLSSHNPNDRVLMEVTMHKESGVGLGIGLCSVPNCGGISSIFIHSLSPGSVAHMDGRLRAGDEIVEINESVVSNKSLNEVYALLSHCPSGPVTILISRHPDPQISEQQLKNAVSQAVENSRCEKDPHPWSYEGERKFFSCFHGKYQCESCIGKHASYLYNSRREQKQMVRSSSEGNDGPTSLGPNMNSYQSHVLASRVHSVNVPLGTQTTILHYSTPVRVENHSPVNPEGLSGSQVSCKKSIGHSGEILVKKLTTKPIPPPRKYYKEDLREDVNHNQENGQSVDETGNLQLKGNQQITGESILDTSSSTSECSYTSAAEPEKHSDTGNPVSNHRPLLRRQARVDYSFDTTSEDPWVRISDCIKNLFSPLINEGHNLIDLESSIRSTGGNTERLRRDSACEDSQICSSQDMSNFKKGPPVAPKPTWFRQSLKGYRNVDKKPTDGTSLDKYKEIHNNIKPQTSSRTSSIKQKINSFETFSTPSPTGKISDRGNVTSSALNDKSFNKQEVESVTVCLNNVTVSTAEIQVTEVIQPPVAIPKSPEKEEPEVSQSPPKPCFQGMRRSSSTSNDPQFHYSELNEQVPYKIPSHRSRSFPLSASTPSDALKINENSSKIYSISNQVSSALMKSLLCFPQSPKLQVSYPWQNESYPVDEISSSPKTESYHLDTGFSVNLSELREFGAGQSEKEKEEDVQEPSLALASVPAGQSVISLLLREELTALIEEVKELDEETLKQFDDIHVVVLHKEEGTGLGFSLAGGLDLENKAITVHRVFPSGLTAQEGTIQKGDKVLSINGKSLKGVTHNDALAILRQARHPKQAVIVIKKEKDGEQTPESLDSAFSALTDDSTAANCDDTGDIIVVTLEKSLAGLGFSLDGGKGSVQGDRPVIINRIFKGVSEKNNAVQYGDELLQLGNISLQGLTRFEAWNSIKSLPNGLVQAVIRRKSTDSTVNQ

Target ORF information:

RefSeq Version	XM_018253145.1
Organism	Xenopus laevis(African clawed frog)
Definition	Xenopus laevis pro-interleukin-16-like (LOC108711427), mRNA.

Target ORF information:

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

XM_018253145.1

ORF Insert Sequence:

ATGCCGAACA AGTACGACTA TGAGAGAGGA AGCATTTTTA CCTCCTCACT GAAGATGCAC 
AGGCAGAACA GCACAGGCAA AAAAACCAAG AAAATCAAAA ACTTTCGCTC CCTGTCAAAA 
TCTCTGATTC TCTGCAATGC CAAAAATAGT GATGATGGGT CAAGCCTGGA AGAAAAATAC 
ACAGAGATCA CCGACACGCC ACACTCTATT GTACGGGATT GTGACTCACT GACAGCTGAT 
ACGTTACAAA TTTCTAGCAT GATCCCTGAC CCCATGATCA GAAAAATCAT TGTGTCAAAA 
GCGGCGTCAG TTGATCCAAC TCCAAGCAAA CCCTCTCTTA TGGAGCCAAA TTATTTTCTC 
GAATATCAAA CAGAAGTTGA TAATCCTTGT CCTCTGAAAA TGAAGGCTAG ATGTACCAGG 
ACAAGAAGCA ATTCAACAAG TGTCAATCCT TATTGGATTG GTGAAATTGA TCCTCAGCTC 
ACCAAGAGAC CAACACACTG CCGAGAGAGA CACTCAGCAA ACCTCTACAG CAACCGGAAA 
TCAATGTCTC AACAGCTAGA CTCTTTATCA GGTGGAGTGC AGGGTGTTTC CCGACCATCA 
AGATCTCTGA GTACAGCACA GCTAATAAAC ACAAGAAGTC TTCAAGCATC TATGATTTCC 
AACATCATCT TAATGAAAGG ACAGGGAAAG GGTTTGGGAT TCAGTATTGT TGGAGGAAAG 
GACAGTATTT ATGGGCCGGT TGGCATCTAT GTGAAGACAA TTTTTCCAGA AGGAGCAGCA 
GCGGCTGATG GGAGATTACA AGAAGGGGAT GAAATTCTGG AACTCAATGG CGAGTCCATG 
TATGGGCTAA CACATAATAA TGCTCTGCAA AAGTTTAAGC AAGTGAAGAA AGGCGTGCTC 
ACTCTGACAG TTCGCACAGG ACTTGGCGCT TTAGAAGAAA AGCCTGGCTA CTTTGCCTCC 
CAGATGTTTC GCTCCAAAAG CTCCAGTTGT TGTGTAGCCA GAGAGCATAG TCCATTACAG 
TCGGAAAGCC ATGCATTCTT ATTAAGCTCC CACAACCCCA ATGACAGAGT GCTGATGGAA 
GTGACAATGC ACAAAGAGTC GGGTGTTGGC TTGGGGATAG GACTGTGCAG TGTTCCAAAC 
TGCGGGGGAA TTTCCAGCAT ATTCATTCAT TCACTCTCTC CTGGCTCTGT GGCTCATATG 
GATGGAAGAC TCAGAGCTGG TGATGAGATT GTGGAGATAA ATGAGAGTGT TGTCAGTAAT 
AAATCTTTAA ATGAGGTGTA TGCACTTTTA AGCCACTGCC CATCTGGTCC TGTCACTATC 
CTTATTAGCA GGCATCCGGA TCCACAGATC TCTGAACAGC AGCTGAAAAA TGCTGTATCA 
CAGGCTGTGG AAAATAGCAG ATGTGAAAAG GATCCTCACC CTTGGAGCTA TGAAGGTGAG 
AGAAAGTTCT TTTCTTGCTT CCATGGCAAA TACCAGTGTG AAAGCTGCAT AGGAAAGCAT 
GCTTCTTATC TGTATAACAG TCGTAGAGAG CAGAAGCAAA TGGTCCGCTC CAGCAGTGAA 
GGAAACGATG GTCCTACATC CCTAGGTCCC AACATGAACT CCTACCAGTC ACATGTTCTG 
GCAAGTAGGG TGCATAGTGT CAATGTCCCT CTTGGAACAC AGACAACTAT ACTGCATTAT 
TCTACTCCAG TTAGGGTGGA AAACCATTCC CCTGTTAACC CTGAAGGACT AAGCGGGTCT 
CAGGTATCCT GCAAGAAATC CATTGGCCAT TCTGGAGAGA TCCTTGTGAA AAAACTAACA 
ACAAAACCAA TTCCACCACC TAGAAAGTAT TATAAAGAAG ACCTAAGGGA GGATGTAAAT 
CACAATCAAG AAAATGGACA ATCTGTGGAT GAAACAGGAA ACTTACAGCT AAAGGGAAAC 
CAGCAAATTA CAGGCGAGAG CATATTAGAC ACATCTTCAT CAACCAGCGA GTGCTCATAC 
ACTAGCGCTG CTGAGCCAGA AAAGCACTCG GACACAGGAA ATCCTGTATC AAACCACCGA 
CCACTGCTAA GAAGACAGGC ACGTGTTGAC TACAGCTTTG ACACAACAAG TGAAGATCCG 
TGGGTCAGAA TCTCCGATTG CATCAAAAAC TTGTTCAGCC CCCTCATAAA CGAAGGCCAC 
AACCTAATAG ATCTAGAAAG TAGCATCCGT TCAACAGGTG GCAATACAGA GAGACTTAGG 
CGAGATTCTG CATGCGAGGA TTCTCAAATT TGCAGCTCTC AAGATATGAG TAACTTCAAG 
AAAGGTCCAC CAGTTGCTCC CAAGCCAACC TGGTTCCGGC AGAGTCTGAA GGGATATAGG 
AATGTAGATA AGAAGCCAAC TGATGGCACA TCTCTGGATA AATACAAAGA GATTCATAAC 
AACATTAAAC CACAAACTTC AAGTCGGACA TCATCGATTA AACAAAAGAT AAATTCCTTT 
GAAACATTTA GCACACCATC ACCAACTGGA AAAATAAGCG ACAGAGGGAA TGTTACATCT 
TCAGCACTGA ATGACAAGTC CTTTAACAAA CAAGAAGTAG AAAGTGTGAC AGTCTGTTTG 
AACAATGTGA CCGTGAGCAC AGCTGAAATT CAGGTTACTG AAGTTATACA GCCTCCTGTG 
GCTATTCCAA AGTCTCCTGA AAAAGAAGAA CCGGAAGTGT CTCAGTCACC ACCAAAACCC 
TGTTTCCAGG GCATGCGAAG GAGTAGCAGT ACTAGTAATG ACCCTCAGTT TCATTATTCC 
GAGCTCAATG AACAAGTACC ATACAAGATA CCGAGCCACA GATCTAGGAG CTTTCCTCTG 
AGTGCCTCCA CACCCTCTGA TGCATTGAAG ATAAATGAAA ACTCTAGCAA GATCTATTCC 
ATCAGCAACC AGGTCTCCTC TGCTTTAATG AAGTCCTTGC TGTGTTTCCC TCAGTCTCCG 
AAGCTACAAG TCTCTTATCC CTGGCAGAAT GAATCTTACC CTGTAGATGA GATCTCATCC 
AGCCCTAAGA CTGAAAGTTA CCATTTGGAC ACTGGATTTT CTGTAAACTT GTCTGAATTA 
AGAGAGTTCG GAGCAGGACA ATCAGAAAAG GAGAAGGAGG AGGATGTCCA AGAACCGTCA 
CTTGCATTGG CTTCAGTGCC TGCTGGTCAG TCTGTCATAT CTCTGCTTCT CAGAGAAGAA 
TTAACTGCAC TGATAGAGGA AGTCAAAGAG CTAGATGAAG AAACCCTGAA GCAATTTGAT 
GACATCCACG TTGTAGTCTT GCATAAGGAA GAGGGTACTG GCCTTGGATT CAGTCTTGCG 
GGAGGACTTG ATTTGGAGAA CAAAGCTATA ACCGTGCACA GAGTTTTCCC CAGTGGGCTG 
ACTGCTCAAG AAGGAACAAT CCAGAAAGGA GATAAAGTTC TATCCATCAA TGGAAAGTCA 
TTAAAGGGAG TTACACACAA TGATGCTCTT GCCATTTTGC GCCAGGCACG CCACCCTAAA 
CAAGCTGTTA TTGTCATAAA GAAAGAGAAA GATGGAGAGC AAACACCAGA ATCCCTAGAC 
TCGGCATTCT CTGCTTTAAC TGATGACTCA ACAGCAGCAA ATTGTGATGA CACTGGGGAT 
ATCATTGTCG TTACTCTTGA AAAATCCTTG GCTGGACTTG GATTCAGTTT GGATGGGGGG 
AAAGGCTCTG TACAGGGAGA CAGACCTGTC ATCATTAACA GGATTTTTAA AGGTGTCTCA 
GAAAAGAATA ATGCAGTGCA GTATGGAGAT GAACTACTGC AGCTGGGGAA CATCAGTTTG 
CAAGGTCTCA CACGGTTTGA AGCATGGAAT TCCATTAAGT CTTTACCAAA TGGACTTGTC 
CAAGCTGTCA TCAGGAGAAA AAGCACTGAC TCCACTGTAA ACCAATAG