ADAMTS17 ORF clone FXC10762

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Flexi ORF Clone FXC10762

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Clone info.

Species

human

Clone Name

pF1KE0093 Sequence (with vector) Restriction Map

Product ID

FXC10762

HaloTag Clone PID

FHC10762

ORF Sequence

DNA sequence (3285 bp)
Protein sequence (1095 aa)

Linker Type

Flexi type

more Linker info

Vector Type

pF1K Vector sequence

Restriction Map

Cloning Site

SgfI-PmeI

GenBank Accession

ORF sequence is derived from [AB527357]

Gene

KIEE0093

Symbol

ADAMTS17

Alias : WMS4

Description

ADAM metallopeptidase with thrombospondin type 1 motif, 17

Original Clone ID

oc00793

Features of the cloned ORF sequence

Description

Length: 3285 bp
Restriction map A Restriction map B
Genomic Structure

Features of the protein sequence

Description

Length: 1095 aa
Result of homology search against CCDS protein database ( FASTA output, Multiple alignment) Entry Exp ID% symbol CCDS10383.1 0 100.0 ADAMTS17 CCDS4146.1 3.2e-107 55.3 ADAMTS19 CCDS3983.2 2.8e-55 33.5 ADAMTS6 CCDS32303.1 1.5e-52 35.6 ADAMTS7 CCDS34140.1 3.4e-47 35.1 ADAMTS12 The numbers on the left and right sides of a black line in the graphical overview indicate the lengths (in amino acid residues) of the non-homologous N-terminal and C-terminal portions flanking the homologous region (indicated by the black line), respectively.
Result of motif / domain search (InterProScan and SOSUI) [ zoom out (x2) ]
Result of InterProScan Search method interpro_ID From To Entry Definition FPrintScan IPR013273 552 570 PR01857 Peptidase M12B IPR013273 660 679 PR01857 Peptidase M12B IPR013273 680 699 PR01857 Peptidase M12B HMMPfam IPR002870 31 180 PF01562 Peptidase M12B IPR001590 350 449 PF01421 Peptidase M12B IPR000884 547 597 PF00090 Thrombospondin IPR010294 713 783 PF05986 ADAM-TS Spacer 1 IPR000884 868 896 PF00090 Thrombospondin IPR000884 927 969 PF00090 Thrombospondin IPR000884 978 1028 PF00090 Thrombospondin IPR010909 1048 1081 PF08686 PLAC HMMSmart IPR006586 456 535 SM00608 ADAM IPR000884 546 598 SM00209 Thrombospondin IPR000884 804 862 SM00209 Thrombospondin IPR000884 864 922 SM00209 Thrombospondin IPR000884 924 968 SM00209 Thrombospondin IPR000884 975 1029 SM00209 Thrombospondin ProfileScan IPR001590 232 452 PS50215 Peptidase M12B IPR000884 543 598 PS50092 Thrombospondin IPR000884 800 860 PS50092 Thrombospondin IPR000884 861 922 PS50092 Thrombospondin IPR000884 925 968 PS50092 Thrombospondin IPR000884 972 1029 PS50092 Thrombospondin IPR010909 1045 1084 PS50900 PLAC
Prediction of transmembrane (TM) segments Method No. N terminal transmembrane region C terminal type length SOSUI2 1 3 DGALLPPLVLPVLLLLVWGLDPG 25 PRIMARY 23
Result of homology search against disease genes in OMIM database(FASTA output, Multiple alignment) H_id H_len (aa) OMIM_No. ID (%) Q_ali/Q_len (%) NP_620688 1095 607511,613195 100.0 100.0 XP_011519614 1145 607511,613195 95.6 98.4 XP_005254929 1122 607511,613195 97.6 100.0 XP_016877464 1166 607511,613195 93.7 96.4 Inquiries or Suggestions ? Send a message to flexiclone AT kazusagt.com

ORF DNA

Cloned ORF Nucleotide sequence for pF1KE0093 Download

>KIEE0093  3285 bp
ATGTGTGACGGCGCCCTGCTGCCTCCGCTCGTCCTGCCCGTGCTGCTGCTGCTGGTTTGG
GGACTGGACCCGGGCACAGCTGTCGGCGACGCGGCGGCCGACGTGGAGGTGGTGCTCCCG
TGGCGGGTGCGCCCCGACGACGTGCACCTGCCGCCGCTGCCCGCAGCCCCCGGGCCCCGA
CGGCGGCGACGCCCCCGCACGCCCCCAGCCGCCCCGCGCGCCCGGCCCGGAGAGCGCGCC
CTGCTGCTGCACCTGCCGGCCTTCGGGCGCGACCTGTACCTTCAGCTGCGCCGCGACCTG
CGCTTCCTGTCCCGAGGCTTCGAGGTGGAGGAGGCGGGCGCGGCCCGGCGCCGCGGCCGC
CCCGCCGAGCTGTGCTTCTACTCGGGCCGTGTGCTCGGCCACCCCGGCTCCCTCGTCTCG
CTCAGCGCCTGCGGCGCCGCCGGCGGCCTGGTTGGCCTCATTCAGCTTGGGCAGGAGCAG
GTGCTAATCCAGCCCCTCAACAACTCCCAGGGCCCATTCAGTGGACGAGAACATCTGATC
AGGCGCAAATGGTCCTTGACCCCCAGCCCTTCTGCTGAGGCCCAGAGACCTGAGCAGCTC
TGCAAGGTTCTAACAGAAAAGAAGAAGCCGACGTGGGGCAGGCCTTCGCGGGACTGGCGG
GAGCGGAGGAACGCTATCCGGCTCACCAGCGAGCACACGGTGGAGACCCTGGTGGTGGCC
GACGCCGACATGGTGCAGTACCACGGGGCCGAGGCCGCCCAGAGGTTCATCCTGACCGTC
ATGAACATGGTATACAATATGTTTCAGCACCAGAGCCTGGGGATTAAAATTAACATTCAA
GTGACCAAGCTTGTCCTGCTACGACAACGTCCCGCTAAGTTGTCCATTGGGCACCATGGT
GAGCGGTCCCTGGAGAGCTTCTGTCACTGGCAGAACGAGGAGTATGGAGGAGCGCGATAC
CTCGGCAATAACCAGGTTCCCGGCGGGAAGGACGACCCGCCCCTGGTGGATGCTGCCGTG
TTTGTGACCAGGACAGATTTCTGTGTACACAAGGATGAACCGTGTGACACTGTTGGAATT
GCTTACTTAGGAGGTGTGTGCAGTGCTAAGAGGAAGTGTGTGCTTGCCGAAGACAATGGT
CTCAATTTGGCCTTTACCATCGCCCATGAGCTGGGCCACAACTTGGGCATGAACCACGAC
GATGACCACTCATCTTGCGCTGGCAGGTCCCACATCATGTCAGGAGAGTGGGTGAAAGGC
CGGAACCCAAGTGACCTCTCTTGGTCCTCCTGCAGCCGAGATGACCTTGAAAACTTCCTC
AAGTCAAAAGTCAGCACCTGCTTGCTAGTCACGGACCCCAGAAGCCAGCACACAGTACGC
CTCCCGCACAAGCTGCCGGGCATGCACTACAGTGCCAACGAGCAGTGCCAGATCCTGTTT
GGCATGAATGCCACCTTCTGCAGAAACATGGAGCATCTAATGTGTGCTGGACTGTGGTGC
CTGGTAGAAGGAGACACATCCTGCAAGACCAAGCTGGACCCTCCCCTGGATGGCACCGAG
TGTGGGGCAGACAAGTGGTGCCGCGCGGGGGAGTGCGTGAGCAAGACGCCCATCCCGGAG
CATGTGGACGGAGACTGGAGCCCGTGGGGCGCCTGGAGCATGTGCAGCCGAACATGTGGG
ACGGGAGCCCGCTTCAGGCAGAGGAAATGTGACAACCCCCCCCCTGGGCCTGGAGGCACA
CACTGCCCGGGTGCCAGTGTAGAACATGCGGTCTGCGAGAACCTGCCCTGCCCCAAGGGT
CTGCCCAGCTTCCGGGACCAGCAGTGCCAGGCACACGACCGGCTGAGCCCCAAGAAGAAA
GGCCTGCTGACAGCCGTGGTGGTTGACGATAAGCCATGTGAACTCTACTGCTCGCCCCTC
GGGAAGGAGTCCCCACTGCTGGTGGCCGACAGGGTCCTGGACGGTACACCCTGCGGGCCC
TACGAGACTGATCTCTGCGTGCACGGCAAGTGCCAGAAAATCGGCTGTGACGGCATCATC
GGGTCTGCAGCCAAAGAGGACAGATGCGGGGTCTGCAGCGGGGACGGCAAGACCTGCCAC
TTGGTGAAGGGCGACTTCAGCCACGCCCGGGGGACAGCTCTCAAAGACTCGGGTAAGGGG
TCCATCAACAGTGACTGGAAGATAGAGCTCCCCGGAGAGTTCCAGATTGCAGGCACAACT
GTTCGCTATGTGAGAAGGGGGCTGTGGGAGAAGATCTCTGCCAAGGGACCAACCAAACTA
CCGCTGCACTTGATGGTGTTGTTATTTCACGACCAAGATTATGGAATTCATTATGAATAC
ACTGTTCCTGTAAACCGCACTGCGGAAAATCAAAGCGAACCAGAAAAACCGCAGGACTCT
TTGTTCATCTGGACCCACAGCGGCTGGGAAGGGTGCAGTGTGCAGTGCGGCGGAGGGGAG
CGCAGAACCATCGTCTCGTGTACACGGATTGTCAACAAGACCACAACTCTGGTGAACGAC
AGTGACTGCCCTCAAGCAAGCCGCCCAGAGCCCCAGGTCCGAAGGTGCAACTTGCACCCC
TGCCAGTCACGGTGGGTGGCAGGCCCGTGGAGCCCCTGCTCGGCGACCTGTGAGAAAGGC
TTCCAGCACCGGGAGGTGACCTGCGTGTACCAGCTGCAGAACGGCACACACGTCGCTACG
CGGCCCCTCTACTGCCCGGGCCCCCGGCCGGCGGCAGTGCAGAGCTGTGAAGGCCAGGAC
TGCCTGTCCATCTGGGAGGCGTCTGAGTGGTCACAGTGCTCTGCCAGCTGTGGTAAAGGG
GTGTGGAAACGGACCGTGGCGTGCACCAACTCACAAGGGAAATGCGACGCATCCACGAGG
CCGAGAGCCGAGGAGGCCTGCGAGGACTACTCAGGCTGCTACGAGTGGAAAACTGGGGAC
TGGTCTACGTGCTCGTCGACCTGCGGGAAGGGCCTGCAGTCCCGGGTGGTGCAGTGCATG
CACAAGGTCACAGGGCGCCACGGCAGCGAGTGCCCCGCCCTCTCGAAGCCTGCCCCCTAC
AGACAGTGCTACCAGGAGGTCTGCAACGACAGGATCAACGCCAACACCATCACCTCCCCC
CGCCTTGCTGCTCTGACCTACAAATGCACACGAGACCAGTGGACGGTATATTGCCGGGTC
ATCCGAGAAAAGAACCTCTGCCAGGACATGCGGTGGTACCAGCGCTGCTGCCAGACCTGC
AGGGACTTCTATGCAAACAAGATGCGCCAGCCACCGCCGAACTCG

ORF Protein

Cloned ORF protein sequence for pF1KE0093 Download

>KIEE0093  1095 aa
MCDGALLPPLVLPVLLLLVWGLDPGTAVGDAAADVEVVLPWRVRPDDVHLPPLPAAPGPR
RRRRPRTPPAAPRARPGERALLLHLPAFGRDLYLQLRRDLRFLSRGFEVEEAGAARRRGR
PAELCFYSGRVLGHPGSLVSLSACGAAGGLVGLIQLGQEQVLIQPLNNSQGPFSGREHLI
RRKWSLTPSPSAEAQRPEQLCKVLTEKKKPTWGRPSRDWRERRNAIRLTSEHTVETLVVA
DADMVQYHGAEAAQRFILTVMNMVYNMFQHQSLGIKINIQVTKLVLLRQRPAKLSIGHHG
ERSLESFCHWQNEEYGGARYLGNNQVPGGKDDPPLVDAAVFVTRTDFCVHKDEPCDTVGI
AYLGGVCSAKRKCVLAEDNGLNLAFTIAHELGHNLGMNHDDDHSSCAGRSHIMSGEWVKG
RNPSDLSWSSCSRDDLENFLKSKVSTCLLVTDPRSQHTVRLPHKLPGMHYSANEQCQILF
GMNATFCRNMEHLMCAGLWCLVEGDTSCKTKLDPPLDGTECGADKWCRAGECVSKTPIPE
HVDGDWSPWGAWSMCSRTCGTGARFRQRKCDNPPPGPGGTHCPGASVEHAVCENLPCPKG
LPSFRDQQCQAHDRLSPKKKGLLTAVVVDDKPCELYCSPLGKESPLLVADRVLDGTPCGP
YETDLCVHGKCQKIGCDGIIGSAAKEDRCGVCSGDGKTCHLVKGDFSHARGTALKDSGKG
SINSDWKIELPGEFQIAGTTVRYVRRGLWEKISAKGPTKLPLHLMVLLFHDQDYGIHYEY
TVPVNRTAENQSEPEKPQDSLFIWTHSGWEGCSVQCGGGERRTIVSCTRIVNKTTTLVND
SDCPQASRPEPQVRRCNLHPCQSRWVAGPWSPCSATCEKGFQHREVTCVYQLQNGTHVAT
RPLYCPGPRPAAVQSCEGQDCLSIWEASEWSQCSASCGKGVWKRTVACTNSQGKCDASTR
PRAEEACEDYSGCYEWKTGDWSTCSSTCGKGLQSRVVQCMHKVTGRHGSECPALSKPAPY
RQCYQEVCNDRINANTITSPRLAALTYKCTRDQWTVYCRVIREKNLCQDMRWYQRCCQTC
RDFYANKMRQPPPNS

ORF+Vector

Nucleotide Sequence (with vector) for pF1KE0093 Download

>pF1KE0093  6398 bp
GGATCTCGATCCCGCGAAATTAATACGACTCACTATAGGGGAATTGTGAGCGGATAACAA
TTCCCCACTAGTAATAATTTTCTTTAACTTTAGTAAGGAGCGATCGCCATGTGTGACGGC
GCCCTGCTGCCTCCGCTCGTCCTGCCCGTGCTGCTGCTGCTGGTTTGGGGACTGGACCCG
GGCACAGCTGTCGGCGACGCGGCGGCCGACGTGGAGGTGGTGCTCCCGTGGCGGGTGCGC
CCCGACGACGTGCACCTGCCGCCGCTGCCCGCAGCCCCCGGGCCCCGACGGCGGCGACGC
CCCCGCACGCCCCCAGCCGCCCCGCGCGCCCGGCCCGGAGAGCGCGCCCTGCTGCTGCAC
CTGCCGGCCTTCGGGCGCGACCTGTACCTTCAGCTGCGCCGCGACCTGCGCTTCCTGTCC
CGAGGCTTCGAGGTGGAGGAGGCGGGCGCGGCCCGGCGCCGCGGCCGCCCCGCCGAGCTG
TGCTTCTACTCGGGCCGTGTGCTCGGCCACCCCGGCTCCCTCGTCTCGCTCAGCGCCTGC
GGCGCCGCCGGCGGCCTGGTTGGCCTCATTCAGCTTGGGCAGGAGCAGGTGCTAATCCAG
CCCCTCAACAACTCCCAGGGCCCATTCAGTGGACGAGAACATCTGATCAGGCGCAAATGG
TCCTTGACCCCCAGCCCTTCTGCTGAGGCCCAGAGACCTGAGCAGCTCTGCAAGGTTCTA
ACAGAAAAGAAGAAGCCGACGTGGGGCAGGCCTTCGCGGGACTGGCGGGAGCGGAGGAAC
GCTATCCGGCTCACCAGCGAGCACACGGTGGAGACCCTGGTGGTGGCCGACGCCGACATG
GTGCAGTACCACGGGGCCGAGGCCGCCCAGAGGTTCATCCTGACCGTCATGAACATGGTA
TACAATATGTTTCAGCACCAGAGCCTGGGGATTAAAATTAACATTCAAGTGACCAAGCTT
GTCCTGCTACGACAACGTCCCGCTAAGTTGTCCATTGGGCACCATGGTGAGCGGTCCCTG
GAGAGCTTCTGTCACTGGCAGAACGAGGAGTATGGAGGAGCGCGATACCTCGGCAATAAC
CAGGTTCCCGGCGGGAAGGACGACCCGCCCCTGGTGGATGCTGCCGTGTTTGTGACCAGG
ACAGATTTCTGTGTACACAAGGATGAACCGTGTGACACTGTTGGAATTGCTTACTTAGGA
GGTGTGTGCAGTGCTAAGAGGAAGTGTGTGCTTGCCGAAGACAATGGTCTCAATTTGGCC
TTTACCATCGCCCATGAGCTGGGCCACAACTTGGGCATGAACCACGACGATGACCACTCA
TCTTGCGCTGGCAGGTCCCACATCATGTCAGGAGAGTGGGTGAAAGGCCGGAACCCAAGT
GACCTCTCTTGGTCCTCCTGCAGCCGAGATGACCTTGAAAACTTCCTCAAGTCAAAAGTC
AGCACCTGCTTGCTAGTCACGGACCCCAGAAGCCAGCACACAGTACGCCTCCCGCACAAG
CTGCCGGGCATGCACTACAGTGCCAACGAGCAGTGCCAGATCCTGTTTGGCATGAATGCC
ACCTTCTGCAGAAACATGGAGCATCTAATGTGTGCTGGACTGTGGTGCCTGGTAGAAGGA
GACACATCCTGCAAGACCAAGCTGGACCCTCCCCTGGATGGCACCGAGTGTGGGGCAGAC
AAGTGGTGCCGCGCGGGGGAGTGCGTGAGCAAGACGCCCATCCCGGAGCATGTGGACGGA
GACTGGAGCCCGTGGGGCGCCTGGAGCATGTGCAGCCGAACATGTGGGACGGGAGCCCGC
TTCAGGCAGAGGAAATGTGACAACCCCCCCCCTGGGCCTGGAGGCACACACTGCCCGGGT
GCCAGTGTAGAACATGCGGTCTGCGAGAACCTGCCCTGCCCCAAGGGTCTGCCCAGCTTC
CGGGACCAGCAGTGCCAGGCACACGACCGGCTGAGCCCCAAGAAGAAAGGCCTGCTGACA
GCCGTGGTGGTTGACGATAAGCCATGTGAACTCTACTGCTCGCCCCTCGGGAAGGAGTCC
CCACTGCTGGTGGCCGACAGGGTCCTGGACGGTACACCCTGCGGGCCCTACGAGACTGAT
CTCTGCGTGCACGGCAAGTGCCAGAAAATCGGCTGTGACGGCATCATCGGGTCTGCAGCC
AAAGAGGACAGATGCGGGGTCTGCAGCGGGGACGGCAAGACCTGCCACTTGGTGAAGGGC
GACTTCAGCCACGCCCGGGGGACAGCTCTCAAAGACTCGGGTAAGGGGTCCATCAACAGT
GACTGGAAGATAGAGCTCCCCGGAGAGTTCCAGATTGCAGGCACAACTGTTCGCTATGTG
AGAAGGGGGCTGTGGGAGAAGATCTCTGCCAAGGGACCAACCAAACTACCGCTGCACTTG
ATGGTGTTGTTATTTCACGACCAAGATTATGGAATTCATTATGAATACACTGTTCCTGTA
AACCGCACTGCGGAAAATCAAAGCGAACCAGAAAAACCGCAGGACTCTTTGTTCATCTGG
ACCCACAGCGGCTGGGAAGGGTGCAGTGTGCAGTGCGGCGGAGGGGAGCGCAGAACCATC
GTCTCGTGTACACGGATTGTCAACAAGACCACAACTCTGGTGAACGACAGTGACTGCCCT
CAAGCAAGCCGCCCAGAGCCCCAGGTCCGAAGGTGCAACTTGCACCCCTGCCAGTCACGG
TGGGTGGCAGGCCCGTGGAGCCCCTGCTCGGCGACCTGTGAGAAAGGCTTCCAGCACCGG
GAGGTGACCTGCGTGTACCAGCTGCAGAACGGCACACACGTCGCTACGCGGCCCCTCTAC
TGCCCGGGCCCCCGGCCGGCGGCAGTGCAGAGCTGTGAAGGCCAGGACTGCCTGTCCATC
TGGGAGGCGTCTGAGTGGTCACAGTGCTCTGCCAGCTGTGGTAAAGGGGTGTGGAAACGG
ACCGTGGCGTGCACCAACTCACAAGGGAAATGCGACGCATCCACGAGGCCGAGAGCCGAG
GAGGCCTGCGAGGACTACTCAGGCTGCTACGAGTGGAAAACTGGGGACTGGTCTACGTGC
TCGTCGACCTGCGGGAAGGGCCTGCAGTCCCGGGTGGTGCAGTGCATGCACAAGGTCACA
GGGCGCCACGGCAGCGAGTGCCCCGCCCTCTCGAAGCCTGCCCCCTACAGACAGTGCTAC
CAGGAGGTCTGCAACGACAGGATCAACGCCAACACCATCACCTCCCCCCGCCTTGCTGCT
CTGACCTACAAATGCACACGAGACCAGTGGACGGTATATTGCCGGGTCATCCGAGAAAAG
AACCTCTGCCAGGACATGCGGTGGTACCAGCGCTGCTGCCAGACCTGCAGGGACTTCTAT
GCAAACAAGATGCGCCAGCCACCGCCGAACTCGGTTTAAACGAATTCGAGCTCGGTACCC
GGGGATCCTCTAGAGTCGACCTGCAGGCATGCAAGCTGATCCGGCTGCTAACAAAGCCCG
AAAGGAAGCTGAGTTGGCTGCTGCCACCGCTGAGCAATAACTAGCATAACCCCTTGGGGC
CTCTAAACGGGTCTTGAGGGGTTTTTTGCTGAAAGGAGGAACTATATCCGGTTCGCTTGC
TGTCCATAAAACCGCCCAGTCTAGCTATCGCCATGTAAGCCCACTGCAAGCTACCTGCTT
TCTCTTTGCGCTTGCGTTTTCCCTTGTCCAGATAGCCCAGTAGCTGACATTCATCCGGGG
TCAGCACCGTTTCTGCGGACTGGCTTTCTACGTGTTCCGCTTCCTTTAGCAGCCCTTGCG
CCCTGAGTGCTTGCGGCAGCGTGAGCTTCAAAAGAATTGCCAGCTGGGGCGCCCTCTGGT
AAGGTTGGGAAGCCCTGCAAAGTAAACTGGATGGCTTTCTTGCCGCCAAGGATCTGATGG
CGCAGGGGATCAAGATCTGATCAAGAGACAGGATGACGGTCGTTTCGCATGCTTGAACAA
GATGGATTGCACGCAGGTTCTCCGGCCGCTTGGGTGGAGAGGCTATTCGGCTATGACTGG
GCACAACAGACAATCGGCTGCTCTGATGCCGCCGTGTTCCGGCTGTCAGCGCAGGGGCGC
CCGGTTCTTTTTGTCAAGACCGACCTGTCCGGTGCCCTGAATGAACTGCAGGACGAGGCA
GCGCGGCTATCGTGGCTGGCCACGACGGGCGTTCCTTGCGCAGCTGTGCTCGACGTTGTC
ACTGAAGCGGGAAGGGACTGGCTGCTATTGGGCGAAGTGCCGGGGCAGGATCTCCTGTCA
TCTCACCTTGCTCCTGCCGAGAAAGTATCCATCATGGCTGATGCAATGCGGCGGCTGCAT
ACGCTTGATCCGGCTACCTGCCCATTCGACCACCAAGCGAAACATCGCATCGAGCGAGCA
CGCACTCGGATGGAAGCCGGTCTTGTCGATCAGGATGATCTGGACGAAGAGCATCAGGGG
CTCGCGCCAGCCGAACTGTTCGCCAGGCTCAAGGCGCGTATGCCGGATGGTGAGGATCTC
GTCGTGACTCATGGCGATGCCTGCTTGCCGAATATCATGGTGGAAAATGGCCGCTTTTCT
GGATTCATCGACTGTGGCCGGCTGGGTGTGGCGGACCGCTATCAGGACATAGCGTTGGCT
ACCCGTGATATTGCTGAAGAGCTTGGCGGCGAATGGGCTGACCGCTTCCTCGTGCTTTAC
GGTATCGCCGCTCCCGATTCGCAGCGCATCGCCTTCTATCGCCTTCTTGACGAGTTCTTC
TGAGCGGGACTCTGGGGTTCGAAATGACCGACCAAGCGACGCCCAACCGGTATCAGCTCA
CTCAAAGGCGGTAATACGGTTATCCACAGAATCAGGGGATAACGCAGGAAAGAACATGTG
AGCAAAAGGCCAGCAAAAGGCCAGGAACCGTAAAAAGGCCGCGTTGCTGGCGTTTTTCCA
TAGGCTCCGCCCCCCTGACGAGCATCACAAAAATCGACGCTCAAGTCAGAGGTGGCGAAA
CCCGACAGGACTATAAAGATACCAGGCGTTTCCCCCTGGAAGCTCCCTCGTGCGCTCTCC
TGTTCCGACCCTGCCGCTTACCGGATACCTGTCCGCCTTTCTCCCTTCGGGAAGCGTGGC
GCTTTCTCATAGCTCACGCTGTAGGTATCTCAGTTCGGTGTAGGTCGTTCGCTCCAAGCT
GGGCTGTGTGCACGAACCCCCCGTTCAGCCCGACCGCTGCGCCTTATCCGGTAACTATCG
TCTTGAGTCCAACCCGGTAAGACACGACTTATCGCCACTGGCAGCAGCCACTGGTAACAG
GATTAGCAGAGCGAGGTATGTAGGCGGTGCTACAGAGTTCTTGAAGTGGTGGCCTAACTA
CGGCTACACTAGAAGGACAGTATTTGGTATCTGCGCTCTGCTGAAGCCAGTTACCTTCGG
AAAAAGAGTTGGTAGCTCTTGATCCGGCAAACAAACCACCGCTGGTAGCGGTGGTTTTTT
TGTTTGCAAGCAGCAGATTACGCGCAGAAAAAAAGGATTTCAAGAAGATCCTTTGATCTT
TTCTACGGGGTCTGACGCTCAGTGGAACGAAAACTCACGTTAAGGGATTTTGGTCATGAG
ATTATCAAAAAGGATCTTCACCTAGATCCTTTTATAGTCCGGAAATACAGGAACGCACGC
TGGATGGCCCTTCGCTGGGATGGTGAAACCATGAAAAATGGCAGCTTCAGTGGATTAAGT
GGGGGTAATGTGGCCTGTACCCTCTGGTTGCATAGGTATTCATACGGTTAAAATTTATCA
GGCGCGATTGCGGCAGTTTTTCGGGTGGTTTGTTGCCATTTTTACCTGTCTGCTGCCGTG
ATCGCGCTGAACGCGTTTTAGCGGTGCGTACAATTAAGGGATTATGGTAAATCCACTTAC
TGTCTGCCCTCGTAGCCATCGAGATAAACCGCAGTACTCCGGCCACGATGCGTCCGGCGT
AGAGGATCGAGATCTTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCTGAT
AAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTC
AGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAA
CTGCCAGGCATCAAATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTATCT
GTTGTTTGTCGGTGAACGCTCTCCTGAGTAGGACAAATCCGCCGGGAGCGGATTTGAACG
TTGCGAAGCAACGGCCCGGAGGGTGGCGGGCAGGACGCCCGCCATAAACTGCCAGGCATC
AAATTAAGCAGAAGGCCATCCTGACGGATGGCCTTTTTGCGTTTCTACAAACTCTTTTGT
TTATTTTTCTAAATACATTCAAATATGTATCCGCTCAT