Homologs in group_3133

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5 homologs were identified in 1 genome with OrthoFinder.
The following table displays the locus tag of each homolog, the organism to which it belongs, the gene name and product.

Locus tag Identity Source Gene Product
PMI_RS01360 PMI_RS01360 24.9 Proteus mirabilis HI4320 - M10 family metallopeptidase
PMI_RS01365 PMI_RS01365 26.9 Proteus mirabilis HI4320 - M10 family metallopeptidase C-terminal domain-containing protein
PMI_RS01370 PMI_RS01370 26.9 Proteus mirabilis HI4320 - M10 family metallopeptidase C-terminal domain-containing protein
PMI_RS01375 PMI_RS01375 26.5 Proteus mirabilis HI4320 - M10 family metallopeptidase C-terminal domain-containing protein
PMI_RS10070 PMI_RS10070 27.9 Proteus mirabilis HI4320 rtxA MARTX multifunctional-autoprocessing repeats-in-toxin holotoxin RtxA

Distribution of the homologs in the orthogroup group_3133

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Number of homologs in each genome (first column) and amino-acid identity of the closest homolog (second column).

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Phylogeny of the RefSeq best hits of group_3133

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
P55126 8.93e-10 68 44 1 81 3 frpA Iron-regulated protein FrpA Neisseria meningitidis serogroup C
P55127 1.71e-09 67 42 1 91 1 frpC Iron-regulated protein FrpC Neisseria meningitidis serogroup C
P55127 1.71e-09 67 42 1 91 1 frpC Iron-regulated protein FrpC Neisseria meningitidis serogroup C
P55127 3e-09 67 41 1 91 1 frpC Iron-regulated protein FrpC Neisseria meningitidis serogroup C
P55127 7.82e-09 65 41 1 91 1 frpC Iron-regulated protein FrpC Neisseria meningitidis serogroup C
Q9JYV5 1.8e-09 67 42 1 91 3 frpC Iron-regulated protein FrpC Neisseria meningitidis serogroup B (strain ATCC BAA-335 / MC58)
Q9JYV5 5.68e-09 66 41 1 91 3 frpC Iron-regulated protein FrpC Neisseria meningitidis serogroup B (strain ATCC BAA-335 / MC58)
Q9JYV5 6.44e-09 65 41 1 91 3 frpC Iron-regulated protein FrpC Neisseria meningitidis serogroup B (strain ATCC BAA-335 / MC58)
Q9JYV5 2.95e-08 63 40 1 91 3 frpC Iron-regulated protein FrpC Neisseria meningitidis serogroup B (strain ATCC BAA-335 / MC58)
Q9RCG8 2.62e-09 67 40 2 89 3 paxA Exotoxin PaxA Pasteurella aerogenes
Q9K0K9 2.97e-09 67 42 1 90 3 frpA Iron-regulated protein FrpA Neisseria meningitidis serogroup B (strain ATCC BAA-335 / MC58)
Q9K0K9 3.37e-09 66 42 1 90 3 frpA Iron-regulated protein FrpA Neisseria meningitidis serogroup B (strain ATCC BAA-335 / MC58)
P55130 5.28e-09 65 34 5 130 3 apxIIIA RTX-III toxin determinant A from serotype 2 Actinobacillus pleuropneumoniae
P16462 1.67e-08 64 46 0 66 1 ltxA Leukotoxin Aggregatibacter actinomycetemcomitans
P55131 4.01e-08 63 38 2 91 3 apxIIIA RTX-III toxin determinant A from serotype 8 Actinobacillus pleuropneumoniae
A1YKW7 1.4e-07 61 37 1 97 1 rtxA Cytolysin RtxA Kingella kingae
A0A2S3R7M0 3.28e-07 60 19 11 433 1 CRN52_02910 Multifunctional-autoprocessing repeats-in-toxin Vibrio vulnificus
P55129 8.04e-06 55 48 0 56 3 apxIA RTX-I toxin determinant A from serotypes 5/10 Actinobacillus pleuropneumoniae
P55129 1.45e-05 54 25 9 257 3 apxIA RTX-I toxin determinant A from serotypes 5/10 Actinobacillus pleuropneumoniae
P55128 8.6e-06 55 48 0 56 1 apxIA RTX-I toxin determinant A from serotypes 1/9 Actinobacillus pleuropneumoniae
P55128 1.36e-05 54 25 9 257 1 apxIA RTX-I toxin determinant A from serotypes 1/9 Actinobacillus pleuropneumoniae
P08715 1.29e-05 54 34 2 98 1 hlyA Hemolysin, plasmid Escherichia coli
Q00951 9.28e-05 52 34 0 79 3 appA Hemolysin Actinobacillus suis
P15377 9.6e-05 52 34 0 79 3 apxIIA RTX-II toxin determinant A Actinobacillus pleuropneumoniae
P09983 0.000176 51 46 0 56 1 hlyA Hemolysin, chromosomal Escherichia coli
P09983 0.000759 48 31 3 125 1 hlyA Hemolysin, chromosomal Escherichia coli
Q9EV29 0.000189 50 40 0 67 3 lktA Leukotoxin Mannheimia haemolytica
Q9EV34 0.000198 50 40 0 67 3 lktA Leukotoxin Mannheimia haemolytica
P0C083 0.0002 50 40 0 67 3 lktA Leukotoxin Mannheimia haemolytica
P0C084 0.0002 50 40 0 67 3 lktA Leukotoxin Mannheimia haemolytica
Q7BHI8 0.000209 50 40 0 67 1 lktA Leukotoxin Mannheimia haemolytica
P16535 0.000209 50 40 0 67 3 lktA Leukotoxin Mannheimia haemolytica
P16317 0.000234 50 40 3 89 1 prtC Serralysin C Dickeya chrysanthemi
Q9EV30 0.000515 49 39 0 66 3 lktA Leukotoxin Mannheimia haemolytica
P16316 0.000857 48 38 3 92 1 prtB Serralysin B Dickeya chrysanthemi
Q9ETX2 0.001 48 37 0 67 3 lktA Leukotoxin Mannheimia glucosida

  • Number of RefSeq hits:

General

Source Proteus mirabilis HI4320
Locus tag PMI_RS00020
Feature type CDS
Gene -
Product calcium-binding protein
Location 5204 - 13534 (strand: 1)
Length 8331 (nucleotides) / 2776 (amino acids)

Contig

Accession NC_010554
Length 4063606 nucleotides
Topology circular
Plasmid False

Orthology

Orthogroup group_3133
Orthogroup size 6
N. genomes 1

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Genomic region

Domains

PF00353 RTX calcium-binding nonapeptide repeat (4 copies)

COG entry Annotation(s)

ID Function(s) descr. Function(s) cat. Description
COG2931 Secondary metabolites biosynthesis, transport and catabolism (Q) Q Ca2+-binding protein, RTX toxin-related

Kegg Ortholog Annotation(s)

KO Description Pathways Modules
K01406 serralysin [EC:3.4.24.40] Cationic antimicrobial peptide (CAMP) resistance -

Protein Sequence

MGRFKKININDDIERITLEIVKYIKEHSVELPFNIDSVRRVLIENYIYILTYKNEYAANDFLIKIESNLSLYNRDKFTKAIDFIVKEINASIENLFVNNSYLTNKNYQKLNKTRINSVFQHYPSGFFHLKIENKNLFIQIDNTNQLFKIIDFEGTVEFFSKKDDLIHTINQMVKNSVADNSISYRFYAKNEYFNFFTLDKYWQVTPKDIYAEVINDIKAKKQVHIDSHLTIELIDSYSYKNIFIVRDSNENSEKILHIYLNNIDEAFLIAVAKHRQLKENGEHLLYKLNKDWFFTKMKDKSVKYFSQTSDLLIPLEKIMGRINLVASAENNYNFSHFDPLSGVCYGISLKYLLEVRNNGIEGGNKYLHWLKENINLYKDKKEKISDKLEKIIFDSVQEYEVLKLIKEIKEIKFAQIFQMERIYEKINYTIFDLTKATEYRKILAENGLKASNANRLESSLSQINYHLEYIMQYYNEYYAIIAFKTHAIALAYKRYSNNHYKFTLFDSNSELTEFSNIESIKDALIKIMGSYTLNKADGKEYFIIDEYKRNPTTKYRSLWDQNEIELHKGIAENIKKIGFSLPFKDGVVGRVIHYSEQRDLILELKINSKLVEVVVKNVFVDEGIFLVKNNLDKILENNKSSKVIIMSNSDGIDIQFTEFNAHQKMSKPKGYLEFNDVYYRDLIKINSYLLNGKKSFSLNKIVSLIDTLRGNIYFDKITASFSIIDEIILFNQNNENISLVDILNQVKQKIEDKLFYGDLLYGKEKLIALAQKNSLVAAIFYRMMVNEINEGYTGISNFIYEQIIDNPFLILDKNRNVGVVGYDYTINFKNNYKALKEIIDGIDISEIKNIFLLDDENRLHLKVTYQRLSEYRNNKYVNKLLHLIEDEIDSIKKIDNTGVYRDLYLEFFSNHQFNNRVIIHEIAQLESYFNNNYQERNHGYHPSNFYINENDPLTLLEKSFNQNKNEIDGSYLLFNESKENFDFLFVDNNFITRDFVDNIIIESISGVYQDDIVIYFYNGVKSEQLTQYLKDKPEIGRFLDYCLKHEIRVIAAGNEEYFPATNALVKQKSRVESLQNVILQHQFVGERTIVFANKETLFSYQSGHLFIEGIAQRLNMPIYTVTDNNLILENEYIMVKPTTESQFIGHPLLADTGASNTLLTETVPNEPNTMSNRQRVDIENKNYAAEIYQFVSHNYTNYRDNQEFKLGYQNEISTIFSGYSDNMTIADILNYIQLNRYQINYTQLGTIIRKVDQINLKYHKEKLTELSDKIINHDLLIDNAIEKYLVELSAVFNTSDNSLIKRNLIQSLYDPSVNKEFNQFLMDGMNFEQWQEITNKDYGNYNLTERTYQVIEIIHAIYDTPHLIDNLSELSKNRLNAFFDEGNKGILSRVLLSKISSFELYKETINNLKKLAVISQSDEEISALSPTEALNKLNEFKGEVNLATSEDSSTISSKVEINNLVIDKRLLCYLGAKINGESIDAIDLNQIENWDKKITFDPQHLNDYFLSVTGNEKDKEVIALLRYLLNNKQDKIKYFLSHMSSRADYVAAHERLMKIIALGSKQYNQQDWENLRIPSLKIPRHMRVISKIGYANISFGIWQSINSTFMLAEQLNNPLLTPQEHREIINNLAITWSEMAYNGLSELIEIALAKGLLKYRNNPLEYISKTSTRIGIGLNILSIGFDIYNIYDNFSRISVEKNEKRRIDYIVNGSLAIVSGLVTLGVSIAMLAGSTVAGPIGIVAGAVIALAISIYNAARLIEEAKEKIGFTPLEELNNGFYAFLMGDILPSKKNEIVYLETISQLETMIDQNAQEHLKEIKKQEPHSYYFYTNEKQFYEEHHYYKVIPRILGKTLDNILNPFGEIVVQRVAKNLSKEEAEKIAALSHYLSVERTEYKYYVPKEAIATDEILIFDMDFYVNQLNRYTINFAFEDDNPVFEDEVDISFFDKIRTTKEKTWQNLSSGELTDDLIKSTAEKQYFEPSWRENELFYFNTYNGDDIIAAPLITQNIFDVHNGTKRLSGGEKDDTFNVFTSESPRYASRFYGREGNDTLRIIQTEKKYIGYEVNLSKNYIKFIGGENKSNSQSFHARLFIFQEQGQIYTHKLADTMPNITLQRQPVIAYLESIENVVGSEIGNDIIYGDQKNNYLNGMGGVDSLYGLAGDDTLVLREGYAQGGAGNDSYTILRASNTDNNVKQLETIIDEETHTEASLIQLNYTFDEIAAISRRETDIVFTLKVGNDKDPDQFIEHLIALSHVYQDKNSQLLAHRYTIVTMDGFILTINENNNQPREVSYNFSYLEKYNQQEKLQQLSVNDDKHTLSIQSENKTKLIQLLPELQYSGFSSGEHLKLNLQGNSENNHYAGIAAHSSIKLSRGYDNYQISSLLAKNRNEKIIISLSDNDKQLTSDCTSHFFLSDVSGFDLMFSDGVLSHRYNPDAHIKLVFDTESVSAIFNSGMTLQFIDKDNRVFHLPKPDSGQRLLIPTITLDVRLSHQSDVLMIPPSLRLNKEALSLYPQYFHREEPSSRSTQLQRIISTQTLEPYPLKVTELLRDDIAVNDNQPVNSILSLNKLFSNRSQDIFSQAIDLLPMIELMDGDDIVVNHNQSSSVIDGGKGDDHIVVNEGHHILIAGEGNDNLNGGSGHDLFISTSGNDYLGGGSGNNVYVVQKRHGEVTVYDEGEMSHIFVSGLSEHEKLISSQAGKDKQYRTADNQFVLTVKTNRVEKIETDPVKVIEKEQTLSMGSLATIIQQMAQFNQQQLSTMQGSDVIPSSNWSPLAVVVKHL

Flanking regions ( +/- flanking 50bp)

ATTACACTAGTTTTTATCTCTTAATGTAATTAACAATAAAGAGGTAGACTATGGGTAGATTTAAGAAAATTAATATCAATGATGATATTGAAAGAATTACACTAGAAATAGTGAAATATATTAAAGAGCATAGTGTTGAATTACCTTTTAATATTGATTCAGTAAGACGTGTTTTAATTGAGAATTATATTTATATTCTTACTTATAAAAATGAATATGCTGCTAATGATTTTTTAATAAAAATAGAAAGTAATTTATCTCTTTATAATCGGGATAAATTTACTAAAGCGATTGATTTTATTGTAAAAGAGATTAATGCAAGTATAGAGAATTTATTTGTTAATAATTCTTATCTTACAAACAAAAATTATCAAAAGCTAAATAAAACACGTATTAATTCAGTATTTCAGCATTACCCATCAGGATTTTTTCACTTAAAAATAGAAAATAAAAACTTATTTATACAGATAGATAATACCAATCAATTATTTAAAATCATTGACTTTGAAGGTACAGTGGAATTCTTTTCTAAAAAAGATGACCTTATTCATACTATTAATCAAATGGTTAAAAACAGTGTTGCTGATAACTCTATATCTTACCGATTTTACGCTAAGAACGAATATTTTAATTTCTTTACTCTCGATAAATATTGGCAAGTAACACCTAAAGATATTTATGCCGAAGTTATTAATGATATTAAGGCAAAAAAACAGGTACATATTGATAGTCATTTAACTATTGAATTAATAGATAGCTATTCATATAAAAATATTTTTATTGTTAGAGACTCTAATGAAAACTCAGAAAAAATACTCCATATATATCTTAATAATATTGATGAAGCATTCTTGATTGCCGTAGCTAAACATCGTCAGCTAAAAGAAAATGGTGAACATTTACTTTATAAATTAAATAAGGATTGGTTCTTTACTAAAATGAAAGATAAATCCGTTAAATATTTTTCACAAACTTCTGATTTATTAATACCATTAGAAAAGATAATGGGCAGAATTAATCTTGTCGCTTCAGCTGAAAATAATTATAATTTTAGCCATTTTGATCCACTTTCAGGAGTATGTTATGGAATAAGTTTGAAATATTTATTGGAGGTTAGAAATAATGGTATAGAAGGAGGGAATAAATATTTACATTGGCTAAAGGAAAATATTAACCTTTACAAGGACAAAAAAGAAAAGATATCTGATAAGCTTGAAAAAATTATATTTGATAGTGTACAAGAATATGAAGTATTAAAATTGATTAAAGAGATCAAGGAAATTAAATTCGCACAGATTTTTCAAATGGAGAGAATATATGAAAAAATAAATTATACAATTTTTGATTTAACAAAGGCGACCGAATACCGAAAAATTTTAGCAGAAAATGGCTTGAAAGCATCGAATGCAAATAGGCTAGAAAGTAGTCTCTCACAAATAAATTATCACTTAGAATATATAATGCAATATTATAATGAATATTATGCGATTATTGCATTTAAAACACATGCCATTGCTCTTGCTTATAAGAGATATTCTAATAATCATTATAAATTTACGCTATTTGATTCTAATTCTGAATTGACGGAATTTTCTAATATAGAATCAATAAAAGACGCTTTAATAAAAATAATGGGCTCTTATACTCTAAATAAAGCTGATGGAAAAGAATATTTTATAATTGATGAATATAAAAGAAATCCTACAACAAAATATCGTAGTTTATGGGATCAAAATGAAATCGAGTTACATAAAGGTATTGCTGAAAATATAAAAAAAATTGGTTTTTCATTGCCTTTTAAAGATGGTGTTGTTGGACGAGTTATTCATTACAGTGAACAGCGTGATCTCATTTTAGAACTTAAAATAAATAGTAAATTAGTTGAAGTTGTGGTCAAAAATGTTTTTGTTGATGAGGGAATATTTTTAGTTAAAAATAATTTAGATAAAATTCTTGAGAATAATAAATCCAGTAAAGTAATTATAATGAGCAATAGTGATGGTATTGATATTCAATTTACTGAATTTAATGCACATCAAAAAATGAGTAAGCCAAAAGGATATCTGGAATTTAATGATGTTTATTATCGAGATTTAATTAAGATTAATAGTTATTTATTAAATGGTAAAAAATCATTTTCATTGAATAAAATTGTTTCATTAATTGATACACTAAGGGGGAATATTTATTTTGATAAAATAACAGCCAGTTTTTCTATAATTGATGAAATTATACTATTTAATCAAAACAATGAAAATATTTCTCTTGTTGATATCCTGAATCAAGTGAAACAGAAAATAGAAGATAAATTATTCTATGGTGATCTCCTTTATGGAAAGGAAAAGTTAATTGCATTAGCACAAAAAAATAGCCTAGTAGCAGCAATTTTTTATCGAATGATGGTTAATGAAATCAATGAAGGTTATACTGGAATTAGTAATTTTATTTATGAGCAAATTATTGATAACCCTTTTTTAATATTAGATAAAAATAGAAATGTCGGGGTTGTTGGTTATGATTATACGATTAATTTTAAAAATAATTATAAAGCGTTAAAAGAAATTATTGATGGTATTGATATTTCTGAAATAAAAAATATTTTTCTTTTAGATGATGAAAATAGACTGCACTTAAAAGTAACTTATCAAAGATTATCAGAATATAGAAACAACAAGTATGTTAATAAGCTTCTTCATTTGATTGAAGATGAAATTGATTCTATAAAAAAAATAGATAATACAGGTGTTTATCGTGATTTATATCTTGAGTTTTTTAGCAATCATCAGTTTAATAATAGAGTGATTATTCATGAAATAGCACAATTAGAAAGTTATTTTAATAATAATTATCAGGAGCGAAACCATGGCTATCATCCTAGTAATTTTTATATTAATGAAAATGATCCTCTTACCCTACTAGAAAAGTCATTTAATCAGAACAAAAATGAAATAGATGGTAGTTATCTGTTATTTAATGAAAGTAAAGAAAATTTTGATTTTTTATTTGTTGATAATAATTTTATTACTAGAGATTTTGTAGATAATATTATTATTGAAAGCATTAGTGGCGTTTATCAAGATGATATCGTCATTTATTTCTATAATGGTGTAAAAAGTGAACAATTAACACAATACTTAAAAGATAAACCAGAAATAGGCCGTTTTCTTGATTATTGTTTAAAACATGAAATAAGAGTGATTGCTGCTGGAAATGAAGAATACTTTCCTGCCACCAATGCGCTTGTTAAGCAGAAAAGCCGTGTTGAATCACTACAAAATGTTATTTTACAACATCAATTTGTTGGTGAAAGAACAATTGTTTTTGCCAATAAGGAGACTTTATTTAGTTATCAAAGTGGTCATTTATTTATTGAAGGGATTGCTCAGCGGCTAAATATGCCTATTTATACTGTGACGGATAACAATCTTATACTTGAAAATGAATACATTATGGTAAAACCGACGACTGAAAGTCAGTTTATTGGTCACCCTTTACTTGCTGATACAGGTGCATCTAATACGCTACTTACTGAAACAGTACCTAATGAGCCTAATACAATGTCTAATAGGCAAAGAGTAGATATTGAAAATAAAAACTATGCTGCAGAAATTTATCAATTCGTCTCACACAATTACACTAATTATAGAGATAATCAAGAGTTTAAGTTAGGTTATCAGAATGAGATTAGCACGATTTTTTCTGGCTATTCTGACAATATGACCATTGCTGATATTTTAAATTACATTCAGTTAAATCGCTATCAGATTAATTATACTCAATTAGGCACAATTATTAGGAAAGTTGATCAAATTAATCTTAAATATCATAAAGAAAAACTCACAGAACTCAGTGATAAAATAATTAATCATGATTTACTCATTGATAATGCAATTGAGAAATATTTGGTTGAATTATCGGCAGTATTTAATACGTCAGATAATAGTTTAATAAAAAGGAATTTAATTCAATCACTTTATGATCCCTCTGTTAATAAAGAATTTAACCAATTTTTAATGGATGGAATGAACTTTGAACAGTGGCAAGAAATAACTAATAAAGACTATGGAAACTATAATTTAACGGAAAGAACGTATCAAGTTATTGAAATTATTCATGCGATTTATGATACTCCTCACTTAATAGATAATTTAAGTGAACTATCTAAAAATAGGCTTAATGCTTTTTTTGATGAGGGTAATAAAGGTATTTTATCACGAGTATTATTGAGCAAAATTTCAAGCTTTGAACTCTATAAAGAGACCATAAATAATTTAAAAAAACTCGCTGTTATCAGTCAGTCTGATGAAGAGATTAGCGCTTTATCGCCGACAGAAGCATTAAATAAACTCAATGAATTTAAAGGTGAAGTTAACTTAGCCACAAGTGAAGATAGCTCTACCATTTCTTCTAAAGTGGAAATTAATAATCTTGTCATTGACAAAAGATTACTCTGTTATTTAGGTGCAAAGATAAATGGTGAAAGTATCGATGCGATAGATCTTAATCAGATAGAGAACTGGGATAAAAAAATTACTTTTGATCCTCAGCATCTTAATGATTATTTTTTATCTGTGACGGGCAATGAAAAAGATAAAGAAGTTATTGCATTATTACGTTATCTATTAAATAACAAACAAGATAAAATTAAATATTTTCTTTCTCATATGTCCAGTAGAGCTGATTATGTCGCGGCTCATGAAAGATTAATGAAAATAATAGCATTAGGTAGTAAACAGTATAATCAGCAAGATTGGGAAAATTTAAGAATACCTTCATTAAAAATTCCCAGACATATGAGAGTTATCAGTAAAATTGGTTACGCTAATATTAGCTTCGGTATATGGCAATCAATCAATTCAACCTTTATGCTTGCTGAGCAACTTAATAATCCGCTATTAACCCCTCAAGAGCATAGAGAGATCATCAATAATCTTGCCATAACATGGTCAGAAATGGCCTATAATGGCTTATCTGAACTCATTGAAATCGCTTTAGCTAAAGGATTATTAAAGTACCGTAATAATCCTTTGGAGTATATTAGTAAAACCAGCACTCGAATAGGTATCGGGCTTAATATCCTGTCTATTGGATTTGATATCTATAATATCTACGATAACTTTAGTCGTATCTCAGTAGAAAAAAATGAAAAACGACGTATTGACTATATTGTAAATGGCTCTTTAGCTATAGTCTCCGGATTGGTCACTTTGGGGGTTTCTATCGCAATGCTTGCTGGCTCTACGGTCGCGGGGCCTATTGGTATTGTCGCGGGAGCTGTTATCGCCTTAGCCATTTCAATTTATAATGCCGCAAGACTGATAGAAGAAGCGAAAGAAAAAATAGGATTTACACCACTAGAAGAACTTAATAATGGTTTTTATGCATTTTTAATGGGGGATATCTTACCAAGCAAAAAGAATGAAATCGTCTATTTAGAGACAATATCACAGTTAGAAACCATGATTGACCAAAATGCGCAAGAACATCTTAAAGAAATAAAAAAACAGGAGCCTCACAGTTATTATTTTTATACGAATGAGAAACAATTTTATGAAGAACATCATTATTATAAAGTGATCCCTCGTATATTGGGGAAAACGTTAGATAATATACTTAATCCGTTTGGAGAAATTGTTGTACAACGAGTGGCGAAAAATTTAAGTAAAGAAGAAGCAGAAAAGATAGCTGCGCTTTCTCATTATCTTAGTGTCGAAAGAACGGAATATAAATACTATGTTCCTAAAGAAGCCATCGCAACAGATGAAATTCTCATTTTTGATATGGATTTTTATGTTAATCAATTAAATCGTTATACGATTAATTTTGCATTTGAAGATGATAATCCTGTTTTTGAGGATGAGGTGGATATCTCTTTTTTTGATAAAATAAGAACAACAAAAGAAAAAACATGGCAAAATTTATCATCAGGAGAATTAACAGATGATTTAATTAAATCAACAGCTGAAAAACAATATTTTGAGCCAAGTTGGCGTGAGAATGAGCTATTTTATTTTAATACTTATAATGGGGATGATATTATTGCTGCACCATTAATAACACAAAATATATTTGATGTTCATAATGGGACTAAACGATTAAGTGGAGGAGAAAAAGATGACACCTTTAATGTGTTCACTTCTGAATCTCCTCGTTATGCCAGCCGTTTTTATGGTAGAGAAGGTAATGATACATTACGTATTATTCAGACAGAAAAAAAATATATAGGGTATGAAGTTAATTTATCTAAAAATTATATTAAATTTATCGGGGGAGAAAATAAATCCAATAGCCAGAGTTTTCATGCCAGACTTTTTATCTTTCAAGAGCAAGGACAAATCTATACCCATAAATTAGCGGATACAATGCCTAATATAACACTACAAAGACAACCCGTTATTGCCTATTTAGAGAGTATTGAAAATGTAGTAGGCAGTGAAATAGGTAATGATATTATTTATGGTGACCAAAAAAATAACTATTTAAATGGCATGGGAGGGGTAGATTCATTATATGGATTAGCTGGAGATGATACGCTGGTATTACGGGAAGGTTATGCACAAGGAGGGGCAGGGAATGATAGTTATACTATTCTAAGAGCATCAAATACAGATAATAATGTTAAACAACTTGAAACTATTATTGATGAAGAGACGCATACAGAAGCTAGTCTTATCCAGTTAAATTATACTTTTGATGAAATTGCTGCTATTTCTCGTCGTGAAACAGATATTGTTTTTACGCTTAAAGTTGGTAATGATAAAGATCCTGATCAATTTATCGAGCATTTAATTGCATTAAGTCATGTATACCAAGATAAAAATAGTCAATTATTAGCCCATCGATATACCATTGTGACTATGGATGGTTTTATACTTACTATTAATGAAAATAATAATCAACCAAGAGAGGTATCATATAACTTTAGTTATTTAGAAAAGTATAATCAGCAAGAGAAACTACAACAGCTTTCTGTTAATGACGATAAACACACATTGTCTATTCAATCTGAAAATAAAACTAAACTTATTCAATTATTACCTGAGCTACAATACAGTGGTTTCTCTTCTGGAGAACATTTAAAGCTTAATCTACAGGGTAATAGCGAAAATAATCATTATGCTGGAATTGCGGCTCATTCATCAATTAAACTGAGTCGCGGTTATGACAATTATCAAATAAGCTCATTGCTAGCTAAAAATAGAAATGAAAAGATCATTATTTCTCTGAGTGATAATGATAAACAATTAACATCTGATTGTACTAGTCATTTCTTTTTATCCGATGTGAGTGGATTTGATTTGATGTTTAGTGATGGCGTTTTATCTCATCGCTATAATCCTGATGCTCATATTAAACTTGTTTTCGATACGGAAAGTGTTAGTGCTATTTTTAACTCAGGAATGACACTTCAATTTATTGATAAAGATAATCGAGTTTTTCATTTGCCTAAGCCAGACAGCGGTCAGCGTTTACTGATCCCCACTATCACTTTGGATGTTAGGTTGAGTCATCAAAGTGATGTTCTGATGATCCCACCCTCCCTACGTTTAAATAAAGAGGCATTATCATTGTATCCTCAGTATTTTCATAGAGAAGAACCATCATCACGTTCAACGCAATTACAGCGTATTATATCCACTCAAACACTAGAGCCTTATCCATTAAAGGTAACAGAATTACTGAGAGATGATATTGCTGTTAATGATAATCAACCTGTTAATTCTATTTTGTCTCTCAATAAACTATTTTCAAACAGATCACAAGATATATTCTCTCAAGCTATAGATTTATTACCAATGATAGAATTAATGGATGGTGATGATATTGTTGTTAATCATAATCAAAGTAGCTCAGTGATTGATGGGGGTAAAGGTGATGATCATATTGTTGTCAATGAAGGGCACCATATTTTAATTGCTGGAGAAGGTAATGATAATCTTAATGGCGGAAGTGGACATGATCTGTTTATTTCAACCTCAGGAAATGATTATCTAGGTGGAGGAAGTGGTAATAATGTTTATGTGGTACAAAAACGCCATGGTGAAGTGACGGTGTATGATGAAGGTGAAATGAGCCATATTTTTGTATCAGGATTATCTGAGCATGAAAAATTAATATCCTCTCAAGCAGGTAAAGATAAACAGTATCGAACGGCTGATAATCAATTTGTCTTGACTGTTAAAACAAACCGAGTAGAGAAAATAGAAACTGATCCTGTGAAGGTTATCGAAAAAGAACAGACATTATCAATGGGATCCCTTGCGACAATTATTCAACAAATGGCTCAATTTAATCAGCAACAACTATCGACGATGCAAGGCAGTGACGTTATTCCCTCATCAAACTGGTCGCCTTTAGCTGTGGTCGTTAAGCATTTATAATTTCCCTTGTGACCCAATAAAAATAGCCCTATTTTCAGGGCTATTTTTAT