Homologs in group_25

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16 homologs were identified in 7 genomes 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
FBDBKF_09475 FBDBKF_09475 99.7 Morganella morganii S1 - Big-1 domain-containing protein
FBDBKF_09485 FBDBKF_09485 68.9 Morganella morganii S1 - Big-1 domain-containing protein
EHELCC_09925 EHELCC_09925 68.9 Morganella morganii S2 - Big-1 domain-containing protein
EHELCC_09935 EHELCC_09935 99.7 Morganella morganii S2 - Big-1 domain-containing protein
NLDBIP_10280 NLDBIP_10280 68.6 Morganella morganii S4 - invasin domain 3-containing protein
NLDBIP_19245 NLDBIP_19245 68.9 Morganella morganii S4 - Big-1 domain-containing protein
NLDBIP_19255 NLDBIP_19255 100.0 Morganella morganii S4 - Big-1 domain-containing protein
LHKJJB_11075 LHKJJB_11075 68.6 Morganella morganii S3 - invasin domain 3-containing protein
LHKJJB_19125 LHKJJB_19125 68.9 Morganella morganii S3 - Big-1 domain-containing protein
HKOGLL_14135 HKOGLL_14135 68.6 Morganella morganii S5 - invasin domain 3-containing protein
HKOGLL_18895 HKOGLL_18895 100.0 Morganella morganii S5 - Big-1 domain-containing protein
HKOGLL_18905 HKOGLL_18905 68.9 Morganella morganii S5 - Big-1 domain-containing protein
F4V73_RS10495 F4V73_RS10495 73.7 Morganella psychrotolerans - invasin domain 3-containing protein
F4V73_RS10505 F4V73_RS10505 47.2 Morganella psychrotolerans - Ig-like domain-containing protein
PMI_RS00110 PMI_RS00110 28.2 Proteus mirabilis HI4320 - Ig-like domain-containing protein
PMI_RS19225 PMI_RS19225 37.2 Proteus mirabilis HI4320 - Ig-like domain-containing protein

Distribution of the homologs in the orthogroup group_25

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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_25

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
P19809 4.51e-84 302 34 22 642 1 eae Intimin Escherichia coli O127:H6 (strain E2348/69 / EPEC)
P43261 1.18e-83 301 35 18 585 1 eae Intimin Escherichia coli O157:H7
Q07591 1.43e-82 298 34 17 585 3 eae Intimin Citrobacter freundii
O31000 7.57e-82 295 40 9 380 3 eae Intimin Escherichia coli O111:H-
Q8X8V7 1.93e-81 305 33 11 548 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O157:H7
Q8X8V7 1.08e-54 216 26 72 1829 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O157:H7
Q8X8V7 7.11e-48 194 27 70 1825 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O157:H7
Q8X8V7 2.3e-45 186 27 76 1801 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O157:H7
Q8X8V7 7.1e-43 177 26 60 1658 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O157:H7
Q8X8V7 1.69e-23 114 26 27 819 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O157:H7
Q8X8V7 1.62e-20 104 26 34 815 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O157:H7
Q8X8V7 0.000147 51 25 29 601 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O157:H7
B7NC15 1.18e-79 299 38 6 394 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
B7NC15 6.01e-52 207 27 69 1830 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
B7NC15 3.92e-47 192 27 61 1657 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
B7NC15 5.65e-43 178 27 69 1806 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
B7NC15 9.39e-25 118 26 27 829 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
B7NC15 1.27e-20 104 26 35 815 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
B7NC15 0.001 48 25 28 599 3 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
P76347 2.5e-79 297 33 12 552 1 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli (strain K12)
P76347 2.42e-48 196 27 72 1684 1 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli (strain K12)
P76347 9.17e-47 190 26 62 1576 1 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli (strain K12)
P76347 5.21e-42 175 26 68 1751 1 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli (strain K12)
P76347 5.59e-40 168 26 62 1578 1 yeeJ Inverse autotransporter adhesin YeeJ Escherichia coli (strain K12)
P11922 8.08e-72 266 39 9 369 1 YPTB1668 Invasin Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922 3.9e-25 118 35 7 280 1 YPTB1668 Invasin Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922 5.83e-21 105 33 7 289 1 YPTB1668 Invasin Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922 6.3e-21 105 33 6 296 1 YPTB1668 Invasin Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922 3.83e-20 102 33 7 270 1 YPTB1668 Invasin Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922 7.62e-20 101 35 7 269 1 YPTB1668 Invasin Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922 9.05e-19 97 33 7 278 1 YPTB1668 Invasin Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922 1.75e-18 97 33 8 272 1 YPTB1668 Invasin Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922 3.7e-18 95 34 6 255 1 YPTB1668 Invasin Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922 5.28e-18 95 32 9 290 1 YPTB1668 Invasin Yersinia pseudotuberculosis serotype I (strain IP32953)
P19196 2.93e-69 255 37 8 374 3 None Invasin Yersinia enterocolitica
P19196 1.55e-07 60 30 3 178 3 None Invasin Yersinia enterocolitica
P36943 8.17e-52 189 36 6 276 5 eaeH Putative attaching and effacing protein homolog Escherichia coli (strain K12)
P39165 2.56e-44 172 30 11 420 3 ychO Uncharacterized protein YchO Escherichia coli (strain K12)
Q80X90 1.33e-14 84 22 47 1271 1 Flnb Filamin-B Mus musculus
Q80X90 7.81e-14 82 21 33 975 1 Flnb Filamin-B Mus musculus
Q80X90 1.15e-11 75 22 29 804 1 Flnb Filamin-B Mus musculus
Q80X90 5.34e-10 69 23 23 606 1 Flnb Filamin-B Mus musculus
Q80X90 3.5e-09 67 21 18 677 1 Flnb Filamin-B Mus musculus
Q80X90 8.84e-07 58 21 28 795 1 Flnb Filamin-B Mus musculus
Q80X90 4.24e-06 56 21 21 701 1 Flnb Filamin-B Mus musculus
P13466 1.89e-14 83 25 12 453 1 abpC Gelation factor Dictyostelium discoideum
P13466 5.32e-14 82 25 18 566 1 abpC Gelation factor Dictyostelium discoideum
P13466 2.95e-13 79 25 17 482 1 abpC Gelation factor Dictyostelium discoideum
P13466 1.09e-12 77 24 19 592 1 abpC Gelation factor Dictyostelium discoideum
P13466 2.08e-12 77 23 17 583 1 abpC Gelation factor Dictyostelium discoideum
P13466 7.22e-12 75 25 13 450 1 abpC Gelation factor Dictyostelium discoideum
P13466 5.56e-11 72 23 16 570 1 abpC Gelation factor Dictyostelium discoideum
P13466 0.000367 50 23 10 355 1 abpC Gelation factor Dictyostelium discoideum
Q8VHX6 1.69e-11 74 21 30 927 1 Flnc Filamin-C Mus musculus
Q8VHX6 2.22e-09 67 22 28 691 1 Flnc Filamin-C Mus musculus
Q8VHX6 3.98e-08 63 20 50 1353 1 Flnc Filamin-C Mus musculus
Q8VHX6 1.35e-06 58 20 37 1018 1 Flnc Filamin-C Mus musculus
Q8VHX6 1.88e-05 54 20 46 1137 1 Flnc Filamin-C Mus musculus
Q8VHX6 2.03e-05 54 20 22 804 1 Flnc Filamin-C Mus musculus
Q8VHX6 3.19e-05 53 21 26 793 1 Flnc Filamin-C Mus musculus
D3ZHA0 1.89e-11 74 21 30 924 1 Flnc Filamin-C Rattus norvegicus
D3ZHA0 2.52e-09 67 21 26 687 1 Flnc Filamin-C Rattus norvegicus
D3ZHA0 1.22e-06 58 21 37 1018 1 Flnc Filamin-C Rattus norvegicus
D3ZHA0 1.95e-06 57 23 19 474 1 Flnc Filamin-C Rattus norvegicus
D3ZHA0 1.76e-05 54 20 21 800 1 Flnc Filamin-C Rattus norvegicus
D3ZHA0 6.41e-05 52 21 26 793 1 Flnc Filamin-C Rattus norvegicus
D3ZHA0 7.03e-05 52 20 44 1126 1 Flnc Filamin-C Rattus norvegicus
O75369 1.89e-11 74 20 38 1248 1 FLNB Filamin-B Homo sapiens
O75369 3.72e-10 70 21 33 965 1 FLNB Filamin-B Homo sapiens
O75369 7.39e-09 65 21 39 1096 1 FLNB Filamin-B Homo sapiens
O75369 3.98e-07 60 21 28 798 1 FLNB Filamin-B Homo sapiens
Q14315 5.46e-10 69 22 26 688 1 FLNC Filamin-C Homo sapiens
Q14315 2.1e-07 60 19 55 1486 1 FLNC Filamin-C Homo sapiens
Q14315 6.06e-06 56 21 44 1130 1 FLNC Filamin-C Homo sapiens
Q14315 8.77e-06 55 21 38 999 1 FLNC Filamin-C Homo sapiens
P21333 1.79e-06 57 20 37 999 1 FLNA Filamin-A Homo sapiens
P21333 0.000101 52 20 30 914 1 FLNA Filamin-A Homo sapiens
P21333 0.000128 51 23 22 602 1 FLNA Filamin-A Homo sapiens
P21333 0.000209 51 19 26 811 1 FLNA Filamin-A Homo sapiens
Q8BTM8 7.69e-05 52 21 24 712 1 Flna Filamin-A Mus musculus
Q8BTM8 0.000165 51 20 34 1013 1 Flna Filamin-A Mus musculus
Q8BTM8 0.000237 50 20 27 792 1 Flna Filamin-A Mus musculus

  • Number of RefSeq hits:

General

Source Morganella morganii S3
Locus tag LHKJJB_19115
Feature type CDS
Gene -
Product Big-1 domain-containing protein
Location 121 - 8346 (strand: -1)
Length 8226 (nucleotides) / 2741 (amino acids)

Contig

Accession ZDB_388
Length 22068 nucleotides
Topology linear
Plasmid False

Orthology

Orthogroup group_25
Orthogroup size 17
N. genomes 7

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Genomic region

Domains

PF02369 Bacterial Ig-like domain (group 1)
PF09134 Invasin, domain 3
PF11924 Inverse autotransporter, beta-domain

COG entry Annotation(s)

ID Function(s) descr. Function(s) cat. Description
COG3210 Intracellular trafficking, secretion, and vesicular transport (U) U Large exoprotein involved in heme utilization or adhesion

Kegg Ortholog Annotation(s)

KO Description Pathways Modules
K13735 adhesin/invasin Bacterial invasion of epithelial cells
Yersinia infection		 -

Protein Sequence

MPVTSYYSKTKRVTAYLLLFLQLFFPVSTATLSVAQAAEQNDALIMSETFDGLNALMDTSQAPPPKPQDGKTTSGSKLSGEGFTVEMPSGSEYGVMPAGSDNGFISGQNGMPFPMSVSTLPDPANPAPRDNTVRTDDIFSALPTLGLPDISPEDEAAKNEARWAGNASQAGQILSSEDAVDASLGYVRGIGENLLNQQVNDWLNQVGHARIQFGSNKTGDADVLVPLVDNPNSLFFSQIGLRANEERTTTNLGLGYRQYEDGWMWGVNSFYDYDITGSNSRVGVGGELWANYLKFAANGYFRVTDWHQSKLHEMRDYDERPANGFDIRAEGYLPDYPQLGAFAKYEQYFGDGVSLASTTSSGELKSNPSVSTIGLSYTPFPLITFKGQTSRGDSNDSQIGMELSYRFGVPLSQQLDTDNVDLMRNLAGNRYDFVDRNYNIVMQYRKQELLRIALPPTLNGEAAQTLPVTVSVLKAKYGLKSLRWSAPELLANGGEIKQTGLTTADITLPEYIFMDRNGGPQGYRVTAVGEDNEGNPSNTAEMWVNVIPSVETITKLTVTPNQSLIANNSDQFTAVALLQNDKGEVLPNKAVTFSVSGLKNPEGVTIYDADGNSGQTLTVISGPDGTATVKIISKSAGKGLLKAKMRNGNSRTEAITYIADLSTAKIKTLELTNNKAVADGQAKNIAVATVTDQFDNLVENFPLTARADNGATVIDPNQQTDSNGLVTIRFSSETAGDSKLVVEGTGTSKSVTAQFIADISTAKIQSAVVTQDGAKADGKAKNEVLVTVTDSRNNPLAGAPVTIKVPGTARYQTQPVSGLTDSRGQLRVSISNTKAGSDNYTFSINGDDAVRALKFVADETTATITDASLVIVTNNQKADGAAANSVRATIVDAYNNPVPGIAVQFVTDHGALPSQMQINTDADGNALFELTNTRAGNTKVTAQVNTKSASKTVMFTADSSTAEILASNLTITADNSAADGASVNSVKAIVTDAQGNVVPYVAVLFTADNGASPASQSLLTNEQGEVTFSLTSTRAVQVAVKAKINTSEPSVTVTFKADSANPDAQKSSLTADPMTIVADGQTTSTLHFILKDRQGNLIPGQTVVFGTALAGTTVSGTTENPDGTYTATLKGVKAGDAKVSITLNGKAFAVAPVTVKLTADNGNLSGDKSQLTAVPDTIVADGKTSSTLTLSLKDVNDNAVSGQEVVFSTTLADTVFSAVRDNADGTYTATLKGTKSGTAKIKVTVNNAVLAVTEVSIKLTADSGNLDKGKSSLAAVPDTIVADGNTTSAITLTLRDVNNNPVAGQVALFSTTLKDTTFGTVTDNQDGTYTATLKGTKSGNAQISVTLNGKAFAVAPVTVKLTADSSNLDQGKSSLTAAPLSIVANDTATSSLTLTLKDGNDNPVPGQTVLFSTTLGGTTFSGVTDNQDGTYTATLKGKTAGDAVLKVTVNGAVLTVAPVTVKLTADSGNLDKDQSVLEASPLTIVANDTTTSALKLTLKDANGNLVSGQTVLFSTTLGGTTFSGVTDNQDGTYTATLKGKTAGDAALKVTVNGTELPVSQVTVTLTPDSTNLDKNKSSLTAVPLSIVADDASVSDLKLILKDANGNLVPGQQVLFSTTLGGTTFSGVTDNHDGTYTATLKGTKAGDALLTVTVNGAVLEVAPVTVKLTADSGNLDKDQSVLEASPLSIVANDTTTSALKLTLKDANGNLVSGQTVLFSTTLANTTFGTVTDNQDGTYTATLKGKTAGDAVIKVTVGGNPLDVAPVTVTLTPDSTNLDKNKSSLTAVPLSIVADDTSVSDLKLILKDANGNLVPGQTVLFSTTLGGTTFSGVTDNHDGTYTATLKGKTAGDALLKVTVNGAVLEVAPVTVTLTADNGNLDKDKSVLEAAPLSIVANGTAESTLKLTLKDVNGNLVSGQTVQFTTTLADTTFSGVTDNQDGTYSATLKGTKSGAAPLTVIVNGTGLAVAPVTVTLTPDSANPDKDKSVLTASPLTIVADNATTSSLKLTLKDTYGNLIPGQTVLFSTDLENTTFSGVTDNHDGTYTATLKGTKSGTAALKVTVNGTELAVAPVSVKLIGDKDHLDEDKSSLTAAPLSIVANNTATSSLTLTLKDVNNNPVIGQTVLFSTDLADTTFTTVKDNQDGTYTATLKGTKAGDALLKVTVNGAVLEVAPVTVTLTADSSNLDKDKSSLTAAPLTIVANNTTTSEVKLTLKDANGNLVSGQTVLFSTTLANTTFGTVNDNQDGTYTATLKGKTAGDAVIKVTVGGNALEVAPVTVKLTADSSNLDKDKSVLEAAPLSIVADNATESTVKLTLKDVNGNLVSGQTVLFSTTLANTTFGTVKDNQDGTYTATLKGKTAGAAEIKVTVGGNALEVAPVTVTLTPDSSKLDKDKSSLTAVPLTIVADGATESALTLTLKDVNGNLVPGQTVLFSTGLADTTFSGVTDNQDGTYTATLKGTKSGNALLKVTVNSAELAVAPVTVKLIGDQDNLDKDKSALTADPLTIVANNTTTSLVKLTLKDINDNPVTGQTVLFSTTLANTTFGTVTDNQDGTYTATLQGKTAGAAVIKVTVGGNALEVAPVTVTLTADSSKLDKDKSSLTAVPLTIVADGATESVLTLTLKDVNDNPVTGQTVLFSTGLADTTFSTVTDNLDGTYTGTLKGTKSGDALLKVTVNGTVLEVAPVTVKLTADSSNLDKDKSALTADPLTIVANNTATSALKLILKDANGNLVSGQTVLFSTEL

Flanking regions ( +/- flanking 50bp)

TTTTCTGATTATTACTTTATGGCTTTAATCTTACTTTCGGGGATGTATTCATGCCTGTGACTTCGTATTACTCAAAAACAAAAAGGGTAACAGCTTATCTGTTGCTCTTTTTGCAGTTATTTTTTCCGGTGTCGACGGCAACATTATCTGTTGCACAGGCGGCAGAGCAAAACGATGCATTAATCATGTCAGAAACATTTGACGGACTTAATGCACTGATGGATACATCTCAGGCTCCGCCTCCGAAACCGCAGGACGGAAAAACCACCTCCGGCAGTAAGCTGAGCGGTGAGGGATTTACCGTTGAGATGCCGTCCGGCAGTGAATACGGTGTGATGCCGGCCGGTTCGGATAACGGTTTTATCTCCGGTCAGAACGGCATGCCGTTCCCGATGAGTGTCAGCACGCTGCCTGACCCGGCAAATCCGGCACCGCGTGATAATACCGTGCGGACCGATGATATCTTCAGTGCCCTGCCGACCCTCGGTCTGCCGGATATTTCTCCGGAAGATGAAGCAGCAAAGAATGAAGCCCGCTGGGCGGGTAACGCTTCACAGGCCGGGCAGATCCTCTCCAGTGAGGATGCGGTGGATGCATCCCTCGGTTATGTGCGCGGTATCGGTGAAAACCTGCTTAACCAGCAGGTGAATGACTGGCTGAACCAGGTGGGCCATGCCCGCATTCAGTTCGGCAGTAATAAAACCGGTGATGCGGACGTACTGGTCCCGTTAGTTGATAACCCGAACAGCCTGTTCTTCTCACAGATCGGGCTTCGCGCTAATGAAGAACGTACTACCACCAACCTCGGTCTGGGTTACCGTCAGTATGAAGACGGCTGGATGTGGGGGGTTAACAGCTTTTATGACTACGATATCACCGGCAGTAACTCGCGGGTCGGTGTCGGCGGTGAGTTATGGGCCAATTACCTGAAGTTTGCGGCTAACGGCTACTTCAGGGTAACAGACTGGCACCAGTCAAAACTGCACGAAATGCGCGATTACGATGAACGCCCGGCGAACGGGTTTGATATCCGTGCGGAGGGCTATCTGCCTGATTATCCGCAGTTAGGTGCATTTGCAAAATATGAACAGTACTTCGGTGACGGCGTCAGCCTGGCCAGTACCACCTCTTCCGGTGAGCTGAAAAGTAACCCGTCGGTCTCCACCATCGGGCTCAGTTACACCCCGTTCCCGCTGATCACGTTCAAAGGTCAGACATCCCGTGGTGATTCCAACGACAGCCAGATTGGTATGGAGCTTTCCTACCGTTTCGGCGTACCGCTGTCACAGCAGCTGGATACCGACAATGTTGATCTGATGCGTAACCTGGCGGGTAACCGTTACGACTTCGTCGACAGAAATTACAACATCGTGATGCAGTACCGTAAGCAGGAACTGCTGCGGATTGCCCTGCCGCCGACACTCAACGGTGAAGCGGCACAGACACTGCCGGTGACGGTCAGTGTGCTGAAAGCCAAATACGGCCTGAAATCACTGCGCTGGTCAGCACCTGAACTGCTGGCAAACGGCGGTGAGATCAAACAGACCGGGCTGACCACGGCGGATATTACGCTGCCGGAATATATTTTTATGGATCGTAACGGCGGGCCGCAGGGCTACCGTGTGACAGCTGTCGGTGAAGATAACGAGGGCAACCCGTCTAACACCGCAGAAATGTGGGTGAATGTTATTCCGTCAGTGGAAACCATCACCAAACTGACCGTCACGCCGAACCAATCCTTAATCGCCAACAACAGCGACCAGTTTACCGCTGTGGCACTGTTACAGAATGACAAGGGCGAAGTGCTGCCGAATAAAGCAGTGACTTTCAGCGTTTCCGGCCTGAAAAATCCGGAAGGCGTGACCATTTATGATGCGGACGGCAACAGCGGCCAGACACTGACCGTGATTTCCGGGCCGGATGGCACGGCGACCGTGAAAATCATCAGTAAATCCGCCGGTAAAGGATTGCTGAAAGCCAAGATGCGTAACGGTAACAGCCGTACCGAAGCGATCACCTATATTGCGGATCTCAGTACCGCAAAAATCAAAACGCTTGAATTAACCAATAACAAAGCAGTGGCTGACGGCCAGGCGAAAAACATCGCTGTGGCAACGGTGACTGACCAGTTTGATAACCTGGTGGAAAACTTCCCGTTAACGGCCAGAGCGGATAACGGTGCAACAGTTATTGATCCGAACCAGCAGACTGACAGCAACGGCCTGGTCACTATCCGTTTCAGCAGTGAAACTGCCGGGGATTCCAAACTGGTGGTTGAGGGAACGGGCACGTCGAAGAGTGTGACAGCACAGTTTATCGCGGATATCAGTACCGCGAAGATCCAGAGTGCGGTCGTGACTCAGGATGGGGCGAAAGCAGACGGTAAAGCGAAAAATGAGGTTCTGGTGACTGTCACTGACAGCCGCAATAACCCGTTAGCCGGTGCACCGGTCACCATCAAAGTGCCGGGAACCGCCCGTTATCAGACCCAGCCGGTCAGTGGTCTGACAGACAGCCGTGGTCAGTTGCGTGTCAGTATCAGCAATACCAAAGCCGGTTCTGATAACTATACCTTCAGTATTAACGGCGATGATGCGGTACGTGCACTGAAATTTGTGGCGGATGAAACCACGGCAACCATTACGGATGCCAGCCTGGTTATCGTCACCAATAATCAGAAAGCAGATGGTGCGGCAGCAAACAGTGTAAGAGCGACCATTGTTGATGCTTACAATAACCCGGTTCCGGGGATCGCGGTGCAGTTTGTCACCGATCACGGCGCACTTCCGTCTCAGATGCAGATCAATACGGATGCGGACGGTAATGCACTGTTTGAACTGACAAATACCCGTGCGGGTAACACTAAAGTCACTGCACAGGTCAATACCAAATCCGCATCAAAAACCGTGATGTTTACAGCGGACAGCTCGACAGCGGAAATTCTGGCATCGAACCTTACGATAACCGCAGATAACAGCGCGGCGGATGGTGCATCCGTCAACAGTGTGAAAGCGATTGTCACCGATGCACAGGGTAACGTTGTGCCGTATGTGGCCGTTCTTTTCACTGCGGATAATGGCGCGTCTCCGGCTTCACAATCACTGCTGACCAATGAGCAGGGTGAGGTAACCTTCAGCCTGACCAGTACCCGTGCGGTACAGGTTGCGGTTAAAGCGAAGATTAACACCAGTGAGCCTTCTGTTACTGTCACCTTTAAGGCAGACAGTGCGAACCCTGATGCTCAGAAATCCTCGCTGACAGCTGATCCGATGACGATCGTGGCAGACGGGCAGACAACATCAACGCTGCATTTCATCTTAAAAGATCGTCAGGGGAACCTGATCCCGGGCCAGACTGTGGTCTTCGGAACCGCGCTGGCGGGAACCACGGTGAGCGGTACGACCGAAAATCCGGATGGTACTTACACGGCGACACTGAAAGGTGTTAAAGCCGGGGATGCGAAAGTCAGCATCACGCTGAACGGAAAAGCGTTCGCGGTTGCACCGGTCACCGTAAAACTGACAGCGGATAACGGTAACCTGAGTGGTGATAAATCTCAGCTGACTGCTGTTCCTGACACGATTGTGGCTGATGGCAAGACGTCTTCAACGCTGACCCTGAGCCTGAAAGACGTGAACGATAATGCCGTGAGCGGACAGGAAGTCGTATTCAGCACCACGCTGGCAGATACCGTATTCAGTGCGGTAAGAGATAATGCAGACGGTACTTATACTGCCACTCTGAAGGGGACTAAATCCGGAACCGCAAAAATCAAAGTCACAGTGAATAATGCTGTGCTGGCCGTCACTGAGGTGAGTATAAAACTGACCGCAGACAGCGGTAACCTGGATAAGGGTAAATCCTCACTGGCAGCGGTACCGGACACCATCGTGGCGGACGGTAACACGACATCCGCAATCACCCTGACGCTGCGGGATGTGAATAACAACCCGGTGGCGGGGCAGGTTGCGCTGTTCAGCACAACGCTGAAAGACACCACCTTCGGTACAGTAACGGATAATCAGGACGGTACCTATACCGCGACCCTGAAAGGAACCAAATCCGGTAATGCACAAATCAGTGTCACGCTGAACGGTAAGGCTTTTGCCGTCGCACCGGTGACAGTCAAACTGACGGCGGACAGCAGCAATCTGGATCAGGGTAAATCTTCACTGACTGCTGCGCCGCTGAGTATTGTGGCAAACGACACTGCGACCTCATCACTGACGCTGACCCTGAAAGACGGGAACGATAACCCGGTTCCGGGACAGACTGTGCTGTTCAGTACCACGCTCGGCGGAACCACCTTCAGTGGCGTGACGGATAATCAGGACGGTACGTATACAGCAACCCTGAAAGGGAAAACAGCCGGTGATGCGGTACTGAAAGTGACCGTGAACGGCGCTGTGCTGACAGTGGCTCCGGTGACAGTGAAACTGACAGCGGACAGCGGTAACCTGGATAAAGATCAATCTGTCCTGGAAGCATCTCCGCTGACCATCGTGGCAAACGACACCACGACTTCAGCGCTGAAACTGACACTGAAAGATGCCAACGGCAACCTGGTGTCCGGACAGACAGTACTGTTCAGCACCACGCTTGGCGGCACTACCTTCAGTGGCGTAACGGATAATCAGGATGGTACCTATACCGCGACCCTGAAAGGGAAAACCGCCGGTGATGCGGCACTGAAAGTGACCGTGAACGGTACGGAACTGCCTGTTTCGCAGGTGACAGTGACCCTGACGCCGGACAGCACCAATCTGGATAAAAACAAATCCTCGCTGACTGCAGTACCGCTGAGTATTGTAGCGGATGATGCCTCAGTATCGGATCTGAAACTGATCCTGAAAGATGCCAACGGTAACCTGGTCCCGGGACAGCAGGTGCTGTTTAGTACCACGCTCGGCGGAACCACCTTCAGTGGCGTGACGGATAATCATGACGGTACCTATACCGCAACGCTGAAAGGGACCAAAGCCGGTGATGCATTACTGACAGTGACCGTCAATGGTGCGGTGCTGGAAGTGGCACCGGTAACGGTGAAACTGACAGCGGACAGCGGTAACCTGGATAAGGATCAATCTGTCCTGGAAGCATCTCCGTTGAGCATTGTGGCAAATGACACCACAACTTCAGCACTGAAGCTGACACTGAAAGATGCCAACGGTAACCTGGTGTCCGGACAGACGGTGCTGTTCAGTACCACGCTGGCCAACACCACGTTCGGTACAGTGACTGATAATCAGGATGGTACTTATACTGCAACGCTGAAAGGAAAAACCGCCGGTGATGCAGTGATTAAAGTCACTGTCGGCGGTAATCCGCTGGATGTGGCGCCGGTTACTGTCACTCTGACACCGGACAGCACCAATCTGGATAAAAACAAATCCTCGCTGACGGCAGTACCACTGAGTATTGTGGCGGATGATACCTCGGTATCGGATCTGAAACTGATCCTGAAAGATGCCAACGGTAACCTGGTTCCGGGACAGACCGTGCTGTTCAGCACCACGCTCGGCGGCACCACCTTCAGTGGCGTGACGGATAATCATGACGGTACCTATACCGCGACCCTGAAAGGGAAAACGGCCGGTGATGCATTACTGAAAGTCACCGTCAATGGTGCGGTGCTGGAAGTGGCACCGGTGACTGTCACCCTGACAGCGGATAACGGCAACCTGGATAAAGATAAATCTGTCCTGGAAGCGGCGCCGCTGAGTATTGTGGCGAATGGTACGGCGGAATCCACTCTGAAGCTGACGCTGAAAGACGTCAACGGTAACCTCGTTTCCGGACAGACTGTGCAGTTCACCACCACACTGGCAGATACCACCTTCAGTGGCGTGACGGATAATCAGGACGGCACCTATAGCGCGACCCTGAAAGGCACTAAATCCGGTGCTGCACCGCTGACGGTTATTGTTAACGGTACCGGACTGGCAGTGGCACCGGTAACGGTTACTCTGACACCGGACAGCGCTAATCCGGATAAAGATAAGTCAGTACTGACTGCGTCTCCGCTGACCATCGTGGCGGACAATGCCACAACGTCTTCACTGAAACTGACCCTGAAAGATACTTACGGTAACCTGATTCCGGGACAGACTGTGCTGTTCAGCACTGATCTGGAAAATACGACCTTCAGTGGCGTGACGGATAATCATGACGGTACCTATACCGCAACACTGAAAGGGACCAAATCCGGTACAGCGGCACTGAAAGTGACTGTAAACGGTACGGAACTGGCAGTGGCACCGGTGAGCGTGAAACTGATCGGGGATAAGGATCATCTTGATGAGGATAAATCTTCACTGACAGCGGCACCGCTGAGCATCGTGGCAAACAACACCGCGACCTCGTCACTGACGCTGACACTGAAAGATGTGAATAACAACCCGGTGATCGGTCAGACTGTGCTGTTCAGCACTGACCTGGCAGACACCACCTTCACTACGGTGAAAGATAATCAGGACGGCACTTATACCGCAACACTGAAAGGGACCAAAGCCGGTGACGCATTACTGAAAGTCACTGTCAATGGTGCAGTACTGGAAGTGGCGCCGGTCACTGTCACCCTGACGGCGGACAGCAGTAATCTGGACAAGGACAAATCCTCACTGACAGCGGCACCGCTGACTATCGTGGCAAACAATACCACGACCTCTGAGGTGAAACTGACCCTGAAGGATGCCAACGGTAACCTGGTTTCCGGTCAGACCGTGCTGTTCAGTACCACACTGGCTAACACCACATTCGGTACAGTGAACGACAATCAGGACGGCACCTATACCGCAACCCTGAAAGGCAAAACTGCCGGTGATGCAGTGATTAAAGTCACTGTGGGCGGTAATGCACTGGAAGTTGCGCCGGTTACGGTGAAACTGACAGCGGACAGCTCAAACCTGGATAAAGATAAATCTGTCCTGGAAGCAGCGCCGCTGAGTATTGTGGCGGATAACGCAACGGAATCCACGGTGAAACTGACACTGAAAGATGTCAACGGTAACCTGGTCTCCGGTCAGACCGTGCTGTTCAGTACCACACTGGCCAACACGACTTTCGGTACAGTGAAAGATAATCAGGACGGCACCTATACCGCGACCCTGAAAGGTAAAACGGCCGGGGCTGCGGAGATTAAAGTGACAGTGGGCGGTAATGCGCTGGAAGTGGCACCGGTCACTGTCACCCTGACACCGGACAGCAGCAAACTGGATAAGGATAAATCCTCGCTGACCGCAGTACCGCTGACTATCGTGGCGGATGGTGCAACAGAGTCCGCGCTGACACTGACACTGAAAGACGTCAACGGTAACCTGGTTCCGGGACAGACCGTGCTGTTCAGTACCGGCCTGGCTGATACTACCTTCAGTGGCGTGACGGATAATCAGGACGGTACTTATACCGCGACCCTGAAAGGAACCAAATCCGGGAATGCGTTACTGAAAGTGACGGTGAACAGTGCTGAACTGGCTGTTGCACCAGTGACAGTGAAACTGATCGGCGACCAGGATAACCTGGACAAAGATAAGTCAGCACTGACGGCTGATCCGCTGACTATCGTGGCAAACAATACCACGACGTCTCTGGTGAAACTGACCCTGAAGGATATCAACGATAACCCTGTGACCGGGCAGACGGTACTGTTCAGTACCACACTGGCCAACACCACGTTCGGTACGGTAACCGATAATCAGGACGGCACCTATACGGCAACCCTGCAGGGTAAAACAGCCGGGGCCGCTGTTATCAAAGTGACTGTCGGTGGTAATGCGCTGGAGGTGGCACCGGTAACGGTTACCCTGACAGCGGACAGCAGCAAACTGGATAAGGATAAATCCTCGCTGACCGCAGTACCGCTGACTATCGTGGCGGATGGTGCTACAGAGTCCGTGCTGACACTGACACTGAAAGATGTCAATGACAACCCGGTTACAGGACAGACCGTGCTGTTCAGTACCGGTCTGGCTGATACAACTTTCAGTACGGTGACGGATAACCTGGACGGTACCTATACAGGGACTCTGAAAGGCACTAAATCCGGTGATGCGTTACTGAAAGTGACTGTCAACGGGACTGTGCTGGAAGTGGCACCGGTAACGGTGAAACTGACTGCAGACAGCAGTAATCTGGACAAGGATAAATCGGCACTGACAGCAGATCCGCTGACTATTGTGGCAAACAACACCGCAACGTCCGCGCTGAAACTGATCCTGAAAGATGCCAACGGTAACCTGGTTTCCGGACAGACCGTGCTGTTCAGTACTGAGCTCTGATGAATCCCCTAATGATTTTGGTAAAAATCATTAAGTTAAGGTGGATACAC