The other major types of repetitive

The other major types of repetitive elements are 3, 4 and 5 that are separated by three amino acid substitutions. 4SC-202 The 8-14 elements are shorter forms of 3, 4 and 5 with deletions of 5 to 20 amino acids. Figure 3 Phylogenetic relationships of 41 variants of the MLST target that include hctB from Chlamydia trachomatis. (A) Phylogenetic tree based on the MLST target that includes

the hctB gene. Each variant of the MLST target is indicated by the allele number and the Wnt inhibitor serotypes in which that variant has been found. The phylogeny has been estimated using Bayesian inferences and rooted using paralog rooting based on the repetitive elements. The numbers on branches are posterior probabilities. The clades discussed in the text have been designated I-V. The repetitive elements found in each MLST variant are illustrated in an alignment to the right (B). The alignment of the repetitive elements is based on the neighbor-joining phylogeny of the element types (C) where the scale bar represents one nucleotide change. The amino acid sequence outside the variable region is highly conserved

with no insertions or deletions. The beginning of the gene encodes 24 amino acids with two substitutions; one of these substitutions is restricted to the B (genital), D, G, H, I, Ia, J and K serovars while the other is found in some trachoma strains. The last 69 amino acids of Hc2 downstream of the variable region are therefore partly excluded in MLST typing

analysis. The only differences Proteasome inhibitor in sequence found in the 87 bp obtained with MLST sequencing are two substitutions that both cause a change in amino acid. One substitution was unique for the D, G, H, J and K serovars and one was found only in a trachoma strain. Additional sequencing was done in order to cover the last 120 bp of the hctB gene for 17 strains representing different types of Hc2. Only three variable positions were found. Two substitutions, of which one is silent, separate the LGV serovars from the others Non-specific serine/threonine protein kinase and one silent substitution is unique for the D, G, H, J and K serovars. Phylogeny and evolution of repeat elements The phylogenetic analyses of the repeat elements (Figure 3C) and of the MLST target including hctB (Figure 3A), together show that the evolution of the hctB variants is characterized by a relatively rapid rate of within-genome duplications and deletions of repeat elements and a relatively slow rate of nucleotide substitution. The phylogenetic tree shows that the hctB gene variants cluster in agreement with disease causing properties. The 41 variants of hctB sequences obtained with MLST gave a topology with posterior probability above 0.95 for four clades, designated I-IV (Figure 3). Clade I (1.0 posterior probability) contained the trachoma serovar A, B and C strains, but not the genital serovar B (alleles 8_BGI, 11_BD and 31_B).

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