The results further reveal that many codons for Leu, Ser and Arg

The results further reveal that many codons for Leu, Ser and Arg are associated with more than one substitution in the same codon. The Leu codons are associated with nucleotide substitutions at either the 1st or 3rd position or at both 1st and 3rd positions with nearly similar proportions (Figure  2). Figure  2 clearly shows that a similar pattern is absent in the Arg and Ser codons. The silent changes of Arg and Ser codons are mostly in the 3rd position, although changes in the 1st position are also evident. This suggests that 1st positions in DENV Ser and

Arg codons, but not the Leu codons may be under selection (translational) constraint. There are no changes at the 2nd position of codons in dengue virus isolates we examined (although serine codons can have such silent changes). buy Ulixertinib Figure 2 Distribution of substitution https://www.selleckchem.com/products/ch5183284-debio-1347.html sites in codons. Stacked bar graphs show the distribution of substitution sites in the 1st, 3rd and 1st + 3rd positions of specific codons in dengue virus serotypes. Table 1 Number of synonymous and non-synonymous changes in DENV serotypes Category Position 1 Position 2 Position 3 Codons Ro 61-8048 ic50 DENV1-Syn 152 0 1333 1420 DENV1-Nonsyn 128 112 129 244 DENV2-Syn 120 0 1212 1281 DENV2-Nonsyn 109 96 111 211 DENV3-Syn 121 0 1129 1197 DENV3-Nonsyn 102 117 100 218 DENV4-Syn 112 0 1259 1370 DENV4-NonSyn 102 103 109 314

Dengue virus serotypes are listed as DENV1, DENV2, DENV3 and DENV4. Syn: synonymous changes. Nonsyn: non-synonymous changes. Position

1/2/3: 1st, 2nd and 3rd positions of codons. For synonymous changes, the 3rd position substitutions are predominant as expected. However, for non-synonymous changes, all the three positions of codons undergo changes Phosphoribosylglycinamide formyltransferase with no significant bias with any specific position. Number of codons associated with non-synonymous (Non-syn) or synonymous (Syn) changes in each serotype are shown in the last column. We observed that the non-synonymous substitutions (~ 300 in total) are distributed in nearly equal numbers among the three codon positions (Table  1). Although 1st and 2nd codon positions are generally associated with non-synonymous changes of codons, this result suggests that there is no such bias of specific codon positions in accumulating non-synonymous changes in DENV. It was further found that, in the DENV genome, synonymous and non-synonymous changes occur at more than one position (1st, 2nd and 3rd positions of codons) within codons (Table  2). Of note, while substitutions at multiple positions within non-synonymous codons are as frequent as single substitutions with isolates of serotypes 1, 2 and 3, substitutions at multiple positions were absent among the serotype 4 isolates. The non-synonymous changes account for an average of 0.013 to 0.018 amino acid substitutions per site in serotypes 1, 2 and 3, and 0.005 in serotype 4.

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