AI Article Synopsis
- Research on enteric bacteria like E. coli has established a link between RNA content and growth rate; this study investigates a similar correlation in four marine bacterial isolates.
- The isolates were cultured under controlled conditions, and various RNA metrics displayed significant variability among them, indicating differences in growth behaviors.
- The RNA:DNA ratio showed a strong correlation with growth rates, explaining up to 94% of the variance in individual isolates and nearly 50% when data was combined, suggesting RNA content can be a reliable growth rate predictor in marine bacteria, especially at the species level.
Article Abstract
In past studies of enteric bacteria such as Escherichia coli, various measures of cellular RNA content have been shown to be strongly correlated with growth rate. We examined this correlation for four marine bacterial isolates. Isolates were grown in chemostats at four or five dilution rates, yielding growth rates that spanned the range typically determined for marine bacterial communities in nature (mu = 0.01 to 0.25 h). All measures of RNA content (RNA cell, RNA:biovolume ratio, RNA:DNA ratio, RNA:DNA:biovolume ratio) were significantly different among isolates. Normalizing RNA content to cell volume substantially reduced, but did not eliminate, these differences. On average, the correlation between mu and the RNA:DNA ratio accounted for 94% of variance when isolates were considered individually. For data pooled across isolates (analogous to an average measurement for a community), the ratio of RNA:DNA mum (cell volume) accounted for nearly half of variance in mu (r = 0.47). The maximum RNA:DNA ratio for each isolate was extrapolated from regressions. The regression of (RNA:DNA)/(RNA:DNA)(max) on mu was highly significant (r = 0.76 for data pooled across four isolates) and virtually identical for three of the four isolates, perhaps reflecting an underlying common relationship between RNA content and growth rate. The dissimilar isolate was the only one derived from sediment. Cellular RNA content is likely to be a useful predictor of growth rate for slowly growing marine bacteria but in practice may be most successful when applied at the level of individual species.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC182325 | PMC |
| http://dx.doi.org/10.1128/aem.59.8.2594-2601.1993 | DOI Listing |
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