Abstract
The understanding of why a gene is essential for a bacterium has implications in different research areas, such as bacterial evolution, synthetic biology, and biotechnology, making the identification of essential genes a very active research field. Bacterial essential genes have been defined, among other criteria, by the inability to obtain viable mutants in such genes. In the case of Escherichia coli this approach led to the construction of the Keio collection of single-gene knockout mutants that contains deletions of all the open reading frames present in the genome with the exception of 303 genes that were found to be essential for the growth of this bacterium. One of the genes that was identified as essential is bcsB, which is involved in synthesis of extracellular cellulose. However, the reason for the essential nature of BcsB for E. coli viability has not been determined. In this work we show that bcsB is essential only in strains that have a functional capacity to synthesize cellulose, presumably due to the activity of BcsB in the translocation of this polymer across the periplasm. Thus we propose that bcsB is a conditionally essential gene in E. coli.https://ift.tt/2QTlz4Z
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