Browsing by Author "Rawlings, Douglas Eric"
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- ItemThe bacteria, biology and biotechnology of biomining(Stellenbosch : Stellenbosch University, 1999) Rawlings, Douglas EricInaugural address delivered by Prof Douglas Eric Rawlings during April 1999, Stellenbosch University.
- ItemThe biology, diversity and evolution of the broad host-range, promiscuous INCQ plasmids, with an emphasis on the INCQ2 sub-family(Stellenbosch : Stellenbosch University, 2014-12) Rawlings, Douglas Eric; Van Zyl, Willem Heber; Stellenbosch University. Faculty of Science. Dept. of Microbiology.ENGLISH ABSTRACT: Plasmids belonging to the IncQ family have an exceptionally broad host-range and are highly mobilizable in the presence of the self-transmissible IncP plasmids. All IncQ plasmids identified to date have certain features in common. The feature that distinguishes them most from all other plasmids is that they have a unique mechanism of replication. Their replicons consist of repA, repB and repC genes encoding a replicase, primase and DNA-binding proteins respectively. All IncQ plasmids contain at least three 22-bp iterons (or 20-bp iterons with 2-bp spacers) that are identical in sequence and to which the RepC DNA-binding protein binds. They replicate by means of a unique strand-displacement mechanism that is considered to place a limit on their size. Replication proceeds by a partially single-stranded intermediate that is believed to result in an increased likelihood of structural instability with an increase in plasmid size. The most compact backbone of IncQ plasmids is approximately 5.9-kb and the largest natural IncQ plasmid reported is 14.2-kb. Although the mobilization regions of IncQ plasmids are not as unique as the replicons, they are all characterized by the primase of the replicon being fused to the relaxase of the mobilization genes. The remainder of the mobilization genes may vary substantially in number and sequence between plasmids and have been subdivided into at least four distinct lineages. This dissertation consists of twenty one manuscripts published during the period 1984 to 2012. The focus is almost entirely on the IncQ plasmid subfamily known as IncQ2. Most of the earlier work was on determining the nature and extent of the replicons, mobilization genes and the toxin-antitoxin plasmid stability system. A strong theme in the latter work focussed on using the natural variation among the IncQ2 plasmids as a means to understand IncQ plasmid evolution. The collection of articles comprises a combination of original research and reviews.