Michael Siano scite author profile

Salmonella enterica serovar Typhimurium can differentiate into hyperflagellated swarmer cells on agar of an appropriate consistency (0.5 to 0.8%), allowing efficient colonization of the growth surface. Flagella are essential for this form of motility. In order to identify genes involved in swarming, we carried out extensive transposon mutagenesis of serovar Typhimurium, screening for those that had functional flagella yet were unable to swarm. A majority of these mutants were defective in lipopolysaccharide (LPS) synthesis, a large number were defective in chemotaxis, and some had defects in putative two-component signaling components. While the latter two classes were defective in swarmer cell differentiation, representative LPS mutants were not and could be rescued for swarming by external addition of a biosurfactant. A mutation in waaG (LPS core modification) secreted copious amounts of slime and showed a precocious swarming phenotype. We suggest that the O antigen improves surface "wettability" required for swarm colony expansion, that the LPS core could play a role in slime generation, and that multiple two-component systems cooperate to promote swarmer cell differentiation. The failure to identify specific swarming signals such as amino acids, pH changes, oxygen, iron starvation, increased viscosity, flagellar rotation, or autoinducers leads us to consider a model in which the external slime is itself both the signal and the milieu for swarming motility. The model explains the cell density dependence of the swarming phenomenon.

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The Dictyostelium LvsA Protein is Localized on the Contractile Vacuole and is Required for Osmoregulation

Gerald

Siano

Lozanne³

2002

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LvsA is a Dictyostelium protein that is essential for cytokinesis and that is related to the mammalian beige/LYST family of proteins. To better understand the function of this novel protein family we tagged LvsA with GFP using recombination techniques. GFPLvsA is primarily associated with the membranes of the contractile vacuole system and it also has a punctate distribution in the cytoplasm. Two markers of the Dictyostelium contractile vacuole, the vacuolar proton pump and calmodulin, show extensive colocalization with GFP-LvsA on contractile vacuole membranes. Interestingly, the association of LvsA with contractile vacuole membranes occurs only during the discharge phase of the vacuole. In LvsA mutants the contractile vacuole becomes disorganized and calmodulin dissociates from the contractile vacuole membranes. Consequently, the contractile vacuole is unable to function normally, it can swell but seems unable to discharge and the LvsA mutants become osmosensitive. These results demonstrate that LvsA can associate transiently with the contractile vacuole membrane compartment and that this association is necessary for the function of the contractile vacuole during osmoregulation. This transient association with specific membrane compartments may be a general property of other BEACH-domain containing proteins.

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Low-Temperature Preparations of Unimolecular Nitroxide Initiators for “Living” Free Radical Polymerizations

et al. 1997

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Low-temperature methods for the preparation of monomeric initiators for use in “living” free radical olefin polymerizations have been developed. Oxidative methods for generating carbon radicals in the presence of nitroxide traps such as TEMPO utilize PbO2 with benzylic, alkyl, or phenylhydrazines or CuCl2 with lithium enolates. Photolytic methods employ [Cp(CO)2Fe]2 with a benzylic bromide, diphenyl disulfide with styrene, or di-tert-butyl peroxide with ethers. The use of di-tert-butyl hyponitrite with ethers generates carbon radicals at 50 °C that are trapped by TEMPO.

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Structure‐Function Analysis of the BEACH Protein LvsA

Yajnik

Siano

et al. 2004

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Most eukaryotes have several members of the BEACH family of proteins but the molecular function of these large proteins remains unknown. The Dictyostelium BEACH protein LvsA is essential for cytokinesis and contractile vacuole activity. The functional contribution of different portions of LvsA was tested here by deletion analysis. The C‐terminal WD domain was important for protein stability and C‐terminal deletions resulted in loss of LvsA function. In contrast, N‐terminal deletions yielded abundant protein expression that could be assayed for function. Despite very low sequence conservation of the N‐terminal portion of LvsA, this region is important for its function in vivo. Deletion of 689 N‐terminal amino acids produced a protein that was functional in cytokinesis but partially functional in osmoregulation. Further deletions resulted in the complete loss of LvsA function. Using in vitro fractionation assays we found that LvsA sedimented with membranes but that this association does not require the N‐terminal portion of LvsA. Interestingly, the association of LvsA with the contractile vacuole was perturbed by the loss of drainin, a protein important for vacuole function. In drainin‐null cells, LvsA bound irreversibly to engorged contractile vacuoles that fail to expel water. These experiments help delineate the biochemical and physiological requirements for function of one important BEACH protein, LvsA.

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Michael Siano

Genetics of Swarming Motility inSalmonella entericaSerovar Typhimurium: Critical Role for Lipopolysaccharide

The Dictyostelium LvsA Protein is Localized on the Contractile Vacuole and is Required for Osmoregulation

Low-Temperature Preparations of Unimolecular Nitroxide Initiators for “Living” Free Radical Polymerizations

Structure‐Function Analysis of the BEACH Protein LvsA

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