Multicellular organisms utilize cell-to-cell signals to build patterns of cell types within embryos, but the ability of fungi to form organized communities has been largely unexplored. Here we report that colonies of the yeast Saccharomyces cerevisiae formed sharply divided layers of sporulating and nonsporulating cells. Sporulation initiated in the colony's interior, and this region expanded upward as the colony matured. Two key activators of sporulation, IME1 and IME2, were initially transcribed in overlapping regions of the colony, and this overlap corresponded to the initial sporulation region. The development of colony sporulation patterns depended on cell-to-cell signals, as demonstrated by chimeric colonies, which contain a mixture of two strains. One such signal is alkaline pH, mediated through the Rim101p/PacC pathway. Meiotic-arrest mutants that increased alkali production stimulated expression of an early meiotic gene in neighboring cells, whereas a mutant that decreased alkali production (cit1D) decreased this expression. Addition of alkali to colonies accelerated the expansion of the interior region of sporulation, whereas inactivation of the Rim101p pathway inhibited this expansion. Thus, the Rim101 pathway mediates colony patterning by responding to cell-to-cell pH signals. Cell-to-cell signals coupled with nutrient gradients may allow efficient spore formation and spore dispersal in natural environments.
Soil seed banks are an important component of plant community diversity in ephemeral wetlands, allowing many species to persist through unpredictable periods of flood and drought. Spatial variation of extant vegetation in such habitats commonly reflects patterns of flood history and often varies predictably between broadly differing hydro-geomorphic habitat types. Here we investigate whether spatial variation of soil seed banks is similarly controlled by fluvial processes at this scale. Results are presented from a seedling emergence trial using samples collected from a range of habitat types, and at different scales within these, in the ephemeral Narran Lakes system in semi-arid Australia. Composition and structure of soil seed banks varied significantly between habitat types reflecting broad differences in flood frequency. As predicted, germinable seed abundance was found to be highest in intermediately flooded habitats. Variability in soil seed bank composition at a local scale was also found to be influenced by hydrology with greater spatial heterogeneity evident in the river channel as well as amongst the least frequently inundated riparian and floodplain habitats.
Many microbial communities contain organized patterns of cell types, yet relatively little is known about the mechanism or function of this organization. In colonies of the budding yeast Saccharomyces cerevisiae, sporulation occurs in a highly organized pattern, with a top layer of sporulating cells sharply separated from an underlying layer of nonsporulating cells. A mutant screen identified the Mpk1 and Bck1 kinases of the cell-wall integrity (CWI) pathway as specifically required for sporulation in colonies. The CWI pathway was induced as colonies matured, and a target of this pathway, the Rlm1 transcription factor, was activated specifically in the nonsporulating cell layer, here termed feeder cells. Rlm1 stimulates permeabilization of feeder cells and promotes sporulation in an overlying cell layer through a cell-nonautonomous mechanism. The relative fraction of the colony apportioned to feeder cells depends on nutrient environment, potentially buffering sexual reproduction against suboptimal environments.KEYWORDS cell-wall integrity; cell permeability; cell-cell signaling; Saccharomyces cerevisiae; sporulation A S embryos develop, cells of different fates organize into patterns [reviewed in Kicheva et al. (2012) and Perrimon et al. (2012)] . Intriguingly, even unicellular microbial species form communities in which different cell types are organized into patterns [reviewed in Kaiser et al. (2010), Honigberg (2011, and Loomis (2014)]. For example, colonies of the budding yeast Saccharomyces cerevisiae form an upper layer of larger cells (U cells) overlying a layer of smaller cells (L cells). U and L cells differ in their metabolism, gene expression, and resistance to stress, and U and L layers are separated by a strikingly sharp boundary Vachova et al. 2013). Patterns are also observed in yeast biofilms, where cells closest to the plastic surface grow as ovoid cells, whereas cells further from the surface differentiate into hyphae for Candida species [reviewed in Finkel and Mitchell (2011)] or pseudohyphae and eventually asci for S. cerevisiae (White et al. 2011).Sporulation also occurs in patterns within yeast colonies. Specifically, a narrow horizontal layer of sporulated cells forms through the center of the colony early during colony development. As colonies continue to mature, this layer progressively expands upward to include the top of the colony; this wave is driven by progressive alkalization and activation of the Rim101 signaling pathway . In contrast, cells at the bottom of the colony, i.e., directly contacting the agar substrate, also sporulate at early stages of colony development, but this narrow cell layer does not expand as the colony matures . The same colony sporulation pattern is observed in a range of laboratory yeasts as well as in S. cerevisiae and S. paradoxus isolated from the wild. Indeed, in these wild yeasts, the same colony sporulation pattern forms on a range of fermentable and nonfermentable carbon sources .The mechanism of sporulation patterning and its function remai...
S. cerevisiae grown on plastic surfaces formed organized structures, termed minicolonies, that consisted of a core of round (yeast-like) cells surrounded by chains of filamentous cells (pseudohyphae). Minicolonies had much higher affinity for plastic than unstructured yeast communities growing on the same surface. Pseudohyphae at the surface of these colonies developed further into chains of asci. These structures suggest that pseudohyphal differentiation and sporulation are sequential processes in minicolonies. Consistent with this idea, minicolonies grown under conditions that stimulated pseudohyphal differentiation contained higher frequencies of asci. Furthermore, a flo11Δ mutant, which fails to form pseudohyphae, yielded normal sporulation in cultures but was defective for minicolony sporulation. When minicolonies were dispersed in water and cells then allowed to settle on the plastic surface, these cells sporulated very efficiently. Taken together, our results suggest that sporulation in minicolonies is stimulated by pseudohyphal differentiation because these pseudohyphae are dispersed from the core of the colony.
Adult sex ratios vary considerably among populations of single species and across years, but the best evidence is drawn from species with temperature-dependent sex determination. It is difficult to disentangle the effects of bias in the production of the sexes and the effects of a range of other factors contributing to biased adult sex ratios. In this paper, we survey sex ratios across populations of a species constrained to produce 1 : 1 offspring sex ratios by genotypic sex determination and show considerable variation in adult sex ratios. Raw adult sex ratios of Emydura macquarii emmottii were significantly biased in nine of the 11 populations examined. In all but one case, the bias was strongly in favour of males. Part of the bias in sex ratio was attributed to the differing ages of maturity of males and females – males mature younger than females – which leads to more male cohorts being included in the calculations of sex ratio than female cohorts. However, correcting for this effect brought the sex ratios of the populations closer to parity, as expected, and accounted for an overall 62% of the male surplus evident in the adult sex ratio. Even so, it was insufficient to explain the strong male bias (1.2–2.9) in five of the nine populations initially showing such bias. This provides support to those who advise caution in interpreting adult sex ratio data for freshwater turtles in the context of demography, sex allocation or evaluating the impact of climate change.
The aim of this study was to describe two epizootics of high mortalities from infection with Streptococcus agalactiae, occurring in captive rays held in a marine display aquarium in south-east Queensland, Australia, in 2009 and 2010. Five different species of rays were affected, including mangrove whiprays (Himantura granulata), estuary rays (Dasyatis fluviorum), eastern shovelnose rays (Aptychotrema rostrata), white-spotted eagle rays (Aetobatus narinari) and blue-spotted mask rays (Neotrygon kuhlii). This report describes the history of both epizootics including collection, quarantine and husbandry of rays, the disease epizootics, clinico-pathological features of the disease, antimicrobial therapy, autogenous vaccine production, and laboratory studies including clinical and histopathology, bacteriology, PCR, molecular serotyping and sequencing of the bacterium S. agalactiae.
Abstract:The delivery of environmental flows to riverine floodplains is often constrained by water scarcity and infrastructure. This means that areas of floodplain are unable to receive environmental water through mechanisms like dam release, weir pool surcharge and artificial flooding of low lying areas. This study trials aquifer injection as a method of providing environmental flows to areas of stressed river red gum (Eucalyptus camaldulensis) on the floodplain of the lower River Murray. The objective was to inject fresh river water at the top of the saline alluvial aquifer to reduce root zone salinity and improve the condition of E. camaldulensis. Localized radial freshening of ¾10 m was observed at each of the five injection wells when 4Ð9 Ml (megalitres) of river water was injected into the aquifer over 45 days. Injection was abandoned after 45 days due to aquifer and well clogging, and increases in groundwater head, which caused four of the five wells to breach the confining clay layer. The trial resulted in localized and short-lived freshening of the groundwater, which reduced salinity in the associated capillary fringe. This did not result in an improvement in the tree condition as they lay beyond the lateral extent of the freshening and were unable to access the water. Solutions to technical issues such as aquifer clogging and well breaching, as well as a need to increase the lateral extent of freshening, are required before shallow aquifer injection can be recommended as a method of delivering environmental flows.
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