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1.
Environ Microbiol ; 22(9): 4046-4056, 2020 09.
Artigo em Inglês | MEDLINE | ID: mdl-32783317

RESUMO

Adaptation of lipid membrane composition is an important component of archaeal homeostatic response. Historically, the number of cyclopentyl and cyclohexyl rings in the glycerol dibiphytanyl glycerol tetraether (GDGT) Archaeal lipids has been linked to variation in environmental temperature. However, recent work with GDGT-making archaea highlight the roles of other factors, such as pH or energy availability, in influencing the degree of GDGT cyclization. To better understand the role of multiple variables in a consistent experimental framework and organism, we cultivated the model Crenarchaeon Sulfolobus acidocaldarius DSM639 at different combinations of temperature, pH, oxygen flux, or agitation speed. We quantified responses in growth rate, biomass yield, and core lipid compositions, specifically the degree of core GDGT cyclization. The degree of GDGT cyclization correlated with growth rate under most conditions. The results suggest the degree of cyclization in archaeal lipids records a universal response to energy availability at the cellular level, both in thermoacidophiles, and in other recent findings in the mesoneutrophilic Thaumarchaea. Although we isolated the effects of key individual parameters, there remains a need for multi-factor experiments (e.g., pH + temperature + redox) in order to more robustly establish a framework to better understand homeostatic membrane responses.


Assuntos
Lipídeos de Membrana/química , Sulfolobus acidocaldarius/química , Ciclização , Metabolismo Energético , Éteres de Glicerila/química , Éteres de Glicerila/metabolismo , Concentração de Íons de Hidrogênio , Lipídeos de Membrana/metabolismo , Oxirredução , Sulfolobus acidocaldarius/crescimento & desenvolvimento , Sulfolobus acidocaldarius/metabolismo , Temperatura
2.
Environ Microbiol ; 22(1): 343-353, 2020 01.
Artigo em Inglês | MEDLINE | ID: mdl-31696620

RESUMO

Microorganisms regulate the composition of their membranes in response to environmental cues. Many Archaea maintain the fluidity and permeability of their membranes by adjusting the number of cyclic moieties within the cores of their glycerol dibiphytanyl glycerol tetraether (GDGT) lipids. Cyclized GDGTs increase membrane packing and stability, which has been shown to help cells survive shifts in temperature and pH. However, the extent of this cyclization also varies with growth phase and electron acceptor or donor limitation. These observations indicate a relationship between energy metabolism and membrane composition. Here we show that the average degree of GDGT cyclization increases with doubling time in continuous cultures of the thermoacidophile Sulfolobus acidocaldarius (DSM 639). This is consistent with the behavior of a mesoneutrophile, Nitrosopumilus maritimus SCM1. Together, these results demonstrate that archaeal GDGT distributions can shift in response to electron donor flux and energy availability, independent of pH or temperature. Paleoenvironmental reconstructions based on GDGTs thus capture the energy available to microbes, which encompasses fluctuations in temperature and pH, as well as electron donor and acceptor availability. The ability of Archaea to adjust membrane composition and packing may be an important strategy that enables survival during episodes of energy stress.


Assuntos
Membrana Celular/metabolismo , Lipídeos de Membrana/metabolismo , Sulfolobus acidocaldarius/metabolismo , Membrana Celular/química , Ciclização , Metabolismo Energético/fisiologia , Sulfolobus acidocaldarius/química , Temperatura
3.
Microbiologyopen ; 5(5): 846-855, 2016 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-27168070

RESUMO

By taking advantage of the ballistoconidium-forming capabilities of members of the genus Sporobolomyces, we recovered ten isolates from deciduous tree leaves collected from Vermont and Washington, USA. Analysis of the small subunit ribosomal RNA gene and the D1/D2 domain of the large subunit ribosomal RNA gene indicate that all isolates are closely related. Further analysis of their physiological attributes shows that all were similarly pigmented yeasts capable of growth under aerobic and microaerophilic conditions, all were tolerant of repeated freezing and thawing, minimally tolerant to elevated temperature and desiccation, and capable of growth in liquid or on solid media containing pectin or galacturonic acid. The scientific literature on ballistoconidium-forming yeasts indicates that they are a polyphyletic group. Isolates of Sporobolomyces from two geographically separated sites show almost identical phenotypic and physiological characteristics and a monophyly with a broad group of differently named Sporobolomyces/Sporidiobolus species based on both small subunit ribosomal RNA (SSU rRNA) and D1/D2 domains of the LSU rRNA gene sequences.


Assuntos
Basidiomycota , Folhas de Planta/microbiologia , RNA Fúngico/genética , RNA Ribossômico 5S/genética , Árvores/microbiologia , Sequência de Bases , Basidiomycota/classificação , Basidiomycota/genética , Basidiomycota/isolamento & purificação , Basidiomycota/fisiologia , Temperatura Baixa , Dessecação , Filogenia , Reação em Cadeia da Polimerase , Análise de Sequência de RNA , Vermont , Washington
4.
PLoS One ; 10(4): e0124505, 2015.
Artigo em Inglês | MEDLINE | ID: mdl-25894547

RESUMO

Oceanic protist grazing at mesopelagic and bathypelagic depths, and their subsequent effects on trophic links between eukaryotes and prokaryotes, are not well constrained. Recent studies show evidence of higher than expected grazing activity by protists down to mesopelagic depths. This study provides the first exploration of protist grazing in the bathypelagic North Atlantic Deep Water (NADW). Grazing was measured throughout the water column at three stations in the South Atlantic using fluorescently-labeled prey analogues. Grazing in the deep Antarctic Intermediate water (AAIW) and NADW at all three stations removed 3.79% ± 1.72% to 31.14% ± 8.24% of the standing prokaryote stock. These results imply that protist grazing may be a significant source of labile organic carbon at certain meso- and bathypelagic depths.


Assuntos
Eucariotos/metabolismo , Cadeia Alimentar , Oceanos e Mares , Células Procarióticas , Regiões Antárticas , Clorofila/química , Corantes Fluorescentes/química , Geografia , Hibridização in Situ Fluorescente , Luz , Microscopia de Fluorescência , Oxigênio/química , Fenotiazinas , Água do Mar , Temperatura
5.
Front Microbiol ; 5: 605, 2014.
Artigo em Inglês | MEDLINE | ID: mdl-25452749

RESUMO

Some of the most extreme marine habitats known are the Mediterranean deep hypersaline anoxic basins (DHABs; water depth ∼3500 m). Brines of DHABs are nearly saturated with salt, leading many to suspect they are uninhabitable for eukaryotes. While diverse bacterial and protistan communities are reported from some DHAB water-column haloclines and brines, the existence and activity of benthic DHAB protists have rarely been explored. Here, we report findings regarding protists and fungi recovered from sediments of three DHAB (Discovery, Urania, L' Atalante) haloclines, and compare these to communities from sediments underlying normoxic waters of typical Mediterranean salinity. Halocline sediments, where the redoxcline impinges the seafloor, were studied from all three DHABs. Microscopic cell counts suggested that halocline sediments supported denser protist populations than those in adjacent control sediments. Pyrosequencing analysis based on ribosomal RNA detected eukaryotic ribotypes in the halocline sediments from each of the three DHABs, most of which were fungi. Sequences affiliated with Ustilaginomycotina Basidiomycota were the most abundant eukaryotic signatures detected. Benthic communities in these DHABs appeared to differ, as expected, due to differing brine chemistries. Microscopy indicated that only a low proportion of protists appeared to bear associated putative symbionts. In a considerable number of cases, when prokaryotes were associated with a protist, DAPI staining did not reveal presence of any nuclei, suggesting that at least some protists were carcasses inhabited by prokaryotic scavengers.

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