Physiological response to temperature changes of the marine, sulfate-reducing bacterium Desulfobacterium autotrophicum

Rabus, R

doi:10.1016/s0168-6496(02)00358-6

Cited by 3 publications

(3 citation statements)

References 27 publications

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“…The stress responses of H. uninervis and C. serrulata at 35°C were exacerbated by moderate and high p CO 2 , as it drove greater decline in net productivity, leaf extension, and shoot density. Temperature stress can be exacerbated by the addition of organic matter and the subsequent accumulation of sulphide in seagrass sediments (Koch et al ., ), which is a known phytotoxin, because the optimum temperature for microbial sulphide reduction is at 35–40°C (Wieland & Kühl, ; Rabus et al ., ), and increased p CO 2 may have also affected sediment condition. Z. muelleri is able to maintain an oxic microshield around its roots by pumping oxygen from its leaves.…”

Section: Discussionmentioning

confidence: 99%

Losing a winner: thermal stress and local pressures outweigh the positive effects of ocean acidification for tropical seagrasses

Collier

Langlois

et al. 2018

New Phytologist

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Seagrasses are globally important coastal habitat-forming species, yet it is unknown how seagrasses respond to the combined pressures of ocean acidification and warming of sea surface temperature. We exposed three tropical species of seagrass (Cymodocea serrulata, Halodule uninervis, and Zostera muelleri) to increasing temperature (21, 25, 30, and 35°C) and pCO (401, 1014, and 1949 μatm) for 7 wk in mesocosms using a controlled factorial design. Shoot density and leaf extension rates were recorded, and plant productivity and respiration were measured at increasing light levels (photosynthesis-irradiance curves) using oxygen optodes. Shoot density, growth, photosynthetic rates, and plant-scale net productivity occurred at 25°C or 30°C under saturating light levels. High pCO enhanced maximum net productivity for Z. muelleri, but not in other species. Z. muelleri was the most thermally tolerant as it maintained positive net production to 35°C, yet for the other species there was a sharp decline in productivity, growth, and shoot density at 35°C, which was exacerbated by pCO . These results suggest that thermal stress will not be offset by ocean acidification during future extreme heat events and challenges the current hypothesis that tropical seagrass will be a 'winner' under future climate change conditions.

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Section: Discussionmentioning

confidence: 99%

Losing a winner: thermal stress and local pressures outweigh the positive effects of ocean acidification for tropical seagrasses

Collier

Langlois

et al. 2018

New Phytologist

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“…Previous studies addressing cold adaptation in bacteria and eukaryotes have tended to focus on cold shock rather than cold growth. Moreover, few studies have described the molecular responses of cold‐adapted microorganisms (Rabus et al ., 2002), and no proteomic or microarray studies have reported the identification of genes involved in cold adaptation. This study therefore provides the first view of global gene expression in cold‐adapted microorganisms and is a benchmark for comparative studies in other organisms.…”

Section: Introductionmentioning

confidence: 99%

A proteomic determination of cold adaptation in the Antarctic archaeon, Methanococcoides burtonii

Goodchild

Saunders

Ertan

et al. 2004

Molecular Microbiology

142

165

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SummaryA global view of the biology of the cold-adapted archaeon Methanococcoides burtonii was achieved using proteomics. Proteins specific to growth at 4 ∞ ∞ ∞ ∞ C versus T opt (23 ∞ ∞ ∞ ∞ C) were identified by mass spectrometry using the draft genome sequence of M. burtonii . mRNA levels were determined for all genes identified by proteomics, and specific enzyme assays confirmed the protein expression results. Key aspects of cold adaptation related to transcription, protein folding and metabolism, including specific roles for RNA polymerase subunit E, a response regulator and peptidyl prolyl cis/trans isomerase. Heat shock protein DnaK was expressed during growth at T opt , indicating that growth at 'optimal' temperatures was stressful for this cold-adapted organism. Expression of trimethylamine methyltransferase involves contiguous translation of two open reading frames, which is likely to result from incorporation of pyrrolysine at an amber stop codon. Thermal regulation in M. burtonii is achieved through complex gene expression events involving gene clusters and operons, through to protein modifications.

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“…A few species of SRB have been recently subjected to genome sequencing (http://www.tigr.org;http://www.regx.de) . However, only a few studies have considered the adaptative responses and regulatory mechanisms in SRB when they are subjected to changes in physical and chemical conditions in the environment (Rabus et al ., 1993; 2002).…”

Section: Introductionmentioning

confidence: 99%

Effect of growth temperature on cellular fatty acids in sulphate‐reducing bacteria

Könneke

Widdel

2003

Environmental Microbiology

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The effect of growth temperature on the cellular fatty acid composition of sulphate-reducing bacteria (SRB) was studied in 12 species belonging to eight genera including psychrophiles and mesophiles. Most of these species were of marine origin. The investigated SRB with the exception of four Desulfobacter species exhibited only a minor increase in the proportion of cis-unsaturated fatty acids (by < or = 5% per 10 degrees C) when the growth temperature was decreased; psychrophiles maintained their typically high content of cis-unsaturated fatty acids (around 75% of total fatty acids) nearly constant. The four Desulfobacter species, however, increased the proportion of cis-unsaturated among total fatty acids significantly (by > or =14% per 10 degrees C; measured in late growth phase) with decreasing growth temperature. The ratio between unsaturated and saturated fatty acids in Desulfobacter species changed not only with the growth temperature, but also with the growth state in batch cultures at constant temperature. Changes of cellular fatty acids were studied in detail with D. hydrogenophilus, the most psychrotolerant (growth range 0-35 degrees C) among the mesophilic SRB examined. Desulfobacter hydrogenophilus also formed cis-9,10-methylenehexadecanoic acid (a cyclopropane fatty acid) and 10-methylhexadecanoic acid. At low growth temperature (12 degrees C), the relative amount of these fatty acids was at least threefold lower; this questions the usefulness of 10-methylhexadecanoic acid as a reliable biomarker of Desulfobacter in cold sediments.

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Physiological response to temperature changes of the marine, sulfate-reducing bacterium Desulfobacterium autotrophicum

Cited by 3 publications

References 27 publications

Losing a winner: thermal stress and local pressures outweigh the positive effects of ocean acidification for tropical seagrasses

Losing a winner: thermal stress and local pressures outweigh the positive effects of ocean acidification for tropical seagrasses

A proteomic determination of cold adaptation in the Antarctic archaeon, Methanococcoides burtonii

Effect of growth temperature on cellular fatty acids in sulphate‐reducing bacteria

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