Submarine hydrothermal vents are among the least-understood habitats on Earth but have been the intense focus of research in the past 30 years. An active hydrothermal sulfide chimney collected from the Dudley site in the Main Endeavour vent Field (MEF) of Juan de Fuca Ridge was investigated using mineralogical and molecular approaches. Mineral analysis indicated that the chimney was composed mainly of Fe-, Zn-and Cu-rich sulfides. According to phylogenetic analysis, within the Crenarchaeota, clones of the order Desulfurococcales predominated, comprising nearly 50% of archaeal clones. Euryarchaeota were composed mainly of clones belonging to Thermococcales and deep-sea hydrothermal vent Euryarchaeota (DHVE), each of which accounted for about 20% of all clones. Thermophilic or hyperthermophilic physiologies were common to the predominant archaeal groups. More than half of bacterial clones belonged to epsilon-Proteobacteria, which confirmed their prevalence in hydrothermal vent environments. Clones of Proteobacteria (gamma-, delta-, beta-), Cytophaga-Flavobacterium-Bacteroides (CFB) and Deinococcus-Thermus occurred as well. It was remarkable that methanogens and methanotrophs were not detected in our 16S rRNA gene library. Our results indicated that sulfur-related metabolism, which included sulfur-reducing activity carried out by thermophilic archaea and sulfur-oxidizing by mesophilic bacteria, was common and crucial to the vent ecosystem in Dudley hydrothermal site.
The spores of arbuscular mycorrhizal fungi (AMF) form a unique microhabitat that is suitable for the colonization by many species of bacteria. The aim of the current study was to analyze the bacterial communities associated with the surface of spores of the AMF species Gigaspora margarita MAFF 520054 and Gigaspora rosea JP1. The two AMF species were propagated with tobacco (Nicotiana tabacum) grown in a mixture of sand and soil. In another experiment, G. margarita was propagated with tobacco or alfalfa (Medicago sativa) grown in vermiculite or a mixture of sand and soil. The bacterial community composition of the new-formed spores and sand/soil substrate was analyzed using PCR of 16S rDNA fragments and denaturing gradient gel electrophoresis (DGGE). Clustering analysis revealed that the bacterial communities on the surface of G. margarita spores was different form that in the substrate or on the surface of the G. rosea spores, and both the host plant and the substrate could influence the composition of spore-associated bacterial populations of the G. margarita. Sequence analysis of the major DGGE bands of G. margarita spore samples revealed that most of the bacterial sequences were affiliated with the phyla Proteobacteria (Azospirillum,
Ethylene biosynthesis and function in Agaricus bisporus (the button mushroom) remain uncertain. The enzyme activities of 1-aminocyclopropane-1-carboxylate (ACC) synthase (ACS) and ACC oxidase (ACO) were detectable in A. bisporus AS2796 and inhibited by α-aminooxyacetic acid and Co2+. We cloned and sequenced 2 ACS genes (Ab-ACS1 and Ab-ACS2) and 1 ACO gene (Ab-ACO) from the mushroom strain. Ab-ACS1 and Ab-ACS2 demonstrated low amino acid sequence similarity. Ab-ACO demonstrated an amino acid sequence completely identical to that of ACO1_AGABI from A. bisporus. Antisense ACO significantly reduced ACO gene expression level, ACO enzyme activity, and ethylene production in the mushroom transformants. The transformants grew faster than the wild-type strain in sterilized compost and normally formed primordia when cultivated in sterilized compost with the sterilized casing vermiculite, but the wild-type strain did not. Our results show that ethylene is synthesized in button mushrooms via the ACC pathway. Ethylene inhibited button mushroom mycelial growth and development.
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