Isolation and characterization of an extrachromosomal element from Nocardia mediterranei

Strain LBG A3136 of Nocardia mediterranei (ETH Collection) was found to contain a low-copy-number covalently closed circular extrachromosomal element, pMEA 100, which could only be isolated from mycelium grown on agar plates. pMEA 100 could not be isolated from the closely related strain ATCC 13685. Hybridization experiments showed that pMEA 100 is present in strain LBG A3136 in the free as well as in the integrated form whereas in strain ATCC 13685 only an integrated form was detected. Excision and reintegration in strain LBG A3136 seemed to be site specific. pMEA100 was found to be self-transmissible, eliciting the lethal zygosis phenotype, and is possibly involved in fertility in N. mediterranei.     

Bi-directional transfer of nitrogen between alfalfa and bromegrass: Short and long term evidence

Transfer of N from legumes to associated non-legumes has been demonstrated under a wide range of conditions. Because legumes are able to derive their N requirements from N₂ fixation, legumes can serve, through the transfer of N, as a source of N for accompanying non-legumes. Studies, therefore, are often limited to the transfer of N from the legume to the non-legume. However, legumes preferentially rely on available soil N as their source of N. To determine whether N can be transferred from a non-legume to a legume, two greenhouse experiments were conducted. In the short-term N-transfer experiment, a portion of the foliage of meadow bromegrass (Bromus riparius Rhem.) or alfalfa (Medicago sativa L.) was immersed in a highly labelled ¹⁵N-solution and following a 64 h incubation, the roots and leaves of the associated alfalfa and bromegrass were analyzed for ¹⁵N. In the long-term N transfer experiment, alfalfa and bromegrass were grown in an ¹⁵N-labelled nutrient solution and transplanted in pots with unlabelled bromegrass and alfalfa plants. Plants were harvested at 50 and 79 d after transplanting and analyzed for ¹⁵N content. Whether alfalfa or bromegrass were the donor plants in the short-term experiment, roots and leaves of all neighbouring alfalfa and bromegrass plants were enriched with ¹⁵N. Similarly, when alfalfa or bromegrass was labelled in the long-term experiment, the roots and shoots of neighbouring alfalfa and bromegrass plants became enriched with ¹⁵N. These two studies conclusively show that within a short period of time, N is transferred from both the N₂-fixing legume to the associated non-legume and also from the non-legume to the N₂-fixing legume. The occurrence of a bi-directional N transfer between N₂-fixing and non-N₂-fixing plants should be taken into consideration when the intensity of N cycling and the directional flow of N in pastures and natural ecosystems are investigated.     

Environmental and developmental regulation of carotenogenesis in the dimorphic fungus Mucor rouxii

Aerobic mycelium of wild-type Mucor rouxii accumulated about ten times higher amounts of the carotenoid pigment -carotene when grown continuously in the presence of light than the corresponding cultures grown in the dark. Carotenoid accumulation was dependent on light intensity, with the threshold located at about 10^-2 W.m^-2. Photocarotenogenesis in complex medium was more efficient with glucose as a carbon source. Carotenoid synthesis by M. rouxii mycelium was unaffected by both retinol acetate and retinal, which are stimulators of carotenogenesis in other zygomycetes. Carotenogenesis was significant in aerobic mycelium but was almost undetectable in anaerobic mycelium as well as in aerobic or anaerobic yeast cells. This suggested an involvement of oxygen in carotenoid synthesis by M. rouxii and the existence of developmental regulation of the expression or operation of the pathway.     

Integrated DNA sequences in three streptomycetes form related autonomous plasmids after transfer to Streptomyces lividans

When Streptomyces parvulus ATCC 12434 was crossed with a plasmid-free S. lividans 66 derivative, some S. lividans exconjugants contained plasmid DNA, pIJ110 (13.6 kb). In a similar way, pIJ408 (15.05 kb) was found after mating S. glaucescens ETH 22794 with S. lividans. CCC DNA was not visualized in the donor strains. pIJ110 and pIJ408 each originates from a larger replicon, probably the chromosome, of S. parvulus or S. glaucescens. Restriction maps of pIJ110 and pIJ408, each for 10 enzymes, were derived. Derivatives of each plasmid were constructed carrying antibiotic-resistance markers (thiostrepton or viomycin) in a nonessential region and each plasmid was cloned into an Escherichia coli plasmid vector (pBR327 or pBR325). pIJ110 and pIJ408 resemble, in their origin, the previously known SLP1 plasmids (such as SLP1.2) which come from integrated sequences in the chromosome of S. coelicolor A3(2). pIJ110 and pIJ408, like SLP1.2, are self-transmissible, elicit the so-called lethal zygosis reaction (pock formation) and mobilize chromosomal markers. The three plasmids, in spite of their very different restriction maps, were found to be related: SLP1.2 and pIJ110 were strongly incompatible, showed complete resistance to each other's lethal zygosis reaction, and shared a segment of DNA with a considerable degree of cross-hybridization; pIJ110 and pIJ408 were weakly incompatible and showed partial resistance to lethal zygosis and a weak DNA cross-hybridization; pIJ408 and SLP1.2 were only distantly related on these criteria. pIJ110, pIJ408, and SLP1.2 hybridized with varying degrees of homology in Southern transfer experiments to DNA from 7 out of 13 of an arbitrary collection of wild-type streptomycetes. Integrated sequences capable of forming plasmids after transfer to S. lividans may therefore be widespread in the genus Streptomyces.     

The intracellular location of adenylyl cyclase in the cellular slime molds Dictyostelium discoideum and Polysphondylium pallidum

Adenylyl cyclase activity was low or not detectable on intact cells and in isolated plasma membranes, phagocytic vacuoles and nuclei of the two slime mold species examined. The entire activity of homogenates was sedimentable and concentrated in a light membrane fraction. When this fraction was centrifugated through sucrose density gradients the adenylyl cyclase activity sedimented differently from all other enzymes measured. The gradient fractions with the highest specific activity of adenylyl cyclase consisted mainly of small vesicles. No changes in adenylyl cyclase distribution were associated with development. The possibility that cellular slime mold adenylyl cyclase activity is associated with vesicles in vivo, as already suggested by Maeda & Gerisch [10], is discussed.     

Deep Crustal Communities of the Juan de Fuca Ridge Are Governed by Mineralogy

Volcanic ocean crust contains a global chemosynthetic microbial ecosystem that impacts ocean productivity, seawater chemistry and geochemical cycling. We examined the mineralogical effect on community structure in the aquifer ecosystem by using a four-year in situ colonization experiment with igneous minerals and glasses in Integrated Ocean Drilling Program Hole 1301A on the Juan de Fuca Ridge. Microbial community analysis and scanning electron microscopy revealed that olivine phases and iron-bearing minerals bore communities that were distinct from iron-poor phases. Communities were dominated by Archaeoglobaceae, Clostridia, Thermosipho, Desulforudis and OP1 lineages. Our results suggest that mineralogy determines microbial composition in the subseafloor aquifer ecosystem.