Measurement of Lepton-Jet Correlation in Deep-Inelastic Scattering with the H1 Detector Using Machine Learning for Unfolding.

The first measurement of lepton-jet momentum imbalance and azimuthal correlation in lepton-proton scattering at high momentum transfer is presented. These data, taken with the H1 detector at HERA, are corrected for detector effects using an unbinned machine learning algorithm (multifold), which considers eight observables simultaneously in this first application. The unfolded cross sections are compared with calculations performed within the context of collinear or transverse-momentum-dependent factorization in quantum chromodynamics as well as Monte Carlo event generators.

Characterization of extracellular chitinolytic activity in biofilms.

Extracellular enzymes produced by bacterial biofilms tend to become an integral, permanent part of the biofilm/substratum system. Thus, characterizing extracellular enzyme activity is an essential component of understanding biofilm ecology. Methods have been presented for characterizing three aspects of extracellular enzyme activity in biofilms: promoter activity of the structural gene, local catalytic activity, and kinetics of collective substrate degradation. The abundance of intracellular transcript derived from a structural gene is only indirectly related to the magnitude of catalytic activity of the corresponding enzyme. This relationship may be particularly tenuous in the case of extracellular enzymes, which must be transported out of the cell in order to become active. Fluorogenic substrates that allow direct detection of an increasingly greater variety of enzyme activities are becoming available. There are technical problems, originating from surface roughness and intrinsic fluorescence, associated with microscopic examination of biofilms on natural materials. Thin films provide one option for acquiring data about biofilms colonizing relevant materials.

Spatial and temporal variations in chitinolytic gene expression and bacterial biomass production during chitin degradation.

Growth of the chitin-degrading marine bacterium S91 on solid surfaces under oligotrophic conditions was accompanied by the displacement of a large fraction of the surface-derived bacterial production into the flowing bulk aqueous phase, irrespective of the value of the surface as a nutrient source. Over a 200-h period of surface colonization, 97 and 75% of the bacterial biomass generated on biodegradable chitin and a nonnutritional silicon surface, respectively, detached to become part of the free-living population in the bulk aqueous phase. Specific surface-associated growth rates that included the cells that subsequently detached from the substrata varied depending on the nutritional value of the substratum and during the period of surface colonization. Specific growth rates of 3.79 and 2.83 day(-1) were obtained when cells first began to proliferate on a pure chitin film and a silicon surface, respectively. Later, when cell densities on the surface and detached cells as CFU in the bulk aqueous phase achieved a quasi-steady state, specific growth rates decreased to 1.08 and 0.79 day(-1) on the chitin and silicon surfaces, respectively. Virtually all of the cells that detached from either the chitin or the silicon surfaces and the majority of cells associated with the chitin surface over the 200-h period of surface colonization displayed no detectable expression of the chitin-degrading genes chiA and chiB. Cells displaying high levels of chiA-chiB expression were detected only on the chitin surface and then only clustered in discrete areas of the surface. Surface-associated, differential gene expression and displacement of bacterial production from surfaces represent adaptations at the population level that promote efficient utilization of limited resources and dispersal of progeny to maximize access to new sources of energy and maintenance of the population.

Differentiation of chitinase-active and non-chitinase-active subpopulations of a marine bacterium during chitin degradation.

The ability of marine bacteria to adhere to detrital particulate organic matter and rapidly switch on metabolic genes in an effort to reproduce is an important response for bacterial survival in the pelagic marine environment. The goal of this investigation was to evaluate the relationship between chitinolytic gene expression and extracellular chitinase activity in individual cells of the marine bacterium Pseudoalteromonas sp. strain S91 attached to solid chitin. A green fluorescent protein reporter gene under the control of the chiA promoter was used to evaluate chiA gene expression, and a precipitating enzyme-linked fluorescent probe, ELF-97-N-acetyl-beta-D-glucosaminide, was used to evaluate extracellular chitinase activity among cells in the bacterial population. Evaluation of chiA expression and ELF-97 crystal location at the single-cell level revealed two physiologically distinct subpopulations of S91 on the chitin surface: one that was chitinase active and remained associated with the surface and another that was non-chitinase active and released daughter cells into the bulk aqueous phase. It is hypothesized that the surface-associated, non-chitinase-active population is utilizing chitin degradation products that were released by the adjacent chitinase-active population for cell replication and dissemination into the bulk aqueous phase.

Novel method for screening bacterial colonies for phosphatase activity.

Current methods for screening large numbers of bacterial colonies for phosphatase activity, rely heavily on the use of colorimetric assays. While such methods have been applied extensively in the laboratory, they are not without their drawbacks. We here describe a precipitating fluorescent probe that can be used to screen phosphatase activity in bacterial colonies. This probe can be incorporated directly into agar plates used to culture the organisms of interest. The approach offers several advantages over current methodologies including the ability to monitor the development of phosphatase activity with colony development, and the ability to distinguish between activity arising from cell-bound and cell-free enzyme. This enzyme probe was successfully used to detect and isolate phosphatase-producing bacteria from activated sludge.

Adhesion of biofilms to inert surfaces: A molecular level approach directed at the marine environment.

Protein/ligand interactions involved in mediating adhesion between microorganisms and biological surfaces have been well-characterized in some cases (e.g. pathogen/host interactions). The strategies microorganisms employ for attachment to inert surfaces have not been so clearly elucidated. An experimental approach is presented which addresses the issues from the point of view of molecular interactions occurring at the interface.

[Menorrhagia, metrorrhagia and the endometrium. Apropos of 300 cases]. / Ménorragies, métrorragies et endomètre. A propos de 300 cas.

The authors report on the different aspects they have observed when they studied 300 case histories of patients who had a histological examination of the endometrium for menorrhagia or metrorrhagia. In 9.9% of the cases the endometrium was normal. In those cases there was an associated lesion particularly of the myometrium. Whatever the type of bleeding, the most common finding was hyperplasia. The authors emphasize that this can evolve to dysplasia (4% of their cases) and to carcinoma of the endometrium (3% of the cases).