Adsorption and characterization of MCPA on DDTMA- and raw-montmorillonite: Surface sites involved.

The 4-chloro-2-methylphenoxy acid (MCPA) is an herbicide widely used in agriculture, which generates a great concern about contamination of surface water and serious consequences for human health and the environment. In this work, the adsorption of MCPA on an Argentine montmorillonite (MMT) and its organo-montmorillonite product (OMMT) with different dodecyl trimethyl ammonium loading was investigated. MCPA adsorption on OMMT increases at least 3 times, with respect to the amount determined for MMT. X-ray diffraction and zeta potential analyses indicated the inner (interlayer) and outer surface participate as adsorption sites. Changes in surface electric charge and also interlayer expansion suggest that dimethyl amine (MCPA counterion) was also surface-adsorbed. The larger aggregates of OMMT, without and with MCPA, obtained compared to those of MMT samples, generate an improvement in the coagulation efficiency. This property, particularly after MCPA retention, allows an easier separation of the solids from the solution and enables a simple technological process application.

Coupling Novel Probes with Molecular Localization Microscopy Reveals Cell Wall Homeostatic Mechanisms in Staphylococcus aureus.

Bacterial cell wall peptidoglycan is essential for viability, and its synthesis is targeted by antibiotics, including penicillin. To determine how peptidoglycan homeostasis controls cell architecture, growth, and division, we have developed novel labeling approaches. These are compatible with super-resolution fluorescence microscopy to examine peptidoglycan synthesis, hydrolysis, and the localization of the enzymes required for its biosynthesis (penicillin binding proteins (PBPs)). Synthesis of a cephalosporin-based fluorescent probe revealed a pattern of PBPs at the septum during division, supporting a model of dispersed peptidoglycan synthesis. Metabolic and hydroxylamine-based probes respectively enabled the synthesis of glycan strands and associated reducing termini of the peptidoglycan to be mapped. Foci and arcs of reducing termini appear as a result of both synthesis of glycan strands and glucosaminidase activity of the major peptidoglycan hydrolase, SagB. Our studies provide molecular level details of how essential peptidoglycan dynamics are controlled during growth and division.

Protected N-Acetyl Muramic Acid Probes Improve Bacterial Peptidoglycan Incorporation via Metabolic Labeling.

Metabolic glycan probes have emerged as an excellent tool to investigate vital questions in biology. Recently, methodology to incorporate metabolic bacterial glycan probes into the cell wall of a variety of bacterial species has been developed. In order to improve this method, a scalable synthesis of the peptidoglycan precursors is developed here, allowing for access to essential peptidoglycan immunological fragments and cell wall building blocks. The question was asked if masking polar groups of the glycan probe would increase overall incorporation, a common strategy exploited in mammalian glycobiology. Here, we show, through cellular assays, that E. coli do not utilize peracetylated peptidoglycan substrates but do employ methyl esters. The 10-fold improvement of probe utilization indicates that (i) masking the carboxylic acid is favorable for transport and (ii) bacterial esterases are capable of removing the methyl ester for use in peptidoglycan biosynthesis. This investigation advances bacterial cell wall biology, offering a prescription on how to best deliver and utilize bacterial metabolic glycan probes.

A two-track model for the spatiotemporal coordination of bacterial septal cell wall synthesis revealed by single-molecule imaging of FtsW.

Synthesis of septal peptidoglycan (sPG) is crucial for bacterial cell division. FtsW, an indispensable component of the cell division machinery in all walled bacterial species, was recently identified in vitro as a peptidoglycan glycosyltransferase (PGTase). Despite its importance, the septal PGTase activity of FtsW has not been demonstrated in vivo. How its activity is spatiotemporally regulated in vivo has also remained elusive. Here, we confirmed FtsW as an essential septum-specific PGTase in vivo using an N-acetylmuramic acid analogue incorporation assay. Next, using single-molecule tracking coupled with genetic manipulations, we identified two populations of processively moving FtsW molecules: a fast-moving population correlated with the treadmilling dynamics of the essential cytoskeletal FtsZ protein and a slow-moving population dependent on active sPG synthesis. We further identified that FtsN, a potential sPG synthesis activator, plays an important role in promoting the slow-moving population. Our results suggest a two-track model, in which inactive sPG synthases follow the 'Z-track' to be distributed along the septum and FtsN promotes their release from the Z-track to become active in sPG synthesis on the slow 'sPG-track'. This model provides a mechanistic framework for the spatiotemporal coordination of sPG synthesis in bacterial cell division.

Localizing Peptidoglycan Synthesis in Helicobacter pylori using Clickable Metabolic Probes.

The bacterial cell wall, composed of peptidoglycan (PG), provides structural integrity for the cell and is responsible for cell shape in most bacteria. Here we present tools to study the cell wall using a clickable PG-specific sugar, 2-alkyne muramic acid (MurNAc-alk), as a metabolic probe. Here we present a new reaction pathway for generating MurNAc-alk. We also include protocols for labeling PG synthesis in Helicobacter pylori, determining the identity of the labeled muropeptides using LC-MS/MS, sample preparation of cells labeled for a short fraction of the doubling time, and visualization using 3D structured illumination microscopy. © 2021 Wiley Periodicals LLC. Basic Protocol 1: Alternative synthesis of MurNAc-alk (direct coupling) Support Protocol 1: Growing Helicobacter pylori in liquid culture Support Protocol 2: Fosfomycin rescue assay Basic Protocol 2: Mass spectrometry (MS) analysis to determine incorporation of MurNAc-alk within the peptidoglycan of H. pylori Support Protocol 3: Hayashi test to determine if SDS is present in the supernatant of peptidoglycan preparations Support Protocol 4: Creating custom cytocentrifuge units for use in a swinging-bucket tabletop centrifuge Basic Protocol 3: Labeling H. pylori with MurNAc-alk or D-Ala-alk Basic Protocol 4: Structured illumination microscopy (SIM) imaging on the DeltaVision OMX.

Metabolic Incorporation of N-Acetyl Muramic Acid Probes into Bacterial Peptidoglycan.

Bacterial cells utilize small carbohydrate building blocks to construct peptidoglycan (PG), a highly conserved mesh-like polymer that serves as a protective coat for the cell. PG production has long been a target for antibiotics, and its breakdown is a source for human immune recognition. A key component of bacterial PG, N-acetyl muramic acid (NAM), is a vital element in many synthetically derived immunostimulatory compounds. However, the exact molecular details of these structures and how they are generated remain unknown due to a lack of chemical probes surrounding the NAM core. A robust synthetic strategy to generate bioorthogonally tagged NAM carbohydrate units is implemented. These molecules serve as precursors for PG biosynthesis and recycling. Escherichia coli cells are metabolically engineered to incorporate the bioorthogonal NAM probes into their PG network. The probes are subsequently modified using copper-catalyzed azide-alkyne cycloaddition to install fluorophores directly into the bacterial PG, as confirmed by super-resolution microscopy and high-resolution mass spectrometry. Here, synthetic notes for key elements of this process to generate the sugar probes as well as streamlined user-friendly metabolic labeling strategies for both microbiology and immunological applications are described. © 2019 by John Wiley & Sons, Inc. Basic Protocol 1: Synthesis of peracetylated 2-azido glucosamine Basic Protocol 2: Synthesis of 2-azido and 2-alkyne NAM Basic Protocol 3: Synthesis of 3-azido NAM methyl ester Basic Protocol 4: Incorporation of NAM probes into bacterial peptidoglycan Basic Protocol 5: Confirmation of bacterial cell wall remodeling by mass spectrometry.

Assistência ao pré-natal e as práticas desenvolvidas pela equipe de saúde: revisão integrativa / Atención prenatal y prácticas desarrolladas por equipo de salud:revisión integradora / Prenatal care and practices developed by the health team: integrative review

Objective: to understand the practices and professionals involved in prenatal care in the Family Health Strategy. Methods: An integrative review of the literature with a temporal scope between the years 2001 and 2012, in the SciELO database and CAPES portal of journals, using the following descriptors: Women’s Health; Prenatal Care; and Health Personnel. Results: It was observed that some articles emphasize the work of nurses over the multidisciplinary work, revealing the difficulty of a comprehensive team practice. Furthermore, the focus of care is almost exclusively technical, demonstrating that the most relevant aspects to the quality of the actions during prenatal care concern the number of consultations, tests and vaccines. Conclusion: It is essential that health professionals work in a multidisciplinary perspective, in which the care given to pregnant women happens is comprehensive and complementary.

Objetivo: apreender as práticas comumente desenvolvidas na estratégia saúde da família durante o pré-natal e quais os profissionais envolvidos nessa dinâmica. Métodos: Realizou-se uma revisão integrativa da literatura com abrangência temporal entre os anos de 2001 e 2012, nas bases de dados SciELO e no Portal de Periódicos CAPES a partir dos descritores: Saúde da Mulher, Cuidado Pré-natal e Pessoal de Saúde. Resultados: Observou-se que alguns artigos enfatizam o trabalho do enfermeiro em detrimento ao trabalho multidisciplinar, o que desvela a dificuldade na integração das práticas em equipe e que o foco da assistência é quase exclusivamente de caráter técnico, sendo demonstrado que os aspectos mais relevantes para a qualidade das ações durante o prénatal são referentes ao número de consultas, exames e vacinas. Conclusão: É imprescindível que os profissionais de saúde trabalhem na perspectiva da multidisciplinaridade, na qual o cuidado prestado à gestante aconteça de forma integral e complementar.

Objetivo: aprehender las prácticas y los profesionales involucrados en la atención prenatal en la Estrategia Salud de la Familia. Métodos: Revisión integradora de la literatura con el rango de tiempo entre 2001 y 2012, en las bases de datos SciELO y Portal de Revistas CAPES a través de descriptores: Salud de la Mujer, Atención Prenatal y Personal de Salud. Resultados: Algunos artículos señalan el trabajo del enfermero en virtud del trabajo multidisciplinario, lo que revela la dificultad de la integración de las prácticas en equipo. Además, el foco de la atención es casi exclusivamente de carácter técnico, lo que demuestra que los aspectos más relevantes para la calidad de las acciones durante el prenatal se refieren al número de consultas, exámenes y vacunas. Conclusión: Es esencial que los profesionales de salud trabajen en la perspectiva multidisciplinaria, cuya atención ofrecida a la embarazada ocurra integralmente y sea complementaria.