Use of Membrane Filter Technique in the Microbiological Control for the Brewing Industry

A physical method was developed involving serial filtration with membrane filters for separating yeast cells from bacteria. Such a method eliminates the need for antibiotics previously required to permit differential counting of such populations. All yeast cells filtered were successfully retained and cultivated on a 1.2-mu membrane filter by use of a synthetic medium. All bacteria filtered avoided entrapment on a 1.2-mu membrane filter and were successfully retained and cultivated on a 0.22-mu membrane filter with the same synthetic medium. Final filtrates from these serial filtrations were free from all yeast cells and bacteria when tested with Fluid Thioglycollate Medium.     

Length–weight relationships of four fish species from the upper Paraná River basin,Southeastern Brazil

Here the length–weight relationships (LWR, hereafter) of Pareiorhina pelicicei, Trichomycterus candidus, T. pirabitira, and T. piratymbara are provided. Samples of each species were collected between April and July 2017 with a hand net (1.5 mm mesh) in three sites from the upper Paraná River basin, Southeastern Brazil. These results increase knowledge about the LWR of Neotropical freshwater fish.     

Nucleosome phasing on a DNA fragment from the replication origin of simian virus 40 and rephasing upon cruciform formation of the DNA.

Nucleosomes were reconstituted in vitro from a fragment of DNA spanning the simian virus 40 minimal replication origin. The fragment contains a 27-base-pair palindrome (perfect inverted repeat). DNA molecules with stable cruciform structures were generated by heteroduplexing this DNA fragment with mutants altered within the palindromic sequence (C. Nobile and R. G. Martin, Int. Virol., in press). Analyses of the structural features of the reconstituted nucleosomes by the DNase I footprint technique revealed two alternative DNA-histone arrangements, each one accurately phased with respect to the uniquely labeled DNA ends. As linear double-stranded DNA, a unique core particle was formed in which the histones strongly protected the regions to both sides of the palindrome. The cruciform structure seemed to be unable to associate with core histones and, therefore, an alternative phasing of the histone octamer along the DNA resulted. Thus, nucleosome positioning along a specific DNA sequence appears to be influenced in vitro by the secondary structure (linear or cruciform) of the 27-base-pair palindrome. The formation of cruciform structures in vivo, if they occur, might therefore represent a molecular mechanism by which nucleosomes are phased.     

A combination of chitosan,coating and modified atmosphere packaging for prolonging Fior di latte cheese shelf life

In this work, the addition of chitosan into cheese making, combined with either coating or active coating (lysozyme and ethylenediamine tetraacetic acid, disodium salt) and MAP (modified atmosphere packaging) was used to prolong the shelf life of “Fior di latte” cheese. On the packaged cheese stored at 4 °C microbiological, pH, gas composition and sensory changes were monitored over an 8-day period. Results showed that the combination of chitosan, active coating and MAP improved “Fior di latte” cheese preservation by increasing the shelf life in comparison with the traditional packaging. In fact, the latter showed a very short shelf life limited to more or less 1 day, whereas the integrated approach developed in this study allowed us to obtain a significant shelf life prolongation to 5 days, most probably due to the synergic effect between the active compounds and the atmospheric conditions in the package headspace.     

Evaluation of coffee reference genes for relative expression studies by quantitative real-time RT-PCR

Accuracy in quantitative real-time polymerase chain reaction (qPCR) requires the use of stable endogenous controls. Normalization with multiple reference genes is the gold standard, but their identification is a laborious task, especially in species with limited sequence information. Coffee (Coffea ssp.) is an important agricultural commodity and, due to its economic relevance, is the subject of increasing research in genetics and biotechnology, in which gene expression analysis is one of the most important fields. Notwithstanding, relatively few works have focused on the analysis of gene expression in coffee. Moreover, most of these works have used less accurate techniques such as northern blot assays instead of more accurate techniques (e.g., qPCR) that have already been extensively used in other plant species. Aiming to boost the use of qPCR in studies of gene expression in coffee, we uncovered reference genes to be used in a number of different experimental conditions. Using two distinct algorithms implemented by geNorm and Norm Finder, we evaluated a total of eight candidate reference genes (psaB, PP2A, AP47, S24, GAPDH, rpl39, UBQ10, and UBI9) in four different experimental sets (control versus drought-stressed leaves, control versus drought-stressed roots, leaves of three different coffee cultivars, and four different coffee organs). The most suitable combination of reference genes was indicated in each experimental set for use as internal control for reliable qPCR data normalization. This study also provides useful guidelines for reference gene selection for researchers working with coffee plant samples under conditions other than those tested here. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

HIV-1 Nef Inhibits Ruffles,Induces Filopodia,and Modulates Migration of Infected Lymphocytes

The HIV-1 Nef protein is a pathogenic factor modulating the behavior of infected cells. Nef induces actin cytoskeleton changes and impairs cell migration toward chemokines. We further characterized the morphology, cytoskeleton dynamics, and motility of HIV-1-infected lymphocytes. By using scanning electron microscopy, confocal immunofluorescence microscopy, and ImageStream technology, which combines flow cytometry and automated imaging, we report that HIV-1 induces a characteristic remodeling of the actin cytoskeleton. In infected lymphocytes, ruffle formation is inhibited, whereas long, thin filopodium-like protrusions are induced. Cells infected with HIV with nef deleted display a normal phenotype, and Nef expression alone, in the absence of other viral proteins, induces morphological changes. We also used an innovative imaging system to immobilize and visualize living individual cells in suspension. When combined with confocal “axial tomography,” this technique greatly enhances three-dimensional optical resolution. With this technique, we confirmed the induction of long filopodium-like structures in unfixed Nef-expressing lymphocytes. The cytoskeleton reorganization induced by Nef is associated with an important impairment of cell movements. The adhesion and spreading of infected cells to fibronectin, their spontaneous motility, and their migration toward chemokines (CXCL12, CCL3, and CCL19) were all significantly decreased. Therefore, Nef induces complex effects on the lymphocyte actin cytoskeleton and cellular morphology, which likely impacts the capacity of infected cells to circulate and to encounter and communicate with bystander cells.Human immunodeficiency virus type 1 (HIV-1) mostly replicates in T-cell areas of secondary lymphoid organs (SLOs) and induces pathological changes in their architecture. Such changes are likely due to a combination of events, including destruction of T cells, chronic immune activation, and alteration of T-cell motility toward and inside the SLOs (27, 37, 50, 53). Indeed, to fulfill their immune surveillance role, T cells continuously circulate in and out of blood, lymph nodes (LNs), and tissues (60).Lymphocyte recruitment from the bloodstream into LNs depends on three distinct processes, i.e., attachment to high endothelial venules (HEVs), extravasation, and cell migration (10, 60). Adhesion to the endothelium and extracellular matrix (ECM) is a crucial step, regulated in part by β1 integrins, α4β1 (VLA-4) and α5β1, that bind VCAM-1 and/or fibronectin (56). Chemokines and their Gαi-protein-coupled receptors are key regulators of lymphocyte trafficking (32). For instance, CCL19 and CCL21 are constitutively produced by HEVs and by fibroblastic reticular cells of T-cell areas of LNs (21, 28, 29). These two chemokines share the receptor CCR7, expressed by naïve T cells and a fraction of memory T cells (47). They play a major role in lymphocyte homing to LNs, in steady state as well as under conditions of inflammation, and may control T-cell positioning within defined functional compartments (1, 17, 18, 47). CXCR4 and its ligand CXCL12/SDF-1 also contribute to T-cell entry into LNs (5, 23, 40). In addition, effector and memory T cells express a broad range of receptors binding inflammatory chemokines, such as the CCR5 ligands CCL3 (MIP1α), CCL4 (MIP1β), and CCL5 (Rantes).Efficient accomplishment of lymphocyte migration and immune functions requires tight regulation of the cellular cytoskeleton (59). This is mediated by the small GTPases of the Rho subfamily, such as Rho, Rac, and Cdc42 (11, 58). They activate specific actin filament assembly factors to generate sheet-like protrusive structures (such as lamellipodia and ruffles) and finger-like protrusions (such as filopodia and microvilli) (6). These structures have different functions. Lamellipodia and ruffles are formed during crawling cell motility and spreading. Filopodia protrude from the leading edges of many motile cells. They appear to perform sensory and exploratory functions to steer cells, depending on cues from the environment (42). Moreover, filopodia, or other thin structures called tunneling nanotubes, have been shown to form intercellular bridges, allowing viruses to spread through remote contacts between infected cells and targets (44, 48, 49, 52).HIV-1 hijacks cytoskeleton dynamics in order to ensure viral entry and transport within and egress from target cells (34; reviewed in reference 13). In particular, the viral protein Nef modifies actin remodeling in various cell systems. In T cells, Nef alters actin rearrangements triggered by activation of T-cell (TCR) or chemokine receptors (22, 54). Nef inhibits immunological synapse formation, a dynamic process involving rapid actin modifications (57). Nef also affects plasma membrane plasticity, inducing secretion of microvesicle clusters (33). In macrophages, Nef induces the extension of long intercellular conduits allowing its own transfer to B cells (61). A number of studies have reported that Nef affects T-cell chemotaxis (generally to CXCL12) through the modulation of Rho-GTPase-regulated signaling pathways (7, 24, 39, 54). Migration studies have generally been performed using Nef-expressing cells, and rarely in the context of HIV-1 infection (54). From a molecular standpoint, it has recently been proposed that Nef acts in part by deregulating cofilin, an actin-depolymerizing factor that promotes actin turnover and subsequent cell motility (54).In the present study, our goal was to gain further insights into the effect of HIV-1 infection on cytoskeleton dynamics. We used a panel of innovative techniques allowing analysis of cell shape, adhesion, and motility. We report that in HIV-infected lymphocytes, Nef promotes filopodium-like formation while it inhibits membrane ruffling. Nef impairs cell adhesion on the extracellular matrix and decreases intrinsic cell motility. Lymphocyte migration toward various chemokines (CXCL12, CCL3, and CCL19) is also inhibited. Our results suggest that Nef may facilitate viral spread and contribute to AIDS pathogenesis by manipulating the migration of lymphocytes.     

Relationship between Chronic Short Sleep Duration and Childhood Body Mass Index: A School-Based Cross-Sectional Study

Objective

To assess relationship between obesity and chronic shorter sleep duration in children and to determine if lack of sleep represents an independent determinant of childhood Body Mass Index.

Methods

This cross-sectional study was conducted in all children enrolled in the fifth class (approximately 10 years of age) of all public primary schools in Catanzaro (Southern Italy). The overall response rate was 62% resulting in 542 participating children. Parents completed a questionnaire with information on their demographics and socio-economic characteristics, their health status, characteristics of their child birth and health status. The sleeping habits were investigated in the 3 months preceding the consultation and parents were asked to indicate hours of bedtime and wake-up of their children. Multivariate linear regression analysis was performed to examine the association between child BMI and chronic lack of sleep.

Results

36.7% of the children surveyed were overweight or obese. A quarter of children did not routinely play sports and many of them spent more than an hour a day watching TV (60.7%) and using videogames or computer (51.1%). Widespread dietary habits were inadequate, especially concerning vegetables and fruit intake with more than 95% of children who consumed insufficient amounts. The average duration of sleep was equal to 9.4 (SD = ±0.6) hours, and the short-sleepers accounted for 38.9% of the total sample. The results of multivariate analysis showed a significant 0.77 Kg/m² increase of BMI for children classified as short compared to normal sleepers (95%CI = 0.16–1.38, p = 0.01).

Conclusions

Chronic lack of sleep appears to be associated to higher BMI even in middle childhood and strongly suggests that public health strategies, focused on promoting healthy lifestyles should include an innovative approach to ensure an adequate duration of sleep at night especially in children, alongside more traditional approaches.