A systematic investigation of the stability of green fluorescent protein fusion proteins

X-ray crystallography provides important insights into structure-function relationship in biomolecules. However, protein crystals are usually hard to obtain which hinders our understanding of multiple important processes. Crystallization requires large amount of protein sample, whereas recombinant proteins are often unstable or insoluble. Green fluorescent protein (GFP) fusion is one of the approaches to increase protein synthesis, solubility and stability, facilitating crystallization. In this study we analyze the influence of the linker length, composition and the position of GFP relative to the fusion partner on the fusion protein production and stability. To this end, multiple constructs of enzymatically impaired variant of PemKSa toxin from Staphylococcus aureus CH91 fused to GFP were generated. Fusion protein production in Escherichia coli was evaluated. The proteins were purified and their stability tested. PemKSa-α14aa-GFP fusion provided best production and stability. Obtained results demonstrate the importance of optimization of fusion protein construct, including linker selection and the order of fusion partners, in obtaining high quantities of stable protein for crystallization

Rethinking Overseas Legal Experiences from the Top Down and Bottom Up

Rethinking Overseas Legal Experiences from the Top Down and Bottom Up With the current strains and pressures that law schools are facing today, the new reality is that beloved programs are being cut--from clinics to moot programs to overseas programs. What is the justification for keeping law school “study abroad” programs? If there are compelling reasons for international legal education, who needs to be convinced and what is the most effective way of doing that? Discussants: Amy Sugin, Assistant Dean of Graduate and International Programs, Benjamin N. Cardozo School of Law Colleen Graffy, Director of the London Program, Pepperdine University School of Law Adam David Dubin, Director, Masters in International and European Business Law, Universidad Pontificia Comilla

Isolation, biochemical characterization, and cloning of a bacteriocin from the poultry-associated Staphylococcus aureus strain CH-91

Staphylococcus aureus strain CH-91, isolated from a broiler chicken with atopic dermatitis, has a highly proteolytic phenotype that is correlated with the disease. We describe the isolation and biochemical and molecular characterization of the AI-type lantibiotic BacCH91 from S. aureus CH-91 culture medium. The bacteriocin was purified using a three-stage procedure comprising precipitation with ammonium sulfate, extraction with organic solvents, and reversed-phase HPLC. The BacCH91 peptide is thermostable and highly resistant to cleavage by both prokaryotic and eukaryotic peptidases. The MIC for the Gram-positive bacteria ranged from 2.5 nM for Microococcus luteus through 1.3–6.0 μM for staphylococcal strains up to more than 100 μM for Lactococcus lactis. BacCH91 was ineffective against the Gram-negative strains tested at the maximal concentration (100 μM). The amino acid sequence of BacCH91 is similar to that of epidermin and gallidermin. The encoding gene (bacCH91) occurred in two allelic variants distinguishable in the restriction fragment length polymorphism assay. Variant I, identified in S. aureus CH-91, dominated in S. aureus strains of poultry origin, although strains with variant II were also identified in this group. S. aureus strains of human origin were characterized exclusively by variant II

Surface modification of nanocrystalline TiO2TiO_2 materials with sulfonated porphyrins for visible light antimicrobial therapy

Highly-active, surface-modified anatase TiO2 nanoparticles were successfully synthesized and characterized. The morphological and optical properties of the obtained (metallo)porphyrin@qTiO2 materials were evaluated using absorption and fluorescence spectroscopy, scanning electron microscopy (SEM) imaging, and dynamic light scattering (DLS). These hybrid nanoparticles efficiently generated reactive oxygen species (ROS) under blue-light irradiation (420 ± 20 nm) and possessed a unimodal size distribution of 20–70 nm in diameter. The antimicrobial performance of the synthetized agents was examined against Gram-negative and Gram-positive bacteria. After a short-term incubation of microorganisms with nanomaterials (at 1 g/L) and irradiation with blue-light at a dose of 10 J/cm2, 2–3 logs of Escherichia coli, and 3–4 logs of Staphylococcus aureus were inactivated. A further decrease in bacteria viability was observed after potentiation photodynamic inactivation (PDI), either by H2O2 or KI, resulting in complete microorganism eradication even when using low material concentration (from 0.1 g/L). SEM analysis of bacteria morphology after each mode of PDI suggested different mechanisms of cellular disruption depending on the type of generated oxygen and/or iodide species. These data suggest that TiO2-based materials modified with sulfonated porphyrins are efficient photocatalysts that could be successfully used in biomedical strategies, most notably, photodynamic inactivation of microorganisms

Engendering access to justice for development in SubSaharan Africa: a study of policy, programming and implementation

Building on the book "Gender, poverty and access to justice: policy implementation in Sub-Saharan Africa" (Lawson, Dubin and Mwambene (eds) (2020), this special volume of essays is the result of the Conference in Cape Town (October 2019), whose main objective was to investigate the intersection of gendered access to justice, poverty and disempowerment across Sub-Saharan Africa (SSA), and provide field-based research and discussions on what does and does not work to improve justice for women and girls in the region. Authors' contributions are designed to be practice and action oriented, drawing on lessons and experiences from programmes and policies that work, and show real potential for their sustainable scalability. In this regard, the essays in this volume reflect a broad spectrum of multi-disciplinary contributions, including from policy makers and development practitioners, as well as representatives from local and international civil society organizations, the private sector, academe and the general public. These contributions are structured around the following five key areas: Integrating Justice Programming into the Sustainable Developmental Goals (SDGs); Informal Institutions, Rights and Laws in Sub- Saharan Africa; Women, Children and Access to Justice for Sustainable Development; Policies and Practices for Engendering Justice and Empowerment for Poverty Reduction; and Gender, and Poverty and Justice Policies in SSA: Lessons from the Field? The central objective of all the contributions, however, is to profile recent developments and experiences in furthering gendered access to justice in the SSA context, and to distil from them future trends for SSA's access to justice, and the specific role stakeholders can play therein

DNA structures decorated with cathepsin G/secretory leukocyte proteinase inhibitor stimulate IFNI production by plasmacytoid dendritic cells

Plasmacytoid dendritic cells (pDCs) and neutrophils are detected in psoriatic skin lesions and implicated in the pathogenesis of psoriasis. pDCs specialize in the production of type I interferon (IFNI), a cytokine that plays an important role in chronic autoimmune-like inflammation, including psoriasis. Here, we demonstrate that IFNI production in pDCs is stimulated by DNA structures containing the neutrophil serine protease cathepsin G (CatG) and the secretory leukocyte protease inhibitor (SLPI), which is a controlling inhibitor of serine proteases. We also demonstrate the presence of neutrophil-derived DNA structures containing CatG and SLPI in lesional skin samples from psoriasis patients. These findings suggest a previously unappreciated role for CatG in psoriasis by linking CatG and its inhibitor SLPI to the IFNI-dependent regulation of immune responses by pDCs in psoriatic skin

Polymorphism, genetic exchange and intragenic recombination of the aureolysin gene among Staphylococcus aureus strains

<p>Abstract</p> <p>Background</p> <p><it>Staphylococcus aureus </it>expresses several proteases, which are thought to contribute to the virulence of this bacterium. Here we focus on aureolysin, the major thermolysin-like metalloprotease. Despite the importance of aureolysin in the physiology and pathogenesis of <it>S. aureus</it>, relatively little information was so far available concerning the <it>aur </it>gene diversity and mobility within and between the major subdivisions of the <it>S. aureus </it>population. Therefore, an epidemiologically and genetically diverse collection of <it>S. aureus </it>strains was used to determine the range of aureolysin (<it>aur</it>) gene polymorphism.</p> <p>Results</p> <p>Sequence analyses support the conclusion that the <it>aur </it>gene occurs in two distinct types of related sequences. The <it>aur </it>gene was much more polymorphic but, at the same time, showed higher purifying selection than genes utilized for multilocus sequence typing (MLST). Gene trees constructed from <it>aur </it>and concatenated MLST genes revealed several putative assortative recombination events (<it>i.e</it>. entire <it>aur </it>gene exchanges) between divergent lineages of <it>S. aureus</it>. Evidence for intragenic recombination events (<it>i.e</it>. exchanges of internal <it>aur </it>segments) across <it>aur </it>genes was also found. The biochemical properties and substrate specificity of the two types of aureolysin purified to homogeneity were studied, revealing minor differences in their affinity to low molecular weight synthetic substrates.</p> <p>Conclusion</p> <p>Although numerous nucleotide differences were identified between the <it>aur </it>alleles studied, our findings showed that a strong purifying selection is acting on the <it>aur </it>gene. Moreover, our study distinguishes between homologous exchanges of the entire <it>aur </it>gene (assortative recombination) between divergent <it>S. aureus </it>lineages and recombination events within <it>aur </it>genes.</p