PRESENCIA DE NEMATODOS EN PATRONES DE CÍTRICOS EN ISABELA, PUERTO RICO

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Technical pitfalls and proposed modifications of instructions for use for endovascular aortic aneurysm repair using the Gore Excluder conformable device in angulated and short landing zones

We describe a case of an abdominal aortic aneurysm (AAA) and angulated proximal neck treated with a Gore Excluder conformable endoprosthesis and show relevant technical pitfalls in the deployment of the graft main body. An 82-year-old man presented with a 71-mm asymptomatic AAA with an angulated infrarenal proximal neck (75°) and was referred to our unit. The patient was treated with a 26-mm Gore Excluder conformable device, which was deployed slightly above the renal arteries after precatheterization of the lowest renal artery. The graft was then repositioned with support of the introducer sheath and a stiff guide wire. The proximal sealing zone was ballooned before the endograft delivery system was retrieved to avoid distal migration. Technical success was achieved. The patient was discharged with no complications. No type Ia endoleak was present on the 6-month computed tomography scan. Endovascular treatment of an AAA with a severe angulated proximal neck can be effective with a conformable stent graft if technical measures are used during deployment of the main body to optimize the seal.</p

Extrapolation of design strategies for lignocellulosic biomass conversion to the challenge of plastic waste

The goal of cost-effective production of fuels and chemicals from biomass has been a substantial driver of the development of the field of metabolic engineering. The resulting design principles and procedures provide a guide for the development of cost-effective methods for degradation, and possibly even valorization, of plastic wastes. Here, we highlight these parallels, using the creative work of Lonnie O'Neal (Neal) Ingram in enabling production of fuels and chemicals from lignocellulosic biomass, with a focus on ethanol production as an exemplar process.This is the version of record for the article Jarboe, Laura R., Ammara Khalid, Efrain Rodriguez Ocasio, and Kimia Fashkami Noroozi. "Extrapolation of design strategies for lignocellulosic biomass conversion to the challenge of plastic waste." Journal of Industrial Microbiology and Biotechnology (2022). Available online at DOI: 10.1093/jimb/kuac001. Copyright 2022 The Author(s). Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0). Posted with permission

Survey of non-conventional yeasts for lipid and hydrocarbon biotechnology

Non-conventional yeasts have an untapped potential to expand biotechnology and enable process development necessary for a circular economy. They are especially convenient for the field of lipid and hydrocarbon biotechnology because they offer faster growth than plants, easier scalability than microalgae and exhibit increased tolerance relative to some bacteria. The ability of industrial organisms to import and metabolically transform lipids and hydrocarbons are crucial in such applications. Here, we assessed the ability of 14 yeasts to utilize 18 model lipids and hydrocarbons from six functional groups and three carbon chain lengths. The studied strains covered 12 genera from nine families. Nine non-conventional yeast performed better than Saccharomyces cerevisiae, the most common industrial yeast. Rhodotorula toruloides, Candida maltosa, Scheffersomyces stipis and Yarowia lipolytica were observed to grow significantly better and on more types of lipid and lipid-molecules than other strains. They were all able to utilize mid to long-chain fatty acids, fatty alcohols, alkanes, alkenes and dicarboxylic acids, including 28 previously unreported substrates across the four yeasts. Interestingly, a phylogenetic analysis showed a short evolutionary distance between the R. toruloides and C. maltosa and S. stipitis, even though R. toruloides is classified under a different phylum. This work provides valuable insight into the lipid substrate range of non-conventional yeasts that can inform species selection decisions and viability of lipid feedstocks.This is a pre-copyedited, author-produced version of an article accepted for publication in Journal of Industrial Microbiology and Biotechnology following peer review. The version of record: Rodriguez-Ocasio, Efrain, Ammara Khalid, Charles J. Truka, Mark A. Blenner, and Laura R. Jarboe. "Survey of non-conventional yeasts for lipid and hydrocarbon biotechnology." Journal of Industrial Microbiology and Biotechnology (2022) is available online at DOI: 10.1093/jimb/kuac010. Copyright 2022 The Author(s). Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0). Posted with permission

Reverse engineering of fatty acid-tolerant Escherichia coli identifies design strategies for robust microbial cell factories

Adaptive laboratory evolution is often used to improve the performance of microbial cell factories. Reverse engineering of evolved strains enables learning and subsequent incorporation of novel design strategies via the design-build-test-learn cycle. Here, we reverse engineer a strain of Escherichia coli previously evolved for increased tolerance of octanoic acid (C8), an attractive biorenewable chemical, resulting in increased C8 production, increased butanol tolerance, and altered membrane properties. Here, evolution was determined to have occurred first through the restoration of WaaG activity, involved in the production of lipopolysaccharides, then an amino acid change in RpoC, a subunit of RNA polymerase, and finally mutation of the BasS-BasR two component system. All three mutations were required in order to reproduce the increased growth rate in the presence of 20 mM C8 and increased cell surface hydrophobicity; the WaaG and RpoC mutations both contributed to increased C8 titers, with the RpoC mutation appearing to be the major driver of this effect. Each of these mutations contributed to changes in the cell membrane. Increased membrane integrity and rigidity and decreased abundance of extracellular polymeric substances can be attributed to the restoration of WaaG. The increase in average lipid tail length can be attributed to the RpoCH419P mutation, which also confers tolerance to other industrially-relevant inhibitors, such as furfural, vanillin and n-butanol. The RpoCH419P mutation may impact binding or function of the stringent response alarmone ppGpp to RpoC site 1. Each of these mutations provides novel strategies for engineering microbial robustness, particularly at the level of the microbial cell membrane.This is a manuscript of an article published as Chen, Yingxi, Erin E. Boggess, Efrain Rodriguez Ocasio, Aric Warner, Lucas Kerns, Victoria Drapal, Chloe Gossling, Wilma Ross, Richard L. Gourse, Zengyi Shao, Julie Dickerson, Thomas J. Mansell, and Laura R. Jarboe. "Reverse engineering of fatty acid-tolerant Escherichia coli identifies design strategies for robust microbial cell factories." Metabolic Engineering (2020). DOI: 10.1016/j.ymben.2020.05.001. Posted with permission.</p

The Anti-SARS-CoV-2 IgG1 and IgG3 Antibody Isotypes with Limited Neutralizing Capacity against Omicron Elicited in a Latin Population a Switch toward IgG4 after Multiple Doses with the mRNA Pfizer–BioNTech Vaccine

The aim of this study was to analyze the profiles of IgG subclasses in COVID-19 convalescent Puerto Rican subjects and compare these profiles with those of non-infected immunocompetent or immunocompromised subjects that received two or more doses of an mRNA vaccine. The most notable findings from this study are as follows: (1) Convalescent subjects that were not hospitalized developed high and long-lasting antibody responses. (2) Both IgG1 and IgG3 subclasses were more prevalent in the SARS-CoV-2-infected population, whereas IgG1 was more prevalent after vaccination. (3) Individuals that were infected and then later received two doses of an mRNA vaccine exhibited a more robust neutralizing capacity against Omicron than those that were never infected and received two doses of an mRNA vaccine. (4) A class switch toward the “anti-inflammatory” antibody isotype IgG4 was induced a few weeks after the third dose, which peaked abruptly and remained at high levels for a long period. Moreover, the high levels of IgG4 were concurrent with high neutralizing percentages against various VOCs including Omicron. (5) Subjects with IBD also produced IgG4 antibodies after the third dose, although these antibody levels had a limited effect on the neutralizing capacity. Knowing that the mRNA vaccines do not prevent infections, the Omicron subvariants have been shown to be less pathogenic, and IgG4 levels have been associated with immunotolerance and numerous negative effects, the recommendations for the successive administration of booster vaccinations to people should be revised

Developing a Smoking Cessation Intervention within a Community-Based Participatory Research Framework

Background: While smoking rates in the United States have decreased, some population subgroups have smoking rates that exceed national and state averages. These higher rates often are associated with higher incidence rates of tobacco-associated cancers. Over time, a decrease in smoking rates leads to lower cancer incidence. Methods: Using spatial modelling techniques, we identified an underserved geographic locale in South Florida with higher than expected incidence rates of tobacco-associated cancers. We then used a community-based participatory research (CBPR) design to conduct focus groups in 2011 to elicit information about the acceptability of a smoking cessation intervention delivered by trained former smokers from within peer networks. Results: A variety of smoking cessation strategies was presented and discussed in separate, gender-stratified focus groups comprised of former and current smokers (n = 39). Focus group findings consistently indicated that support groups were the preferred cessation mechanism in this community. Based on this finding, we changed our initially proposed cessation approach to one which employed support groups as a quit method. Conclusions: Currently, we are collecting pilot data to test this intervention and to reach smokers who might not otherwise be directly targeted with cessation messaging from larger tobacco control initiatives. If successful, this strategy can be adapted to effect other important changes in health behaviours in at-risk populations