Javiera Miranda scite author profile

Freshwater ecosystems have been experiencing various forms of threats, mainly since the last century. The severity of this adverse scenario presents unprecedented challenges to human health, water supply, agriculture, forestry, ecological systems, and biodiversity, among other areas. Despite the progress made in various biomonitoring techniques tailored to specific countries and biotic communities, significant constraints exist, particularly in assessing and quantifying biodiversity and its interplay with detrimental factors. Incorporating modern techniques into biomonitoring methodologies presents a challenging topic with multiple perspectives and assertions. This review aims to present a comprehensive overview of the contemporary advancements in freshwater biomonitoring, specifically by utilizing omics methodologies such as genomics, metagenomics, transcriptomics, proteomics, metabolomics, and multi-omics. The present study aims to elucidate the rationale behind the imperative need for modernization in this field. This will be achieved by presenting case studies, examining the diverse range of organisms that have been studied, and evaluating the potential benefits and drawbacks associated with the utilization of these methodologies. The utilization of advanced high-throughput bioinformatics techniques represents a sophisticated approach that necessitates a significant departure from the conventional practices of contemporary freshwater biomonitoring. The significant contributions of omics techniques in the context of biological quality elements (BQEs) and their interpretations in ecological problems are crucial for biomonitoring programs. Such contributions are primarily attributed to the previously overlooked identification of interactions between different levels of biological organization and their responses, isolated and combined, to specific critical conditions.

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Current state of molecular and metabolic strategies for the improvement of L-asparaginase expression in heterologous systems

Lefin

Miranda

Beltrán

et al. 2023

Front. Pharmacol.

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Heterologous expression of L-asparaginase (L-ASNase) has become an important area of research due to its clinical and food industry applications. This review provides a comprehensive overview of the molecular and metabolic strategies that can be used to optimize the expression of L-ASNase in heterologous systems. This article describes various approaches that have been employed to increase enzyme production, including the use of molecular tools, strain engineering, and in silico optimization. The review article highlights the critical role that rational design plays in achieving successful heterologous expression and underscores the challenges of large-scale production of L-ASNase, such as inadequate protein folding and the metabolic burden on host cells. Improved gene expression is shown to be achievable through the optimization of codon usage, synthetic promoters, transcription and translation regulation, and host strain improvement, among others. Additionally, this review provides a deep understanding of the enzymatic properties of L-ASNase and how this knowledge has been employed to enhance its properties and production. Finally, future trends in L-ASNase production, including the integration of CRISPR and machine learning tools are discussed. This work serves as a valuable resource for researchers looking to design effective heterologous expression systems for L-ASNase production as well as for enzymes production in general.

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Current state of molecular and metabolic strategies for the improvement of L-asparaginase expression in heterologous systems

Lefin

Miranda

Beltrán

et al. 2022

Preprint

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L-asparaginase is one of the world’s most in-demand industrial enzymes, mainly due to its therapeutic properties and its use in the food industry. Over the years studies have been conducted to improve its specific activity and reduce side effects, driving new discoveries that promise safer, more efficient, and cheaper drugs for consumers. However, heterologous protein modifications or expression continue to be a problem during production. Therefore, addressing bottlenecks when attempting to express modified and/or heterologous proteins using the rational design of heterologous expression systems with modified hosts could be a promising strategy to improve L-asparaginase production. Problems such as inadequate protein folding, metabolic load on host cells, codon usage bias, repetitive sequences affecting translation, heavy molecular weight and/or multi-membrane domains formation; need great attention during the development of “bio-better” proteins. In this article, we address the current molecular and metabolic strategies that have been developed to improve the heterologous expression of L-asparaginase.

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Javiera Miranda

Current Status of Omics in Biological Quality Elements for Freshwater Biomonitoring

Current state of molecular and metabolic strategies for the improvement of L-asparaginase expression in heterologous systems

Current state of molecular and metabolic strategies for the improvement of L-asparaginase expression in heterologous systems

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