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1. Microbial valorization of underutilized and nonconventional waste streams

   https://doi.org/10.1093/jimb/kuab056  

   Lad, Beena C.; Coleman, Sarah M.; Alper, Hal S. (September 2021, Journal of Industrial Microbiology and Biotechnology)

   Abstract The growing burden of waste disposal coupled with natural resource scarcity has renewed interest in the remediation, valorization, and/or repurposing of waste. Traditional approaches such as composting, anaerobic digestion, use in fertilizers or animal feed, or incineration for energy production extract very little value out of these waste streams. In contrast, waste valorization into fuels and other biochemicals via microbial fermentation is an area of growing interest. In this review, we discuss microbial valorization of nonconventional, aqueous waste streams such as food processing effluents, wastewater streams, and other industrial wastes. We categorize these waste streams as carbohydrate-rich food wastes, lipid-rich wastes, and other industrial wastes. Recent advances in microbial valorization of these nonconventional waste streams are highlighted, along with a discussion of the specific challenges and opportunities associated with impurities, nitrogen content, toxicity, and low productivity. 

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2. Strategies for the Construction of Multicyclic Phage Display Libraries

   https://doi.org/10.1002/cbic.202400072  

   Chen, Fa‐Jie; Pinnette, Nicole; Gao, Jianmin (April 2024, ChemBioChem)

   Abstract Peptide therapeutics have gained great interest due to their multiple advantages over small molecule and antibody‐based drugs. Peptide drugs are easier to synthesize, have the potential for oral bioavailability, and are large enough to target protein‐protein interactions that are undruggable by small molecules. However, two major limitations have made it difficult to develop novel peptide therapeutics not derived from natural products, including the metabolic instability of peptides and the difficulty of reaching antibody‐like potencies and specificities. Compared to linear and disulfide‐monocyclized peptides, multicyclic peptides can provide increased conformational rigidity, enhanced metabolic stability, and higher potency in inhibiting protein‐protein interactions. The identification of novel multicyclic peptide binders can be difficult, however, recent advancements in the construction of multicyclic phage libraries have greatly advanced the process of identifying novel multicyclic peptide binders for therapeutically relevant protein targets. This review will describe the current approaches used to create multicyclic peptide libraries, highlighting the novel chemistries developed and the proof‐of‐concept work done on validating these libraries against different protein targets. 

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3. Germination of Diploid True Potato Seeds is Affected by Seed Treatment Methods and Time After Extraction but not Seed Extraction Methods

   https://doi.org/10.1007/s12230-025-09995-5  

   Balderrama, Daniel; Brown-Donovan, Kristen; Williams, Noah; Spencer, Diana; Collins, Paul; Tan, Ek Han (April 2025, American Journal of Potato Research)

   The use of true potato seed (TPS) is fundamental to potato breeding and research, but can be hindered by poor germination and seed dormancy. TPS germination studies had focused mainly on seed treatment methods after seed extraction and not in combination with the seed extraction methods used. In potato, TPS extraction using water, using yeast fermentation or using sodium bicarbonate are common, but TPS extraction using dilute aqueous hydrochloric acid (HCl) followed by bleach treatment (3% sodium hypochlorite) had never been tested in potato even though this is standard practice for tomato seeds. Therefore, three seed extraction methods (water, 0.1 M HCl, and 0.8% yeast fermentation) in combination with three seed treatment methods (water, 1500 ppm GA3, and 3% sodium hypochlorite) were tested on diploid TPS at 1 week and 1 month after seed extraction. TPS treated with GA3 improved germination for both 1 week- and 1 month-old seeds, while TPS treated with 3% sodium hypochlorite only improved germination for 1 month-old seeds. This study shows that TPS extraction using water, yeast or HCl had no effect on germination, but supports the use of GA3 or bleach to promote TPS germination. 

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4. A Review of the Applications, Environmental Release, and Remediation Technologies of Per- and Polyfluoroalkyl Substances

   https://doi.org/10.3390/ijerph17218117  

   Meegoda, Jay N.; Kewalramani, Jitendra A.; Li, Brian; Marsh, Richard W. (November 2020, International Journal of Environmental Research and Public Health)

   null (Ed.)

   Per- and polyfluoroalkyl substances (PFAS) are pollutants that have demonstrated a high level of environmental persistence and are very difficult to remediate. As the body of literature on their environmental effects has increased, so has regulatory and research scrutiny. The widespread usage of PFAS in industrial applications and consumer products, complicated by their environmental release, mobility, fate, and transport, have resulted in multiple exposure routes for humans. Furthermore, low screening levels and stringent regulatory standards that vary by state introduce considerable uncertainty and potential costs in the environmental management of PFAS. The recalcitrant nature of PFAS render their removal difficult, but existing and emerging technologies can be leveraged to destroy or sequester PFAS in a variety of environmental matrices. Additionally, new research on PFAS remediation technologies has emerged to address the efficiency, costs, and other shortcomings of existing remediation methods. Further research on the impact of field parameters such as secondary water quality effects, the presence of co-contaminants and emerging PFAS, reaction mechanisms, defluorination yields, and the decomposition products of treatment technologies is needed to fully evaluate these emerging technologies, and industry attention should focus on treatment train approaches to improve efficiency and reduce the cost of treatment. 

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5. From the organismal to biosphere levels: environmental impacts on the amphibian microbiota

   https://doi.org/10.1093/femsre/fuad002  

   Hernández-Gómez, Obed; Hua, Jessica (February 2023, FEMS Microbiology Reviews)

   Abstract This review summarizes the role of environmental factors on amphibian microbiotas at the organismal, population, community, ecosystem, and biosphere levels. At the organismal-level, tissue source, disease status, and experimental manipulations were the strongest predictors of variation in amphibian microbiotas. At the population-level, habitat quality, disease status, and ancestry were commonly documented as drivers of microbiota turnover. At the community-level, studies focused on how species’ niche influence microbiota structure and function. At the ecosystem-level, abiotic and biotic reservoirs were important contributors to microbiota structure. At the biosphere-level, databases, sample banks, and seminatural experiments were commonly used to describe microbiota assembly mechanisms among temperate and tropical amphibians. Collectively, our review demonstrates that environmental factors can influence microbiotas through diverse mechanisms at all biological scales. Importantly, while environmental mechanisms occurring at each of the different scales can interact to shape microbiotas, the past 10 years of research have mostly been characterized by targeted approaches at individual scales. Looking forward, efforts considering how environmental factors at multiple organizational levels interact to shape microbiota diversity and function are paramount. Generating opportunities for meaningful cross-disciplinary interactions and supporting infrastructure for research that spans biological scales are imperative to addressing this gap. 

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