CCM2-Artigos (em revistas ou actas indexadas)
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- Special issue: emerging topics in metal complexes: pharmacological activity, 2nd editionPublication . Ścibior, Agnieszka; Aureliano, Manuel; Llopis, JuanThis Special Issue (SI), titled “Emerging Topics in Metal Complexes: Pharmacological Activity, 2nd Edition”, includes reports updating our knowledge about magnesium (Mg) and neurodegeneration, various metal-containing complexes in terms of their potential therapeutic applications (i.e., ruthenium (Ru), platinum (Pt), zinc (Zn), vanadium (V), copper (Cu), magnesium (Mg), and other metal complexes and their mechanisms in treating Alzheimer’s disease (AD)), and the efficacy of platinum (Pt)-based complexes in the treatment of lung cancer. It also includes research into a promising radiotheranostic agent against prostate cancer and a novel Fe(III)-pyridoxal-derivative complex with serum proteins and DNA binding activities. In addition, this SI provides valuable findings on the efficacy of methylene blue (MB) in protecting the heart from doxorubicin (Dox)-induced damage and addresses the identification of key active constituents in Eucommia ulmoides Oliv. leaves (EUOL) against Parkinson’s disease (PD) and their underlying mechanisms. The scientific articles making up this SI, i.e., three review articles and four original papers (seven in total), have garnered a total of 16 citations and 17,528 views, indicating an average of 2 citations and 2,504 views per publication (29 November 2025). Figure 1 summarizes the issues included in this SI.
- Bioprospecting of natural products from medicinal plantsPublication . Rodrigues, Maria JoãoThe exploration of natural products derived from medicinal plants that provide an abundance of bioactive compounds has long been a cornerstone of scientific discovery, revolutionizing fields such as medicine, agriculture, and biotechnology [1]. Notable examples include artemisinin, a life-saving antimalarial derived from Artemisia annua [2], and taxol, a chemotherapeutic agent sourced from the Pacific yew tree [3], both of which highlight the immense potential of medicinal plants to address global health challenges. Over the past decade, rapid advancements in analytical techniques, omics technologies, and bioinformatics have significantly improved our ability to uncover and characterize these natural products. Despite these strides, critical challenges persist in the field, including the sustainable utilization of plant resources, the discovery of novel compounds with unique modes of action, and the translation of these findings into practical, real-world applications.
- Tailored bacterial co-cultures improve Tisochrysis lutea growth and nutrient profiles under xenic conditions: a new pathway to improve microalgal productionPublication . Santos, Tamara; da Fonseca Simões, Beatriz; Rossetto, Veronica; Pereira, Hugo; Maia, Inês Beatriz; Oliveira, Marta; Esteves Lopes Navalho, João Carlos; Engelen, Aschwin; Varela, JoãoThe marine haptophyte Tisochrysis lutea is a valuable source of high-value compounds, including polyunsaturated fatty acids like docosahexaenoic acid, and pigments (e.g., fucoxanthin). However, high production costs and variability remain major challenges for its large-scale application in aquaculture, pharmaceuticals, and biotechnology industries. Therefore, strategies to enhance biomass production and quality are actively explored. In natural environments, T. lutea establishes mutualistic interactions with bacteria to obtain essential nutrients such as vitamin B12, yet the role of bacteria in industrial cultures remains poorly understood. In this study, 145 bacterial strains were isolated and taxonomically identified from industrial T. lutea cultures, with members of the class Gammaproteobacteria and Actinomycetia being the most prevalent. Forty isolates were screened individually in co-culture with T. lutea revealing strain-specific effects on growth and biochemical composition. Seven beneficial strains were used to design 21 tailored bacterial blends. Several consortia enhanced biomass production (up to 74 %) and increased key bioactive compounds, particularly methylcobalamin (up to 300 %). These findings demonstrate the potential of tailored bacterial consortia to enhance T. lutea productivity and nutritional quality under production-relevant xenic conditions, enabling strategic microbiome modulation for specific industrial goals.
- Novel bacterial strains for nonylphenol removal in water and sewage sludge: insights from gene expression and toxicityPublication . Lara-Moreno, Alba; Aguilar-Romero, Inés; Madrid, Fernando; Villaverde, Jaime; Carlier, Jorge; Santos, Juan Luís; Alonso, Esteban; Morillo, EsmeraldaAbstract: 4-Nonylphenols (4-NPs) are persistent endocrine disruptors frequently found in wastewater treatment plant (WWTP) effluents and sewage sludge. This study evaluated the ability of eight bacterial strains that were isolated from sewage sludge to degrade 4-n-NP in an aqueous solution. Bacillus safensis CN12, Shewanella putrefaciens CN17, and Alcaligenes faecalis CN8 showed the highest degradation rates, removing 100%, 75%, and 74% of 4-n-NP (10 mg L−1 ), with DT50 values of 0.90, 8.9, and 10.4 days, respectively. Despite the reduction in 4-n-NP concentrations, ecotoxicity assays revealed that the resulting transformation products (TPs) were more toxic than the parent compound. To investigate the potential degradation mechanisms, in silico and gene expression analyses were conducted on B. safensis CN12, revealing a significant upregulation of the multicopper oxidase gene, cotA (7.25-fold), and the ring-cleaving dioxygenase gene, mhqO (13.9-fold). Although the CN12 strain showed potential for mineralization based on gene expression studies, this was not observed in the aqueous solution. However, when 4-n-NP was adsorbed on sludge and treated with CN12 in the presence of hydroxypropyl-β-cyclodextrin (HPBCD) as a bioavailability enhancer, mineralization reached up to 33%, indicating a synergistic effect with the native sludge microbiota.
- Selected papers from the XXI SPB national congress of biochemistry 2021Publication . Aureliano, Manuel; Cancela, M. Leonor; Costa, Ana R.; Antunes, Célia M.The XXI SPB National Congress of Biochemistry 2021 was held at the University of Évora in Portugal on 14–16 October 2021. Under challenging conditions, due to the COVID-19 pandemic, we managed to organize the National Congress of Biochemistry in a hybrid format, where at least 2/3 of the participants (130) came to Évora in person. With the pandemic under control, we carried out the Congress both successfully and safely. This was the main meeting point for Portuguese Biochemistry Society (SPB), fostering the discussion and dissemination of high-quality research in biochemistry, both fundamental and applied, taking place in Portugal. The scientific program under the title “Tuning Biochemistry with Life Sciences and Society” covered a broad range of boundaries, ranging from molecular mechanisms of diseases to drug discovery, as well as innovative biochemistry projects. Science and innovation were promoted through dialogue, sharing, and healthy confraternization.
- Unravelling the chemical nature of the spawning-inducing pheromone (SIP) in the pacific oyster (Magallana gigas)Publication . Rato, Ana Cláudia Nunes; sandra, Joaquim; Matias, Domitília; Hubbard, PeterIn external fertilisation, spawning synchrony is often mediated by pheromones. However, their chemical nature is rarely well-established; this is particularly true for bivalves. This study used an electrophysiological technique—the electro-osphradiogram (EOsG)—to investigate the spawning-inducing pheromone (SIP) in the Pacific oyster (Magallana gigas), a species of economic and environmental relevance. Recording the electrophysiological response of the osphradium to conspecific sperm milt and its fractions, we show that the SIP is multicomponent, likely proteinaceous—with at least one component linked to the spermatozoa and the other components in free solution—and all resistant to freezing. At least three active components are involved: one of about 35 kDa, one between 3 and 10 kDa and one of less than 3 kDa. All three, alone, evoke responses from the osphradium, but all three must probably be present to evoke the full biological response—gamete release— in the receiver. All three are likely polar; none were retained by a range of solid-phase extraction cartridges. We suggest that the EOsG will be useful to isolate and identify the individual components of the oyster SIP. Successful identification of the SIP will represent an important step towards more sustainable and efficient bivalve hatchery practices.
- 2024 Annual meeting of the international network on ectopic calcification (INTEC)—abstract proceedingsPublication . Cancela, M. Leonor; Alouane, Ahmed; Bertelli, Pietro M.; Camacho, Antonio; Derudder, Robbe; Forlino, Antonella; Harris, Matthew P.; Jacinto, Marta; Lengyel, Imre; Link, Wolfgang; Murshed, Monzur; Pasch, Andreas; Kaliya-Perumal, Arun-Kumar; Quaglino, Daniela; Qin, Zihan; Sabbagh, Yves; Seminari, Elena; Villar, Marcos M.; Winkler, Christoph; Vanakker, Olivier M.The 3rd Annual Meeting of the International Network on Ectopic Calcification (INTEC) was held in Faro, Portugal on 12–13 September 2024. This hybrid meeting brought together researchers and clinicians focused on the molecular, (patho)physiological, and clinical aspects of ectopic calcification in hereditary and acquired conditions, as well as in aging. The findings presented in this year’s meeting emphasised the complexity of the field, offering new insights into both mechanistic pathways and translational hurdles. The abstracts of this year’s meeting are collected in this conference paper, with permission from the corresponding authors.
- Transcriptomic profiling of zebrafish mutant for cdkl5 reveals dysregulated gene expression associated with neuronal, muscle, visual and skeletal developmentPublication . Varela, Tatiana da Conceição Domingos ; Domingos Varela, Débora Cristina; Conceição, Natércia; Cancela, M. LeonorZebrafish is a well-recognized model for studying human genetic disorders. Recently, we proposed the homozygous cdkl5sa21938 mutant zebrafish as a model of CDKL5 deficiency disorder (CDD), a developmental epileptic encephalopathy with diverse symptoms. This study aimed to explore Cdkl5-associated molecular mechanisms in zebrafish and assess their similarity to those in mammals. We conducted RNA sequencing on whole cdkl5−/− zebrafish and wild-type siblings at 5- and 35-days post-fertilization (dpf) to compare their gene expression profiles. Most significant differentially expressed genes (DEGs) were related to muscle, neuronal, and visual systems which are affected in CDD. Gene Ontology analysis revealed downregulated DEGs enriched in muscle development, extracellular matrix, and actin cytoskeleton functions at both stages, while upregulated DEGs were enriched in eye development functions at 35 dpf. The Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis revealed enrichment of downregulated DEGs in focal adhesion and extracellular matrix (ECM)-receptor interaction pathways at both stages. Neuronal development DEGs were mainly downregulated at both stages, while synaptic signaling DEGs were upregulated at 35 dpf. Crossing cdkl5−/− mutants with the Hb9:GFP transgenic line showed fewer motor neuron cells with shorter axons compared to the wild type, which may explain the impaired motor phenotype observed in zebrafish and CDD patients. Moreover, we identified key downregulated DEGs related to cartilage development at both stages and bone development at 35 dpf, potentially explaining the skeletal defects seen in zebrafish and CDD individuals. In conclusion, Cdkl5 loss in zebrafish leads to dysregulation of genes involved in CDKL5-associated functions in mammals, providing new insights into its less studied functions and phenotypes.
- Towards the rational use of plastic packaging to reduce microplastic pollution: a mini reviewPublication . Athanasopoulou, Evmorfia; Power, Deborah Mary; Flemetakis, Emmanouil; Tsironi, TheofaniaPlastic pollution has been recognized as an emerging risk for the aquatic environment. Shifting from the prevailing linear “take-make-dispose” model to a “circular” economy framework is essential for mitigating the environmental impact of plastics. Microplastics (MPs) in the natural environment are formed when synthetic polymers are fragmented and micronized to a size ≤ 5 mm. MPs are a global environmental problem, particularly within aquatic ecosystems, due to their persistence, accumulation, and uncertain long-term effects. This review examines the degradation pathways of polymers that result in MP formulation, their rate and distribution across ecosystems, and their potential entry into food systems. Key challenges include a lack of standardized detection methods, specifically for nanoparticles; limited evidence of long-term toxicity; and the inefficiency of current waste management frameworks. Emphasis is placed on the cradle-to-grave lifecycle of plastic materials, highlighting how poor design, excessive packaging, and inadequate postconsumer treatment contribute to MP release. The transition from Directive 94/62/EC to the new Regulation (EU) 2025/40 marks a significant policy shift towards stronger preventive measures. In line with the waste hierarchy and reduction in unnecessary packaging and plastic use, effective recycling must be supported by appropriate collection systems, improved separation processes, and citizen education to prevent waste and improve recycling rates to minimize the accumulation of MPs in the environment and reduce health impacts. This review identifies critical gaps in current knowledge and suggests crucial approaches in order to mitigate MP pollution and protect marine biodiversity and public health.
- Tracking tourism waves: insights from automatic identification system (AIS) data on maritime–coastal activitiesPublication . Ramos, Jorge; Drakeford, Benjamin; Costa, Joana; Madiedo Camelo, Ana Maria; Leitão, FranciscoAbstract: The demand for maritime–coastal tourism has been intensifying, but its offerings are sometimes limited to a few activities. Some of these activities do not require specific skills or certifications, while others do. This study aimed to investigate what type of activities are carried out by tourism and recreational vessels in the coastal area of the central Algarve (Portugal). To this end, data from the automatic identification system (AIS) of recreational vessels was used to monitor and categorise these activities in a non-intrusive manner. A model (TORMA) was defined to facilitate the analysis of AIS data and relate them to five independent variables (distance from the coast, boat speed, bathymetry, seabed type, and number of pings). The results of the analysis of more than 11 thousand hourly AIS records for passenger, sailing, and charter vessels showed that the 14 most regular ones had strong seasonal patterns, greater intensity in summer, and spatial patterns with more records near some coastal cliffs. This study provides valuable information on the management of motorised nautical activities near the coast and at sea, contributing to more informed and effective tourism regulation and planning.