Your search keyword '"Molina‐Montenegro, Marco A."' showing total 2 results

1. Climate change and epigenetics: Unraveling the role of methylation in response to thermal instability in the Antarctic plant Colobanthus quitensis.

Author

Hereme R, Galleguillos C, and Molina-Montenegro MA

Subjects

Antarctic Regions, Acclimatization genetics, Cold Temperature, Temperature, Climate Change, Epigenesis, Genetic, DNA Methylation genetics, Gene Expression Regulation, Plant

Abstract

Low temperatures are one of the critical conditions affecting the performance and distribution of plants. Exposure to cooling results in the reprogramming of gene expression, which in turn would be mediated by epigenetic regulation. Antarctica is known as one of the most severe ecosystems, but several climate models predict an increase in average temperature, which may positively impact the development of Antarctic plants; however, under warmer temperatures, plants' vulnerability to damages from low-temperature events increases. Here, we evaluated the impact of these events on the acclimation process, with a focus on how methylation influences the induction of cold response genes. According to the results, an increase in the number of methylations in the promoter regions is associated with lower expression of these genes. Similarly, in populations where this relationship is observed, individuals acclimated to the projected climate change condition are more vulnerable, as their average temperature is lower in the face of a cold event compared to individuals acclimated to the current antarctic condition. This research is the first report highlighting the role of methylation in response to cold and its influence on the transcriptional responses of the antarctic plant Colobanthus quitensis facing climate change projections., (© 2025 Scandinavian Plant Physiology Society.)

Published

2025

2. Fungal endophytes modulate the negative effects induced by Persistent Organic Pollutants in the antarctic plant Colobanthus quitensis.

Author

Egas C, Ballesteros G, Galbán-Malagón C, Luarte T, Guajardo-Leiva S, Castro-Nallar E, and Molina-Montenegro MA

Subjects

Antarctic Regions, Oxidative Stress, Photosynthesis, Symbiosis, Fungi physiology, Endophytes physiology

Abstract

Antarctica has one of the most sensitive ecosystems to the negative effects of Persistent Organic Pollutants (POPs) on its biodiversity. This is because of the lower temperatures and the persistence of POPs that promote their accumulation or even biomagnification. However, the impact of POPs on vascular plants is unknown. Moreover, fungal symbionts could modulate the effects on host plants to cope with this stress factor. This study investigates the molecular and ecophysiological responses of the Sub-Antarctic and Antarctic plant Colobanthus quitensis to POPs in different populations along a latitudinal gradient (53°- 67° S), emphasizing the role of endophytic fungi. The results show that exposure of POPs in C. quitensis generates oxidative stress and alters its ecophysiological performance. Nevertheless, C. quitensis in association with fungal endophytes and POPs exposure, shows lower lipid peroxidation, higher proline content and higher photosynthetic capacity, as well as higher biomass and survival percentage, compared to plants in the absence of fungal endophytes. On the other hand, the antarctic plant population (67°S) with endophytic fungi presents better stress modulating upon POPs exposure. Endophytic fungi would be more necessary for plant performance towards higher latitudes with extreme conditions, contributing significantly to their general functional adaptation. We develop a transcriptomics analyses n the C. quitensis-fungal endophytes association from the Peninsula population. We observed that fungal endophytes promote tolerance to POPs stress through upregulated genes for the redox regulation based on ascorbate and scavenging mechanisms (peroxidases, MDAR, VTC4, CCS), transformation (monooxygenases) and conjugation of compounds or metabolites (glutathione transferases, glycosyltransferases, S-transferases), and the storage or elimination of conjugates (ABC transporters, C and G family) that contribute to detoxification cell. This work highlights the contribution of endophytic fungi to plant resistance in situations of environmental stress, especially in extreme conditions such as in antarctica exposed to anthropogenic impact. The implications of these findings are relevant for the biosecurity of one of the last pristine bastions worldwide., (© 2025 Scandinavian Plant Physiology Society.)

Published

2025