Your search keyword '"Stress metabolites"' showing total 4 results

1. Phytochromes control metabolic flux, and their action at the seedling stage determines adult plant biomass

Author

Johanna Krahmer, Regina Feil, Karen J. Halliday, Nicole Krohn, Ammad Abbas, James J Furniss, Saleh Alseekh, Thiago Alexandre Moraes, Toshihiro Obata, Virginie Mengin, Hirofumi Ishihara, Alisdair R. Fernie, Mark Stitt, Maria Grazia Annunziata, and Andrés Romanowski

Subjects

stress metabolites, food.ingredient, Light, Physiology, Mutant, Biomass, Plant Science, Biology, Cell wall, food, 13C labelling, Phytochrome B, Stress, Physiological, growth modelling, Proline, phytochrome, Phytochrome, plant growth, Metabolism, metabolic flux, biology.organism_classification, Cell biology, Seedlings, C labelling, Seedling, Cotyledon

Abstract

Phytochrome photoreceptors are known to regulate plastic growth responses to vegetation shade. However, recent reports also suggest an important role for phytochromes in carbon resource management, metabolism, and growth. Here, we use 13CO2 labelling patterns in multiallele phy mutants to investigate the role of phytochrome in the control of metabolic fluxes. We also combine quantitative data of 13C incorporation into protein and cell wall polymers, gas exchange measurements, and system modelling to investigate why biomass is decreased in adult multiallele phy mutants. Phytochrome influences the synthesis of stress metabolites such as raffinose and proline, and the accumulation of sugars, possibly through regulating vacuolar sugar transport. Remarkably, despite their modified metabolism and vastly altered architecture, growth rates in adult phy mutants resemble those of wild-type plants. Our results point to delayed seedling growth and smaller cotyledon size as the cause of the adult-stage phy mutant biomass defect. Our data signify a role for phytochrome in metabolic stress physiology and carbon partitioning, and illustrate that phytochrome action at the seedling stage sets the trajectory for adult biomass production.

Published

2021

2. Juvenile moose stress and nutrition dynamics related to winter ticks, landscape characteristics, climate-mediated factors and survival

Author

Cedric Alexander, Scott Creel, Nick Fortin, Katherina Gieder, Joshua Blouin, Will Rogers, Therese M. Donovan, Jacob DeBow, Elias Rosenblatt, and James D. Murdoch

Subjects

0106 biological sciences, Tick infestation, winter tick, Physiology, media_common.quotation_subject, Zoology, Management, Monitoring, Policy and Law, Tick, survival, 010603 evolutionary biology, 01 natural sciences, moose, medicine, Juvenile, nutritional restriction, Feces, Nature and Landscape Conservation, media_common, biology, Stress metabolites, 010604 marine biology & hydrobiology, Ecological Modeling, biology.organism_classification, medicine.disease, Deciduous, Habitat, Physiological monitoring, AcademicSubjects/SCI00840, Reproduction, non-invasive sampling, Research Article

Abstract

Lay Summary: We studied moose calves to investigate the links between stress and nutrition, a detrimental parasite during challenging winter conditions and winter survival. We identified several covariates related to fecal glucocorticoid metabolite concentrations and urea nitrogen:creatinine ratios and linked these physiological metrics to a survival rate., Moose populations in the northeastern United States have declined over the past 15 years, primarily due to the impacts of winter ticks. Research efforts have focused on the effects of winter tick infestation on moose survival and reproduction, but stress and nutritional responses to ticks and other stressors remain understudied. We examined the influence of several environmental factors on moose calf stress hormone metabolite concentrations and nutritional restriction in Vermont, USA. We collected 407 fecal and 461 snow urine samples from 84 radio-collared moose calves in the winters of 2017–2019 (January–April) to measure fecal glucocorticoid metabolites (fGCM) concentrations and urea nitrogen:creatinine (UN:C) ratios. We used generalized mixed-effects models to evaluate the influence of individual condition, winter ticks, habitat, climate and human development on stress and nutrition in calf moose. We then used these physiological data to build generalized linear models to predict calf winter survival. Calf fGCM concentrations increased with nutritional restriction and snow depth during adult winter tick engorgement. Calf UN:C ratios increased in calves with lighter weights and higher tick loads in early winter. Calf UN:C ratios also increased in individuals with home ranges composed of little deciduous forests during adult winter tick engorgement. Our predictive models estimated that winter survival was negatively related to UN:C ratios and positively related to fGCM concentrations, particularly in early winter. By late March, as winter ticks are having their greatest toll and endogenous resources become depleted, we estimated a curvilinear relationship between fGCM concentrations and survival. Our results provide novel evidence linking moose calf stress and nutrition, a problematic parasite and challenging environment and winter survival. Our findings provide a baseline to support the development of non-invasive physiological monitoring for assessing environmental impacts on moose populations.

Published

2021

3. Endophytes from wild cereals protect wheat plants from drought by alteration of physiological responses of the plants to water stress

Author

Amir Sharon, Gemma Camañes, Or Sharon, Pilar García-Agustín, Eugenio Llorens, and Ministry of Science, Technology and Space, Israel

Subjects

Plant growth, Drought tolerance, Microbiology, Crop, 03 medical and health sciences, Metabolomics, Botany, Endophytes, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, biology, 030306 microbiology, Acremonium, Stress metabolites, Water stress, fungi, Sarocladium, food and beverages, Metabolic response, biology.organism_classification, Physiological responses, Plant development, Wild wheat, Wheat

Abstract

Endophytes contribute to plant performance, especially under harsh conditions. We therefore hypothesized that wild plants have retained beneficial endophytes that are less abundant or not present in related crop plants. To test this hypothesis, we selected two endophytes that were found in Sharon goatgrass, an ancestor of wheat, and tested their effect on bread wheat. Both endophytes infected wheat and improved sustainability and performance under water-limited conditions. To determine how the endophytes modify plant development, we measured parameters of plant growth and physiological status and performed a comparative metabolomics analysis. Endophyte-treated wheat plants had reduced levels of stress damage markers and reduced accumulation of stress-adaptation metabolites. Metabolomics profiling revealed significant differences in the response to water stress of endophyte-treated plants compared with untreated plants. Our results demonstrate the potential of endophytes from wild plants for improvement of related crops and show that the beneficial effects of two endophytes are associated with alteration of physiological responses to water-limited conditions.

Published

2019

4. Sensory meat quality, ultimate pH values, blood metabolites and carcass parametersin reindeer (Rangifer tarandus tarandus L.) fed various diets

Author

Birgitta Åhman, Eva Wiklund, and Anna Nilsson

Subjects

stress metabolites, Silage, urea, Cortisol, meat quality, Stress Physiology, Reindeer Husbandry, Reindeer, chemistry.chemical_compound, Carcass weight, Animal science, biology.animal, Lichen, ASAT, lcsh:SF1-1100, biology, business.industry, Free access, General Medicine, ultimate pH, Biotechnology, Rangifer tarandus tarandus, Longissimus, Blood chemistry, chemistry, Urea, carcass quality, sensory quality, lcsh:Animal culture, business

Abstract

This investigation was made to study and compare the effects of different diets on sensory meat quality and ultimate pH values in reindeer muscles and to relate stress-induced blood metabolites and carcass parameters to the meat quality traits measured. Altogether 23 female reindeer calves were included in the study. During an adaptation period, all reindeer were allowed free access to a mimicked natural diet containing 80% lichens (lichen diet). On January 28, 8 reindeer (group Cjan) were slaughtered. Five reindeer (group C.Mar) were allowed continuous free access to the lichen diet throughout the experiment. During 8 days, the other reindeer (groups PL and PS) were given the lichen diet, half of the amount offered to the control group, and were then starved for one day. Thereafter, these reindeer were fed 80% commercial reindeer feed (pellets) and either 20% lichens (group PL), or 20% silage (group PS) for 5 weeks. After this, all animals were slaughtered. The average carcass weight and dressing percentage in the group fed commercial reindeer feed and lichens (PL) were higher than in group CMar- Fat registrations were generally higher in groups PL and PS than in the groups Cj2n and CMar- Ultimate pH values in M. triceps brachii and M. longissimus were significantly lower in the group CMST than in PL. The levels of all blood metabolites (urea, ASAT and Cortisol) were generally higher in groups PL and PS than in groups Cja„ and CMEF- NO significant differences were found in any of sensory attributes of the meat (monitored according to ISO standards). The present study shows that muscle and fat depots in reindeer can be improved by feeding a diet based on reindeer pellets but suggests that a feeding period of 35 days might be too short to affect the sensory properties of reindeer meat.

Published

2000