Overview
Biochemistry membrane proteins and energy transduction refers to the study of specialized proteins embedded in cellular membranes that facilitate the conversion and transfer of energy necessary for life processes. These proteins enable critical functions including ion transport, electron transfer, and the generation of chemical energy gradients that power cellular work. Research published in this journal examines how membrane protein systems respond to environmental stressors that challenge energy homeostasis in living organisms. Specifically, investigations have explored the proteomic and physiological changes in cereal crop plants subjected to drought and salt stress conditions, revealing how membrane-associated proteins adapt to maintain energy transduction processes under adverse circumstances. This research area holds significance for both fundamental biology and applied biotechnology, as understanding membrane protein function under stress conditions informs strategies for developing stress-tolerant crops and elucidates the molecular mechanisms underlying cellular energy management. The intersection of membrane biochemistry with stress physiology provides insights into how organisms regulate energy-dependent processes when environmental conditions threaten normal cellular function, with implications for agricultural productivity and our broader understanding of adaptive biological responses.
Research published in this journal
1 peer-reviewed article, ranked by relevance. Each links to its DOI.
How this research is being cited
The 1 article above has been cited 7 times in the scholarly literature. Citation data via OpenAlex and Crossref, updated Jun 2026.
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A. B. M. Gulzar et al. · 2023 · Gesunde Pflanzen
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2023 · Gesunde Pflanzen
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A. Hossain et al. · 2022 · Plant Perspectives to Global Climate Changes
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2022 · Plant Genetic Researches
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Hiba M. Alkharabsheh et al. · 2021 · Agronomy
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2021 · Elsevier eBooks
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2021 · Agronomy
A sample of recent works citing this journal's research on Biochemistry Membrane Proteins and Energy Transduction, linking to each citing work.