Proteomics: An Essential Tool to Study Plant-Specialized Metabolism DOI Creative Commons

María José Martínez‐Esteso,

Jaime Morante Carriel, Antonio Samper-Herrero

et al.

Biomolecules, Journal Year: 2024, Volume and Issue: 14(12), P. 1539 - 1539

Published: Nov. 30, 2024

Plants are a valuable source of specialized metabolites that provide plethora therapeutic applications. They natural defenses plants use to adapt and respond their changing environment. Decoding biosynthetic pathways understanding how plant (SPMs) biotic or abiotic stress will vital knowledge for biology research its application the future sustainable production many SPMs interest. Here, we focus on proteomic approaches strategies help with study plant-specialized metabolism, including the: (i) discovery key enzymes clarification pathways; (ii) interconnection both primary (providers carbon energy SPM production) (secondary) metabolism; (iii) responses stress; (iv) regulatory mechanisms direct pathways. Proteomics, as exemplified in this review by studies performed date, is powerful tool forms part omics-driven research. The proteomes analysis provides an additional unique level information, which absent from any other omics studies. Thus, integrative analysis, considered versus single moves us more closely toward closer interpretation real cellular processes. Finally, work highlights advanced technologies immediate applications field.

Language: Английский

Get the Ball Rolling: Update and Perspective on the Role of Chloroplast Plastoglobule-associated Protein under Abiotic Stress DOI Creative Commons
Sheng Ying

Journal of Experimental Botany, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 11, 2025

Abstract Plastid-localized plastoglobules (PGs) are monolayer lipid droplets typically associated with the outer envelope of thylakoid membranes in chloroplasts. The size and number PGs can vary significantly response to different environmental stimuli. Since early 21st century, a variety proteins attached surface have been identified experimentally characterized using advanced biotechnological techniques, revealing their biological functions. This article aims review latest discoveries regarding PG-associated explore dynamics under both single combined abiotic stress conditions, providing insights into critical role plastid plant adaptation global climate-related challenges.

Language: Английский

Citations

0
Single-cell transcriptomics: a new frontier in plant biotechnology research DOI
Shilpy Singh,

Afsana Praveen,

Namrata Dudha

et al.

Plant Cell Reports, Journal Year: 2024, Volume and Issue: 43(12)

Published: Nov. 25, 2024

Language: Английский

Citations

1
Proteomics: An Essential Tool to Study Plant-Specialized Metabolism DOI Creative Commons

María José Martínez‐Esteso,

Jaime Morante Carriel, Antonio Samper-Herrero

et al.

Biomolecules, Journal Year: 2024, Volume and Issue: 14(12), P. 1539 - 1539

Published: Nov. 30, 2024

Plants are a valuable source of specialized metabolites that provide plethora therapeutic applications. They natural defenses plants use to adapt and respond their changing environment. Decoding biosynthetic pathways understanding how plant (SPMs) biotic or abiotic stress will vital knowledge for biology research its application the future sustainable production many SPMs interest. Here, we focus on proteomic approaches strategies help with study plant-specialized metabolism, including the: (i) discovery key enzymes clarification pathways; (ii) interconnection both primary (providers carbon energy SPM production) (secondary) metabolism; (iii) responses stress; (iv) regulatory mechanisms direct pathways. Proteomics, as exemplified in this review by studies performed date, is powerful tool forms part omics-driven research. The proteomes analysis provides an additional unique level information, which absent from any other omics studies. Thus, integrative analysis, considered versus single moves us more closely toward closer interpretation real cellular processes. Finally, work highlights advanced technologies immediate applications field.

Language: Английский

Citations

0