Journal
ANNALS OF APPLIED BIOLOGY
Volume 178, Issue 2, Pages 209-226Publisher
WILEY
DOI: 10.1111/aab.12660
Keywords
abiotic stress; antioxidants; heavy metals; oxidative stress; phytoremediation; polyamines
Categories
Funding
- Fundacao para a Ciencia e a Tecnologia [SFRH/BD/115643/2016, UIDB/05748/2020, UIDP/05748/2020]
- Foundation for Science and Technology
- GreenUPorto
- Fundação para a Ciência e a Tecnologia [SFRH/BD/115643/2016] Funding Source: FCT
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Polyamines play crucial roles in plant cell signaling and protection, impacting plant growth and development. Understanding the effects of polyamines in metal-stressed plants is essential for mitigating the impacts of heavy metal pollution on agricultural productivity and food quality.
Polyamine (PA) metabolism and functions have started to raise attention from plant scientists in the last years. PAs have been investigated for their involvement in plant cell signalling and protection, proving that alterations in their endogenous levels can affect plant growth, development and survival. The recognised roles of PAs in metal-stressed plants are presented and discussed on a case-study basis, for each metal. Bearing in mind that the contamination of soils by heavy metals (HMs) is a growing problem worldwide, it is important to find efficient mechanisms through which agricultural productivity and food quality are safeguarded in a scenario of increased pollution. Making cultivars more tolerant to HM-stress, capable of detoxifying or accumulating them safely, is a goal that will most certainly benefit from researching the functions and applicability of PAs. To date, plant PAs have been recognised for their roles as membrane-, protein- and nucleic acid-stabilisers, as protectors of cellular integrity and photosynthetic machinery, as direct and indirect signalling agents, and as emerging members of the non-enzymatic antioxidant system. Moreover, PAs are not only important in normal plant developmental processes but have also been suggested to induce stress priming, to act as epigenetic regulators of gene expression and to enhance the detoxification and vacuolar compartmentalization of HMs. Although the stress-ameliorating effects of PAs have been widely studied for several abiotic stresses, not much is known regarding their effects on metal induced-stress, except for Cd. This review summarises the available work on the effects of PAs in plants exposed to Cu, Cd, Fe, Mn, Cr, Ni, Hg, Al, Pb and Zn.
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