Your search keyword '"Moleleki, Lucy"' showing total 3 results

1. Effects of plant growth-promoting rhizobacteria on the molecular responses of maize under drought and heat stresses: A review

Author

NOTUNUNU, Iviwe, MOLELEKI, Lucy, ROOPNARAIN, Ashira, and ADELEKE, Rasheed

Abstract

Drought and heat are major environmental stresses that continually influence plant growth and development. Under field conditions, these stresses occur more frequently in combination than alone, which magnifies corresponding detrimental effects on the growth and productivity of agriculturally important crops. Plant responses to such abiotic stresses are quite complex and manifested in a range of developmental, molecular, and physiological modifications that lead either to stress sensitivity or tolerance/resistance. Maize (Zea maysL.) is known for its sensitivity to abiotic stresses, which often results in substantial loss in crop productivity. Bioaugmentation with plant growth-promoting rhizobacteria (PGPR) has the potential to mitigate the adverse effects of drought and heat stresses on plants. Hence, this is considered a promising and eco-friendly strategy to ensure sustainable and long-term maize production under adverse climatic conditions. These microorganisms possess various plant growth-promoting (PGP) characteristics that can induce drought and heat tolerance in maize plants by directly or indirectly influencing molecular, metabolic, and physiological stress responses of plants. This review aims to assess the current knowledge regarding the ability of PGPR to induce drought and heat stress tolerance in maize plants. Furthermore, the drought and heat stress-induced expression of drought and heat stress response genes for this crop is discussed with the mechanisms through which PGPR alter maize stress response gene expression.

Published

2022

2. African microbiomes matter

Author

Makhalanyane, Thulani P., Bezuidt, Oliver K. I., Pierneef, Rian E., Mizrachi, Eshchar, Zeze, Adolphe, Fossou, Romain K., Kouadjo, Claude Ghislaine, Duodu, Samuel, Chikere, Chioma B., Babalola, Olubukola O., Klein, Ashwil, Keyster, Marshall, du Plessis, Mornè, Yorou, Nourou S., Hijri, Mohamed, Rossouw, Theresa, Kamutando, Casper N., Venter, Stephanus, Moleleki, Lucy N., and Murrell, Colin

Abstract

African microbiomes are much neglected and previous studies have disproportionately focused on the Global North. Africa harbours substantial genetic diversity in terms of its ecosystems, humans and animals. In this Comment, we highlight the lack of information regarding microbiome datasets from Africa and propose mechanisms for increasing microbiome research in Africa.

Published

2023

3. “Core” RxLR effectors in phytopathogenic oomycetes: A promising way to breeding for durable resistance in plants?

Author

Chepsergon, Jane, Motaung, Thabiso E., and Moleleki, Lucy Novungayo

Abstract

ABSTRACTPhytopathogenic oomycetes are known to successfully infect their hosts due to their ability to secrete effector proteins. Of interest to many researchers are effectors with the N-terminal RxLR motif (Arginine-any amino acid-Leucine-Arginine). Owing to advances in genome sequencing, we can now comprehend the high level of diversity among oomycete effectors, and similarly, their conservation within and among species referred to here as “core” RxLR effectors (CREs). Currently, there is a considerable number of CREs that have been identified in oomycetes. Functional characterization of these CREs propose their virulence role with the potential of targeting central cellular processes that are conserved across diverse plant species. We reason that effectors that are highly conserved and recognized by the host, could be harnessed in engineering plants for durable as well as broad-spectrum resistance.

Published

2021