Laila Sbabou
Mohammed V University
55 Papers
38 Citations
Laila Sbabou is an academic researcher from Mohammed V University. The author has contributed to research in topics: Biology & Medicine. The author has an hindex of 8, co-authored 19 publications. Previous affiliations of Laila Sbabou include University of Minnesota.
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Papers
Microalgae polysaccharides bio-stimulating effect on tomato plants: Growth and metabolic distribution.
TL;DR: The crude polysaccharides extract (PS) from three microalgae strains were applied to Solanum lycopersicum plants by irrigation and compared basing on their effects on shoot and root length, nodes number and root dry weight as mentioned in this paper.
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Genomic Diversity and Hotspot Mutations in 30,983 SARS-CoV-2 Genomes: Moving Toward a Universal Vaccine for the “Confined Virus”?
Tarek Alouane,Meriem Laamarti,Abdelomunim Essabbar,Mohammed Hakmi,El Mehdi Bouricha,M. W. Chemao-Elfihri,Souad Kartti,Nasma Boumajdi,Houda Bendani,Rokia Laamarti,Fatima Ghrifi,Loubna Allam,Tarik Aanniz,Mouna Ouadghiri,Naima El Hafidi,Rachid El Jaoudi,Houda Benrahma,Jalil El Attar,Rachid Mentag,Laila Sbabou,Chakib Nejjari,Saaïd Amzazi,Lahcen Belyamani,Azeddine Ibrahimi +23 more
TL;DR: Analysis of complete SARS-CoV-2 genomes from 79 countries located in the six continents and collected from 24 December 2019, to 13 May 2020 revealed the presence of 3206 variant sites, with a uniform distribution of mutation types in different geographic areas.
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Evaluation of microalgae polysaccharides as biostimulants of tomato plant defense using metabolomics and biochemical approaches
TL;DR: In this paper, the effect of microalgal polysaccharides (PSs) obtained from microalgae and cyanobacteria (D. salina MS002, P. tricorontum MS023, Porphyridium sp. MS081, Desmodesmus sp., D.salina MS067 and A. platensis MS001) on the biochemical and metabolomics markers linked to defense pathways in tomato plants was investigated.
Microalgae-cyanobacteria–based biostimulant effect on salinity tolerance mechanisms, nutrient uptake, and tomato plant growth under salt stress
Chanda Mutale-joan,Farid Rachidi,Hachimi Alaoui Mohamed,Najib El Mernissi,Abderrahim Aasfar,Mustapha Barakate,Danouche Mohammed,Laila Sbabou,Hicham El Arroussi +8 more
TL;DR: In this article, the modulating effect of combined microalgae-cyanobacteria extract formulations (MEF1, MEF5, and MEF10%) prepared from the species Dunaliella salina, Chlorella ellipsoidea, Aphanothece sp., and Arthrospira maxima, on tomato plant growth and tolerance under four NaCl concentrations (0, 80, 120, and 150mM).
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Native Heavy Metal-Tolerant Plant Growth Promoting Rhizobacteria Improves Sulla spinosissima (L.) Growth in Post-Mining Contaminated Soils
TL;DR: The potential of rhizobacteria in assisting plants used in the phytostabilization or re-vegetation of soils contaminated by heavy metals is gaining interest all around the world as mentioned in this paper .