Abeer Muhammedali Alnasrawi Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
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Biography and Research Information
OverviewAI-generated summary
Abeer Muhammedali Alnasrawi's research investigates the protective effects of natural compounds and microbial interventions against cellular damage and toxicity. This includes studying the reduction of lipid peroxidation and protection of hippocampal and cortical neurons from ischemic damage using *Stellaria media* in animal models. Alnasrawi also examines lead immobilization and toxicity alleviation in sunflower using nanoscale Fe°/BC, and the impact of shockwave-treated seeds on plant germination and growth. Further work explores the use of *Bacillus subtilis* engineered to express plant elicitor peptides to combat nematode infections in soybeans, including optimizing gene expression and delivery methods via seed treatment. Collaborations include work with Payal Sanadhya and Fiona L. Goggin.
Metrics
- h-index: 2
- Publications: 4
- Citations: 21
Selected Publications
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Optimizing Conditions for Bacillus subtilis Ectopic Gene Expression and Delivery via Seed Treatment (2025)
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The Effects of <i>Bacillus subtilis</i> Expressing a Plant Elicitor Peptide on Nematode Infection on Soybean (2024)
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Lead-Immobilization, transformation, and induced toxicity alleviation in sunflower using nanoscale Fe°/BC: Experimental insights with Mechanistic validations (2022)
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Shockwave treated seed germination and physiological growth of Vigna mungo (L) in red soil environment (2021)
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Lipid peroxidation reduction and hippocampal and cortical neurons protection against ischemic damage in animal model using Stellaria media (2021)
Collaboration Network
Top Collaborators
- Lipid peroxidation reduction and hippocampal and cortical neurons protection against ischemic damage in animal model using Stellaria media
- Lipid peroxidation reduction and hippocampal and cortical neurons protection against ischemic damage in animal model using Stellaria media
- Lipid peroxidation reduction and hippocampal and cortical neurons protection against ischemic damage in animal model using Stellaria media
- Lipid peroxidation reduction and hippocampal and cortical neurons protection against ischemic damage in animal model using Stellaria media
- Lipid peroxidation reduction and hippocampal and cortical neurons protection against ischemic damage in animal model using Stellaria media
- Lipid peroxidation reduction and hippocampal and cortical neurons protection against ischemic damage in animal model using Stellaria media
- Lipid peroxidation reduction and hippocampal and cortical neurons protection against ischemic damage in animal model using Stellaria media
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