Lida Halilovic scite author profile

Lida Halilovic

2Publications

2Citation Statements Received

42Citation Statements Given

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215

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University of California, Riverside

Publications

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Extracellular vesicles: cross-organismal RNA trafficking in plants, microbes, and mammalian cells

Cai¹,

Halilovic²,

Shi³

et al. 2023

Extracell Vesicles Circ Nucleic Acids

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Extracellular vesicles (EVs) are membrane-enclosed nanometer-scale particles that transport biological materials such as RNAs, proteins, and metabolites. EVs have been discovered in nearly all kingdoms of life as a form of cellular communication across different cells and between interacting organisms. EV research has primarily focused on EV-mediated intra-organismal transport in mammals, which has led to the characterization of a plethora of EV contents from diverse cell types with distinct and impactful physiological effects. In contrast, research into EV-mediated transport in plants has focused on inter-organismal interactions between plants and interacting microbes. However, the overall molecular content and functions of plant and microbial EVs remain largely unknown. Recent studies into the plant-pathogen interface have demonstrated that plants produce and secrete EVs that transport small RNAs into pathogen cells to silence virulence-related genes. Plant-interacting microbes such as bacteria and fungi also secrete EVs which transport proteins, metabolites, and potentially RNAs into plant cells to enhance their virulence. This review will focus on recent advances in EV-mediated communications in plant-pathogen interactions compared to the current state of knowledge of mammalian EV capabilities and highlight the role of EVs in cross-kingdom RNA interference.

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Targeted Metabolomics Using LC‐MS in Neurospora crassa

et al. 2022

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The filamentous fungus Neurospora crassa has historically been a model for understanding the relationship between genes and metabolism—auxotrophic mutants of N. crassa were used by Beadle and Tatum to develop the one‐gene‐one‐enzyme hypothesis for which they earned the Nobel Prize in 1958. In the ensuing decades, several techniques have been developed for the systematic analysis of metabolites in N. crassa and other fungi. Untargeted and targeted approaches have been used, with a focus on secondary metabolites over primary metabolism. Here, we describe a pipeline for sample preparation, metabolite extraction, Liquid Chromatography‐Mass Spectrometry (LC‐MS), and data analysis that can be used for targeted metabolomics of primary metabolites in N. crassa. Liquid cultures are grown with shaking in a defined minimal medium and then collected using filtration. Samples are lyophilized for 2 days at –80°C, pulverized, and mixed with a solution to extract polar metabolites. The metabolites are separated and identified using LC‐MS, with downstream analysis using Skyline interpretive software. Relative levels of hundreds of metabolites can be detected and compared across strains. © 2022 Wiley Periodicals LLC. Basic Protocol: Metabolite extraction and detection from Neurospora crassa cell cultures using Liquid Chromatography‐Mass Spectrometry

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Lida Halilovic

Extracellular vesicles: cross-organismal RNA trafficking in plants, microbes, and mammalian cells

Targeted Metabolomics Using LC‐MS in Neurospora crassa

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