Siderophore - Harnessing Iron to Propel Biohybrid Microrobots

Fouad Sabry

Maison d'édition: One Billion Knowledgeable

Synopsis

"Siderophore" is a groundbreaking addition to the "Biohybrid Microswimmer" series. This book delves into the fascinating world of microbial interactions, focusing on the critical role of siderophores in biological processes. It offers an indepth exploration of how microorganisms interact with their environments and each other, uncovering the essential mechanisms that make biohybrid microswimmers so significant. With its comprehensive coverage, "Siderophore" is invaluable for professionals, students, and enthusiasts eager to understand microbial chemistry and bioengineering
 
Siderophore-This chapter introduces the concept of siderophores and their role in microbial iron acquisition, emphasizing their importance in biohybrid microswimmer technologies
 
Pseudomonas syringae-Explore the unique properties of Pseudomonas syringae, a key bacterium in environmental and agricultural contexts, and its interaction with siderophores
 
Autoinducer-Delve into the role of autoinducers in bacterial communication, essential for understanding collective behavior in biohybrid systems
 
Membrane vesicle trafficking-This chapter covers the transport mechanisms that bacteria use to move molecules, crucial for the development of biohybrid microswimmers
 
Biofilm-Understand biofilm formation, a vital aspect of microbial cooperation, and its connection to the efficacy of biohybrid systems
 
Burkholderia cenocepacia-Investigate Burkholderia cenocepacia’s role in human and environmental systems, highlighting its siderophore production
 
Siderocalin-This chapter explains how siderocalin, an ironbinding protein, interacts with siderophores and its significance in infection control
 
Pyoverdine-Learn about pyoverdine, a specific type of siderophore produced by Pseudomonas species, crucial for nutrient cycling
 
Antagonism (phytopathology)-Explore the antagonistic relationships between bacteria in plant pathology, shedding light on microbial defense strategies
 
Elisa Granato-This chapter provides insight into the experimental methods used to study siderophores and their applications in biohybrid microswimmer technology
 
Pseudomonas-Focuses on the diverse roles of Pseudomonas species in nature, particularly their capacity to produce siderophores
 
2,6Pyridinedicarbothioic acid-Delve into the chemistry and applications of this compound in siderophore biosynthesis
 
FepA-Understand the function of the FepA protein in siderophore uptake and its relevance to biohybrid systems
 
Rhizobacteria-This chapter highlights the significance of rhizobacteria in plant growth and their interaction with siderophores in the rhizosphere
 
Ferricchelate reductase-Learn about the enzymes involved in reducing ferric iron, a key process in microbial nutrition and biohybrid technology
 
Pseudomonas fluorescens-Explore the unique features of Pseudomonas fluorescens, known for its role in biocontrol and siderophore production
 
Ferrichrome-This chapter examines ferrichrome, a type of siderophore, and its role in the uptake of iron in microorganisms
 
Microbial cooperation-Delve into how microbes cooperate through siderophore production and its relevance in biohybrid systems
 
Type VI secretion system-Learn about this bacterial secretion system, which is crucial for microbial competition and survival in biohybrid environments
 
Pseudomonas aeruginosa-Focuses on the pathogenic capabilities of Pseudomonas aeruginosa, highlighting its ability to produce siderophores in hostile environments
 
Host microbe interactions in Caenorhabditis elegans-Explore how hostmicrobe interactions are studied in Caenorhabditis elegans, providing insights into microbial behavior

Disponible depuis: 13/03/2025.

Longueur d'impression: 290 pages.

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