Microorganism

Microorganism-This chapter provides an introduction to the essential role microorganisms play in biological systems, emphasizing their critical contribution to biohybrid microswimmers

Marine microorganisms-Exploring the unique adaptations and ecological importance of marine microorganisms, this chapter connects their behaviors to biohybrid developments

Microbial genetics-Delving into genetic mechanisms in microorganisms, this chapter discusses their potential in biohybrid technology and gene editing for improved systems

Archaea-Focused on the distinct biology of archaea, this chapter sheds light on their relevance to the evolution of biohybrids and their environmental adaptability

Marine prokaryotes-This chapter highlights the fascinating role marine prokaryotes play in marine ecosystems, laying the groundwork for their use in biohybrid systems

Kingdom (biology)-Introducing the broader classification system, this chapter explains the categorization of life and its direct influence on biohybrid design and functionality

Bacteria-This chapter examines bacteria’s pivotal role in biological processes and their integration into biohybrid systems for various applications

Threedomain system-Understanding the threedomain system, this chapter explains how different domains interact, providing insight into biohybrids' microbialbased architectures

Microbiology-A comprehensive look at microbiology, highlighting the scientific underpinnings of biohybrids and their microbial components

Twodomain system-By comparing the twodomain system with the threedomain, this chapter enhances understanding of microbial diversity and its biohybrid potential

Carl Woese-This chapter details Carl Woese’s groundbreaking work in microbial classification, and its lasting impact on biohybrid technology

Unicellular organism-Exploring unicellular organisms, this chapter underscores their relevance to biohybrids and their potential for innovation in microswimmer designs

Anaerobic organism-This chapter investigates anaerobic organisms and their applications in biohybrids, showcasing their efficiency in oxygenpoor environments

Eukaryote-A deep dive into eukaryotic organisms, this chapter highlights how they contribute to biohybrid evolution and their interaction with other organisms

Marine life-Marine life is explored with a focus on how microorganisms thrive in oceanic environments and contribute to biohybrid systems in marine contexts

Marine protists-This chapter delves into the biology of marine protists and their potential use in biohybrid technologies aimed at oceanic applications

Microbiological culture-Focusing on microbiological cultures, this chapter presents their role in advancing biohybrid systems through labbased innovations

CavalierSmith's system of classification-Understanding CavalierSmith’s classification system enriches our understanding of microbial diversity and its influence on biohybrids

Horizontal gene transfer in evolution-This chapter explains horizontal gene transfer’s role in microbial evolution and its application in biohybrid systems development

Prokaryote-A thorough exploration of prokaryotes, this chapter discusses their evolutionary significance and potential as building blocks in biohybrid microswimmers

Microbiome-The final chapter delves into the microbiome and its critical role in maintaining biohybrid systems, emphasizing how symbiosis influences biohybrid performance