Prokaryotic organisms play diverse roles within society, one such life form being streptomycetes. Belonging to prokaryotic species of bacteria, streptomycetes are aerobic, Gram-positive microorganisms that represent the dominant genus of Actinobacteria (Law et al., 2019). Streptomycetes can be primarily found in different soils and bodies of water but are also distributed in mangroves, deserts, and caves (Law et al., 2019). Humans interact with streptomycetes in ways that are quite beneficial for the society in terms of pharmaceutics.
In particular, streptomycetes are directly utilized in producing over 75% of commercially useful antibiotics and have shown effectiveness in the discovery and development of drugs (Law et al., 2019). In addition to streptomycetes existing in various environments, they have connections with other species. For instance, some of these bacteria create either beneficial or parasitic relationships with plants and invertebrates (Law et al., 2019).
Moreover, streptomycetes have a rather substantial impact on the ecosystem. For example, streptomycetes play an influential role in soil ecology due to their involvement in the biodegradation of recalcitrant polymers (Law et al., 2019). Prokaryotes, such as streptomycetes, are important to human society and can affect other organisms.
The article employed for the above discussion presents sufficient information about streptomycetes. I have learned more about streptomycetes, their unique feature, and roles from this resource. For instance, Law et al. (2019) describe the life cycle of streptomycetes, which is a quite fascinating process. Particularly helpful for my post was explaining how streptomycetes can be valuable for humankind. Overall, the resource provides factual research that is entertaining and easy to comprehend.
References
Law, J. W. F., Pusparajah, P., Ab Mutalib, N. S., Wong, S. H., Goh, B. H., & Lee, L. H. (2019). A review on mangrove actinobacterial diversity: The roles of Streptomyces and novel species discovery. Progress in Microbes & Molecular Biology, 2(1).