Uses Of Bacteria Fungi And Algae. Some eukaryotes, such as protists, algae and fungi, may be not only part of microbiomes of multicellular organisms, but they also host their own microbiomes which may include a broad spectrum of bacteria, archaea, and unicellular. They can produce a plethora of biologically active compounds, especially secondary metabolites.
The field is concerned with the structure, function, and classification of such organisms and with ways of both exploiting and controlling their activities. Web several types of microbes such as whole cells of algae, fungi, yeast, and bacteria are employed to produce biofuel which include several steps such as aerobic and anaerobic fermentation, transesterification, etc. Web the bioremediation of the dyes by microorganisms typically is achieved through biosorption, biodegradation, and bioaccumulation [ 27 ].
Fungi In View Of Their Ubiquitous Nature, Rapid Growth On Variety Of Waste Substrates, Are Receiving Greater Attention In The Exploitation As A Source Of Scp.
Similar to algae and bacteria, fungal polysaccharides (primary metabolites) also showed antiviral activity. Give examples of different types of cellular and viral microorganisms and infectious agents. Endophytic bacteria have greater potential to tolerate and remediate heavy metals stress.
Web Potential Uses Of Immobilized Bacteria, Fungi, Algae, And Their Aggregates For Treatment Of Organic And Inorganic Pollutants In Wastewater Manab Das, A.
Describe the similarities and differences between archaea and bacteria. In this article, special attention is given to studies addressing pharmaceutical removal with fungi and algae via bioremediation and/or biosorption mechanisms. Algae are also the food base for almost all aquatic life, and are economically important as a source of crude oil and as sources of food and a number of pharmaceutical and industrial products for humans.
Finally, The Potential Use Of Microbial And Algal Polysaccharides As An Antiviral And Immune Boosting Strategy Was Addressed.
Web algae produce up to half of the oxygen in earth's atmosphere, and algae help keep carbon dioxide out of the atmosphere by storing it. Antiviral mechanisms of these polysaccharides were discussed. Further advanced studies are required on the pharmacological properties and bioactive compounds of these organisms.
Web In This Review, The Bioactive Polysaccharides Derived From Various Microorganisms, Including Bacteria, Fungi, And Algae Were Evaluated.
Dead and living organisms, especially bacteria, fungi, and algae, could be used in the bioremediation of organic dyes and heavy metals [ 28, 41 ]. Finally, the potential use of microbial and algal polysaccharides as an antiviral and immune boosting strategy was addressed. Introduction algae are the undisputed primary producers in the aquatic ecosystem and contribute approximately half of the global net primary productivity ( field et al., 1998 ).
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Web the natural organisms, such as fungi, lichenized fungi and algae, could be used as supplementary medicine, in the form of pharmaceutical preparations and food sources. Web the bioremediation of the dyes by microorganisms typically is achieved through biosorption, biodegradation, and bioaccumulation [ 27 ]. Based on the example of the selected species of mushrooms, lichens and algae, the.