2 results match your criteria: "Kwansei Gakuin Universitygrid.258777.8[Affiliation]"

Immobilization of a Broad Range of Polypeptides on the Frustule of the Diatom .

Appl Environ Microbiol

November 2022

Department of Bioscience, School of Biological and Environmental Sciences, Kwansei Gakuin Universitygrid.258777.8, Sanda, Hyogo, Japan.

Proteins immobilized on biosilica which have superior reactivity and specificity and are innocuous to natural environments could be useful biological materials in industrial processes. One recently developed technique, living diatom silica immobilization (LiDSI), has made it possible to immobilize proteins, including multimeric and redox enzymes, via a cellular excretion system onto the silica frustule of the marine diatom . However, the number of application examples so far is limited, and the type of proteins appropriate for the technique is still enigmatic.

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Certain Aspergillus and spp. produce the fungal cell wall component nigeran, an unbranched d-glucan with alternating α-1,3- and α-1,4-glucoside linkages, under nitrogen starvation. The mechanism underlying nigeran biosynthesis and the physiological role of nigeran in fungal survival are not clear.

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