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Beilstein J. Org. Chem. 2022, 18, 722–731, doi:10.3762/bjoc.18.72
Graphical Abstract
Figure 1: Prenylated aromatic metabolites are involved in cellular processes like cell respiration (coenzyme Q...
Figure 2: Homology clustering of Ptases encoded in marine Flavobacteria and Saccharomonospora species (G1–G4,...
Figure 3: Regional alignment of ubiA-297 of Maribacter sp. MS6 (EU359911.1) and homologous genes in Z. uligin...
Figure 4: A) Amino acid alignment and binding residues of UbiA-297. G2-Ptases are illustrated in the grey box...
Figure 5: Evaluation of substrate specificity of UbiA-297. Accepted substrates are shown in red, while no pro...
Figure 6: A) Reaction scheme of UbiA-297 catalyzing the assumed para-directed farnesylation of 8-HQA; B) calc...
Beilstein J. Org. Chem. 2016, 12, 314–327, doi:10.3762/bjoc.12.34
Figure 1: Flow chart of the typical characterization of chemical signals from microbial interactions. (1) Che...
Figure 2: Multilateral microbe–insect interactions. (1) Insect–symbiont interactions with both partners benef...
Figure 3: a) Interactions between bacterial (endo)symbionts and insects with both partners benefiting from th...
Figure 4: Multilateral microbial interactions in fungus-growing insects. (1) Insect cultivar: protects and sh...
Figure 5: Small molecules (chemical mediators) play key roles in maintaining garden homeostasis in fungus-gro...
Figure 6: Secondary metabolites isolated from Actinobacteria from fungus-growing termites. Microtermolide A (...
Figure 7: Secondary metabolites from bacterial mutualists of solitary insects. Bafilomycin A1 (21), bafilomyc...
Figure 8: Beneficial interactions (1) between fungal symbionts and insects.
Figure 9: Secondary metabolites isolated from fungal symbionts. Cerulenin (30), helvolic acid (31), lepiochlo...
Figure 10: Predatory interactions, (1) entomopathogenic fungi use insect as prey.
Figure 11: Entomopathogenic fungi use secondary metabolites as insecticidal compounds to kill their prey. Dest...