AI Article Synopsis
- Fungal phospholipases, particularly TbSP1, play a role in the nutrient-starved stage of the ectomycorrhizal fungus Tuber borchii, showing increased activity when nutrients are low.
- TbSP1 contains a unique 54-amino acid sequence that is not part of the active site but is crucial for its processing, as its removal significantly boosts the enzyme's activity.
- The study highlights that TbSP1 undergoes self-processing, enhancing its function in nutrient-poor conditions, which may aid in establishing symbiotic relationships and forming mycorrhizae.
Article Abstract
Fungal phospholipases are members of the fungal/bacterial group XIV secreted phospholipases A(2) (sPLA(2)s). TbSP1, the sPLA(2) primarily addressed in this study, is up-regulated by nutrient deprivation and is preferentially expressed in the symbiotic stage of the ectomycorrhizal fungus Tuber borchii. A peculiar feature of this phospholipase and of its ortholog from the black truffle Tuber melanosporum is the presence of a 54-amino acid sequence of unknown functional significance, interposed between the signal peptide and the start of the conserved catalytic core of the enzyme. X-ray diffraction analysis of a recombinant TbSP1 form corresponding to the secreted protein previously identified in T. borchii mycelia revealed a structure comprising the five α-helices that form the phospholipase catalytic module but lacking the N-terminal 54 amino acids. This finding led to a series of functional studies that showed that TbSP1, as well as its T. melanosporum ortholog, is a self-processing pro-phospholipase A(2), whose phospholipase activity increases up to 80-fold following autoproteolytic removal of the N-terminal peptide. Proteolytic cleavage occurs within a serine-rich, intrinsically flexible region of TbSP1, does not involve the phospholipase active site, and proceeds via an intermolecular mechanism. Autoproteolytic activation, which also takes place at the surface of nutrient-starved, sPLA(2) overexpressing hyphae, may strengthen and further control the effects of phospholipase up-regulation in response to nutrient deprivation, also in the context of symbiosis establishment and mycorrhiza formation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3548466 | PMC |
| http://dx.doi.org/10.1074/jbc.M112.384156 | DOI Listing |
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