Moonlight-like proteins are actually cell wall components in Pseudocercospora fijiensis.
Blondy B Canto-CanchéYamily Yazmin Burgos-CanulDeysi Chi-ChucMiguel Tzec-SimáAngela F KuLigia Guadalupe Brito-ArgáezMildred Carrillo-PechCésar De Los Santos-BrionesMiguel Ángel Canseco-PérezDonato Luna-MorenoMiguel J Beltrán-GarcíaIgnacio Islas-FloresPublished in: World journal of microbiology & biotechnology (2023)
The fungal cell wall protects fungi against threats, both biotic and abiotic, and plays a role in pathogenicity by facilitating host adhesion, among other functions. Although carbohydrates (e.g. glucans, chitin) are the most abundant components, the fungal cell wall also harbors ionic proteins, proteins bound by disulfide bridges, alkali-extractable, SDS-extractable, and GPI-anchored proteins, among others; the latter consisting of suitable targets which can be used for fungal pathogen control. Pseudocercospora fijiensis is the causal agent of black Sigatoka disease, the principal threat to banana and plantain worldwide. Here, we report the isolation of the cell wall of this pathogen, followed by extensive washing to eliminate all loosely associated proteins and conserve those integrated to its cell wall. In the HF-pyridine protein fraction, one of the most abundant protein bands was recovered from SDS-PAGE gels, electro-eluted and sequenced. Seven proteins were identified from this band, none of which were GPI-anchored proteins. Instead, atypical (moonlight-like) cell wall proteins were identified, suggesting a new class of atypical proteins, bound to the cell wall by unknown linkages. Western blot and histological analyses of the cell wall fractions support that these proteins are true cell wall proteins, most likely involved in fungal pathogenesis/virulence, since they were found conserved in many fungal pathogens.