Journal of Fungi (Mar 2022)

Genome-Wide Analysis of Cytochrome P450s of <i>Alternaria</i> Species: Evolutionary Origin, Family Expansion and Putative Functions

  • Wadzani Palnam Dauda,
  • Daji Morumda,
  • Peter Abraham,
  • Charles Oluwaseun Adetunji,
  • Shakira Ghazanfar,
  • Elkanah Glen,
  • Shittu Emmanuel Abraham,
  • Grace Wabba Peter,
  • Israel Ogwuche Ogra,
  • Ulasi Joseph Ifeanyi,
  • Hannatu Musa,
  • Mawuli Kwamla Azameti,
  • Bilal Ahamad Paray,
  • Aneela Gulnaz

DOI
https://doi.org/10.3390/jof8040324
Journal volume & issue
Vol. 8, no. 4
p. 324

Abstract

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Cytochrome P450s are a group of monooxygenase enzymes involved in primary, secondary and xenobiotic metabolisms. They have a wide application in the agriculture sector where they could serve as a target for herbicides or fungicides, while they could function in the pharmaceutical industry as drugs or drugs structures or for bioconversions. Alternaria species are among the most commonly encountered fungal genera, with most of them living as saprophytes in different habitats, while others are parasites of plants and animals. This study was conducted to elucidate the diversity and abundance, evolutionary relationships and cellular localization of 372 cytochrome P450 in 13 Alternaria species. The 372 CYP proteins were phylogenetically clustered into ten clades. Forty (40) clans and seventy-one (71) cyp families were identified, of which eleven (11) families were found to appear in one species each. The majority of the CYP proteins were located in the endomembrane system. Polyketide synthase (PKS) gene cluster was the predominant secondary metabolic-related gene cluster in all the Alternaria species studied, except in A. porriof, where non-ribosomal peptide synthetase genes were dominant. This study reveals the expansion of cyps in these fungal genera, evident in the family and clan expansions, which is usually associated with the evolution of fungal characteristics, especially their lifestyle either as parasites or saprophytes, with the ability to metabolize a wide spectrum of substrates. This study can be used to understand the biology, physiology and toxigenic potentials of P450 in these fungal genera.

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