Journal of Fungi (May 2023)

Identification and Characterization of Dmct: A Cation Transporter in <i>Yarrowia lipolytica</i> Involved in Metal Tolerance

  • Katia Jamileth González-Lozano,
  • Elva Teresa Aréchiga-Carvajal,
  • Zacarías Jiménez-Salas,
  • Debany Marlen Valdez-Rodríguez,
  • Claudia Geraldine León-Ramírez,
  • José Ruiz-Herrera,
  • Juan Manuel Adame-Rodríguez,
  • Manuel López-Cabanillas-Lomelí,
  • Eduardo Campos-Góngora

DOI
https://doi.org/10.3390/jof9060600
Journal volume & issue
Vol. 9, no. 6
p. 600

Abstract

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Yarrowia lipolytica is a dimorphic fungus used as a model organism to investigate diverse biotechnological and biological processes, such as cell differentiation, heterologous protein production, and bioremediation strategies. However, little is known about the biological processes responsible for cation concentration homeostasis. Metals play pivotal roles in critical biochemical processes, and some are toxic at unbalanced intracellular concentrations. Membrane transport proteins control intracellular cation concentrations. Analysis of the Y. lipolytica genome revealed a characteristic functional domain of the cation efflux protein family, i.e., YALI0F19734g, which encodes YALI0F19734p (a putative Yl-Dmct protein), which is related to divalent metal cation tolerance. We report the in silico analysis of the putative Yl-Dmct protein’s characteristics and the phenotypic response to divalent cations (Ca2+, Cu2+, Fe2+, and Zn2+) in the presence of mutant strains, Δdmct and Rdmct, constructed by deletion and reinsertion of the DMCT gene, respectively. The absence of the Yl-Dmct protein induces cellular and growth rate changes, as well as dimorphism differences, when calcium, copper, iron, and zinc are added to the cultured medium. Interestingly, the parental and mutant strains were able to internalize the ions. Our results suggest that the protein encoded by the DMCT gene is involved in cell development and cation homeostasis in Y. lipolytica.

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