Saccharomyces cerevisiae Hsl1p is a Ser/Thr protein kinase that regulates cell morphology. We identified Candida albicans CaHSL1 and analysed its function in C. albicans. Cells lacking CaHsl1p exhibited filamentous growth under yeast growth conditions with the filaments elongating more quickly than did those of the wild type under hyphal growth conditions, suggesting that it plays a role in the suppression of cell elongation. Green fluorescent protein-tagged CaHsl1p colocalized with a septin complex to the bud neck during yeast growth or to a potent septation site during hyphal growth, as expected from the localization in S. cerevisiae. However, the localization of the septin complex did not change in DeltaCahsl1, suggesting that CaHsl1p does not participate in septin organization. CaHsl1p was expressed in a cell cycle-dependent manner and, except for the G1 phase, phosphorylated throughout the cell cycle. In DeltaCahsl1 cells, the phosphorylation of a possible CaHsl1p target CaSwe1p decreased, while that of CaCdc28p at tyrosine18 increased. Either an extra copy of the tyrosine18-mutated CaCdc28p or deletion of CaSWE1 suppressed the cell elongation phenotype caused by CaHSL1 deletion. Furthermore, DeltaCahsl1 exhibited reduced virulence in the mouse systemic candidiasis model. Thus, the CaHsl1p-CaSwe1p-CaCdc28p pathway appears important in the cell elongation of both the yeast and hyphal forms and to the virulence of C. albicans.
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http://dx.doi.org/10.1111/j.1365-2958.2004.04405.x | DOI Listing |
J Biol Chem
January 2025
Institute of Virology, Philipps University Marburg, Marburg, Germany. Electronic address:
Orthoflaviviruses are emerging arthropod-borne pathogens whose replication cycle is tightly linked to host lipid metabolism. Previous lipidomic studies demonstrated that infection with the closely related hepatitis C virus (HCV) changes the fatty acid (FA) profile of several lipid classes. Lipids in HCV-infected cells had more very long-chain and desaturated FAs and viral replication relied on functional FA elongation and desaturation.
View Article and Find Full Text PDFViruses
December 2024
Department of Microbial Pathogenesis and Immunology, Texas A&M University Health Science Center, Bryan, TX 77807, USA.
In this study, we revealed a critical role of eukaryotic elongation factor-2 kinase (eEF-2K), a negative regulator of protein synthesis, in regulating T cells during vaccinia virus (VACV) infection. We found that eEF-2K-deficient (eEF-2K⁻/⁻) mice exhibited a significantly higher proportion of VACV-specific effector CD8 T cells without compromising the development of VACV-specific memory CD8 T cells. RNA sequencing demonstrated that eEF-2K⁻/⁻ VACV-specific effector CD8 T cells had enhanced functionality, which improves their capacity to combat viral infection during the effector phase.
View Article and Find Full Text PDFPlants (Basel)
January 2025
Corteva Agriscience, 7000 NW 62nd Ave, Johnston, IA 50131, USA.
Maize lethal necrosis (MLN) is a significant threat to food security in Sub-Saharan Africa (SSA), with limited commercial inbred lines displaying tolerance. This study analyzed the transcriptomes of four commercially used maize inbred lines and a non-adapted inbred line, all with varying response levels to MLN. RNA-Seq revealed differentially expressed genes in response to infection by maize chlorotic mottle virus (MCMV) and sugarcane mosaic virus (SCMV), the causative agents of MLN.
View Article and Find Full Text PDFPlants (Basel)
January 2025
Department of Interdisciplinary Program in Smart Agriculture, Kangwon National University, Chuncheon 24341, Republic of Korea.
Morphophysiological dormancy (MPD) is considered one of the most primitive dormancy classes among seed plants. While extensive studies have examined the occurrence of endo-β-mannanase in seeds with physiological dormancy (PD) or non-dormancy, little is known about the activity of this enzyme in seeds with MPD. This study aimed to investigate the temporal and spatial patterns of endo-β-mannanase activity during dormancy break and germination.
View Article and Find Full Text PDFPlants (Basel)
January 2025
Institute of Plant Biology, Biological Research Centre, H-6726 Szeged, Hungary.
Plants respond to higher ambient temperatures by modifying their growth rate and habitus. This review aims to summarize the accumulated knowledge obtained with Arabidopsis seedlings grown at normal and elevated ambient temperatures. Thermomorphogenesis in the shoot and the root is overviewed separately, since the experiments indicate differences in key aspects of thermomorphogenesis in the two organs.
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