Paulo Canessa
Overview
Explore the profile of Paulo Canessa including associated specialties, affiliations and a list of published articles.
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32
Citations
713
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Recent Articles
1.
Olivares-Yanez C, Arias-Inostroza N, Polanco R, Canessa P
iScience
. 2025 Feb;
28(2):111783.
PMID: 39925430
is a phytopathogenic fungus. Traditional control using fungicides has faced challenges, prompting the exploration of sustainable alternatives such as biocontrol. , a promising biocontroller, is well-known for its mycoparasitism. However,...
2.
Perez-Lara G, Olivares-Yanez C, van Bakel H, Larrondo L, Canessa P
Int J Mol Sci
. 2023 May;
24(10).
PMID: 37240051
is a necrotrophic fungus characterized mainly by its wide host range of infected plants. The deletion of the gene (), which encodes for a blue-light receptor/transcription factor, causes a decrease...
3.
Perez-Lara G, Moyano T, Vega A, Larrondo L, Polanco R, Alvarez J, et al.
J Fungi (Basel)
. 2023 Jan;
9(1).
PMID: 36675905
For comprehensive gene expression analyses of the phytopathogenic fungus , which infects a number of plant taxa and is a cause of substantial agricultural losses worldwide, we developed BEB, a...
4.
Henriquez-Urrutia M, Spanner R, Olivares-Yanez C, Seguel-Avello A, Perez-Lara R, Guillen-Alonso H, et al.
Elife
. 2022 Aug;
11.
PMID: 35950750
Circadian clocks are important for an individual's fitness, and recent studies have underlined their role in the outcome of biological interactions. However, the relevance of circadian clocks in fungal-fungal interactions...
5.
Rojas V, Salinas F, Romero A, Larrondo L, Canessa P
J Fungi (Basel)
. 2022 May;
8(5).
PMID: 35628742
possesses a complex light-sensing system composed of eleven photoreceptors. In , encodes for the BcWCL1 protein, the orthologue of the blue-light photoreceptor WC-1 from . The functional partner of BcWCL1...
6.
Olivares-Yanez C, Sanchez E, Perez-Lara G, Seguel A, Camejo P, Larrondo L, et al.
Comput Struct Biotechnol J
. 2021 Dec;
19:6212-6228.
PMID: 34900134
and are two relevant fungi in agricultural systems. To gain insights into these organisms' transcriptional gene regulatory networks (GRNs), we generated a manually curated transcription factor (TF) dataset for each...
7.
Villarroel C, Bastias M, Canessa P, Cubillos F
mSystems
. 2021 Aug;
6(4):e0046621.
PMID: 34427519
Saccharomyces cerevisiae rewires its transcriptional output to survive stressful environments, such as nitrogen scarcity under fermentative conditions. Although divergence in nitrogen metabolism among natural yeast populations has been reported, the...
8.
Leiva-Ampuero A, Agurto M, Matus J, Hoppe G, Huidobro C, Inostroza-Blancheteau C, et al.
PeerJ
. 2020 Sep;
8:e9742.
PMID: 32995076
Carotenoids are essential components of the photosynthetic antenna and reaction center complexes, being also responsible for antioxidant defense, coloration, and many other functions in multiple plant tissues. In tomato, salinity...
9.
Vasquez-Montano E, Hoppe G, Vega A, Olivares-Yanez C, Canessa P
mBio
. 2020 Aug;
11(4).
PMID: 32753496
The plant pathogen is responsible for gray-mold disease, which infects a wide variety of species. The outcome of this host-pathogen interaction, a result of the interplay between plant defense and...
10.
Arrano-Salinas P, Dominguez-Figueroa J, Herrera-Vasquez A, Zavala D, Medina J, Vicente-Carbajosa J, et al.
Plant Sci
. 2018 Nov;
277:242-250.
PMID: 30466590
Plants must defend themselves against pathogens. The defense response requires greater protein synthesis, which generates endoplasmic reticulum (ER) stress, yet failure to attenuate this stress has detrimental effects. WRKY7/11/17 transcription...