Author: Nadal-Ribelles M

References 16 references

Download References (.nbib)

Nadal-Ribelles M, et al. (2025) Transcriptional heterogeneity shapes stress-adaptive responses in yeast. Nat Commun 16(1):2631 PMID:40097446
Nadal-Ribelles M, et al. (2025) A single-cell resolved genotype-phenotype map using genome-wide genetic and environmental perturbations. Nat Commun 16(1):2645 PMID:40102404
Nadal-Ribelles M, et al. (2024) The rise of single-cell transcriptomics in yeast. Yeast 41(4):158-170 PMID:38403881
Mosbacher M, et al. (2023) Positive feedback induces switch between distributive and processive phosphorylation of Hog1. Nat Commun 14(1):2477 PMID:37120434
Latorre P, et al. (2022) Data-driven identification of inherent features of eukaryotic stress-responsive genes. NAR Genom Bioinform 4(1):lqac018 PMID:35265837
Nadal-Ribelles M, et al. (2019) Sensitive high-throughput single-cell RNA-seq reveals within-clonal transcript correlations in yeast populations. Nat Microbiol 4(4):683-692 PMID:30718850
Nadal-Ribelles M, et al. (2019) Yeast Single-cell RNA-seq, Cell by Cell and Step by Step. Bio Protoc 9(17):e3359 PMID:33654857
González-Novo A, et al. (2015) Hog1 targets Whi5 and Msa1 transcription factors to downregulate cyclin expression upon stress. Mol Cell Biol 35(9):1606-18 PMID:25733686
Nadal-Ribelles M, et al. (2015) H3K4 monomethylation dictates nucleosome dynamics and chromatin remodeling at stress-responsive genes. Nucleic Acids Res 43(10):4937-49 PMID:25813039
Solé C, et al. (2015) A novel role for lncRNAs in cell cycle control during stress adaptation. Curr Genet 61(3):299-308 PMID:25262381
Nadal-Ribelles M, et al. (2014) Control of Cdc28 CDK1 by a stress-induced lncRNA. Mol Cell 53(4):549-61 PMID:24508389
Geijer C, et al. (2013) Initiation of the transcriptional response to hyperosmotic shock correlates with the potential for volume recovery. FEBS J 280(16):3854-67 PMID:23758973
Nadal-Ribelles M, et al. (2012) Hog1 bypasses stress-mediated down-regulation of transcription by RNA polymerase II redistribution and chromatin remodeling. Genome Biol 13(11):R106 PMID:23158682
Adrover MÀ, et al. (2011) Time-dependent quantitative multicomponent control of the G₁-S network by the stress-activated protein kinase Hog1 upon osmostress. Sci Signal 4(192):ra63 PMID:21954289
Pelet S, et al. (2011) Transient activation of the HOG MAPK pathway regulates bimodal gene expression. Science 332(6030):732-5 PMID:21551064
Solé C, et al. (2011) Control of Ubp3 ubiquitin protease activity by the Hog1 SAPK modulates transcription upon osmostress. EMBO J 30(16):3274-84 PMID:21743437