Your search keyword '"Gutiérrez, Rodrigo A."' showing total 4 results

1. Dynamic changes in mRNA nucleocytoplasmic localization in the nitrate response of Arabidopsis roots.

Author

Fonseca, Alejandro, Riveras, Eleodoro, Moyano, Tomás C., Alvarez, José M., Rosa, Stefanie, and Gutiérrez, Rodrigo A.

Subjects

GENETIC regulation, RNA polymerase II, GENE expression, GENETIC transcription, GENETIC code

Abstract

Nitrate is a nutrient and signal that regulates gene expression. The nitrate response has been extensively characterized at the organism, organ, and cell‐type‐specific levels, but intracellular mRNA dynamics remain unexplored. To characterize nuclear and cytoplasmic transcriptome dynamics in response to nitrate, we performed a time‐course expression analysis after nitrate treatment in isolated nuclei, cytoplasm, and whole roots. We identified 402 differentially localized transcripts (DLTs) in response to nitrate treatment. Induced DLT genes showed rapid and transient recruitment of the RNA polymerase II, together with an increase in the mRNA turnover rates. DLTs code for genes involved in metabolic processes, localization, and response to stimulus indicating DLTs include genes with relevant functions for the nitrate response that have not been previously identified. Using single‐molecule RNA FISH, we observed early nuclear accumulation of the NITRATE REDUCTASE 1 (NIA1) transcripts in their transcription sites. We found that transcription of NIA1, a gene showing delayed cytoplasmic accumulation, is rapidly and transiently activated; however, its transcripts become unstable when they reach the cytoplasm. Our study reveals the dynamic localization of mRNAs between the nucleus and cytoplasm as an emerging feature in the temporal control of gene expression in response to nitrate treatment in Arabidopsis roots. Summary statement: Transcriptome analysis of nuclear and cytoplasmic fractions in response to nitrate revealed transcripts with specific subcellular localization, revealing a novel layer of gene regulation. The dynamic interplay between mRNA localization, synthesis, and decay is crucial for the adaptive response of Arabidopsis roots to nitrate. [ABSTRACT FROM AUTHOR]

Published

2024

2. The Characterization of a Novel PrMADS11 Transcription Factor from Pinus radiata Induced Early in Bent Pine Stem.

Author

Méndez, Tamara, Guajardo, Joselin, Cruz, Nicolás, Gutiérrez, Rodrigo A., Norambuena, Lorena, Vega, Andrea, Moya-León, María A., and Herrera, Raúl

Subjects

TRANSCRIPTION factors, PINUS radiata, GENE expression, PINE, PROTEIN structure

Abstract

A novel MADS-box transcription factor from Pinus radiata D. Don was characterized. PrMADS11 encodes a protein of 165 amino acids for a MADS-box transcription factor belonging to group II, related to the MIKC protein structure. PrMADS11 was differentially expressed in the stems of pine trees in response to 45° inclination at early times (1 h). Arabidopsis thaliana was stably transformed with a 35S::PrMADS11 construct in an effort to identify the putative targets of PrMADS11. A massive transcriptome analysis revealed 947 differentially expressed genes: 498 genes were up-regulated, and 449 genes were down-regulated due to the over-expression of PrMADS11. The gene ontology analysis highlighted a cell wall remodeling function among the differentially expressed genes, suggesting the active participation of cell wall modification required during the response to vertical stem loss. In addition, the phenylpropanoid pathway was also indicated as a PrMADS11 target, displaying a marked increment in the expression of the genes driven to the biosynthesis of monolignols. The EMSA assays confirmed that PrMADS11 interacts with CArG-box sequences. This TF modulates the gene expression of several molecular pathways, including other TFs, as well as the genes involved in cell wall remodeling. The increment in the lignin content and the genes involved in cell wall dynamics could be an indication of the key role of PrMADS11 in the response to trunk inclination. [ABSTRACT FROM AUTHOR]

Published

2024

3. Phylogenetically diverse wild plant species use common biochemical strategies to thrive in the Atacama Desert.

Author

Dussarrat, Thomas, Nilo-Poyanco, Ricardo, Moyano, Tomás C, Prigent, Sylvain, Jeffers, Tim L, Díaz, Francisca P, Decros, Guillaume, Audi, Lauren, Sondervan, Veronica M, Shen, Bingran, Araus, Viviana, Rolin, Dominique, Shasha, Dennis, Coruzzi, Gloria M, Gibon, Yves, Latorre, Claudio, Pétriacq, Pierre, and Gutiérrez, Rodrigo A

Subjects

PLANT species, WILD plants, GENE expression, DESERTS, ABIOTIC stress, STRICT parenting

Abstract

The best ideotypes are under mounting pressure due to increased aridity. Understanding the conserved molecular mechanisms that evolve in wild plants adapted to harsh environments is crucial in developing new strategies for agriculture. Yet our knowledge of such mechanisms in wild species is scant. We performed metabolic pathway reconstruction using transcriptome information from 32 Atacama and phylogenetically related species that do not live in Atacama (sister species). We analyzed reaction enrichment to understand the commonalities and differences of Atacama plants. To gain insights into the mechanisms that ensure survival, we compared expressed gene isoform numbers and gene expression patterns between the annotated biochemical reactions from 32 Atacama and sister species. We found biochemical convergences characterized by reactions enriched in at least 50% of the Atacama species, pointing to potential advantages against drought and nitrogen starvation, for instance. These findings suggest that the adaptation in the Atacama Desert may result in part from shared genetic legacies governing the expression of key metabolic pathways to face harsh conditions. Enriched reactions corresponded to ubiquitous compounds common to extreme and agronomic species and were congruent with our previous metabolomic analyses. Convergent adaptive traits offer promising candidates for improving abiotic stress resilience in crop species. [ABSTRACT FROM AUTHOR]

Published

2024

4. Recent advances in local and systemic nitrate signaling in Arabidopsisthaliana.

Author

Delgado, Laura D., Nunez-Pascual, Valentina, Riveras, Eleodoro, Ruffel, Sandrine, and Gutiérrez, Rodrigo A.

Subjects

*NITROGEN in soils, *ARABIDOPSIS thaliana, *GENE expression, *CELLULAR signal transduction, *NITRATES

Abstract

Nitrate is the most abundant form of inorganic nitrogen in aerobic soils, serving both as a nutrient and a signaling molecule. Central to nitrate signaling in higher plants is the intricate balance between local and systemic signaling and response pathways. The interplay between local and systemic responses allows plants to regulate their global gene expression, metabolism, physiology, growth, and development under fluctuating nitrate availability. This review offers an overview of recent discoveries regarding new players on nitrate sensing and signaling, in local and systemic contexts in Arabidopsis thaliana. Additionally, it addresses unanswered questions that warrant further investigation for a better understanding of nitrate signaling and responses in plants. [ABSTRACT FROM AUTHOR]

Published

2024