Laura Lucia Saavedra BorelliNational Scientific and Technical Research Council | conicet · UDEA Unidad de Estudios Agropecuarios (INTA-CONICET)
Laura Lucia Saavedra Borelli
PhD in Plant Biochemistry
Studying how plant growth and development are modulated by stress conditions using mainly P. patens as model organism.
About
18
Publications
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Introduction
Our research is focused on unraveling how signalling lipids (i.e. phosphoinositides) modulate plant growth, development and stress responses. In particular, we use the bryophyte Physcomitrella patens as a model system because its phylogenetic position provides an evo-devo perspective, it is amenable to reverse genetics and genome edition, combined with its relatively simple body architecture and excellent cytology allowing to study signal transduction mechanisms at a molecular level.
Additional affiliations
March 2015 - present
Universidad Nacional de Cordoba, Argentina
Position
- Researcher
June 2010 - February 2015
September 2004 - June 2009
Publications
Publications (18)
Autophagy plays a key role in the responses to different stress condition in plants, providing both pro-life and pro-death functions. Reactive oxygen species (ROS), are common modulators of stress responses, having both toxic and signaling functions. In this context, the relationship between ROS and autophagy regulation remains unclear, and in some...
Physcomitrium patens apical growing protonemal cells have the singularity that they continue to undergo cell divisions as the plant develops. This feature provides a valuable tool to study autophagy in the context of a multicellular apical growing tissue coupled to development. Herein, we showed that the core autophagy machinery is present in the m...
ABSTRACT Different to root hairs and pollen tubes, Physcomitrium patens apical growing
protonemal cells have the singularity that they continue to undergo cell divisions as the plant
develops, allowing to study autophagy in the context of a multicellular apical growing tissue
coupled to development. Herein, we showed that the core autophagy machine...
The Bcl-2-associated athanogene (BAG) family is an evolutionarily conserved, multifunctional group of co-chaperones regulators that modulate a number of diverse processes. Plant BAG genes were identified to play an extensive role in processes of programmed cell death (PCD) ranging from growth and development to stress responses. In this study, we i...
Main conclusion: Genome-wide identification, together with gene expression patterns and promoter region analysis of FYVE and PHOX proteins in Physcomitrella patens, emphasized their importance in regulating mainly developmental processes in P. patens.
Abstract
Phosphatidylinositol 3-phosphate (PtdIns3P) is a signaling phospholipid, which regulate...
Phosphatidylinositol 3-phosphate (PtdIns3P) is one of the five different phosphoinositides (PPIs) species in plant cells, which regulate several aspects of plant growth and development, as well as responses to biotic and abiotic stresses. The mechanistic insights underlying PtdIns3P mode of action, specifically through PtdIns3P-binding effectors su...
Root hair curling is the early and essential morphological change for the success of the symbiotic interaction between legumes and rhizobia. At this stage rhizobia grow as infection thread within root hair and are internalized into the plant cells via endocytosis, where PI3K enzyme plays important roles. Former studies of our group showed that stre...
Phosphatase and tensin homolog deleted on chromosome 10 (PTEN) is a lipid phosphatase implicated in cellular proliferation and survival. In animal cells, loss of PTEN leads to increased levels of phosphatidylinositol (3,4,5)-trisphosphate [PtdIns(3,4,5)P3], stimulation of energetic metabolism, cellular growth, and morphological changes (related to...
Apical cell growth seems to have independently evolved throughout the major lineages of life. To a certain extent, so does our body of knowledge on the mechanisms regulating this morphogenetic process. Studies on pollen tubes, root hairs, rhizoids, fungal hyphae, even nerve cells, have highlighted tissue and cell specificities but also common regul...
Phosphoinositides (PIs) comprise a family of minor membrane lipids which play important roles in many signal transducing pathways in the cell. The immediate precursor of all PIs is phosphatidylinositol and the sequential phosphorylation of the lipid head group by the action of phosphoinositide kinases results in the generation of seven additional P...
Phosphatidylinositol (4,5) bisphosphate, [PtdIns(4,5)P 2], is a signaling lipid involved in many important processes in animal cells such as cytoskeleton organization, intracellular vesicular trafficking, secretion, cell motility, regulation of ion channels, and nuclear signaling pathways. In the last years PtdIns(4,5)P 2 and its synthesizing enzym...
PtdIns-4,5-bisphosphate is a lipid messenger of eukaryotic cells that plays a critical role in processes such as cytoskeleton organization, intracellular vesicular trafficking, secretion, cell motility, regulation of ion channels and nuclear signalling pathways. The enzymes responsible for the synthesis of PtdIns(4,5)P₂ are phosphatidylinositol pho...
Phosphatidylinositol phosphate kinase (PIPK) catalyzes a key step controlling cellular contents of phosphatidylinositol-4,5-bisphosphate [PtdIns(4,5)P2], a critical intracellular messenger involved in vesicle trafficking and modulation of actin cytoskeleton and also a substrate of phospholipase C to produce the two intracellular messengers, diacylg...
Phosphatidylinositol phosphate kinase (PIPK) is an enzyme involved in the regulation of cellular levels of phosphoinositides involved in various physiological processes, such as cytoskeletal organization, ion channel activation, and vesicle trafficking. In animals, research has focused on the modes of activation and function of PIPKs, providing an...
Phosphoinositides (PIs) play a major role in eukaryotic cells, despite being a minor component of most membranes. This is the first report on PI metabolism in a bryophyte, the moss Physcomitrella patens. Moss PI composition is similar to that of other land plants growing under normal conditions. In contrast to the large number of PIPK genes present...
We isolated a dehydrin-like (DHN-like) gene fragment, PpDHNA, from the moss Physcomitrella patens by PCR amplification using degenerate primers directed against conserved amino acid segments of DHNs of higher plants. The full-length cDNA was found to encode a 59.2-kDa glycine-rich protein, DHNA, with typical characteristics of DHNs, including the p...