Your search keyword '"Éthier G"' showing total 6 results

1. Site of phrenic nerve stimulation-induced upper airway collapse: influence of expiratory time

Author

Sériès, F., primary and Éthier, G., additional

Published

2002

2. Synergetic light and cytokinin treatments mitigate the recombinant protein yield depression induced by high-density cultivation of hydroponically-grown Nicotiana benthamiana.

Author

Bilotta S, Éthier G, Laliberté AC, Goulet MC, Martel M, Michaud D, and Pepin S

Subjects

Plants, Genetically Modified genetics, Plants, Genetically Modified growth & development, Plant Leaves metabolism, Plant Leaves growth & development, Nicotiana genetics, Nicotiana growth & development, Nicotiana metabolism, Cytokinins pharmacology, Cytokinins metabolism, Hydroponics, Light, Recombinant Proteins genetics, Recombinant Proteins metabolism

Abstract

Plant molecular farming is currently operating a transition from soil-based cultures toward hydroponic systems. In this study, we designed a whole-plant NFT (nutrient film technique) platform for the transient expression of influenza virus-like particles harboring hemagglutinin H1 proteins in Nicotiana benthamiana. In particular, we examined the effects of plant density during the post-infiltration expression phase on plant growth and H1 yield in relation to the daily light integral (DLI) received by the crop and the exogenous application of 6-BAP cytokinin (CK). We expected from previous work that high DLI and CK treatments would stimulate the development of highly productive leaves on axillary (secondary) stems and thereby improve the H1 yield at the whole-plant scale. Increasing plant density from 35.7 to 61 plants m -2 during the post-infiltration phase significantly decreased the proportion of axillary leaf biomass by 30% and H1 yield per plant by 39%, resulting in no additional yield gain on a whole-crop area basis. Adding CK to the recirculated nutrient solution decreased the harvested leaf biomass by 31% and did not enhance the relative proportion of S leaves of the plants as previously reported with foliar CK application. There was a 36% increase in H1 yield when doubling the DLI from 14 to 28 mol m -2 s -1 , and up to 71% yield gain when combining such an increase in DLI with the hydroponic CK treatment. Contrary to our expectations, leaves located on the main stem, particularly those from the upper half of the plant (i.e., eighth leaf and above), contributed about 80% of total H1 yield. Our study highlights the significantly different phenotype (~30% less secondary leaf biomass) and divergent responses to light and CK treatments of NFT-grown N. benthamiana plants compared to previous studies conducted on potted plants., (© 2024 The Author(s). Biotechnology and Bioengineering published by Wiley Periodicals LLC.)

Published

2024

3. Deferred Cord Clamping in Twin Pregnancies Across Canada: A National Survey of Practices.

Author

Bouadi N, Beltempo M, Éthier G, Boucoiran I, McDonald SD, and Villeneuve A

Abstract

Objective: Guidelines recommending deferred cord clamping (DCC), delaying cord clamping for at least 30 seconds post-birth, have shown significant benefits in preterm singleton births. However, evidence supporting DCC in twins is scarce due to limited trial data, leading to practice variations. This study aims to assess current reported DCC practices for twin pregnancies in tertiary hospitals across Canada., Methods: A web-based survey was distributed to neonatologists and obstetrician investigators associated with the Canadian Neonatal and Preterm Birth Networks operating maternity and neonatal units., Results: The site response rate was 93% (28/30 sites), with 83% (25/30) for neonatologists and 56% (17/30) for obstetricians. The majority had a local protocol for twin pregnancies (obstetricians 13/17, neonatologists 21/25). While all centres practised DCC in dichorionic-diamniotic twins, a difference was noted for monochorionic-diamniotic twins, with 56% of neonatologists and 65% of obstetricians performing DCC. During cesarean delivery, most obstetricians (76.5%) placed the firstborn on the mother's thighs. Neonatologists varied in their practices, with 32% placing the baby on the mother's abdomen, 32% on the mother's thighs, and 28% holding the baby at the height of the perineum. Divergent opinions were observed regarding contraindications, including risks of postpartum hemorrhage and velamentous cord insertion., Conclusions: DCC is reported to be practised in most twin deliveries among Canadian Neonatal and Preterm Birth Network centres. However, there are wide variations in practice, especially concerning the characteristics of the twins in which DCC is performed. Future research should investigate optimal cord clamping management in twins to standardize practices and maximize benefits., (Copyright © 2024 The Author. Published by Elsevier Inc. All rights reserved.)

Published

2024

4. Production of Biopharmaceuticals in Nicotiana benthamiana -Axillary Stem Growth as a Key Determinant of Total Protein Yield.

Author

Goulet MC, Gaudreau L, Gagné M, Maltais AM, Laliberté AC, Éthier G, Bechtold N, Martel M, D'Aoust MA, Gosselin A, Pepin S, and Michaud D

Abstract

Data are scarce about the influence of basic cultural conditions on growth patterns and overall performance of plants used as heterologous production hosts for protein pharmaceuticals. Higher plants are complex organisms with young, mature, and senescing organs that show distinct metabolic backgrounds and differ in their ability to sustain foreign protein expression and accumulation. Here, we used the transient protein expression host Nicotiana benthamiana as a model to map the accumulation profile of influenza virus hemagglutinin H1, a clinically promising vaccine antigen, at the whole plant scale. Greenhouse-grown plants submitted to different light regimes, submitted to apical bud pruning, or treated with the axillary growth-promoting cytokinin 6-benzylaminopurine were vacuum-infiltrated with agrobacteria harboring a DNA sequence for H1 and allowed to express the viral antigen for 7 days in growth chamber under similar environmental conditions. Our data highlight the importance of young leaves on H1 yield per plant, unlike older leaves which account for a significant part of the plant biomass but contribute little to total antigen titer. Our data also highlight the key contribution of axillary stem leaves, which contribute more than 50% of total yield under certain conditions despite representing only one-third of the total biomass. These findings underline the relevance of both considering main stem leaves and axillary stem leaves while modeling heterologous protein production in N. benthamiana. They also demonstrate the potential of exogenously applied growth-promoting hormones to modulate host plant architecture for improvement of protein yields.

Published

2019

5. Greater efficiency of water use in poplar clones having a delayed response of mesophyll conductance to drought.

Author

Théroux Rancourt G, Éthier G, and Pepin S

Subjects

Agricultural Irrigation, Carbon metabolism, Genotype, Plant Leaves metabolism, Plant Stomata, Populus metabolism, Populus physiology, Soil, Stress, Physiological genetics, Adaptation, Physiological genetics, Droughts, Photosynthesis, Plant Leaves physiology, Plant Transpiration, Populus genetics, Water physiology

Abstract

Improvement of water use efficiency is a key objective to improve the sustainability of cultivated plants, especially fast growing species with high water consumption like poplar. It is well known that water use efficiency (WUE) varies considerably among poplar genotypes, and it was recently suggested that the use of the mesophyll-to-stomatal conductance ratio (gm/gs) would be an appropriate trait to improve WUE. The responses of 7-week-old cuttings of four hybrid poplar clones and one native Balsam poplar (Populus balsamifera L.) to a water stress-recovery cycle were examined to evaluate the relation between the gm/gs ratio and transpiration efficiency (TE), a leaf-level component of WUE. A contrasting gs response to water stress was observed among the five clones, from stomatal closure early on during soil drying up to limited closure in Balsam poplar. However in the hybrids, the decline in gm was consistently delayed by a few days compared with gs. Moreover, in the most water use-efficient hybrids, the recovery following rehydration occurred faster for gm than for gs. Thus, the delay in the response of gm to drought and its faster recovery upon rewatering increased the gm/gs of the hybrids and this ratio scaled positively with TE. Our results support the use of the gm/gs ratio to select genotypes with improved WUE, and the notion that breeding strategies focusing mainly on stomatal responses to soil drying should also look for a strong curvilinearity between net carbon assimilation rate and gs, the indication of a significant increase in gm/gs in the earlier stages of stomatal closure., (© The Author 2015. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2015

6. Threshold response of mesophyll CO2 conductance to leaf hydraulics in highly transpiring hybrid poplar clones exposed to soil drying.

Author

Théroux-Rancourt G, Éthier G, and Pepin S

Subjects

Calibration, Carbon Dioxide pharmacology, Chlorophyll metabolism, Clone Cells, Droughts, Electron Transport drug effects, Fluorescence, Photosynthesis drug effects, Plant Stems drug effects, Plant Stems physiology, Plant Stomata physiology, Plant Transpiration drug effects, Populus drug effects, Water, Carbon Dioxide metabolism, Desiccation, Hybridization, Genetic, Mesophyll Cells metabolism, Plant Transpiration physiology, Populus physiology, Soil

Abstract

Mesophyll conductance (gm) has been shown to impose significant limitations to net CO2 assimilation (A) in various species during water stress. Net CO2 assimilation is also limited by stomatal conductance to water (gsw), both having been shown to co-vary with leaf hydraulic conductance (Kleaf). Lately, several studies have suggested a close functional link between Kleaf, gsw, and gm. However, such relationships could only be circumstantial since a recent study has shown that the response of gm to drought could merely be an artefactual consequence of a reduced intercellular CO2 mole fraction (Ci). Experiments were conducted on 8-week-old hybrid poplar cuttings to determine the relationship between Kleaf, gsw, and g m in clones of contrasting drought tolerance. It was hypothesized that changes in gsw and Kleaf in response to drought would not impact on gm over most of its range. The results show that Kleaf decreased in concert with g sw as drought proceeded, whereas gm measured at a normalized Ci remained relatively constant up to a g sw threshold of ~0.15 mol m(-2) s(-1). This delayed gm response prevented a substantial decline in A at the early stage of the drought, thereby enhancing water use efficiency. Reducing the stomatal limitation of droughted plants by diminishing the ambient CO2 concentration of the air did not modify gm or Kleaf. The relationship between gas exchange and leaf hydraulics was similar in both drought-tolerant and drought-sensitive clones despite their contrasting vulnerability to stem cavitation and stomatal response to soil drying. The results support the hypothesis of a partial hydraulic isolation of the mesophyll from the main transpiration pathway.

Published

2014