Root remodeling mechanisms and salt tolerance trade-offs: The roles of HKT1, TMAC2, and TIP2;2 in Arabidopsis.

Plant responses to salt stress involve regulatory networks integrating ion transport, hormonal signaling, and root system architecture remodeling. A key adaptive mechanism is the regulation of sodium (Na⁺) transport by Class 1 HKT1 transporters, which compertamentalize Na⁺ in non-photosynthetic tissues. High HKT1 expression reduces Na+ accumulation in shoots, leading to increased salt tolerance, but simultaneously results in reduced lateral root development.

Exploring aquaporin functions during changes in leaf water potential.

Maintenance of optimal leaf tissue humidity is important for plant productivity and food security. Leaf humidity is influenced by soil and atmospheric water availability, by transpiration and by the coordination of water flux across cell membranes throughout the plant. Flux of water and solutes across plant cell membranes is influenced by the function of aquaporin proteins.

plasma membrane intrinsic protein (AtPIP2;1) is implicated in a salinity conditional influence on seed germination.

Dynamic changes in aquaporin gene expression occur during seed germination. One example is the ~30-fold increase in Arabidopsis thaliana PIP2;1 transcripts within 24h of seed imbibition. To investigate whether AtPIP2;1 can influence seed germination wild-type Columbia-0, single (Atpip2;1 ) and double (Atpip2;1-Atpip2;2 ) loss-of-function mutants, along with transgenic 2x35S::AtPIP2;1 over-expressing (OE) lines and null-segregant controls, were examined.

A high-throughput yeast approach to characterize aquaporin permeabilities: Profiling the Arabidopsis PIP aquaporin sub-family.

Introduction: Engineering membrane transporters to achieve desired functionality is reliant on availability of experimental data informing structure-function relationships and intelligent design. Plant aquaporin (AQP) isoforms are capable of transporting diverse substrates such as signaling molecules, nutrients, metalloids, and gases, as well as water. AQPs can act as multifunctional channels and their transport function is reliant on many factors, with few studies having assessed transport function of specific isoforms for multiple substrates.

Molecular membrane separation: plants inspire new technologies.

Plants draw up their surrounding soil solution to gain water and nutrients required for growth, development and reproduction. Obtaining adequate water and nutrients involves taking up both desired and undesired elements from the soil solution and separating resources from waste. Desirable and undesirable elements in the soil solution can share similar chemical properties, such as size and charge.

Mesophyll conductance is unaffected by expression of Arabidopsis PIP1 aquaporins in the plasmalemma of Nicotiana.

In plants with C3 photosynthesis, increasing the diffusion conductance for CO2 from the substomatal cavity to chloroplast stroma (mesophyll conductance) can improve the efficiencies of both CO2 assimilation and photosynthetic water use. In the diffusion pathway from substomatal cavity to chloroplast stroma, the plasmalemma and chloroplast envelope membranes impose a considerable barrier to CO2 diffusion, limiting photosynthetic efficiency. In an attempt to improve membrane permeability to CO2, and increase photosynthesis in tobacco, we generated transgenic lines in Nicotiana tabacum L.

Bridges or walls? A metaphorical dichotomy of Pope Francis versus Donald Trump's views of transnational migration.

Within a wider research line on policy-driven institutional discourses on migration by international/national institutions, NGO and political leaders, this contribution is aimed at illustrating the bipolarized social representations of immigrants inspiring 24 speeches by Pope Francis and US President Donald Trump. Statistical analyses using IRAMUTEQ included "specificity analysis" of discursive forms (words) and "cluster analysis." Results show that the Pope's discourse on migration (articulated into four clusters) is richer than the oversimplified Trump's discourse (originating just one cluster): the words "bridges" and "walls" emerge as representational nuclei of their bipolarized views of transnational migration, as metaphorical dichotomies of inclusive/exclusive policies.

Mirrored Social Representations of Canadian Caseworkers with Migratory Paths Intervening with Refugees in the Host Country.

In 2015, the resettlement of 25,000 Syrian refugees in Canada placed a strain on social services. Caseworkers employed in these agencies often come from similar migratory trajectories to those of the refugees. This experiential proximity requires an understanding of the subjective perspectives that caseworkers with migratory paths have of refugees in the context of their professional practice.

A consensus on the Aquaporin Gene Family in the Allotetraploid Plant, .

Aquaporins (AQPs) are membrane-spanning channel proteins with exciting applications for plant engineering and industrial applications. Translational outcomes will be improved by better understanding the extensive diversity of plant AQPs. However, gene families are complex, making exhaustive identification difficult, especially in polyploid species.

The Anthropological and Ethnographic Approaches to Social Representations Theory - an Empirical Meta-Theoretical Analysis.

Part of a larger project aimed at performing an empirical meta-theoretical analysis of the entire corpus of scientific literature on Social Representations Theory (SRT), this research presents the state of the art of the anthropological and ethnographic approaches to SRT. Applying the Grid for Meta-Theoretical Analysis on 295 publications selected from the So.Re.