Your search keyword '"Morris RJ"' showing total 12 results

1. Altering arabinans increases Arabidopsis guard cell flexibility and stomatal opening.

Author

Carroll S, Amsbury S, Durney CH, Smith RS, Morris RJ, Gray JE, and Fleming AJ

Published

2024

2. Grasses exploit geometry to achieve improved guard cell dynamics.

Author

Durney CH, Wilson MJ, McGregor S, Armand J, Smith RS, Gray JE, Morris RJ, and Fleming AJ

Subjects

Plants, Poaceae physiology, Plant Stomata physiology

Abstract

Stomata are controllable micropores formed between two adjacent guard cells (GCs) that regulate gas flow across the plant surface. 1 Grasses, among the most successful organisms on the planet and the main food crops for humanity, have GCs flanked by specialized lateral subsidiary cells (SCs). 2 , 3 , 4 SCs improve performance by acting as a local pool of ions and metabolites to drive changes in turgor pressure within the GCs that open/close the stomatal pore. 4 , 5 , 6 , 7 , 8 The 4-celled complex also involves distinctive changes in geometry, having dumbbell-shaped GCs compared with typical kidney-shaped stomata. 2 , 4 , 9 However, the degree to which this distinctive geometry contributes to improved stomatal performance, and the underlying mechanism, remains unclear. To address this question, we created a finite element method (FEM) model of a grass stomatal complex that successfully captures experimentally observed pore opening/closure. Exploration of the model, including in silico and experimental mutant analyses, supports the importance of a reciprocal pressure system between GCs and SCs for effective stomatal function, with SCs functioning as springs to restrain lateral GC movement. Our results show that SCs are not essential but lead to a more responsive system. In addition, we show that GC wall anisotropy is not required for grass stomatal function (in contrast to kidney-shaped GCs 10 ) but that a relatively thick GC rod region is needed to enhance pore opening. Our results demonstrate that a specific cellular geometry and associated mechanical properties are required for the effective functioning of grass stomata., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2023

3. Experimental evidence for a hidden network of higher-order interactions in a diverse arthropod community.

Author

Barbosa M, Fernandes GW, and Morris RJ

Subjects

Animals, Insecta, Biota, Arthropods, Baccharis

Abstract

Transcending pairwise interactions in ecological networks remains a challenge. 1 , 2 , 3 , 4 , 5 Higher-order interactions (HOIs), the modulation of a pairwise interaction by a third species, 6 are thought to play a particularly important role in stabilizing coexistence and maintaining species diversity. 7 , 8 , 9 , 10 , 11 , 12 However, HOIs have so far only been demonstrated in models 9 , 10 , 11 , 12 , 13 , 14 or isolated experimental systems including only a few interacting species. 7 , 8 , 15 Their ubiquity and importance at a community level in the real world remain unknown. We hypothesized that a complex network of HOIs could be constantly modifying pairwise interactions and shaping ecological communities and that consequently the outcome of pairwise interactions would be a product of many influences from distinct sources. Using field experiments, we tested how multiple interactions within a diverse arthropod community associated with the tropical shrub Baccharis dracunculifolia D.C. (Asteraceae) were modified by the removal of ant species or live or hatched insect galls (a non-trophic engineering effect) of the dominant galler species. We revealed an extensive hidden network of HOIs modifying each other and the "visible" pairwise interactions. Most pairwise interactions were affected indirectly by the manipulation of non-interacting taxonomic groups. The pervasiveness of these interaction modifications challenges pairwise approaches to understanding interaction outcomes and could shift our thinking about the structure and persistence of ecological communities. Investigating coexistence mechanisms involving interaction modulation by HOIs may be key to elucidating the underlying causes of the stability and persistence of ecological communities., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2023

4. Altering arabinans increases Arabidopsis guard cell flexibility and stomatal opening.

Author

Carroll S, Amsbury S, Durney CH, Smith RS, Morris RJ, Gray JE, and Fleming AJ

Subjects

Pectins, Plant Stomata physiology, Polysaccharides, Arabidopsis genetics

Abstract

Stomata regulate plant water use and photosynthesis by controlling leaf gas exchange. They do this by reversibly opening the pore formed by two adjacent guard cells, with the limits of this movement ultimately set by the mechanical properties of the guard cell walls and surrounding epidermis. 1 , 2 A body of evidence demonstrates that the methylation status and cellular patterning of pectin wall polymers play a core role in setting the guard cell mechanical properties, with disruption of the system leading to poorer stomatal performance. 3-6 Here we present genetic and biochemical data showing that wall arabinans modulate guard cell flexibility and can be used to engineer stomata with improved performance. Specifically, we show that a short-chain linear arabinan epitope associated with the presence of rhamnogalacturonan I in the guard cell wall is required for full opening of the stomatal pore. Manipulations leading to the novel accumulation of longer-chain arabinan epitopes in guard cell walls led to an increase in the maximal pore aperture. Using computational modeling combined with atomic force microscopy, we show that this phenotype reflected a decrease in wall matrix stiffness and, consequently, increased flexing of the guard cells under turgor pressure, generating larger, rounder stomatal pores. Our results provide theoretical and experimental support for the conclusion that arabinan side chains of pectin modulate guard cell wall stiffness, setting the limits for cell flexing and, consequently, pore aperture, gas exchange, and photosynthetic assimilation., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2022

5. Stomatal Opening Involves Polar, Not Radial, Stiffening Of Guard Cells.

Author

Carter R, Woolfenden H, Baillie A, Amsbury S, Carroll S, Healicon E, Sovatzoglou S, Braybrook S, Gray JE, Hobbs J, Morris RJ, and Fleming AJ

Subjects

Biomechanical Phenomena, Cell Wall physiology, Microscopy, Atomic Force, Arabidopsis physiology, Plant Stomata physiology, Plant Transpiration

Abstract

It has long been accepted that differential radial thickening of guard cells plays an important role in the turgor-driven shape changes required for stomatal pore opening to occur [1-4]. This textbook description derives from an original interpretation of structure rather than measurement of mechanical properties. Here we show, using atomic force microscopy, that although mature guard cells display a radial gradient of stiffness, this is not present in immature guard cells, yet young stomata show a normal opening response. Finite element modeling supports the experimental observation that radial stiffening plays a very limited role in stomatal opening. In addition, our analysis reveals an unexpected stiffening of the polar regions of the stomata complexes, both in Arabidopsis and other plants, suggesting a widespread occurrence. Combined experimental data (analysis of guard cell wall epitopes and treatment of tissue with cell wall digesting enzymes, coupled with bioassay of guard cell function) plus modeling lead us to propose that polar stiffening reflects a mechanical, pectin-based pinning down of the guard cell ends, which restricts increase of stomatal complex length during opening. This is predicted to lead to an improved response sensitivity of stomatal aperture movement with respect to change of turgor pressure. Our results provide new insight into the mechanics of stomatal function, both negating an established view of the importance of radial thickening and providing evidence for a significant role for polar stiffening. Improved stomatal performance via altered cell-wall-mediated mechanics is likely to be of evolutionary and agronomic significance., (Copyright © 2017 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2017

6. The Conformation of Interfacially Adsorbed Ranaspumin-2 Is an Arrested State on the Unfolding Pathway.

Author

Morris RJ, Brandani GB, Desai V, Smith BO, Schor M, and MacPhee CE

Subjects

Adsorption, Models, Molecular, Protein Conformation, Surface Properties, Thermodynamics, Amphibian Proteins chemistry, Protein Unfolding

Abstract

Ranaspumin-2 (Rsn-2) is a surfactant protein found in the foam nests of the túngara frog. Previous experimental work has led to a proposed model of adsorption that involves an unusual clam-shell-like unhinging of the protein at an interface. Interestingly, there is no concomitant denaturation of the secondary structural elements of Rsn-2 with the large-scale transformation of its tertiary structure. In this work we use both experiment and simulation to better understand the driving forces underpinning this unusual process. We develop a modified Gō-model approach where we have included explicit representation of the side chains to realistically model the interaction between the secondary structure elements of the protein and the interface. Doing so allows for the study of the underlying energy landscape that governs the mechanism of Rsn-2 interfacial adsorption. Experimentally, we study targeted mutants of Rsn-2, using the Langmuir trough, pendant drop tensiometry, and circular dichroism, to demonstrate that the clam-shell model is correct. We find that Rsn-2 adsorption is in fact a two-step process: the hydrophobic N-terminal tail recruits the protein to the interface after which Rsn-2 undergoes an unfolding transition that maintains its secondary structure. Intriguingly, our simulations show that the conformation Rsn-2 adopts at an interface is an arrested state along the denaturation pathway. More generally, our computational model should prove a useful, and computationally efficient, tool in studying the dynamics and energetics of protein-interface interactions., (Copyright © 2016. Published by Elsevier Inc.)

Published

2016

7. Epidermal Fatty Acid binding protein promotes skin inflammation induced by high-fat diet.

Author

Zhang Y, Li Q, Rao E, Sun Y, Grossmann ME, Morris RJ, Cleary MP, and Li B

Subjects

Animals, Cytokines metabolism, Fatty Acid-Binding Proteins deficiency, Fatty Acid-Binding Proteins genetics, Fatty Acid-Binding Proteins immunology, Immunohistochemistry, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Neoplasm Proteins deficiency, Neoplasm Proteins genetics, Neoplasm Proteins immunology, Skin Diseases genetics, T-Lymphocytes immunology, Diet, High-Fat adverse effects, Fatty Acid-Binding Proteins metabolism, Inflammation etiology, Neoplasm Proteins metabolism, Skin Diseases immunology

Abstract

Defining specific cellular and molecular mechanisms in most obesity-related diseases remains an important challenge. Here we report a serendipitous finding that consumption of a high-fat diet (HFD) greatly increased the occurrence of skin lesions in C57BL/6 mice. We demonstrated that HFD induced the accumulation of a specific type of CD11c(+) macrophages in skin preceding detectable lesions. These cells primed skin to induce IL-1β and IL-18 signaling, which further promoted the cytokines IFN-γ- and IL-17-mediated skin inflammation. Mechanistically, epidermal fatty acid binding protein (E-FABP) was significantly upregulated in skin of obese mice, which coupled lipid droplet formation and NLRP3 inflammasome activation. Deficiency of E-FABP in obese mice decreased recruitment of CD11c(+) macrophages in skin tissues, reduced production of IL-1β and IL-18, and consequently dampened activation of effector T cells. Furthermore, E-FABP-deficient mice are completely resistant to HFD-induced skin lesions. Collectively, E-FABP represents a molecular sensor triggering HFD-induced skin inflammation., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

8. A kinetic study of ovalbumin fibril formation: the importance of fragmentation and end-joining.

Author

Kalapothakis JM, Morris RJ, Szavits-Nossan J, Eden K, Covill S, Tabor S, Gillam J, Barran PE, Allen RJ, and MacPhee CE

Subjects

Animals, Chickens, Kinetics, Polymerization, Amyloid chemistry, Ovalbumin chemistry

Abstract

The ability to control the morphologies of biomolecular aggregates is a central objective in the study of self-assembly processes. The development of predictive models offers the surest route for gaining such control. Under the right conditions, proteins will self-assemble into fibers that may rearrange themselves even further to form diverse structures, including the formation of closed loops. In this study, chicken egg white ovalbumin is used as a model for the study of fibril loops. By monitoring the kinetics of self-assembly, we demonstrate that loop formation is a consequence of end-to-end association between protein fibrils. A model of fibril formation kinetics, including end-joining, is developed and solved, showing that end-joining has a distinct effect on the growth of fibrillar mass density (which can be measured experimentally), establishing a link between self-assembly kinetics and the underlying growth mechanism. These results will enable experimentalists to infer fibrillar morphologies from an appropriate analysis of self-assembly kinetic data., (Copyright © 2015 Biophysical Society. Published by Elsevier Inc. All rights reserved.)

Published

2015

9. Specialization of mutualistic interaction networks decreases toward tropical latitudes.

Author

Schleuning M, Fründ J, Klein AM, Abrahamczyk S, Alarcón R, Albrecht M, Andersson GK, Bazarian S, Böhning-Gaese K, Bommarco R, Dalsgaard B, Dehling DM, Gotlieb A, Hagen M, Hickler T, Holzschuh A, Kaiser-Bunbury CN, Kreft H, Morris RJ, Sandel B, Sutherland WJ, Svenning JC, Tscharntke T, Watts S, Weiner CN, Werner M, Williams NM, Winqvist C, Dormann CF, and Blüthgen N

Subjects

Animals, Biodiversity, Genetic Variation, Ecosystem, Plants genetics, Pollination, Seed Dispersal, Symbiosis, Tropical Climate

Abstract

Species-rich tropical communities are expected to be more specialized than their temperate counterparts. Several studies have reported increasing biotic specialization toward the tropics, whereas others have not found latitudinal trends once accounting for sampling bias or differences in plant diversity. Thus, the direction of the latitudinal specialization gradient remains contentious. With an unprecedented global data set, we investigated how biotic specialization between plants and animal pollinators or seed dispersers is associated with latitude, past and contemporary climate, and plant diversity. We show that in contrast to expectation, biotic specialization of mutualistic networks is significantly lower at tropical than at temperate latitudes. Specialization was more closely related to contemporary climate than to past climate stability, suggesting that current conditions have a stronger effect on biotic specialization than historical community stability. Biotic specialization decreased with increasing local and regional plant diversity. This suggests that high specialization of mutualistic interactions is a response of pollinators and seed dispersers to low plant diversity. This could explain why the latitudinal specialization gradient is reversed relative to the latitudinal diversity gradient. Low mutualistic network specialization in the tropics suggests higher tolerance against extinctions in tropical than in temperate communities., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

10. Community ecology: how green is the arctic tundra?

Author

Morris RJ

Subjects

Animals, Arctic Regions, Feeding Behavior, Predatory Behavior, Arvicolinae, Biomass, Food Chain, Mustelidae

Abstract

The exploitation ecosystems hypothesis suggests that food chain length increases along gradients of increasing primary productivity. Recent results provide compelling new evidence for this from an arctic-alpine ecosystem.

Published

2008

11. Desmoglein 4 in hair follicle differentiation and epidermal adhesion: evidence from inherited hypotrichosis and acquired pemphigus vulgaris.

Author

Kljuic A, Bazzi H, Sundberg JP, Martinez-Mir A, O'Shaughnessy R, Mahoney MG, Levy M, Montagutelli X, Ahmad W, Aita VM, Gordon D, Uitto J, Whiting D, Ott J, Fischer S, Gilliam TC, Jahoda CA, Morris RJ, Panteleyev AA, Nguyen VT, and Christiano AM

Subjects

Animals, Cadherins genetics, Cadherins immunology, Chromosome Mapping, Chromosomes, Human, Pair 18 genetics, Cytoskeletal Proteins genetics, Cytoskeletal Proteins immunology, DNA Mutational Analysis, Desmogleins, Epidermis metabolism, Epidermis pathology, Female, Hair Follicle metabolism, Hair Follicle pathology, Humans, Hypertrichosis genetics, Hypertrichosis immunology, Male, Mice, Mice, Knockout, Mice, Mutant Strains, Microscopy, Electron, Molecular Sequence Data, Mutation genetics, Pedigree, Pemphigus genetics, Pemphigus immunology, Phenotype, Cadherins metabolism, Cell Adhesion genetics, Cell Differentiation genetics, Cytoskeletal Proteins metabolism, Epidermis embryology, Hair Follicle embryology, Hypertrichosis metabolism, Pemphigus metabolism

Abstract

Cell adhesion and communication are interdependent aspects of cell behavior that are critical for morphogenesis and tissue architecture. In the skin, epidermal adhesion is mediated in part by specialized cell-cell junctions known as desmosomes, which are characterized by the presence of desmosomal cadherins, known as desmogleins and desmocollins. We identified a cadherin family member, desmoglein 4, which is expressed in the suprabasal epidermis and hair follicle. The essential role of desmoglein 4 in skin was established by identifying mutations in families with inherited hypotrichosis, as well as in the lanceolate hair mouse. We also show that DSG4 is an autoantigen in pemphigus vulgaris. Characterization of the phenotype of naturally occurring mutant mice revealed disruption of desmosomal adhesion and perturbations in keratinocyte behavior. We provide evidence that desmoglein 4 is a key mediator of keratinocyte cell adhesion in the hair follicle, where it coordinates the transition from proliferation to differentiation.

Published

2003

12. Mice lacking the cell adhesion molecule Thy-1 fail to use socially transmitted cues to direct their choice of food.

Author

Mayeux-Portas V, File SE, Stewart CL, and Morris RJ

Subjects

Animals, Cognition Disorders genetics, Mice, Mice, Inbred C57BL, Mice, Knockout, Odorants, Phenotype, Species Specificity, Animal Communication, Food Preferences, Thy-1 Antigens genetics

Abstract

Background: Thy-1 is a major cell-surface glycoprotein of mature neurons and certain other cells, including those of the lymphoreticular system. Despite being the simplest member of the immunoglobulin superfamily, the biological role of Thy-1 has proved elusive. Analysis of Thy-1 null mice has shown the presence of excessive GABAergic inhibition of neurotransmission in the dentate gyrus of the hippocampal formation selectively, without any neurological or behavioural effects being apparent., Results: We show here that Thy-1 null mice are unable to make the appropriate dietary choice in the test for social transmission of food preference, despite showing a normal level of social interaction with the demonstrator mouse, normal neophobia, and normal learning in a T-maze using scented food as cues. The mice also performed normally in tests of anxiety, locomotor activity, exploration of a novel environment, habituation to novelty and spatial learning. This phenotype is maintained on two different strain backgrounds, is rescued by transgenic expression of Thy-1 and by administration of the GABA(A) receptor antagonist pentylenetetrazole., Conclusions: The test for social transmission of food preference is based on the normal ability of mice in a colony to learn from each other which foods are safe to eat. The lack of this key survival behaviour in Thy-1 null mice could act as an evolutionary pressure point to conserve expression of Thy-1. Furthermore, the specific cognitive defect caused by inactivation of the Thy-1 gene suggests that it would be worthwhile to determine the role of Thy-1 in certain human familial forms of mental retardation that map to chromosome 11q22-23 in the region of the Thy-1 locus rather than the nearby ataxia telangiectasia locus.

Published

2000