Search

Your search keyword '"Sutherland PW"' showing total 27 results
Start Over Author "Sutherland PW"
27 results on '"Sutherland PW"'

2. Cell Wall Carbohydrate Dynamics during the Differentiation of Infection Structures by the Apple Scab Fungus, Venturia inaequalis.

Author

Rocafort M, Srivastava V, Bowen JK, Díaz-Moreno SM, Guo Y, Bulone V, Plummer KM, Sutherland PW, Anderson MA, Bradshaw RE, and Mesarich CH

Subjects
Cell Wall, Plant Diseases microbiology, Malus microbiology, Ascomycota genetics, Chitosan
Abstract

Scab, caused by the biotrophic fungal pathogen Venturia inaequalis, is the most economically important disease of apples. During infection, V. inaequalis colonizes the subcuticular host environment, where it develops specialized infection structures called runner hyphae and stromata. These structures are thought to be involved in nutrient acquisition and effector (virulence factor) delivery, but also give rise to conidia that further the infection cycle. Despite their importance, very little is known about how these structures are differentiated. Likewise, nothing is known about how these structures are protected from host defenses or recognition by the host immune system. To better understand these processes, we first performed a glycosidic linkage analysis of sporulating tubular hyphae from V. inaequalis developed in culture. This analysis revealed that the V. inaequalis cell wall is mostly composed of glucans (44%) and mannans (37%), whereas chitin represents a much smaller proportion (4%). Next, we used transcriptomics and confocal laser scanning microscopy to provide insights into the cell wall carbohydrate composition of runner hyphae and stromata. These analyses revealed that, during subcuticular host colonization, genes of V. inaequalis putatively associated with the biosynthesis of immunogenic carbohydrates, such as chitin and β-1,6-glucan, are downregulated relative to growth in culture, while on the surface of runner hyphae and stromata, chitin is deacetylated to the less-immunogenic carbohydrate chitosan. These changes are anticipated to enable the subcuticular differentiation of runner hyphae and stromata by V. inaequalis , as well as to protect these structures from host defenses and recognition by the host immune system. IMPORTANCE Plant-pathogenic fungi are a major threat to food security. Among these are subcuticular pathogens, which often cause latent asymptomatic infections, making them difficult to control. A key feature of these pathogens is their ability to differentiate specialized subcuticular infection structures that, to date, remain largely understudied. This is typified by Venturia inaequalis, which causes scab, the most economically important disease of apples. In this study, we show that, during subcuticular host colonization, V. inaequalis downregulates genes associated with the biosynthesis of two immunogenic cell wall carbohydrates, chitin and β-1,6-glucan, and coats its subcuticular infection structures with a less-immunogenic carbohydrate, chitosan. These changes are anticipated to enable host colonization by V. inaequalis and provide a foundation for understanding subcuticular host colonization by other plant-pathogenic fungi. Such an understanding is important, as it may inform the development of novel control strategies against subcuticular plant-pathogenic fungi., Competing Interests: The authors declare no conflict of interest.

Published
2023
Full Text
View/download PDF

3. Effector loss drives adaptation of Pseudomonas syringae pv. actinidiae biovar 3 to Actinidia arguta.

Author

Hemara LM, Jayaraman J, Sutherland PW, Montefiori M, Arshed S, Chatterjee A, Chen R, Andersen MT, Mesarich CH, van der Linden O, Yoon M, Schipper MM, Vanneste JL, Brendolise C, and Templeton MD

Subjects
Plant Diseases microbiology, Plant Leaves, Virulence, Actinidia microbiology, Pseudomonas syringae genetics
Abstract

A pandemic isolate of Pseudomonas syringae pv. actinidiae biovar 3 (Psa3) has devastated kiwifruit orchards growing cultivars of Actinidia chinensis. In contrast, A. arguta (kiwiberry) is not a host of Psa3. Resistance is mediated via effector-triggered immunity, as demonstrated by induction of the hypersensitive response in infected A. arguta leaves, observed by microscopy and quantified by ion-leakage assays. Isolates of Psa3 that cause disease in A. arguta have been isolated and analyzed, revealing a 51 kb deletion in the exchangeable effector locus (EEL). This natural EEL-mutant isolate and strains with synthetic knockouts of the EEL were more virulent in A. arguta plantlets than wild-type Psa3. Screening of a complete library of Psa3 effector knockout strains identified increased growth in planta for knockouts of four effectors-AvrRpm1a, HopF1c, HopZ5a, and the EEL effector HopAW1a -suggesting a resistance response in A. arguta. Hypersensitive response (HR) assays indicate that three of these effectors trigger a host species-specific HR. A Psa3 strain with all four effectors knocked out escaped host recognition, but a cumulative increase in bacterial pathogenicity and virulence was not observed. These avirulence effectors can be used in turn to identify the first cognate resistance genes in Actinidia for breeding durable resistance into future kiwifruit cultivars., Competing Interests: The authors have declared that no competing interests exist.

Published
2022
Full Text
View/download PDF

4. Reference genes for gene expression analysis in the fungal pathogen Neonectria ditissima and their use demonstrating expression up-regulation of candidate virulence genes.

Author

Florez LM, Scheper RWA, Fisher BM, Sutherland PW, Templeton MD, and Bowen JK

Subjects
Gene Expression Profiling methods, Malus microbiology, Plant Diseases microbiology, Real-Time Polymerase Chain Reaction methods, Reference Standards, Gene Expression genetics, Genes, Fungal genetics, Hypocreales genetics, Up-Regulation genetics, Virulence genetics
Abstract

European canker, caused by the necrotrophic fungal phytopathogen Neonectria ditissima, is one of the most damaging apple diseases worldwide. An understanding of the molecular basis of N. ditissima virulence is currently lacking. Identification of genes with an up-regulation of expression during infection, which are therefore probably involved in virulence, is a first step towards this understanding. Reverse transcription quantitative real-time PCR (RT-qPCR) can be used to identify these candidate virulence genes, but relies on the use of reference genes for relative gene expression data normalisation. However, no report that addresses selecting appropriate fungal reference genes for use in the N. ditissima-apple pathosystem has been published to date. In this study, eight N. ditissima genes were selected as candidate RT-qPCR reference genes for gene expression analysis. A subset of the primers (six) designed to amplify regions from these genes were specific for N. ditissima, failing to amplify PCR products with template from other fungal pathogens present in the apple orchard. The efficiency of amplification of these six primer sets was satisfactory, ranging from 81.8 to 107.53%. Analysis of expression stability when a highly pathogenic N. ditissima isolate was cultured under 10 regimes, using the statistical algorithms geNorm, NormFinder and BestKeeper, indicated that actin and myo-inositol-1-phosphate synthase (mips), or their combination, could be utilised as the most suitable reference genes for normalisation of N. ditissima gene expression. As a test case, these reference genes were used to study expression of three candidate virulence genes during a time course of infection. All three, which shared traits with fungal effector genes, had up-regulated expression in planta compared to in vitro with expression peaking between five and six weeks post inoculation (wpi). Thus, these three genes may well be involved in N. ditissima pathogenicity and are priority candidates for further functional characterization., Competing Interests: The authors have declared that no competing interests exist.

Published
2020
Full Text
View/download PDF

5. Cell type-specific gene expression underpins remodelling of cell wall pectin in exocarp and cortex during apple fruit development.

Author

Collins PP, O'donoghue EM, Rebstock R, Tiffin HR, Sutherland PW, Schröder R, McAtee PA, Prakash R, Ireland HS, Johnston JW, Atkinson RG, Schaffer RJ, Hallett IC, and Brummell DA

Subjects
Cell Wall chemistry, Cell Wall genetics, Epitopes metabolism, Fruit growth & development, Galactans metabolism, Gene Expression Regulation, Developmental, Malus growth & development, Molecular Weight, Plant Epidermis metabolism, Polysaccharides metabolism, Solubility, Transcriptome genetics, Cell Wall metabolism, Fruit genetics, Gene Expression Regulation, Plant, Malus genetics, Pectins metabolism
Abstract

In apple (Malus×domestica) fruit, the different layers of the exocarp (cuticle, epidermis, and hypodermis) protect and maintain fruit integrity, and resist the turgor-driven expansion of the underlying thin-walled cortical cells during growth. Using in situ immunolocalization and size exclusion epitope detection chromatography, distinct cell type differences in cell wall composition in the exocarp were revealed during apple fruit development. Epidermal cell walls lacked pectic (1→4)-β-d-galactan (associated with rigidity), whereas linear (1→5)-α-l-arabinan (associated with flexibility) was exclusively present in the epidermal cell walls in expanding fruit and then appeared in all cell types during ripening. Branched (1→5)-α-l-arabinan was uniformly distributed between cell types. Laser capture microdissection and RNA sequencing (RNA-seq) were used to explore transcriptomic differences controlling cell type-specific wall modification. The RNA-seq data indicate that the control of cell wall composition is achieved through cell-specific gene expression of hydrolases. In epidermal cells, this results in the degradation of galactan side chains by possibly five β-galactosidases (BGAL2, BGAL7, BGAL10, BGAL11, and BGAL103) and debranching of arabinans by α-arabinofuranosidases AF1 and AF2. Together, these results demonstrate that flexibility and rigidity of the different cell layers in apple fruit during development and ripening are determined, at least in part, by the control of cell wall pectin remodelling., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published
2019
Full Text
View/download PDF

6. Simultaneous knock-down of six β-galactosidase genes in petunia petals prevents loss of pectic galactan but decreases petal strength.

Author

O'Donoghue EM, Somerfield SD, Deroles SC, Sutherland PW, Hallett IC, Erridge ZA, Brummell DA, and Hunter DA

Subjects
Aging physiology, Base Sequence, Carbonates chemistry, Cell Wall chemistry, Cell Wall metabolism, Down-Regulation, Flowers chemistry, Flowers enzymology, Flowers genetics, Flowers growth & development, Flowers physiology, Galactose metabolism, Gene Knockdown Techniques, Petunia growth & development, Petunia metabolism, Plant Extracts chemistry, Plants, Genetically Modified, Polysaccharides chemistry, Polysaccharides metabolism, beta-Galactosidase biosynthesis, beta-Galactosidase metabolism, Galactans metabolism, Pectins metabolism, Petunia enzymology, Petunia genetics, beta-Galactosidase genetics
Abstract

Galactose (Gal) is incorporated into cell wall polysaccharides as flowers open, but then is lost because of β-galactosidase activity as flowers mature and wilt. The significance of this for flower physiology resides in the role of galactan-containing polysaccharides in the cell wall, which is still largely unresolved. To investigate this, transcript accumulation of six cell wall-associated β-galactosidases was simultaneously knocked down in 'Mitchell' petunia (Petunia axillaris x (P. axillaris x P. hybrida)) flower petals. The multi-PhBGAL RNAi construct targeted three bud- and three senescence-associated β-galactosidase genes. The petals of the most down-regulated line (GA19) were significantly disrupted in galactose turnover during flower opening, and at the onset of senescence had retained 86% of their galactose compared with 20% in the controls. The Gal content of Na 2 CO 3 -soluble cell wall extracts and the highly insoluble polysaccharides associated with cellulose were particularly affected. Immunodetection with the antibody LM5 showed that much of the cell wall Gal in GA19 was retained as galactan, presumably the side-chains of rhamnogalacturonan-I. The flowers of GA19, despite having retained substantially more galactan, were no different from controls in their internal cell arrangement, dimensions, weight or timing of opening and senescence. However, the GA19 petals had less petal integrity (as judged by force required to cause petal fracture) after opening and showed a greater decline in this integrity with time than controls, raising the possibility that galactan loss is a mechanism for helping to maintain petal tissue cohesion after flower opening., (Copyright © 2017 Elsevier Masson SAS. All rights reserved.)

Published
2017
Full Text
View/download PDF

7. Lower cell wall pectin solubilisation and galactose loss during early fruit development in apple (Malus x domestica) cultivar 'Scifresh' are associated with slower softening rate.

Author

Ng JK, Schröder R, Brummell DA, Sutherland PW, Hallett IC, Smith BG, Melton LD, and Johnston JW

Subjects
Fluorescent Antibody Technique, Galactans metabolism, Glycomics, Molecular Weight, Plant Extracts chemistry, Solubility, Cell Wall metabolism, Fruit growth & development, Fruit metabolism, Galactose metabolism, Malus growth & development, Malus metabolism, Pectins metabolism
Abstract

Substantial differences in softening behaviour can exist between fruit even within the same species. Apple cultivars 'Royal Gala' and 'Scifresh' soften at different rates despite having a similar genetic background and producing similar amounts of ethylene during ripening. An examination of cell wall metabolism from the fruitlet to the ripe stages showed that in both cultivars pectin solubilisation increased during cell expansion, declined at the mature stage and then increased again during ripening. This process was much less pronounced in the slower softening 'Scifresh' than in 'Royal Gala' at every developmental stage examined, consistent with less cell separation and softening in this cultivar. Both cultivars also exhibited a progressive loss of pectic galactan and arabinan side chains during development. The cell wall content of arabinose residues was similar in both cultivars, but the galactose residue content in 'Scifresh' remained higher than that of 'Royal Gala' at every developmental stage. The higher content of cell wall galactose residue in 'Scifresh' cell walls correlated with a lower β-galactosidase activity and more intense immunolabelling of RG-I galactan side chains in both microscopy sections and glycan microarrays. A high cell wall galactan content has been associated with reduced cell wall porosity, which may restrict access of cell wall-modifying enzymes and thus maintain better structural integrity later in development. The data suggest that the composition and structure of the cell wall at very early development stages may influence subsequent cell wall loosening, and may even predispose the wall's ensuing properties., (Copyright © 2014 Elsevier GmbH. All rights reserved.)

Published
2015
Full Text
View/download PDF

8. Cell wall structures leading to cultivar differences in softening rates develop early during apple (Malus x domestica) fruit growth.

Author

Ng JK, Schröder R, Sutherland PW, Hallett IC, Hall MI, Prakash R, Smith BG, Melton LD, and Johnston JW

Subjects
Fruit genetics, Gene Expression Regulation, Plant, Malus genetics, Cell Wall metabolism, Fruit anatomy & histology, Fruit growth & development, Malus anatomy & histology, Malus growth & development
Abstract

Background: There is a paucity of information regarding development of fruit tissue microstructure and changes in the cell walls during fruit growth, and how these developmental processes differ between cultivars with contrasting softening behaviour. In this study we compare two apple cultivars that show different softening rates during fruit development and ripening. We investigate whether these different softening behaviours manifest themselves late during ethylene-induced softening in the ripening phase, or early during fruit expansion and maturation., Results: 'Scifresh' (slow softening) and 'Royal Gala' (rapid softening) apples show differences in cortical microstructure and cell adhesion as early as the cell expansion phase. 'Scifresh' apples showed reduced loss of firmness and greater dry matter accumulation compared with 'Royal Gala' during early fruit development, suggesting differences in resource allocation that influence tissue structural properties. Tricellular junctions in 'Scifresh' were rich in highly-esterified pectin, contributing to stronger cell adhesion and an increased resistance to the development of large airspaces during cell expansion. Consequently, mature fruit of 'Scifresh' showed larger, more angular shaped cells than 'Royal Gala', with less airspaces and denser tissue. Stronger cell adhesion in ripe 'Scifresh' resulted in tissue fracture by cell rupture rather than by cell-to-cell-separation as seen in 'Royal Gala'. CDTA-soluble pectin differed in both cultivars during development, implicating its involvement in cell adhesion. Low pectin methylesterase activity during early stages of fruit development coupled with the lack of immuno-detectable PG was associated with increased cell adhesion in 'Scifresh'., Conclusions: Our results indicate that cell wall structures leading to differences in softening rates of apple fruit develop early during fruit growth and well before the induction of the ripening process.

Published
2013
Full Text
View/download PDF

9. Apple SEPALLATA1/2-like genes control fruit flesh development and ripening.

Author

Ireland HS, Yao JL, Tomes S, Sutherland PW, Nieuwenhuizen N, Gunaseelan K, Winz RA, David KM, and Schaffer RJ

Subjects
Cell Wall immunology, Cell Wall metabolism, DNA, Antisense, Flowers genetics, Flowers growth & development, Fruit genetics, Fruit growth & development, Gene Expression Regulation, Plant, Lyases genetics, Lyases metabolism, Phylogeny, Plant Proteins metabolism, Plants, Genetically Modified, Promoter Regions, Genetic, Fruit physiology, Malus genetics, Malus growth & development, Plant Proteins genetics
Abstract

Flowering plants utilize different floral structures to develop flesh tissue in fruits. Here we show that suppression of the homeologous SEPALLATA1/2-like genes MADS8 and MADS9 in the fleshy fruit apple (Malus x domestica) leads to sepaloid petals and greatly reduced fruit flesh. Immunolabelling of cell-wall epitopes and differential staining showed that the developing hypanthium (from which the apple flesh develops) of MADS8/9-suppressed apple flowers lacks a tissue layer, and the remaining flesh tissue of fully developed apples has considerably smaller cells. From these observations, it is proposed that MADS8 and MADS9 control the development of discrete zones within the hypanthium tissue, and therefore fruit flesh, and also act as foundations for development of different floral organs. At fruit maturity, the MADS8/9-suppressed apples do not ripen in terms of both developmentally controlled ripening characters, such as starch degradation, and ethylene-modulated ripening traits. Transient assays suggest that, like the RIN gene in tomato, the MADS9 gene acts as a transcriptional activator of the ethylene biosynthesis enzyme, 1-aminocyclopropane-1-carboxylate (ACC) synthase 1. The existence of a single class of genes that regulate both flesh formation and ripening provides an evolutionary tool for controlling two critical aspects of fleshy fruit development., (© 2012 The Authors The Plant Journal © 2012 Blackwell Publishing Ltd.)

Published
2013
Full Text
View/download PDF

10. Down-regulation of POLYGALACTURONASE1 alters firmness, tensile strength and water loss in apple (Malus x domestica) fruit.

Author

Atkinson RG, Sutherland PW, Johnston SL, Gunaseelan K, Hallett IC, Mitra D, Brummell DA, Schröder R, Johnston JW, and Schaffer RJ

Subjects
Cell Adhesion, Cell Wall metabolism, Crosses, Genetic, Fruit genetics, Fruit ultrastructure, Gene Expression Regulation, Plant, Malus genetics, Malus physiology, Malus ultrastructure, Pectins metabolism, Plants, Genetically Modified, Polygalacturonase genetics, Polygalacturonase metabolism, Polymerization, Seasons, Suppression, Genetic, Uronic Acids metabolism, Down-Regulation genetics, Fruit enzymology, Fruit physiology, Malus enzymology, Plant Transpiration genetics, Tensile Strength, Water metabolism
Abstract

Background: While there is now a significant body of research correlating apple (Malus x domestica) fruit softening with the cell wall hydrolase ENDO-POLYGALACTURONASE1 (PG1), there is currently little knowledge of its physiological effects in planta. This study examined the effect of down regulation of PG1 expression in 'Royal Gala' apples, a cultivar that typically has high levels of PG1, and softens during fruit ripening., Results: PG1-suppressed 'Royal Gala' apples harvested from multiple seasons were firmer than controls after ripening, and intercellular adhesion was higher. Cell wall analyses indicated changes in yield and composition of pectin, and a higher molecular weight distribution of CDTA-soluble pectin. Structural analyses revealed more ruptured cells and free juice in pulled apart sections, suggesting improved integrity of intercellular connections and consequent cell rupture due to failure of the primary cell walls under stress. PG1-suppressed lines also had reduced expansion of cells in the hypodermis of ripe apples, resulting in more densely packed cells in this layer. This change in morphology appears to be linked with reduced transpirational water loss in the fruit., Conclusions: These findings confirm PG1's role in apple fruit softening and suggests that this is achieved in part by reducing cellular adhesion. This is consistent with previous studies carried out in strawberry but not with those performed in tomato. In apple PG1 also appears to influence other fruit texture characters such as juiciness and water loss.

Published
2012
Full Text
View/download PDF

11. Cell wall polysaccharide distribution in Sandersonia aurantiaca flowers using immuno-detection.

Author

O'Donoghue EM and Sutherland PW

Subjects
Flowers cytology, Galactans metabolism, Magnoliopsida cytology, Microscopy, Fluorescence, Polysaccharides metabolism, Cell Wall metabolism, Flowers metabolism, Magnoliopsida metabolism, Pectins metabolism
Abstract

The localization of cell wall polysaccharides of the fused petals of monocotyledonous Sandersonia aurantiaca flowers has been identified using antibodies directed to pectin and xyloglucan epitopes and detection by fluorescence microscopy. Cross sections of the petal tissue were taken from cut flowers in bud and at various stages of maturity and senescence. Patterns of esterification in pectin backbones were identified by JIM5 and 2F4 labelling. Pectic galactan and arabinan side branches were detected by LM5 and LM6, respectively, while fucosylated xyloglucan was identified by CCRC-M1. The labelling patterns highlighted compositional differences between walls of the outer/inner epidermis compared to the spongy parenchyma cells of the interior mesophyll for fucosylated xyloglucan and arabinan. Partially esterified homogalacturonan was present in the junction zones of the outer epidermis and points of contact between cells of the mesophyll, and persisted throughout senescence. Pectic galactans were ubiquitous in the outer and inner epidermal cell walls and walls of the interior mesophyll at flower opening, whereas pectic arabinan was found predominantly in the epidermal cells. Galactan was lost from walls of all cells as flowers began to senesce, while fucosylated xyloglucan appeared to increase over this time. Such differences in the location of polysaccharides and the timing of changes suggest distinct combinations of certain polysaccharides offer mechanical and rheological advantages that may assist with flower opening and senescence.

Published
2012
Full Text
View/download PDF

12. A New 'Candidatus Liberibacter' Species Associated with Diseases of Solanaceous Crops.

Author

Liefting LW, Sutherland PW, Ward LI, Paice KL, Weir BS, and Clover GRG

Abstract

A new disease of glasshouse-grown tomato and pepper in New Zealand has resulted in plant decline and yield loss. Affected plants are characterized by spiky, chlorotic apical growth, curling or cupping of the leaves, and overall stunting. Transmission electron microscopy revealed the presence of phloem-limited bacterium-like organisms in symptomatic plants. The strategy used to identify the bacterium involved using specific prokaryote polymerase chain reaction (PCR) primers in combination with universal 16S rRNA primers. Sequence analysis of the 16S rRNA gene, the 16S/23S rRNA spacer region, and the rplKAJL-rpoBC operon revealed that the bacterium shared high identity with 'Candidatus Liberibacter' species. Phylogenetic analysis showed that the bacterium is distinct from the three citrus liberibacter species previously described and has been named 'Candidatus Liberibacter solanacearum'. This is the first report of a liberibacter naturally infecting a host outside the Rutaceae family. A specific PCR primer pair was developed for its detection.

Published
2009
Full Text
View/download PDF

13. Two novel Venturia inaequalis genes induced upon morphogenetic differentiation during infection and in vitro growth on cellophane.

Author

Kucheryava N, Bowen JK, Sutherland PW, Conolly JJ, Mesarich CH, Rikkerink EH, Kemen E, Plummer KM, Hahn M, and Templeton MD

Subjects
Amino Acid Sequence, Ascomycota chemistry, Ascomycota genetics, Ascomycota metabolism, Fungal Proteins chemistry, Fungal Proteins metabolism, Models, Biological, Molecular Sequence Data, Plant Leaves chemistry, Plant Leaves genetics, Plant Leaves growth & development, Plant Leaves metabolism, Protein Sorting Signals, Protein Structure, Tertiary, Sequence Alignment, Ascomycota growth & development, Cellophane, Fungal Proteins genetics, Gene Expression Regulation, Fungal, Malus microbiology, Morphogenesis, Plant Diseases microbiology, Up-Regulation
Abstract

Venturia inaequalis is a hemibiotrophic ascomycete that causes apple scab. Germ tubes, from conidia or ascospores, penetrate the leaf or fruit surface directly via appressoria-like swellings; subsequently the hyphae divide laterally to form a stroma between the cuticle and the outer wall of the epidermal cells. This morphological switch can be mimicked by growing the fungus in vitro on cellophane discs. The aim of this work was to identify genes upregulated in planta using growth on cellophane as a model. Four cDNA clones were found to be induced by growth on cellophane, and qRT-PCR showed two of these genes were up-regulated over a thousand fold in infected apple leaves compared to liquid culture. The predicted proteins for both genes possess putative signal peptides for secretion but have no similarity to sequences in publicly available databases. Both genes encode proteins with novel, imperfect repeat domain structures, the number of which vary in an isolate-specific fashion. Cin1 has seven or eight repeats of about 60 amino acids with four conserved cysteine residues per repeat, while Cin3 has four or five repeats of 32 amino acids with no cysteines. Both proteins appear to have evolved through internal duplication. Cin3, in particular, shows considerable between-strain variation in domain structure, indicating a high degree of recombination at this locus and revealing that the repeat structure has most likely arisen by unequal crossing-over. Results of this study support the hypothesis that cellophane-grown V. inaequalis mimics aspects of biotrophic infection and provide the first insights into novel fungal genes expressed during apple scab infection and their mechanisms of evolution.

Published
2008
Full Text
View/download PDF

14. Identification and characterisation of acidic and novel basic forms of actinidin, the highly abundant cysteine protease from kiwifruit.

Author

Nieuwenhuizen NJ, Beuning LL, Sutherland PW, Sharma NN, Cooney JM, Bieleski LRF, Schröder R, MacRae EA, and Atkinson RG

Abstract

Actinidin is a cysteine protease found in Actinidia Lindl. (kiwifruit) species that affects the nutraceutical properties, processing characteristics and allergenicity of the fruit. Given the increased consumption of kiwifruit worldwide and the release of new varieties from different Actinidia species, the expression of actinidin mRNA and protein in a range of kiwifruit tissues was examined. Ten different actinidin mRNAs were identified encoding mature proteins of similar molecular weight (~24 kDa), but with predicted pIs ranging from acidic (pI 3.9) to basic (pI 9.3). In A. deliciosa 'Hayward' (green-fleshed kiwifruit) and A. chinensis 'Hort16A' and EM4 (gold-fleshed kiwifruit), actinidin mRNAs for acidic and basic proteins were expressed at comparable levels throughout ripening. Actinidin mRNA expression was highest in fruit at harvest, expression decreased as fruit ripened and was much lower in the core compared with outer pericarp tissue. Two-dimensional gel electrophoresis, combined with western analysis and liquid chromatography mass spectrometry (LC-MS) identified low levels of a novel basic actinidin protein in ripe A. deliciosa and A. chinensis fruit. Extremely high levels of an acidic actinidin protein were detected in A. deliciosa fruit and EM4, but this acidic protein appeared to be absent in 'Hort16A', the most important commercial cultivar of A. chinensis. Analyses on native gels indicated that both the basic and acidic actinidin isoforms in A. deliciosa were active cysteine proteases. Immunolocalisation showed that actinidin was present in small cells, but not large cells in the outer pericarp of mature A. deliciosa fruit at harvest. Within the small cells, actinidin was localised diffusely in the vacuole, associated with the plasma membrane, and in a layer in the plastids near starch granules. The presence of multiple forms of actinidin and varying protein levels in fruit will impact on the ability to breed new kiwifruit varieties with altered actinidin levels.

Published
2007
Full Text
View/download PDF

15. Cytochemistry and immunolocalisation of polysaccharides and proteoglycans in the endosperm of green Arabica coffee beans.

Author

Sutherland PW, Hallett IC, MacRae E, Fischer M, and Redgwell RJ

Subjects
Biopolymers analysis, Cell Wall chemistry, Cell Wall ultrastructure, Coffea immunology, Coffee chemistry, Mannans analysis, Mucoproteins analysis, Pectins analysis, Plant Proteins, Seeds anatomy & histology, Seeds immunology, Seeds ultrastructure, Coffea cytology, Polysaccharides analysis, Polysaccharides immunology, Proteoglycans analysis, Proteoglycans immunology, Seeds chemistry
Abstract

The major noncellulosic polysaccharides and proteoglycans in the coffee bean (Coffea arabica) cell wall are (galacto)mannans and arabinogalactan proteins. Immunological and chemical probes demonstrated that the mannans and arabinogalactan proteins were located continuously across the width of the cell wall, but that the concentration of different structural epitopes within these polysaccharide types showed considerable spatial variation. For the mannans this was implied by the striated pattern demonstrated by fluctuation of the affinity between the mannan monoclonal antibody BGM C6 and (galacto)mannan. The arabinogalactan proteins labelled by the Yariv reagent and the arabinogalactan protein-specific antibody LM2 appeared to be located in all regions of the wall except the middle lamella, but showed some differences in intensity of labelling. However, the LM6 antibody, specific for (1-->5)-alpha-arabinan epitopes, was located only as a compact region adjacent to the cell lumen in the body of the endosperm; though, it did label throughout the wall of epidermal cells. This implied that either some of the more highly arabinosylated arabinogalactan proteins contained contiguous 5-arabinosyl residues or that a rhamnogalacturonan which contained 5-arabinosyl residues as side chains existed in the cell wall. In either case the polymers were very restricted in their distribution. A second category of pectin, a homogalacturonan detected by JIM7, was located only in the middle lamella region. The architecture of the wall, as revealed by resin etching, appeared to reflect the chemical heterogeneity, with three distinct physical zones identifiable in a cross section across a single wall.

Published
2004
Full Text
View/download PDF

16. Expression of biotin-binding proteins, avidin and streptavidin, in plant tissues using plant vacuolar targeting sequences.

Author

Murray C, Sutherland PW, Phung MM, Lester MT, Marshall RK, and Christeller JT

Subjects
Avidin metabolism, Biotin metabolism, Gene Expression, Phenotype, Plant Leaves metabolism, Plant Roots metabolism, Plants, Genetically Modified, Protein Processing, Post-Translational, Protein Transport, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Streptavidin metabolism, Nicotiana metabolism, Avidin genetics, Protein Sorting Signals genetics, Streptavidin genetics, Nicotiana genetics, Vacuoles metabolism
Abstract

Tobacco plants have been developed which constitutively express high levels of the biotin-binding proteins, avidin and streptavidin. These plants were phenotypically normal and produced fertile pollen and seeds. The transgene was expressed and its product located in the vacuoles of most cell types in the plants. Targeting was achieved by use of N-terminal vacuolar targeting sequences derived from potato proteinase inhibitors which are known to target constitutively to vacuoles in potato tubers and, under wound-induction, in tomato leaves. Avidin was located in protein body-like structures within the vacuole and transgene protein levels remained relatively constant throughout the lifetime of the leaf. We describe two chimeric constructs with similar levels of expression. One comprised a potato proteinase inhibitor I signal peptide cDNA sequence attached to an avidin cDNA and the second a potato proteinase inhibitor II signal peptide genomic sequence (including an intron) attached to a core streptavidin synthetic sequence. We were unable to regenerate plants when transformation used constructs lacking the targeting sequences. The highest levels observed (up to 1.5% of total leaf protein) confirm the vacuole as the organelle of choice for stable storage of plant-toxic transgene products. The efficient targeting of these proteins did not result in any measured changes in plant biotin metabolism.

Published
2002
Full Text
View/download PDF

17. Ultrastructural changes to the midgut of the black field cricket (Teleogryllus commodus) following ingestion of potato protease inhibitor II.

Author

Sutherland PW, Burgess EP, Philip BA, McManus MT, Watson L, and Christeller JT

Abstract

Ultrastructural changes to the midgut epithelium of nymphs of the black field cricket (Teleogryllus commodus) after ingestion of potato protease inhibitor II (PPI-II) (0.6% (w/v) in artificial diet) were determined by light and electron microscopy. Crickets fed diet containing PPI-II grew more slowly than those fed control diet and changes observed to the PPI-II-fed nymphs included reduction of midgut wall depth, vacuolisation of the epithelial cells, swelling of the microvilli, cellular protrusions into the midgut and eventual rupture of individual or small groups of epithelial cells. These changes were first seen 2 days after PPI-II ingestion. Complete disintegration of the midgut to the basement membrane was not seen during the 27-day observation period and repair and regeneration of pockets of epithelial cells was observed. Immunocytochemistry revealed that PPI-II was localised within the ectoperitrophic matrix space of the gut. The location of the peritrophic matrix was determined by labelling with wheat germ agglutinin (WGA), but no rupture of this structure was observed in PPI-II-fed nymphs.

Published
2002
Full Text
View/download PDF

18. Dark green islands in plant virus infection are the result of posttranscriptional gene silencing.

Author

Moore CJ, Sutherland PW, Forster RL, Gardner RC, and MacDiarmid RM

Subjects
Plants, Genetically Modified, RNA, Viral metabolism, Solanaceae, Nicotiana, Gene Silencing, Plant Diseases virology, Plant Leaves virology, Potyvirus genetics, RNA Processing, Post-Transcriptional
Abstract

Dark green islands (DGIs) are a common symptom of plants systemically infected with a mosaic virus. DGIs are clusters of green leaf cells that are free of virus but surrounded by yellow, virus-infected tissue. We report here on two lines of evidence showing that DGIs are caused by posttranscriptional gene silencing (PTGS). First, transcripts of a transgene derived from the coat protein of Tamarillo mosaic potyvirus (TaMV) were reduced in DGIs relative to adjacent yellow tissues when the plants were infected with TaMV. Second, nontransgenic plants coinfected with TaMV and a heterologous virus vector carrying TaMV sequences showed reduced titers of the vector in DGIs compared with surrounding tissues. DGIs also were compared with recovered tissue at the top of transgenic plants because recovery has been shown previously to involve PTGS. Cytological analysis of the cells at the junction between recovered and infected tissue was undertaken. The interface between recovered and infected cells had very similar features to that surrounding DGIs. We conclude that DGIs and recovery are related phenomena, differing in their ability to amplify or transport the silencing signal.

Published
2001
Full Text
View/download PDF

19. Association of "Candidatus Phytoplasma australiense" with Sudden Decline of Cabbage Tree in New Zealand.

Author

Andersen MT, Beever RE, Sutherland PW, and Forster RLS

Abstract

Sudden decline of the New Zealand cabbage tree (Cordyline australis) results in the rapid death of affected plants within months of first external symptoms becoming apparent. Symptoms, which have been observed in saplings and mature trees, include vascular discoloration and leaf yellowing followed by leaf desiccation and eventual plant collapse. Previous work failed to link the disease with any causal agent. A phytoplasma has now been detected in all symptomatic saplings and some symptomatic trees tested, using one-step and nested polymerase chain reaction (PCR) to amplify portions of the 16S rRNA gene. This phytoplasma was not detected in nonsymptomatic plants. Phytoplasma DNA was found in shoot and rhizome apices, leaves and wood tissue of saplings, and in the rhizome apex and trunk tissues of adult trees. Sequencing of the PCR products from selected samples indicated that the phytoplasma is "Candidatus Phytoplasma australiense." Phytoplasma cells were detected by transmission electron microscopy in phloem sieve tubes of the rhizomes of affected saplings. One sapling with early symptoms recovered after injection with tetracycline antibiotic, but two saplings with advanced symptoms did not recover. It is concluded that "Candidatus Phytoplasma australiense" is present in symptomatic plants and is the cause of sudden decline.

Published
2001
Full Text
View/download PDF

20. Phormium Yellow Leaf Phytoplasma Is Associated with Strawberry Lethal Yellows Disease in New Zealand.

Author

Andersen MT, Longmore J, Liefting LW, Wood GA, Sutherland PW, Beck DL, and Forster RLS

Abstract

A yellows disease of strawberry plants was identified in propagation beds in New Zealand. Affected plants were flatter to the ground, showed purpling of older leaves, reduced leaf size, yellowing of younger leaves, and sometimes plant death. A phytoplasma was observed in the phloem of affected plants. The 16S rRNA gene of the phytoplasma was amplified by polymerase chain reaction from symptomatic plants and from one asymptomatic plant, but not from 36 other asymptomatic plants. Nucleotide sequence analysis of the 16S rRNA gene showed that the phytoplasma is closely related or identical to the phytoplasma associated with the yellow leaf disease of New Zealand flax (Phormium tenax).

Published
1998
Full Text
View/download PDF

22. Goodpasture's syndrome: normal renal diagnostic findings.

Author

Mathew TH, Hobbs JB, Kalowski S, Sutherland PW, and Kincaid-Smith P

Subjects
Adolescent, Anti-Glomerular Basement Membrane Disease diagnostic imaging, Basement Membrane ultrastructure, Biopsy, Fluorescent Antibody Technique, Humans, Kidney Diseases diagnosis, Kidney Function Tests, Kidney Glomerulus pathology, Kidney Glomerulus ultrastructure, Male, Microscopy, Electron, Microscopy, Fluorescence, Radiography, Urine cytology, Anti-Glomerular Basement Membrane Disease diagnosis
Abstract

A patient with Goodpasture's syndrome is described in whom pulmonary manifestations were dramatic, but in whom renal abnormalities were minor and only found on fluorescent and electron microscopy. His urine showed no proteinuria and no increase in cells in quantitative counts, and renal function was normal. It is suggested that there may be an indication for carrying out renal biopsies in patients with idiopathic pulmonary haemosiderosis and that this may lead to an early diagnosis of Goodpasture's syndrome.

Published
1975
Full Text
View/download PDF

23. Cystic fibrosis and bronchial hyperreactivity. Concomitant defects or cause and effect?

Author

Burdon JG, Cade JF, Sutherland PW, and Pain MC

Subjects
Adolescent, Adult, Airway Obstruction chemically induced, Bronchi drug effects, Bronchial Provocation Tests, Female, Humans, Lung Volume Measurements, Male, Methacholine Compounds pharmacology, Cystic Fibrosis physiopathology, Lung physiopathology
Abstract

Bronchial reactivity and lung-function tests were measured in 19 young adults with cystic fibrosis. There was moderately severe airways obstruction without hyperinflation, and mild hypoxaemia with normocapnia. Bronchial reactivity (fall in FEV1 after the administration of methacholine aerosol) was increased in about two-thirds of patients, and was markedly enhanced in nearly half of them. It was considered that the airways obstruction characteristic of cystic fibrosis can have a reversible element, and that this may provide a rationale for the use of bronchodilators in some patients. Although bronchial hyperreactivity in cystic fibrosis could represent concomitant underlying defects, a more attractive suggestion is that the chronic inflammation of cystic fibrosis has, in turn, led to acquired bronchial hyperreactivity.

Published
1980
Full Text
View/download PDF

25. Pulmonary extravascular fluid volume and hypoxaemia in myocardial infarction.

Author

Sutherland PW, Cade JF, and Pain MC

Subjects
Adult, Aged, Arteriovenous Fistula, Blood Gas Analysis, Blood Volume, Carbon Dioxide blood, Cardiac Output, Female, Humans, Hypoxia etiology, Lung blood supply, Male, Middle Aged, Myocardial Infarction complications, Oxygen blood, Partial Pressure, Hypoxia physiopathology, Myocardial Infarction physiopathology, Respiratory Function Tests
Published
1971
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results