N. Harris
Durham University
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Featured researches published by N. Harris.
Planta | 1979
N. Harris
The changes in endoplasmic reticulum (ER) morphology during seed development have been followed using a thick section electron microscope technique. The tissues were stained with a zinc iodineosmium tetroxide complex which preferentially accumulated in the lumen between double membranes. Sections up to 2 μm in thickness were examined in a high voltage electron microscope (HVEM) with tilt facility to produce stereo pairs. The micrographs from HVEM showed an increase in the extent of interconnecting tubular and cisternal ER during the protein deposition phase of seed maturation with subsequent degeneration of the cisternae to a reticular form during the final seed maturation phase. No evidence of cisternal ER vesicles was found, instead our work suggests that such structures are artefacts of thin sectioning with the so-called vesicles representing the interconnection of cisternal and tubular ER. The results are discussed with reference to the transport of storage protein from its site of synthesis, the rough cisternal ER, to that of accumulation, the vacuolar protein bodies.
Journal of Insect Physiology | 2000
N. S. Paes; Isabel Rodrigues Gerhardt; M. V. Coutinho; Massaru Yokoyama; Eliana F. Santana; N. Harris; Maarten J. Chrispeels; M.Fátima Grossi de Sá
Some wild accessions of the common bean (Phaseolus vulgaris) contain a family of proteins called arcelins, that are toxic to the larvae of certain bruchid species. Among the six allelic variants of arcelin tested so far, arcelin-5 and arcelin-1 confer the highest level of resistance against the Mexican bean weevil, Zabrotes subfasciatus. The same proteins are not toxic to the bean weevil, Acanthoscelides obtectus, which is also a serious pest of cultivated beans. Arcelins belong to the bean lectin family that includes phytohemaggutinins and alpha-amylase inhibitors. Although homologous to lectins, arcelins are themselves only very weak lectins, and their binding properties have not been clearly established. The toxic properties of arcelins may be related to their recognition of and interaction with the glycoproteins and other constituents of the membranes along the digestive tract of insects. Since arcelin-1 was shown to have growth inhibitory effects for the larvae of Z. subfasciatus but not of A. obtectus, we examined the effect of an arcelin-1 containing diet on the structure of the cells that line the intestinal tract of the larvae of these two bruchid species, and used antibodies against arcelin to examine the distribution of arcelin within the cells and tissues. Here we show that dietary arcelin-1 caused an alteration of the gut structure and the penetration of arcelin into the haemolymph in Z. subfasciatus but not in A. obtectus. These results lead us to suggest that arcelins exert their toxic effect by severely damaging the epithelial cells.
Planta | 1982
K. J. Oparka; N. Harris
The ultrastructure of protein deposition in the starchy endosperm of developing rice (Oryza sativa L.) grains was examined in conventionally fixed (glutaraldehyde and osmium tetroxide) tissues and also in thick sections (0.3 μm) of zinc iodide-osmium tetroxide post-fixed tissue. Three types of previously characterised protein body were observed and it was shown that each type was initiated by dilations of the endoplasmic reticulum. Crystalline type protein bodies were initiated by a ribosome-free dilation from rough cisternal endoplasmic reticulum and developed by inclusion of protein from dictyosome-derived vesicles. The large spherical and small spherical protein bodies developed within the cisternae of the rough endoplasmic reticulum.
Journal of Phycology | 2003
Martin Mühling; N. Harris; Amha Belay; Brian A. Whitton
A survey of the morphological characters of 36 clonal axenic strains of Arthrospira showed that 34 had helical and 2 had straight trichomes. Of those with helical trichomes, five were right‐handed and 29 left‐handed. After repeated subculture for 1 year, the orientation of one helical strain (D893) had changed from right‐ to left‐handed, suggesting a probable genetic shift. The influence of environmental factors on helix orientation was tested on a subset of 10 strains. A temperature upshift from 30 to 32–34° C for 7 days led to a change in orientation in three strains (D918/H, D923, D925). Incubation at 32° C (D918/H, D923) or 34° C (D925) for periods less than needed for the morphological change to show still permitted the change to take place subsequently, when the temperature was reduced to 30° C; however, further subculture at 30° C led to the orientation reverting to its original state. In strain D925, but not the other nine strains, continuous shaking at 30° C also led to a change in helix orientation. In this case, some trichomes showed both orientations in a single trichome, with a snag at the point of reversion. A repeat survey of the stock cultures of all 34 strains after 2 years showed that another strain (D918/H) had now changed orientation from right‐handed to left‐handed. These observations are compared with the behavior of other helical structures in the literature, including filamentous Bacillus subtilis mutants and helix reversal in tendrils of climbing plants.
Planta | 1982
N. Harris; K. J. Oparka; D. J. Walker-Smith
Tubular evaginations of the plasmalemma of the scutellar epithelial cells of barley are described. The evaginations are similar to those present at other sites where solute flux occurs for a limited period only and wall development of the transfer-cell form has not occured. Differential uptake of the fluorescent dyes fluorescein, which moves into the symplast, and 8-anilino-1-naphthalene sulphonic acid, which remains in the apoplast only, indicates that the scutellar epithelial cells contain the boundary between the apoplast and symplast. We suggest that i) the plasmalemma evaginations, which have a specific form and localisation, may be referred to as plasmatubules rather than by the general term plasmalemmasome, and that ii) the plasmatubules may act in membrane amplification in a short-term structural modification which is an alternative to transfer cells.
Planta | 1990
Karl J. Oparka; Denton A. M. Prior; N. Harris
A transient plasmolysis/deplasmolysis (plasmolytic cycle) of onion epidermal cells has been shown to induce the formation of fluid-phase endocytic vesicles. Plasmolysis in the presence of the membrane-impermeant fluorescent probes Lucifer Yellow CH (LYCH) and Cascade Blue hydrazide resulted in the uptake of these probes by fluid-phase endocytosis. Following deplasmolysis, many of the dye-containing vesicles left their parietal positions within the cell and underwent vigorous streaming in the cytoplasm. Vesicles were observed to move within transvacuolar strands and their movements were recorded over several hours by video-microscopy. Within 2 h of deplasmolysis several of the larger endocytic vesicles had clustered around the nuclear membrane, apparently lodged in the narrow zone of cytoplams surrounding the nucleus. In further experiments LYCH was endocytically loaded into the cells during the first plasmolytic cycle and Cascade Blue subsequently loaded during a second plasmolytic cycle. This resulted in the introduction of two populations of endocytic vesicles into the cells, each containing a different probe. Both sets of vesicles underwent cytoplasmic streaming. The data are discussed in the light of previous observations of fluid-phase endocytosis in plant cells.
Planta | 1994
Raffaella Carzaniga; Lesley Sinclair; N. Harris; Ronald R. D. Croy
Many plants contain ribosome-inactivating proteins (RIPs) which are either single enzymatically active polypeptides (type-1 RIPs) or heterodimers (type-2 RIPs) composed of an A-chain, functionally equivalent to a type-1 RIP, which is disulphide bonded to a sugar-binding B-chain. Much attention has focused on the use of RIPs as components of immunotoxins or, more recently, as antiviral agents. In contrast, relatively little is known about either the synthesis and targeting of RIPs or their role within plants. In this study the cellular and subcellular distributions of saporins, the type-1 RIPs from soapwort, have been determined in seeds using immunogold labelling. Saporins were present in the seed storage tissue (perisperm), but are not synthesised in the developing embryo, demonstrating that the expression of saporin genes is subject to tissue-specific control. Within the perisperm, saporin was found in extracellular spaces, in the paramural region between the primary wall and plasmalemma and within the vacuole. In addition, saporin was localised in leaf intercellular spaces. This dual localisation, both vacuolar and extracellular, is significantly different from the localisation of ricin, a type-2 RIP found in castor beans, which is targeted to endosperm protein bodies, and to pokeweed antiviral protein which accumulates in the cell wall matrix of leaf mesophyll cells.
Planta | 1980
N. Harris; Maarten J. Chrispeels
The ultrastructure of the endoplasmic reticulum (ER) in storage parenchyma cells in the cotyledons of mung beans (Vigna radiata L.) was examined during germination and seedling growth. Two different methods were used to visualize the ER: thin (0.08 μm) sections of tissue fixed in formaldehyde and glutaraldehyde and post-fixed with osmium tetroxide, and thick (1 μm) sections of tissue fixed in buffered aldehyde and post-fixed with zinc iodide-osmium tetroxide (ZIO). Changes in relative amounts of ER were quantified by morphometry (stereology).The ER occurs in two forms: a cisternal form with associated ribosomes which can be seen at all stages from imbibition to cotyledon senescence, and a tubular form which initially has associated ribosomes. Stereoscopic images of thick sections of cotyledons of 2-day-old seedlings show that the tubular ER consists of a three-dimensional array of interconnecting tubules which have numerous connections with the cisternal ER. The network of tubules and cisternae extends throughout the cytoplasm enveloping the protein bodies. Germination and seedling growth are accompanied by a reduction in the total volume occupied by the ER. This reduction is the result of a preferential loss of tubular ER and occurs largely before protein mobilization. Cisternal ER decreases during the first 48 h of imbibition and seedling growth, but storage cells subsequently show an increase in cisternal ER just prior to and during the period of protein mobilization. Cisternal ER remains conspicuous during the last phase of reserve mobilization when starch is broken down and the cells are starting autophagy.
Planta | 1985
N. Harris; Ronald R. D. Croy
The major albumin protein in storage parenchyma tissue of developing peas has been localised at an ultrastructural level by immunocytochemistry. Tissue was fixed in buffered aldehyde and embedded in LR White resin which was polymerised by addition of catalyst. Sections were labelled by the indirect method of absorption of Protein A-gold to specifically bound antibodies. This method gives high levels of specific labelling on sections which retain good ultrastructural preservation and have high contrast after conventional staining. The albumin is located throughout the cytoplasm although no labelling was found associated with the endoplasmic reticulum, Golgi apparatus, vacuoles-protein bodies or other organelles.
Planta | 1978
N. Harris
Following a zinc iodine-osmium tetroxide fixation, nuclear pore distribution was studied in 0.3-μm sections from cotyledons of developing Vicia faba L. Localised absence of nuclear pores was found to be associated with proximity of organelles to the nucleus. Golgi cisternae and mitochondria are associated with areas of pore absence while cisternal endoplasmic reticulum and tubular endoplasmic reticulum are linked with areas showing reduction in pore density. Pores were seen in the nuclear membrane adjacent to vacuoles. Pattern analysis of pore distribution indicated possible clustering within an overall regularity.