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1.
The isolation and culture of lily pollen protoplasts 总被引:4,自引:0,他引:4
Methods for the enzymatic isolation of lily protoplasts and their successful culture are described. When pre-anthesis binucleate pollen (immature pollen grains) was treated in enzyme solution containing macerozyme and cellulase, up to 80% lost their exine and gave rise to intact protoplasts within 1 h. These pollen protoplasts were uniform in size and densely cytoplasmic with two prominent generative and vegetative nuclei. The isolated pollen protoplasts regenerated a cell wall within 1 day of culture and produced a structure resembling a pollen tube after 10–12 days of culture. During this culture period, dividing generative nuclei or 2 sperm nuclei were observed in many protoplasts with regenerated cell walls. 相似文献
2.
The effect of exposure to microgravity on the development and structural organisation of plant protoplasts flown on Biokosmos 9 总被引:1,自引:0,他引:1
Rasmussen O Klimchuk DA Kordyum EL Danevich LA Tarnavskaya EB Lozovaya VV Tairbekov MG Baggerud C Iversen TH 《Physiologia plantarum》1992,84(1):162-170
Preparatory experiments for the IML-1 (International Microgravity Laboratory) mission to be flown on the Space Shuttle in January, 1992, were performed on a 14 day flight on Biokosmos 9 (Kosmos 2044) in September 1989. The purpose of the experiment was to study the effect of weightlessness on protoplast regeneration. Problems with late access to the space vehicle meant that the newly isolated protoplasts from hypocotyl cells of rapeseed (Brassica napus L. cv Niklas) and suspension cultures of carrot (Daucus carota L, cv Nobo) had to be stored at 4 degrees C for 36 h prior to the launch of the biosatellite, in order to delay cell wall regeneration until the samples were in orbit. In the flight samples and the ground controls, a portion of the total number of protoplasts regenerated cell walls. The growth of flight rapeseed cells was only 56% compared to the ground control; the respective growth of carrot cells in orbit was 82% of the ground control. Analysis demonstrated that the peroxidase activity and the amount of protein was lower in the flight samples than in the ground controls. The number of different isoenzymes was also decreased in the flight samples. A 54% decrease in the production of cellulose was found in rapeseed, and a 71% decrease in carrot. Hemicellulose production was also decreased in the flight samples compared to the ground controls. Ultrastructural analysis of the cell aggregates from the protoplasts cultured in orbit, demonstrated that hydrolysis and disappearance of reserve starch occurred in the flight cell plastids. The mitochondria were more varied in appearance in the flight samples than in the ground control cells. An increased frequency of the occurrence of folds formed by the plasmalemma together with an increase in the degree of complexity of these folds was also observed. Fluorescence analysis showed a decrease of the calcium content in cell cultures under space flight compared to the ground controls. One general effect of the stay onboard the space vehicle was a retardation of the regeneration processes. Callus cultures obtained from the flight samples grew very slowly compared to callus regenerated from the ground controls, and two years after the Biokosmos 9 flight there appears to be no further growth in the samples exposed to microgravity. Callus cultures from the ground controls, however, continue to grow well. A simulation experiment for IML-l performed in January 1990 at ESTEC (European Space Technology Center), The Netherlands, has resulted in regenerated plants. These observations are discussed and compared to the results obtained on Biokosmos 9. 相似文献
3.
The effect of 8 days of microgravity on regeneration of intact plants from protoplasts 总被引:1,自引:0,他引:1
Ole Rasmussen Carolyn A. Baggerud Hilde C. Larssen Kjetl Evjen Tor-Heiming Iversen A. Kylin 《Physiologia plantarum》1994,92(3):404-411
The growth and development of protoplasts of rapeseed (Brassica napus L. cv Line) and carrot (Daucus carota L. cv. Navona) were studied onboard the Space Shuttle‘Discovery’during an 8-day International Microgravity Laboratory [IML-l) mission in January 1992. The Flight experiments were carried out in‘Biorack'. a fully controlled cell biological experimental facility. under microgravity conditions and in a l-g centrifuge. Parallel experiments were performed in a‘Biorack’module on the ground. After retrieval, some samples were subcultured on appropriate media and analysed for callus growth and regeneration to intact plants. The remainder were used for biochemical analysis. Samples fixed on board the Space Shuttle were kept in l% glutaraldehyde fixative at 4°C for 3–7 days for microscopy analysis after retrieval. Protoplasts exposed to microgravity conditions showed a delay in cell wall synthesis. Cells were swollen in appearance and formed cell aggregates with only few cells. Callus were obtained from protoplasts cultured under microgravity (Fogl). on the l-g centrifuge on board the shuttle (Flg), under normal l-g conditions on the ground (G1g) and on a centrifuge on the ground giving 1.4 g (Gl.4g). Regeneration of intact rapeseed plants was obtained from Flg. Glg and G1.4g. However, no plants were regenerated from protoplasts exposed to microgravity (Fog). Biochemical analysis indicated that the microgravity samples (Fog displayed a reduced packed cell volume, an increased concentration of soluble proteins per cell, and a reduced specific activity of peroxidase in the cytoplasm. Morphometric analysis of fixed samples demonstrated that 3-day old protoplasts under microgravity conditions were significantly larger than protoplasts kept on the l-g centrifuge in space. UItrastructural analysis by transmission electron microscopy showed that protoplasts exposed to microgravity conditions for 3 days had larger vacuoles and a slightly reduced starch content compared to Flg cells. Cell aggregates formed under microgravity conditions (Fog) had an average of 2–I cells per aggregate while aggregates formed under Flg had 8–12 cells. 相似文献
4.
Proteins of the 14-3-3 family show a broad range of activities in plants, depending on their localisation in different cellular compartments. Different organelle membranes of pollen grains and pollen tubes of Lilium longiflorum Thunb. were separated simultaneously using optimised discontinuous sucrose density centrifugation. The obtained organelle-enriched fractions were identified as vacuolar, Golgi, endoplasmic reticulum and plasma membranes, according to their marker enzyme activities, and were assayed for membrane-bound 14-3-3 proteins by immunodetection. 14-3-3 proteins were detected in the cytoplasm as well as in all obtained organelle fractions but were also released into the extracellular medium. In pollen grains, much more plasma membrane-bound 14-3-3 proteins were detected than in the PM-enriched fraction of pollen tubes, whereas the level of Golgi- and ER-associated 14-3-3 proteins was similar in pollen grains and tubes. This shift in the localisation of membrane-associated 14-3-3 proteins is probably correlated with a change in the major function of 14-3-3 proteins, e.g., perhaps changing from initiating pollen grain germination by activation of the PM H +-ATPase to recruitment of membrane proteins via the secretory pathway during tube elongation. 相似文献
5.
The covalent modification of cell surface proteins with N-hydroxysuccinimide esters of biotin was used to develop a strategy for following the turnover of proteins on the surface
of carrot (Daucus carota L.) protoplasts. A biotinylation/internalisation assay was established which enabled the turnover of cell surface proteins
to be examined by biochemical and immunocytochemical techniques. The detection of biotinylated proteins after sodium dodecyl
sulfate-polyacrylamide gel electrophoresis and Western blotting indicated that a variety of proteins on the surface of the
protoplasts were covalently modified. Immunolocalisation of biotinylated proteins in protoplasts directly after their derivatisation,
demonstrated that the proteins were initially restricted to the cell surface. Incubation of biotinylated protoplasts at 25 °C
for 1 h resulted in the detection of biotin-labelled proteins on the cell surface and intracellularly. A small proportion
of these proteins was associated with coated pits, the Golgi apparatus and vacuolar compartments. Biochemical analysis of
internalised proteins revealed that a polypeptide of approximate Mr 100 000 was internalised by the protoplasts. Immunolabelling of a biotinylated protein of Mr 100 000 by an antibody raised against an isoform of a tobacco plasma-membrane H+-ATPase, strongly suggests that the plasma-membrane H+-ATPase is internalised by carrot protoplasts. The implications of these results are discussed within the context of endocytosis
in plants.
Received: 13 July 1998 / Accepted: 11 November 1998 相似文献
6.
Modulation of photosynthesis and respiration in guard and mesophyll cell protoplasts by oxygen concentration 总被引:3,自引:0,他引:3
B. T. MAWSON 《Plant, cell & environment》1993,16(2):207-214
Stomatal movement is an energetic oxygen-requiring process. In the present study, the effect of oxygen concentration on mitochondrial respiratory activity and red-light-dependent photosynthetic oxygen evolution by Vicia faba and Brassica napus guard cell protoplasts was examined. Comparative measurements were made with mesophyll cell protoplasts isolated from the same species. At air saturated levels of dissolved oxygen in the protoplast suspension media, respiration rates by mesophyll protoplasts ranged from 6 to 10μmoles O2 mg?1 chl h?1, while guard cell protoplasts respired at rates of 200–300 μmoles O2 mg chl?1 h?1, depending on the species. Lowering the oxygen concentration below 50–60 mmol m?3 resulted in a decrease in guard cell respiration rates, while rates by mesophyll cell protoplasts were reduced only at much lower concentrations of dissolved oxygen. Rates of photosynthesis in mesophyll cell protoplasts isolated from both species showed only a minor reduction in activity at low oxygen concentrations. In contrast, photosynthesis by guard cell protoplasts isolated from V. faba and B. napus decreased concomitantly with respiration. Oligomycin, an inhibitor of oxidative phos-phorylation, reduced photosynthesis in mesophyll cell protoplasts by 27–46% and in guard cell protoplasts by 51–58%. The reduction in both guard cell photosynthesis and respiration following exposure to low oxygen concentrations suggest close metabolic coupling between the two activities, possibly mediated by the availability of substrate for respiration associated with photosynthetic electron transport activity and subsequent export of redox equivalents. 相似文献
7.
Pedro Lacal Faustino Mollinedo Vicente Larraga 《Molecular and cellular biochemistry》1987,77(2):161-171
We describe here the major protein components of a highly purified human neutrophil plasma membrane fraction analyzed by uni- and two-dimensional gel electrophoresis, as well as their glycoprotein nature as determined by PAS staining, [125I]-Con A binding and [3H]-sodium borohydride labelling. A polypeptide of about 150kDa appeared as the main Con A binding protein. The topology of the polypeptides has also been determined by protein labelling from the outside of the cell surface by lactoperoxidase catalyzed iodination and from within the bilayer by using the hydrophobic reagent [1251]-iodonaphtylazide. The antigenic features of some cell surface polypeptides have also been determined by the use of monoclonal antibodies. In this context we have detected by immunoprecipitation in human neutrophils the antigen MAC 120, previously found in monocytes and putatively associated with antigen presenting function.Abbreviations Con A
Concanavalin A
- INA
Iodonaphtylazide
- mAB
monoclonal Antibody
- PAS
Periodic Acid Schiff reaction
- PBS
Phosphate Buffered Saline
- PMSF
Phenylmethylsulfonil Fluoride
- PPO
2,5-Diphenyloxazole 相似文献