• Journal of Korean Society of Forest Science
• /
• v.74 no.1
• /
• pp.29-36
• /
• 1986

A method isolating Populus euramericana cv. I-214 mesophyll protoplasts was developed to facilitate application of genetic engineering techniques to this species. The suitable medium for shoot multiplication in vitro was MS basal medium with $0.1mg/{\ell}$ BAP. The effects of several factors influencing protoplast isolation could be evaluated quickly by using leaf in vitro and known volumes of maceration and washing media. The best yields of mesophyll protoplasts were obtained using leaves in vitro in 2.0% Cellulase R-10, 0.8% Macerozyme R-10, 1.2% Hemicellulase, 2.0% Driselase, 0.05% Pectolyase Y-23, and O.6M Mannitol in addition to DTT and MES buffer adjusted to pH 5.6. Over $2.4{\times}10^6$ protoplasts per gram of leaf were produced using these conditions. For protoplast purification, the most favorable sucrose concentration of floating solution was 0.6M after washing them with CPW solution. This method of screening factors affecting protoplast isolation could be applicable to other species.

• Journal of Plant Biotechnology
• /
• v.34 no.3
• /
• pp.271-275
• /
• 2007

In the chloroplast transformation process, a chloroplast containing transformed chloroplast genome copies should be selected over wild-type chloroplasts on selection medium. It is more effective for a cell to become homoplasmic if the cell contains smaller number of chloroplasts. Therefore, to reduce the number of chloroplasts in mesophyll cells in tobacco, we overexpressed FtsZ to generate transgenic plants, of which mesophyll cell contained a few enlarged chloroplasts contrast to a wild-type mesophyll cell containing approximately 100 chloroplasts. It was demonstrated that transgenic leaf tissues comprising cells with a few enlarged chloroplasts gave rise to approximately 40% higher frequency of chloroplast-transformed adventitious shoots.

• Journal of Korean Society of Forest Science
• /
• v.73 no.1
• /
• pp.55-62
• /
• 1986

Anatomy of Pinus koraiensis needles and Ginkgo biloba leaves was investigated after exposure to simulated acid rain, drought and salt solution. All of the stresses applied to the needle of Pinus koraiensis caused collapse of mesophyll tissues; epidermis was collapsed due to acid rain, severe compress and transformation of epidermis, mesophyll, and endodermis to drought, and collapse of phloem and transfusion tissue to salt solution. Spongy mesophyll tissues, however, collapsed in the leaves of Ginkgo biloba; epidermis and palisade tissues collapsed due to acid rain, compress and transformation of spongy mesophyll tissues to drought, and hypertrophy and collapse of endodermis and transfusion tissues to salt solution.

• Applied Microscopy
• /
• v.39 no.4
• /
• pp.333-340
• /
• 2009

In the present study, ultrastructural features of the mesophyll tissue have been investigated in Crassulacean acid metabolism (CAM)-performing succulent Orostachys. A large central vacuole and numerous small vacuoles in the peripheral cytoplasm were characterized at the subcellular level in both developing and mature mesophyll cells. The most notable feature was the invagination of vacuolar membranes into the secondary vacuoles or multivesicular bodies. In many cases, tens of single, membrane-bound secondary vacuoles of various sizes were found to be formed within the central vacuole. multivesicular bodies containing numerous small vesicles were also distributed in the cytoplasm but were better developed within the central vacuole. Occasionally, electron-dense prevacuolar compartments, directly attached to structures appearing to be small vacuoles, were also detected in the cytoplasm. One or more huge central vacuoles were frequently observed in cells undergoing differentiation and maturation. Consistent with the known occurrence of morphologically distinct vacuoles within different tissues, two types of vacuoles, one representing lytic vacuoles and the other, most likely protein storage vacuoles, were noted frequently within Orostachys mesophyll. The two types coexisted in mature vegetative cells but did not merge during the study. Nevertheless, the coexistence of two distinct vacuole types in maturing cells implies the presence of more than one mechanism for vacuolar solute sorting in these species. The vacuolar membrane is known to be unique among the intracellular compartments for having different channels and/or pumps to maintain its function. In CAM plants, the vacuole is a very important organelle that regulates malic acid diurnal fluctuation to a large extent. The membrane invagination seen in Orostachys mesophyll likely plays a significant role in survival under the physiological drought conditions in which these Orostachys occur; by increasing to such a large vacuolar volume, the mesophyll cells are able to retain enormous amounts of acid when needed. Furthermore, the mesophyll cells are able to attain their large sizes with less energy expenditure in order to regulate the large degree of diurnal fluctuation of organic acid that occurs within the vacuoles of Orostachys.

• KSBB Journal
• /
• v.5 no.1
• /
• pp.43-47
• /
• 1990

It was determined optimal Culture conditions and suitable growth regulators for seed germination, growth of callus, and protoplasts derived from cultured and mesophyll cells in Gremastra appendiculata. Induction of fusion between protoplasts of cultured and mesophyll cells was examined. The best conditions of seed germination and growth of callus were achieved on Hyponex medium contained plant growth regulators(2mg/l 2, 4-D, lmg/l Kinetin). Viability and regeneration of cell wall in protoplasts was determined with fluorescence microscope. Also, fused protoplasts were achieved by using PEG solution between protoplasts of cultured and mesophyll cells.

• Journal of Korean Society of Forest Science
• /
• v.73 no.1
• /
• pp.33-42
• /
• 1986

This study was carried out to investigate the optimum conditions for isolation and culture of mesophyll protoplasts from Populus alba ${\times}$ P. glandulosa. The results obtained from the experiments are as follows; 1) The suitable concentration of BAP for shoot multiplication was 0.4 mg/l. 2) High yield and viability of isolated protoplasts were obtained by our high enzyme-short time incubation method. 3) Optimum enzyme concentrations for mesophyll protoplast isolation were Cellulase 2%, Macerozyme 0.8%, Hemicellulase 1.2%, Driselase 2%, and Pectolyase Y-23 0.05%. 4) 0.6M mannitol in enzyme solution was the most effective for protoplast isolation and viability. 5) The most adequate pH level of enzyme solution was pH 5.6. 6) The effect of DTT and MES buffer was significant. 7) For protoplast purification, 0.6M sucrose was the most proper concentration. 8) The adding effect of Dextran T40 in floating solution was important. 9) The mesophyll protoplasts isolated through our high enzyme-short time incubation method revealed successful response to culture condition over 3 weeks of culture.

• Proceedings of the Botanical Society of Korea Conference
• /
• 1993.07a
• /
• pp.149-155
• /
• 1993

• 한국전자현미경학회:학술대회논문집
• /
• 2001.05a
• /
• pp.25-25
• /
• 2001

• The Plant Pathology Journal
• /
• v.31 no.3
• /
• pp.299-304
• /
• 2015

Interaction of the the rust fungus Puccinia miscanthi with the biofuel plant Miscanthus sinensis during the teliospore phase was investigated by light and electron microscopy. P. miscanthi telia were oval-shaped and present on both the adaxial and abaxial leaf surfaces. Teliospores were brown, one-septate (two-celled), and had pedicels attached to one end. Transmission electron microscopy revealed numerous electron-translucent lipid globules in the cytoplasm of teliospores. Extensive cell wall dissolution around hyphae was not observed in the host tissues beneath the telia. Hyphae were found between mesophyll cells in the leaf tissues as well as in host cells. Intracellular hyphae, possibly haustoria, possessed electron-dense fungal cell walls encased by an electron-transparent fibrillar extrahaustorial sheath that had an electron-dense extrahaustorial membrane. The infected host cells appeared to maintain their membrane-bound structures such as nuclei and chloroplasts. These results suggest that the rust fungus maintains its biotrophic phase with most mesophyll cells of M. sinensis. Such a nutritional mode would permit the rust fungus to obtain food reserves for transient growth in the course of host alteration.

• Journal of the Korean Society of Tobacco Science
• /
• v.11 no.2
• /
• pp.233-240
• /
• 1989

This experiment was carried out to select of heterokaryon based on the different buoyant densities of protoplasts. Protoplats were isolated from cultured cells (calli) of Nicotiana tobacum(cv. BY4) and from mesophyll cells of N. glauca. The two types of protoplats were fractionated by centrifugation in an iso-osmotic (770 mOs/kg. H2O) density gradients condition. Major difference in the buoyant density exists between two types of protoplasts isolated from different cells. The mesophyll protoplasts were fractionated in the higher gradient interphases than that of callus protoplasts. The two types of fractionated protoplasts were fused with 40% polyethylene glycol (PEG), and the protoplasts treated with PEG were separated by centrifugation in the same density gradients condition. The heterokaryons were fractionated in the intermediate density gradients.