Hao Bing-zhong scite author profile

The protein-storing cells in Swietenia macrophylla King were investigated. They were found to be of the Populus type, i.e., ordinary parenchyma cells containing both vacuole protein inclusion and starch grains. Vegetative storage proteins with molecular masses of 18 and 21 kDa were separated by SDSPAGE (sodium dodecyl sulfate polyacrylamide gel electrophoresis). Immunoblotting with the 21-kDa protein antiserum showed that the 18- and 21-kDa proteins shared common epitopes. The 21-kDa protein and presumably the 18-kDa protein were demonstrated by immunogold labeling to be the main components of the vacuole protein inclusion of the protein-storing cells. At the late stage of an annual growth cycle, vegetative storage proteins were found in the branchlets, trunk, large roots, and small roots. They were stored in large amounts in the secondary phloem of these organs and also in the secondary xylem of the terminal branchlets and small roots. In a new growth cycle, the consumption of the previously accumulated vegetative storage proteins began in the terminal branchlets of the last growth cycle. The vegetative storage proteins in the branchlets were exhausted completely when the new shoot leaves matured, while the storage proteins in the trunk and large roots had no detectable changes in abundance. On the other hand, the tree started to accumulate the two proteins in the stem of the new shoots as early as 1 week after the new shoot leaves matured. These results suggested that the previously accumulated vegetative storage proteins were used for new shoot growth and cambial activity in preference to the newly assimilated nitrogen and that vegetative storage proteins existed in considerable amounts in the stems throughout an annual growth cycle. This seasonal fluctuating pattern of vegetative storage proteins in the whole tree may be an important mechanism by which the tree regulates its growth.Key words: vegetative storage proteins, nitrogen metabolism, Populus-type of protein-storing cells, tropical hardwoods, Swietenia macrophylla King.

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Characteristics of protein-storing cells associated with a 67 kDa protein in Hevea brasiliensis

Weimin¹,

Han

et al. 1998

Trees

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AbstractmThe protein-storing cells (PSCs) in Hevea brasiliensis were studied by using light-and electron-microscopy and SDS-PAGE. The cells were found in stem and root where secondary phloem was developed. They are a special kind of phloem parenchyma cell which accumulate in their central vacuoles large amounts of protein, fibril-like under an electron microscope, and have few plastids with very small starch grains. Their distribution is strictly restricted to the secondary phloem axial system where they exactly sequestered in functional phloem or slightly over it. A 67 kDa protein was always found in the tissues where the PSCs were observed. During the first seasonal growth flush, the 67 kDa protein in the terminal branchlet exhibits marked quantitative fluctuation which is consistent with the change of the vacuole protein inclusion of the PSCs in the branchlet. These facts suggested that the 67 kDa protein might be the major part of the vacuole protein of the PSCs. Considering the differences between the PSCs in Hevea and the PSCs in the other trees studied, we define two types of PSCs: Hevea-type, which are the cells specialized for protein storage and Populus-type, which are ordinary parenchyma cells accumulating protein and starch.

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Vacuole proteins in parenchyma cells of secondary phloem and xylem of Dalbergia odorifera

Bing-zhong

1993

Trees

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Summary. Light-and electron-microscopic observations were made on the stem parenchyma cells of Dalbergia odorifera T. Chen (Papilionaceae), a tropical deciduous tree. In the secondary phloem of branchlet and trunk, all of the parenchyma cells except companion cells contain vacuole proteins. Only the outer secondary xylem of branchlets, but not trunk secondary xylem, has proteins in the ray parenchyma and the vasicentric parenchyma. The xylem vacuole proteins begin to accumulate at the end of the growing period and they disappear after the first flush of growth in spring. The vacuole proteins in phloem cells, particularly in the cells near the cambium, also show seasonal fluctuations. Under the electron microscope, the vacuole proteins appear as fibrous materials in aggregation or in more or less even dispersion, and they occur in the large central vacuoles during both the growth and dormant periods. According to the published studies, the stem storage proteins in the temperate trees appear as small protein-storage vacuoles or protein bodies, and the proteins in the tropical trees occur in large central vacuoles. This distinction is assumed to be related to the differences in the nature of dormancy between temperate and tropical trees.

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Hao Bing-zhong

Laticifer Differentiation in Hevea brasiliensis: Induction by Exogenous Jasmonic Acid and Linolenic Acid

Vegetative storage proteins in the tropical tree Swietenia macrophylla: seasonal fluctuation in relation to a fundamental role in the regulation of tree growth

Characteristics of protein-storing cells associated with a 67 kDa protein in Hevea brasiliensis

Vacuole proteins in parenchyma cells of secondary phloem and xylem of Dalbergia odorifera

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