甜菊愈伤组织中的质膜内陷:超微结构和酸性磷酸酶细胞化学定位

对在分化条件下的甜菊 (Stevia rebaudiana)愈伤组织分生区域细胞的质膜内陷进行了超微结构和酸性磷酸酶细胞化学研究。结果表明 ,在不同液泡化状态的细胞中均有质膜内陷存在。在原生质浓密的细胞中 ,质膜呈起伏的波纹状 ,某些部位发生明显内陷 ,大小不等 ,多呈圆球状。在部分液泡化细胞中 ,质膜内陷体积增大 ,内含物增多且结构复杂。在液泡化细胞中 ,质膜内陷嵌入中央液泡 ,但彼此间以一膜间隙隔开。质膜内陷中的内含物以小泡和卷绕的膜结构形式存在。酸性磷酸酶活性定位结果显示 ,质膜及其内陷含高的酶活性。推测质膜内陷在功能上与液泡相似 ,构成了这些细胞水解空间的一部分。

PLASMALEMMA INVAGINATIONS IN CULTURED CALLUS OF STEVIA REBAUDIANA: ULTRASTRUCTURE AND ULTRACYTOCHEMICAL LOCALIZATION OF ACID PHOSPHATASE

The plasmalemma of cells within meristematic regions was observed to possess invaginations in cultured callus of Stevia rebaudiana under differentiation. The ultrastructure and acid phosphatase (AcPase) ultracytochemistry of these invaginations were studied. The plasmalemma invaginations occurred in the cells at various stages of vacuolation. In cells with dense protoplasm, plasmalemma appeared undulated but occasionally spherical and variable in size with conspicuous invaginations that projected into the peripheral cytoplasm. In the partially vacuolated cells, plasmalemma invagination became voluminously enlarged with increased contents and structurally complexed. In vacuolated cells, the enlarged invaginations protruded into the central vacuole but were delimitted from the tonoplast by an intermembrane zone continuous with the peripheral cytoplasm. Complex accumulations of membranes consisting of vesicular and coiled membranous structures might develop within the plasmalemma invaginations. AcPase localization demonstrated high enzymic activity in the plasmalemma and its associated invagination. It seemed likely that these invaginations were functionally analogous to the vacuoles and therefore constituted part of the lytic compartment in these cells.