Ca2+-binding sites and Ca2+-ATPase activity in barley root tip cells

Summary Different cytochemical methods were employed to demonstrate the existence of Ca²⁺-binding sites (Ca²⁺-bs) at the membranes of barley root tip cells, involving addition of CaCl₂ (10 mM or 1 mM) to all aqueous solutions used for tissue processing for electron microscopy, treatment of ultrathin sections by Ca-chelating agents, enzymic digestion of ultrathin sections and modification of Wachstein-Meisel procedure for localization of Ca²⁺-dependent ATPase activity. Addition of 10 mM CaCl₂ to the fixatives and rinsing solutions causes electron-dense globules (EDG) to be formed in a variety of cells, those in cortical cells being associated mainly with the plasma membranes, in root cap cells with the plasmalemma as well as with majority of intracellular membranes. The obligatory presence of EDG at the membranes of Golgi vesicles and secretory vesicles approaching plasmalemma was revealed in the secreting root cap cells. Besides, electron opaque connecting material was found between the plasmalemma and adjacent secretory vesicle membranes. In true meristematic cells Ca-supplemented solutions induce formation of EDG localized at the ER membranes, and nuclear and plastid envelopes. In root cells of seeds germinated in the presence of 1 mM CaCl₂ electron opaque deposits were found only in local areas of plasmalemma collars around plasmodesmata neck regions, contacting the terminals of subsurface ER channels. In control speciemens (germination, fixation and washing without added CaCl₂) EDG were absent in cortical and ground meristem cells, but present in root cap cells, although their number and average size were greatly reduced.Treatment of thin sections by 10mM EGTA or EDTA led to complete removing of EDGs, electron-transparent holes replacing them. Digestion by a variety of proteolytic enzymes and by phospholipase A induced partial destruction of EDG matrices, confirming the presence of protein as well as of phospholipid membrane components. Visualization of electron-dense granular product of cytochemical Ca-ATPase reaction at the same membrane areas where EDG were located suggests that one of the Ca-binding proteins in EDG may represent Ca-ATPase.It is proposed that EDG at plant cell membranes have a certain resemblance to the Ca²⁺-bs revealed by the same method on plasma membrane of a variety of animal cells. The data obtained are discussed regarding possible regulatory roles of calcium ions in plant cells, especially in exocytotic secretion.