Comparative study of cellular structures implicated in gravisensing in statocytes of primary and lateral roots of Vigna angularis

Abstract

The cellular structures of statocytes implicated in gravisensing in primary and lateral roots of Vigna angularis were compared. The statocytes of lateral roots already had small amyloplasts immediately after they emerged from the primary root. Although these amyloplasts sedimented, the lateral roots showed much weaker gravitropism than primary roots, at least until they reached a length of about 30 mm. The nuclei were usually positioned in the upper end of the statocytes in both types of roots. Electron microscopic surveys showed that many tubular elements of endoplasmic reticulum (ER) were frequently localized in the lower end of the statocyte and they sometimes diverged or curved, suggesting that the ER forms a large reticulate complex. It is worth noting that statocytes with a large ER complex were found much more frequently in primary roots than in lateral roots. The amyloplasts were not always settled on this complex but were very frequently under it, especially in the primary roots. In lateral roots, they were usually localized under the ER complex when they were present. Thus, it is suggested that the differential development and organization of the amyloplast-ER complex system is involved in the differential gravitropism of the two types of roots.