Direct Evidence for Cytodifferentiation to Tracheary Elements without Intervening Mitosis in a Culture of Single Cells Isolated from the Mesophyll of Zinnia elegans
- 1 January 1980
- journal article
- research article
- Published by Oxford University Press (OUP) in Plant Physiology
- Vol. 65 (1) , 61-64
- https://doi.org/10.1104/pp.65.1.61
Abstract
A serial observation of the process of tracheary element differentiation from single cells isolated from the mesophyll of Zinnia elegans L. cv. Canary bird provided the first direct evidence for the cytodifferentiation without intervening mitosis. Percentage of the tracheary elements formed without cell division was about 60% of total tracheary elements formed on the 4th day of culture. The number of tracheary elements formed without intervening mitosis was not reduced in the presence of colchicine at the concentrations blocking cell division. These facts clearly indicate that cell division is not a prerequisite for tracheary element differentiation in this system.This publication has 8 references indexed in Scilit:
- Establishment of an Experimental System for the Study of Tracheary Element Differentiation from Single Cells Isolated from the Mesophyll of Zinnia elegansPlant Physiology, 1980
- Pattern of Cell Division and Wound Vessel Member Differentiation in Coleus Pith ExplantsPlant Physiology, 1978
- Differentiation of wound vessel members without DNA synthesis, mitosis or cell divisionNature, 1975
- Direct Evidence for a Colchicine-Induced Impairment in the Mobility of Membrane ComponentsScience, 1973
- The Time Course of Xylem Differentiation and Its Relation to Deoxyribonucleic Acid Synthesis in Cultured Coleus Stem SegmentsPlant Physiology, 1970
- Depression of DNA synthesis and mitotic index by colchicine in cultured human lymphocytesExperimental Cell Research, 1970
- Hormonal Control of Cell Proliferation and Xylem Differentiation in Cultured Tissues of Glycine max var. BiloxiPlant Physiology, 1969
- CELL DIVISION AND THE DIFFERENTIATION OF WOUND-VESSEL MEMBERS IN CULTURED STEM SEGMENTS OF ColeusProceedings of the National Academy of Sciences, 1968