LIGHT AND HORMONAL CONTROL OF ROOT FORMATION IN ZEA MAYS CALLUS CULTURES

Abstract

Callus cultures of Zea mays were used to study the interaction of light with exogenous cytokinin/auxin levels in the initiation, growth and development of roots. Three auxins, indoleacetic acid (IAA), naphthaleneacetic acid (NAA) and 2,4 dichlorophenoxyacetic acid (2,4 D) were remarkably different in their effects on callus growth and root initiation. NAA at concentrations of 5 and 25 μM produced the highest combined yields of callus and roots under low light conditions. No significant morphological effects on roots were observed with the three auxins tested nor did low and intermediate light intensities alter root development. At intermediate light levels the addition of the cytokinin, zeatin, was also able to influence the differentiation of the callus tissue. Increasing the cytokinin/auxin ratio from low to high shifted the development from callus growth to abundant root formation. High light caused the formation of short, thick roots. This effect could be counteracted in part by zeatin which promoted elongation. These observations suggest that both, the cytokinin/auxin ratio and light play an important role in the development of monocotyledonous roots.