Add to ORKGAbstract In many plant species, the intact main shoot apex grows predominantly and axillary bud outgrowth is inhibited. This phenomenon is called apical dominance, and has been analyzed for over 70 years. Decapitation of the shoot apex releases the axillary buds from their dor-mancy and they begin to grow out. Auxin derived from an intact shoot apex suppresses axillary bud outgrowth, whereas cytokinin induced by decapitation of the shoot apex stimulates axillary bud outgrowth. Here we describe the molecular mechanisms of the interactions between auxin and cytokinin in the control of shoot branching
Apically derived auxin has long been known to inhibit lateral bud growth, but since it appears not t...
Although the concept of apical dominance control by the ratio of cytokinin to auxin is not new, rece...
Strigolactone (SL), auxin, and cytokinin (CK) are hormones that interact to regulate shoot branching...
This chapter provides a synopsis of physiological, genetic, and molecular studies and approaches for...
The inhibition of shoot branching by the growing shoot tip of plants, termed apical dominance, was o...
Three theories of apical dominance, direct, diversion, and indirect, were proposed in the 1930s to e...
Three theories of apical dominance, direct, diversion, and indirect, were proposed in the 1930s to e...
Auxin produced by an active primary shoot apex is transported down the main stem and inhibits the gr...
Apical dominance is one of the fundamental developmental phenomena in plant biology, which determine...
Apical dominance is the process whereby the shoot tip inhibits the growth of axillary buds along the...
Apical dominance is the process whereby the shoot tip inhibits the growth of axillary buds along the...
Shoot branching is the process by which axillary buds, located on the axil of a leaf, develop and fo...
A role for auxin in the regulation of shoot branching was described originally in the Thimann and Sk...
Apically derived auxin has long been known to inhibit lateral bud growth, but since it appears not t...
Abstract Shoot branching involves the coordinated regulation of the activity of meristems establishe...
Apically derived auxin has long been known to inhibit lateral bud growth, but since it appears not t...
Although the concept of apical dominance control by the ratio of cytokinin to auxin is not new, rece...
Strigolactone (SL), auxin, and cytokinin (CK) are hormones that interact to regulate shoot branching...
This chapter provides a synopsis of physiological, genetic, and molecular studies and approaches for...
The inhibition of shoot branching by the growing shoot tip of plants, termed apical dominance, was o...
Three theories of apical dominance, direct, diversion, and indirect, were proposed in the 1930s to e...
Three theories of apical dominance, direct, diversion, and indirect, were proposed in the 1930s to e...
Auxin produced by an active primary shoot apex is transported down the main stem and inhibits the gr...
Apical dominance is one of the fundamental developmental phenomena in plant biology, which determine...
Apical dominance is the process whereby the shoot tip inhibits the growth of axillary buds along the...
Apical dominance is the process whereby the shoot tip inhibits the growth of axillary buds along the...
Shoot branching is the process by which axillary buds, located on the axil of a leaf, develop and fo...
A role for auxin in the regulation of shoot branching was described originally in the Thimann and Sk...
Apically derived auxin has long been known to inhibit lateral bud growth, but since it appears not t...
Abstract Shoot branching involves the coordinated regulation of the activity of meristems establishe...
Apically derived auxin has long been known to inhibit lateral bud growth, but since it appears not t...
Although the concept of apical dominance control by the ratio of cytokinin to auxin is not new, rece...
Strigolactone (SL), auxin, and cytokinin (CK) are hormones that interact to regulate shoot branching...