An alteration in plant phenotypes assisted by their responses to the environmental stimuli (=tropism) has been fundamental to understand the “plant sensitivity ” that plays a crucial role in plants’ adaptive succes...An alteration in plant phenotypes assisted by their responses to the environmental stimuli (=tropism) has been fundamental to understand the “plant sensitivity ” that plays a crucial role in plants’ adaptive success. Plants succeed through the deployment of moderators controlling polar auxin-transport determining organ bending. Stimulus-specific effectors can be synthesized by the outer peripheral cells at the bending sites where they target highly conserved cellular processes and potentially persuade the plant sensitivity at large. Remarkably, the peripheral cells require different time-intervals to achieve the threshold expression-levels of stimulus-specific molecular responders. After stimulus perception, tropic curvatures (especially at growing root-apices) are duly coordinated via integrated chemical and electrical signalling which is the key to cellular communications. Thus, the acquired phenotypic alterations are the perplexed outcome of plant’s developmental pace, complemented by the sensitivity. A novel aspect of this study is to advance our understanding of plant developmental-programming and the extent of plant-sensitivity, determining the plant growth and their future applications.展开更多
Brassinosteroids (BRs) are natural plant hormones critical for growth and development. BR-deficient or signaling mutants show significantly shortened root phenotypes. But for a long time, it was thought that these p...Brassinosteroids (BRs) are natural plant hormones critical for growth and development. BR-deficient or signaling mutants show significantly shortened root phenotypes. But for a long time, it was thought that these phenotypes were solely caused by reduced root cell elongation in the mutants. Functions of BRs in regulating root development have been largely neglected. Recent detailed analyses, however, revealed that BRs are not only involved in root cell elongation but are also involved in many aspects of root development, such as maintenance of meristem size, root hair formation, lateral root initiation, gravitropic response, mycorrhiza formation, and nodulation in legume species. In this review, current findings on the functions of BRs in mediating root growth, development, and symbiosis are discussed.展开更多
文摘An alteration in plant phenotypes assisted by their responses to the environmental stimuli (=tropism) has been fundamental to understand the “plant sensitivity ” that plays a crucial role in plants’ adaptive success. Plants succeed through the deployment of moderators controlling polar auxin-transport determining organ bending. Stimulus-specific effectors can be synthesized by the outer peripheral cells at the bending sites where they target highly conserved cellular processes and potentially persuade the plant sensitivity at large. Remarkably, the peripheral cells require different time-intervals to achieve the threshold expression-levels of stimulus-specific molecular responders. After stimulus perception, tropic curvatures (especially at growing root-apices) are duly coordinated via integrated chemical and electrical signalling which is the key to cellular communications. Thus, the acquired phenotypic alterations are the perplexed outcome of plant’s developmental pace, complemented by the sensitivity. A novel aspect of this study is to advance our understanding of plant developmental-programming and the extent of plant-sensitivity, determining the plant growth and their future applications.
文摘Brassinosteroids (BRs) are natural plant hormones critical for growth and development. BR-deficient or signaling mutants show significantly shortened root phenotypes. But for a long time, it was thought that these phenotypes were solely caused by reduced root cell elongation in the mutants. Functions of BRs in regulating root development have been largely neglected. Recent detailed analyses, however, revealed that BRs are not only involved in root cell elongation but are also involved in many aspects of root development, such as maintenance of meristem size, root hair formation, lateral root initiation, gravitropic response, mycorrhiza formation, and nodulation in legume species. In this review, current findings on the functions of BRs in mediating root growth, development, and symbiosis are discussed.