Ethylene has a profound effect on the shape of plants. It determinesmany aspects of vegetative development by interacting with other hormones. Foremost, ethylene relies on a tight collaboration with auxin to influence plant growth and can stimulate or inhibit elongation of roots and shoots. This stimulatory or inhibitory action depends on the species and on growth conditions and is controlled by modification of cellwall properties. Later in life, ethylene regulates floral transition, and in some species the gender of the flowers. In determining these architectural features, ethylene allows the plants to reach a high level of plasticity to adapt to multiple environmental challenges
The epiphytic habitat is potentially one of the most stressful environments for plants, making the e...
Ethylene represents an important regulatory signal for root development. Genetic studies in Arabidop...
This review highlights that the auxin gradient, established by local auxin biosynthesis and transpor...
Ethylene has a profound effect on the shape of plants. It determinesmany aspects of vegetative devel...
Ethylene is a gaseous plant hormone that most likely became a functional hormone during the evolutio...
Plants phenotypically adjust to environmental challenges, and the gaseous plant hormone ethylene m...
Ethylene is a gaseous plant hormone that most likely became a functional hormone during the evolutio...
The past decade has witnessed a tremendous increase in our understanding of the role of ethylene in ...
Contents Summary 895 I. Introduction 895 II. A snapshot view on the ethylene biosynthesis and signal...
Ethylene is a simple gaseous phytohormone with multiple roles in regulation of metabolism at cellula...
Abstract Often considered an 'aging' hormone due to its role in accelerating such developmental proc...
Ethylene (C2H4) is a gaseous hormone able to exert effects on plant development and physiology. It r...
The morphological changes are usually observed in the terrestrial plants to respond to physical barr...
Ethylene is a gaseous growth factor involved in a diverse array of cellular, developmental and stres...
Being continuously exposed to variable environmental conditions, plants produce phytohormones to rea...
The epiphytic habitat is potentially one of the most stressful environments for plants, making the e...
Ethylene represents an important regulatory signal for root development. Genetic studies in Arabidop...
This review highlights that the auxin gradient, established by local auxin biosynthesis and transpor...
Ethylene has a profound effect on the shape of plants. It determinesmany aspects of vegetative devel...
Ethylene is a gaseous plant hormone that most likely became a functional hormone during the evolutio...
Plants phenotypically adjust to environmental challenges, and the gaseous plant hormone ethylene m...
Ethylene is a gaseous plant hormone that most likely became a functional hormone during the evolutio...
The past decade has witnessed a tremendous increase in our understanding of the role of ethylene in ...
Contents Summary 895 I. Introduction 895 II. A snapshot view on the ethylene biosynthesis and signal...
Ethylene is a simple gaseous phytohormone with multiple roles in regulation of metabolism at cellula...
Abstract Often considered an 'aging' hormone due to its role in accelerating such developmental proc...
Ethylene (C2H4) is a gaseous hormone able to exert effects on plant development and physiology. It r...
The morphological changes are usually observed in the terrestrial plants to respond to physical barr...
Ethylene is a gaseous growth factor involved in a diverse array of cellular, developmental and stres...
Being continuously exposed to variable environmental conditions, plants produce phytohormones to rea...
The epiphytic habitat is potentially one of the most stressful environments for plants, making the e...
Ethylene represents an important regulatory signal for root development. Genetic studies in Arabidop...
This review highlights that the auxin gradient, established by local auxin biosynthesis and transpor...