Hormones are key modules in the regulation of plant biological processes. They regulate plant biology under normal as well as adverse growth conditions. Hormones modulate complex biological processes via cell signaling components, such as transcription factors, G-proteins, and mitogen-activated protein kinases. The horticulture sector is evolving at a fast pace throughout the globe but is also facing some challenges due to the interference caused by biotic and abiotic factors. Since hormones are actively involved in the regulation of plant biology, their role in regulating biological processes under adverse growth conditions is of particular interest to plant biologists, who are exploring the associated mechanisms in more detail. In the past two decades, a lot of research has been carried out to understand the role and application of plant hormones in horticulture crops, including their role during the grafting process.
In the current Research Topic, we aim to compile the latest developments in the field of horticulture, with a special focus on in-depth understanding and biotechnological aspects of hormone-mediated regulation of plant biology. High-quality original research and mechanistic reviews in the field of hormone-mediated stress regulation are welcome for submission.
The following aspects will be covered in this Research Topic:
• Studying hormonal regulation in plants using omic approaches.
• Exploring in-depth molecular mechanisms involved in ROS homeostasis.
• Biotechnological applications of plant hormones in horticulture.
• Exploring the molecular mechanisms related to hormone-mediated regulation of plant biology under abiotic stress.
• Role of hormones in grafting.
Please note that descriptive collection of omics data (e.g. transcriptome, metabolome, etc.) will not be considered for publication unless they are expanded and provide mechanistic insights into hormone regulation in horticulture.
Hormones are key modules in the regulation of plant biological processes. They regulate plant biology under normal as well as adverse growth conditions. Hormones modulate complex biological processes via cell signaling components, such as transcription factors, G-proteins, and mitogen-activated protein kinases. The horticulture sector is evolving at a fast pace throughout the globe but is also facing some challenges due to the interference caused by biotic and abiotic factors. Since hormones are actively involved in the regulation of plant biology, their role in regulating biological processes under adverse growth conditions is of particular interest to plant biologists, who are exploring the associated mechanisms in more detail. In the past two decades, a lot of research has been carried out to understand the role and application of plant hormones in horticulture crops, including their role during the grafting process.
In the current Research Topic, we aim to compile the latest developments in the field of horticulture, with a special focus on in-depth understanding and biotechnological aspects of hormone-mediated regulation of plant biology. High-quality original research and mechanistic reviews in the field of hormone-mediated stress regulation are welcome for submission.
The following aspects will be covered in this Research Topic:
• Studying hormonal regulation in plants using omic approaches.
• Exploring in-depth molecular mechanisms involved in ROS homeostasis.
• Biotechnological applications of plant hormones in horticulture.
• Exploring the molecular mechanisms related to hormone-mediated regulation of plant biology under abiotic stress.
• Role of hormones in grafting.
Please note that descriptive collection of omics data (e.g. transcriptome, metabolome, etc.) will not be considered for publication unless they are expanded and provide mechanistic insights into hormone regulation in horticulture.
