Pankaj Kumar Kumar Totipotency in Plants

Totipotency in Plants

von Pankaj Kumar

Molecular Signaling and Gene Network Dynamics

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Beschreibung

This book presents a focused and structured overview of the molecular basis of plant cell totipotency, with emphasis on regulatory networks that drive in vitro regeneration. It brings together current research on genetic, hormonal, epigenetic, and synthetic factors that influence the totipotent state in plant cells.


The chapters begin by introducing the concept of totipotency and its relevance in plant development and biotechnology. The book then explores key developmental regulatory genes, followed by hormone-responsive modules shaped by auxin and cytokinin signaling. It examines the role of epigenetic mechanisms like DNA methylation and chromatin remodelling in enabling or restricting regeneration. A detailed discussion on regulatory networks highlights their role in somatic embryogenesis and callus formation. The book also compares species-specific differences in totipotency and explains how evolutionary changes in gene regulation affect regeneration capacity. The final chapter focuses on synthetic biology approaches, including CRISPR-based activation and artificial gene circuits, to enhance regeneration outcomes.

This book is a useful resource for graduate students, early-career researchers, and professionals in plant molecular biology, biotechnology, and tissue culture. It also supports crop scientists and regeneration engineers seeking molecular strategies to improve plant transformation and regeneration efficiency


This book presents a focused and structured overview of the molecular basis of plant cell totipotency, with emphasis on regulatory networks that drive in vitro regeneration. It brings together current research on genetic, hormonal, epigenetic, and synthetic factors that influence the totipotent state in plant cells.


The chapters begin by introducing the concept of totipotency and its relevance in plant development and biotechnology. The book then explores key developmental regulatory genes, followed by hormone-responsive modules shaped by auxin and cytokinin signaling. It examines the role of epigenetic mechanisms like DNA methylation and chromatin remodelling in enabling or restricting regeneration. A detailed discussion on regulatory networks highlights their role in somatic embryogenesis and callus formation. The book also compares species-specific differences in totipotency and explains how evolutionary changes in gene regulation affect regeneration capacity. The final chapter focuses on synthetic biology approaches, including CRISPR-based activation and artificial gene circuits, to enhance regeneration outcomes.

This book is a useful resource for graduate students, early-career researchers, and professionals in plant molecular biology, biotechnology, and tissue culture. It also supports crop scientists and regeneration engineers seeking molecular strategies to improve plant transformation and regeneration efficiency


Integrates gene, hormone, and epigenetic control of totipotency across model and crop plant systems Explores synthetic biology tools for engineering plant regeneration and overcoming species recalcitrance Combines developmental, molecular, and evolutionary insights into plant cell reprogramming and totipotency

Autor*in

Pankaj Kumar

Themen in »Totipotency in Plants«

Epigenetic Regulation of Somatic Embryogenesis Hormone-Gene Interactions in Plant Regeneration Developmental Regulatory Genes in Plants Plant Cell Totipotency Mechanisms Gene Regulatory Networks in Plant Reprogramming Synthetic Biology for Plant Regeneration Species-Specific Barriers to Plant Regeneration

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Details

ISBN: 9789819216307
Verlag: Springer Singapore
Erscheinung: 15.07.2026

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