Abstract Plant development is predominantly postembryonic and tuned in to respond to environmental cues. All living plant cells can be triggered to de-differentiate, assume different cell identities, or form a new organism. This developmental plasticity is thought to be an adaptation to the sessile lifestyle of plants. Recent discoveries have advanced our understanding of the orchestration of plant developmental switches by transcriptional master regulators, chromatin state changes, and hormone response pathways. Here, we review these recent advances with emphasis on the earliest stages of plant development and on the switch from pluripotency to differentiation in different plant organ systems
Plants have developed a striking flexibility to adapt to changes in their environment, as they canno...
© 2015 Wiley Periodicals, Inc. A growing body of evidence suggests that alterations in transcription...
During their life cycle plants undergo a wide variety of morphological and developmental changes. Im...
Plants are sessile organisms that must constantly adjust to their environment. In contrast to animal...
Plants are characterized by a remarkable phenotypic plasticity that meets the constraints of a sessi...
International audienceThe plant life cycle involves a series of developmental phase transitions. The...
International audienceIn plants, environment-adaptable organogenesis extends throughout the lifespan...
Unlike animals, plants produce new organs throughout their life cycle using pools of stem cells that...
International audienceAs sessile organisms, plants display a high capacity for phenotypic adaptation...
Sexual reproduction in flowering plants offers a number of remarkable aspects to developmental biolo...
Plants rely heavily on environmental cues to control the timing of developmental transitions. We are...
Plants exhibit a unique developmental flexibility to ever-changing environmental conditions. To achi...
The progression of pluripotent stem cells to differentiated cell lineages requires major shifts in c...
Abstract Background The floral transition is a complex developmental event, fine-tuned by various en...
The transition to flowering results from a complex interplay between endogenous and environmental cu...
Plants have developed a striking flexibility to adapt to changes in their environment, as they canno...
© 2015 Wiley Periodicals, Inc. A growing body of evidence suggests that alterations in transcription...
During their life cycle plants undergo a wide variety of morphological and developmental changes. Im...
Plants are sessile organisms that must constantly adjust to their environment. In contrast to animal...
Plants are characterized by a remarkable phenotypic plasticity that meets the constraints of a sessi...
International audienceThe plant life cycle involves a series of developmental phase transitions. The...
International audienceIn plants, environment-adaptable organogenesis extends throughout the lifespan...
Unlike animals, plants produce new organs throughout their life cycle using pools of stem cells that...
International audienceAs sessile organisms, plants display a high capacity for phenotypic adaptation...
Sexual reproduction in flowering plants offers a number of remarkable aspects to developmental biolo...
Plants rely heavily on environmental cues to control the timing of developmental transitions. We are...
Plants exhibit a unique developmental flexibility to ever-changing environmental conditions. To achi...
The progression of pluripotent stem cells to differentiated cell lineages requires major shifts in c...
Abstract Background The floral transition is a complex developmental event, fine-tuned by various en...
The transition to flowering results from a complex interplay between endogenous and environmental cu...
Plants have developed a striking flexibility to adapt to changes in their environment, as they canno...
© 2015 Wiley Periodicals, Inc. A growing body of evidence suggests that alterations in transcription...
During their life cycle plants undergo a wide variety of morphological and developmental changes. Im...