Add to ORKGIn this review, we address the role of stress as one of the principal causes for a cell or tissue to change its pre-existing somatic program, reprogramming itself to express the embryogenic pathway. The focus of this paper is the effect of different stress conditions on the induction phase of plant somatic embryogenesis, as well as the development of embryogenic competence as a result of the applied stresses. We also present a variety of data that link plant somatic embryogenesis, DNA methylation and oxidative stress response
Plant hormones play critical roles in the establishment of somatic embryogenesis. During this proces...
21 p.-3 fig.Stress-induced microspore embryogenesis is an in vitro system in which the haploid micro...
Session 1 (Part 1 & 2, Monday 20th April) – Understanding in vitro growth. In this session lectures,...
In this review, we address the role of stress as one of the principal causes for a cell or tissue to...
In this review, we address the role of stress as one of the principal causes for a cell or tissue to...
Plants as sessile organisms have remarkable developmental plasticity ensuring heir continuous adapta...
BAPGEAPSIAlthough somatic embryogenesis has been successfully achieved in numerous plant species, li...
Somatic embryogenesis (SE) is a remarkable developmental process enabling nonzygotic plant cells to ...
International audienceGlobal climatic changes and growing demographic pressure have increased demand...
Tissue explants, in response to excision and culture in an enriched culture medium, experience both ...
Somatic embryogenesis is an illustration of plant totipotency. There are many factors involved in ca...
The effect of steady shear stress on somatic embryos were investigated in a flow chamber and evaluat...
Somatic plant cells are not terminally differentiated and can therefore regain totipotency and initi...
prod 2018-145 BAP GEAPSI INRA CT1 BAPNational audienceGlobal warming and growing demography have inc...
Somatic embryogenesis (SE) is a means by which plants can regenerate bipolar structures from a somat...
Plant hormones play critical roles in the establishment of somatic embryogenesis. During this proces...
21 p.-3 fig.Stress-induced microspore embryogenesis is an in vitro system in which the haploid micro...
Session 1 (Part 1 & 2, Monday 20th April) – Understanding in vitro growth. In this session lectures,...
In this review, we address the role of stress as one of the principal causes for a cell or tissue to...
In this review, we address the role of stress as one of the principal causes for a cell or tissue to...
Plants as sessile organisms have remarkable developmental plasticity ensuring heir continuous adapta...
BAPGEAPSIAlthough somatic embryogenesis has been successfully achieved in numerous plant species, li...
Somatic embryogenesis (SE) is a remarkable developmental process enabling nonzygotic plant cells to ...
International audienceGlobal climatic changes and growing demographic pressure have increased demand...
Tissue explants, in response to excision and culture in an enriched culture medium, experience both ...
Somatic embryogenesis is an illustration of plant totipotency. There are many factors involved in ca...
The effect of steady shear stress on somatic embryos were investigated in a flow chamber and evaluat...
Somatic plant cells are not terminally differentiated and can therefore regain totipotency and initi...
prod 2018-145 BAP GEAPSI INRA CT1 BAPNational audienceGlobal warming and growing demography have inc...
Somatic embryogenesis (SE) is a means by which plants can regenerate bipolar structures from a somat...
Plant hormones play critical roles in the establishment of somatic embryogenesis. During this proces...
21 p.-3 fig.Stress-induced microspore embryogenesis is an in vitro system in which the haploid micro...
Session 1 (Part 1 & 2, Monday 20th April) – Understanding in vitro growth. In this session lectures,...
