Add to ORKGPlant regeneration can be defined as the ability to repair tissues and reconstruct organs upon wounding or in vitro explant cultivation. This phenomenon is exploited in various biotechnological applications, but many species are recalcitrant to existing tissue culture methods. Hence, this work investigates shoot regeneration from root explants in the model plant Arabidopsis thaliana, which can be achieved by a two-step protocol involving pre-incubation on auxin-rich callus-inducing medium, followed by transfer to cytokinin- rich shoot induction medium. By means of a genome-wide association study, multi-omics data integration via biological networks, a phosphoproteome analysis, mutational and chemical genetics, molecular factors were identif...
Some of the hormone crosstalk and transcription factors (TFs) involved in wound-induced organ regene...
The molecular mechanisms underlying plant cell totipotency are largely unknown. Here, we present a p...
Adventitious roots (ARs) are formed de novo during post-embryonic development from non-root tissues,...
Clonal propagation and genetic engineering of plants requires regeneration, but many species are rec...
Body regeneration through formation of new organs is a major question in developmental biology. We i...
Plant regeneration is essential for survival upon wounding and is, hence, considered to be a strong ...
AbstractInduction of a pluripotent cell mass termed callus is the first step in an in vitro plant re...
In vitro shoot organogenesis and plant regeneration are crucial for both plant biotechnology and the...
Most multicellular organisms have a capacity to regenerate tissue after wounding. Few, however, have...
Shoots can be regenerated from Arabidopsis (Arabidopsis thaliana) root explants in tissue culture th...
The molecular mechanisms underlying plant cell totipotency are largely unknown. Here, we present a p...
De novo shoot organogenesis (i.e., the regeneration of shoots on nonmeristematic tissue) is widely a...
Plants have the ability to regenerate whole plant body parts, including shoots and roots, in vitro f...
Growth of plant tissues and organs depends on continuous production of new cells, by niches of stem ...
Adventitious roots (ARs) are formed de novo during post-embryonic development from non-root tissues,...
Some of the hormone crosstalk and transcription factors (TFs) involved in wound-induced organ regene...
The molecular mechanisms underlying plant cell totipotency are largely unknown. Here, we present a p...
Adventitious roots (ARs) are formed de novo during post-embryonic development from non-root tissues,...
Clonal propagation and genetic engineering of plants requires regeneration, but many species are rec...
Body regeneration through formation of new organs is a major question in developmental biology. We i...
Plant regeneration is essential for survival upon wounding and is, hence, considered to be a strong ...
AbstractInduction of a pluripotent cell mass termed callus is the first step in an in vitro plant re...
In vitro shoot organogenesis and plant regeneration are crucial for both plant biotechnology and the...
Most multicellular organisms have a capacity to regenerate tissue after wounding. Few, however, have...
Shoots can be regenerated from Arabidopsis (Arabidopsis thaliana) root explants in tissue culture th...
The molecular mechanisms underlying plant cell totipotency are largely unknown. Here, we present a p...
De novo shoot organogenesis (i.e., the regeneration of shoots on nonmeristematic tissue) is widely a...
Plants have the ability to regenerate whole plant body parts, including shoots and roots, in vitro f...
Growth of plant tissues and organs depends on continuous production of new cells, by niches of stem ...
Adventitious roots (ARs) are formed de novo during post-embryonic development from non-root tissues,...
Some of the hormone crosstalk and transcription factors (TFs) involved in wound-induced organ regene...
The molecular mechanisms underlying plant cell totipotency are largely unknown. Here, we present a p...
Adventitious roots (ARs) are formed de novo during post-embryonic development from non-root tissues,...