All lateral organ development in plants, such as nodulation in legumes, requires the temporal and spatial regulation of genes and gene networks. A total mRNA profiling approach using RNA-seq to target the specific soybean (Glycine max) root tissues responding to compatible rhizobia [i.e. the Zone Of Nodulation (ZON)] revealed a large number of novel, often transient, mRNA changes occurring during the early stages of nodulation. Focusing on the ZON enabled us to discard the majority of root tissues and their developmentally diverse gene transcripts, thereby highlighting the lowly and transiently expressed nodulation-specific genes. It also enabled us to concentrate on a precise moment in early nodule development at each sampling time. We foc...
The infection of soybean roots by the soil bacterium Bradyrhizobium japonicum results in the formati...
Biological nitrogen fixation in root nodules is a process of great importance to crops of soybean [G...
Legumes develop root nodules from pluripotent stem cells in the rootpericycle in response to mitogen...
All lateral organ development in plants, such as nodulation in legumes, requires the temporal and sp...
All lateral organ development in plants, such as nodulation in legumes, requires the temporal and sp...
Legumes include some of the most economically important crops and are characterised by their ability...
In vitro translation products of total RNA isolated from soybean nodules at successive stages of nod...
In vitro translation products of total RNA isolated from soybean nodules at successive stages of nod...
In vitro translation products of total RNA isolated from soybean nodules at successive stages of nod...
In order to identify plant genes involved in the Rhizobium/legume root nodule symbiosis, host gene e...
Establishment of the nitrogen-fixing nodulation symbiosis between legumes and rhizobia requires plan...
Establishment of the nitrogen-fixing nodulation symbiosis between legumes and rhizobia requires plan...
The plant hormone gibberellin (GA) is required at different stages of legume nodule development, wit...
The plant hormone gibberellin (GA) is required at different stages of legume nodule development, wit...
Soybean develop new root organs that become nitrogen-fixing nodules in response to signals from rhiz...
The infection of soybean roots by the soil bacterium Bradyrhizobium japonicum results in the formati...
Biological nitrogen fixation in root nodules is a process of great importance to crops of soybean [G...
Legumes develop root nodules from pluripotent stem cells in the rootpericycle in response to mitogen...
All lateral organ development in plants, such as nodulation in legumes, requires the temporal and sp...
All lateral organ development in plants, such as nodulation in legumes, requires the temporal and sp...
Legumes include some of the most economically important crops and are characterised by their ability...
In vitro translation products of total RNA isolated from soybean nodules at successive stages of nod...
In vitro translation products of total RNA isolated from soybean nodules at successive stages of nod...
In vitro translation products of total RNA isolated from soybean nodules at successive stages of nod...
In order to identify plant genes involved in the Rhizobium/legume root nodule symbiosis, host gene e...
Establishment of the nitrogen-fixing nodulation symbiosis between legumes and rhizobia requires plan...
Establishment of the nitrogen-fixing nodulation symbiosis between legumes and rhizobia requires plan...
The plant hormone gibberellin (GA) is required at different stages of legume nodule development, wit...
The plant hormone gibberellin (GA) is required at different stages of legume nodule development, wit...
Soybean develop new root organs that become nitrogen-fixing nodules in response to signals from rhiz...
The infection of soybean roots by the soil bacterium Bradyrhizobium japonicum results in the formati...
Biological nitrogen fixation in root nodules is a process of great importance to crops of soybean [G...
Legumes develop root nodules from pluripotent stem cells in the rootpericycle in response to mitogen...