Titlebook: Biological Nitrogen Fixation and Beneficial Plant-Microbe Interaction; Fernando González-Andrés,Euan James Conference proceedings 2016 Spr

感激小女

Optimization of the Immunodetection of Tagged-LYK3 Nod Factor Receptor in , Root Extractsactors. In the model legume ., two Nod factor receptor kinases have been described: NFP and LYK3. These plasma membrane-localized proteins are present at very low amounts in root tissues, and even using antibodies specific against them, detection remains challenging. In the current work, we tested s

circumvent

Functional Characterization of a Chitinase Class III (CgCHI3) and a Glutathione S-Transferase (CgGSTve the capacity to obtain high levels of nitrogen due to their ability to establish symbiosis at the root level with nitrogen-fixing bacteria of the genus .. Symbiosis is an ontogenic process that requires a highly coordinated sequence of events. One of such mechanisms is the induction of defense-re

climax

Effective Colonization of Spinach Root Surface by ,ve bacteria–plant association, microorganism colonization and its arrangement and abundance on plant root surfaces are very important. Here, we analysed the ability of the strain PEPV12 identified as . sp., to colonize spinach (.) root surfaces, and evaluated three parameters of in vitro plant growt

明確

eardrum

闡釋

Salt Stress Tolerance in , and Its Relation with Nitrogen-Fixing , Bacteriayear 2050. A promising solution for the recovery of saline soils encompasses the use of actinorhizal plants, a group of perennial dicotyledonous angiosperms highly resilient to extreme environmental conditions. These plants are also able to establish a root nodule symbiosis with N.-fixing actinobact

BACLE

Induced Systemic Resistance Could Explain the Reduction in the Incidence of Black Sigatoka (,) in Baor export crop in many tropical and subtropical countries, and many farmers have decided to shift to an organic production system for produce that is destined for the international market. Induced systemic resistance (ISR) protects plants against disease-causing pathogens, and this mechanism can be

avulsion

nonplus

https://doi.org/10.1007/978-3-662-62284-1tes, and endosymbiotic bacteria. PGPRs colonize plant roots, conferring several benefits to the plants through different mechanisms. Despite its classical involvement in root nodule symbiosis with legumes, recent studies revealed the beneficial role of the genus . as PGPR for several non-legume crop

MAOIS

Rede zur Verleihung des Kleist-Preises 2019eria. Plants need the presence of those associated bacteria for their growth and adaptation to different ecosystems. This is the case of maize, which is a well-known cereal crop for hosting a great diversity of endophytic bacteria. Thus, microbes take advantage of the plant nutrients, whereas plants