Acetylene Reduction Assay: A Measure of Nitrogenase Activity in Plants and Bacteria.

Nitrogen is one of the most abundant elements in the biosphere, but its gaseous form is not biologically available to many organisms, including plants and animals. Diazotrophic microorganisms can convert atmospheric nitrogen into ammonia, a form that can be absorbed by plants in a process called biological nitrogen fixation (BNF). BNF is catalyzed by the enzyme nitrogenase, which not only reduces N to NH , but also reduces other substrates such as acetylene.

High-Resolution Translatome Analysis Reveals Cortical Cell Programs During Early Soybean Nodulation.

Nodule organogenesis in legumes is regulated temporally and spatially through gene networks. Genome-wide transcriptome, proteomic, and metabolomic analyses have been used previously to define the functional role of various plant genes in the nodulation process. However, while significant progress has been made, most of these studies have suffered from tissue dilution since only a few cells/root regions respond to rhizobial infection, with much of the root non-responsive.

Soybean Hairy Root Transformation: A Rapid and Highly Efficient Method.

New genetic engineering techniques have advanced the field of plant molecular biology, and Agrobacterium-mediated transformation has enabled the discovery of numerous molecular and genetic functions. It has been widely used in many plants, including the economically important crop, soybean. Large-scale genetic analyses are needed to comprehend the molecular mechanisms that underlie the agronomic traits of soybean, and the generation of stable transgenic plants involves a lengthy and laborious process.