An Optimized Protocol of Laser Capture Microdissection for Tissue-Specific RNA Profiling in a Radish Tap Root.

Laser capture microdissection (LCM) coupled with transcriptome profiling is a powerful technique that allows for tissue-specific gene expression analysis in a complex system. One major challenge in using this technique is to obtain RNA without compromising its integrity. Here, we present a protocol optimized for radish root tissue sections using Steedman's wax embedding to obtain high-quality RNA suitable for next-generation sequencing analysis.

Identification of Conserved Gene-Regulatory Networks that Integrate Environmental Sensing and Growth in the Root Cambium.

Cambium drives the lateral growth of stems and roots, contributing to diverse plant growth forms. The root crop is one of the outstanding examples of the cambium-driven growth. To understand its molecular basis, we used radish to generate a compendium of root-tissue- and stage-specific transcriptomes from two contrasting inbred lines during root growth.

Push-pull strategy in the regulation of postembryonic root development.

Unlike animals, plants continue to grow throughout their lives. The stem cell niche, protected in meristems of shoots and roots, enables this process. In the root, stem cells produce precursors for highly organized cell types via asymmetric cell divisions.

HAWAIIAN SKIRT regulates the quiescent center-independent meristem activity in Arabidopsis roots.

Root apical meristem (RAM) drives post-embryonic root growth by constantly supplying cells through mitosis. It is composed of stem cells and their derivatives, the transit-amplifying (TA) cells. Stem cell organization and its maintenance in the RAM are well characterized, however, their relationships with TA cells remain unclear.

A map of cell type-specific auxin responses.

In plants, changes in local auxin concentrations can trigger a range of developmental processes as distinct tissues respond differently to the same auxin stimulus. However, little is known about how auxin is interpreted by individual cell types. We performed a transcriptomic analysis of responses to auxin within four distinct tissues of the Arabidopsis thaliana root and demonstrate that different cell types show competence for discrete responses.

Hypomorphic alleles reveal FCA-independent roles for FY in the regulation of FLOWERING LOCUS C.

The autonomous floral promotion pathway plays a key role in the regulation of flowering in rapid-cycling Arabidopsis (Arabidopsis thaliana) by providing constitutive repression of the floral inhibitor FLOWERING LOCUS C (FLC). As a result, autonomous pathway mutants contain elevated levels of FLC and are late flowering. Winter annual Arabidopsis, in contrast, contain functional alleles of FRIGIDA (FRI), which acts epistatically to the autonomous pathway to up-regulate FLC and delay flowering.

Production of herbicide-resistant sweet potato plants transformed with the bar gene.

Herbicide-resistant sweet potato plants were produced through biolistics of embryogenic calli derived from shoot apical meristems. Plant materials were bombarded with the vectors containing the beta-glucuronidase gene (gusA) and the herbicide-resistant gene (bar). Selection was carried out using phosphinothricin (PPT).