Katsuhiro Shiono scite author profile

Summary• To adapt to waterlogging in soil, some gramineous plants, such as maize (Zea mays), form lysigenous aerenchyma in the root cortex. Ethylene, which is accumulated during waterlogging, promotes aerenchyma formation. However, the molecular mechanism of aerenchyma formation is not understood.• The aim of this study was to identify aerenchyma formation-associated genes expressed in maize roots as a basis for understanding the molecular mechanism of aerenchyma formation. Maize plants were grown under waterlogged conditions, with or without pretreatment with an ethylene perception inhibitor 1-methylcyclopropene (1-MCP), or under aerobic conditions. Cortical cells were isolated by laser microdissection and their mRNA levels were examined with a microarray.• The microarray analysis revealed 575 genes in the cortical cells, whose expression was either up-regulated or down-regulated under waterlogged conditions and whose induction or repression was suppressed by pretreatment with 1-MCP.• The differentially expressed genes included genes related to the generation or scavenging of reactive oxygen species, Ca 2+ signaling, and cell wall loosening and degradation. The results of this study should lead to a better understanding of the mechanism of root lysigenous aerenchyma formation.

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Enhanced formation of aerenchyma and induction of a barrier to radial oxygen loss in adventitious roots of Zea nicaraguensis contribute to its waterlogging tolerance as compared with maize (Zea mays ssp. mays)

Abiko

Kotula

Shiono

et al. 2012

Plant Cell & Environment

189

147

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Enhancement of oxygen transport from shoot to root tip by the formation of aerenchyma and also a barrier to radial oxygen loss (ROL) in roots is common in waterlogging‐tolerant plants. Zea nicaraguensis (teosinte), a wild relative of maize (Zea mays ssp. mays), grows in waterlogged soils. We investigated the formation of aerenchyma and ROL barrier induction in roots of Z. nicaraguensis, in comparison with roots of maize (inbred line Mi29), in a pot soil system and in hydroponics. Furthermore, depositions of suberin in the exodermis/hypodermis and lignin in the epidermis of adventitious roots of Z. nicaraguensis and maize grown in aerated or stagnant deoxygenated nutrient solution were studied. Growth of maize was more adversely affected by low oxygen in the root zone (waterlogged soil or stagnant deoxygenated nutrient solution) compared with Z. nicaraguensis. In stagnant deoxygenated solution, Z. nicaraguensis was superior to maize in transporting oxygen from shoot base to root tip due to formation of larger aerenchyma and a stronger barrier to ROL in adventitious roots. The relationships between the ROL barrier formation and suberin and lignin depositions in roots are discussed. The ROL barrier, in addition to aerenchyma, would contribute to the waterlogging tolerance of Z. nicaraguensis.

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Contrasting dynamics of radial O2-loss barrier induction and aerenchyma formation in rice roots of two lengths

et al. 2010

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As root length affected formation of the barrier to ROL, but not aerenchyma, these two acclimations are differentially regulated in roots of rice. Moreover, ROL barrier induction occurred before histochemically detectable changes in putative suberin and lignin deposits could be seen, whereas TEM showed deposition of new electron-dense materials in exodermal cell walls, so structural changes required for barrier functioning appear to be more subtle than previously described.

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A method for obtaining high quality RNA from paraffin sections of plant tissues by laser microdissection

et al. 2010

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Laser microdissection (LM) combined with microarray analysis or next-generation sequencing of cDNA is a powerful tool for understanding molecular events in individual cell types of plants as well as animals. Obtaining high quality RNA is essential for this approach. For plant tissues, paraffin-embedded sections better preserve cell structure than do frozen sections. However, the conventional method for preparing paraffin sections is a lengthy process involving embedding the tissue and floating and drying the sections, during which time RNA degradation occurs. Here, we describe a method for preparing serial sections that greatly reduces RNA degradation: we reduced (1) the embedding time from 4-6 days to about 5 h by using a recently developed microwave method; (2) the time of floating sections from ~10 min to less than 5 min, (3) the drying time from ~12 to 1 h; and (4) the drying temperature from 42 to 4°C. With this method, we were able to isolate higher integrity RNA from many kinds of plant tissues than is typically obtained by the conventional paraffin preparation method. The improvement in RNA quality and yield removes a major obstacle to the widespread use of LM with high-throughput technologies for plants.

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Various Spatiotemporal Expression Profiles of Anther-Expressed Genes in Rice

Hobo

Suwabe

Aya

et al. 2008

Plant and Cell Physiology

111

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The male gametophyte and tapetum play different roles during anther development although they are differentiated from the same cell lineage, the L2 layer. Until now, it has not been possible to delineate their transcriptomes due to technical difficulties in separating the two cell types. In the present study, we characterized the separated transcriptomes of the rice microspore/pollen and tapetum using laser microdissection (LM)-mediated microarray. Spatiotemporal expression patterns of 28,141 anther-expressed genes were classified into 20 clusters, which contained 3,468 (12.3%) anther-enriched genes. In some clusters, synchronous gene expression in the microspore and tapetum at the same developmental stage was observed as a novel characteristic of the anther transcriptome. Noteworthy expression patterns are discussed in connection with gene ontology (GO) categories and gene annotations, which are related to important biological events in anther development, such as pollen maturation, pollen germination, pollen tube elongation and pollen wall formation.

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