Vinh-Trieu To scite author profile

Transcripts for two genes expressed early in alfalfa nodule development (MsENOD40 and MsENOD2) are found in mycorrhizal roots, but not in noncolonized roots or in roots infected with the fungal pathogen Rhizoctonia solani. These same two early nodulin genes are expressed in uninoculated roots upon application of the cytokinin 6-benzylaminopurine. Correlated with the expression of the two early nodulin genes, we found that mycorrhizal roots contain higher levels of trans-zeatin riboside than nonmycorrhizal roots. These data suggest that there may be conservation of signal transduction pathways between the two symbioses-nitrogen-fixing nodules and phosphate-acquiring mycorrhizae.Of the two commonly described symbioses of roots-nitrogenfixing nodules in response to members of Rhizobiaceae or Frankiaceae and phosphate-acquiring arbuscular mycorrhizae (AM) between roots and endophytic fungi-the more ancient of the two is AM. Structures identified as arbuscules have been found in Aglaophyton major, an early Devonian land plant, providing evidence for at least a Ͼ400-million-year-old association between terrestrial plants and fungi (1). In contrast, the Rhizobium-legume symbiosis is much younger, having been established no more than 65 to 136 million years ago, when the angiosperms evolved. However, unlike the AM symbiosis, which is found in almost all angiosperm families, Rhizobiuminduced nitrogen-fixing symbioses appear to be restricted to a single subclade of a larger nitrogen-fixing clade (2).LaRue and Weeden (3) proposed that nodulation evolved from the more ancient AM association because of certain similarities between the two symbioses. For example, some legumes are Nod Ϫ (absence of nodule formation) as well as Myc Ϫ

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Genome-Wide Analysis of the GRAS Gene Family in Barley (Hordeum vulgare L.)

Shi

Zhang

et al. 2020

Genes

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The GRAS (named after first three identified proteins within this family, GAI, RGA, and SCR) family contains plant-specific genes encoding transcriptional regulators that play a key role in gibberellin (GA) signaling, which regulates plant growth and development. Even though GRAS genes have been characterized in some plant species, little research is known about the GRAS genes in barley (Hordeum vulgare L.). In this study, we observed 62 GRAS members from barley genome, which were grouped into 12 subgroups by using phylogenomic analysis together with the GRAS genes from Arabidopsis (Arabidopsis thaliana), maize (Zea mays), and rice (Oryza sativa). Chromosome localization and gene structure analysis suggested that duplication events and abundant presence of intronless genes might account for the massive expansion of GRAS gene family in barley. The analysis of RNA-seq data indicates the expression pattern of GRAS genes in various tissues at different stages in barley. Noteworthy, our qRT-PCR analysis showed the expression of 18 candidate GRAS genes abundantly in the developing inflorescence, indicating their potential roles in the barley inflorescence development and reproduction. Collectively, our evolutionary and expression analysis of GRAS family are useful for future functional characterization of GA signaling in barley and agricultural improvement.

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Genome-wide characterization and expression analyses of the auxin/indole-3-acetic acid (Aux/IAA) gene family in barley (Hordeum vulgare L.)

Shi

Zhang

et al. 2020

Sci Rep

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Aux/IAA genes are early auxin-responsive genes and essential for auxin signaling transduction. There is little information about Aux/IAAs in the agriculturally important cereal, barley. Using in silico method, we identified and subsequently characterized 36 Aux/IAAs from the barley genome. Based on their genomic sequences and the phylogenic relationship with Arabidopsis and rice Aux/IAA, the 36 HvIAAs were categorized into two major groups and 14 subgroups. The indication of the presence or absence of these domains for the biological functions and acting mechanisms was discussed. The cis-element distributions in HvIAA promoters suggests that the HvIAAs expressions may not only regulated by auxin (the presence of AuxREs and TGA-element) but also by other hormones and developmental and environmental cues. We then studied the HvIAAs expression in response to NAA (1-Naphthaleneacetic acid) using quantitative real-time PCR (qRT-PCR). Like the promoter analysis, only 14 HvIAAs were upregulated by NAA over two-fold at 4 h. HvIAAs were clustered into three groups based on the spatiotemporal expression data. We confirmed by qRT-PCR that most HvIAAs, especially HvIAA3, HvIAA7, HvIAA8, HvIAA18, HvIAA24 and HvIAA34, are expressed in the developing barley spike compared within seedling, suggesting their roles in regulating spike development. Taken together, our data provide a foundation for further revealing the biological function of these HvIAAs.

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Studies on MsENOD40 gene expression in alfalfa (Medicago sativa L.) and white sweetclover (Melilotus alba Desr.)

Hirsch

Fang

Rhijn

et al. 1997

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Discovery of DNA polymorphisms via genome-resequencing and development of molecular markers between two barley cultivars

Zhang

Jin²,

Shen³

et al. 2022

Plant Cell Rep

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Vinh-Trieu To

Expression of early nodulin genes in alfalfa mycorrhizae indicates that signal transduction pathways used in forming arbuscular mycorrhizae andRhizobium-induced nodules may be conserved

Genome-Wide Analysis of the GRAS Gene Family in Barley (Hordeum vulgare L.)

Genome-wide characterization and expression analyses of the auxin/indole-3-acetic acid (Aux/IAA) gene family in barley (Hordeum vulgare L.)

Studies on MsENOD40 gene expression in alfalfa (Medicago sativa L.) and white sweetclover (Melilotus alba Desr.)

Discovery of DNA polymorphisms via genome-resequencing and development of molecular markers between two barley cultivars

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