Tsuyoshi Inukai scite author profile

In plant genomes as well as other eukaryotic genomes, meiotic recombination does not occur uniformly. At the level of the gene, high recombination frequencies are often observed within genetic loci in maize, but this feature of intragenic recombination is not seen at the csr1 locus in Arabidopsis. These observations suggest that meiotic recombination in plant genomes varies considerably among species. In the present study we investigated meiotic recombination at the wx locus in rice. The mutation sites of wx mutants induced by ethyl methanesulfonate (EMS) treatment or gamma-ray irradiation and a spontaneous wx mutant were physically characterized, and the genetic distances between those wx mutation sites were estimated by pollen analysis. Based on these results, the recombination frequency at the wx locus in rice was estimated as 27.3 kb/cM, which was about 10 times higher than the average for the genome, suggesting that there was a radically different rate of meiotic recombination for intra- and intergenic regions in the rice genome.

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Veinal Necrosis Induced by Turnip mosaic virus Infection in Arabidopsis Is a Form of Defense Response Accompanying HR-Like Cell Death

Kim¹,

Masuta²,

Matsuura³

et al. 2008

MPMI

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In the pathosystems of Turnip mosaic virus (TuMV) with Brassicaceae crops, various symptoms, including mosaic and necrosis, are observed. We previously reported a necrosis-inducing factor TuNI in Arabidopsis thaliana, a model species. In this study, we show that the necrotic symptom induced by TuNI, observed along the veins, was actually a form of defense response accompanying a hypersensitive reaction (HR)-like cell death in the veinal area. The virus is often localized in the necrotic region. The necrotic response is associated with the production of H2O2, accumulation of salicylic acid (SA), emission of ethylene, and subsequent expression of defense-related genes. Additionally, this HR-like cell death is eased or erased by a shading treatment. These features are similar to the HR-associated resistance reaction to pathogens. However, unlike HR, two phytohormones--SA and ethylene--are involved in the necrosis induction, and both SA- and ethylene-dependent pathogenesis-related genes are activated. We concluded that the veinal necrosis induced by TuMV is regulated by a complex and unique network of at least two signaling pathways, which differs from the signal transduction for the known HR-associated resistance.

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Genetic analysis of lethal tip necrosis induced by Clover yellow vein virus infection in pea

et al. 2007

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Clover yellow vein virus (ClYVV) elicits lethal tip necrosis in the pea line PI 118501. Pea line PI 118501 develops necrotic lesions and veinal necrosis on inoculated leaves, followed by systemic necrosis, leading to plant death. To understand the genetic basis of this lethal tip necrosis, we crossed lines PI 226564 and PI 250438, which develop mosaic symptoms in response to ClYVV inoculation. In reciprocal crosses of PI 118501 with PI 226564, all F 1 plants had mosaic symptoms with slight stem necrosis and early yellowing of upper leaves. Essentially the same symptom was manifested in PI 118501 × PI 250438 F 1 plants. In F 2 populations from the cross between PI 118501 and PI 226564, the observed ratios of necrosis, mosaic with slight stem necrosis, and mosaic fi t the expected 1 : 2 : 1 ratio. These results indicate that a single incompletely dominant gene confers the induction of necrosis in PI 118501. This locus in pea, conferring necrosis induction to ClYVV infection, was designated Cyn1 (Clover yellow vein virus-induced necrosis). A linkage analysis using 100 recombinant inbred lines derived from a cross of PI 118501 and PI 226564 demonstrated that Cyn1 was located 7.5 cM from the SSR marker AD174 on linkage group III.

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The P3 Protein of Turnip mosaic virus Can Alone Induce Hypersensitive Response-Like Cell Death in Arabidopsis thaliana Carrying TuNI

Kim¹,

Suehiro²,

Natsuaki³

et al. 2010

MPMI

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Strains TuR1 and TuC of Turnip mosaic virus (TuMV) induce different symptoms on Arabidopsis thaliana ecotype Landsberg erecta (Ler); plants infected with TuR1 develop systemic necrosis, while TuC causes mosaics. We previously found that the Ler systemic necrosis was controlled by a single dominant gene, TuNI (TuMV necrosis inducer), and that it was actually a form of host defense response leading to a hypersensitive reaction (HR)-like cell death. To identify the viral factor interacting with TuNI, the domain swapping between the genomic clones of TuR1 and TuC was carried out, and we identified the TuMV symptom determinant interacting with TuNI as the P3 gene. Moreover, it was found that the central 0.5-kb domain of P3, including three different amino acids between the two isolates, was responsible for the systemic HR. To verify that the P3 gene can alone induce necrosis, we analyzed the constitutive P3 expression in Ler transgenic plants and the transient P3 expression in Ler protoplasts. These results indicated that P3 alone caused HR-like cell death. In this study, we successfully demonstrated that the systemic necrosis by TuMV in Arabidopsis was determined by the gene-for-gene interaction between TuNI and P3 using the protoplast system for direct verification.

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Tsuyoshi Inukai

Allelism of Blast Resistance Genes in Near-Isogenic Lines of Rice

Analysis of intragenic recombination atwxin rice: Correlation between the molecular and genetic maps within the locus

Veinal Necrosis Induced by Turnip mosaic virus Infection in Arabidopsis Is a Form of Defense Response Accompanying HR-Like Cell Death

Genetic analysis of lethal tip necrosis induced by Clover yellow vein virus infection in pea

The P3 Protein of Turnip mosaic virus Can Alone Induce Hypersensitive Response-Like Cell Death in Arabidopsis thaliana Carrying TuNI

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