Yukio Adachi scite author profile

Sexual reproduction of fungi is governed by genes located on the mating-type (MAT) locus. To analyze the MAT locus of the genus Diaporthe (anamorph: Phomopsis), a large genera within the ascomycetous class Sordariomycetes, we cloned and sequenced loci MAT1-1 and MAT1-2 from two heterothallic Diaporthe species, designated as Diaporthe W- and G-types (four isolates in total). The mating-type loci structures of Diaporthe W- and G-types were similar; MAT1-1 isolates had a MAT locus containing three genes, MAT1-1-1, MAT1-1-2 and MAT1-1-3, as was the case with other Sordariomycetes, and in contrast to other Sordariomycetes, MAT1-2 isolates had genes homologous to MAT1-1-2 and MAT1-1-3, in addition to MAT1-2-1. Expression analysis by RT-PCR revealed that all the mating-type genes of Diaporthe W-type were transcriptionally active during vegetative growth. The structure of MAT loci of Diaporthe W- and G-types is distinct from that in other heterothallic filamentous ascomycetes, which have dissimilar gene structure in opposite mating-type loci. This unique structure is informative to discussing the evolutionary history and function of mating-type genes of Sordariomycete fungi.

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Genetic mapping of the pear scab resistance gene Vnk of Japanese pear cultivar Kinchaku

Terakami

Shoda

Adachi

et al. 2006

Theor Appl Genet

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Pear scab (caused by Venturia nashicola) is one of the most harmful diseases of pears, especially Japanese and Chinese pear species. The molecular identification and early selection of resistant plants could greatly improve pear breeding. We have identified the position of the scab resistance gene, designated Vnk in an indigenous Japanese pear cultivar Kinchaku, within the pear genome by using simple sequence repeat (SSR) markers derived from pear and apple. The position of Vnk was identified in the central region of linkage group 1 of Kinchaku. Several amplified fragment length polymorphism (AFLP) markers linked to Vnk were obtained by bulked segregant analysis. Among them, the AFLP marker closest to Vnk was converted into a sequence tagged site (STS) marker. Four random amplified polymorphic DNA (RAPD) markers previously found to be loosely associated with Vnk (Iketani et al. 2001) were successfully converted into STS markers. Six markers (one SSR Hi02c07 and five STSs converted from AFLP and RAPD) showed tight linkages to Vnk, being mapped with distances ranging from 2.4 to 12.4 cM. The SSR CH-Vf2, which was isolated from a BAC clone of the contig containing the apple scab gene Vf, was mapped at the bottom of linkage group 1 in Kinchaku, suggesting that the Vnk and Vf loci are located in different genomic regions of the same homologous linkage group.

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Assessment of ampulla (Takotsubo) cardiomyopathy with coronary angiography, two-dimensional echocardiography and99mTc-tetrofosmin myocardial single photon emission computed tomography

et al. 2001

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Infection Behavior ofVenturia nashicola, the Cause of Scab on Asian Pears

Park¹,

Ishii²,

Adachi³

et al. 2000

Phytopathology®

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The infection of Japanese pear by Venturia nashicola, the cause of scab on Asian pears (Japanese pear, Pyrus pylifolia var. culta; Chinese pear, P. ussuriensis), was examined using light and electron microscopy to determine the mechanism of resistance in pears. Early stages of infection were similar on the susceptible cv. Kosui, the resistant cv. Kinchaku, and the nonhost European pear (P. communis) cv. Flemish Beauty. V. nashicola penetrated only the cuticle layer on pear leaves and formed subcuticular hyphae on all three cultivars. Hyphae were localized in the pectin layer of pear leaves and never penetrated into the cytoplasm of epidermal cells. This restriction of fungal growth suggested that pectinases released by infection hyphae or subcuticular hyphae may be important in infection. Subcuticular hyphae were modified ultrastructurally in the pectin layer of resistant pear cultivars accompanied by fungal cell death. In contrast, fungal cells appeared intact in susceptible pear cultivars, suggesting the existence of resistance mechanisms.

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Genetic mapping of genes for susceptibility to black spot disease in Japanese pears

Terakami

Adachi

Iketani

et al. 2007

Genome

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Black spot disease, which is caused by the Japanese pear pathotype of Alternaria alternata (Fr.) Keissler, is one of the most harmful diseases in Japanese pear cultivation. We identified the exact positions and linkage groups (LGs) of the genes for susceptibility to black spot in the Japanese pear (Pyrus pyrifolia Nakai) cultivars 'Osa Nijisseiki' (gene Ani) and 'Nansui' (gene Ana). Segregation of susceptibility and resistance fitted the expected ratio of 1:1 in progeny of 'Nansui' but showed a slight distortion in progeny of 'Osa Nijisseiki'. We mapped the genes for susceptibility to black spot in both populations using a genome scanning approach. The simple sequence repeat (SSR) markers CH04h02 and CH03d02 showed tight linkage to Ani and Ana. Although Ani and Ana are derived from different sources, both genes are located at the top region of LG 11. Information about the positions of the susceptibility genes and the molecular markers linked to them will be useful for marker-assisted selection in pear breeding programs.

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Yukio Adachi

Mating-type loci of heterothallic Diaporthe spp.: homologous genes are present in opposite mating-types

Genetic mapping of the pear scab resistance gene Vnk of Japanese pear cultivar Kinchaku

Assessment of ampulla (Takotsubo) cardiomyopathy with coronary angiography, two-dimensional echocardiography and99mTc-tetrofosmin myocardial single photon emission computed tomography

Infection Behavior ofVenturia nashicola, the Cause of Scab on Asian Pears

Genetic mapping of genes for susceptibility to black spot disease in Japanese pears

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