Y. Wang scite author profile

Y. Wang

4Publications

57Citation Statements Received

59Citation Statements Given

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145

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Agricultural Research Organization

Publications

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Breakage of resistance to Cucumber mosaic virus by co-infection with Zucchini yellow mosaic virus: enhancement of CMV accumulation independent of symptom expression

et al. 2003

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Resistance to the cucumovirus Cucumber mosaic virus (CMV) in cucumber cv. Delila was manifested as a very low level of accumulation of viral RNA and capsid protein, and an absence of CMV-induced symptoms. In addition, resistance was observed at the single cell level, with a reduction in accumulation of CMV RNAs, compared to accumulation in cells of the susceptible cucumber cv. Bet Alpha. Resistance to CMV in cv. Delila was broken by co-infection with the potyvirus Zucchini yellow mosaic virus (ZYMV). Resistance breakage in cv. Delila plants was manifested by an increase in the accumulation of (+) and (-) CMV RNA as well as CMV capsid protein, with no increase in the level of accumulation of ZYMV. Resistance breakage in the resistant cultivar by ZYMV also occurred at the single cell level. Thus, synergistic interactions known to occur between a potyvirus and a cucumovirus led to resistance breakage during a double infection. However, resistance breakage was not accompanied by an increase in disease symptoms beyond those induced by ZYMV itself. On co-inoculation with an asymptomatic variant of ZYMV-AG an enhancement of CMV infection occurred without disease manifestation. Consequently, intensification of viral RNA and capsid protein accumulation can occur without a corresponding increase in disease development, suggesting that different host genes regulate viral accumulation and disease development in the CMV-resistant cucumber plants.

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Cucumber mosaic virus movement protein affects sugar metabolism and transport in tobacco and melon plants

Shalitin

Wang

Omid

et al. 2002

Plant Cell & Environment

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In addition to its influence on plasmodesmal function, tobacco mosaic virus movement protein (TMV-MP) causes an alteration in carbon metabolism in source leaves and in resource partitioning among the various plant organs. The present study was aimed at characterizing the influence of cucumber mosaic virus (CMV)-MP on carbohydrate metabolism and transport in both tobacco and melon plants. Transgenic tobacco plants expressing the CMV-MP had reduced levels of soluble sugars and starch in their source leaves and a significantly reduced root-to-shoot ratio in comparison with control plants. A novel virus-vector system was employed to express the CMV-coat protein (CP), the CMV-MP or the TMV-MP in melon plants. This set of experiments indicated that the viral MPs cause a significant elevation in the proportion of sucrose in the phloem sap collected from petioles of source leaves, whereas this sugar was at very low levels or even absent from the sap of control melon plants. The mode by which the CMV-MP exerts its effect on phloem-sap sugar composition is discussed in terms of possible alterations in the mechanism of phloem loading.

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Transformation of Recalcitrant Melon (Cucumis melo L.) Cultivars is Facilitated by Wounding with Carborundum

Çürük

Çetiner

Elman

et al. 2005

Engineering in Life Sciences

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Transformation of the recalcitrant melon (Cucumis melo L.) cultivars Kιrkağaç 637 and Noi Yarok was accomplished by wounding cotyledon explants by vortexing with carborundum prior to inoculation with Agrobacterium tumefaciens. The addition of silver nitrate to the regeneration‐selection medium reduced the transformation efficiency, as the percentage of the explants forming putative transgenic calli and bud‐like protuberances was decreased and no transgenic shoots were produced. Chimeric transgenic plants were obtained after the regeneration of putatively transformed callus, bud‐like protuberances, buds and shoots on selective medium with kanamycin. The treatments producing the most buds or shoots from explants after 30–40 days of cultivation were the most successful for the production of transgenic plants. Only treatments where explants were vortexed with carborundum produced transgenic melon shoots of either cultivar. Subculture every 18–20 days on fresh regeneration‐selection medium containing 50 mg/L kanamycin after either a relatively high (100 mg/L) or low level (50 mg/L) of kanamycin in the first regeneration‐selection medium was necessary for the successful transformation of cultivar Kιrkağaç 637. These techniques are now being used in breeding programs for the production of melon lines bearing resistances to zucchini yellow mosaic virus and cucumber mosaic virus, important viruses limiting agricultural production.

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Affinity purification of HC-Pro of potyviruses with Ni2+-NTA resin

Kadouri

Peng

Wang

et al. 1998

Journal of Virological Methods

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Y. Wang

Breakage of resistance to Cucumber mosaic virus by co-infection with Zucchini yellow mosaic virus: enhancement of CMV accumulation independent of symptom expression

Cucumber mosaic virus movement protein affects sugar metabolism and transport in tobacco and melon plants

Transformation of Recalcitrant Melon (Cucumis melo L.) Cultivars is Facilitated by Wounding with Carborundum

Affinity purification of HC-Pro of potyviruses with Ni2+-NTA resin

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