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Mwafaida J. Mghalu Masashi Horibe Mayumi Kubota Hirokazu Kawagishi Mitsuro Hyakumachi 《Journal of General Plant Pathology》2007,73(4):235-241
Isolates from 18 anastomosis groups (AGs) of binucleate Rhizoctonia were screened for lectin activity. Eight AGs (AG-B, AG-D, AG-F, AG-G, AG-H, AG-I, AG-R and AG-U) had low to moderate lectin
activities. Among these, members of AG-D and AG-I had the highest activity. Partially purified lectins from AG-D preferentially
agglutinated human blood type A to type B and O. Mucin and galactose were the most potent inhibitors among the tested carbohydrates.
The molecular masses of these lectins ranged from 12.7 kDa for the monomer to 62 kDa for the pentamer type. Proline, alanine,
glutamic acid, aspartic acid, leucine, threonine, serine and tyrosine were the major amino acid components of these lectins.
Lectins from AG-D were stable at 4–50°C and from pH 6.0 to 10.0. When assayed with isoelectric focusing, these lectins gave
bands at pI 9.30. Specificity of lectins from AG-D to galactose and its derivatives suggest a possible recognition role in
this fungal species. 相似文献
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双核丝核菌诱导水稻增强广谱抗病性和防卫酶系活性 总被引:16,自引:2,他引:16
用无致病性的双核丝核菌(Binucleate Rhizoctonia species,简称BNR)菌株2 32-CG预接种处理水稻品种IR2 6苗期植株根茎基部,可以诱导水稻增强对纹枯病(R.solani Kühn)的抗性。与未处理对照相比,BNR处理水稻植株的纹枯病害严重度明显降低。2 4 h以上的BNR处理,可以彻底保护幼苗不受立枯丝核菌侵染的危害。经BNR诱导的水稻也表现对白叶枯病(Xanthomonas oryzae pv.oryzae)和条斑病(X.oryzae pv.oryzicola)的抗性。BNR可以显著地诱导水稻防卫反应中的2类关键酶——苯丙氨酸解氨酶(PAL)和过氧化物酶(POX)活性提高。受BNR诱导的抗病性与PAL和POX活性呈正相关。对BNR在水稻病害生物防治中的作用进行了讨论。 相似文献
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Yaquelin Nerey Sarah Van Beneden Alexander Jimenez Lidcay Herrera 《Soil biology & biochemistry》2010,42(5):797-803
Calcisol, ferralsol and vertisol soils, representative of different bean production areas of Villa Clara province in Cuba, were selected to determine the impact of soil type on bean hypocotyl rot severity caused by Rhizoctonia solani AG4 HGI (isolate CuVC-Rs7). In inoculated autoclaved soil, hypocotyl rot was most severe in calcisol soil, followed by ferralsol soils and then vertisol soils. In inoculated natural soils, disease severity was lower in vertisol and calcisol soils and higher in ferralsol soil, indicating that biological factors are suppressing or stimulating the pathogenic efficiency of R. solani. Native binucleate Rhizoctonia AGF, Sclerotium rolfsii and R. solani AG 4 HGI were isolated from bean plants grown in natural calcisol, vertisol and ferralsol soils, respectively. Subsequent studies about the interaction between these fungi and R. solani indicated that they were involved in the variability of disease severity caused by R. solani. The addition of R. solani AG4 HGI (isolate CuVC-Rs7) into each autoclaved soil inoculated with binucleate Rhizoctonia or S. rolfsii resulted in a reduction of disease severity caused by this pathogen while in soils inoculated with native R. solani AG4 HGI, disease severity increased. Irrespective of fungal interactions, calcisol was always the most disease conducive soil and vertisol the most disease repressive soil. The mechanisms by which native pathogenic fungi could influence disease severity caused by R. solani are discussed. 相似文献
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绿菜花双核期小孢子比例对游离小孢子培养的影响 总被引:13,自引:0,他引:13
在1/2NLN培养基、32.5℃、24h热激处理下,对3份绿菜花品种进行游离小孢子培养,结果表明,悬浮培养液中双核期小孢子比例对胚胎发生影响很大。品种的基因型不同,适宜的双核期小孢子比例也不同,‘bc-0’、‘Galaxy’在双核期小孢子比例分别为15.38%和13.60%时,出胚率最高;‘bc-4’则在50.7%时出胚率最高,达37.08胚/蕾。 相似文献
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Black root rot is an important disease of strawberry caused by a complex of fungi that includes species of Rhizoctonia. In this study, a modified MIDI method (Microbial Identification System) was investigated for its utility to differentiate
isolates of the three different anastomosis groups (AGs) of binucleate Rhizoctonia spp., associated with strawberry black root rot complex representing AG-A, AG-G, and AG-I. A total of 11 fatty acids were
detected, and the FAME profiles for isolates of the three different AGs of Rhizoctonia spp. varied quantitatively and qualitatively. Moreover, the modified MIDI method will be a useful discriminatory tool for
fungal identification and classification of the AGs of binucleate Rhizoctonia spp. associated with strawberry black root rot complex. 相似文献
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