外源植酸钠的存在,显著降低了AM真菌根内菌丝的碱性磷酸酶活性,增加了AM真菌在土壤中的菌丝密度。
The ALP activity in intraradical hyphae of AM fungi was significantly decreased, and the total hyphal density of AM fungi increased with applied Na phytate.
克隆植物之所以能够耐受外界的恶劣环境的原因,除本身的植物生理特点外,其与土壤微生物特别是丛枝菌根真菌的共生也是重要原因之一。
Despite their own physiological characters, their endurance capability for the atrocious circumstance also rest with their symbiosis with edaphon, especially the AM fungi.
外源喜树碱处理的菌根共生体系中,植物与真菌的微管的荧光强度明显增强,可能表明了新微管的合成。
In the symbiosis system imposed by the exogenous Camptothecin, both the fluorescence of microtubules in plant and fungi were stronger than normal, maybe there were new microtubule synthesized.
外源喜树碱处理的菌根共生体系中,植物与真菌的微管的荧光强度明显增强,可能表明了新微管的合成。
In the symbiosis system imposed by the exogenous Camptothecin, both the fluorescence of microtubules in plant and fungi were stronger than normal, maybe there were new microtubule synthesized.
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