THE DAMPENING OF LIPID DROPLET OSCILLATORY MOVEMENT IN NITROGEN STARVED FILAMENTOUS FUNGI BY A LOW DOSE OF MITOCHONDRIAL RESPIRATION INHIBITOR

Tanja Pajić, M. Živić, M. Rabasović, A. Krmpot, N. Todorović
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Abstract

Lipid droplets (LDs) are small mobile organelles conserved in all eukaryotic cells. We wanted to test if the LD movement can be muffled by an incomplete inhibition of mitochondrial respiration, induced by treating hyphae of filamentous fungus Phycomyces blakesleeanus with 0.5 mM sodium azide. Nitrogen starved hyphae were used, in order to obtain LDs in larger sizes and numbers. The data obtained unequivocally showed: 1. Sodium azide treatment dramatically reduces the LD velocity and the distances LDs travel; 2. LDs in both controls and in azide-treated hyphae oscillate in a small confined space instead of travelling through the cell; 3. Azide-treated LDs oscillate less frequently and in smaller confinement than controls.
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低剂量线粒体呼吸抑制剂对氮饥饿丝状真菌脂滴振荡运动的抑制作用
脂滴(LDs)是一种在真核细胞中保守存在的小的可移动细胞器。我们想测试用0.5 mM叠氮化钠处理丝状真菌黑藻(Phycomyces blakesleeanus)菌丝诱导的线粒体呼吸不完全抑制是否能抑制LD运动。为了获得更大尺寸和数量的ld,采用了缺氮菌丝。获得的数据明确表明:1。叠氮化钠处理显著降低了LD的速度和传播距离;2. 在对照组和叠氮化物处理的菌丝中,ld在一个小的密闭空间内振荡,而不是穿过细胞;3.叠氮化物处理的lcd振荡频率较低,限制范围也较小。
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