Department of Life Science and Technology, Tokyo Institute of Technology.
J Gen Appl Microbiol. 2021 Jun 3;67(2):54-58. doi: 10.2323/jgam.2020.06.001. Epub 2020 Dec 21.
Phototaxis is a phenomenon where cyanobacteria move toward a light source. Previous studies have shown that the blue-light-using-flavin (BLUF)-type photoreceptor PixD and the response regulator-like protein PixE control the phototaxis in the cyanobacterium Synechocystis sp. PCC 6803. The pixD-null mutant moves away from light, whereas WT, pixE mutant, and pixD pixE double mutant move toward the light. This indicates that PixE functions downstream of PixD and influences the direction of movement. However, it is still unclear how the light signal received by PixD is transmitted to PixE, and then subsequently transmitted to the type IV pili motor mechanism. Here, we investigated intracellular localization and oligomerization of PixD and PixE to elucidate mechanisms of phototaxis regulation. Blue-native PAGE analysis, coupled with western blotting, indicated that most PixD exist as a dimer in soluble fractions, whereas PixE localized in ~250 kDa and ~450 kDa protein complexes in membrane fractions. When blue-native PAGE was performed after illuminating the membrane fractions with blue light, PixE levels in the ~250 kDa and ~450 kDa complexes were reduced and increased, respectively. These results suggest that PixE, localized in the ~450 kDa complex, controls activity of the motor ATPase PilB1 to regulate pilus motility.
趋光性是一种蓝细菌向光源移动的现象。先前的研究表明,蓝光利用黄素(BLUF)型光受体 PixD 和响应调节蛋白样蛋白 PixE 控制蓝藻 Synechocystis sp. PCC 6803 的趋光性。pixD 缺失突变体远离光,而 WT、pixE 突变体和 pixD pixE 双突变体则向光移动。这表明 PixE 位于 PixD 的下游,影响运动方向。然而,目前尚不清楚 PixD 接收的光信号如何传递到 PixE,然后再传递到 IV 型菌毛马达机制。在这里,我们研究了 PixD 和 PixE 的细胞内定位和寡聚化,以阐明光趋性调节的机制。蓝色非变性 PAGE 分析结合 Western blot 分析表明,大多数 PixD 以可溶性二聚体形式存在,而 PixE 则定位于膜部分的250 kDa 和450 kDa 蛋白复合物中。当用蓝光照射膜部分后进行蓝色非变性 PAGE 时,250 kDa 和450 kDa 复合物中的 PixE 水平分别降低和增加。这些结果表明,定位于~450 kDa 复合物中的 PixE 控制着马达 ATPase PilB1 的活性,从而调节菌毛运动。
