Phototropism in the fungus Phycomyces is mediated by two photosystems that are optimized for the low-intensity region (below 10(-6) W X m-2) and the high-intensity region (above 10(-6) W X m-2). These photosystems can be distinguished under special experimental conditions, in which sporangiophores grown in the dark are suddenly exposed to continuous unilateral light. With this treatment, the bending occurs in two steps. Below 10(-6) W X m-2, an early-response component (15-min latency) and a late-response component (50- to 70-min latency) are observed that are mediated by photosystem I. Above 10(-6) W X m-2, the early component is augmented by an intermediate component with a 40-min delay that is mediated by photosystem II. The two photosystems are distinguished further by their wavelength sensitivities and adaptation kinetics. Photosystem I is more effective at 334, 347, and 550 nm than photosystem II, but it is less effective at 383 nm. At wavelength 450 nm, the dark-adaptation kinetics associated with photosystem I are approximately half as fast as those associated with photosystem II. However, the light-adaptation kinetics of photosystem I are approximately equal to 3 times faster than the kinetics associated with photosystem II. The existence of two photosystems clarifies several behavioral features of Phycomyces and helps explain how the sporangiophore can manage the full range of 10 decades.
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机译:真菌子囊藻的光致性是由针对低强度区域(低于10(-6)W X m-2以下)和高强度区域(高于10(-6)W X m-2以上)优化的两个光系统介导的。这些光系统可以在特殊的实验条件下加以区分,其中在黑暗中生长的孢子体突然暴露于连续的单侧光下。通过这种处理,弯曲分两个步骤发生。低于WX m-2 10(-6),观察到由光系统I介导的早期响应成分(15分钟潜伏期)和后期响应成分(50-70分钟潜伏期)。高于10(-) 6)WX m-2,早期成分由光系统II介导的具有40分钟延迟的中间成分增强。这两种光系统的进一步区别在于它们的波长敏感性和适应动力学。光电系统I在334、347和550 nm处比光电系统II更有效,但在383 nm处效率较低。在波长450 nm处,与光系统I相关的暗适应动力学大约是与光系统II相关的暗适应动力学的一半。但是,光系统I的光适应动力学大约比与光系统II相关的动力学快3倍。两种光系统的存在阐明了芽孢杆菌的几种行为特征,并有助于解释孢子囊菌体如何能够管理整个十多年的历史。
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