Primary Photochemistry of the Dark- and Light-Adapted States of the YtvA Protein from Bacillus subtilis

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• 作者：Sang-Hun Song ; Dorte Madsen ; Jeroen B. van der Steen ; Robert Pullman ; Lucy H. Freer ; Klaas J. Hellingwerf ; Delmar S. Larsen
• 刊名：Biochemistry
• 出版年：2013
• 出版时间：November 12, 2013
• 年：2013
• 卷：52
• 期：45
• 页码：7951-7963
• 全文大小：692K
• 年卷期：v.52,no.45(November 12, 2013)
• ISSN：1520-4995

文摘

The primary (100 fs to 10 ns) and secondary (10 ns to 100 渭s) photodynamics in the type II light鈥搊xygen鈥搗oltage (LOV) domain from the blue light YtvA photoreceptor extracted from Bacillus subtilis were explored with transient absorption spectroscopy. The photodynamics of full-length YtvA were characterized after femtosecond 400 nm excitation of both the dark-adapted D₄₄₇ state and the light-adapted S₃₉₀ state. The S₃₉₀ state relaxes on a 43 min time scale at room temperature back into D₄₄₇, which is weakly accelerated by the introduction of imidazole. This is ascribed to an obstructed cavity in YtvA that hinders access to the embedded FMN chromophore and is more open in type I LOV domains. The primary photochemistry of dark-adapted YtvA is qualitatively similar to that of the type I LOV domains, including AsLOV2 from Avena sativa, but exhibits an appreciably higher (60% greater) terminal triplet yield, estimated near the maximal 桅_ISC value of 鈮?8%; the other 22% decays via non-triplet-generating fluorescence. The subsequent secondary dynamics are inhomogeneous, with three triplet populations co-evolving: the faster-decaying ^IT* population (38% occupancy) with a 200 ns decay time is nonproductive in generating the S₃₉₀ adduct state, a slower ^IIT* population (57% occupancy) exhibits a high yield (桅_adduct 鈮?100%) in generating S₃₉₀ and a third (5%) ^IIIT*population persists (>100 渭s) with unresolved photoactivity. The ultrafast photoswitching dynamics of the S₃₉₀ state appreciably differ from those previously resolved for the type I AcLOV2 domain from Adiantum capillus-veneris [Kennis, J. T., et al. (2004) J. Am. Chem. Soc. 126, 4512], with a low-yield dissociation (桅_dis 鈮?2.5%) reaction, which is due to an ultrafast recombination reaction, following photodissociation, and is absent in AcLOV2, which results in the increased photoswitching activity of the latter domain.