The Growth-promoting Mechanism of Unusual Spectroscopic Form of LH2 (LH4) from Rhodopseudomonas palustris CGA009 in Low Light.

Abstract

The experimental evidence for the growth-promoting mechanism and the efficiency of energy transfer (EET) of LH4 under low light are still not available. To elucidate the light adaption mechanism of LH4, we deleted the genes pucBAd involved in the synthesis of the α/β polypeptides of LH4 in Rhodopseudomonas palustris CGA009. Compared to wild strain, the growth rate of pucBAd mutant significantly decreased under low light, while there were no significant changes in the growth rate, the contents and compositions of photopigments, absorption spectra of cell lysates under high light. Moreover, the fluorescence quantum efficiency (FQE) was used to further compare the EET between LH2 and LH4. The FQE in LH4 increased up to 1.5-fold than did in LH2. Collectively, this study showed that LH4 could provide more and high energetic state photons for promoting bacterial phototrophic growth in response to low-light environment.