紫色细菌叶绿素类型的吸收带及其对光照的响应

W.J. Vredenberg, J. Amesz
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引用次数: 36

摘要

1.1. 在750 ~ 950 μ m的近红外波段测量了不同紫色细菌在20°和- 170°的高光谱分辨率下的吸收光谱,以及在较低强度光照射下发生的光致吸光度变化光谱。2.2。在Chromatium B∗800中至少观察到5种不同的细菌叶绿素类型,即B∗800,B 800, B 820, B 850和B 890,其吸收带的最大波长略低于B 800,在硫堇科(Thiorhodaceae) Rhodothece ua和Thiocapsa floridana中也发现;在Rh中也发现了b820。在红假单胞菌palustri。除红螺旋藻外,其余种均含有b850和b890.3.3。在所有种中,除红小檗和小檗外。在palustris中,b820或b850以及b890的吸收带在光照下向稍长的波长移动。对球形红假单胞菌b850的位移分析表明,光照引起的位移约为1.25±0.20 μ, 25-28%的b850分子参与了这一反应。在593 μ m的光量子下,b850分子的吸收谱带发生了10 ~ 15个位移。在Th。佛罗里达和北。另外,在那里还发生了大约800 μ m波段向更短波长的偏移。温度的降低也使b820、b850和b890波段向更长的波长移动。光诱导的光谱位移被解释为是由细菌叶绿素类型的载体分子的构象变化引起的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Absorption bands of bacteriochlorophyll types in purple bacteria and their response to illumination

  • 1.

    1. Absorption spectra of various species of purple bacteria at 20° and −170° with a high spectral resolution, and spectra of light-induced absorbance changes, occurring upon illumination with light of a relatively low intensity, were measured in the near-infrared wavelength region between 750 and 950 mμ.

  • 2.

    2. At least 5 spectroscopically different bacteriochlorophyll types, namely B800, B 800, B 820, B 850 and B 890, were observed in Chromatium B800, for which the maximum of the absorption band is at a somewhat lower wavelength than that for B 800, was also found in the Thiorhodaceae Rhodothece conspicua and Thiocapsa floridana; B 820 was also found in Rh. conspicua and in Rhodopseudomonas palustri. All species examined, except Rhodospirilium rubrum, contained B 850 in addition to B 890.

  • 3.

    3. In all species, except R. rubrum and Rps. palustris, the absorption bands of either B 820 or B 850 and of B 890 shifted upon illumination towards a slightly longer wavelength. An analysis of the B 850 shift in Rhodopseudomonas spheroides indicated that allumination causes a shift of about 1.25 ± 0.20 mμ and that 25–28% of the B 850 molecules participate in this reaction. It was estimated that in this species the absorption bands of 10–15 molecules of B 850 were shifted per light quantum absorbed at 593 mμ. In Th. floridana and Rth. conspicua there occurred in addition a shift of a band at about 800 mμ towards a shorter wavelength. Lowering of the temperature also effected a shift of the bands of B 820, B 850 and B 890 towards a longer wavelength.

  • 4.

    4. The light-induced spectral shifts are interpreted as being caused by conformational changes in the carrier molecules of the bacteriochlorophyll types.

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