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引用本文:梁军,张海霞,Guenter Fritzsch,Hartmut Michel,彭国宏.温度、光强和pH对条斑紫菜孢子体和配子体类囊体膜上光系统活性的影响[J].海洋科学,2005,29(9):14-18.
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温度、光强和pH对条斑紫菜孢子体和配子体类囊体膜上光系统活性的影响
梁军1,2, 张海霞1, Guenter Fritzsch3, Hartmut Michel3, 彭国宏1
1.中国科学院海洋研究所;2.中国科学院研究生院;3.Max-Planck-Institute of Biophysics, Fankfurt am Main
摘要:
光合作用研究中,对于个体发育过程中类囊体膜蛋白结构和功能的变化所知甚少,其中的一个限制因素是能否纯化得到大量高活性的稳定且均一的膜蛋白。作者以条斑紫菜(Porphyra yezoensis)2个不同发育阶段(孢子体和配子体)作为研究对象,分离得到了孢子体和配子体的类囊体膜,在不同的温度、光强和pH下,对其类囊体膜上的光系统活性进行了研究。结果表明,孢子体和配子体的PSI活性均随温度和光强的升高而呈现一个先升高后降低的趋势,在温度18℃,光强为2 320 lx时具有最高的PSI活性。而孢子体和配子体的PSII活性随温度和光强的变化趋势不明显,孢子体PSII活性在温度18℃,光强为2 320 lx 时最高,配子体PSII活性在温度13℃,光强为2 800 lx时最高。孢子体PSI在酸性条件下较活跃,在pH 5.4时具有最高的PSI活性,配子体PSI在碱性条件下较活跃,PSI活性在pH 10.4时最高;孢子体PSII活性随pH的升高呈现一个先升高后降低的趋势,配子体PSII活性随pH变化趋势不明显,但都在pH 8.0处活性最高。
关键词:  条斑紫菜(Porphyra yezoensis)  孢子体  配子体  类囊体膜  PSI  PSII
DOI:
分类号:
基金项目:国家自然科学基金资助项目(B33023019,Max-Planck—Gesellschaft)
Impact of light intensity, temperature and pH on the activities of the membrane bound PSI and PSII of sporophytes and gametophytes in Porphyra yezoensis
Abstract:
Knowledge about the structural and functional alterations of thylakoid membrane proteins during ontogensis is very few due to limited, abailability of pure, stable and homogenoous thylakoid proteins with high activity. In this report, thylakoid membranes were isolated from the sporophyte and gametophyte cells of re alge Porphyra yezoensis. PSI activity in these membrane preparations was first measured by electron transfer from ascorbate/dichlorophenol-indophenol (ASC-DPIP) to methyl viologen (mv); PSII activity was analysed by electron transfer from H2O to 1, 4-benzoquinone, with an oxygen electrode (Hansatech). The results showed that PSI from both sporophytes and gametophytes had the highest activity at a temperature of 18℃ can light intensity of 2 320 lx, it was 579 and 406 μmol/(mg.h), respectively. No ovbious changes in the PSII activities within the same range of temperature and light intensity. A slightly high activity of PSII from sporophytes was detected at 18℃ and 2 320 lx, where oxygen evolution was 499 μmol/(mg.h), while the relatively higher activity of PSII from gametophyte was 573 μmol/(mg.h), obtained at 13 ℃ and 2 800 lx. The activities of PSI and PSII were also measured in the pH range from 5.4 to 10.4. In comparison with gametophytes, the PSI from sporophytes was more active at lower pH, with the highest activity at pH 5.4, that of gametophytes was at pH 10.4. On the other hand, the activity of PSII from sporophytes was significantly higher at pH 8.0, and oxygen evolution reached 1 038 μmol/(mg.h). However, the activity of PSII from gametophytes showed no significant change in the same conditions, the activity was 394 μmol/(mg.h). These observations imply that the composition of subunits and organization of chlorophylls might be different between PSI and PSII protein complexes in sporophytes and gametophytes of Porphyra.
Key words:  Porphyra yezoensis  sporophytes  gametophytes  thylakoid membranes  PSI  PSll
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