Herranen Mirkka, Battchikova Natalia, Zhang Pengpeng, Graf Alexander, Sirpiö Sari, Paakkarinen Virpi, Aro Eva-Mari
Plant Physiology and Molecular Biology, Department of Biology, University of Turku, FIN-20014 Turku, Finland.
Plant Physiol. 2004 Jan;134(1):470-81. doi: 10.1104/pp.103.032326.
The composition and dynamics of membrane protein complexes were studied in the cyanobacterium Synechocystis sp. PCC 6803 by two-dimensional blue native/SDS-PAGE followed by matrix-assisted laser-desorption ionization time of flight mass spectrometry. Approximately 20 distinct membrane protein complexes could be resolved from photoautotrophically grown wild-type cells. Besides the protein complexes involved in linear photosynthetic electron flow and ATP synthesis (photosystem [PS] I, PSII, cytochrome b6f, and ATP synthase), four distinct complexes containing type I NAD(P)H dehydrogenase (NDH-1) subunits were identified, as well as several novel, still uncharacterized protein complexes. The dynamics of the protein complexes was studied by culturing the wild type and several mutant strains under various growth modes (photoautotrophic, mixotrophic, or photoheterotrophic) or in the presence of different concentrations of CO2, iron, or salt. The most distinct modulation observed in PSs occurred in iron-depleted conditions, which induced an accumulation of CP43' protein associated with PSI trimers. The NDH-1 complexes, on the other hand, responded readily to changes in the CO2 concentration and the growth mode of the cells and represented an extremely dynamic group of membrane protein complexes. Our results give the first direct evidence, to our knowledge, that the NdhF3, NdhD3, and CupA proteins assemble together to form a small low CO2-induced protein complex and further demonstrate the presence of a fourth subunit, Sll1735, in this complex. The two bigger NDH-1 complexes contained a different set of NDH-1 polypeptides and are likely to function in respiratory and cyclic electron transfer. Pulse labeling experiments demonstrated the requirement of PSII activity for de novo synthesis of the NDH-1 complexes.
通过二维蓝色原胶/SDS-PAGE,随后进行基质辅助激光解吸电离飞行时间质谱分析,对集胞藻PCC 6803中的膜蛋白复合物的组成和动态变化进行了研究。从光合自养生长的野生型细胞中可分辨出约20种不同的膜蛋白复合物。除了参与线性光合电子流和ATP合成的蛋白复合物(光系统[PS]I、PSII、细胞色素b6f和ATP合酶)外,还鉴定出了四种含有I型NAD(P)H脱氢酶(NDH-1)亚基的不同复合物,以及几种新型的、尚未表征的蛋白复合物。通过在各种生长模式(光合自养、混合营养或光异养)下或在不同浓度的CO2、铁或盐存在的情况下培养野生型和几种突变菌株,研究了蛋白复合物的动态变化。在光系统中观察到的最明显的调节发生在缺铁条件下,这导致了与PSI三聚体相关的CP43'蛋白的积累。另一方面,NDH-1复合物对细胞的CO2浓度和生长模式的变化反应迅速,代表了一组极具动态性的膜蛋白复合物。据我们所知,我们的结果首次提供了直接证据,表明NdhF3、NdhD3和CupA蛋白组装在一起形成一个小的低CO2诱导蛋白复合物,并进一步证明了该复合物中存在第四个亚基Sll1735。两个较大的NDH-1复合物含有不同的一组NDH-1多肽,可能在呼吸和循环电子传递中发挥作用。脉冲标记实验证明了PSII活性对于NDH-1复合物从头合成的必要性。