Slr1122影响Hik12磷酸化并参与调节Synechocystis sp.PCC 6803的色素合成

Synechocystis sp.PCC 6803是一种良好的研究光合作用的模式生物,其中slr1122编码一个250个氨基酸的未知蛋白。据报道Slr1122可能与杂合传感激酶（hybrid sensory kinase）Sll1672（Hik12）相互作用,本研究通过复合物实验证实了Slr1122与Sll1672确实存在相互作用。利用32P标记证明,在加入Slr1122后Hik12的磷酸化受到了明显的影响,推测其可能参与该双组分系统的调控。通过同源双交换,用卡那霉素抗性基因替换slr1122,将slr1122从Synechocystis sp.PCC 6803中敲除,构建了slr1122的缺失体Δslr1122。研究发现在Δslr1122中,编码PSⅡ中核心蛋白D1亚基的slr1181（psbAI）的转录水平明显降低,使PSⅡ光合作用受到影响,导致Δslr1122的生长速率低于野生型（WT）。同时slr1122的缺失使得蓝细菌对光的敏感性增强,在弱光条件下,Δslr1122对光能的利用效率高于WT,其生长速率也较WT高,但与此相反,Δslr1122对强光的耐受力及生长速率则不及WT。Δslr1122体内的藻胆蛋白含量与色素含量均降低,尤其是类胡萝卜素,RT-PCR的结果也显示合成类胡萝卜素过程中的5个关键酶转录水平均下降。这可能是Δslr1122对氧化胁迫变得敏感的原因之一。总之,Slr1122影响杂合传感激酶Hik12磷酸化并参与调节Synechocystis sp.PCC 6803的光合色素合成。     

The hybrid histidine kinase Slr1759 of the cyanobacterium Synechocystis sp. PCC 6803 contains FAD at its PAS domain

The cyanobacterium Synechocystis sp. PCC 6803 harbours 47 histidine kinases (Hiks). Among these are hybrid histidine kinases with one or two response regulator domains as well as numerous Hiks with several sensory domains. One example is the hybrid histidine kinase Slr1759 (Hik14) that has two PAS domains arranged in tandem linked to a predicted GAF domain. Here, we show that a Slr1759 derivative recombinantly expressed in Escherichia coli has a flavin cofactor. Using truncated Slr1759 variants, it is shown that the flavin associates with the first PAS domain. The cofactor reconstitutes the activity of d-amino acid oxidase apoprotein from pig kidney, indicating that the flavin derivative is FAD. Furthermore, the Slr1759 histidine kinase domain indeed undergoes autophosphorylation in vitro. The phosphorylated product of a recombinant Slr1759 derivative is sensitive to acids, pointing to a histidine residue as the phosphate-accepting group.     

蓝细菌PCC6803染色体上的毒素蛋白Slr0664与抗毒素蛋白Ssr1114的相互作用

【目的】证明蓝细菌PCC6803染色体上的毒素-抗毒素系统(TA,toxin-antitoxin system)ssr1114/slr0664中毒素蛋白Slr0664与抗毒素蛋白Ssr1114之的相互作用。【方法】构建在大肠杆菌(Escherichia coli)BL21(DE3)中诱导表达H6-Ssr1114或共表达H6-Ssr1114和Slr0664的重组质粒,诱导表达后借助亲和捕捉技术在不同的条件下纯化H6-Ssr1114或共纯化重组蛋白H6-Ssr1114和Slr0664,并通过肽谱分析共纯化的重组蛋白,证明H6-Ssr1114与Slr0664之间存在相互作用。【结果】诱导Slr0664表达对细胞产生毒性作用导致生长抑制或细胞死亡,诱导H6-Ssr1114和Slr0664共表达时细胞能能正常生长,在非变性条件下可纯化共表达的重组蛋白H6-Ssr1114和Slr0664,在变性条件下仅H6-Ssr1114被纯化,肽谱分析结果表明共纯化的的重组蛋白为H6-Ssr1114和Slr0664。【结论】ssr1114/slr0664TA系统中抗毒素蛋白Ssr1114与毒素蛋白Slr0664之间存在相互作用。     

Slr1293 in Synechocystis sp. strain PCC 6803 Is the C-3',4' desaturase (CrtD) involved in myxoxanthophyll biosynthesis

When grown at high light intensity, more than a quarter of the total carotenoids in the unicellular cyanobacterium Synechocystis consists of myxoxanthophyll, a polar carotenoid glycoside. The biosynthetic pathway of myxoxanthophyll is unknown but is presumed to involve a number of enzymes, including a C-3',4' desaturase required to add one double bond to generate 11 conjugated double bonds in the monocyclic myxoxanthophyll. A candidate for this desaturase is Slr1293, which was identified by genome similarity searching. To determine whether Slr1293 is a desaturase recognizing neurosporene and lycopene, slr1293 was expressed in Escherichia coli strains accumulating neurosporene or lycopene. Confirming such a desaturase function for Slr1293, these E. coli strains accumulated 3',4'-didehydroneurosporene and 3',4'-didehydrolycopene, respectively. Indeed, deletion of slr1293 in Synechocystis provides further evidence that Slr1293 is a desaturase recognizing neurosporene: In the slr1293 deletion mutant, neurosporene was found to accumulate and was further processed to produce neurosporene glycoside. Neurosporene hereby becomes a primary candidate to be the branch point molecule between carotene and myxoxanthophyll biosynthesis in this cyanobacterium. The slr1293 gene was concluded to encode a C-3',4' desaturase that is essential for myxoxanthophyll biosynthesis, and thus it was designated as crtD. Furthermore, as Slr1293 appears to recognize neurosporene and to catalyze the first committed step on the myxoxanthophyll biosynthesis pathway, Slr1293 plays a pivotal role in directing a portion of the precursor pool for carotenoid biosynthesis toward myxoxanthophyll biosynthesis in Synechocystis sp. strain PCC 6803.     

集胞藻PCC 6803中脂肪酸激活酶Slr1609互作蛋白的鉴定

集胞藻中slr1609是编码脂肪酸激活酶的基因,对与其相关的重要功能伴侣蛋白进行研究,可以完善对脂肪酸合成模块的认识,为进一步通过合成生物学技术改造蓝细菌提供理论支持。本研究在集胞藻PCC 6803中建立了蛋白质复合体分析及鉴定技术:利用氯霉素抗性基因筛选,构建带有3×FLAG标签的Slr1609突变株,通过RT-PCR优化重组蛋白表达条件;同时对突变株进行了Western blotting鉴定,以及利用Native-PAGE验证了蛋白质复合体的存在。最后,LC-MS/MS质谱鉴定获得了Slr1609蛋白复合体中的可能伴侣蛋白。     

Inactivation of the open reading frame slr0399 in Synechocystis sp. PCC 6803 functionally complements mutations near the Q(A) niche of photosystem II. A possible role of Slr0399 as a chaperone for quinone binding.

The Synechocystis sp. PCC 6803 triple mutant D2R8 with V247M/A249T/M329I mutations in the D2 subunit of the photosystem II is impaired in Q(A) function, has an apparently mobile Q(A), and is unable to grow photoautotrophically. Several photoautotrophic pseudorevertants of this mutant have been isolated, each of which retained the original psbDI mutations of D2R8. Using a newly developed mapping technique, the site of the secondary mutations has been located in the open reading frame slr0399. Two different nucleotide substitutions and a deletion of about 60% of slr0399 were each shown to restore photoautotrophy in different pseudorevertants of the mutant D2R8, suggesting that inactivation of Slr0399 leads to photoautotrophic growth in D2R8. Indeed, a targeted deletion of slr0399 restores photoautotrophy in D2R8 and in other psbDI mutants impaired in Q(A) function. Slr0399 is similar to the hypothetical protein Ycf39, which is encoded in the cyanelle genome of Cyanophora paradoxa; in the chloroplast genomes of diatoms, dinoflagellates, and red algae; and in the nuclear genome of Arabidopsis thaliana. Slr0399 and Ycf39 have a NAD(P)H binding motif near their N terminus and have some similarity to isoflavone reductase-like proteins and to a subunit of the eukaryotic NADH dehydrogenase complex I. Deletion of slr0399 in wild type Synechocystis sp. PCC 6803 has no significant phenotypic effects other than a decrease in thermotolerance under both photoautotrophic and photomixotrophic conditions. We suggest that Slr0399 is a chaperone-like protein that aids in, but is not essential for, quinone insertion and protein folding around Q(A) in photosystem II. Moreover, as the effects of Slr0399 are not limited to photosystem II, this protein may also be involved in assembly of quinones in other photosynthetic and respiratory complexes.     

集胞藻PCC 6803类铁氧还蛋白Slr1205的功能研究

类铁氧还蛋白 (ferredoxin-like, Fd-like) 在高等植物中具有调控叶绿体发育等多种重要的生理功能,但在蓝藻中的生物功能尚未被发现。通过比较集胞藻PCC 6083编码Fd-like蛋白基因的敲除突变株Δslr1205与野生型 (WT) 在不同碳源和光周期条件下的生理生化表型,分析Slr1205在集胞藻中的功能。结果显示,在高CO2浓度自养、混合营养和光异养时,Δslr1205的生长速率低于WT,而在空气中自养条件下并无差异。与此相对应,混合营养和光异养时Δslr1205比WT的呼吸速率低,与呼吸作用密切相关的NDH-1L复合体的含量少。Δslr1205在所有测试的条件下有较高的类胡萝卜素以及偏黄的表型。这些数据表明,Fd-like蛋白Slr1205的缺失造成在碳源充足条件下的生长速率下降,这可能是由于呼吸作用下调导致供能不足。研究结果为今后深入研究蓝藻Fd-like蛋白奠定了基础,为开展光合作用和呼吸作用的调节机制研究探索了新方向。     

集胞藻PCC6803中S2P同源蛋白Slr0643及Sll0862 金属蛋白酶活性的体外鉴定

【目的】金属蛋白酶S2P在细菌中通过在膜切割转录调控因子、释放δ因子参与胁迫响应是跨膜信号转导的保守机制,但蓝细菌中S2P的功能还未被鉴定,故我们考察集胞藻PCC6803中的S2P同源蛋白Slr0643及Sll0862的金属蛋白酶活性。【方法】以pET-30b(+)为载体,分别构建重组质粒pF0643和pF0862,在大肠杆菌BL21(CE3)中诱导表达并纯化Slr0643及Sll0862蛋白,以β-酪蛋白为底物检测重组蛋白的酶活性。【结果】体外酶活实验显示重组表达的Slr0643及Sll0862蛋白有内切蛋白酶活性,且其活性受金属螯合剂o-phenanthroline的抑制。体外酶活的鉴定结果为进一步研究Slr0643和Sll0862的体内酶活和生物学功能奠定了基础。【结论】集胞藻PCC6803中的S2P同源蛋白Slr0643及Sll0862具有金属蛋白酶活性。     

Membrane attachment of Slr0006 in Synechocystis sp. PCC 6803 is determined by divalent ions

Slr0006 is one of the Synechocystis sp. PCC 6803 proteins strongly induced under carbon limiting conditions. Slr0006 has no predicted transmembrane helices or signal peptide sequence, yet it was exclusively recovered in the membrane fraction of Synechocystis, when the cells were broken in isolation buffers which contain divalent cations and are generally used for photosynthesis studies. Even subsequent washing of the membranes with high salt or various detergents did not release Slr0006, indicating strong binding of the Slr0006 protein to the membranes. Further, DNAse or RNAse treatment did not disturb the tight binding of Slr0006 protein to the membranes. Nevertheless, when the cells were broken in the absence of divalent cations, Slr0006 remained completely soluble. Binding of the Slr0006 to the membrane could not be properly reconstituted if the cations were added after breaking the cells in the absence of divalent ions. This unusual phenomenon has to be considered in identification and localization of other yet uncharacterized cyanobacterial proteins.     

集胞藻Slr1515基因提高转基因水稻植株剑叶长度及叶绿素含量

蓝藻是古老的原核光合生物, 不仅在植物进化上有重要地位, 也是可利用的生物资源及重要的基因资源。Slr1515是来源于集胞藻6803(Synechocystis sp. PCC 6803)的基因, 其同源基因在蓝藻中普遍存在, 但对其生物学功能所知有限。以易于转化的水稻品种中花11(Oryza sativa subsp. japonica cv. ‘Zhonghua 11’)为材料, 通过农杆菌介导的遗传转化方法将Slr1515基因导入水稻胚性愈伤组织中。经过诱导分化, 获得了一系列转基因幼苗。通过PCR、GFP荧光及免疫印迹检测, 筛选出单拷贝插入的转基因阳性株系, 并对野生型和转基因株系的表型进行比较分析。结果表明, 灌浆期转基因株系的剑叶长度比同期的野生型提高了27.7%。进一步的测定结果显示, 转基因株系的剑叶叶绿素含量和PSII最大量子产率分别比野生型提高了0.65倍和4.4%。推测Slr1515基因可能在改善水稻农艺性状方面有一定价值。     

Slr2013 is a novel protein regulating functional assembly of photosystem II in Synechocystis sp. strain PCC 6803

The Synechocystis sp. strain PCC 6803, which has a T192H mutation in the D2 protein of photosystem II, is an obligate photoheterotroph due to the lack of assembled photosystem II complexes. A secondary mutant, Rg2, has been selected that retains the T192H mutation but is able to grow photoautotrophically. Restoration of photoautotrophic growth in this mutant was caused by early termination at position 294 in the Slr2013 protein. The T192H mutant with truncated Slr2013 forms fully functional photosystem II reaction centers that differ from wild-type reaction centers only by a 30% higher rate of charge recombination between the primary electron acceptor, QA-, and the donor side and by a reduced stability of the oxidized form of the redox-active Tyr residue, YD, in the D2 protein. This suggests that the T192H mutation itself did not directly affect electron transfer components, but rather affected protein folding and/or stable assembly of photosystem II, and that Slr2013 is involved in the folding of the D2 protein and the assembly of photosystem II. Besides participation in photosystem II assembly, Slr2013 plays a critical role in the cell, because the corresponding gene cannot be deleted completely under conditions in which photosystem II is dispensable. Truncation of Slr2013 by itself does not affect photosynthetic activity of Synechocystis sp. strain PCC 6803. Slr2013 is annotated in CyanoBase as a hypothetical protein and shares a DUF58 family signature with other hypothetical proteins of unknown function. Genes for close homologues of Slr2013 are found in other cyanobacteria (Nostoc punctiforme, Anabaena sp. strain PCC 7120, and Thermosynechococcus elongatus BP-1), and apparent orthologs of this protein are found in Eubacteria and Archaea, but not in eukaryotes. We suggest that Slr2013 regulates functional assembly of photosystem II and has at least one other important function in the cell.     

Biochemical and functional characterization of BLUF-type flavin-binding proteins of two species of cyanobacteria

BLUF (a sensor of Blue-Light Using FAD) is a novel putative photoreceptor domain that is found in many bacteria and some eukaryotic algae. As found on genome analysis, certain cyanobacteria have BLUF proteins with a short C-terminal extension. As typical examples, Tll0078 from thermophilic Thermosynechococcus elongatus BP-1 and Slr1694 from mesophilic Synechocystis sp. PCC 6803 were comparatively studied. FAD of both proteins was hardly reduced by exogenous reductants or mediators except methylviologen but showed a typical spectral shift to a longer wavelength upon excitation with blue light. In particular, freshly prepared Tll0078 protein showed slow but reversible aggregation, indicative of light-induced conformational changes in the protein structure. Tll0078 is far more stable as to heat treatment than Slr1694, as judged from flavin fluorescence. The slr1694-disruptant showed phototactic motility away from the light source (negative phototaxis), while the wild type Synechocystis showed positive phototaxis toward the source. Yeast two-hybrid screening with slr1694 showed self-interaction of Slr1694 (PixD) with itself and interaction with a novel PatA-like response regulator, Slr1693 (PixE). These results were discussed in relation to the signaling mechanism of the "short" BLUF proteins in the regulation of cyanobacterial phototaxis.     

The icfG Gene Cluster of Synechocystis sp. Strain PCC 6803 Encodes an Rsb/Spo-Like Protein Kinase, Protein Phosphatase, and Two Phosphoproteins

A set of open reading frames (ORFs) potentially encoding signal transduction proteins are clustered around icfG, a gene implicated in the regulation of carbon metabolism, in the genome of Synechocystis sp. strain PCC 6803. slr1860 is the ORF for icfG, whose predicted product resembles the protein phosphatases SpoIIE, RsbU, and RsbX from Bacillus subtilis. Bracketing slr1860/icfG are (i) ORF slr1861, whose predicted product resembles the SpoIIAB, RsbT, and RsbW protein kinases from B. subtilis, and (ii) ORFs slr1856 and slr1859, whose predicted products resemble the respective phosphoprotein substrates for the B. subtilis protein kinases: SpoIIAA, RsbS, and RsbV. In order to determine whether the protein products encoded by these ORFs possessed the functional capabilities suggested by sequence comparisons, each was expressed in Escherichia coli as a histidine-tagged fusion protein and analyzed for its ability to participate in protein phosphorylation-dephosphorylation processes in vitro. It was observed that ORF slr1861 encoded an ATP-dependent protein kinase capable of phosphorylating Slr1856 and, albeit with noticeably lower efficiency, Slr1859. Site-directed mutagenesis suggests that Slr1861 phosphorylated these proteins on Ser-54 and Ser-57, respectively. Slr1860 exhibited divalent metal ion-dependent protein-serine phosphatase activity. It catalyzed the dephosphorylation of Slr1856, but not Slr1859, in vitro.     

Role of Slr1045 in environmental stress tolerance and lipid transport in the cyanobacterium Synechocystis sp. PCC6803

ATP-binding cassette (ABC) transporter proteins mediate energy-dependent transport of substrates across cell membranes. Numerous ABC transporter-related genes have been found in the Synechocystis sp. PCC6803 genome by genome sequence analysis including H(+), iron, phosphate, polysaccharide, and CO(2) transport-related genes. The substrates of many other ABC transporters are still unknown. To identify ABC transporters involved in acid tolerance, deletion mutants of ABC transporter genes with unknown substrates were screened for acid stress sensitivities in low pH medium. It was found that cells expressing the deletion mutant of slr1045 were more sensitive to acid stress than the wild-type cells. Moreover, slr1045 expression in the wild-type cells was increased under acid stress. These results indicate that slr1045 is an essential gene for survival under acid stress. The mutant displayed high osmotic stress resistance and high/low temperature stress sensitivity. Considering the temperature-sensitive phenotype and homology to the organic solvent-resistant ABC system, we subsequently compared the lipid profiles of slr1045 mutant and wild-type cells by thin-layer chromatography. In acid stress conditions, the phosphatidylglycerol (PG) content in the slr1045 mutant cells was approximately 40% of that in the wild-type cells. Moreover, the addition of PG to the medium compensated for the growth deficiency of the slr1045 mutant cells under acid stress conditions. These data suggest that slr1045 plays a role in the stabilization of cell membranes in challenging environmental conditions. This article is part of a Special Issue entitled: Photosynthesis Research for Sustainability: from Natural to Artificial.