Quantitative proteomic analysis of ribosomal protein L35b mutant of Saccharomyces cerevisiae

Recent studies have revealed that in higher eukaryotes, several ribosomal proteins are involved in some pathological events or developmental defects, indicating that ribosomal proteins perform unconventional functions other than protein biosynthesis. To obtain an insight into the novel roles of ribosomal proteins, we aimed to analyze the changes in proteome expression in ribosomal protein mutants by using Saccharomyces cerevisiae as a model system. We introduced the rpl35bΔ mutation into the 4159 green fluorescent protein (GFP)-tagged yeast strains by using the synthetic genetic array (SGA) method, and performed quantitative proteomic analysis by using a multilabel microplate reader and flow cytometer. We identified 22 upregulated and 20 downregulated proteins in the rpl35bΔ mutant. These proteins were primarily classified into the Gene Ontology (GO) categories of cellular biosynthetic process, translation, protein or nucleotide metabolic process, cell wall organization and biogenesis, and hyperosmotic response. We also investigated the correlation between the mRNA and protein levels of the identified proteins. Our results show that a ribosomal protein mutation can lead to perturbation in the expression of several proteins, including some other ribosomal proteins. Furthermore, our approach of combining a library of GFP-tagged yeast strains and the SGA method provides an effective and highly sensitive method for dynamic analysis of the effects of various mutations on proteome expression.     

碳离子辐照对菘蓝药性品质和分子水平的诱变效应

以野生菘蓝种子为材料,以不同剂量的碳离子(12 C6+)进行辐照处理(辐照剂量分别为30Gy、60Gy、90Gy、120Gy),分析12 C6+辐照对菘蓝种子萌发、幼苗生长、主要药用成分含量及其基因和蛋白质多态性变化的影响,为菘蓝品质育种、分子生物学研究和重离子辐照诱变的应用提供依据。结果显示:(1)12 C6+辐照处理后菘蓝的成苗率和根鲜重均随辐照剂量增加而逐步显著降低,其中30Gy处理对菘蓝生长抑制程度最小,但处理后菘蓝根中的主要药效成分4(3H)喹唑酮和靛玉红的含量增加幅度最大且最高,分别为野生型的2.2倍和2.3倍。(2)SRAP分子标记分析表明,菘蓝基因组的变异度随着辐照强度的增强而增大,其中30Gy处理的突变体与野生型相比有33.59%的多态性变异。(3)SDS-PAGE考马斯亮蓝染色和磷酸化染色分析表明,菘蓝的总蛋白和磷酸化蛋白表达水平均随辐照剂量变化出现了不同程度的改变,但并不与辐照强度呈正相关,说明植物在防御重离子辐照伤害时存在补偿机制。研究发现,30Gy的12 C6+辐照是菘蓝诱变的最佳剂量,能够显著提高其有效成分的含量,为优质菘蓝诱变育种奠定了基础。     

Mapping phosphoproteins in Neisseria meningitidis serogroup A

To investigate the phosphorylation capability of serogroup A Neisseria meningitidis (MenA) and to implement our knowledge in meningococcal biology and in bacterial post-translational modifications, cell extracts were separated by 2-DE and 51 novel phosphoproteins were revealed by the use of the highly specific Ser/Thr/Tyr-phosphorylated proteins staining by Pro-Q Diamond and identified by MALDI-ToF/MS. Our results indicate that phosphorylation in MenA is comparable to that of other bacterial species. A first functional characterization of the identified modified proteins was also given, in order to understand their role in meningococcal physiopathology.     

Experimental optimisation of the X-ray energy in microbeam radiation therapy

Microbeam radiation therapy has demonstrated superior normal tissue sparing properties compared to broadbeam radiation fields. The ratio of the microbeam peak dose to the valley dose (PVDR), which is dependent on the X-ray energy/spectrum and geometry, should be maximised for an optimal therapeutic ratio. Simulation studies in the literature report the optimal energy for MRT based on the PVDR. However, most of these studies have considered different microbeam geometries to that at the Imaging and Medical Beamline (50 μm beam width with a spacing of 400 μm). We present the first fully experimental investigation of the energy dependence of PVDR and microbeam penumbra. Using monochromatic X-ray energies in the range 40–120 keV the PVDR was shown to increase with increasing energy up to 100 keV before plateauing. PVDRs measured for pink beams were consistently higher than those for monochromatic energies similar or equivalent to the average energy of the spectrum. The highest PVDR was found for a pink beam average energy of 124 keV. Conversely, the microbeam penumbra decreased with increasing energy before plateauing for energies above 90 keV. The effect of bone on the PVDR was investigated at energies 60, 95 and 120 keV. At depths greater than 20 mm beyond the bone/water interface there was almost no effect on the PVDR. In conclusion, the optimal energy range for MRT at IMBL is 90–120 keV, however when considering the IMBL flux at different energies, a spectrum with 95 keV weighted average energy was found to be the best compromise.     

The role of human ribosomal proteins in the maturation of rRNA and ribosome production

Production of ribosomes is a fundamental process that occurs in all dividing cells. It is a complex process consisting of the coordinated synthesis and assembly of four ribosomal RNAs (rRNA) with about 80 ribosomal proteins (r-proteins) involving more than 150 nonribosomal proteins and other factors. Diamond Blackfan anemia (DBA) is an inherited red cell aplasia caused by mutations in one of several r-proteins. How defects in r-proteins, essential for proliferation in all cells, lead to a human disease with a specific defect in red cell development is unknown. Here, we investigated the role of r-proteins in ribosome biogenesis in order to find out whether those mutated in DBA have any similarities. We depleted HeLa cells using siRNA for several individual r-proteins of the small (RPS6, RPS7, RPS15, RPS16, RPS17, RPS19, RPS24, RPS25, RPS28) or large subunit (RPL5, RPL7, RPL11, RPL14, RPL26, RPL35a) and studied the effect on rRNA processing and ribosome production. Depleting r-proteins in one of the subunits caused, with a few exceptions, a decrease in all r-proteins of the same subunit and a decrease in the corresponding subunit, fully assembled ribosomes, and polysomes. R-protein depletion, with a few exceptions, led to the accumulation of specific rRNA precursors, highlighting their individual roles in rRNA processing. Depletion of r-proteins mutated in DBA always compromised ribosome biogenesis while affecting either subunit and disturbing rRNA processing at different levels, indicating that the rate of ribosome production rather than a specific step in ribosome biogenesis is critical in patients with DBA.     

Impact of a diamond mining industry on metabolites in Larix gmelinii

We studied the technogenic impact of a diamond mining company on the content of metabolites in the needles of Larix gmelinii (Rupr.) Kuzen. The samples of larch needles were collected in the Arctic zone in the restricted area where the diamond mining company works. The studied sites are located in Anabarsky district of Yakutia (Russia). An activity of the diamond mining company did not have a significant impact on the characteristics of the forest stand. But at the same time, near the sorting and enriching plants of the diamond mining company, the concentrations of Si, Ca, Fe, Mn, Al, Na, Sr, Ba, Zn, Pb, Ni, V were higher in the needles of L. gmelinii than those in the control zone. The activity of the diamond mining industry resulted in: intensification of the lipid peroxidation process, growth of a content of resin acids and amino acids, activation of cellular respiration processes, thickening of the cell wall, and a decline in the concentration of unsaturated fatty acids and antioxidants. We have concluded that some observable biochemical changes occur in the trees as a resulting effect of adaptive processes to the technogenic load despite the absence of significant changes in the forest stand.     

Dynamics of protein phosphorylation on Ser/Thr/Tyr in Bacillus subtilis

The Ser/Thr/Tyr phosphoproteome of Bacillus subtilis was analyzed by a 2-D gel-based approach combining Pro-Q Diamond staining and [(33)P]-labeling. In exponentially growing B. subtilis cells 27 proteins could be identified after staining with Pro-Q Diamond and/or [(33)P]-labeling and one additional protein was labeled solely by [(33)P] resulting in a total of 28 potentially phosphorylated proteins. These proteins are mainly involved in enzymatic reactions of basic carbon metabolism and the regulation of the alternative sigma factor sigma(B). We also found significant changes of the phosphoproteome including increased phosphorylation and dephosphorylation rates of some proteins as well as the detection of four newly phosphorylated proteins in response to stress or starvation. For nine proteins, phosphorylation sites at serine or threonine residues were determined by MS. These include the known phosphorylation sites of Crh, PtsH, and RsbV. Additionally, we were able to identify novel phosphorylation sites of AroA, Pyk, and YbbT. Interestingly, the phosphorylation of RsbRA, B, C, and D, four proteins of a multicomponent protein complex involved in environmental stress signaling, was found during exponential growth. For RsbRA, B, and D, phosphorylation of one of the conserved threonine residues in their C-termini were verified by MS (T171, T186, T181, respectively).     

Phylogeny, sequence conservation, and functional complementation of the SBDS protein family

The Shwachman-Bodian-Diamond syndrome (SBDS) protein family occurs widely in nature, although its function has not been determined. Comprehensive database searches revealed SBDS homologues from 159 species, including examples from all sequenced archaeal and eukaryotic genomes and all eukaryotic kingdoms. Sequence alignment with ClustalX and MUSCLE algorithms led to the identification of conserved residues that occurred predominantly in the amino-terminal FYSH domain where they appeared to contribute to protein folding or stability. Only SBDS residue Gly91 was invariant in all species. Four distantly related protists were found to have two divergent SBDS genes in their genomes. In each case, phylogenetic analyses and the identification of shared sequence features suggested that one gene was derived from lateral gene transfer. We also identified a shared C-terminal zinc finger domain fusion in flowering plants and chromalveolates that may shed light on the function of the protein family and the evolutionary histories of these kingdoms. To assess the extent of SBDS functional conservation, we carried out complementation studies of SBDS homologues and interspecies chimeras in Saccharomyces cerevisiae. We determined that the FYSH domain was widely interchangeable among eukaryotes, while domain 2 imparted species specificity to protein function. Domain 3 was largely dispensable for function in our yeast complementation assay. Overall, the phylogeny of SBDS was shared with a group of proteins that were markedly enriched for RNA metabolism and/or ribosome-associated functions. These findings link Shwachman-Diamond syndrome to other bone marrow failure syndromes with defects in nucleolus-associated processes, including Diamond-Blackfan anemia, cartilage-hair hypoplasia, and dyskeratosis congenita.     

美国生物医药产业竞争力分析与启示

进入生物经济时代以来,以生物医药产业为代表的生物技术产业正在引领人类新一波技术产业革命。我国针对生物医药产业作出的战略部署已经取得了明显成效,但与美国等生物医药强国相比仍有较大的竞争差距。采用波特钻石模型构建了生物医药产业国际竞争力理论分析框架,以美国为例分析其生物医药产业在要素状况、企业结构和竞争、需求条件、相关及支持性产业、政府和发展机会六个方面的竞争优势,并基于此提出了我国发展生物医药产业的政策建议,从而为我国生物医药产业发展提供政策参考。