Regulation and symbiotic role of nirK and norC expression in Rhizobium etli

Rhizobium etli CFN42 is unable to use nitrate for respiration and lacks nitrate reductase activity as well as the nap or nar genes encoding respiratory nitrate reductase. However, genes encoding proteins closely related to denitrification enzymes, the norCBQD gene cluster and a novel nirKnirVnnrRnnrU operon are located on pCFN42f. In this study, we carried out a genetic and functional characterization of the reductases encoded by the R. etli nirK and norCB genes. By gene fusion expression analysis in free-living conditions, we determined that R. etli regulates its response to nitric oxide through NnrR via the microaerobic expression mediated by FixKf. Interestingly, expression of the norC and nirK genes displays a different level of dependence for NnrR. A null mutation in nnrR causes a drastic drop in the expression of norC, while nirK still exhibits significant expression. A thorough analysis of the nirK regulatory region revealed that this gene is under both positive and negative regulation. Functional analysis carried out in this work demonstrated that reduction of nitrite and nitric oxide in R. etli requires the reductase activities encoded by the norCBQD and nirK genes. Levels of nitrosylleghemoglobin complexes in bean plants exposed to nitrate are increased in a norC mutant but decreased in a nirK mutant. The nitrate-induced decline in nitrogenase-specific activity observed in both the wild type and the norC mutant was not detected in the nirK mutant. This data indicate that bacterial nitrite reductase is an important contributor to the formation of NO in bean nodules in response to nitrate.     

Proteome analysis of programmed cell death and defense signaling using the rice lesion mimic mutant cdr2

We have previously identified three lesion-mimic mutants, cell death and resistance (cdr), in rice. These mutants induce a series of defense responses, including expression of defense-related genes and high accumulation of phytoalexins, indicating that the cdr mutants are useful materials to study programmed cell death and defense signaling in rice. Here, we carried out a proteome analysis of the cdr2 mutant. Total proteins prepared from the wild type and the cdr2 mutant at three different stages of lesion formation were compared using two-dimensional electrophoresis. We found a total of 37 proteins that were differentially expressed between cdr2 and wild type. Among them, 28 spots were up-regulated and nine were down-regulated in the cdr2 mutant. All the protein spots were identified by mass spectrometric analysis. These differentially regulated proteins included defense-related proteins. In addition, 27 proteins were classified as metabolic enzymes, suggesting that the programmed cell death that occurs in the cdr2 mutant is associated with active metabolic changes. Our study shows that proteome analysis is a useful approach to study programmed cell death and defense signaling in plants.     

gid1, a gibberellin-insensitive dwarf mutant, shows altered regulation of probenazole-inducible protein (PBZ1) in response to cold stress and pathogen attack

A recessive gibberellin (GA)-insensitive dwarf mutant of rice, gibberellin-insensitive dwarf1 (gid1), has been identified, which shows a severe dwarf phenotype and contains high concentrations of endogenous GA. To elucidate the function of gid1, proteins regulated downstream of gid1 were analysed using a proteomic approach. Proteins extracted from suspension-cultured cells of gid1 and its wild type were separated by two-dimensional polyacrylamide gel electrophoresis (2D-PAGE). Of a total of 962 proteins identified from the suspension-cultured cells, 16 were increased and 14 were decreased in gid1 compared with its wild type. Among the proteins hyper-accumulated in gid1 were osmotin, triosephosphate isomerase, probenazole inducible protein (PBZ1) and pathogenesis-related protein 10. Of these four genes, only the expression of PBZ1 was increased by exogenous GA3 application. Expression of this gene was also enhanced in shoots of the wild type by cold stress or by rice blast fungus infection. Under normal growth conditions, there was more PBZ1 protein in gid1 than in the wild type. In addition, gid1 showed increased tolerance to cold stress and resistance to blast fungus infection. The entcopalyl diphosphate synthase (OsCPS) genes, which encode enzymes at the branch point between GA and phytoalexin biosynthesis, were expressed differentially in gid1 relative to the wild type. Specifically, OsCPS1, which encodes an enzyme in the GA biosynthesis pathway, was down-regulated and OsCPS2 and OsCPS4, which encode enzymes in phytoalexin biosynthesis, were up-regulated in gid1. These results suggest that the expression of PBZ1 is regulated by GA signalling and stress stimuli, and that gid1 is involved in tolerance to cold stress and resistance to blast fungus.     

脂代谢相关三基因突变小鼠肝脏差异表达蛋白组研究

应用双向电泳及质谱技术对5周龄三基因(apoE^-1- / LDLR^-1-/Lepr^db/db)联合突变小鼠和野生型小鼠肝组织的差异蛋白质进行比较研究,借此分析脂代谢相关三基因联合突变小鼠肝脏蛋白质表达特点,研究差异表达蛋白与血脂代谢紊乱和动脉粥样硬化的关系.在实验中检测到三基因联合突变小鼠和野生型小鼠肝脏中分别平均有（841±57）个和（1 017±50）个蛋白点（n=3）,两者的平均匹配率分别为71.9%,83.2%.三基因联合突变小鼠有140个蛋白点未能与野生型小鼠匹配,其中相差5倍以上的上调点和下调点分别为7个和39个.选取其中的6个点做质谱分析,鉴定为endoplasmin precursor(Grp-94)、酸性富亮氨酸核磷蛋白32家族成员A(acidic leucin-rich nuclear phosphoprotein 32 family member A)、转铁蛋白前体、果糖二磷酸酶1、纤维连接蛋白前体、补体C3前体,纤维蛋白原B β多肽7种蛋白. 该结果提示,差异表达的蛋白对三基因联合突变小鼠的血脂代谢紊乱和动脉粥样硬化发生发展过程起一定作用.     

转辽宁碱蓬SlNAC4拟南芥差异表达基因分析

以实验室前期获得的转SlNAC4基因拟南芥(Arabidopsis thaliana)和野生型拟南芥为材料, 通过基因芯片技术检测其基因表达谱。结果表明, 与野生型拟南芥相比, 转SlNAC4基因拟南芥中差异表达的基因共有3 094个。 通过GO分析, 发现与非生物胁迫相关的差异基因共有195个, 与生长发育相关的差异基因共有47个, 其中包含MYB和WRKY转录因子基因。KEGG分析表明, 差异表达基因主要涉及植物激素信号转导和油菜素内酯合成等信号通路。进一步选择部分差异表达基因进行实时荧光定量PCR分析, 所得结果与芯片检测结果一致。该研究结果表明, SlNAC4可直接或间接地调控多个下游基因的表达, 进而调控植物的生长发育, 提高其抗逆性。     

Abscisic acid deficiency increases defence responses against Myzus persicae in Arabidopsis

Comparison of Arabidopsis thaliana (Arabidopsis) gene expression induced by Myzus persicae (green peach aphid) feeding, aphid saliva infiltration and abscisic acid (ABA) treatment showed a significant positive correlation. In particular, ABA‐regulated genes are over‐represented among genes that are induced by M. persicae saliva infiltration into Arabidopsis leaves. This suggests that the induction of ABA‐related gene expression could be an important component of the Arabidopsis–aphid interaction. Consistent with this hypothesis, M. persicae populations induced ABA production in wild‐type plants. Furthermore, aphid populations were smaller on Arabidopsis aba1‐1 mutants, which cannot synthesize ABA, and showed a significant preference for wild‐type plants compared with the mutant. Total free amino acids, which play an important role in aphid nutrition, were not altered in the aba1‐1 mutant line, but the levels of isoleucine (Ile) and tryptophan (Trp) were differentially affected by aphids in wild‐type and mutant plants. Recently, indole glucosinolates have been shown to promote aphid resistance in Arabidopsis. In this study, 4‐methoxyindol‐3‐ylmethylglucosinolate was more abundant in the aba1‐1 mutant than in wild‐type Arabidopsis, suggesting that the induction of ABA signals that decrease the accumulation of defence compounds may be beneficial for aphids.     

Gene expression kinetics in individual plasmodial cells reveal alternative programs of differential regulation during commitment and differentiation

During its life cycle, the amoebozoon Physarum polycephalum forms multinucleate plasmodial cells that can grow to macroscopic size while maintaining a naturally synchronous population of nuclei. Sporulation‐competent plasmodia were stimulated through photoactivation of the phytochrome photoreceptor and the expression of sporulation marker genes was analyzed quantitatively by repeatedly taking samples of the same plasmodial cell at successive time points after the stimulus pulse. Principal component analysis of the gene expression data revealed that plasmodial cells take different trajectories leading to cell fate decision and differentiation and suggested that averaging over individual cells is inappropriate. Queries for genes with pairwise correlated expression kinetics revealed qualitatively different patterns of co‐regulation, indicating that alternative programs of differential regulation are operational in individual plasmodial cells. At the single cell level, the response to stimulation of a non‐sporulating mutant was qualitatively different as compared to the wild type with respect to the differentially regulated genes and their patterns of co‐regulation. The observation of individual differences during commitment and differentiation supports the concept of a Waddington‐type quasipotential landscape for the regulatory control of cell differentiation. Comparison of wild type and sporulation mutant data further supports the idea that mutations may impact the topology of this landscape.     

猪链球菌2型强毒株05ZYH33转录调控因子Rgg基因敲除突变体与野生株的基因表达差异分析

目的:为了解猪链球菌2型强毒株05Z33转录调控因子Rgg的调控作用,用基因芯片方法分析野生株与rgg基因敲除突变体之间的差异表达基因。方法:用猪链球菌2型全基因组序列点样制备芯片,将芯片运用于rgg敲除株与野生株的基因表达差异研究,采用定量real-time PCR(qRT-PCR)验证表达谱结果。结果:在突变体中共发现45个基因表达量变化在2倍以上,其中19个基因表达上调,26个基因表达下调。这些基因在细菌毒力、免疫抗原、DNA合成和修复、基础代谢和ABC转运系统等方面起着重要作用。结论:转录调控因子Rgg是一个全局调控因子,但rgg敲除后并不影响猪链球菌的毒力。     

Differentially expressed genes in the ovary of the sixth day of pupal “Ming” lethal egg mutant of silkworm, Bombyx mori

The “Ming” lethal egg mutant (l-e^m) is a vitelline membrane mutant in silkworm, Bombyx mori. The eggs laid by the l-e^m mutant lose water, ultimately causing death within an hour. Previous studies have shown that the deletion of BmEP80 is responsible for the l-e^m mutation in silkworm, B. mori. In the current study, digital gene expression (DGE) was performed to investigate the difference of gene expression in ovaries between wild type and l-e^m mutant on the sixth day of the pupal stage to obtain a global view of gene expression profiles using the ovaries of three l-e^m mutants and three wild types. The results showed a total of 3,463,495 and 3,607,936 clean tags in the wild type and the l-e^m mutant libraries, respectively. Compared with those of wild type, 239 differentially expressed genes were detected in the l-e^m mutant, wherein 181 genes are up-regulated and 58 genes are down-regulated in the mutant strain. The Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis results showed that no pathway was significantly enriched and three pathways are tightly related to protein synthesis among the five leading pathways. Moreover, the expression profiles of eight important differentially expressed genes related to oogenesis changed. These results provide a comprehensive gene expression analysis of oogenesis and vitellogenesis in B. mori which facilitates understanding of both the specific molecular mechanism of the 1-e^m mutant and Lepidopteran oogenesis in general.     

Genes involved in glucose repression and oxidative stress response in the fission yeast Schizosaccharomyces pombe

We looked for changes in gene expression and novel genes that could be involved in the interaction between glucose repression and oxidative stress response in the fission yeast, Schizosaccharomyces pombe, using a constitutive invertase mutant, ird11, which is resistant to glucose. BLAST analysis was made of the S. pombe genome database of cDNAs whose expression ratios differentially decreased or increased upon exposure to mild oxidative stress in this mutant compared to the wild type. Genes with this type of activity were identified as rpl302, encoding 60S ribosomal protein L3, and mpg1, encoding mannose-1-phosphate guanyltransferase; their expression patterns were measured using quantitative real-time PCR. We found that the expression levels of rpl302 and mpg1 genes in ird11 under unstressed conditions were increased compared to those of the wild type. Under stress conditions, the expression levels of the rpl302 gene were decreased in both strains, while mpg1 expression levels remained unchanged. These results suggest that these genes play a role in the response to oxidative stress in this mutant strain.     

Identification of Botrytis cinerea genes up-regulated during infection and controlled by the Galpha subunit BCG1 using suppression subtractive hybridization (SSH)

The Galpha subunit BCG1 plays an important role during the infection of host plants by Botrytis cinerea. Delta bcg1 mutants are able to conidiate, penetrate host leaves, and produce small primary lesions. However, in contrast to the wild type, the mutants completely stop invasion of plant tissue at this stage; secondary lesions have never been observed. Suppression subtractive hybridization (SSH) was used to identify fungal genes whose expression on the host plant is specifically affected in bcg1 mutants. Among the 22 differentially expressed genes, we found those which were predicted to encode proteases, enzymes involved in secondary metabolism, and others encoding cell wall-degrading enzymes. All these genes are highly expressed during infection in the wild type but not in the mutant. However, the genes are expressed in both the wild type and the mutant under certain conditions in vitro. Most of the BCG1-controlled genes are still expressed in adenylate cyclase (bac) mutants in planta, suggesting that BCG1 is involved in at least one additional signaling cascade in addition to the cAMP-depending pathway. In a second SSH approach, 1,500 clones were screened for those that are specifically induced by the wild type during the infection of bean leaves. Of the 22 BCG1-controlled genes, 11 also were found in the in planta SSH library. Therefore, SSH technology can be successfully applied to identify target genes of signaling pathways and differentially expressed genes in planta.