The rice hydroperoxide lyase OsHPL3 functions in defense responses by modulating the oxylipin pathway

As important signal molecules, jasmonates (JAs) and green leaf volatiles (GLVs) play diverse roles in plant defense responses against insect pests and pathogens. However, how plants employ their specific defense responses by modulating the levels of JA and GLVs remains unclear. Here, we describe identification of a role for the rice HPL3 gene, which encodes a hydroperoxide lyase (HPL), OsHPL3/CYP74B2, in mediating plant‐specific defense responses. The loss‐of‐function mutant hpl3‐1 produced disease‐resembling lesions spreading through the whole leaves. A biochemical assay revealed that OsHPL3 possesses intrinsic HPL activity, hydrolyzing hydroperoxylinolenic acid to produce GLVs. The hpl3‐1 plants exhibited enhanced induction of JA, trypsin proteinase inhibitors and other volatiles, but decreased levels of GLVs including (Z)‐3‐hexen‐1‐ol. OsHPL3 positively modulates resistance to the rice brown planthopper [BPH, Nilaparvata lugens (Stål)] but negatively modulates resistance to the rice striped stem borer [SSB, Chilo suppressalis (Walker)]. Moreover, hpl3‐1 plants were more attractive to a BPH egg parasitoid, Anagrus nilaparvatae, than the wild‐type, most likely as a result of increased release of BPH‐induced volatiles. Interestingly, hpl3‐1 plants also showed increased resistance to bacterial blight (Xanthomonas oryzae pv. oryzae). Collectively, these results indicate that OsHPL3, by affecting the levels of JA, GLVs and other volatiles, modulates rice‐specific defense responses against different invaders.     

系统性红斑狼疮患者血清中IL-17 的检测及临床意义

目的:通过检测系统性红斑狼疮(SLE)患者外周血中IL-17的水平,探讨其临床意义。方法:用酶联免疫吸附法(enzymelinked immunosorbent assay,ELISA)检测61例SLE患者及30例健康人血清IL-17水平,并收集整理SLE患者的临床资料及实验室数据,分析其与临床的关系。结果:活动期SLE患者血清IL-17水平明显高于正常对照组(P<0.01),与SLE非活动组相比,差异亦有统计学意义(P<0.01)。但SLE非活动组与正常对照组间无统计学意义。结论:IL-17水平在活动期SLE患者血清中表达明显增高,且与SLEDAI评分呈正相关,提示IL-17可能参与了SLE疾病的病理过程,可能与疾病活动的关系密切。     

干旱胁迫对花生根系生长发育和生理特性的影响

以花育17号和唐科8号两个花生品种为试验材料,在防雨棚栽培池内进行土柱栽培试验,研究了中度干旱胁迫和正常供水处理下花生生育后期根系形态发育特征和生理特性.结果表明: 唐科8号具有较发达的根系及较高的产量和抗旱系数,花育17号根系对干旱胁迫的适应性小于唐科8号.两品种根长密度、根系生物量均主要分布于0～40 cm土层中,但同一土层内两品种根系性状存在差异.与正常供水处理相比,干旱胁迫处理使花育17号各生育期总根长、根系总表面积和总体积均降低,而唐科8号除花针期显著降低外,其余生育期均明显升高;干旱胁迫增加了两品种20～40 cm土层内根系生物量、根系表面积和体积,而降低了40 cm以下土层内各根系性状;干旱胁迫处理使两品种饱果期40 cm以下土层内根系活力降低,且花育17号降低幅度高于唐科8号.干旱胁迫下两品种生育后期根系发育和生理特性的差异表明其根系在干旱胁迫下对水分吸收和利用存在差异.     

Construction of Stress Responsive Synthetic Promoters and Analysis of Their Activity in Transgenic Arabidopsis thaliana

To obtain strong inducible promoters to drive abiotic stress-inducible transgene expression with minimal negative effects, we constructed three artificial synthetic promoters (EKCM, EKCRM, and ECCRM) comprising multiple cis-acting stress-response elements. Each promoter was fused independently to the β-glucuronidase (GUS) reporter gene, and GUS expression was analyzed in stable expression systems in Arabidopsis thaliana. T2 transgenic progenies showed integration of the promoter-GUS construct in their genome. RT-PCR assays and histochemical staining analysis showed that GUS expression driven by each promoter increased under desiccation, cold, and high salt conditions. The activity of synthetic promoters, assessed by fluorometric quantitative analysis of GUS enzyme activity, was significantly higher than that of the rd29A promoter under various stress treatments. The most powerful promoter, EKCM, allowed about 1.29-fold in GUS activity relative to the rd29A promoter, on average, under dehydration conditions. All three synthetic promoters could drive stress-inducible GUS expression in different organs of transgenic Arabidopsis. These synthetic promoters represent valuable tools for improving the stress tolerance of crops.     

Biometric variations and oxidative stress responses in juvenile Clarias gariepinus exposed to Termex®

The current study investigated the effects of termite insecticide, Termex® (imidacloprid 35.50% SC), on biometric variations and oxidative stress biomarkers in Clarias gariepinus. Fish were exposed to 4.00 and 6.00 µg l^–1 sublethal Termex® concentrations in 2017. The gill and liver tissues were sampled on days 7, 14, 21 and 28 and the results indicated that hepatosomatic index (HSI) decreased significantly when compared with the control on days 14, 21 and 28. The condition factor (CF) and viscera-somatic index (VSI) also decreased during the study period. The decrease was greater at 6.00 µg l^–1 Termex® concentration on days 21 and 28 for CF and days 14 to 28 for VSI, respectively. The lipid peroxidation (LPO) in both tissues was highest in the 6.00 µg l^?1 Termex® and increased with the duration. There was significant decrease (p < 0.05) in superoxide dismutase and glutathione peroxidase values, but significant increase in catalase activity in both tissues. The values of glutathione reductase in both tissues were comparable to the control, except on days 21 and 28 in the liver. There was negative correlation between the LPO in tissues and the HSI, CF and VSI values. The use of Termex® in the environment should be monitored to safeguard the health of aquatic organisms.     

Two Arabidopsis cytochrome P450 monooxygenases, CYP714A1 and CYP714A2, function redundantly in plant development through gibberellin deactivation

The rice gene ELONGATED UPPERMOST INTERNODE1 (EUI1) encodes a P450 monooxygenase that epoxidizes gibberellins (GAs) in a deactivation reaction. The Arabidopsis genome contains a tandemly duplicated gene pair ELA1 (CYP714A1) and ELA2 (CYP714A2) that encode EUI homologs. In this work, we dissected the functions of the two proteins. ELA1 and ELA2 exhibited overlapping yet distinct gene expression patterns. We showed that while single mutants of ELA1 or ELA2 exhibited no obvious morphological phenotype, simultaneous elimination of ELA1 and ELA2 expression in ELA1-RNAi/ela2 resulted in increased biomass and enlarged organs. By contrast, transgenic plants constitutively expressing either ELA1 or ELA2 were dwarfed, similar to those overexpressing the rice EUI gene. We also discovered that overexpression of ELA1 resulted in a severe dwarf phenotype, while overexpression of ELA2 gave rise to a breeding-favored semi-dwarf phenotype in rice. Consistent with the phenotypes, we found that the ELA1-RNAi/ela2 plants increased amounts of biologically active GAs that were decreased in the internodes of transgenic rice with ELA1 and ELA2 overexpression. In contrast, the precursor GA(12) slightly accumulated in the transgenic rice, and GA(19) highly accumulated in the ELA2 overexpression rice. Taken together, our study strongly suggests that the two Arabidopsis EUI homologs subtly regulate plant growth most likely through catalyzing deactivation of bioactive GAs similar to rice EUI. The two P450s may also function in early stages of the GA biosynthetic pathway. Our results also suggest that ELA2 could be an excellent tool for molecular breeding for high yield potential in cereal crops.     

BENT UPPERMOST INTERNODE1 encodes the class II formin FH5 crucial for actin organization and rice development

The actin cytoskeleton is an important regulator of cell expansion and morphogenesis in plants. However, the molecular mechanisms linking the actin cytoskeleton to these processes remain largely unknown. Here, we report the functional analysis of rice (Oryza sativa) FH5/BENT UPPERMOST INTERNODE1 (BUI1), which encodes a formin-type actin nucleation factor and affects cell expansion and plant morphogenesis in rice. The bui1 mutant displayed pleiotropic phenotypes, including bent uppermost internode, dwarfism, wavy panicle rachis, and enhanced gravitropic response. Cytological observation indicated that the growth defects of bui1 were caused mainly by inhibition of cell expansion. Map-based cloning revealed that BUI1 encodes the class II formin FH5. FH5 contains a phosphatase tensin-like domain at its amino terminus and two highly conserved formin-homology domains, FH1 and FH2. In vitro biochemical analyses indicated that FH5 is capable of nucleating actin assembly from free or profilin-bound monomeric actin. FH5 also interacts with the barbed end of actin filaments and prevents the addition and loss of actin subunits from the same end. Interestingly, the FH2 domain of FH5 could bundle actin filaments directly and stabilize actin filaments in vitro. Consistent with these in vitro biochemical activities of FH5/BUI1, the amount of filamentous actin decreased, and the longitudinal actin cables almost disappeared in bui1 cells. The FH2 or FH1FH2 domains of FH5 could also bind to and bundle microtubules in vitro. Thus, our study identified a rice formin protein that regulates de novo actin nucleation and spatial organization of the actin filaments, which are important for proper cell expansion and rice morphogenesis.     

CURVED CHIMERIC PALEA 1 encoding an EMF1‐like protein maintains epigenetic repression of OsMADS58 in rice palea development

Floral organ specification is controlled by various MADS‐box genes in both dicots and monocots, whose expression is often subjected to both genetic and epigenetic regulation in Arabidopsis thaliana. However, little information is known about the role of epigenetic modification of MADS‐box genes during rice flower development. Here, we report the characterization of a rice gene, CURVED CHIMERIC PALEA 1 (CCP1) that functions in palea development. Mutation in CCP1 resulted in abnormal palea with ectopic stigmatic tissues and other pleiotropic phenotypes. We found that OsMADS58, a C‐class gene responsible for carpel morphogenesis, was ectopically expressed in the ccp1 palea, indicating that the ccp1 palea was misspecified and partially acquired carpel‐like identity. Constitutive expression of OsMADS58 in the wild‐type rice plants caused morphological abnormality of palea similar to that of ccp1, whereas OsMADS58 knockdown by RNAi in ccp1 could rescue the abnormal phenotype of mutant palea, suggesting that the repression of OsMADS58 expression by CCP1 is critical for palea development. Map‐based cloning revealed that CCP1 encodes a putative plant‐specific EMBRYONIC FLOWER1 (EMF1)‐like protein. Chromatin immunoprecipitation assay showed that the level of the H3K27me3 at the OsMADS58 locus was greatly reduced in ccp1 compared with that in the wild‐type. Taken together, our results show that CCP1 plays an important role in palea development through maintaining H3K27me3‐mediated epigenetic silence of the carpel identity‐specifying gene OsMADS58, shedding light on the epigenetic mechanism in floral organ development.     

不同盐分处理对狼尾草和大油芒发芽与幼苗生长的影响

为了解盐渍化生境中r对策者发芽与幼苗期的盐分适应特征,本研究选用狼尾草(Pennisetum alopecuroides)和大油芒(Spodipogon sibiricus),按照NaCl∶Na2SO4∶NaHCO3为1∶1∶3(mol)配制复盐溶液,分6个处理(0、0.1%、0.2%、0.4%、0.8%和1.6%),分别进行种子发芽和幼苗生长单因素实验,比较了两种植物的发芽能力、胚生长和幼苗生长状况以及生理生化指标。结果表明:种子萌发阶段,随盐分浓度增大,狼尾草和大油芒发芽率、发芽指数和发芽势等均显著下降,低浓度(≤0.4%)时狼尾草的发芽能力小于大油芒,高浓度(≥0.8%)时则相反;狼尾草和大油芒胚芽长、胚根长及胚鲜重均显著下降,但大油芒胚生长受抑制的程度高于狼尾草;幼苗阶段,盐分显著抑制狼尾草和大油芒的幼苗生长,但大油芒受抑制的程度低于狼尾草,且狼尾草体内生理活性钙和丙二醛含量高于大油芒;可见,两种植物的耐盐能力在种子萌发阶段狼尾草强于大油芒,而幼苗阶段狼尾草又弱于大油芒,这体现了r对策者风险分摊的对策。