Microtubule-assisted mechanism for toxisome assembly in Fusarium graminearum

In Fusarium graminearum, a trichothecene biosynthetic complex known as the toxisome forms ovoid and spherical structures in the remodelled endoplasmic reticulum (ER) under mycotoxin-inducing conditions. Previous studies also demonstrated that disruption of actin and tubulin results in a significant decrease in deoxynivalenol (DON) biosynthesis in F. graminearum. However, the functional association between the toxisome and microtubule components has not been clearly defined. In this study we tested the hypothesis that the microtubule network provides key support for toxisome assembly and thus facilitates DON biosynthesis. Through fluorescent live cell imaging, knockout mutant generation, and protein–protein interaction assays, we determined that two of the four F. graminearum tubulins, α₁ and β₂ tubulins, are indispensable for DON production. We also showed that these two tubulins are directly associated. When the α₁–β₂ tubulin heterodimer is disrupted, the metabolic activity of the toxisome is significantly suppressed, which leads to significant DON biosynthesis impairment. Similar phenotypic outcomes were shown when F. graminearum wild type was treated with carbendazim, a fungicide that binds to microtubules and disrupts spindle formation. Based on our results, we propose a model where α₁–β₂ tubulin heterodimer serves as the scaffold for functional toxisome assembly in F. graminearum.     

Strigolactone mimic 2-nitrodebranone is highly active in Arabidopsis growth and development

Strigolactones play crucial roles in regulating plant architecture and development, as endogenous hormones, and orchestrating symbiotic interactions with fungi and parasitic plants, as components of root exudates. rac-GR24 is currently the most widely used strigolactone analog and serves as a reference compound in investigating the action of strigolactones. In this study, we evaluated a suite of debranones and found that 2-nitrodebranone (2NOD) exhibited higher biological activity than rac-GR24 in various aspects of plant growth and development in Arabidopsis, including hypocotyl elongation inhibition, root hair promotion and senescence acceleration. The enhanced activity of 2NOD in promoting AtD14–SMXL7 and AtD14–MAX2 interactions indicates that the molecular structure of 2NOD is a better match for the ligand perception site pocket of D14. Moreover, 2NOD showed lower activity than rac-GR24 in promoting Orobanche cumana seed germination, suggesting its higher ability to control plant architecture than parasitic interactions. In combination with the improved stability of 2NOD, these results demonstrate that 2NOD is a strigolactone analog that can specifically mimic the activity of strigolactones and that 2NOD exhibits strong potential as a tool for studying the strigolactone signaling pathway in plants.     

绿盖粉孢牛肝菌中一个新的甾体糖苷

从绿盖粉孢牛肝菌（Tylopilus virens）中分离得到一个新的麦角甾烷型甾体糖苷,其化学结构通过波谱学方法鉴定为：（22E,24R）-麦角甾-7,22-二烯-5α,6β-二醇-3β-O-[3-（3-苯基丙酰氧基）]-β-D-葡萄吡喃糖苷,命名为tylopiloside（1）,同时,其苷元cerevisterol（2）也从该菌中分离得到。值得注意的是,这种糖片段上有芳环取代的烷酰氧基基团的麦角甾烷型甾体糖苷为真菌中首次报道。     

Taurine replacement attenuates hyperalgesia and abnormal calcium signaling in sensory neurons of STZ-D rats

The etiology of painful diabetic neuropathy is poorly understood, but may result from neuronal hyperexcitability secondary to alterations of Ca2+ signaling in sensory neurons. The naturally occurring amino acid taurine functions as an osmolyte, antioxidant, Ca2+ modulator, inhibitory neurotransmitter, and analgesic such that its depletion in diabetes may predispose one to neuronal hyperexcitability and pain. This study reports the effects of taurine replacement on hyperalgesia and sensory neuron Ca2+ homeostasis in streptozotocin-diabetic (STZ-D) rats. Nondiabetic and STZ-D rats were treated with a 2% taurine-supplemented diet for 6-12 wk. Thermal hyperalgesia and mechanical allodynia were determined by measuring hindpaw withdrawal latency to radiant heat and the withdrawal threshold to the von Frey anesthesiometer. Intracellular Ca2+ signaling was explored in neurons from L4-L6 dorsal root ganglia (DRG), using fura 2 fluorescence. Taurine replacement of diabetic rats attenuated deficits of nerve conduction and prevented reductions of mechanical and thermal withdrawal threshold and latency, respectively. In small DRG sensory neurons from diabetic rats, recovery of intracellular Ca2+ concentration ([Ca2+]i) in response to KCl was slowed and 73% corrected by taurine. The amplitudes of caffeine and ATP-induced [Ca2+]i transients were decreased by 47 and 27% (P < 0.05), respectively, in diabetic rat DRG sensory neurons and corrected by 74 and 93% (P < 0.05), respectively, by taurine replacement. These data indicate that taurine is important in the regulation of neuronal Ca2+ signaling and that taurine deficiency may predispose one to nerve hyperexcitability and pain, complicating diabetes.     

不同定植期和摘心方案下5个品种(系)茶用菊生长和产量性状的变化

为了比较5个茶用菊新品种(系)的产量水平,并筛选出获得高产的定植期和摘心方案,以 ‘苏菊10号’、‘苏菊12号’、‘苏菊13号’、‘CH1-44’、‘CH5-13’ 为试材,采用三因素裂区试验设计,主区为早、中、晚3个定植期,裂区为5个新品种(系),裂裂区为4种摘心方案,比较不同栽培措施下植株生长和产量的差异.结果表明: 5个新品种(系)中,‘CH5-13’和‘苏菊13号’产量相对较高,‘CH1-44’和‘苏菊10号’产量次之,‘苏菊12号’产量最低;5月27日中期定植、二次摘心措施下5个新品种(系)的株高、冠幅、单株花数、花径、单花鲜质量、单株产量和单位面积产量均显著优于其他处理,较5月7日和6月13日定植分别提高16.0%和19.0%、18.0%和22.8%、36.7%和42.2%、11.1%和2.3%、13.0%和4.0%、47.8%和36.6%、48.5%和36.7%.随着摘心时间的推迟,株高显著降低,二次摘心株高较不摘心降低50.2%;二次摘心处理的冠幅、单株花数、单花鲜质量、单株产量和单位面积产量最高,较不摘心依次提高17.0%、29.1%、5.5%、34.0%和34.8%.品种(系)、定植期、摘心方案3个因素对茶用菊生长性状和产量影响作用的大小依次为:定植期>品种>摘心.     

甘南高山林线岷江冷杉—杜鹃种群结构与动态

高山林线是一种典型的生态交错带,是对气候反映最敏感的地区之一。甘肃南部高山林线区域主要以原始岷江冷杉种群和杜鹃种群为优势种,通过对岷江冷杉和杜鹃种群建立静态生命表,绘制存活曲线描述其结构特征,利用种群数量动态预测时间序列分析定量研究未来的发展趋势。结果显示:(1)岷江冷杉种群幼苗比较丰富,能很好的维持种群个体的自疏死亡,存活曲线呈Deevey-Ⅲ型;杜鹃种群幼苗缺乏,存活曲线趋向于Deevey-Ⅰ型;死亡曲线和危险率曲线都随着龄级的增加而增加,杜鹃种群的死亡率在各个龄级一直大于岷江冷杉种群,危险率在Ⅱ龄级以后杜鹃种群也始终大于岷江冷杉种群。(2)岷江冷杉种群结构动态变化指数Vpi大于修正后的种群结构动态变化指数V′pi且大于0,而杜鹃种群结构动态变化指数Vpi小于修正后的种群结构动态变化指数V′pi且小于0,则岷江冷杉种群属于增长型,杜鹃种群属于衰退型,岷江冷杉、杜鹃随机干扰极大值分别为0.027、0.011,说明二者对外界干扰均比较敏感。(3)杜鹃种群时间序列预测为前期幼苗比较缺乏,中期稳定,后期衰退的动态特征,而岷江冷杉种群表现出各龄级时间变化较小,幼苗个体数较多,种群为稳定增长型,岷江冷杉更能适应甘肃南部高山林线区域当前环境。     

Antiinflammatory Activity of a Novel Folic Acid Targeted Conjugate of the mTOR Inhibitor Everolimus

Folate receptor (FR)-β has been identified as a promising target for antimacrophage and antiinflammatory therapies. In the present study, we investigated EC0565, a folic acid–derivative of everolimus, as a FR-specific inhibitor of the mammalian target of rapamycin (mTOR). Because of its amphiphilic nature, EC0565 was first evaluated for water solubility, critical micelle formation, stability in culture and FR-binding specificity. Using FR-expressing macrophages, the effect of EC0565 on mTOR signaling and cellular proliferation was studied. The pharmacokinetics, metabolism and bioavailability of EC0565 were studied in normal rats. The in vivo activity of EC0565 was assessed in rats with adjuvant arthritis, a “macrophage-rich” model with close resemblance to rheumatoid arthritis. EC0565 forms micellar aggregates in physiological buffers and demonstrates good water solubility as well as strong multivalent FR-binding capacity. EC0565 inhibited mTOR signaling in rat macrophages at nanomolar concentrations and induced G0/G1 cell cycle arrest in serum-starved RAW264.7 cells. Subcutaneously administered EC0565 in rats displayed good bioavailability and a relatively long half-life (~12 h). When given at 250 nmol/kg, EC0565 selectively inhibited proliferating cell nuclear antigen expression in thioglycollate-stimulated rat peritoneal cells. With limited dosing regimens, the antiarthritic activity of EC0565 was found superior to that of etanercept, everolimus and a nontargeted everolimus analog. The in vivo activity of EC0565 was also comparable to that of a folate-targeted aminopterin. Folate-targeted mTOR inhibition may be an effective way of suppressing activated macrophages in sites of inflammation, especially in nutrient-deprived conditions, such as in the arthritic joints. Further investigation and improvement upon the physical and biochemical properties of EC0565 are warranted.     

A Potent Anticancer Agent of Shikonin Derivative Targeting Tubulin

In this study, a shikonin ester derivative, compound 3g , was selected to evaluate its anticancer activities and we found that compound 3g exhibited better antitubulin activities against the human HepG2 cell line with an IC₅₀ value of 1.097 μM. Furthermore, the inhibition of tubulin polymerization results indicated that compound 3g demonstrated the most potent antitubulin activity (IC₅₀ = 13.88), which was compared with shikonin and colchicine as positive controls (IC₅₀ = 25.28 μM and 22.56 μM), respectively. Compound 3g was simulated to have good binding site with tubulin and arrested the cell cycle at G2/M phase, which also induces apoptosis in HepG2 cells, in which P53 and members of Bcl‐2 protein family were both involved in the progress of apoptosis revealed by western blot. Confocal microscopy observations revealed compound 3g targeted tubulin and altered its polymerization by interfering with microtubule organization. Based on these results, compound 3g functions as a potent anticancer agent targeting tubulin. Chirality 27:274–280, 2015.. © 2015 Wiley Periodicals, Inc.     

芒草种植对土壤细菌群落结构和功能的影响

芒草作为第二代能源植物的代表,其生长过程中根际土壤细菌群落的结构与功能尚不清楚.本研究以种植5年的芒草(湘杂芒1号)为研究对象,选取裸地作为对照,采用16S rRNA基因Miseq测序技术研究其细菌群落组成,同时采用PICRUSt功能预测分析其功能.结果表明: 芒草根际细菌由变形菌门、酸杆菌门、放线菌门、绿弯菌门、拟杆菌门和芽单胞菌门等23个门、231个属的细菌组成,表现出群落组成的丰富性.细菌群落分析表明,种植湘杂芒1号改变了根际细菌群落结构,其细菌群落多样性低于裸地对照.PICRUSt功能预测分析表明,湘杂芒1号根际细菌主要涉及氨基酸运输和代谢、细胞壁/细胞膜/膜结构的生物合成、信号转导机制等24个基因功能家族,表现出功能上的丰富性,并有22个基因功能家族预测基因相对丰度高于裸地,表明种植湘杂芒1号提高了根际细菌功能.对氮、磷循环相关基因进行分析表明,种植湘杂芒1号改变了土壤氮、磷代谢能力.