过氧化物酶体增殖物激活受体α的研究进展

过氧化物酶体增殖物激活受体（Peroxisome proliferator activated receptors,PPARs）作为核受体超家族的一员,其作用广泛,可调节脂肪细胞因子表达、抑制炎症因子、改善胰岛素抵抗等。PPARs有三种亚型,分别是：PPARα、PPARβ／δ和PPARγ。其中PPARα是PPARs最主要的亚型,主要分布在肝脏中。PPARα由不饱和脂肪酸或贝特类降脂药物等配体活化后形成异二聚体,调控靶基因的表达,发挥生物学功能。PPARα参与调节肝脏脂质吸收、脂肪酸氧化、酮体生成、胆固醇代谢等脂代谢过程,以及糖代谢、炎症反应和细胞增殖等,与脂肪性肝病、肝脏炎症反应、乙肝病毒复制和肝癌等肝脏疾病密切相关。本文对PPARα的结构、作用机制、生物学功能及其与肝脏疾病的关系进行综述。PPARα作为肝脏疾病一个新的治疗靶点,阐明其与肝脏疾病发生机制之间的关系,有助于为肝脏疾病的治疗提供新的途径。     

Phytotoxicity induced by Phragmites australis: an assessment of phenotypic and physiological parameters involved in germination process and growth of receptor plant

This study investigated the possible phytotoxicity induced by Phargmites australis on phenotypic and physiological parameters of recipient plants with identification of major inhibitors in the donor plant. This was achieved using aqueous extracts of different organs and root exudates of P. australis in laboratory and greenhouse experiments with Lactuca sativa as the model test plant. The observed reduced liquid imbibition and altered resource mobilization in seeds of L. sativa, in particular an insufficient carbohydrate supply, demonstrated that the onset of germination might be negatively affected by phytotoxicity. Dose-response studies pointed out that oxidative stress through reactive oxygen species production could potentially cause the observed germination and seedling growth reductions. The osmotic effects by mannitol solution on germination as well as growth and physiology at a level of ?0.57 and ?0.45 bar, respectively, demonstrated that the results from aqueous plant extracts were partially induced by the osmotic potential on and above those levels. Overall, the relative strength of inhibition on measured parameters was the highest in leaf extract, followed by rhizome, root, stem, and inflorescence. Root exudates of P. australis also had negative impacts by reducing germination and growth of plant. High-performance liquid chromatography (HPLC) analysis revealed gallic acid, a potent phytotoxin, as a major compound with an order of leaf >inflorescence>rhizome>root>stem.     

蚯蚓作用下污泥重金属形态变化及其与化学生物学性质变化的关系

城市污泥处理是一项世界性难题,污泥农业利用是其最简单有效的资源化利用方式之一,但污泥中较高的重金属含量限制了其实际推广应用,利用蚯蚓-超富集植物联合修复污泥重金属的方法已引起国内外研究者的关注。以新鲜城市脱水污泥为研究对象,接种赤子爱胜蚓(Eisenia fetida)进行室内培养试验,系统研究蚯蚓作用下污泥重金属形态的变化,及其与污泥氧化还原条件、化学和微生物性质变化的关系,以期为蚯蚓-超富集植物联合修复技术在污泥重金属处理中的应用提供理论依据。结果表明,试验前期蚯蚓在污泥中能正常生长和存活,前20 d总生物量增加了52%。蚯蚓可以显著促进污泥中的Cu、Zn、Cd、Ni等重金属从残渣态和铁锰态等稳定形态向交换态和水溶态等有效形态转化。还可以显著降低污泥中还原性物质的含量,减缓p H值下降速度,降低总有机碳含量,促进铵态氮向硝态氮转化,减少污泥微生物的数量并增加其种群活性。蚯蚓作用下,污泥中重金属的活化程度与还原性物质的含量呈显著负相关,而与微生物种群的活性呈显著正相关(P0.05)。综上所述,蚯蚓可以促进污泥重金属的活化,并改善污泥的肥力条件,为修复植物在污泥中的正常生长和对重金属离子的快速吸收提供有利条件。     

利用皇竹草处理城市污泥生产植物产品

利用大生物量植物——皇竹草(Pennisetum hydridum),处理城市污泥高效生产有用的植物产品。通过小型田间试验,采用根兜分株移栽和直接扦插方式种植皇竹草,比较土壤、新鲜污泥、土壤+新鲜污泥等体积混合、植物处理后的污泥4种介质的适应性,测定了皇竹草的成活率和生长状况,以及污泥自身性质的变化;通过盆栽试验及田间试验进一步探讨育苗后移栽在新鲜污泥上的可行性。结果表明,新鲜污泥上直接扦插的皇竹草无一存活,即使是根兜分株移栽其成活率也仅为16.67%,生长较差。而对于土壤+污泥混合物或植物处理后的污泥,采用直接扦插方式,皇竹草的成活率也分别达58.33%、75.00%,两个月干草产量达22.20、19.80 t/hm2,为土壤上的5.11、4.55倍。皇竹草吸收K较明显,3个有污泥的处理皇竹草K含量接近40 g/kg干重,N、P2O5、K2O的总含量大于70 g/kg,可作为有机K肥原料;皇竹草重金属Cu、Zn、Pb、Cd含量均符合国家饲料卫生标准(GB 13078—2001),作为饲料是安全的。盆栽试验及田间试验表明,采用育苗后移栽的方式,皇竹草在新鲜污泥上的成活率达66.67%以上。因此,城市污泥直接种植皇竹草可以实现资源化利用。     

Two guard cell mitogen‐activated protein kinases,MPK9 and MPK12, function in methyl jasmonate‐induced stomatal closure in Arabidopsis thaliana

Methyl jasmonate (MeJA) and abscisic acid (ABA) signalling cascades share several signalling components in guard cells. We previously showed that two guard cell‐preferential mitogen‐activated protein kinases (MAPKs), MPK9 and MPK12, positively regulate ABA signalling in Arabidopsis thaliana. In this study, we examined whether these two MAP kinases function in MeJA signalling using genetic mutants for MPK9 and MPK12 combined with a pharmacological approach. MeJA induced stomatal closure in mpk9‐1 and mpk12‐1 single mutants as well as wild‐type plants, but not in mpk9‐1 mpk12‐1 double mutants. Consistently, the MAPKK inhibitor PD98059 inhibited the MeJA‐induced stomatal closure in wild‐type plants. MeJA elicited reactive oxygen species (ROS) production and cytosolic alkalisation in guard cells of the mpk9‐1, mpk12‐1 and mpk9‐1 mpk12‐1 mutants, as well in wild‐type plants. Furthermore, MeJA triggered elevation of cytosolic Ca²⁺ concentration ([Ca²⁺]_cyt) in the mpk9‐1 mpk12‐1 double mutant as well as wild‐type plants. Activation of S‐type anion channels by MeJA was impaired in mpk9‐1 mpk12‐1. Together, these results indicate that MPK9 and MPK12 function upstream of S‐type anion channel activation and downstream of ROS production, cytosolic alkalisation and [Ca²⁺]_cyt elevation in guard cell MeJA signalling, suggesting that MPK9 and MPK12 are key regulators mediating both ABA and MeJA signalling in guard cells.