链霉菌C-3662产生的纤溶活性蛋白酶的纯化与理化性质

 从链霉菌 C- 3662发酵上清液中 ,通过硫酸铵沉淀 ,CM- Sepharose Fast Flow和 Phenyl-Sepharose Fast Flow等层析色谱 ,分离纯化得到了具有纤溶活性的蛋白酶 CGW- 3,反向 HPLC鉴定纯度为 90 % ;每立升发酵上清液可得到 8mg纯品 ,活性回收率 46% ,CGW- 3为一单肽链蛋白 ,分子量 2 2 72 1 ,对丝氨酸蛋白酶抑制剂 PMSF敏感 ,对 EDTA不敏感 ;其 N端 1 5个氨基酸的顺序为 VVGGTRAAQGEFPFM,与微生物来源的胰蛋白酶类丝氨酸蛋白酶有较高的同源性 . CGW- 3的等电点 p I9.0 ,纤溶活性的最适 p H为 7.5～ 8.0 ,对温度比较敏感 .CGW- 3不仅具有直接降解纤维蛋白作用 ,而且能够激活纤溶酶原     

紫杉醇合成代谢途径中紫杉烯合成酶cDNA的克隆

紫杉烯合成酶(Taxadienesynthase)被认为在紫杉醇合成代谢途径中起着限速酶的作用。为进一步研究紫杉烯合成酶的作用机理和紫杉醇生物合成代谢调控机制,采用RTPCR技术从东北红豆杉(Taxuscuspidata)愈伤组织中获得了紫杉烯合成酶基因片段,将该片段克隆在载体pGEMTEasyVector上,并转化到大肠杆菌JM109中,经EcoRI酶切检测,Southernblotting及部分cDNA序列分析证实该片段确为紫杉烯合成酶基因,与国外报道的从太平洋红豆杉(Taxus.brevifolia)幼茎中得到的紫杉烯合成酶基因序列具有很高的同源性。     

桃小食心虫越冬幼虫过冷却能力及体内生化物质动态

为研究桃小食心虫Carposina niponensis Walsingham自然种群过冷却能力的变化动态,从生理生化水平上探讨桃小食心虫幼虫耐寒机制,测定了桃小食心虫幼虫在越冬前后不同月份的过冷却点、体内含水量、脂肪、蛋白和糖原的含量。结果表明:桃小食心虫越冬幼虫的过冷却点(super-cooling point, SCP)和结冰点(freezing point, FP)随越冬期温度降低而逐渐降低, 并在冬季过后随温度升高而逐渐升高,其中在3月份时最低,分别为-14.89℃和-9.95℃,显著低于其它月份。幼虫体内含水量、总蛋白含量、糖原含量在越冬前后变化趋势与SCP变化相似并且各自又有不同的特点,但在2月份时都达最低,分别为44.83%、32.44μg/mg、1.95μg/mg。幼虫体内的总脂肪含量由越冬初期(2008-10)的29.04％逐渐降低至越冬后期(2009-06)的15.56％。结果说明桃小食心虫幼虫越冬过程中体内水分、总蛋白、糖原等生化物质含量的变化与其抗寒能力存在一定的联系,显示了其对冬季温度变化的生态适应。     

Structural and biochemical characterization of ZhuI aromatase/cyclase from the R1128 polyketide pathway

Aromatic polyketides comprise an important class of natural products that possess a wide range of biological activities. The cyclization of the polyketide chain is a critical control point in the biosynthesis of aromatic polyketides. The aromatase/cyclases (ARO/CYCs) are an important component of the type II polyketide synthase (PKS) and help fold the polyketide for regiospecific cyclizations of the first ring and/or aromatization, promoting two commonly observed first-ring cyclization patterns for the bacterial type II PKSs: C7-C12 and C9-C14. We had previously reported the crystal structure and enzymological analyses of the TcmN ARO/CYC, which promotes C9-C14 first-ring cyclization. However, how C7-C12 first-ring cyclization is controlled remains unresolved. In this work, we present the 2.4 ? crystal structure of ZhuI, a C7-C12-specific first-ring ARO/CYC from the type II PKS pathway responsible for the production of the R1128 polyketides. Though ZhuI possesses a helix-grip fold shared by TcmN ARO/CYC, there are substantial differences in overall structure and pocket residue composition that may be important for directing C7-C12 (rather than C9-C14) cyclization. Docking studies and site-directed mutagenesis coupled to an in vitro activity assay demonstrate that ZhuI pocket residues R66, H109, and D146 are important for enzyme function. The ZhuI crystal structure helps visualize the structure and putative dehydratase function of the didomain ARO/CYCs from KR-containing type II PKSs. The sequence-structure-function analysis described for ZhuI elucidates the molecular mechanisms that control C7-C12 first-ring polyketide cyclization and builds a foundation for future endeavors into directing cyclization patterns for engineered biosynthesis of aromatic polyketides.     

科尔沁沙地东部农牧交错带土地承载力研究--以科尔沁左翼后旗为例

科尔沁左翼后旗位于科尔沁沙地东部农牧交错带,生态环境复杂、脆弱,资源、人口和环境的协调发展至关重要,其土地承载力状况是协调三者关系的重要依据。本文应用系统动力学原理,以1995年为起始年份建立了系统动力学模型(SD模型),包括人口、土地资源、种植业、林业、畜牧业、渔业和消费等7个子系统。选择3种人口增长速度和3种营养水平组成9种方案,通过模型的运行预测了科左后旗未来50年人口的动态变化和最大土地资源承载力,并对1995—2000年实际的人口发展状况和生态状况进行了讨论。研究显示,科左后旗土地承载力46．7l—74．5l万人,不同的方案达到最大承载力的时间不同,指出控制人口增长是实现经济环境协调发展的必要条件,科左后旗的实际人口增长控制较好,现有的环境问题是不合理的开发活动造成的。     

Elongator function in tRNA wobble uridine modification is conserved between yeast and plants

Based on studies in yeast and mammalian cells the Elongator complex has been implicated in functions as diverse as histone acetylation, polarized protein trafficking and tRNA modification. Here we show that Arabidopsis mutants lacking the Elongator subunit AtELP3/ELO3 have a defect in tRNA wobble uridine modification. Moreover, we demonstrate that yeast elp3 and elp1 mutants expressing the respective Arabidopsis Elongator homologues AtELP3/ELO3 and AtELP1/ELO2 assemble integer Elongator complexes indicating a high degree of structural conservation. Surprisingly, in vivo complementation studies based on Elongator‐dependent tRNA nonsense suppression and zymocin tRNase toxin assays indicated that while AtELP1 rescued defects of a yeast elp1 mutant, the most conserved Elongator gene AtELP3, failed to complement an elp3 mutant. This lack of complementation is due to incompatibility with yeast ELP1 as coexpression of both plant genes in an elp1 elp3 yeast mutant restored Elongator's tRNA modification function in vivo. Similarly, AtELP1, not ScELP1 also supported partial complementation by yeast–plant Elp3 hybrids suggesting that AtElp1 has less stringent sequence requirements for Elp3 than ScElp1. We conclude that yeast and plant Elongator share tRNA modification roles and propose that this function might be conserved in Elongator from all eukaryotic kingdoms of life.     

Systematically Constructing Kinetic Transition Network in Polypeptide from Top to Down: Trajectory Mapping

Molecular dynamics (MD) simulation is an important tool for understanding bio-molecules in microscopic temporal/spatial scales. Besides the demand in improving simulation techniques to approach experimental scales, it becomes more and more crucial to develop robust methodology for precisely and objectively interpreting massive MD simulation data. In our previous work [J Phys Chem B 114, 10266 (2010)], the trajectory mapping (TM) method was presented to analyze simulation trajectories then to construct a kinetic transition network of metastable states. In this work, we further present a top-down implementation of TM to systematically detect complicate features of conformational space. We first look at longer MD trajectory pieces to get a coarse picture of transition network at larger time scale, and then we gradually cut the trajectory pieces in shorter for more details. A robust clustering algorithm is designed to more effectively identify the metastable states and transition events. We applied this TM method to detect the hierarchical structure in the conformational space of alanine-dodeca-peptide from microsecond to nanosecond time scales. The results show a downhill folding process of the peptide through multiple pathways. Even in this simple system, we found that single common-used order parameter is not sufficient either in distinguishing the metastable states or predicting the transition kinetics among these states.     

Female reproductive success decreases with display size in monkshood, Aconitum kusnezoffii (Ranunculaceae)

Background and Aims

Reduction in female fitness in large clones can occur as a result of increased geitonogamous self-fertilization and its influence through inbreeding depression. This possibility was investigated in the self-compatible, bee-pollinated perennial herb Aconitum kusnezoffii which varies in clone size.

Methods

Field investigations were conducted on pollinator behaviour, flowering phenology and variation in seed set. The effects of self-pollination following controlled self- and cross-pollination were also examined. Selfing rates of differently sized clones were assessed using allozyme markers.

Key Results

High rates of geitonogamous pollination were associated with large display size. Female fitness at the ramet level decreased with clone size. Fruit and seed set under cross-pollination were significantly higher than those under self-pollination. The pre-dispersal inbreeding depression was estimated as 0·502 based on the difference in seed set per flower between self- and cross-pollinated flowers. Selfing rates of differently sized clones did not differ.

Conclusions

It is concluded that in A. kusnezoffii the negative effects of self-pollination causing reduced female fertility with clone size arise primarily from a strong early-acting inbreeding depression leading to the abortion of selfed embryos prior to seed maturation.Key words: Early-acting inbreeding depression, Aconitum kusnezoffii, clone size, female reproductive success, geitonogamy     

水稻根系响应镉胁迫的蛋白质差异表达

为探讨水稻根系对镉胁迫的分子生理响应,以抗镉水稻PI312777和镉敏感水稻IR24为材料,设置Cd~(2+)浓度为0、50和100μmol/L的水培试验,处理7 d后分析了水稻根系的蛋白质差异表达。结果表明,在镉胁迫下水稻PI312777和IR24根系有18个蛋白质发生了差异表达,其中的12个得到MALDI-TOF/MS鉴定。这些鉴定的蛋白功能可分四类:(1)与活性氧(ROS)胁迫相关的过氧化物酶(POD)、蛋氨酸腺苷转移酶(MAT)、类萌发素蛋白前体;(2)与谷胱甘肽(GSH)合成相关的S-腺苷甲硫氨酸合成酶(SAMS)、谷氨酰胺合成酶(GS)和谷氨酸脱氢酶(GDH);(3)与逆境胁迫相关的ABA胁迫诱导蛋白含HVA22域蛋白、ABA-胁迫-成熟诱导蛋白5(ASR5);(4)与细胞分裂调控相关的GTP结合核蛋白Ran-2。镉胁迫下SAMS和GTP结合核蛋白Ran-2在两种水稻根系均发生上调表达;MAT、POD、类萌发素蛋白前体和GS发生下调表达;依赖NADP-GDH、GDH和磷酸甘油酸变位酶在IR24根部均发生下调表达,在PI312777根部仅在100μmol/L Cd~(2+)处理发生下调表达;含HVA22域蛋白在PI312777根部上调表达,在IR24根部发生下调表达;ASR5在PI312777根部上调表达,在IR24根部的表达无显著差异;100μmol/L Cd~(2+)胁迫下60S酸性核糖体蛋白P0在水稻PI312777根部表达下调,在IR24根部表达上调。可见,镉胁迫使水稻根部ROS增加,形成氧化胁迫反应,造成毒害作用,而水稻根通过调节SAMS和GS提高GSH合成降低镉毒害。ASR5和HVA22蛋白等逆境胁迫蛋白的表达差异则是水稻品种间抗性差异的重要原因之一。     

Evaluation of oxygen adaptation and identification of functional bacteria composition for anammox consortium in non-woven biological rotating contactor

In this study, the anammox consortium was found to adapt to the wastewater containing dissolved oxygen (DO), as the DO was gradually increased. Batch tests indicated the maximum aerobic ammonium oxidizing activity of the consortium was 1.38mmolNH(4)(+)-N(gVSS)(-1)day(-1), which played key roles in the oxygen consumption process; the maximum anaerobic ammonium oxidizing activity was slightly decreased after long-term oxygen exposure, but only from 21.23mmolNH(4)(+)-N(gVSS)(-1)day(-1) to 20.23mmolNH(4)(+)-N(gVSS)(-1)day(-1). Microbiological community analysis identified two strains similar to Nitrosomonas eutropha were responsible for oxygen consumption, which were able to exist in the autotrophic anaerobic condition for long periods and protect anammox bacteria Planctomycetales from the influence of oxygen. Microbiological composition analysis showed Nitrosomonas and Planctomycetales approximately accounted for 10% and 70% of the bacteria, respectively. The possibility of cultivation anammox consortium in presence of DO will lead to substantial savings of energy and resource in the industrial application.