下辽河平原降雨中氮素的动态变化

为了了解降雨中氮对农田生态系统的影响,分析了2004-2006年下辽河平原连续3年定位收集的降雨观测资料与历史资料.结果表明:降雨中氮输入量季节变化显著,夏季最高,这主要与降雨量及空气中NH4 -N浓度变化有关;降雨中DON量与NO3--N含量相当,均接近24%,是雨水中氮的重要组分;与1985年相比,近3年降雨输入到该地区农田生态系统的年氮通量已有较大提高,降雨较多的2005年输入的无机氮量更是20年前的2倍以上;2004-2006年随降雨输入农田生态系统的氮平均占可利用肥料氮的28.3%,对农田生态系统有着重要影响.     

Water loss and viability in Zizania (Poaceae) seeds during short-term desiccation

How Texas wild rice, Zizania texana, became isolated in the San Marcos River of Central Texas, hundreds of kilometres from other wild rice populations is not known. Zizania seeds are intolerant of short-term desiccation. Seeds desiccated at 14% relative humidity (RH) and 75% RH do not survive after only 5-6 d and 2-3 wk of drying. Water loss is rapid and reaches a maximum at the time of seed death due to drying. And although all Zizania seeds germinate well following a long, cold dormancy period, Z. texana seeds readily germinate in the isothermic water (22°C) of the San Marcos River and Springs without an obligate, cold dormant period. Within 30-60 d of collection, Z. texana seeds germinate in substantial numbers, unlike seeds of Z. palustris, which require a long, cold dormant period. The Texas population of Z. texana may represent a relict population of a once more widely dispersed wild rice population, since the San Marcos springs probably have never gone dry.     

Functional intracellular antibody fragments do not require invariant intra-domain disulfide bonds

Intracellular antibody fragments that interfere with molecular interactions inside cells are valuable in investigation of interactomes and in therapeutics, but their application demands that they function in the reducing cellular milieu. We show here a 2.7-Å crystal structure of intracellular antibody folds based on scaffolds developed from intracellular antibody capture technology, and we reveal that there is no structural or functional difference with or without the intra-domain disulfide bond of the variable domain of heavy chain or the variable domain of light chain. The data indicate that, in the reducing in vivo environment, the absence of the intra-domain disulfide bond is not an impediment to correction of antibody folding or to interaction with antigen. Thus, the structural constraints for in-cell function are intrinsic to variable single-domain framework sequences, providing a generic scaffold for isolation of functional intracellular antibody single domains.     

测定胸腺肽含量几种定量方法的比较

本文用凯氏定氮法、双缩脲法及福林－酚法测定了胸腺肽含量,并加以比较,说明三种方法对其含量测定没有显著差异．在实践中可以根据不同条件选择适当的方法进行实验．     

对比分析IPS e.max Press铸瓷高嵌体与普兰梅卡CADCAM系统制作的高嵌体修复后牙牙体缺损的效果

摘要 目的：本研究旨在探讨对比分析IPS e.max Press铸瓷高嵌体与普兰梅卡CADCAM系统制作的高嵌体修复后牙牙体缺损的效果。方法：以2021年8月-2022年8月我院诊治的60例（86颗）后牙牙体缺损患者为研究对象,采用随机数字表法将其分为研究组（给予普兰梅卡CADCAM系统制作的高嵌体修复）和对照组（给予IPS e.max Press铸瓷高嵌体修复）各30例,对比两组修复前及修复1年后咀嚼功能、牙龈情况、RANK、CXCL16水平、IL-6、IL-8水平,统计修复结果及美牙效果满意度。结果：（1）修复前,两组咀嚼功能比较无差异（P＞0.05）;修复1年后,研究组咀嚼功能优于对照组（P＜0.05）;（2）修复前,两组牙龈指数、菌斑指数评分比较无差异（P＞0.05）;修复1年后,研究组牙龈指数、菌斑指数评分优于对照组（P＜0.05）;（3）修复前,两组RANK、CXCL16水平比较无差异（P＞0.05）;修复1年后,研究组RANK、CXCL16水平低于对照组（P＜0.05）;（4）修复前,两组IL-6、IL-8水平比较无差异（P＞0.05）;修复1年后,研究组IL-6、IL-8水平与对照组比较（P＞0.05）;（5）修复1年后,研究组修复体边缘适合性、修复体邻面解剖形态优于对照组（P＜0.05）;两组修复体表面及边缘着色、修复体折裂与固位比较,差异不显著（P＞0.05）;（6）修复1年后,研究组美牙效果满意度优于对照组（P＜0.05）。结论：与IPS e.max Press铸瓷高嵌体相比,普兰梅卡CADCAM系统制作的高嵌体修复后牙牙体缺损的效果更佳,能够提高咀嚼功能,改善牙龈指数,提高美牙效果满意度。     

Energy dissipation is an essential mechanism to sustain the viability of plants: The physiological limits of improved photosynthesis

In bright sunlight photosynthetic activity is limited by the enzymatic machinery of carbon dioxide assimilation. This supererogation of energy can be easily visualized by the significant increases of photosynthetic activity under high CO₂ conditions or other metabolic strategies which can increase the carbon flux from CO₂ to metabolic pools. However, even under optimal CO₂ conditions plants will provide much more NADPH + H⁺ and ATP that are required for the actual demand, yielding in a metabolic situation, in which no reducible NADP⁺ would be available. As a consequence, excited chlorophylls can activate oxygen to its singlet state or the photosynthetic electrons can be transferred to oxygen, producing highly active oxygen species such as the superoxide anion, hydroxyl radicals and hydrogen peroxide. All of them can initiate radical chain reactions which degrade proteins, pigments, lipids and nucleotides. Therefore, the plants have developed protection and repair mechanism to prevent photodamage and to maintain the physiological integrity of metabolic apparatus. The first protection wall is regulatory energy dissipation on the level of the photosynthetic primary reactions by the so-called non-photochemical quenching. This dissipative pathway is under the control of the proton gradient generated by the electron flow and the xanthophyll cycle. A second protection mechanism is the effective re-oxidation of the reduction equivalents by so-called “alternative electron cycling” which includes the water-water cycle, the photorespiration, the malate valve and the action of antioxidants. The third system of defence is the repair of damaged components. Therefore, plants do not suffer from energy shortage, but instead they have to invest in proteins and cellular components which protect the plants from potential damage by the supererogation of energy. Under this premise, our understanding and evaluation for certain energy dissipating processes such as non-photochemical quenching or photorespiration appear in a quite new perspective, especially when discussing strategies to improve the solar energy conversion into plant biomass.     

Traditional Ecological Knowledge of a Riverine Forest in Turkana, Kenya: Implications for Research and Management

The present study explores traditional ecological knowledge (TEK) of Turkana pastoralists and cultivators in the context of a riverine forest in northern Kenya. The Turkwel River and its floodplain sustain a thick forest, which is used for grazing and extraction of non-timber forest products. However, sedentarisation and agricultural expansion have resulted in localised clear-felling of trees, while river damming has altered the natural flow regime. A series of structured, semi-structured, and group interviews were combined with a botanical inventory in order to assess the relevance of TEK to ecological research and forest conservation. Turkana informants gave 102 vernacular names for the 113 woody species. Of these, 85% had a domestic or pastoral use among the 105 specific uses that were described. Ethnobotanical knowledge was relatively homogenous and not related to age, gender, or source of livelihood. The informants had in-depth knowledge of some key ecological processes. The conceived threats to forest survival were primarily cultivation and permanent settlements, while the effects of river damming and livestock grazing were disputed. A claimed decline in rainfall was confirmed by official data. There is strong evidence that TEK could be used to generate hypotheses for research and to design sustainable conservation strategies. A revised version of the indigenous system of tree management should be incorporated into the official forestry policy in order to resolve future conflicts between pastoralists and cultivators.     

Bcs1p can rescue a large and productive cytochrome bc1 complex assembly intermediate in the inner membrane of yeast mitochondria

The yeast cytochrome bc₁ complex, a component of the mitochondrial respiratory chain, is composed of ten distinct protein subunits. In the assembly of the bc₁ complex, some ancillary proteins, such as the chaperone Bcs1p, are actively involved. The deletion of the nuclear gene encoding this chaperone caused the arrest of the bc₁ assembly and the formation of a functionally inactive bc₁ core structure of about 500-kDa. This immature bc₁ core structure could represent, on the one hand, a true assembly intermediate or, on the other hand, a degradation product and/or an incorrect product of assembly. The experiments here reported show that the gradual expression of Bcs1p in the yeast strain lacking this protein was progressively able to rescue the bc₁ core structure leading to the formation of the functional homodimeric bc₁ complex. Following Bcs1p expression, the mature bc₁ complex was also progressively converted into two supercomplexes with the cytochrome c oxidase complex. The capability of restoring the bc₁ complex and the supercomplexes was also possessed by the mutated yeast R81C Bcsp1. Notably, in the human ortholog BCS1L, the corresponding point mutation (R45C) was instead the cause of a severe bc₁ complex deficiency. Differently from the yeast R81C Bcs1p, two other mutated Bcs1p's (K192P and F401I) were unable to recover the bc₁ core structure in yeast. This study identifies for the first time a productive assembly intermediate of the yeast bc₁ complex and gives new insights into the molecular mechanisms involved in the last steps of bc₁ assembly.