一种快速、无损大豆种子DNA提取方法的建立和应用

基因分型是进行植物基因功能的遗传分析和分子标记辅助育种的重要环节。该研究以大豆(Glycine max)成熟种子为材料, 建立了通过钻孔采集样品、快速提取DNA进行基因型鉴定的方法。用此方法, 一个熟练的工作人员可以在1个小时内完成120个样品的采集和DNA提取; 同时种子钻孔取样后, 不会对大豆种子的萌发造成影响。利用该方法获得的DNA可满足PCR扩增的要求。实验重复性好, 成功率在98%以上。这种快速且无损的大豆种子基因型鉴定方法可以用于鉴定杂交种子、品种纯度以及遗传分析等研究工作。     

基于植物-土壤反馈的不同绿肥驯化微生物对玉米生长的影响

【背景】在农田生态系统中,土壤微生物与植物互作的机制仍不清楚。【目的】进一步加强对植物-微生物互作的认识,筛选出引起不同反馈作用的关键微生物或微生物类群。【方法】采集豆科绿肥救荒野豌豆(Vicia sativa, V)、十字花科绿肥油菜(Brassica napus, N)和荒坡土壤(remnant prairie, R)驯化的田块土壤0-20 cm作为菌剂在温室进行植物-土壤反馈(plant-soil feedback,PSF)试验。土壤菌剂的接种量为10%,即有90%理化性质一致的灭菌土壤作为背景土,同时设置灭菌土壤菌剂作为对照(CK),种植玉米。每组土壤菌剂处理均分为50 mg/kg高磷(high phosphorus,HP)和5 mg/kg低磷(low phosphorus, LP)两个磷浓度处理。玉米收获后,测定产量和植株地上部磷含量,并取土壤样品进行高通量测序,解析不同养分供给情况下微生物对作物生长的反馈效应。【结果】高磷和土壤反馈效应均促进了玉米的生长。在低磷水平下,V、N和R处理的玉米地上部生物量均高于CK处理,但N处理的玉米地上部生物量增加最多(38%),且增幅显著高...     

基于水足迹的山东省农业水土资源匹配特征及短缺压力分析

高强度农业开发引起的农业水土资源生态问题日益增多,探究粮食及蔬菜（粮蔬）生产中水土资源空间配置及短缺压力对农业资源的可持续利用具有重要意义。从水足迹视角出发,分析了山东省3种主要粮食作物（冬小麦、玉米及大豆）和两种不同种植模式蔬菜（设施蔬菜和露地蔬菜）的生产水足迹空间特征;同时将资源数量及资源质量的概念纳入研究框架,分析了农业水土资源数量及质量匹配格局差异,并进一步探究了农业水土资源短缺压力及其影响因素。研究结果表明：（1）2019年,山东省粮食和蔬菜的生产总水足迹为811亿m³,其中粮食生产总水足迹占比78.50%,蔬菜生产总水足迹占比21.50%;粮蔬生产水足迹受地势影响明显,鲁西北及鲁西南平原地区的粮蔬生产水足迹占比较大。（2）考虑资源数量的水土资源匹配系数均值为0.622×10⁴ m³/hm²,考虑资源质量的匹配系数均值为0.416×10⁴ m³/hm²;水土资源数量及质量匹配系数在空间上呈现出一致性,表明山东省农业生产水土资源空间配置水平高的地区同时面临着较大的农业面源污染压力。（3）整体上,土地资源短缺压力略高于水资源短缺压力;基于生产视角的水土资源短缺压力受生产环境因素制约显著,受经济发展因素的影响具有差异性,社会因素对水土资源短缺压力无显著影响。研究可为农业资源可持续管理提供数据基础,为全面理解粮蔬生产所产生的水土资源短缺提供案例参考。     

Research progress on the synthesis and pharmacology of 1,3,4-oxadiazole and 1,2,4-oxadiazole derivatives: a mini review

Oxadiazole is a five-membered heterocyclic compound containing two nitrogen atoms and one oxygen atom. The 1,3,4-oxadiazole and 1,2,4-oxadiazole have favourable physical, chemical, and pharmacokinetic properties, which significantly increase their pharmacological activity via hydrogen bond interactions with biomacromolecules. In recent years, oxadiazole has been demonstrated to be the biologically active unit in a number of compounds. Oxadiazole derivatives exhibit antibacterial, anti-inflammatory, anti-tuberculous, anti-fungal, anti-diabetic and anticancer activities. In this paper, we report a series of compounds containing oxadiazole rings that have been published in the last three years only (2020–2022) as there was no report or their activities described in any article in 2019, which will be useful to scientists in research fields of organic synthesis, medicinal chemistry, and pharmacology.     

高寒山区不同土地利用类型土壤养分化学计量特征及影响因素

了解高寒地区不同土地利用类型下土壤养分化学计量特征及其影响因素可为评估脆弱生态系统土壤质量和功能提供参数。通过测定青海省东部24个样点0—30 cm土壤基本理化性质(pH、容重BD、孔隙度P_s、黏粒含量C_y、土壤含水量SWC、有机碳SOC、全氮TN、全磷TP、速效氮AN和速效磷AP),并提取各样点环境因子数据(年均温MAT、年均降雨量MAP、年均蒸发量E_a、植被归一化指数NDVI、海拔ALT、坡度SG、地表粗糙度SR、经度LON和纬度LAT),分析了农、林、草三种土地利用类型下土壤养分化学计量比分布特征及其影响因素。结果表明,农地土壤有机碳SOC和全氮TN含量显著低于林地和草地(P<0.05),而全磷TP和速效磷AP含量则相反,农、林、草地速效氮AN含量无显著差异(P>0.05)。农、林、草地不同深度土壤C∶N(平均值19.93,变异系数<16%)和AN∶AP(平均值2.73,变异系数<71%)较为稳定且无显著差异(P>0.05),而农地C∶P和N∶P(平均值分别为19.27和0.99)却显...     

Excessive processing and acetylation of OPA1 aggravate age-related hearing loss via the dysregulation of mitochondrial dynamics

The pathogenesis of age-related hearing loss (ARHL) remains unclear. OPA1 is the sole fusion protein currently known to be situated in the inner mitochondrial membrane, which is pivotal for maintaining normal mitochondrial function. While it has already been demonstrated that mutations in OPA1 may lead to hereditary deafness, its involvement in the occurrence and development of ARHL has not been previously explored. In our study, we constructed D-gal-induced senescent HEI-OC1 cells and the cochlea of C57BL/6J mice with a mutated SUMOylation site of SIRT3 using CRISPR/Cas9 technology. We found enhanced L-OPA1 processing mediated by activated OMA1, and increased OPA1 acetylation resulting from reductions in SIRT3 levels in senescent HEI-OC1 cells. Consequently, the fusion function of OPA1 was inhibited, leading to mitochondrial fission and pyroptosis in hair cells, ultimately exacerbating the aging process of hair cells. Our results suggest that the dysregulation of mitochondrial dynamics in cochlear hair cells in aged mice can be ameliorated by activating the SIRT3/OPA1 signaling. This has the potential to alleviate the senescence of cochlear hair cells and reduce hearing loss in mice. Our study highlights the significant roles played by the quantities of long and short chains and the acetylation activity of OPA1 in the occurrence and development of ARHL. This finding offers new perspectives and potential targets for the prevention and treatment of ARHL.     

Unveiling The Multifunction of Beaded Stream-Like Co9Se8 Catalysts for Water Splitting,Reactive Oxygen Species Scavenging,and Hydrogen Anti-Inflammation

The electrocatalytic preparation of hydrogen at different pH values not only achieves excellent device performance but also promotes the application of reactive oxygen species (ROS) clearance and hydrogen anti-inflammation. However, it is difficult to develop materials that simultaneously achieve these excellent properties. Herein, the preparation of beaded necklace-like Co₉Se₈ microspheres using a general and facile synthetic strategy is reported. The Co₉Se₈-modified electrode has three applications: efficient water splitting for enhanced performance, ROS scavenging, and hydrogen anti-inflammatory activity. Experiments, high-angle-annular-dark-field scanning transmission electron microscopy, and density functional theory calculations indicate that the reconstructed Co(OH)₂ plays a vital role in the oxygen evolution reaction and that the transition from *O to *OOH is the actual rate-determining step. The Co₉Se₈ material, with its unique beaded necklace-like structure, exhibits exceptional hydrogen production capabilities in phosphate buffer solution (pH 7.4). In particular, hydrogen produce under neutral conditions can effectively reduce ROS levels and significantly inhibit inflammation-related pathological processes, playing a unique antioxidant and anti-inflammatory role at the cellular level. The obtained results indicate that the as-synthesized Co₉Se₈ is more suitable for water splitting, ROS scavenging, and hydrogen anti-inflammatory applications, outperforming other transition metal electrodes and rendering practical industrial and clinical applications.