人类免疫缺陷病毒/丙型肝炎病毒混合感染者免疫细胞和肝生化指标的分析

目的 探讨人类免疫缺陷病毒/丙型肝炎病毒(HIV/HCV)混合感染者的免疫淋巴细胞亚群和肝脏生化指标的特征。方法 检测并分析研究组(40例混合感染HIV/HCV的血友病患者)和对照组(12例单独感染HIV的血友病患者)若干相关实验室指标。结果两组(研究与对照)结果 差异显著的指标分别为:自然杀伤(NK)细胞9.26%±5.98%对12.19%±5.80%,P<0.05;CD4/CD8细胞比值0.39±0.21对0.53±0.24,P<0.05;CD3细胞74.99%±10.33%对68.42%±8.82%,P<0.05;CD8细胞52.28%±12.59%对43.58%±10.99%,P<0.05;丙氨酸氨酶(ALT)(48.59±40.21)U/L对(26.87±27.23)U/L,P<0.01;天冬氨酸转氨酶(AST)(61.66±51.02)U/L对(34.17±30.24)U/L,P<0.001;谷氨酰转肽酶(GGT)(136.50±111.50)U/L对(43.88±36.17)U/L,P<0.001;甘胆酸(CG)(683.41±962.22)μg/L对(250.96±290.81)μg/L,P<0.001;透明质酸(HA)(180.94±196.69)ng/ml对(64.68±32.74)ng/ml,P<0.001;白/球蛋白(A/G)比值1.35±0.24对1.50±0.34,P<0.05。与单独HIV感染者比较,HIV/HCV混合感染者的NK细胞、CD4/CD8细胞比值和A/G比值显著降低,而ALT、AST、GGT、CG和HA的水平显著增加。结论 HIV/HCV混合感染可能加剧患者淋巴细胞亚群的不平衡,加重肝脏损伤和出现肝硬化趋势。     

Single-Atom Immobilization Boosting Oxygen Redox Kinetics of High-Entropy Perovskite Oxide Toward High-Performance Lithium-Oxygen Batteries

Understanding and modulating the unique electronic interaction between single-metal atoms and high entropy compounds are of great significance to enable their high-efficiency oxygen electrocatalysis for aprotic lithium-oxygen (Li-O₂) batteries. Herein, a novel bi-functional electrocatalyst is for the first time created by immobilizing single-atom ruthenium (Ru) on lanthanum-based high entropy perovskite oxide La(Mn_0.2Co_0.2Fe_0.2Ni_0.2Cr_0.2)O₃ (Ru@HEPO), which demonstrates high activity and stability in Li-O₂ batteries. The heteronuclear coordination between single-atom Ru and HEPO facilitates fast electron transfer from Ru to HEPO by establishing Ru-O-M (M stands for Mn, Co, Fe, Ni) bridges, which well redistributes electrons within the Ru@HEPO hence significantly improving its interfacial charge transfer kinetics and electrocatalytic activity. Additionally, the strong electron coupling between Ru and Mn atoms enhances the hybridization between Mn 3d and O 2p orbitals, which promotes the inherent affinity of Ru@HEPO toward the LiO₂ intermediate, thereby reducing the reaction energy barrier of the oxygen electrode. As a result, the Ru@HEPO-based Li-O₂ batteries deliver remarkable electrochemical performances, such as high energy efficiency (87.3% at 100 mA g⁻¹), excellent rate capability (low overpotential of 0.52 V at 100 mA g⁻¹) and durable cyclability (345 cycles at 300 mA g⁻¹). This work opens up a promising avenue for the development of high entropy-based electrocatalysts for Li-O₂ batteries by precisely tailoring the electronic distributions at an atomic scale.     

界面发酵红曲霉的图像解析*

利用计算机视觉技术研究了红曲霉界面发酵过程中菌体形态变化与菌体生长的关系。在界面培养中通过检测前期菌落面积,后期隆起部分的表征体积——基于颜色变化的生长点分布,可以有效表示菌体生长状况。基于此建立了含有相应形态参数的动力学模型,该模型与常规动力学模型具有相似的表达形式。     

Polymorphism in the structure of the yeast mitochondrial tRNA synthesis locus.

Yeast mitochondrial DNA contains a genetic locus, called the tRNA synthesis locus, which codes for information necessary for mitochondrial tRNA biosynthesis. A 9S RNA molecule coded by this locus is thought to be the trans-acting element required for the removal of 5' extensions from tRNA precursors. The DNA coding for this RNA maps to a region of mitochondrial DNA known to contain strain specific restriction site polymorphisms. Comparison of the tRNA synthesis locus in two such strains by sequence analysis demonstrates that the restriction enzyme polymorphisms are due to the deletion/insertion of a 50 base pair GC-rich element in the 5' flanking sequence of the 9S RNA coding region. There are also several differences between the 9S RNA coding region of these two strains which do not interfere with the tRNA synthesis function.     

腺苷产生菌Xn151菌株的选育及发酵条件研究

以肌苷产生菌枯草杆菌GMI-741(Ade~(--))为出发菌株,通过多因子诱变选育出具有黄嘌呤、鸟嘌呤双重营养缺陷型、丧失腺嘌呤脱氨酶的腺苷产生菌Xn151。以Xn151为发酵菌株,采用正交实验设计法对其发酵基础培养基进行优化,确定最佳发酵配方。利用此培养及配方摇瓶发酵72h,腺苷产量可达12.3g/L。     

玉米根系分布空间和空间密度分布的数学模型

应用重积分研究了土壤层中散根型和直根型玉米根系的分布空间,同时研究了玉米根系的空间密度分布．