一种适合稻区紫云英生产实际的紫云英加工调制方式

将紫云英鲜草分离为草汁、细渣、纤维状渣；以粉状能量精料为载体吸收汁液；3种制品都以晾晒的方式进行干燥。晾晒时，3种制品综合占场面积较原草减少近90％；3种制品均可在一个晴日内风干，比原草干燥速度提高一倍余；细渣品质与国标一级苜蓿草粉相当；“二次拌汁料”、“三次拌汁料”之粗蛋白、粗纤维含量符合生长肥育猪饲养标准；加工方式切合稻区紫云英生产实际及产区综合条件，有推广价值，且易推广。     

国产MJ3210小型木工跑车带锯机锯解正交试验分析

采用正交试验设计法，对国产MJ3210小型木工跑车带锯机的锯解质量进行研究。通过实测马尾松锯材尺寸偏差、表面粗糙度等参数，得到其最佳的进料速度、锯解厚度和锯卡高度的组合方案。结果表明，该设备具有结构简单、出材率高、锯解精度高、质量好、成本低和生产效率高等优点。     

结核分枝杆菌分泌蛋白ESAT-6、CFP10基因的克隆、鉴定及其原核表达

以人型结核分枝杆菌 H37RV株基因组 DNA为模板 ,应用 PCR法对 ESAT- 6和 CFP10基因进行扩增 ,产物经纯化后与载体 PMD18- T连接、转化及酶切鉴定 ,亚克隆到原核表达载体 PGEX- 6 P- 1,构建原核重组表达质粒 ,转化入大肠杆菌 BL2 1中 ,以 1mmol/L IPTG诱导 ,进行 SDS- PAGE电泳。结果表明 ,ESAT- 6和 CFP10基因表达的融合蛋白相对分子质量分别为 32 0 0 0和 36 0 0 0 ,与实测相符。重组结核杆菌分泌蛋白 ESAT- 6和 CFP10的成功表达为结核病诊断及重组疫苗的构建打下了基础     

高速公路边坡防护体系的建植养护

在对广东省普惠高速公路边坡生物防治体系——护坡草皮的建植和养护过程中，就草种选择、建植方式和质量监控等问题进行了讨论并提出建议，旨在提高我国高速公路边坡防护体系草皮的建植和养护水平。     

天津市校园快递智能管理系统

随着电子商务的普及化,快递行业飞速发展,快递“最后一公里”的问题成为快递业迅速发展的瓶颈,笔者以天津市高校为研究对象,通过对高校快递问题的分析总结,提出了一些对目前校园里现有的快递智能管理系统的改善建议.     

一种新颖的阳离子非病毒基因载体 Chitosan-g-PEI-g-PEG-OH 的性能研究

研究了新型阳离子聚合物Chitosan-g-PEI-g-PEG-OH的性能，重点考察其粒度，基因转染效率与细胞毒性，探讨了其作为基因载体的可能性.通过动态光散射仪（DSL）、透射电镜（TEM）观察了Chitosan-g-PEI-g-PEG-OH与DNA自组装形成的颗粒形态及粒径，Chitosan-g-PEI-g-PEG-OH可复合DNA形成粒径160～210 nm的纳米复合物，适合进入细胞.使用MTT比色法分析Chitosan-g-PEI-g-PEG-OH的毒性并与PEI，PEI-g-PEG-OH比较.选用增强型绿色荧光蛋白(EGFP) 转染Hela细胞，应用流式细胞术检测转染效率.新型阳离子多聚物Chitosan-g-PEI-g-PEG-OH在提高基因转染效率的同时降低了其细胞毒性，有望成为基因转移的有效载体.     

Carrier rate of the c.235G>C mutation in the bovine isoleucyl-tRNA synthetase (IARS) gene of Japanese Black cows at Kagoshima prefecture, Japan,and analysis of the metabolic profiling and reproductive performance of heterozygous cows

Bovine isoleucyl-tRNA synthetase (IARS) disorder, a major cause of weak calf syndrome, is caused by a homozygous missense (c.235G>C) mutation in the bovine IARS gene of Japanese Black (JB) cattle, which was identified in 2013. However, the extent to which the carrier rate has changed at Kagoshima prefecture, Japan, and whether the carrier status is associated with any clinical or reproductive problems, have yet to be ascertained. In this study, using a real-time polymerase chain reaction-based genotyping assay, we determined the carrier rate in a regional JB cow population at Kagoshima prefecture. Comparative analyses were performed on the metabolic profile test (MPT) results and reproductive performance data obtained for heterozygous carrier and homozygous wild-type cows. In 2009 and 2018, DNA samples were collected from 130 and 462 clinically healthy JB cows, respectively, in Kagoshima prefecture. MPT results and reproductive performance data were evaluated for 62 cows, comprising four heterozygous carriers and 58 wild-type cows. Genotyping revealed that the carrier rate was 6.9% in 2009 and 1.5% in 2018, the difference of which was statistically significant (P<0.005). There were no statistically significant differences between the carrier and wild-type cows with respect to either MPT results or reproductive performance, indicating that the carrier cows have necessary IARS activity to maintain minimal health and reproductive potential.     

解淀粉芽孢杆菌GB58对水稻纹枯病的防效及菌剂载体筛选

旨在对解淀粉芽孢杆菌GB58在水稻纹枯病上的盆栽防治效果和最佳菌剂载体进行研究,明确其应用前景。采用盆栽试验测定GB58对水稻纹枯病的病斑高率和在水稻上的定殖能力,测定GB58在菌剂固定载体的吸附能力和吸附稳定性。盆栽试验结果表明,GB58在水稻病株上有良好的定殖效果,定殖数最大达到2.22×10⁷ cfu/g。与喷施井冈霉素处理相比,GB58对水稻纹枯病的防效在病害发生后20、40天分别显著提高了20%、24%。GB58在固体菌剂吸附载体的研究表明：结合菌体吸附量、存活率和抑菌活性进行分析,有机载体吸附效果好于无机载体;同时综合考虑应用价值,选择玉米粉、有机肥为菌剂吸附载体较好。GB58对水稻纹枯病具有较好的生防效果。采用玉米粉和有机肥作为固体菌剂吸附载体,具有经济、高效的特点,有较大的应用价值与开发潜力。     

电化学酶传感器在有机磷农药残留检测中的应用

从识别有机磷农药的酶及识别机理、酶的固定化技术、酶固定化载体等不同角度,综述了有机磷农药电化学酶传感器的研究概况,并展望了其发展前景。     

Vectorizing agrochemicals: enhancing bioavailability via carrier‐mediated transport

Systemicity of agrochemicals is an advantageous property for controlling phloem sucking insects, as well as pathogens and pests not accessible to contact products. After the penetration of the cuticle, the plasma membrane constitutes the main barrier to the entry of an agrochemical into the sap flow. The current strategy for developing systemic agrochemicals is to optimize the physicochemical properties of the molecules so that they can cross the plasma membrane by simple diffusion or ion trapping mechanisms. The main problem with current systemic compounds is that they move everywhere within the plant, and this non‐controlled mobility results in the contamination of the plant parts consumed by vertebrates and pollinators. To achieve the site‐targeted distribution of agrochemicals, a carrier‐mediated propesticide strategy is proposed in this review. After conjugating a non‐systemic agrochemical with a nutrient (α‐amino acids or sugars), the resulting conjugate may be actively transported across the plasma membrane by nutrient‐specific carriers. By applying this strategy, non‐systemic active ingredients are expected to be delivered into the target organs of young plants, thus avoiding or minimizing subsequent undesirable redistribution. The development of this innovative strategy presents many challenges, but opens up a wide range of exciting possibilities. © 2018 Society of Chemical Industry