绵羊卵泡发育过程中关键信号通路研究进展

卵泡从原始卵泡发育为成熟卵泡，直至排卵、黄体发育等过程都受到精密的调控，产生大量的优势卵泡是绵羊产多羔及实现快速扩繁的关键因素。研究发现，相关信号通路和转录因子通过影响绵羊卵泡中卵母细胞、颗粒细胞的生长，进而调控卵泡的发育成熟，对这些信号通路进行深入了解，有助于探索卵泡发育的调控机制，早日实现绵羊高效繁育。Notch是卵泡发育过程中发挥重要作用的高度保守信号通路，PI3K/AKT/mTOR信号通路各成员都是广泛存在于细胞内的信号转导分子，在卵泡发育早期发挥了主要作用，还有间隙连接（gap junction，GJ）和跨带突触（transzonal projections，TZPs）等物理连接方式，在细胞间的交流通讯起到重要作用。作者详细介绍了Notch信号通路、PI3K/AKT/mTOR信号通路、间隙连接及跨带突触的结构功能在绵羊卵泡发育中的调控作用，为进一步探明绵羊卵泡发育的调控机制提供参考。     

PRKAG3基因在不同品种猪不同生长阶段骨骼肌中的表达差异及其表达量与肉质的关系

本试验中旨在比较PRKAG3基因在不同品种猪不同生长阶段骨骼肌中的表达差异,并探讨PRKAG3基因与肉质的关系。挑选15 kg左右的汉普夏阉公猪17头和长撒阉公猪16头,饲喂相同饲粮,当体重分别达到20和50 kg时,2个品种的猪分别屠宰5头,体重达到100 kg时分别屠宰7和6头。各生长阶段屠宰后均测定骨骼肌pH、肌糖原含量以及PRKAG3基因表达量,且在100 kg阶段屠宰后同时测定肉质性状。结果表明:1)在不同生长阶段长撒猪骨骼肌中PRKAG3基因的表达量均高于汉普夏猪,特别是在100 kg阶段,长撒猪骨骼肌中PRKAG3基因的表达量是汉普夏猪的6.81倍(P0.05)。长撒猪与汉普夏猪骨骼肌中PRKAG3基因的表达量均随体重的增加而增加,但汉普夏猪不同生长阶段PRKAG3基因的表达量差异不显著(P0.05),而长撒猪PRKAG3基因的表达量在100 kg阶段时显著高于20和50 kg阶段时(P0.05)。2)汉普夏猪和长撒猪的肉质存在差异。汉普夏猪的滴水损失和失水率显著高于长撒猪(P0.05),而熟肉率、黄度(b)值极显著低于长撒猪(P0.01),剪切力和pH2(屠宰后24 h的pH)显著低于长撒猪(P0.05)。与长撒猪相比,汉普夏猪具有较高的肌糖原含量(P0.05)。3)猪骨骼肌中PRKAG3基因的表达量与肉质的相关性存在品种效应。汉普夏猪骨骼肌中PRKAG3基因表达量与滴水损失呈正相关,与熟肉率呈负相关,与pH2呈显著负相关(P0.05)。长撒猪骨骼肌中PRKAG3基因表达量与滴水损失和失水率呈正相关,与pH2呈负相关。上述结果表明,猪骨骼肌中PRKAG3基因具有品种和生长阶段表达差异;猪骨骼肌中PRKAG3基因的表达量与肉质性状相关,特别是与pH2,二者呈显著负相关。     

基于Cortex-M4内核的μCOS-Ⅱ移植

针对TI公司新推出的基于Cortex-M4内核的TM4C123G高性能低功耗芯片,详细介绍了嵌入式开源实时操作系统μCOS-Ⅱ在芯片上的移植方法。根据移植的需求,首先介绍了芯片的一些基本功能以及相关的软件开发环境,然后结合芯片的固有特性以及μCOS-Ⅱ移植的需求,使用C语言和汇编语言修改了相关的源文件,并详细阐述了修改的原因。     

三维可视化平台下建模分析以及数据的交换——以广州大学为例

使用了三维GIS技术对区域建筑进行虚拟,首先采用ArcGIS to SketchUP6Plugin插件将具有空间参考坐标的广州大学建筑楼的地理数据导入SketchUP,在其中建立带有贴图的精细的广州大学建筑三维模型,最后将三维模型导回Arcscene中进行三维显示及分析。     

基于Unity3d的桂林七星公园全景导航系统

信息可视化技术的使用已经在生活中获得广泛的使用,并且已经在用户中获得了广泛的使用,而将信息可视化技术与三维建模技术结合是近几年来一个新的突破点。本文将介绍如何基于桂林七星公园数字化,并且如何移植到相关移动平台上。该系统主要基于Unity3d平台搭建,结合3dsmax建模技术和使用Ecplips作为开发环境开发的Android技术建立一个方便用户快捷、高速的可视化旅游景区的全景导航系统。     

纳米Al_2O_3改性水性木器漆耐磨性和硬度的研究

为提高水性聚丙烯酸酯木器漆的耐磨性和硬度,进行纳米Al2O3浆料的制备及其对水性木器漆改性的研究,探讨分析不同制备方法和Al2O3添加量对漆膜耐磨性和硬度的影响。结果表明:以聚丙烯酰胺为分散剂、聚乙二醇和辛基酚聚氧乙烯醚为润湿剂、聚乙烯吡咯烷酮为稳定保护胶,在高速搅拌下制成的纳米Al2O3浆料,在透射电镜下观察发现纳米Al2O3颗粒分布均匀,具有良好的分散性;在不影响漆膜透明度的情况下,漆膜耐磨性和硬度随Al2O3添加量增加得到提高,添加量在1.5%时漆膜具有较好的耐磨性和硬度;纳米杂合工艺法的漆膜耐磨性和硬度优于后添加法制备的水性木器漆涂膜。     

Preliminary study of endocytosis-related gene mRSD-9

AIM: To study the function of the gene mRSD-9 . METHODS: The techniques of immunoprecipitation and immunofluorescence were applied to verify the interaction between mRSD-9 and endophlin 3. The ATP/GTP combined experiment and the clathrin releasing experiment were conducted to investigate the effect of mRSD-9 on endocytosis. RESULTS: Expressed Myc-mRSD-9 was precipitated by Flag-endophilin 3. Conversely, the expressed Flag-endophilin 3 was also precipitated by Myc-mRSD-9. Under laser scanning confocal microscope, mRSD-9-GFP fusion protein and endophilin 3-RFP fusion protein were observed to co-localize in CHO cells. The combination of mRSD-9 protein with ATP/GTP was found and was specific because no combination was detected using mutant ΔmRSD-9. In empty vector transfected group, the quantity of transferrin in red fluorescent expressed cells was roughly the same as the untransfected cells. In pDsRed1-N1-mRSD-9 transfected group, the quantity of transferrin in mRSD-9 protein expressed cells was obviously reduced. In pDsRed1-N1-ΔmRSD-9 transfected group, the quantity of transferrin in ΔmRSD-9 protein expressed cells was significantly increased. CONCLUSION: The protein coded by mRSD-9 gene can suppress endocytosis of transferrin.     

毛竹珍稀新栽培变种——绿槽龟甲竹

描述了毛竹的1个新栽培变种——绿槽龟甲竹。其竹秆下部一段的节交互歪斜,上下节在一侧相连,而节间在另一侧偏肿呈龟甲状,竹秆黄色,且龟甲状秆对称绿色纵条纹,分枝一侧纵沟槽绿色,叶片有淡黄色细纵条纹。     

The Influence of Carbon Dioxide or Ozone Concentration on Growth and Assimilate Partitioning in Seedlings of Nine Conifers

Abstract

Seedlings of nine different conifers were exposed to 355 and 730 μmol mol-1 CO₂, or low (> 15 nmol mol^?1) and elevated 0₃ concentration (70 nmol mol^?1) for 81–116 days. The experiments were conducted in growth chambers placed in a greenhouse. Increased CO₂ concentration enhanced the mean relative growth rate (RGR) and total plant dry weight by 4 and 33% in Larix leptolepis, by 4 and 38% in Larix sibirica, by 7 and 47% in Picea glauca and by 3 and 16% in Picea sitchensis, respectively. The growth rates and dry weights of Pimis contorta, Pinus mugo and Pseudotsuga menziesii were not significantly affected. Carbon dioxide enrichment enhanced RGR of two provenances of Picea abies by 4 and 6%, respectively, while a third provenance was unaffected. In Pimis sylvestris, only the RGR of one of three provenances was stimulated by CO₂ enrichment (4%).

After two growth seasons CO₂ enrichment enhanced RGR and total plant dry weight by 11 and 35% in Picea abies and by 12 and 36% in Pinus sylvestris, respectively. Elevated CO₂ decreased the shoot:root ratio in Larix leptolepis, and decreased the needlerstem ratio in Picea glauca, but increased it in Pseudotsuga menziesii.

Elevated O₃ significantly decreased the plant dry weight in Picea sitchensis, Pseudotsuga menziesii and in one of three provenances of Pinus sylvestris, while the other species and provenances were unaffected. Increased O₃ concentration increased the shoot:root dry weight ratio in one of three Picea abies provenances, in all three Pinus sylvestris provenances and in Pinus contorta. The needle:stem ratio was enhanced by O₃ in seven of the nine species. The O₃ exposure caused chlorosis of needles in all species except Pseudotsuga menziesii.