罗氏沼虾细胞色素P450家族CYP302a1基因克隆及其在蜕皮周期中的表达

蜕皮是甲壳动物重要的生理活动,与其蜕皮激素的合成密切相关,细胞色素P450(CYP)302a1是甲壳动物蜕皮激素合成通路中的关键酶之一。本研究克隆了罗氏沼虾CYP302a1基因(Mr-CYP302a1),cDNA全长1859 bp,开放阅读框(ORF)为1629 bp,编码543个氨基酸(aa),分子量大小为61.09 ku,等电点为8.42。氨基酸序列分析显示CYP302a1基因的保守结构域含有5个P450基因家族特征保守区域:heme-binding、helix-K、helixC、helix-I及PERF。系统进化分析结果显示Mr-CYP302a1首先与绿虾CYP302a1聚为一支,然后与凡纳滨对虾及三疣梭子蟹等十足目甲壳动物的CYP302a1聚为一支,与甲壳动物的亲缘关系最近。实时荧光定量PCR(qRT-PCR)检测表明Mr-CYP302a1在罗氏沼虾的多个组织中均有表达,其中在Y器官中的表达量最高,性腺中次之。同时研究发现,MrCYP302a1基因在罗氏沼虾的蜕皮后期(A期和B期)表达量很低,蜕皮间期(C期)表达量开始上升,在蜕皮前期D1亚期达到峰值。对Mr-CYP302a1进行蛋白表达及多克隆抗体制备,蛋白印迹法(Western blot,WB)检测表明Mr-CYP302a1蛋白在罗氏沼虾Y器官中的表达量最高,在蜕皮过程中的蜕皮前期D1亚期达到峰值。综上所述,该基因在罗氏沼虾的蜕皮过程中扮演着十分重要的角色。     

鸡细菌性腹泻防治

我国从古至今都是农业大国,在经济体制改革的推动下,我国工业发展迅猛的情况下,农业依旧是我国的产业支柱,对促进我国经济发展有极大帮助。养殖业是农业的重要部分,而养殖业中,鸡养殖有占据极大比例,且其规模也在不断扩大。近年,鸡的一些疾病发病率逐渐增加,其中细菌性腹泻是常见的1种,会影响鸡群身体健康与生长发育,甚至会导致其死亡,危害极大,给养殖户乃至养殖产业造成极大的经济损失,做好鸡细菌性腹泻预防与治疗工作尤为重要。该文对鸡细菌性腹泻的特点进行探讨,并提出一些防治措施。     

Clostridium bifermentans and C. subterminale are associated with kiwifruit vine decline,known as moria,in Italy

Since 2012, a new pathogenic syndrome has frequently been observed in many areas of kiwifruit cultivation in Italy. The main symptoms include an initial withering of the leaves followed by a total and sudden collapse of plants, mainly occurring during summer. The withered leaves fall and the main and secondary feeder roots appear rotten, sometimes showing a reddish-brown discoloration. The disease, that affects both the green and yellow-fleshed cultivars, has been called kiwifruit vine decline and is locally known as moria. The syndrome has been found consistently associated with soil waterlogging, which frequently occurs either after the traditional agronomical practice of irrigating orchards through surface irrigation or after very heavy rainfall. So far, the role played by bacteria in this syndrome has not been investigated. In the present study, Clostridium spp. were isolated from both rotten roots and soils obtained from Italian kiwifruit orchards affected by the syndrome, indicating for the first time that anaerobic bacteria are able to cause damage to woody crops. C. bifermentans and C. subterminale incited symptoms in kiwifruit in both in vivo and in vitro pathogenicity tests. Soil waterlogging seems to potentially favour colonization of kiwifruit roots by anaerobic bacteria, probably because saturation of the soil can facilitate proliferation and persistence of these bacteria during long periods of the vegetative growth of the crop. The occurrence of anaerobic bacteria does not exclude the possibility that other microorganisms can play additional/synergic role(s) in causing the kiwifruit vine decline.     

‘新海16’愈伤组织诱导及白霜的优化

为获得高品质、活力旺盛且具有分化能力的愈伤组织,本研究在已建立的海岛棉(Gossypium barbadense)‘新海16’再生体系基础上,以MSB附加0.1 mg/L 2,4-D及0.1 mg/L KT为基本培养基,采用单因素随机试验研究外植体不同部位、光照及培养基成分等对‘新海16’愈伤组织诱导的影响。结果表明:‘新海16’愈伤诱导的外植体选用下胚轴中上部绿色茎段诱导效果较优;除此之外,愈伤诱导效果最佳的处理为2 000 lx光照强度、90%MSB无机盐成分、3 g/L PVP及1.2~1.4 g/L Gelrite或Phytagel,均能够降低愈伤组织出现白霜现象,对愈伤组织疏松生长有促进作用。本研究通过优化愈伤组织的诱导方法,提高胚性愈伤组织发生率,为‘新海16’高频再生体系提供科学依据。     

盐度对珍珠龙胆石斑鱼幼鱼渗透调节与耗氧率的影响

为研究盐度对珍珠龙胆石斑鱼（）渗透调节与耗氧率的影响，设计实验一，将（162.5±12.1）g珍珠龙胆石斑鱼置于不同盐度（6、12、18、24、30）下养殖10 d，测定血清渗透压及Na⁺、Cl^-、K⁺离子浓度。实验结果表明，随盐度的升高血清渗透压及Na⁺、Cl^-、K⁺离子浓度也随着升高，各组[Na⁺]：[Cl^-]比值无显著差异（>0.05）；经回归分析得到血清等渗点渗透压为365.95 mOsm/kg，所对应盐度为12.75。实验二，将（26.4±2.7）g幼鱼置于不同盐度（6、12、18、24、30）下养殖30 d，测定在开始暴露后0 h、3 h、24 h、72 h鳃Na⁺/K⁺-ATPase活性及表达和第30天耗氧率，结果表明鳃Na⁺/K⁺-ATPase活性随盐度的增大呈“U”形变化；鳃Na⁺/K⁺-ATPase α1基因表达量波动较大，在72 h后随盐度增大先降低后增加，变化趋势与酶活性一致；第30天耗氧率随盐度的增加先降低后增加又降低。综上所述，珍珠龙胆石斑鱼幼鱼10 d内能够完全适应6~30盐度急性变化，耗氧率除了受离子渗透调节的影响，还可能与其生活史阶段有关。     

Met基因在黏虫生殖中的功能分析

保幼激素(juvenile hormone, JH)是由咽侧体分泌的倍半萜类化合物,可以调控昆虫的很多生理过程,如发育、变态、生殖等。作为bHLH-PAS(helix-loop-helix-Per-ARNT-Sim)转录因子家族成员之一的methoprene-tolerant (Met)是JH的受体,在JH的信号传导过程中有非常重要的作用。本研究通过实时荧光定量PCR结合RNAi技术测定了沉默Met基因后黏虫Mythimna separata的Vg基因表达、卵巢发育和生殖行为,旨在探究Met基因在黏虫生殖过程中的功能。结果表明当Met基因沉默后,与卵巢发育密切相关的卵黄原蛋白(vitellogenin, Vg)基因表达量下调了50%,从而显著抑制了卵巢发育,并导致产卵显著延迟、产卵历期显著缩短,产卵量显著下降。结果表明Met基因是黏虫生殖发育过程中的关键受体基因,它通过调节后续Vg的表达和沉积,来达到控制卵巢发育,从而调控生殖作用。     

甘蓝型油菜种子萌发期耐铝毒特性综合评价及其种质筛选

种子萌发是油菜植株形态建成的重要阶段,铝毒是酸性土壤中影响其种子萌发的主要因素之一,因此筛选出种子萌发过程中耐铝毒种质对油菜生产及研究具有重要意义。本研究利用5份甘蓝型油菜品种(系)筛选出油菜萌发期耐铝毒种质资源处理的适宜胁迫浓度为90μg mL~(-1)。并以该浓度处理148份甘蓝型油菜品种(系)种子,于萌发期测定其发芽势、发芽率、鲜重、干重、根长和芽长等指标,通过铝毒胁迫耐性综合评价值(A值)、平均隶属函数值(ASF值)、对铝毒加权耐性系数(WAC值)、相关性、频数、主成分、灰色关联度、聚类和逐步回归分析等鉴定萌发期耐铝性,建立萌发期对铝毒耐性综合评价模型并筛选出适宜的评价鉴定指标。结果表明, 148份甘蓝型油菜的萌发期各指标在品种(系)间存在显著差异;筛选出萌发期耐铝毒甘蓝型油菜品种(系) 01188、WH-20、A109、甲预31棚等。根据灰色关联度及回归分析结果认为,在油菜萌发期测定其根长、芽长、鲜重、发芽率和发芽势,通过回归方程估算其A值,可以初步判断甘蓝型油菜种质的耐铝毒特性。     

利用SOM聚类分析及主成分分析方法鉴定小麦品种萌发期耐盐性

为了研究不同小麦品种萌发期的耐盐性,为小麦萌发期耐盐性鉴定提供快速、准确的鉴定方法和理论依据。本研究以40个冬小麦品种为试验材料,通过主成分分析法(PCA)与神经网络自组织映射(SOM)聚类分析法,研究盐胁迫对40个小麦品种萌发期各项形态指标的影响。主成分分析法结果表明,发芽势、发芽率、最长根长、第一片叶长及胚芽鞘长在PCA下载荷量最大;根据SOM聚类分析结果,‘德抗961’等4个小麦品种属于高度耐盐品种,‘济麦22’等14个小麦品种属于耐盐性品种,‘济麦20’等16个品种属于中等耐盐性品种,‘鲁麦21’等6个小麦品种属于盐敏感性品种。发芽势、发芽率、最长根长、第一片叶长、胚芽鞘长能够作为萌发期小麦耐盐性筛选的主要评价指标,并且结合主成分、SOM聚类分析方法进行小麦萌发期耐盐性鉴定更为科学、方便。     

东晋南朝庐江何氏家学与家风述论

东晋南朝庐江何氏家族是安徽地域境内传统文化世家，在注重文化传家的成长道路上，形成了具有自身品格的家学与家风。庐江何氏家学实践以佛教文化、玄学、儒学为主要内容，不同时期各有侧重，终呈现综合交融的趋势，其家学之影响在与主流文化的互动中得以彰显。庐江何氏家风以“清身洁己”为外在特征，在长期的家学实践中不断丰富自身内涵，何氏家风为其文化型士族成长、争取社会政治利益起到了重要的潜在作用。     

Thresholds,sensitive stages and genetic variability of finger millet to high temperature stress

Finger millet [Eleusine coracana (L.) Gaertn.] is an important coarse cereal crop grown in the arid and semi‐arid regions and often experiences high temperature (HT) stress. The objectives of this research were (i) to quantify effects of season‐long HT stress on physiological and yield traits, (ii) to identify the developmental stages most sensitive to HT stress and (iii) to quantify the genetic variability for HT stress tolerance in finger millet. Research was conducted in controlled environment conditions. HT stress decreased the chlorophyll index, photosystem II activity, grain yield and harvest index. Maximum decrease in number of seeds per panicle and grain yield per plant was observed when stress was imposed during booting, panicle emergence or flowering stages. Maximum genotypic variation was explained by panicle width and number of seeds per panicle at optimum temperature (OT) and grain yield per plant at HT and number of seeds at HT. Based on the stress response and grain yield, tolerant or susceptible genotypes were identified. Finger millet is sensitive to HT stress during reproductive stages, and there was genotypic variability among the finger millet genotypes for number of seeds per panicle and grain yield under HT, which can be exploited to enhance stress tolerance.