抗FLAG标签抗体在植物中的高效表达

植物生物反应器是一种新兴的重组蛋白表达系统,是分子农业的核心内容之一。本研究在本氏烟草(Nicotiana benthamiana)中表达了抗八肽(DYKDDDDK, FLAG)标签抗体,并对其进行纯化与鉴定。通过多次免疫小鼠获得高效价抗FLAG抗体并测出其编码序列,然后亚克隆至植物DNA病毒表达载体,最后通过农杆菌介导转染烟草叶片。经Western blotting检测了转染后2−9 d抗体的表达情况：3 d后FLAG抗体开始在烟草叶片中表达,5 d后表达量达到峰值,每千克鲜叶估计可表达66 mg FLAG抗体。抗体经过分离纯化后浓缩为1 mg/mL,按1:10 000稀释仍可识别1 ng/mL的抗原,表明植物生产的FLAG抗体具有高亲和力。植物生物反应器可用于生产高亲和力抗体,并具有简易、成本低和生产周期短等特点,具有很高的应用价值。     

大亚湾春季卡盾藻种群动态及其赤潮成因分析

研究了2000年春季大亚湾古老卡盾藻/海洋卡盾藻(Chattonella antique/marina)种群动态及其与环境因子的关系。卡盾藻是一种沿岸分布的有害赤潮针孢藻,2000年春在大亚湾海域高密度高频率出现,最高细胞密度为129cells/mL。大亚湾合适的水温、盐度及丰富的营养盐含量为卡盾藻的生长提供了良好的环境条件,而较低的Si∶N及持续的阴雨天气抑制了小型硅藻的生长,使卡盾藻在浮游植物种群竞争中占据一定地位。孢囊萌发被认为是水体中卡盾藻营养细胞及其赤潮发生的种源,但孢囊需经过4个月以上、11℃以下低温处理后方可成熟和萌发,大亚湾冬季水温,不能满足卡盾藻孢囊休眠成熟的需要。作者推测,2000年春大亚湾高密度卡盾藻营养细胞的种源可能来源于由船舶压舱水所带来的成熟孢囊。       

Combination of fuzzy-AHP and GIS techniques in land suitability assessment for wheat (Triticum aestivum) cultivation

Land suitability classification is a useful management practice to ensure planned and sustainable use of agricultural lands according to their potentials. The main purposes of this study were to analyze land suitability for bread wheat (Triticum aestivum) cultivation and generate a land suitability map for wheat by integrating the analytical hierarchy (AHP)-fuzzy algorithm with the Geographical Information System (GIS) in the Tozanlı sub-basin located in the upper part of Yeşilırmak Basin, Turkey. Topographic (elevation, slope, aspect) characteristics of the basin and some of physical and chemical properties of soils (texture, pH, electrical conductivity, lime, organic matter, and soil depth) were used as criteria in determining the suitability classes. Ninety-two disturbed soil samples were collected from 0 to 20 cm depth in October 2017 using random sampling method. Weighted overlay spatial analysis in GIS was used to combine different thematic layers to identify areas suitable for wheat production. The fuzzy-AHP suitability assessment model was adapted to determine the weights for topographic and soil properties. The highest specific weights were obtained for soil depth (0.232) and elevation (0.218), while the lowest weight was calculated for aspect (0.042). Highly, moderately, and marginally suitable lands for wheat cultivation cover 2.63, 9.85 and 32.59% of the study area, respectively. In addition, the results indicated that 54.92% of the total area is permanently unsuitable for wheat cultivation. The results revealed that integration of AHP-fuzzy algorithm and GIS techniques is a useful method for accurate evaluation of land suitability in planning for specific crop production and decreasing the negative environmental impacts of agricultural practices.     

广西灵川县种植业的可持续发展

广西是我国南方农业大省(区),明确其农业发展的制约因素,提出具体的解决措施,实现农业可持续发展,对解决农业、农村和农民问题,促进经济持续、快速、健康发展,实现社会主义现代化建设战略目标具有重要的理论和现实意义。主要采用了参与性农户评估方法(PRA),通过随机入户方式,与农户面对面交流,并结合调查问卷,对广西桂林市灵川县11个乡镇的农户进行了调查访问,为方便研究和数据处理,在数据分析过程中将该县11个乡镇分为3个片区:东部片区、中部片区、北部片区,对比3组农户的文化素质、种植制度、冬季农业现状、农业需求和农田水利设施等方面问题,探讨广西农业可持续发展的制约因素,并提出相应的对策,以期为广西农业可持续发展提供理论依据。调查结果表明,虽然目前灵川县农业取得众多发展成就,但仍存在以下几个方面的问题,严重影响了该县种植业可持续发展的进程。一是种植制度结构单一,二是冬季农业发展薄弱,三是种植技术贫乏,四是基础设施建设不完善等,因此,为促进灵川县种植业可持续发展,亟需采取以下对策和措施:调整作物种植结构,建立合理的种植制度;大力发展冬季农业;满足农民最迫切的农业需求;加强农业基础设施建设等。     

稻鸭共作有机农业模式的能值评估

应用能值分析方法对稻鸭共作有机农业模式（模式Ⅰ）和对应的稻麦常规生产模式（模式Ⅱ）进行比较研究,并比较了两种模式的生态经济效益.结果表明,模式Ⅰ的能值效益高,自组织能力、可持续发展能力强,产品安全性高,净能值产出率（EYR）、系统产出能值反馈率（FYE）、能值可持续指标（ESI）分别是模式Ⅱ的1.57、14.1和8.71倍;基于能值的产品安全性指标（EIPS）模式Ⅰ为0,模式Ⅱ为-0.66;模式Ⅰ对环境的压力小于模式Ⅱ,能值投资率（EIR）,环境负载率（ELR）分别是模式Ⅱ的40.1%和18.3%;但模式Ⅰ的经济效益低于模式Ⅱ,其产出、毛收入和净效益分别低于模式Ⅱ15.7%、9.6%和29.6%;以能值 货币价值计算,模式Ⅰ的产投比、毛收入和净收入分别高于模式Ⅱ50%、102.6%和136.4%.随着生产系统的优化和市场对有机食品认知程度的提高,模式Ⅰ的经济效益具有提高的潜力.     

Vacuolar targeting of recombinant antibodies in Nicotiana benthamiana

Plant‐based platforms are extensively used for the expression of recombinant proteins, including monoclonal antibodies. However, to harness the approach effectively and leverage it to its full potential, a better understanding of intracellular processes that affect protein properties is required. In this work, we examined vacuolar (vac) targeting and deposition of the monoclonal antibody (Ab) 14D9 in Nicotiana benthamiana leaves. Two distinct vacuolar targeting signals (KISIA and NIFRGF) were C‐terminal fused to the heavy chain of 14D9 (vac‐Abs) and compared with secreted and ER‐retained variants (sec‐Ab, ER‐Ab, respectively). Accumulation of ER‐ and vac‐Abs was 10‐ to 15‐fold higher than sec‐Ab. N‐glycan profiling revealed the predominant presence of plant typical complex fucosylated and xylosylated GnGnXF structures on sec‐Ab while vac‐Abs carried mainly oligomannosidic (Man 7‐9) next to GnGnXF forms. Paucimannosidic glycans (commonly assigned as typical vacuolar) were not detected. Confocal microscopy analysis using RFP fusions showed that sec‐Ab‐RFP localized in the apoplast while vac‐Abs‐RFP were exclusively detected in the central vacuole. The data suggest that vac‐Abs reached the vacuole by two different pathways: direct transport from the ER bypassing the Golgi (Ab molecules containing Man structures) and trafficking through the Golgi (for Ab molecules containing complex N‐glycans). Importantly, vac‐Abs were correctly assembled and functionally active. Collectively, we show that the central vacuole is an appropriate compartment for the efficient production of Abs with appropriate post‐translational modifications, but also point to a reconsideration of current concepts in plant glycan processing.     

Plant‐based oral vaccines against zoonotic and non‐zoonotic diseases

The shared diseases between animals and humans are known as zoonotic diseases and spread infectious diseases among humans. Zoonotic diseases are not only a major burden to livestock industry but also threaten humans accounting for >60% cases of human illness. About 75% of emerging infectious diseases in humans have been reported to originate from zoonotic pathogens. Because antibiotics are frequently used to protect livestock from bacterial diseases, the development of antibiotic‐resistant strains of epidemic and zoonotic pathogens is now a major concern. Live attenuated and killed vaccines are the only option to control these infectious diseases and this approach has been used since 1890. However, major problems with this approach include high cost and injectable vaccines is impractical for >20 billion poultry animals or fish in aquaculture. Plants offer an attractive and affordable platform for vaccines against animal diseases because of their low cost, and they are free of attenuated pathogens and cold chain requirement. Therefore, several plant‐based vaccines against human and animals diseases have been developed recently that undergo clinical and regulatory approval. Plant‐based vaccines serve as ideal booster vaccines that could eliminate multiple boosters of attenuated bacteria or viruses, but requirement of injectable priming with adjuvant is a current limitation. So, new approaches like oral vaccines are needed to overcome this challenge. In this review, we discuss the progress made in plant‐based vaccines against zoonotic or other animal diseases and future challenges in advancing this field.     

Biomanufacturing of protective antibodies and other therapeutics in edible plant tissues for oral applications

Although plant expression systems used for production of therapeutic proteins have the advantage of being scalable at a low price, the downstream processing necessary to obtain pure therapeutic molecules is as expensive as for the traditional Chinese hamster ovary (CHO) platforms. However, when edible plant tissues (EPTs) are used, there is no need for exhaustive purification, because they can be delivered orally as partially purified formulations that are safe for consumption. This economic benefit is especially interesting when high doses of recombinant proteins are required throughout the treatment/prophylaxis period, as is the case for antibodies used for oral passive immunization (OPI). The secretory IgA (SIgA) antibodies, which are highly abundant in the digestive tract and mucosal secretions, and thus the first choice for OPI, have only been successfully produced in plant expression systems. Here, we cover most of the up‐to‐date examples of EPT‐produced pharmaceuticals, including two examples of SIgA aimed at oral delivery. We describe the benefits and drawbacks of delivering partially purified formulations and discuss a number of practical considerations and criteria to take into account when using plant expression systems, such as subcellular targeting, protein degradation, glycosylation patterns and downstream strategies, all crucial for improved yield, high quality and low cost of the final product.     

稻鸭共育对稻田水体藻类群落的影响

稻鸭共育技术是我国传统稻田养鸭技术的继承和发展,鸭子全程露宿放养赋予稻田养鸭新的稻鸭共育机制,形成了以稻田为基础、种稻为中心、家鸭野养为特点的自然生态和人为干预相结合的复合生态系统。这种养殖方法,利用雏鸭旺盛的杂食性,吃掉稻田里的杂草和害虫,利用鸭子不间断的活动产生中耕浑水效果,刺激水稻生长,同时鸭的粪便可作为肥料1,稻鸭共育技术具有控虫防病、除草松土、培肥土壤、 改善水稻群体结构、甲烷减排等方面的作用1,2。