光对园艺植物花青素生物合成的调控作用

花青素是植物中一类重要的类黄酮化合物,在植物花朵、果实等器官色泽形成和抗氧化过程中起着重要作用。植物组织中花青素的形成依赖于光信号,但是光信号对花青素生物合成的调控机制及信号网络很大程度上还不清晰。本文简述了花青素生物合成及运转过程的研究进展,简要归纳了MYB、bHLH、WDR三类主要因子对花青素合成的转录调控作用,重点阐释光信号（光强、光质、光照时长）对植物花青素合成的调控作用。研究表明,光环境（光强、光质、光照时长）主要通过不同的光受体（UVR8、CRYs、PHOTs、PHYs）影响光信号通路重要因子COP1的泛素化能力和HY5的稳定性,以及其他光信号转录因子如光敏色素互作因子PIFs的稳定性,进而调控花青素的生物合成过程。这些光信号因子一方面直接结合到调控花青素合成的MYB、bHLH、WDR三大类转录因子上,转录激活或抑制它们的表达进而调控花青素的合成;另一方面,这些光信号因子通过与MYB、bHLH、WDR三大类转录因子蛋白互作,影响它们形成的MBW复合体稳定性,进而调控花青素的合成。此外,这些光信号因子还可以通过不依赖于MBW复合体的通路调控花青素的合成,如HY5通过调控miR858影响花青素的生物合成;另外,一些未知的光响应因子可能以不依赖MBW通路的方式直接或间接地调控花青素合成基因和液泡膜上的运转蛋白,改变液泡酸化,调节花青素的合成。同时,光信号会影响光合电子传递,光合电子传递链中的一些因子也会通过依赖和不依赖MBW的途径影响植物花青素的合成。这些途径如何协调以及哪些信号因子优先受光环境（光强、光质、光照时间）调控?本文为深入研究光信号对花青素生物合成的调控机理提供参考,以探索光调控花青素积累的有效途径及靶标分子,为利用基因工程、代谢工程和光环境调控手段改良园艺植物花青素积累提供理论基础。     

The Evolution Characteristics of Spatial Layout of Ancient Chinese Capitals: A Case Study of Sui,Tang and Northern Song Dynasties With Important Changes in the Historical Development of Feudal Society

Imperial city and outer city are the most important differentiation of the spatial structure of ancient Chinese capitals.The relationship between city and Guo changed from the original spatial structure mode of "respecting the west" and "sitting in the west and facing the east" to the spatial structure mode of "sitting in the north and facing the south" and the three outer cities in the east,south and west surrounding the imperial city after the Wei,Jin,Southern and Northern Dynasties,and gradually changed from the original "multi palace" system to the "single palace" system.Finally,a "heavy city" capital spatial structure with the outer city around the imperial city and the imperial city around the palace city,and the central axis of the chessboard format was formed.During the Tang and Song Dynasties,it was a period of great change in the history of feudal society in China.Through the investigation of the evolution characteristics of the spatial form of capital cities in the Tang and Song Dynasties,the track of the transformation of social ideology,political system,economic structure and many other fields in the Tang and Song Dynasties was made clear.     

中国古典园林与戏曲舞台空间布景的共通性

优秀的传统文化是一个民族劳动人民智慧的结晶。随着全球经济一体化的发展，中国传统文化受到西方文化的猛烈冲击，因此以中国古典园林和戏曲艺术的研究为代表的优秀传统文化的研究对中国现代文化发展有着深远意义。笔者通过查阅国内现有的关于古典园林和戏曲舞台空间布景的研究，发现该领域的研究并不丰富。通过对二者空间布局的层次、置陈布势的常用手法和艺术性进行共通性研究，希望对古典园林和戏曲保护提供参考和指导。     

甜樱桃不同砧穗组合成花调控关键基因表达差异研究

为了研究甜樱桃(Prunus avium)成花调控关键基因在不同砧穗组合中表达差异,以甜樱桃‘艳阳’(Sunburst)为接穗,‘ZY-1’(P.cerasus)、马哈利(P.mahaleb)和‘兰丁2号’(P.avium × P.pseudocerasus)为砧木的嫁接组合为试材,调查统计4年干龄不同砧穗组合的总花芽量及开花情况;克隆甜樱桃成花调控网络中EARLY FLOWERING 3(ELF3)、CONSTANS(CO)、FLOWERING LOCUS T(FT)等9个关键作用基因,并利用实时荧光定量PCR对不同砧穗组合接穗的幼叶、叶芽、成龄叶、花芽、叶芽附近叶片叶柄及花芽附近叶片叶柄中这些基因的表达量鉴定。结果显示,艳阳/ZY-1、艳阳/马哈利和艳阳/兰丁2号组合的平均单株花芽量分别为279、288和317朵,不存在明显差异,但不同组合的花期却明显不同,当艳阳/马哈利有72%花芽处于开放期时,艳阳/兰丁2号的花开放比例只有7%,艳阳/ZY-1的花开放比例为49%;此外,PaELF3、PaCO、PaFT等9个成花关键基因,在同一时期不同砧穗组合的接穗组织中表达量存在差异,其中PaAP1在不同砧穗组合的花芽中表达模式与花期规律一致,表明PaAP1与樱桃花期调控密切相关。     

Genome-edited crops: how to move them from laboratory to market

Recent breakthroughs in CRISPR technology allow specific genome manipulation of almost all crops and have initiated a revolution in precision crop breeding. Rationally-based regulation and widespread public acceptance are needed to propel genome-edited crops from laboratory to market and to translate this innovative technology into agricultural productivity.     

荔枝果皮花色苷生物合成及调控机理研究进展

荔枝是无患子科荔枝属的亚热带常绿果树,具有很高的商业价值。荔枝果皮色泽由多种色素决定,是影响消费者需求的重要品质性状。果实着色是花色苷积累的结果,荔枝果皮花色苷的生物合成是一个复杂的过程,主要由遗传背景决定,同时受内外环境影响。本文重点介绍荔枝果皮花色苷的生物合成途径,从外界环境、生理生化以及分子生物学等方面,对花色苷积累的调控机制进行综述,并展望该领域的研究方向,为提升荔枝果实的色泽品质提供重要参考。     

硒对母猪氧化应激及其后代抗氧化能力的营养调控研究

硒作为的重要微量元素之一,可以通过胎盘和乳组织进行转移。仔猪可以从乳汁中获取硒源,提高硒含量,进而提高仔猪的初生重。同时,硒也能够调节母猪妊娠期间代谢速度,控制妊娠期自由基产生,进而提高胎盘输送营养功能。文章从母猪氧化应激体系角度来解析硒对母猪妊娠期氧化应激的调控机制、硒对哺乳母猪生产性能的调控作用。     

Toxicity of cadmium and its competition with mineral nutrients for uptake by plants:A review

Cadmium(Cd)is a toxic heavy metal occurring in the environment naturally and is also generated through various anthropogenic sources and acts as a pollutant.Human health is affected by Cd pollution in farmland soils because food is the main source of Cd intake in the non-smoking population.For crops,Cd toxicity may result from a disturbance in uptake and translocation of mineral nutrients and disturbance in plant metabolism,inhibiting plant growth and development.However,plants have Cd tolerance mechanisms,including restricted Cd uptake,decreased Cd root-to-shoot translocation,enhanced antioxidant enzyme activities,and increased production of phytochelatins.Furthermore,optimal supply of mineral nutrients is one of the strategies to alleviate the damaging effects of Cd on plants and to avoid its entry into the food chain.The emerging molecular knowledge contributes to understanding Cd uptake,translocation,and remobilization in plants.In this review,Cd toxicity and tolerance mechanisms,agricultural practices to minimize Cd accumulation,Cd competition with essential elements(calcium,copper,iron,zinc,and manganese),and genes associated with Cd uptake are discussed in detail,especially regarding how these mineral nutrients and genes play a role in decreasing Cd uptake and accumulation in crop plants.     

春甘薯—秋白菜复种栽培技术规程

为了解决石家庄地区春甘薯—秋白菜生产中品种不配套、栽培技术不规范、病虫害较为严重等问题,充分发挥甘薯节水抗旱、营养均衡、祛病保健,白菜营养丰富、品质柔嫩、口味颇佳的独特优势,特编写了《春甘薯—秋白菜复种栽培技术规程》,详细规范了春甘薯—秋白菜复种栽培的基础条件、茬口安排、品种选择以及春甘薯栽培、秋白菜复种的技术要点。确保了每667 m^2春甘薯产量在2000 kg以上,大白菜产量在4000 kg以上,每667 m^2种植效益比传统模式增加1000元。为种植春甘薯、秋白菜的菜农和蔬菜生产企业提供了技术支撑。