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- 序
- 蛋白质组学是后基因组时代生命科学研究的重要学科。随着大量生物基因组序列的解析,人们发现很多生命现象的本质在基因组水平上无法解答。基因数量的有限性和基因结构的稳定性与生命现象的复杂性和多变性存在较...
- 前言
- 蜜蜂是膜翅目、社会性昆虫的典型代表,具有独特的群体行为、快速的繁殖能力和独特的孤雌生殖等特点。蜜蜂社会中每个成员的高度协调、合作和交流形成了高效有序的社会组织。蜜蜂的辛勤劳动犹如“一只照亮房间的灯泡...
- 彩插
- 彩图1 全球每年发表的与蜜蜂相关的研究文献数量彩图2 1904-2015年每年全球在《自然 (Nature)》《科学 (Science)》彩图3 1970-2015年,中国和美国每年发蜜蜂相关研究论文数量比较彩图4 1970-2015年,中国和美国每...
- 展望
- 蜜蜂生物学是蜂业科学的基石,为蜂业可持续发展提供源泉和动力。虽然蜜蜂蛋白质组学作为蜜蜂生物学研究的一个分支,在我国获得了较好的发展,但在生物学研究技术不断更新与发展的大背景下,建议开展以下研究:(1...
- 第一章 蛋白质组学的主要研究方法和研究手段
- 蛋白质组(Proteome)源于蛋白质(Protein)与基因组(Genome)两个词的结合,意指“一种基因组所表达的全套蛋白质”。蛋白质科学是研究生物体蛋白质的时空分布、结构、功能及其相互作用方式的科学,生命体的生长发育、遗...
- 第二章 蜂产品的蛋白质组学研究发现了新功能成分和生物学功能
- 蜂王浆、蜂花粉、蜂胶、蜂毒和蜂蜜不仅对于蜂群的营养、免疫、防御等具有至关重要的作用,同时也是养蜂业的重要产品,在提高人类健康水平方面发挥重要的作用。围绕蜂产品的蛋白质组学研究发现了新功能成分和生物学...
- 不同贮存温度下茶花蜂花粉蛋白质组的初步研究
- 蜂花粉是工蜂从蜜源植物的花药中采集的花粉粒,并混入花蜜和唾液,以使花粉粘集成团,加工成不规则的扁圆形颗粒,即形成花粉团。蜂花粉的成分很复杂,不但含有人体必需的蛋白质、脂类、碳水化合物、各种维生素和微量...
- Proteome Analysis of Tea Pollen(Camellia sinensis) under Different Storage Conditions
- Proteome and Phosphoproteome Analysis of Honeybee(Apis mellifera)Venom Collected From Electrical Stimulation and Manual Extraction of the Venom Gland
- Proteomic Analysis of Royal Jelly from Three Strains of Western Honeybees(Apis mellifera)
- Comparative Analysis of the Effects of Different Storage Conditions on Major Royal Jelly Proteins
- Proteomics Analysis of Major Royal Jelly Protein Changes under Different Storage Conditions
- Royal Jelly Proteome Comparison between A.mellifera ligustica and A. cerana cerana
- Novel Royal Jelly Proteins Identified by Gel-Based and Gel-free Proteomics
- Towards Posttranslational Modification Proteome of Royal Jelly
- Comprehensive Identification of Novel Proteins and N-glycosylation Sites in Royal Jelly
- In-Depth Phosphoproteomic Analysis of Royal Jelly Derived from Western and Eastern Honeybee Species
- In-Depth N-Glycosylation Reveals Species-Specific Modifications and Functions of the Royal Jelly Protein from Western (Apis mellifera) and Eastern Honeybees (Apis cerana)
- 第三章 蛋白质组学研究揭示蜂王浆高产机理
- 蜂王浆是众所周知的纯天然保健佳品,对促进人类健康具有重要作用,为了提高蜂王浆的产量,我国的科研工作者从原种意大利蜜蜂中成功选育出蜂王浆高产品系——蜂王浆高产蜜蜂(浆蜂)。浆蜂的成功选育对提高我国蜂王...
- Identification of the Proteome Complement of High Royal Jelly Producing Bees(Apis mellifera)during Worker Larval Development*
- Profile Analysis of the Proteome of the Egg of the High Royal Jelly Producing Bees(Apis mellifera L.)
- Comparative Analyses of Proteome Complement Between Worker Bee Larvae of High Royal Jelly Producing Bees(Apis mellifera ligustica) and Carniolian Bees(Apis mellifera carnica)
- Proteome Comparison of Hypopharyngeal Gland Development between Italian and Royal Jelly Producing Worker Honeybees(Apis mellifera ligustica)
- Quantitative Neuropeptidome Analysis Reveals Neuropeptides Are Correlated with Social Behavior Regulation of the Honeybee Workers
- Phosphoproteomic Analysis of Protein Phosphorylation Networks in the Hypopharyngeal Gland of Honeybee Workers(Apis mellifera ligustica)
- 第四章 蛋白质组学研究阐明蜜蜂个体发育机制
- 蜜蜂是典型的完全变态昆虫,生长发育经历卵、幼虫、蛹及成虫4个阶段。胚期发育(卵-蛹)是决定成蜂生物学性状的关键时期,此期间进行的基因改造将产生可遗传的性状。为了深刻认识蜜蜂个体发育的遗传机理和调控网络...
- Identification of the Proteome Composition Occurring During the Course of Embryonic Development of Bees(Apis mellifera)
- Analysis of Developmental Proteome at Egg Stage of Drone Honeybees(Apis mellifera ligustica)
- Honeybee(Apis mellifera ligustica) Drone Embryo Proteomes
- Proteomic Analysis of Honeybee(Apis mellifera ligustica) Pupae Head Development
- Changes of Proteome and Phosphoproteome Trigger Ebryo-Larva Transition of honeybee worker (Apis mellifera ligustica)
- Proteome Analysis of Hemolymph Changes During the Larval to Pupal Development Stages of Honeybee Workers(Apis mellifera ligustica)
- Hemolymph Proteome Changes During Worker Brood Development Match the Biological Divergences Between Western Honey Bees(Apis mellifera) and Eastern Honey Bees(Apis cerana)
- In-depth Proteomics Characterization of Embryogenesis of the Honey Bee Worker(Apis mellifera ligustica)*
- Proteome Analysis Unravels Mechanism Underling the Embryogenesis of the Honeybee Drone and Its Divergence with the Worker(Apis mellifera lingustica)
- 第五章 蛋白质组学研究解析蜜蜂的嗅觉机理
- 作为社会性昆虫,蜜蜂利用复杂的信号交流系统来调节其严格而又有序的社会生活。触角作为蜜蜂重要的感受器官,具有感知嗅觉,味觉和机械性刺激等功能,在蜂群的社会性生活中发挥重要作用。基于三型蜂在蜂群内职能...
- Antennal Proteome Comparison of Sexually Mature Drone and Forager Honeybees
- Differential Antennal Proteome Comparison of Adult Honeybee Drone, Worker and Queen(Apis mellifera ligustica)
- Western Honeybee Drones and Workers(Apis mellifera ligustica)Have Different Olfactory Mechanisms than Eastern Honeybees(Apis cerana cerana)
- Molecular Recognition of Floral Volatile with Two Olfactory Related Proteins in the Eastern Honeybee (Apis cerana)
- 第六章 蛋白质组学研究揭示蜜蜂级型分化机理
- 蜜蜂作为一种高度社会性的昆虫,群体中存在着蜂王、工蜂、雄蜂三种级型。雄蜂由未受精卵发育而来,为单倍体。蜂王和工蜂是蜂群中的雌性个体,虽然均由二倍体的受精卵发育而成,但是蜂王和工蜂在外部形态、内部解剖结...
- 蜜蜂(Apis mellifera ligustica)幼虫级型分化差异蛋白质组分析
- Proteomic Analysis of the Honeybee(Apis mellifera ligustica)Caste Differentiation Between Worker and Queens Bees Larvae
- Differential Protein Expression in Honeybee (Apis mellifera ligustica)Larvae: Underlying Caste Differentiation
- Mitochondrial Proteins Differential Expression during Honeybee(Apis mellifera L.) Queen and Worker Larvae Caste Determination
- Differential Expressions of Nuclear Proteomes between Honeybee(Apis mellifera ligustica)Queen and Worker Larvae: A Deep Insight into Caste Pathway Decisions
- 第七章 蛋白质组学研究揭示蜜蜂重要腺体功能的生物学机理
- 咽下腺位于工蜂头部,是合成和分泌蜂王浆的主要腺体。咽下腺细胞在蛹期开始分化,成虫羽化时咽下腺仍不发达,咽下腺小囊及腺泡较小,活性较低;随着日龄的增加,咽下腺小囊和腺泡逐渐增大饱满,活性增强,6~12日龄工...
- Identification of the Proteome Complement of Hypopharyngeal Glands from Two Strains of Honeybees(Apis mellifera)
- Proteomic Analysis of Honeybee Worker(Apis mellifera) Hypopharyngeal Gland Development
- Novel Aspects of Understanding Molecular Working Mechanisms of Salivary Glands of Worker Honeybees (Apis mellifera)Investigated by Proteomics and Phosphoproteomics☆
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