Phosphoproteomic Analysis of Protein Phosphorylation Networks in the Hypopharyngeal Gland of Honeybee Workers (Apis mellifera ligustica)

文献类型: 外文期刊

第一作者: Qi, Yuping

作者: Qi, Yuping;Fan, Pei;Hao, Yue;Han, Bin;Fang, Yu;Feng, Mao;Cui, Ziyou;Li, Jianke;Fan, Pei;Cui, Ziyou;Cui, Ziyou

作者机构:

关键词: hypopharyngeal gland;phosphoproteome;honeybee

期刊名称:JOURNAL OF PROTEOME RESEARCH ( 影响因子:4.466; 五年影响因子:4.352 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The hypopharyngeal gland (HG) in honeybee workers changes functions according to physiological age in the bee colony from producing royal jelly (RJ) in nurse bees to digestive enzymes in foragers. The same set of secretory cells expresses different genes or proteins to create these age-dependent changes; however, it is unknown precisely how the phosphorylation network regulates physiological differences across the development of the adult worker HG. We employed high-accuracy mass-spectrometry-based proteomics to survey phosphoproteome changes in the newly emerged, nurse, and forager bees. Overall, 941, 1322, and 1196 phosphorylation sites matching 1007, 1353, and 1199 phosphopeptides from 549, 720, and 698 phosphoproteins were identified in the three ages of the HG, respectively. Specialized, interconnected phosphorylation networks within each age were found by comparing protein abundance and phosphorylation levels. This illustrates that many proteins are regulated by phosphorylation independent of their expression levels. Furthermore, proteins in key biological processes and pathways were dynamically phosphorylated with age development, including the centrosome cycle, mitotic spindle elongation, macromolecular complex disassembly, and ribosome, indicating that phosphorylation tunes protein activity to optimize cellular behavior of the HG over time. Moreover, complementary protein and phosphoprotein expression is required to support the unique physiology of secretory activity in the HG. This reported data set of the honeybee phosphoproteome significantly improves our understanding of a range of regulatory mechanisms controlling a variety of cellular processes and will serve as a valuable resource for those studying the honeybee and other insects.

分类号: Q7`Q51

  • 相关文献

[1]Proteome Comparison of Hypopharyngeal Gland Development between Italian and Royal Jelly-Producing Worker Honeybees (Apis mellifera L). Li Jianke,Feng Mao,Begna, Desalegn,Fang Yu,Zheng Aijuan. 2010

[2]Novel aspects of understanding molecular working mechanisms of salivary glands of worker honeybees (Apis mellifera) investigated by proteomics and phosphoproteomics. Feng, Mao,Fang, Yu,Han, Bin,Zhang, Lan,Lu, Xiaoshan,Li, Jianke.

[3]Brain Membrane Proteome and Phosphoproteome Reveal Molecular Basis Associating with Nursing and Foraging Behaviors of Honeybee Workers. Han, Bin,Fang, Yu,Feng, Mao,Hu, Han,Hao, Yue,Ma, Chuan,Huo, Xinmei,Meng, Lifeng,Zhang, Xufeng,Wu, Fan,Li, Jianke.

[4]Proteome and phosphoproteome analysis of honeybee (Apis mellifera) venom collected from electrical stimulation and manual extraction of the venom gland. Li, Rongli,Zhang, Lan,Fang, Yu,Han, Bin,Lu, Xiaoshan,Zhou, Tiane,Feng, Mao,Li, Jianke,Zhang, Lan. 2013

[5]Changes of proteome and phosphoproteome trigger embryo-larva transition of honeybee worker (Apis mellifera ligustica). Gala, Alemayehu,Fang, Yu,Woltedji, Dereje,Zhang, Lan,Han, Bin,Feng, Mao,Li, Jianke.

[6]Proteomics analysis reveals protein expression differences for hypopharyngeal gland activity in the honeybee, Apis mellifera carnica Pollmann. Ji, Ting,Liu, Zhenguo,Shen, Jie,Shen, Fang,Chen, Guohong,Liang, Qin,Wu, Liming,Corona, Miguel. 2014

[7]The Eukaryote-Like Serine/Threonine Kinase STK Regulates the Growth and Metabolism of Zoonotic Streptococcus suis. Zhang, Chunyan,Sun, Wen,Dong, Mengmeng,Liu, Wanquan,Li, Lu,Xu, Zhuofei,Zhou, Rui,Tan, Meifang,Gao, Ting,Li, Lu,Xu, Zhuofei,Zhou, Rui. 2017

[8]A comparative analysis of phosphoproteome in ovine muscle at early postmortem in relationship to tenderness. Li, Xin,Chen, Lijuan,He, Fan,Li, Meng,Zhang, Dequan,Shen, Qingwu. 2017

[9]A Comprehensive Proteomic Survey of ABA-Induced Protein Phosphorylation in Rice (Oryza sativa L.). Qiu, Jiehua,Hou, Yuxuan,Wang, Yifeng,Li, Zhiyong,Zhao, Juan,Tong, Xiaohong,Lin, Haiyan,Wei, Xiangjin,Zhang, Jian,Lin, Haiyan,Ao, Hejun. 2017

[10]An integrated proteomics reveals pathological mechanism of honeybee (Apis cerena) sacbrood disease. Han, Bin,Zhang, Lan,Feng, Mao,Fang, Yu,Li, Jianke.

[11]In-Depth Phosphoproteomic Analysis of Royal Jelly Derived from Western and Eastern Honeybee Species. Han, Bin,Fang, Yu,Feng, Mao,Lu, Xiaoshan,Huo, Xinmei,Meng, Lifeng,Wu, Bin,Li, Jianke.

[12]A comprehensive quantitative phosphoproteome analysis of rice in response to bacterial blight. Hou, Yuxuan,Qiu, Jiehua,Tong, Xiaohong,Wei, Xiangjin,Huang, Shiwen,Zhang, Jian,Nallamilli, Babi R.,Wu, Weihuai. 2015

[13]The Phosphoproteomic Response of Rice Seedlings to Cadmium Stress. Zhong, Min,Li, Sanfeng,Huang, Fenglin,Qiu, Jiehua,Zhang, Jian,Sheng, Zhonghua,Tang, Shaoqing,Wei, Xiangjin,Hu, Peisong,Zhong, Min,Huang, Fenglin. 2017

[14]The proteome and phosphoproteome of maize pollen uncovers fertility candidate proteins. Chao, Qing,Gao, Zhi-fang,Wang, Yue-feng,Mei, Ying-chang,Zhao, Biligen-gaowa,Wang, Bai-chen,Li, Zhe,Huang, Xia-he,Wang, Ying-chun,Li, Liang,Jiang, Yu-bo.

[15]Pollen phenolics and regulation of pollen foraging in honeybee colony. Liu, FL,Zhang, XW,Chai, JP,Yang, DR. 2006

[16]Differential expressions of nuclear proteomes between honeybee (Apis mellifera L.) queen and worker larvae: A deep insight into caste pathway decisions. Begna, Desalegn,Han, Bin,Feng, Mao,Fang, Yu,Li, Jianke.

[17]Proteome Analysis Unravels Mechanism Underling the Embryogenesis of the Honeybee Drone and Its Divergence with the Worker (Apis mellifera lingustica). Fang, Yu,Feng, Mao,Han, Bin,Qi, Yuping,Hu, Han,Fan, Pei,Huo, Xinmei,Meng, Lifeng,Li, Jianke.

[18]Western honeybee drones and workers (Apis mellifera ligustica) have different olfactory mechanisms than eastern honeybees (Apis cerana cerana). Woltedji, Dereje,Song, Feifei,Zhang, Lan,Gala, Alemayehu,Han, Bin,Feng, Mao,Fang, Yu,Li, Jianke.

[19]High Concentrations of the Alarm Pheromone Component, Isopentyl Acetate, Reduces Foraging and Dancing in Apis mellifera Ligustica and Apis cerana Cerana. Gong, Zhiwen,Wang, Chao,Dong, Shihao,Tan, Ken,Zhang, Xuewen,Wang, Yanhui,Hu, Zongwen,Tan, Ken.

[20]Mitochondrial proteins differential expression during honeybee (Apis mellifera L.) queen and worker larvae caste determination. Begna, Desalegn,Fang, Yu,Feng, Mao,Li, Jianke.

作者其他论文 更多>>

微信小程序