||
75%的新发和再发传染病来自于野生动物,但因为自然疫源地的存在而无法彻底清除。如果能将野生动物宿主免疫,可以从源头阻断病毒的传播。但实现这一目标面临的挑战是疫苗的选择和递送手段。
本研究组重点关注登革和寨卡等蚊媒黄病毒的传播机制。前期深入研究了一类只感染蚊子的昆虫特异黄病毒的传播和跨种传播机制(PNAS, 2022)。昆虫特异黄病毒跟登革寨卡等蚊媒黄病毒非常相似,却只能感染蚊子,不能感染任何脊椎动物,因此非常适合开发成疫苗载体。
https://www.ebiotrade.com/newsf/2022-12/20221224064113165.htm
http://www.pubmedplus.cn/P/SearchQuickResult?wd=5dcce410-0749-4bca-88c0-deec60304900
01. | 2022 | 1 篇 | 7.692% |
02. | 2021 | 1 篇 | 7.692% |
03. | 2020 | 1 篇 | 7.692% |
04. | 2019 | 1 篇 | 7.692% |
05. | 2018 | 1 篇 | 7.692% |
06. | 2017 | 1 篇 | 7.692% |
07. | 2016 | 2 篇 | 15.385% |
08. | 2015 | 2 篇 | 15.385% |
09. | 2014 | 1 篇 | 7.692% |
10. | 2012 | 1 篇 | 7.692% |
01. | j virol | 3 篇 | 23.077% |
02. | crit rev eukaryot gene expr | 1 篇 | 7.692% |
03. | mbio | 1 篇 | 7.692% |
04. | med vet entomol | 1 篇 | 7.692% |
05. | parasit vectors | 1 篇 | 7.692% |
06. | plos one | 1 篇 | 7.692% |
07. | presse med | 1 篇 | 7.692% |
08. | sante publique | 1 篇 | 7.692% |
09. | sci rep | 1 篇 | 7.692% |
10. | transbound emerg dis | 1 篇 | 7.692% |
01. | 美国 | 5 篇 | 38.462% |
02. | 中国 | 1 篇 | 7.692% |
03. | 巴基斯坦 | 1 篇 | 7.692% |
04. | 巴西 | 1 篇 | 7.692% |
05. | 法国 | 1 篇 | 7.692% |
06. | 几内亚 | 1 篇 | 7.692% |
07. | 西班牙 | 1 篇 | 7.692% |
08. | 意大利 | 1 篇 | 7.692% |
01. | 中国广州 | 1 篇 | 7.692% |
01. | Animals | 11 篇 | 84.615% |
02. | Mice | 6 篇 | 46.154% |
03. | Humans | 5 篇 | 38.462% |
04. | Female | 4 篇 | 30.769% |
05. | Viral Vaccines | 4 篇 | 30.769% |
06. | Aedes | 3 篇 | 23.077% |
07. | Antibodies, Viral | 3 篇 | 23.077% |
08. | Dengue | 3 篇 | 23.077% |
09. | Disease Models, Animal | 3 篇 | 23.077% |
10. | Male | 3 篇 | 23.077% |
Archiver|手机版|科学网 ( 京ICP备07017567号-12 )
GMT+8, 2024-5-10 08:11
Powered by ScienceNet.cn
Copyright © 2007- 中国科学报社