Synthetic Biology Journal ›› 2022, Vol. 3 ›› Issue (2): 253-255.DOI: 10.12211/2096-8280.2022-021
Previous Articles Next Articles
-
Received:2022-04-09Revised:2022-04-11Online:2022-05-11Published:2022-04-30
纳米合成生物学:融合创新的新维度
李峰1, 张先恩2,3
- 1.中国科学院武汉病毒研究所,生物安全大科学研究中心,病毒学国家重点实验室,湖北 武汉 430071
2.中国科学院深圳理工大学(筹)合成生物学院,广东 深圳 518055
3.中国科学院生物物理研究所,生物大分子国家重点实验室,北京 100101
-
通讯作者:张先恩 -
作者简介:李峰 ,中科院武汉病毒研究所研究员,分析微生物学与纳米生物学研究中心副主任。研究方向为病毒纳米生物技术。张先恩 ,中科院生物物理所研究员,中科院深圳理工大学(筹)合成生物学院教授,中国生物工程学会副理事长,合成生物学分会主任,亚洲生物技术协会(AFOB)纳米生物技术/生物传感/生物芯片分会共同会长。研究方向为合成生物学、纳米生物学、生物传感、分子病毒学。
第一联系人:李峰,中科院武汉病毒研究所研究员,分析微生物学与纳米生物学研究中心副主任。研究方向为病毒纳米生物技术。
CLC Number:
Cite this article
李峰, 张先恩. 纳米合成生物学:融合创新的新维度[J]. 合成生物学, 2022, 3(2): 253-255.
share this article
Add to citation manager EndNote|Ris|BibTeX
URL: https://synbioj.cip.com.cn/EN/10.12211/2096-8280.2022-021
| 1 | FEYNMAN R. There's plenty of room at the bottom[M]// GILBERT D H. Miniaturization. New York: Reinhold Publishing Corporation, 1960. |
| 2 | DREXLER K E, PETERSON C, PERGAMIT G, et al. Unbounding the future: the nanotechnology revolution[M]. New York: William Morrow and Company, Inc, 1991. |
| 3 | JARIWALA D, SANGWAN V K, LAUHON L J, et al. Carbon nanomaterials for electronics, optoelectronics, photovoltaics, and sensing[J]. Chemical Society Reviews, 2013, 42, (7): 2824-2860. |
| 4 | ROCO M C. Nanotechnology: convergence with modern biology and medicine[J]. Current Opinion in Biotechnology, 2003, 14, (3): 337-346. |
| 5 | ZHANG X E. Nanobiology-symphony of bioscience and nanoscience[J]. Science China Life Sciences, 2020, 63, (8): 1099-1102. |
| 6 | CAMERON D E, BASHOR C J, COLLINS J J. A brief history of synthetic biology[J]. Nature Reviews Microbiology, 2014, 12, (5): 381-390. |
| 7 | 丁明珠,李炳志,王颖, 等. 合成生物学重要研究方向进展[J]. 合成生物学, 2020, 1(1): 7-28. |
| DING Mingzhu, LI Bingzhi, WANG Ying,et al. Significant research progress in synthetic biology[J]. Synthetic Biology Journal, 2020, 1(1): 7-28. | |
| 8 | 郑涵奇, 吴晴, 李洪军, 等. 合成生物学与纳米生物学的交叉融合及其在生物医药领域的应用[J]. 合成生物学, 2022, 3(2): 279-301. |
| ZHENG Hanqi, WU Qing, LI Hongjun, et al. Integration of synthetic biology and nanobiotechnology for biomedical applications[J]. Synthetic Biology Journal, 2022, 3(2): 279-301. | |
| 9 | 冯晴晴, 张天鲛, 赵潇, 等. 合成纳米生物学——合成生物学与纳米生物学的交叉前沿[J]. 合成生物学, 2022, 3(2): 260-278. |
| FENG Qingqing, ZHANG Tianjiao, ZHAO Xiao, et al. Synthetic nanobiology——fusion of synthetic biology and nanobiology[J]. Synthetic Biology Journal, 2022, 3(2): 260-278. | |
| 10 | 施茜, 吴园园, 杨洋. DNA纳米技术与合成生物学[J]. 合成生物学, 2022, 3(2): 302-319. |
| SHI Qian, WU Yuanyuan, YANG yang. DNA nanotechnology and synthetic biology[J]. Synthetic Biology Journal, 2022, 3(2): 302-319. | |
| 11 | 翟婷婷, 顾宏周, 樊春海. 蛋白质组装体辅助的酶固定: 精准构建有机相高效生物催化剂[J]. 合成生物学, 2022, 3(2): 256-259. |
| ZHAI Tingting, GU Hongzhou, FAN Chunhai. Enzyme immobilization assisted by protein assemblies for highly efficient biocatalysis in organic systems[J]. Synthetic Biology Journal, 2022, 3(2): 256-259. | |
| 12 | 许仕琳, 许海燕. 双特异性抗体及纳米技术在肿瘤免疫治疗中的应用进展[J]. 合成生物学, 2022, 3(2): 352-368. |
| XU Shilin, XU Haiyan. Progress of bispecific antibodies and nanotechnology in tumor immunotherapies[J]. Synthetic Biology Journal, 2022, 3(2):352-368. | |
| 13 | 刘奇奇, 王春玉, 齐天翊, 等. 合成生物纳米酶[J]. 合成生物学, 2022, 3(2): 320-334. |
| LIU Qiqi, WANG Chunyu, QI Tianyi, et al. Synthetic biological nanozyme[J]. Synthetic Biology Journal, 2022, 3(2): 320-334. | |
| 14 | 胥欣欣, 匡华. 基于合成受体的食品污染物生物检测进展[J]. 合成生物学, 2022, 3(2): 399-414. |
| XU Xinxin, KUANG Hua. Advances in the biological detection of food contaminants based on synthetic receptors[J]. Synthetic Biology Journal, 2022, 3(2): 399-414.. | |
| 15 | 黄利利, 张韩, 王伟伟, 等. 基于生物正交反应的病毒功能化及其生物医学应用[J]. 合成生物学, 2022, 3(2): 335-351. |
| HUANG Lili, ZHANG Han, WANG Weiwei, et al. Bioorthogonal functionalization of viruses for biomedical applications[J]. Synthetic Biology Journal, 2022, 3(2): 335-351. | |
| 16 | 武伟红, 李炜, 张先恩, 等. 合成生物学与荧光成像技术[J]. 合成生物学, 2022, 3(2): 369-384. |
| WU Weihong, LI Wei, ZHANG Xian'en, et al. Synthetic biology for fluorescent bioimaging[J]. Synthetic Biology Journal, 2022, 3(2): 369-384. | |
| 17 | 梁晓声, 郭永超, 门冬, 等. 病毒-纳米金杂合导电网络结构在电化学分析的应用[J]. 合成生物学, 2022, 3(2): 415-427. |
| LIANG Xiaosheng, GUO Yongchao, Dong MEN, et al. Hybrid systems of virus and nano-gold conducting networks for electrochemical analysis[J]. Synthetic Biology Journal, 2022, 3(2): : 415-427. | |
| 18 | CUI R, LIU H H, XIE H Y, et al. Living yeast cells as a controllable biosynthesizer for fluorescent quantum dots. [J]. Advanced Functional Materials, 2009, 19(15): 2359-2364. |
| 19 | 贾剑红, 杨玲玲, 刘安安, 等. “时-空耦合”活细胞合成量子点[J]. 合成生物学, 2022,3(2): 385-398. |
| JIA Jianhong, YANG Lingling, LIU An'an, et al. Space-time-coupled live-cell synthesis of quantum dots[J]. Synthetic Biology Journal, 2022, 3(2): 385-398. |
| [1] | Yang SUN, Lichao CHEN, Yanyun SHI, Ke WANG, Dandan LU, Xiumei XU, Lixin ZHANG. Strategies and prospects of synthetic biology in crop photosynthesis [J]. Synthetic Biology Journal, 2025, (): 1-16. |
| [2] | Naicai ZHONG, Yuan CHEN, Wenfeng PAN, Xiaofeng SU, Jingwen LIAO, Jinyi ZHONG. Application progress of plasma microbial breeding technology in biofabrication [J]. Synthetic Biology Journal, 2025, (): 1-17. |
| [3] | Zeyan DI, Shuo ZHOU, Mingfang YANG, Xin LIU, Yao CHEN. Application of functional framework materials in C1 biotransformation [J]. Synthetic Biology Journal, 2025, (): 1-18. |
| [4] | Chengxin ZHANG. Challenges and opportunities in text mining-based protein function annotation [J]. Synthetic Biology Journal, 2025, (): 1-14. |
| [5] | Yuanxu JIANG, Yingying FAN, Ping WEI. Design principles and artificial synthesis of biological oscillators [J]. Synthetic Biology Journal, 2025, (): 1-15. |
| [6] | Shuhan HUANG, He MA, Yunzi LUO. Research progress on biosynthesis of salidroside [J]. Synthetic Biology Journal, 2025, (): 1-16. |
| [7] | Qian LI, E. Ferrell James, Yuping CHEN. Cytoplasmic concentration: an old question and a new parameter in cell biology [J]. Synthetic Biology Journal, 2025, (): 1-18. |
| [8] | Baiyi Jiang, Long Qian. Application and prospect of live cell molecular recorder in cell lineage tracing [J]. Synthetic Biology Journal, 2025, (): 1-17. |
| [9] | XU Huaisheng, SHI Xiaolong, LIU Xiaoguang, XU Miaomiao. Key technologies for DNA storage: encoding, error correction, random access, and security [J]. Synthetic Biology Journal, 2025, 6(1): 157-176. |
| [10] | WEN Yanhua, LIU Hedong, CAO Chunlai, WU Ruibo. Applications of protein engineering in pharmaceutical industry [J]. Synthetic Biology Journal, 2025, 6(1): 65-86. |
| [11] | ZHONG Quanzhou, SHAN Yiyi, PEI Qingyun, JIN Yanyun, WANG Yihan, MENG Luyuan, WANG Xinyun, ZHANG Yuxin, LIU Kunyuan, WANG Huizhong, FENG Shangguo. Research progress in the production of α-arbutin through biosynthesis [J]. Synthetic Biology Journal, 2025, 6(1): 118-135. |
| [12] | ZHANG Yi-Heng P. Job, CHEN Xuemei, SHI Ting. Price to Cost-of-raw-materials Ratio (PC) of biomanufacturing: definition and application [J]. Synthetic Biology Journal, 2025, 6(1): 8-17. |
| [13] | LIU Xiaoyue, WANG Pandi, WU Gang, LIU Fang. Efficient biosynthesis of glucoraphanin in Brassicaceae crops by genetic engineering [J]. Synthetic Biology Journal, 2025, 6(1): 136-156. |
| [14] | REN Jiawei, ZHANG Jinpeng, XU Guoqiang, ZHANG Xiaomei, XU Zhenghong, ZHANG Xiaojuan. Effect of terminators on the downstream transcript unit with gene expression in Escherichiacoli [J]. Synthetic Biology Journal, 2025, 6(1): 213-227. |
| [15] | TANG Xinghua, LU Qianneng, HU Yilin. Philosophical reflections on synthetic biology in the Anthropocene [J]. Synthetic Biology Journal, 2025, 6(1): 203-212. |
| Viewed | ||||||
|
Full text |
|
|||||
|
Abstract |
|
|||||