Synthetic Biology Journal ›› 2024, Vol. 5 ›› Issue (4): 695-699.DOI: 10.12211/2096-8280.2024-069
Previous Articles Next Articles
Received:
2024-08-29
Revised:
2024-08-30
Online:
2024-09-19
Published:
2024-08-31
李天晴1, 秦建华2
作者简介:
CLC Number:
李天晴, 秦建华. 类器官、器官芯片与合成生物学:前沿科技交响曲[J]. 合成生物学, 2024, 5(4): 695-699.
Add to citation manager EndNote|Ris|BibTeX
URL: https://synbioj.cip.com.cn/EN/10.12211/2096-8280.2024-069
1 | 李玉娟, 傅雄飞, 张先恩. 合成生物学发展脉络概述[J]. 中国生物工程杂志, 2024, 44(1): 52-60. |
LI Y J, FU X F, ZHANG Xian'en. A brief overview of synthetic biology[J]. China Biotechnology, 2024, 44(1): 52-60. | |
2 | SATO T, VRIES R G, SNIPPERT H J, et al. Single Lgr5 stem cells build crypt-villus structures in vitro without a mesenchymal niche[J]. Nature, 2009, 459(7244): 262-265. |
3 | HUH D, MATTHEWS B D, MAMMOTO A, et al. Reconstituting organ-level lung functions on a chip[J]. Science, 2010, 328(5986): 1662-1668. |
4 | LIU H T, WANG Y Q, CUI K L, et al. Advances in hydrogels in organoids and organs-on-a-chip[J]. Advanced Materials, 2019, 31(50): e1902042. |
5 | AMADEI G, HANDFORD C E, QIU C X, et al. Embryomodel completes gastrulation to neurulation and organogenesis[J]. Nature, 2022, 610(7930): 143-153. |
6 | TARAZI S, AGUILERA-CASTREJON A, JOUBRAN C, et al. Post-gastrulation synthetic embryos generated ex utero from mouse naive ESCs[J]. Cell, 2022, 185(18): 3290-3306.e25. |
7 | XU P F, BORGES R M, FILLATRE J, et al. Construction of a mammalian embryo model from stem cells organized by a morphogen signalling centre[J]. Nature Communications, 2021, 12(1): 3277. |
8 | 艾宗勇, 张成庭, 牛宝华, 等. 人胚胎早期发育与干细胞[J]. 合成生物学, 2024, 5(4):700-718. |
AI Zongyong, ZHANG Chengting, NIU Baohua, et al. Early human embryo development and stem cells[J]. Synthetic Biology Journal,2024,5(4):700-718. | |
9 | 胡博文, 陈家斌, 刘晓东. 人类早期胚胎发育体外模型研究进展[J]. 合成生物学, 2024, 5(4):719-733. |
HU Bowen, TAN Jiaping, LIU Xiaodong. Advances in the development of human embryo models[J]. Synthetic Biology Journal,2024,5(4):719-733. | |
10 | 韩宜钊, 郭佳, 邵玥. 干细胞模拟发育:细胞元件、胚胎模型与工程方法[J].合成生物学, 2024, 5(4):734-753. |
HAN Yizhao, GUO Jia, SHAO Yue. Stem cell-based synthetic development: cellular components, embryonic models, and engineering approaches [J]. Synthetic Biology Journal,2024,5(4):734-753. | |
11 | 洪源, 刘妍. 脑类器官在再生医学中的研究进展[J]. 合成生物学, 2024, 5(4):754-769. |
HONG Yuan, LIU Yan. Research progress of brain organoids in regenerative medicine[J]. Synthetic Biology Journal,2024,5(4):754-769. | |
12 | 张博航, 祁晓萱, 袁艳. 睾丸类器官在体外精子发生中的研究进展[J]. 合成生物学, 2024, 5(4):770-781. |
ZHANG Bohang, QI Xiaoxuan, YUAN Yan. Advancements in testicular organoids for in vitro spermatogenesis[J]. Synthetic Biology Journal,2024,5 (4):770-781. | |
13 | 蔡冰玉, 谭象天, 李伟. 合成生物学在干细胞工程化改造中的研究进展[J]. 合成生物学, 2024, 5(4):782-794. |
CAI Bingyu, TAN Xiangtian, LI Wei. Advances in synthetic biology for engineering stem cell[J]. Synthetic Biology Journal,2024,5(4):782-794. | |
14 | 陈子苓, 向阳飞. 类器官技术与合成生物学协同研究进展[J]. 合成生物学, 2024, 5(4):795-812. |
CHEN Ziling, XIANG Yangfei. Integrated development of organoid technology and synthetic biology[J]. Synthetic Biology Journal,2024,5(4):795-812. | |
15 | WANG Y Q, QIN J H. Advances in human organoids-on-chips in biomedical research[J]. Life Medicine, 2023, 2(1): lnad007. |
16 | 陈汐玥, 王亚清, 包芳, 等. 肝芯片在生物医学研究中的应用进展[J]. 合成生物学, 2024, 5(4):813-830. |
CHEN Xiyue, WANG Yaqing, BAO Fang, et al. Advances in the application of liver on a chip in biomedical research[J]. Synthetic Biology Journal,2024,5(4):813-830. | |
17 | 曹荣凯, 秦建华, 王亚清. 胎盘芯片及其在生殖医学领域的研究进展[J]. 合成生物学, 2024, 5(4):831-850. |
CAO Rongkai, QIN Jianhua, WANG Yaqing. Advances in placenta-on-a-chip for reproductive medicine research[J]. Synthetic Biology Journal, 2024,5(4):831-850. | |
18 | 李石开, 曾东鳌, 杜方舟, 等. 血管化类器官的构建方法及生物材料[J]. 合成生物学, 2024, 5(4):851-866. |
LI Shikai, ZENG Dong’ao, DU Fangzhou, et al. The construction approaches and biomaterials for vascularized organoids [J]. Synthetic Biology Journal,2024,5(4):851-866. | |
19 | 王达庆, 陶婷婷, 张旭, 等. 骨骼肌芯片及其在生物医学领域的研究进展[J]. 合成生物学, 2024, 5(4):867-882. |
WANG Daqing, TAO Tingting, ZHANG Xu,et al. Advances in skeletal muscle-on-a-chip for biomedical research[J]. Synthetic Biology Journal,2024,5(4):867-882. | |
20 | 胡可儿, 王汉奇, 黄儒麒, 等. 整合设计策略下的工程化类器官与类器官芯片技术[J]. 合成生物学, 2024, 5(4):883-897. |
HU Ke'er, WANG Hanqi, HUANG Ruqi, et al. Integrated design strategies for engineered organoids and organ-on-a-chip technologies[J]. Synthetic Biology Journal,2024,5(4):883-897. | |
21 | 陈倩文, 赵思琪, 彭耀进. 类器官:技术创新与伦理争议[J]. 合成生物学, 2024, 5(4):898-907. |
CHEN Qianwen, ZHAO Siqi, PENG Yaojin. Organoids: technological innovation and ethical controversies[J]. Synthetic Biology Journal,2024,5(4): 898-907. | |
22 | WANG Y L, LIN H Q, ZHAO L Z, et al. Standard: Human intestinal organoids[J]. Cell Regeneration, 2023, 12(1): 23. |
23 | LIU H T, WANG Y Q, ZHANG X, et al. Standard: human intestine-on-a-chip[J]. Cell Regeneration, 2024, 13(1): 16. |
[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] | 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. |
[10] | 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. |
[11] | 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. |
[12] | 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. |
[13] | TANG Xinghua, LU Qianneng, HU Yilin. Philosophical reflections on synthetic biology in the Anthropocene [J]. Synthetic Biology Journal, 2025, 6(1): 203-212. |
[14] | ZHENG Yikun, ZHENG Jie, HU Guopeng. Research on the application of optogenetic tools in learning and memory [J]. Synthetic Biology Journal, 2025, 6(1): 87-104. |
[15] | 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. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||