化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2015年
8期
2863-2871
,共9页
林章凛%张艳%王胥%刘鹏
林章凜%張豔%王胥%劉鵬
림장름%장염%왕서%류붕
合成生物学%生化工程%代谢%元器件%模块%基因线路%化学品合成%基因组
閤成生物學%生化工程%代謝%元器件%模塊%基因線路%化學品閤成%基因組
합성생물학%생화공정%대사%원기건%모괴%기인선로%화학품합성%기인조
synthetic biology%biochemical engineering%metablism%parts and devices%modules%genetic circuit%chemical synthesis%genome
合成生物学是以工程化设计思路,构建标准化的元器件和模块,改造已存在的天然系统或者从头合成全新的人工生命体系,实现在化学品合成(包括材料、能源和天然化合物)、医学、农业、环境等领域的应用。人们利用基本的生物学元件设计和构建了基因开关、振荡器、放大器、逻辑门、计数器等合成器件,实现对生命系统的重新编程并执行特殊功能。模块化处理生物的代谢途径,并在底盘细胞上进行组装和优化,可以实现大宗化学品和精细化学品的合成。目前人们已经在丁醇、异丁醇、青蒿素和紫杉醇等化合物的生物合成上取得了重要进展。近年来还发展了多种基因组编辑和组装技术,可精确地对基因组进行编辑,人们还成功地合成了噬菌体基因组、支原体基因组和酵母基因组。在未来的50~100年内,合成生物学将对人类的医疗、化学品制造(含药品)、军事产生渐进性的、渗透性的但颠覆性的意义。
閤成生物學是以工程化設計思路,構建標準化的元器件和模塊,改造已存在的天然繫統或者從頭閤成全新的人工生命體繫,實現在化學品閤成(包括材料、能源和天然化閤物)、醫學、農業、環境等領域的應用。人們利用基本的生物學元件設計和構建瞭基因開關、振盪器、放大器、邏輯門、計數器等閤成器件,實現對生命繫統的重新編程併執行特殊功能。模塊化處理生物的代謝途徑,併在底盤細胞上進行組裝和優化,可以實現大宗化學品和精細化學品的閤成。目前人們已經在丁醇、異丁醇、青蒿素和紫杉醇等化閤物的生物閤成上取得瞭重要進展。近年來還髮展瞭多種基因組編輯和組裝技術,可精確地對基因組進行編輯,人們還成功地閤成瞭噬菌體基因組、支原體基因組和酵母基因組。在未來的50~100年內,閤成生物學將對人類的醫療、化學品製造(含藥品)、軍事產生漸進性的、滲透性的但顛覆性的意義。
합성생물학시이공정화설계사로,구건표준화적원기건화모괴,개조이존재적천연계통혹자종두합성전신적인공생명체계,실현재화학품합성(포괄재료、능원화천연화합물)、의학、농업、배경등영역적응용。인문이용기본적생물학원건설계화구건료기인개관、진탕기、방대기、라집문、계수기등합성기건,실현대생명계통적중신편정병집행특수공능。모괴화처리생물적대사도경,병재저반세포상진행조장화우화,가이실현대종화학품화정세화학품적합성。목전인문이경재정순、이정순、청호소화자삼순등화합물적생물합성상취득료중요진전。근년래환발전료다충기인조편집화조장기술,가정학지대기인조진행편집,인문환성공지합성료서균체기인조、지원체기인조화효모기인조。재미래적50~100년내,합성생물학장대인류적의료、화학품제조(함약품)、군사산생점진성적、삼투성적단전복성적의의。
Synthetic biology is the engineering design and construction of standardized parts, devices and modules to modify the natural life systems or thede novo synthesis of new life systems. Synthetic biology has been widely applied to the fields of chemical synthesis (including materials, biofuels and natural compounds), medical industry, agriculture and environmental protection. Biological parts are used to construct synthetic modules such as toggle switch, synthetic oscillator, genetic amplifier, biologic gates and cellular counter. These synthetic modules reprogram life systems to perform specific functions. Modularized metabolic pathways are optimized in the cellular chassis to realize the biological production of bulk and fine chemicals, such as butanol, isobutanol, artemisinin, and taxol. In recent years, researchers have also developed several genome-editing and DNA assembly techniques, making it possible to perform the precise editing and synthesis of genomes. Moreover, genomes of bacteriophage,Mycoplasma genitalium andSaccharomyces cerevisiae have also been successfully synthesized. In the next 50—100 years, synthetic biology will have significant influence on medical industry, chemical (including drugs) synthesis and military affairs. Synthetic biology will have a gradual but disruptive meaning to the world.
