ribozyme activity
核酶活性
ribozyme mechanism
核酶机制
ribozyme function
核酶功能
ribozyme structure
核酶结构
ribozyme engineering
核酶工程
ribozyme design
核酶设计
ribozyme synthesis
核酶合成
ribozyme catalysis
核酶催化
ribozyme evolution
核酶进化
ribozyme research
核酶研究
ribozymes can catalyze biochemical reactions.
核酶可以催化生化反应。
researchers are studying ribozymes for gene therapy.
研究人员正在研究核酶用于基因治疗。
ribozymes play a crucial role in rna processing.
核酶在RNA加工中起着关键作用。
scientists discovered ribozymes in the 1980s.
科学家在1980年代发现了核酶。
ribozymes can be engineered for specific functions.
核酶可以被设计用于特定功能。
understanding ribozymes could lead to new therapies.
理解核酶可能会导致新的治疗方法。
ribozymes are important in the field of molecular biology.
核酶在分子生物学领域中非常重要。
some ribozymes can self-replicate under certain conditions.
在某些条件下,一些核酶可以自我复制。
the study of ribozymes opens new avenues in research.
对核酶的研究为研究开辟了新途径。
ribozymes have potential applications in biotechnology.
核酶在生物技术中具有潜在应用。
ribozyme activity
核酶活性
ribozyme mechanism
核酶机制
ribozyme function
核酶功能
ribozyme structure
核酶结构
ribozyme engineering
核酶工程
ribozyme design
核酶设计
ribozyme synthesis
核酶合成
ribozyme catalysis
核酶催化
ribozyme evolution
核酶进化
ribozyme research
核酶研究
ribozymes can catalyze biochemical reactions.
核酶可以催化生化反应。
researchers are studying ribozymes for gene therapy.
研究人员正在研究核酶用于基因治疗。
ribozymes play a crucial role in rna processing.
核酶在RNA加工中起着关键作用。
scientists discovered ribozymes in the 1980s.
科学家在1980年代发现了核酶。
ribozymes can be engineered for specific functions.
核酶可以被设计用于特定功能。
understanding ribozymes could lead to new therapies.
理解核酶可能会导致新的治疗方法。
ribozymes are important in the field of molecular biology.
核酶在分子生物学领域中非常重要。
some ribozymes can self-replicate under certain conditions.
在某些条件下,一些核酶可以自我复制。
the study of ribozymes opens new avenues in research.
对核酶的研究为研究开辟了新途径。
ribozymes have potential applications in biotechnology.
核酶在生物技术中具有潜在应用。
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