n.多顺反子

In bacteria, a polycistronic mRNA can encode multiple proteins from a single gene.
在细菌中，多顺反子mRNA可以从一个基因编码多个蛋白质。
The expression of the polycistronic gene was regulated by an upstream promoter element.
多顺反子基因的表达受到上游启动子元件的调控。
Genetic engineers often manipulate polycistronic genes to produce multiple therapeutic proteins in one organism.
基因工程师常常操纵多顺反子基因，使其在一个生物体中产生多种治疗蛋白。
The presence of a polycistronic operon allows bacteria to respond efficiently to environmental changes.
多顺反子操纵子的存在使细菌能有效地应对环境变化。
A ribosome can translate a polycistronic mRNA into a polypeptide chain containing multiple proteins simultaneously.
一个核糖体可以同时翻译多顺反子mRNA，生成包含多个蛋白质的多肽链。
Mutations in a polycistronic gene can lead to the production of truncated or non-functional proteins.
多顺反子基因的突变可能导致产生截断或功能丧失的蛋白质。
Scientists study the interactions between different cistrons within a polycistronic mRNA to understand gene regulation.
科学家研究多顺反子mRNA内不同cistron之间的相互作用，以理解基因调控机制。
Pharmaceutical companies develop synthetic polycistronic vectors for targeted gene therapy.
药物公司开发合成多顺反子载体进行靶向基因疗法。
The expression of a polycistronic gene can be interrupted by inserting a stop codon between the cistrons.
在cistron之间插入终止密码子可中断多顺反子基因的表达。
Bacterial cells can use a riboswitch to regulate the translation of a polycistronic mRNA based on environmental cues.
细菌细胞可以根据环境信号，通过核糖开关来调节多顺反子mRNA的翻译。