概述了ABA的生物合成、分解代谢途径及其调节机制。
In this review, the pathways of ABA biosynthesis, catabolism and their regulation mechanisms were present.
在本章中我们简要地叙述组织内胶原的结构,生物合成的、降解和调节。
In this chapter we briefly review the structure, biosynthesis, degradation and regulation of collagen in tissues.
在本章中我们简要地叙述组织内胶原的结构,生物合成的、降鲜和调节。
In this chapter we briefly review the structure, biosynthesis, degradation and regulation of collagen in tissues.
本文以核黄素的生物合成和代谢调节机制为依据,分析了几种重要中间产物的流向。
Based on the mechanism of riboflavin biosynthesis and regulation, a few important intermediates in the pathway were analyzed.
分子遗传研究表明,植物基因组中含有影响单性结实的基因,某些来自于细菌的基因也可在植物激素生物合成途径中起调节作用。
Molecular genetic research reveals that some endogenous genes in plants are responsible for parthenocarpy, even that some genes derived from bacteria can regulate the production of plant hormones.
BADH是甜菜碱乙醛脱氢酶的编码基因,该酶是甜菜碱生物合成的一种关键酶,甜菜碱通过渗透调节发挥抗逆作用。
BADH gene encodes for betaine aldehyde dehydrogenase, an important enzyme for the biosynthesis of glycine betaine that plays a definite role in stress tolerance through osmoregulation.
醛固酮合酶(CYP11B2)是醛固酮生物合成最后一步的催化酶。醛固酮的分泌主要由醛固酮合酶的表达水平来调节。
Aldosterone secretion is regulated largely at the level of expression of the final enzyme required for its biosynthesis, aldosterone synthase (CYP11B2).
本论文根据多杀菌素的生物合成途径和代谢调节机理,对刺糖多孢菌进行理性化选育。
A rational selection procedure was developed based on the biosynthetic pathway and metabolic regulation of spinosad.
本研究为进一步利用细胞培养技术生产甜菜红素以及研究甜菜红素在细胞内的生物合成调节机制奠定了基础。
These results laid the foundation for further producing betacyanin by plant cell culture and studying betacyanin biosynthesis regulation mechanism in plant cell.
本文综述了链霉素生物合成途径、代谢调节机制、链霉素发酵的代谢调控育种及其进展。
This article reviews the biosynthesis approach, metabolic control mechanism of streptomycin, metabolic control breeding and research advance of streptomycin fermenting.
在授粉反应过程中,有初级和次级两种授粉信号的参与,授粉对乙烯的生物合成及花衰老的调节都是通过这两种信号实现的。
Some results suggest involvement of a primary and a secondary signal in the pollination response. They are both link to ethylene evolution and flower senescence.
在授粉反应过程中,有初级和次级两种授粉信号的参与,授粉对乙烯的生物合成及花衰老的调节都是通过这两种信号实现的。
Some results suggest involvement of a primary and a secondary signal in the pollination response. They are both link to ethylene evolution and flower senescence.
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