物理诱变技术是当今工业微生物育种中最重要、最有效的技术之一。
Physical mutation is one of the most important and efficient technique in industrial microorganism breeding.
研究结果表明:铜蒸汽激光作为诱变因子值得在微生物育种工作中推广应用。
The result of the experiments indicated Copper Vapor Laser is a better agent to induction.
论述了基因敲除的基本原理、几种常用技术及该项技术在微生物育种方面的应用。
In this paper, the basic principles of gene knockout, several common techniques and their application in microbial breeding were introduced.
离子束生物工程技术与传统微生物育种技术、现代生物技术相结合,将大大提高耐高温乙醇酵母菌种的选育效率。
The combination of ion beam bioengineering techniques, traditional microbial breeding techniques and modern biotech could greatly increase breeding efficiency of heat-resistance ethanol yeast.
目前,离子束在农业和工业微生物育种的应用上已产生了巨大的经济效益,但鲜见离子束在药用植物育种上的应用报道。
Nowadays great economic effect had been achieved in agriculture and industrial microbial breeding. But no application of ion beam had been reported in officinal plant breeding.
原生质体融合技术是微生物育种的有效方法之一,包括原生质体制备、原生质体融合、原生质体再生及融合子的分离等主要过程。
The protoplast fusion technology is an effective ways of microbial breeding, including main processes of protoplast preparation, protoplast fusion, protoplast regeneration, fusion separation.
该项技术在细菌、酵母菌、链霉菌和霉菌等方面的研究和初步应用,为工业微生物遗传育种,开辟了广阔的前景。
The technology, which has been studied and used on bacteria, saccharomyces, streptomycete and mold, could be considered a good way for mutation breeding of industrial microbiology.
是水体分析和BOD测定,细菌、霉菌、微生物的培养、保存、植物栽培、育种实验的专用恒温设备。
It is a dedicated constant-temperature equipment for analysis of water, BOD test, cultivation and storage of bacteria, moulds and microorganisms, plant cultivation and seed-breeding test.
育种技术的不断成熟,大大提高了微生物的育种效果。
Breeding Technology continues to grow, greatly increasing the microbial breeding results.
是水体分析和BOD测定,细菌、霉菌、微生物的培养、保存、植物栽培、育种实验的专用恒温设备。
It is a dedicated constant-temperature equipment for analysis of water body, bod test, cultivation and storage of bacteria, moulds and microorganisms, plant cultivation and seed-breeding test.
本文综述1972年至2002年有关微生物激光育种学的新进展。
The article summarizes recent progress for the laser Breeding of the microorganism from 1972 to 2002.
微生物是低等生物,遗传背景比较简单,一旦突变就会形成新的东西,这对航天育种研究有非常大的价值。
For microbial strain with simple genetic background, outer space conditions can make microorganism change into a new type, which is valuable for space breeding research.
微生物是低等生物,遗传背景比较简单,一旦突变就会形成新的东西,这对航天育种研究有非常大的价值。
For microbial strain with simple genetic background, outer space conditions can make microorganism change into a new type, which is valuable for space breeding research.
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