细胞工程技术

运用植物细胞工程技术结合理化诱变因子诱变筛选抗CMV突变体，为创造抗CMV突变系提供了有益的尝试。

The method of using technology of plant cell engineering combining physical and chemical mutagenesis offers helpful try in creating the mutant of resisting CMV .

草莓细胞工程技术与分子生物学研究进展

Advances on Cell Engineering Technology and Molecular Biology in Strawberry

植物细胞工程技术在油菜育种中的应用现状与进展

Advances on Plant Cell Engineering Technology Application in Rapeseed Breeding

细胞工程技术在作物育种上的研究与应用新进展

Development and Progress in the Application of Cell Engineering in Plant Breeding

利用细胞工程技术筛选小麦抗病新种质的研究

Studies of Screening New Germplasms for Disease Resistance by Cell Engineering in Wheat

用细胞工程技术发展我国的紫菜养殖业

Development of Porphyra Cultivation with Cell Engineering

利用细胞工程技术创制改良甜菜基础材料的研究

Study on the basal material of improved sugar beet created by the somatic cell engineering technique

利用辐射诱变与细胞工程技术定向培育耐盐小麦

Development of Wheat Cultivars with salt tolerance through nuclear irradiation mutagenesis and plant cell Enginering technique

应用细胞工程技术选育四倍体龙牙百合的研究

Studies on the Induction of Autotetraploid of Lily " Nongya Baihuo " by Cell Engineering Technique

随着现代细胞工程技术的迅速发展，细胞工程育苗即配子体无性繁殖系育苗方法成为目前海带育苗生产中的崭新技术。

With the development of technology of cell engineering , gametophyte clone seed-rearing is a new technology .

因此利用现代细胞工程技术对西洋参进行细胞和组织培养已成为解决这一问题的途径之一。

One of ways that solve this problem is carrying out cell and tissue culture by using cell engineering .

综述了近20年来国内外利用植物细胞工程技术进行油菜育种所取得的成就。

The paper summarized the achievements of rapeseed by plant cell engineering technology at home and abroad in lately 20 years .

通过分析提出了在今后的油菜育种中，植物细胞工程技术将是一种重要的辅助育种手段。

Analysis of heat tolerance in Poa pratensis produced by heat stress The plant cell engineering technology will be a important supplementary means in rapeseed breeding in the future .

对利用生物技术方法生产天然香料香精进行了详尽的描述，包括基因工程技术、植物细胞工程技术、酶工程技术和微生物工程技术等在天然香料香精生产中的应用情况。

The biotechnological methods for the production of natural flavor & fragrance were reviewed , including the application of gene engineering , plant cell engineering , enzyme engineering and microbe engineering .

哺乳动物克隆不仅可以保护濒危动物，而且与干细胞工程技术相结合能应用于克隆性治疗，是目前生物技术领域研究的热点之一，具有重大的科学意义和应用价值。

The cloning of mammalian is not only used to protect extinct animals , but also applied for therapeutic cloning , so it currently becomes one of hot points of bio-technology fields and has great scientific significance and applied value .

本文阐述了基因工程和细胞工程技术在园林植物株型和花型、花色和香味、生长发育、延缓衰老、抗病虫、抗逆境等方面的研究现状；

Mainly , current research advances were discussed on genetic and cell engineering technologies exploiting in plant stature and flower shape , color and fragrance , growth and development , life lengthening , pest and disease resistance , and adverse circumstance tolerance .

在草鱼抗病育种的初期，育种的方法多采用常规杂交和选择压力育种；到20世纪50年代末60年代初，随着细胞工程技术的发展，细胞工程在草鱼抗病育种上也得到了充分的运用。

In the initial stage , routine hybridization and the selective pressure breeding are adopted , while the period of the later 50s and early 60s of last century also witnessed the fully application of cell engineering technology on the grass carp disease-resistant researches .

方法：实验于2003-01/2005-12在西北农林科技大学陕西省干细胞工程技术研究中心完成。取10周龄人工流产胎儿肺组织，0.25%胰蛋白酶消化，经培养得到人胎肺间充质干细胞。

METHODS : Experiment was completed in Shaanxi Center of Stem Cell Engineering and Technology , Northwest Science and Technology University of Agriculture and Forestry from January 2003 to December 2005 . Lung of 10 weeks old fetus was dissected and digested by 0.25 % Trypsin .

将独创的《水稻成熟花粉辐照诱变育种技术》、细胞工程技术、有性杂交、独特的米质筛选等技术进行有机结合，创建了一条高效的水稻新品种育种新途径。

The organic combination of the " Technique of Mutation Breeding by Irradiation on Mature Pollen of Rice ", cell engineering , sexual hybridization , and the unique grain-quality-screening , resulted in the establishment of a novel , highly efficient way for breeding of new variety in rice .

随着发育生物学、分子生物学等生命科学的飞速发展和组织工程、干细胞工程等技术的进步，人们对烧（创）伤修复、组织再生的认识更加深刻。

With the development of molecular , cell and developmental biology , we have made great progress in understanding the biologic process involved in wound repair and tissue regeneration .

而随着人类对其应用价值认识的提高以及有关新技术方法的注入，建立在现代遗传学以及细胞染色体工程技术基础之上的林木多倍体育种将焕发出新的生机与活力。

Following the increasing understanding on application values of polyploid and using of related new techniques , the polyploid breeding based on modern genetics and cell and chromosomal engineering will have new vitality and vigor .

麻黄植物细胞工程的关键技术及研究进展

Ephedra Cell Engineering : Key Techniques and Research Progresses

目的：总结综述我国在细胞工程制药相关技术领域，如细胞融合、核移植、染色体改造、转基因和大规模细胞培养等方面的研究现状和未来的发展前景。

OBJECTIVE : To review the present and prospecting of cell engineering pharmacy in China .

干细胞在组织工程技术修复重建下尿路疾病中的应用

Application of stem cells in repair and reconstruction of low urinary system using tissue engineering technology

近年来，关于牙齿干细胞及组织工程技术的研究进展给牙齿和牙周组织生物再生带来了新的希望。

Recently , the new prospect on bio-regeneration of teeth and periodontal tissue is brought about by the progress of dental related stem cells and tissue engineering technology .

简要介绍了基因工程、酶工程、发酵工程、细胞工程等生物技术在焙烤工业中的应用情况。

The applications of biological technology such as gene project , enzyme project , fermentation project and cell project which are used in the production of baking food are introduced briefly .

本文根据近年来研究报道的资料，分析了水稻蛋白质改良的必要性，综述了应用基因工程、细胞工程等生物技术方法在水稻蛋白质改良方面的研究进展，并对今后的研究提出建议。

The necessity of improvement of protein in rice were analyzed and the achievements about improvement of protein in rice using biotechnological methods such as gene engineering and cell engineering were reviewed in this paper . Finally , a few priorities of study in this field were further discussed .

植物细胞工程和基因工程技术的发展为提高紫花苜蓿的抗逆性提供了一条新途径。

Plant cell engineering and genetic engineering technology to enhance the resistance of alfalfa provides a new way .

细胞工程和遗传工程技术将为人工合成天然活性物质开辟新的途径。

Cell engineering and genetic engineering technology will open up a new route to artificial synthesis of natural active substances .

种子细胞是应用组织工程技术重建组织、器官的前提和基础，干细胞已成为最佳种子细胞来源。

Seed cells are prerequisite for reconstruction of artificial tissues / organs by tissue engineering approach . It has been widely accepted that stem cells are the best candidate for tissue engineering .