反义技术是基因治疗的一个策略。
反义技术是目前癌症治疗领域很重要的一门技术。
Antisense technique is an important area of research in cancer-associated treatment.
本文对反义技术的概念及其在眼科领域中的应用作了简要介绍,以期对眼科领域的研究有所帮助。
The application of antisense technology in ophthalmology is introduced briefly in the review. This may be helpful to the studies in ophthalmic research field.
由于他们能与信使核糖核酸(mRNA)靶特异性结合,进而抑制靶基因的翻译,因而在反义技术中已被成功地应用。
They have been successfully used in antisense technology, for their ability to specifically bind to messenger RNA (mRNA) targets and to inhibit translation of the target genes.
随着基因工程技术的蓬勃发展和代谢调控研究的深入,反义技术作为一种温和调控的基因工程技术,开始向世人展示其无穷的魅力。
With the rapid development of genetic engineering and metabolic regulation, antisense technology displays its fascination to the world as a mild regulation genetic tool.
本文将对反义技术、反义技术存在的问题及可能的解决方法、以及当前反义技术在医学中的应用进行阐述,本文还将对反义技术未来的发展趋势进行讨论。
This review expatiates on its techniques, its problem and possible way of problem solving, and its recent application in medicine. Also this review discusses the trends of its further development.
结论利用位置特性重组技术,成功的构建了人反义B7 - H1的腺病毒载体,为后续对B7 - H1的相关研究创造了条件。
Conclusion the recombinant adenovirus vector was constructed successfully by site-specific recombination technique, which provides a foundation for further research about B7-H1.
此外,还有更多有关新型药物运载技术的进展,如小分子干扰rna和反义dna,其主要的靶器官是肝脏。
Also we will hear more about novel delivery techniques for drugs such as small interfering RNA and antisense DNA whose primary target organ is the liver.
反义核酸作为一种新的抗病毒、抗肿瘤药物,它的应用受到越来越多的重视,但反义核酸技术的研究也面临一些挑战。
As a new anti - virus, anti - tumor drug, antisense nucleic acid's application has been given more and more attention, but the research of antisense nucleic acid technology also faces some challenges.
介绍了反义rna的概念及作用机理,对反义rna技术及其在农业领域的应用进行了概述。
This paper presents the definition and action mechanism of antisense RNA; Besides, the paper reviews antisense RNA technology and its application in agricultural field.
现在正在使用反义rna技术试图提供一种抗噬菌体遗传因子的试剂,从而帮助乳酸菌和它们的噬菌体进行长期不问断的斗争。
Antisense RNA now being used in an attempt to provide an agent against bacteriophage genes to help in the constant struggle between lactic acid bacteria and their phages.
现在正在使用反义rna技术试图提供一种抗噬菌体遗传因子的试剂,从而帮助乳酸菌和它们的噬菌体进行长期不问断的斗争。
RNA now being used in an attempt to provide an agent against bacteriophage genes to help in the constant struggle between lactic acid bacteria and their phages.
对基因药物的研究及应用,基因芯片技术、基因毒素、反义药物等在肿瘤治疗中的应用的研究进展做一综述。
In this paper, a review is presented, which contains the application and development of gene drug in the tumor therapy in several directions such as DNA.
采用DAPI染色技术观察hpk1反义寡核苷酸对OGD诱导的海马神经元凋亡的作用。
DAPI staining was used to investigate the role of HPK1 antisense oligodeoxynucleotides in hippocampus neuron death induced by OGD.
对基因药物的研究及应用,基因芯片技术、基因毒素、反义药物等在肿瘤治疗中的应用的研究进展做一综述。
In this paper, a review is presented, which contains the application and development of gene drug in the tumor therapy in several directions such as DNA. microarray, gene toxin and antisense drug.
随着反义rna的发现及对其研究的深入,反义rna技术已被广泛应用于基因调控的研究中。
With the discovery of antisense RNA and further research, antisense RNA technique has been applied in the study of gene regulation.
随着反义rna的发现及对其研究的深入,反义rna技术已被广泛应用于基因调控的研究中。
With the discovery of antisense RNA and further research, antisense RNA technique has been applied in the study of gene regulation.
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