1.Advances in the research of microRNA in Orchidaceae.
Zihan XU ; Yue CHEN ; Fengrong HU
Chinese Journal of Biotechnology 2022;38(1):66-76
As a class of small non-coding RNAs, microRNA (miRNA) is widely present and plays important regulatory roles in plant growth, development and stress response. Based on the mechanism of miRNAs in plants, we review the identification of miRNAs in some genera of Orchidaceae, the specific functions of several miRNAs and other relevant studies on miRNAs in the last decade, in order to provide a reference for better understanding function and regulatory network of small RNAs in orchids.
MicroRNAs/genetics*
;
Orchidaceae/genetics*
;
Plants/genetics*
2.Genetics of Branchal Asthma.
Tuberculosis and Respiratory Diseases 2006;60(4):391-396
3.Genetics of Epilepsy.
Journal of Korean Epilepsy Society 2003;7(2):91-95
4.Genetics in Epilepsy.
Journal of the Korean Child Neurology Society 1999;6(2):205-214
6.Genetics of Atopy and Asthma.
Pediatric Allergy and Respiratory Disease 1999;9(4):343-350
7.Moleculan Genetics of Glucocorticoid Remediable Aldosteronism.
Journal of Korean Society of Endocrinology 1997;12(3):341-345
No abstract available.
Genetics*
;
Hyperaldosteronism*
8.Online and offline mixed teaching mode of medical genetics.
Gang SU ; Jiong LI ; Hua WU ; Peiqiang LI ; Xiaodong XIE
Chinese Journal of Biotechnology 2021;37(8):2967-2975
Online courses are an indispensable part of medical teaching in the new era. Online courses have good prospects, although also with certain problems in practice. As an important basic medical course, medical genetics has both basic theoretical knowledge and clinical cases, involving basic principles and the latest developments. A single online course or offline teaching model cannot meet the needs of subject development and training a new generation of medical professionals. Therefore, actively exploring the online and offline hybrid teaching model is one of the important topics in the current medical teaching reform.
Genetics, Medical
9.The current status and future prospects of DNA computing.
Shan YANG ; Jinyu LI ; Yujun CUI ; Yue TENG
Chinese Journal of Biotechnology 2021;37(4):1120-1130
As the demand for high-performance computing continues to grow, traditional computing models are facing unprecedented challenges. Among the many emerging computing technologies, DNA computing has attracted much attention due to its low energy consumption and parallelism. The DNA circuit, which is the basis for DNA computing, is an important technology for the regulation and processing of the molecular information. This review highlights the basic principles of DNA computing, summarizes the latest research progress, and concludes with a discussion of the challenges of DNA computing. Such integrated molecular computing systems are expected to be widely used in the fields of aerospace, information security and defense system.
DNA/genetics*