In recent years, the application of the long read single-molecule sequencing technology in clinical genetics testing has been increasingly widespread. Due to its sequencing process not requiring amplification and its characteristic of single-molecule sequencing and long reads, it has unique advantages compared to traditional molecular genetics testing such as Sanger sequencing, next-generation sequencing and chromosomal microarray. In this article, its application in the detection of chromosomal structural abnormalities, monogenic diseases, and preimplantation genetic testing for monogenic diseases were discussed. Along with a comparative analysis of the advantages and disadvantages of the long read single-molecule sequencing technology in these areas compared to traditional molecular genetics testing techniques. This article preliminarily explores the application prospects and value of the long read single-molecule sequencing technology in clinical genetics testing.
Chronic obstructive pulmonary disease (COPD), which predominantly affects middle-aged and elderly individuals, is associated with a significantly reduced quality of life and often triggers various other pulmonary conditions. Lung cancer, as one of the most prevalent and deadly pulmonary malignancies worldwide, poses a severe threat to global public health. The risk of developing lung cancer is markedly higher in COPD patients compared to the general population, indicating numerous associations between the two conditions that warrant in-depth investigation. Although a substantial body of research has explored the relationship between COPD and lung cancer, studies focusing on the molecular mechanisms underlying their connection remain limited. This article reviews the latest research progress on the mechanisms of COPD complicated by lung cancer from four perspectives: the role of chronic pulmonary inflammation, programmed cell death, genetic and molecular interactions, and dysbiosis of the pulmonary microbiome. The aim is to provide new insights and references for the prevention and therapeutic strategies of COPD complicated by lung cancer.