ABSTRACT
It is an urgent need for the development of medical and health undertakings in the new era to build a high-quality university education system and cultivate high-quality personnel for laboratory medicine. In the process of building a national first-class specialty, the medical laboratory technology specialty of Southern Medical University adheres to the concept of high-quality university education and improves the training level of laboratory medicine personnel through the teaching reform practice of constructing the whole-process moral education system, systematical training mode, internationalized teaching team, and intelligent teaching technology. In this paper, we analyzed the connotation and construction experience of a high-quality university education system of laboratory medicine, in order to increase the exchange and communication between different colleges and universities, and make contributions to the national strategic goal of building a powerful country in education before 2035.
ABSTRACT
<p><b>INTRODUCTION</b>The proteins found in tears play an important role in maintaining the ocular surface and changes in tear protein components may reflect changes in the health of the ocular surface. Proteomics provides a comprehensive approach for cataloguing all the proteins of the tear proteome, which will help to elucidate disease pathogenesis, make clinical diagnoses and evaluate the influence of medications on the structure, composition and secretion of tear proteins. In this study, an alternative proteomic strategy was investigated to explore the human tear proteome.</p><p><b>MATERIALS AND METHODS</b>Tear samples were obtained from patients who had pterygium and were collected on the first day and third day after pterygium surgery. Tears pooled from 6 patients were used in the analysis. Reverse-phase high-pressure liquid chromatograph (RPHPLC) was used as the first step to separate intact proteins into 21 peaks. Each fraction was then tryptic-digested and analysed by nanoLC-nano-ESI-MS/MS to characterise the protein components in each fraction.</p><p><b>RESULTS</b>In total, 60 tear proteins were identified with high confidence, including well-known abundant tear proteins, and tear-specific proteins such as lacritin and proline-rich proteins. Among them, proline-rich protein 5 was found for the first time in tear fluid. A large number of plasma proteins were also observed in tear fluid.</p><p><b>CONCLUSIONS</b>The results showed that the proteomic strategy used in this study was successfully applied to analyse tear proteome.</p>