感染组学

The field of infectomics aims to understand the comprehensive host-pathogen interactions at the molecular level.
感染组学领域旨在从分子水平理解全面的宿主-病原体相互作用。
Through high-throughput technologies, infectomics helps identify new targets for antimicrobial drug development.
通过高通量技术，感染组学有助于识别抗菌药物开发的新靶点。
By studying infectomics, we can gain insights into how pathogens evade the immune system and cause disease.
通过研究感染组学，我们可以深入了解病原体如何逃避免疫系统并引发疾病。
In recent years, progress in infectomics research has significantly advanced our knowledge of infectious diseases.
近年来，感染组学研究的进步显著提升了我们对传染病的认识。
Infectomics is a multidisciplinary approach that combines genomics, transcriptomics, proteomics, and metabolomics to study infections.
感染组学是一种多学科方法，结合基因组学、转录组学、蛋白质组学和代谢组学来研究感染现象。
Researchers in the field of infectomics analyze global changes in gene expression during infection to better understand disease mechanisms.
感染组学领域的研究人员分析感染期间全局基因表达的变化以更好地理解疾病机制。
Understanding infectomics could lead to more effective treatments and preventive strategies against infectious agents.
理解感染组学可能导致针对传染性病原体更有效的治疗和预防策略。
Using systems biology approaches within infectomics can help predict disease outcomes based on host and pathogen characteristics.
在感染组学中使用系统生物学方法可以帮助根据宿主和病原体特征预测疾病结果。
Comparative infectomics studies have revealed differences in host responses to similar pathogens among different species.
比较感染组学研究揭示了不同物种对相似病原体的宿主反应差异。
The application of single-cell infectomics has opened up new avenues for understanding heterogeneity in host-pathogen interactions.
单细胞感染组学的应用为理解宿主-病原体互作中的异质性开辟了新途径。