Hong Qun Luo
Contributor at Harvard Business School Working Knowledge
Articles
-
Dec 6, 2024 |
respiratory-research.biomedcentral.com | Xingyu Rao |Hong Qun Luo |Kaiyuan Luo |Chaohua Hu
Female BALB/c mice (aged 6–7 weeks, 18–20 g) were purchased from the SPF Biotechnology Co. (Beijing, China) and kept in specific pathogen-free and controlled temperature (24 ± 1 °C) conditions. The mice were maintained under a 12-h light/dark cycle and supplied with a normal diet and drinking water.
-
Sep 26, 2024 |
nature.com | Xin Wei |Zhang Wang |Hong Qun Luo |Yuxin Leng
AbstractThe lower respiratory tract (LRT) microbiome impacts human health, especially among critically ill patients. However, comprehensive characterizations of the LRT microbiome remain challenging due to low microbial mass and host contamination. We develop a chelex100-based low-biomass microbial-enrichment method (CMEM) that enables deep metagenomic profiling of LRT samples to recover near-complete microbial genomes.
-
Sep 19, 2024 |
arxiv.org | Shoujie Li |Hong Qun Luo |Houde Liu |Xueqian Wang
-
Jan 13, 2024 |
pubs.acs.org | Zi Xu |Rong Wang |Qi Xiao |Hong Qun Luo
With the booming development of food manufacturing, developing ideal analytical tools to precisely quantify food additives is highly sought after in the food science field. Herein, a new series of quinoline-derived multifunctional fluorescent probes has been synthesized. Bearing double reactive sites, these compounds display fluorescence response toward both bisulfite (HSO3–) and hypochlorous acid (HClO).
-
Jan 13, 2024 |
dx.doi.org | Zi Xu |Rong Wang |Qi Xiao |Hong Qun Luo
With the booming development of food manufacturing, developing ideal analytical tools to precisely quantify food additives is highly sought after in the food science field. Herein, a new series of quinoline-derived multifunctional fluorescent probes has been synthesized. Bearing double reactive sites, these compounds display fluorescence response toward both bisulfite (HSO3–) and hypochlorous acid (HClO).
Try JournoFinder For Free
Search and contact over 1M+ journalist profiles, browse 100M+ articles, and unlock powerful PR tools.
Start Your 7-Day Free Trial →