Tracking the intracellular localization of African swine fever virus genomic DNA using DNAscope in situ hybridization
文献类型: 外文期刊
第一作者: Song, Jie
作者: Song, Jie;Li, Tingting;Li, Jiangnan;Weng, Changjiang;Li, Jiangnan;Weng, Changjiang
作者机构:
关键词: African swine fever viruses; ASFV genomic DNA; Localization; DNAscope; In situ hybridization
期刊名称:VETERINARY MICROBIOLOGY ( 影响因子:2.7; 五年影响因子:2.9 )
ISSN: 0378-1135
年卷期: 2025 年 304 卷
页码:
收录情况: SCI
摘要: The genome of African swine fever virus (ASFV) is characterized by a single linear double-stranded DNA molecule. However, the question of whether ASFV genomic DNA enters the nucleus has been a subject of debate. In this study, DNAscope in situ hybridization (ISH) technology was employed to trace the genomic DNA of ASFV. Specific probes targeting the DNA of the ASFV HLJ/18 strain were designed and synthesized, facilitating the successful detection of ASFV DNA in ASFV-infected porcine alveolar macrophages (PAMs). Detection of ASFV genomic DNA commenced as early as 2 h post-infection (hpi), with a progressive increase in DNA signals over time. At 8 hpi, ASFV DNA predominantly localized around nuclear virus factories (VFs), and with continued viral replication increased, the fluorescence signals associated with the detected DNA intensified and extended to additional cytoplasmic areas beyond the VFs. After 20 hpi, the fluorescence signals reached a state of stabilization. Furthermore, confocal Z-stack imaging revealed that ASFV DNA signals were absent from the nucleus throughout all the stages of ASFV infection, providing substantial evidence regarding ASFV genome localization.
分类号:
- 相关文献
作者其他论文 更多>>
-
Screening and characterization of an antifreeze peptide from sea cucumber intestinal protein hydrolysates
作者:Xu, Zhe;Cao, Shengao;Li, Tingting;Cui, Na;Xu, Zhe;Tan, Zhijian;Xu, Zhe;Tan, Zhijian;Xu, Zhe;Wu, Jianping;Zhang, Rui;Liu, Hanxiong;Du, Ming;Qin, Zijin
关键词:Sea cucumber intestine; Freeze-thaw cycles; Myofibrillar protein; Antifreeze peptide; Molecular dynamics simulation
-
Autophagy promotes p72 degradation and capsid disassembly during the early phase of African swine fever virus infection
作者:Song, Jie;Li, Jiangnan;Li, Shuai;Zhao, Gaihong;Li, Tingting;Chen, Xin;Liu, Jia;Lai, Xinyu;Liu, Sitong;Zhou, Qiongqiong;Huang, Li;Weng, Changjiang;Li, Jiangnan;Li, Tingting;Huang, Li;Weng, Changjiang;Hu, Boli
关键词:African swine fever virus; p72; selective autophagy; Stub1; HSPA8; capsid disassembly
-
From hemorrhage to apoptosis: understanding the devastating impact of ASFV on piglets
作者:Xu, Fanghua;Li, Ning;Xue, Yue;Wang, Zhenru;Fang, Zheng;An, Hui;Liu, Sidang;Wang, Gang;Weng, Changjiang;Huang, Li
关键词:ASFV; multiple organ lesions; pathogenicity; apoptosis; piglets
-
Comparison of the morphological and physiological characteristics of diploid and tetraploid Luculia pinceana Hook.
作者:Wang, Lele;Guan, Wenling;Li, Yefang;Li, Hongling;Guan, Wenling;Li, Shifeng;Song, Jie
关键词:
Luculia pinceana Hook; Tetraploid; Morphological characteristics; Photosynthetic properties; Physiological indices -
A New System for Evaluating the Ability to Release Negative Ions-Taking Urban Forests as an Example
作者:Li, Shaoning;Li, Tingting;Yu, Di;Zhao, Na;Xu, Xiaotian;Li, Bin;Lu, Shaowei;Li, Shaoning;Zhao, Na;Xu, Xiaotian;Li, Bin;Lu, Shaowei;Li, Shaoning;Li, Tingting;Yu, Di;Lu, Shaowei
关键词:negative air ions; release ability; evaluation system; meteorological factors; forest park
-
Targeted isolation and AI-based analysis of edible fungal polysaccharides: Emphasizing tumor immunological mechanisms and future prospects as mycomedicines
作者:Li, Tingting;Bi, Yong;Li, Tingting;Rui, Chuang;Ren, Lu;Wang, Qin;Dai, Mingcheng;Yang, Yan
关键词:Keywords; Edible fungal polysaccharide; Structural characterization; Gut microbiota; Tumor microenvironment; Mycomedicines; Deep learning; Glycan structure prediction"
-
Functional Analysis of Lactase Phlorizin Hydrolase in Insect-Plant Coevolution Based on Deglycosylation
作者:Li, Yuan;Kong, Wenting;Li, Tingting;Zhang, Lianjun;Zhuang, Ziyan;Liu, Xiaoning;Liu, Ning
关键词:LPH; insect-plant interaction; deglycosylation; phenolic glycoside; RNAi
