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本文引用的文献

1
Innate immune response to homologous rotavirus infection in the small intestinal villous epithelium at single-cell resolution.以单细胞分辨率解析小肠绒毛上皮细胞中同源轮状病毒感染的固有免疫反应。
Proc Natl Acad Sci U S A. 2012 Dec 11;109(50):20667-72. doi: 10.1073/pnas.1212188109. Epub 2012 Nov 27.
2
Structural basis of rotavirus strain preference toward N-acetyl- or N-glycolylneuraminic acid-containing receptors.轮状病毒株对含 N-乙酰或 N-羟乙酰神经氨酸受体的偏好的结构基础。
J Virol. 2012 Dec;86(24):13456-66. doi: 10.1128/JVI.06975-11. Epub 2012 Oct 3.
3
Cell attachment protein VP8* of a human rotavirus specifically interacts with A-type histo-blood group antigen.人轮状病毒的细胞附着蛋白 VP8* 特异性地与 A 型组织血型抗原相互作用。
Nature. 2012 Apr 15;485(7397):256-9. doi: 10.1038/nature10996.
4
Novel structural insights into rotavirus recognition of ganglioside glycan receptors.轮状病毒识别神经节苷脂糖受体的新结构见解。
J Mol Biol. 2011 Nov 11;413(5):929-39. doi: 10.1016/j.jmb.2011.09.005. Epub 2011 Sep 17.
5
The rhesus rotavirus gene encoding VP4 is a major determinant in the pathogenesis of biliary atresia in newborn mice.恒河猴轮状病毒基因编码的 VP4 是导致新生小鼠胆道闭锁发病的主要决定因素。
J Virol. 2011 Sep;85(17):9069-77. doi: 10.1128/JVI.02436-10. Epub 2011 Jun 22.
6
The early interferon response to rotavirus is regulated by PKR and depends on MAVS/IPS-1, RIG-I, MDA-5, and IRF3.轮状病毒的早期干扰素反应受 PKR 调节,并依赖于 MAVS/IPS-1、RIG-I、MDA-5 和 IRF3。
J Virol. 2011 Apr;85(8):3717-32. doi: 10.1128/JVI.02634-10. Epub 2011 Feb 9.
7
Roles of VP4 and NSP1 in determining the distinctive replication capacities of simian rotavirus RRV and bovine rotavirus UK in the mouse biliary tract.VP4 和 NSP1 在决定猴轮状病毒 RRV 和牛轮状病毒 UK 在小鼠胆管中独特复制能力中的作用。
J Virol. 2011 Mar;85(6):2686-94. doi: 10.1128/JVI.02408-10. Epub 2010 Dec 29.
8
Development of a rotavirus vaccine: clinical safety, immunogenicity, and efficacy of the pentavalent rotavirus vaccine, RotaTeq.轮状病毒疫苗的研发:五价轮状病毒疫苗 Rotateq 的临床安全性、免疫原性和效力。
Vaccine. 2009 Dec 30;27 Suppl 6:G72-81. doi: 10.1016/j.vaccine.2009.09.107.
9
IRF3 inhibition by rotavirus NSP1 is host cell and virus strain dependent but independent of NSP1 proteasomal degradation.轮状病毒NSP1对IRF3的抑制作用取决于宿主细胞和病毒株,但与NSP1的蛋白酶体降解无关。
J Virol. 2009 Oct;83(20):10322-35. doi: 10.1128/JVI.01186-09. Epub 2009 Aug 5.
10
Variation in antagonism of the interferon response to rotavirus NSP1 results in differential infectivity in mouse embryonic fibroblasts.轮状病毒NSP1对干扰素反应的拮抗作用存在差异,导致其在小鼠胚胎成纤维细胞中的感染性不同。
J Virol. 2009 Jul;83(14):6987-94. doi: 10.1128/JVI.00585-09. Epub 2009 May 6.

在肠道内,同源鼠轮状病毒的许可复制主要由 VP4 和 NSP1 调控。

Permissive replication of homologous murine rotavirus in the mouse intestine is primarily regulated by VP4 and NSP1.

机构信息

Stanford University, Stanford, California, USA, and the VA Palo Alto Health Care System, Palo Alto, California, USA.

出版信息

J Virol. 2013 Aug;87(15):8307-16. doi: 10.1128/JVI.00619-13. Epub 2013 May 22.

DOI:10.1128/JVI.00619-13
PMID:23698306
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3719818/
Abstract

Homologous rotaviruses (RV) are, in general, more virulent and replicate more efficiently than heterologous RV in the intestine of the homologous host. The genetic basis for RV host range restriction is not fully understood and is likely to be multigenic. In previous studies, RV genes encoding VP3, VP4, VP7, nonstructural protein 1 (NSP1), and NSP4 have all been implicated in strain- and host species-specific infection. These studies used different RV strains, variable measurements of host range, and different animal hosts, and no clear consensus on the host range restriction determinants emerged. We used a murine model to demonstrate that enteric replication of murine RV EW is 1,000- to 10,000-fold greater than that of a simian rotavirus (RRV) in suckling mice. Intestinal replication of a series of EW × RRV reassortants was used to identify several RV genes that influenced RV replication in the intestine. The role of VP4 (encoded by gene 4) in enteric infection was strain specific. RRV VP4 reduced murine RV infectivity only slightly; however, a reassortant expressing VP4 from a bovine RV strain (UK) severely restricted intestinal replication in the suckling mice. The homologous murine EW NSP1 (encoded by gene 5) was necessary but not sufficient for promoting efficient enteric growth. Efficient enteric replication required a constellation of murine genes encoding VP3, NSP2, and NSP3 along with NSP1.

摘要

同源轮状病毒(RV)通常比异源 RV 在同源宿主的肠道中更具毒力和复制效率。RV 宿主范围限制的遗传基础尚未完全了解,可能是多基因的。在以前的研究中,编码 VP3、VP4、VP7、非结构蛋白 1(NSP1)和 NSP4 的 RV 基因都与株和宿主种特异性感染有关。这些研究使用了不同的 RV 株、宿主范围的可变测量值和不同的动物宿主,并且没有形成关于宿主范围限制决定因素的明确共识。我们使用鼠模型证明,鼠 RV EW 的肠内复制比幼鼠中的猿猴轮状病毒(RRV)高 1000-10000 倍。一系列 EW×RRV 重组体的肠内复制用于鉴定影响 RV 在肠道内复制的几个 RV 基因。VP4(由基因 4 编码)在肠内感染中的作用具有株特异性。RRV VP4 仅略微降低鼠 RV 的感染力;然而,表达来自牛 RV 株(英国)的 VP4 的重组体严重限制了幼鼠的肠内复制。同源鼠 EW NSP1(由基因 5 编码)是促进有效肠内生长所必需的,但不是充分的。有效的肠内复制需要一组编码 VP3、NSP2 和 NSP3 以及 NSP1 的鼠基因。