Insights into subgenomic RNA synthesis in coronaviruses from structural and biophysical studies

Li, Lichun

15 May 2009

The 5’ untranslated region (UTR) of coronaviral genomes contains cis-acting sequences necessary for replication, transcription and translation. A consensus secondary structural model of the 5' 140 nucleotides of the 5' UTRs of nine coronaviruses (CoVs) derived from all three major CoV groups is presented and characterized by three major stem loops, SL1, SL2 and SL4. SL2 is conserved in all CoVs, typically containing a pentaloop (C47-U48-U49-G50-U51 in MHV) stacked on a 5-bp stem, with some sequences containing an additional U 3' to U51. NMR structural studies of SL2 hairpin reveal that SL2 adopts a U-turn-like conformation. Parallel molecular genetic experiments reveal that SL2 plays an essential role in sgRNA synthesis as does SL1. We observe strong genetic selection against viruses that contain a deletion of A35, an extrahelical nucleotide that destabilizes SL1, in favor of genomes that contain a diverse panel of destabilizing second-site mutations, due to introduction of a collection of non-canonical base pairs near the deleted A35. Viruses containing destabilizing SL1-∆A35 mutations also contain one of two specific single nucleotide mutations in the 3' UTR. Thermal denaturation and imino proton solvent exchange experiments reveal that the lower half of SL1 is unstable and that second-site SL1-∆A35 substitutions recover one or more features of the wild-type SL1. We propose a "dynamic SL1" model that supports viral replication; these characteristics of SL1 appear to be conserved in other coronaviral genomes. The coronaviral nucleocapsid (N) protein contains two or more RNA binding domains. We investigated the RNA-binding properties of the N-terminal (NTD) and Cterminal (CTD) domain of MHV N. Our results reveal that the NTD specifically interacts with the TRS-L3 sequence. The role of conserved residues (Y127, Y129 and R110) for this specific interaction were systematically investigated. In contrast to the NTD, the MHV CTD is homodimeric in solution and binds single-strand RNA nonspecifically in a binding mode of the noncooperative large ligand lattice model. The CTD dimer binds with a site size, n=4 nucleotide and the appending of the NTD enhances the single-strand nucleic acid binding affinity.

coronavirus

5' UTR

RNA structure

NMR

nucleocapsid protein

Role of the NC protein of human immunodeficiency virus type 1 in viral RNA dimerization and packaging, as well as in virus replication and stability

Kafaie, Jafar.

January 2008

In the past three decades, various steps of the human immunodeficiency virus type 1 (HIV-1) life cycle have been thoroughly studied. Many of these steps, such as viral entry, reverse transcription and proteolysis have been targets of antiretroviral therapy. Retroviral genomic RNA (gRNA) dimerization appears essential for viral infectivity and this process appears to be chaperoned by the nucleocapsid (NC) protein of HIV-1. In this dissertation, the role of NC in genome dimerization and other aspects of the viral life cycle have been thoroughly studied. Various positions of the NC protein have been mutated through site-directed mutagenesis and relevant and dispensable positions of NC have been identified through this method. 34 of its 55 residues were mutated, individually or in small groups, in a panel of 40 HIV-1 mutants. It was found that the amino-terminus, the proximal zinc finger, the linker, and the distal zinc finger of NC each contributed roughly equally to efficient HIV-1 gRNA dimerization. The various mutations introduced into NC show the first evidence that gRNA dimerization can be inhibited by: 1) mutations in the N-terminus or the linker of retroviral NC; 2) mutations in the proximal or distal zinc finger of lentiviral NC; 3) mutations in the hydrophobic patch (plateau) or the conserved glycines of the proximal or the distal retroviral zinc finger. Some NC mutations impaired gRNA dimerization more than mutations inactivating the viral protease, indicating that gRNA dimerization may be stimulated by the NC component of the Gag polyprotein (Pr55gag). In the second section of my work, I studied the effect of Pr55gag processing on gRNA dimerization by introducing rate alternating mutants into Pr55gag protein cleavage sites. I showed that Maturation ofNCp15 into NCp9 is essential for fast rates of genomic RNA dimerization and maturation of NCp9 into NCp7 has no incidence on genomic RNA dimerization but is essential for viral replication. In order to delineate the amount of viral protease activity needed to produce mature virus 48 hours post transfection, we also studied, by cotransfection studies, the effect of various ratios of wild-type (BH10) and protease-inactive (PR- ) plasmids and found that HIV-1 reaches its full genomic RNA dimerization despite 75% unprocessed Pr55gag polyproteins. We have also shown that wild type BH10 plasmid can rescue those mutations in NCp7 protein that have an effect on gRNA dimerization through rescue experiments. Overall, this thesis sheds light on the role of NC in HIV-1 genome dimerization and other aspects of the viral life cycle and identifies the importance of each component of NC during these processes.

HIV-1 -- physiology.

Nucleocapsid Proteins -- metabolism.

RNA, Viral -- metabolism.

Dimerization.

Puumala hantavirus : immune responses and vaccines /

Carvalho Nicacio, Cristina de,

January 2002

Diss. (sammanfattning) Stockholm : Karol. inst., 2002. / Härtill 5 uppsatser.

Production of cytokines in human whole blood after incubation with the nucleocapsid protein of the NL63 Coronavirus / Thesis submitted in fulfillment of the requirements for the Degree MSc

Chafekar, Aasiyah

11 1900

Masters of Science / The Coronaviridae family consists of RNA viruses within the order Nidovirales. The family is classified into two genera, namely the corona- and toroviruses. Coronaviruses are enveloped, single stranded, positive sense RNA viruses with genomes ranging between 27-32kb in size. The 5’ two-thirds of the genome encodes for the 1a/b polyprotein, while the 3’ one-third of the genome encodes for the structural proteins that mediate viral entry into the host cell. These structural proteins include the spike (S), envelope (E), membrane (M) and nucleocapsid (N) proteins. The nucleocapsid protein is expressed at high levels within an infected cell. Studies have shown that this protein plays a key regulatory role in different cellular pathways, including the inhibition of interferon production and the up-regulation of the AP1 signal transduction pathway, amongst others. Also, the N protein is vital in the formation of the ribonucleocapsid core by binding to the viral RNA during virion assembly. The focus of this study is the immune response in whole blood cultures to the presence of human coronavirus (HCoV) NL63 N protein. To characterise the stimulation of the immune activity against HCoV-NL63 N in blood cultures, the HCoV-NL63 N gene was expressed in a bacterial system. In this pilot study, GSTtagged N constructs were then purified and used to treat whole blood cultures from three volunteers. ELISAs were used to measure the cytokine response in these treated whole blood cultures. Results showed that the nucleocapsid protein has an inflammatory response on whole blood cultures. These results have generated vital information in the potential function of the HCoV-NL63 N protein on the immune system. It is suffice to say that the HCoV-NL63 N protein is able to elicit an effective inflammatory response within the host cell. Future studies into the cellular pathways affected by the HCoV-NL63 N protein will clarify its exact role in stimulating the host immune system.

Human coronavirus NL63

Severe acute respiratory syndrome (SARS)

Nucleocapsid protein

Role of the NC protein of human immunodeficiency virus type 1 in viral RNA dimerization and packaging, as well as in virus replication and stability

Kafaie, Jafar.

January 2008

No description available.

RNA, Viral -- metabolism.

Nucleocapsid Proteins -- metabolism.

HIV-1 -- physiology.

Dimerization.

Protein structure/function studies: The avian myeloblastosis virus nucleocapsid protein

Smith, Lisa Marie

January 1993

No description available.

Protein structure/function studies

avian myeloblastosis

virus nucleocapsid protein

Structural and functional interactions between measles virus nucleocapsid protein and cellular heat shock protein

Zhang, Xinsheng

09 March 2004

No description available.

Hsp72

Morbillivirus

Nucleocapsid protein

Binding motif

Reverse genetics

Biacore

Host-mediated Alteration of Measles Virus Polymerase Activity: Consequences for the Outcome of Infection

Buccellato, Matthew Allan

24 June 2008

No description available.

Microbiology

Virology

measles virus

hsp72

hsp40

nucleocapsid

tyrosine phosphorylation

Insights into the structure of Lloviu cuevavirus nucleoprotein-RNA complex through cryo-EM / クライオ電子顕微鏡によるリョビュウイルスの核タンパク質-RNA複合体の構造観察

Hu, Shangfan

25 March 2024

京都大学 / 新制・課程博士 / 博士(生命科学) / 甲第25450号 / 生博第521号 / 新制||生||69(附属図書館) / 京都大学大学院生命科学研究科統合生命科学専攻 / (主査)教授 野田 岳志, 教授 朝長 啓造, 教授 鈴木 淳 / 学位規則第4条第1項該当 / Doctor of Philosophy in Life Sciences / Kyoto University / DFAM

Filovirus

Lloviu virus

nucleocapsid

cryo-EM,

single-particle analysis

460

CRITICAL EVENTS IN HUMAN METAPNEUMOVIRUS INFECTION: FROM ENTRY TO EGRESS

Hackett, Brent A

01 January 2013

Human metapneumovirus (HMPV) is a respiratory pathogen in Paramyxovirus family that demonstrates extremely high morbidity in the population, with most individuals having been infected by the age of five. Despite the prevalence of this negative-sense RNA virus in the population for decades, it was only identified in 2001. As such, there is currently no specific treatment for HMPV and the potentially severe consequences of infection for elderly and immunocompromised individuals and particularly infants make development of antivirals targeting HMPV of high significance. HMPV constitutes a quarter of all respiratory hospitalizations among infants, placing it second only to RSV, in addition to becoming a greater concern in concentrated populations of seniors. For these susceptible populations, the consequences of infection have a much greater probability of leading to pneumonia, bronchiolitis and even death. These studies investigate events throughout the infectious cycle of HMPV. They describe specific amino acids that modulate the triggering of viral fusion activity in response to low pH. They also include a report on the dynamic and variable control exercised over gene transcription by viral promoters. Finally, the interplay between viral nonstructural proteins and their distinct roles in both replication and assembly are examined. Ultimately, this work seeks to elucidate the goings-on within an HMPV-infected cell at multiple points throughout the process.

Human metapneumovirus (HMPV)

RNA-dependent RNA polymerase (RdRp)

phosphoprotein

nucleocapsid

minireplicon

Biochemistry

Virology