Non-segmented negative strand (NNS) RNA viruses belonging to the order
are highly diversified eukaryotic viruses including significant human pathogens, such as rabies, measles, Nipah, and Ebola. ...Elucidation of their unique strategies to replicate in eukaryotic cells is crucial to aid in developing anti-NNS RNA viral agents. Over the past 40 years, vesicular stomatitis virus (VSV), closely related to rabies virus, has served as a paradigm to study the fundamental molecular mechanisms of transcription and replication of NNS RNA viruses. These studies provided insights into how NNS RNA viruses synthesize 5'-capped mRNAs using their RNA-dependent RNA polymerase L proteins equipped with an unconventional mRNA capping enzyme, namely GDP polyribonucleotidyltransferase (PRNTase), domain. PRNTase or PRNTase-like domains are evolutionally conserved among L proteins of all known NNS RNA viruses and their related viruses belonging to
, a newly established order, in the class
, suggesting that they may have evolved from a common ancestor that acquired the unique capping system to replicate in a primitive eukaryotic host. This article reviews what has been learned from biochemical and structural studies on the VSV RNA biosynthesis machinery, and then focuses on recent advances in our understanding of regulatory and catalytic roles of the PRNTase domain in RNA synthesis and capping.
We address the problem of deriving analytic expressions for calculating universal decoherence-induced errors in qubits undergoing arbitrary, unitary, time-dependent quantum control protocols. We show ...that the fidelity of a control operation may be expressed in terms of experimentally relevant spectral characteristics of the noise and of the control, over all Cartesian directions. We formulate control matrices in the time domain to capture the effects of piecewise-constant control, and convert them to generalized Fourier-domain filter functions. These generalized filter functions may be derived for complex temporally modulated control protocols, accounting for susceptibility to rotations of the qubit state vector in three dimensions. Taken together, we show that this framework provides a computationally efficient means to calculate the effects of universal noise on arbitrary quantum control protocols, producing results comparable with those obtained via time-consuming simulations of Bloch vector evolution. As a concrete example, we apply our method to treating the problem of dynamical decoupling incorporating realistic control pulses of arbitrary duration or form, including the replacement of simple π-pulses with complex dynamically corrected gates.
As the prevalence of food allergy has risen among children and young adults, both in the United States and around the world, investigators have become increasingly aware of the daily emotional toll ...on patients and their families of living with food allergy.
To review the literature regarding the emotional, social, and financial impact of food allergy on pediatric patients and their families, and to provide evidence-based suggestions for clinicians on how to most effectively address these issues.
A literature search was performed to identify relevant articles related to the emotional, social, and financial impact of food allergy.
There is a growing body of literature that demonstrates that living with food allergy adversely affects patients and families in the domains above.
Food allergy can significantly impact pediatric patients and their families in all areas of their lives. Clinicians should be aware of these issues when working with these families. Implementing a multidisciplinary approach can help families cope with emotional, social, and financial burdens.
The periodic emergence of novel coronaviruses (CoVs) represents an ongoing public health concern with significant health and financial burdens worldwide. The most recent occurrence originated in the ...city of Wuhan, China, where a novel coronavirus (severe acute respiratory syndrome coronavirus 2 SARS-CoV-2) emerged causing severe respiratory illness and pneumonia. The continual emergence of novel coronaviruses underscores the importance of developing effective vaccines as well as novel therapeutic options that target either viral functions or host factors recruited to support coronavirus replication. The CoV nonstructural protein 1 (nsp1) has been shown to promote cellular mRNA degradation, block host cell translation, and inhibit the innate immune response to virus infection. Interestingly, deletion of the nsp1-coding region in infectious clones prevented the virus from productively infecting cultured cells. Because of nsp1's importance in the CoV life cycle, it has been highlighted as a viable target for both antiviral therapy and vaccine development. However, the fundamental molecular and structural mechanisms that underlie nsp1 function remain poorly understood, despite its critical role in the viral life cycle. Here, we report the high-resolution crystal structure of the amino globular portion of SARS-CoV-2 nsp1 (residues 10 to 127) at 1.77-Å resolution. A comparison of our structure with the SARS-CoV-1 nsp1 structure reveals how mutations alter the conformation of flexible loops, inducing the formation of novel secondary structural elements and new surface features. Paired with the recently published structure of the carboxyl end of nsp1 (residues 148 to 180), our results provide the groundwork for future studies focusing on SARS-CoV-2 nsp1 structure and function during the viral life cycle.
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is the causative agent of the COVID-19 pandemic. One protein known to play a critical role in the coronavirus life cycle is nonstructural protein 1 (nsp1). As such, it has been highlighted in numerous studies as a target for both the development of antivirals and the design of live-attenuated vaccines. Here, we report the high-resolution crystal structure of nsp1 derived from SARS-CoV-2 at 1.77-Å resolution. This structure will facilitate future studies focusing on understanding the relationship between structure and function for nsp1. In turn, understanding these structure-function relationships will allow nsp1 to be fully exploited as a target for both antiviral development and vaccine design.
Abstract
The L proteins of rhabdoviruses, such as vesicular stomatitis virus (VSV) and rabies virus (RABV), possess an unconventional mRNA capping enzyme (GDP polyribonucleotidyltransferase, PRNTase) ...domain with a loop structure protruding into an active site cavity of the RNA-dependent RNA polymerase (RdRp) domain. Here, using complementary VSV and RABV systems, we show that the loop governs RNA synthesis and capping during the dynamic stop-start transcription cycle. A conserved tryptophan residue in the loop was identified as critical for terminal de novo initiation from the genomic promoter to synthesize the leader RNA and virus replication in host cells, but not for internal de novo initiation or elongation from the gene-start sequence for mRNA synthesis or pre-mRNA capping. The co-factor P protein was found to be essential for both terminal and internal initiation. A conserved TxΨ motif adjacent the tryptophan residue in the loop was required for pre-mRNA capping in the step of the covalent enzyme-pRNA intermediate formation, but not for either terminal or internal transcription initiation. These results provide insights into the regulation of stop-start transcription by the interplay between the RdRp active site and the dual-functional priming-capping loop of the PRNTase domain in non-segmented negative strand RNA viruses.
IgA nephropathy (IgAN) is the most common form of primary glomerulonephritis worldwide and a common cause of end-stage renal disease. Evaluation of a kidney biopsy is necessary for diagnosis, with ...routine immunofluorescence microscopy revealing dominant or co-dominant IgA immunodeposits usually with complement C3 and sometimes IgG and/or IgM. IgA nephropathy reduces life expectancy by more than 10 years and leads to kidney failure in 20-40% of patients within 20 years of diagnosis. There is accumulating clinical, genetic, and biochemical evidence that complement plays an important role in the pathogenesis of IgA nephropathy. The presence of C3 differentiates the diagnosis of IgA nephropathy from the subclinical deposition of glomerular IgA. Markers for the activation of the alternative and mannan-binding lectin (MBL) pathways in renal-biopsy specimens are associated with disease activity and portend a worse renal outcome. Complement proteins in the circulation have also been evaluated in IgA nephropathy and found to be of prognostic value. Recently, genetic studies have identified IgA nephropathy-associated loci. Within these loci are genes encoding products involved in complement regulation and interaction with immune complexes. Put together, these data identify the complement cascade as a rational treatment target for this chronic kidney disease. Recent case reports on the successful use of humanized anti-C5 monoclonal antibody eculizumab are consistent with this hypothesis, but a better understanding of the role of complement in IgA nephropathy is needed to guide future therapeutic interventions.
The negative-strand RNA viruses (NSRVs) are unique because their nucleocapsid, not the naked RNA, is the active template for transcription and replication. The viral polymerase of nonsegmented NSRVs ...contains a large polymerase catalytic subunit (L) and a nonenzymatic cofactor, the phosphoprotein (P). Insight into how P delivers the polymerase complex to the nucleocapsid has long been pursued by reverse genetics and biochemical approaches. Here, we present the X-ray crystal structure of the C-terminal domain of P of vesicular stomatitis virus, a prototypic nonsegmented NSRV, bound to nucleocapsid-like particles. P binds primarily to the C-terminal lobe of 2 adjacent N proteins within the nucleocapsid. This binding mode is exclusive to the nucleocapsid, not the nucleocapsid (N) protein in other existing forms. Localization of phosphorylation sites within P and their proximity to the RNA cavity give insight into how the L protein might be oriented to access the RNA template.
Calls for Muslims to condemn terrorist attacks are commonplace in the United States and Europe. These calls emanate from public figures and media outlets across the political and ideological ...spectrum. This article briefly surveys efforts primarily from Muslim scholars, leaders, and organizations to heed these calls and to communicate, in word and in deed, their rejection of terrorist attacks supposedly carried out in the name of Islam. The article raises questions about whether these efforts make a difference in improving attitudes toward Muslims who live in the United States and Europe. The article argues that Muslim attempts to condemn terrorism inadvertently reinforce Islamophobia, in part because such efforts involve tacit acceptance that Muslims should be presumed guilty of harboring violent tendencies and terrorist sympathies until proven otherwise, in part because such efforts keep the focus on Muslims and violence so that white and white Christian Americans and Europeans need not come to terms with their own violent past and their ongoing complicity in a violent world order.
During the late phase of HIV type 1 (HIV-1) infection cycle, the virally encoded Gag polyproteins are targeted to the inner leaflet of the plasma membrane (PM) for assembly, formation of immature ...particles, and virus release. Gag binding to the PM is mediated by interactions of the N-terminally myristoylated matrix (myrMA) domain with phosphatidylinositol 4,5-bisphosphate. Formation of a myrMA lattice on the PM is an obligatory step for the assembly of immature HIV-1 particles and envelope (Env) incorporation. Atomic details of the myrMA lattice and how it mediates Env incorporation are lacking. Herein, we present the X-ray structure of myrMA at 2.15 Å. The myrMA lattice is arranged as a hexamer of trimers with a central hole, thought to accommodate the C-terminal tail of Env to promote incorporation into virions. The trimer–trimer interactions in the lattice are mediated by the N-terminal loop of one myrMA molecule and α-helices I–II, as well as the 310 helix of a myrMA molecule from an adjacent trimer. We provide evidence that substitution of MA residues Leu13 and Leu31, previously shown to have adverse effects on Env incorporation, induced a conformational change in myrMA, which may destabilize the trimer–trimer interactions within the lattice. We also show that PI(4,5)P2 is capable of binding to alternating sites on MA, consistent with an MA–membrane binding mechanism during assembly of the immature particle and upon maturation. Altogether, these findings advance our understanding of a key mechanism in HIV-1 particle assembly.
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