viral life cycle
Recently Published Documents


TOTAL DOCUMENTS

185
(FIVE YEARS 68)

H-INDEX

33
(FIVE YEARS 6)

Author(s):  
Ujjyini Ghosh ◽  
Khondakar Sayef Ahammed ◽  
Snehasis Mishra ◽  
Asim Bhaumik

Author(s):  
Charles Arvind Sethuraman Vairavan ◽  
Devarani Rameshnathan ◽  
Nagaraja Suryadevara ◽  
Gnanendra Shanmugam

In December 2019, a novel coronavirus had emerged in Wuhan city, China that led to an outbreak resulting in a global pandemic, taking thousands of lives. The infectious virus was later classified as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Individuals infected by this novel virus initially exhibit nonspecific symptoms such as dry cough, fever, dizziness and many more bodily complications. From the “public health emergency of international concern” declaration by the World Health Organisation (WHO), several countries have taken steps in controlling the transmission and many researchers share their knowledge on the SARS-COV-2 characteristics and viral life cycle, that may aid in pharmaceutical and biopharmaceutical companies to develop SARS-CoV-2 vaccine and antiviral drugs that interfere with the viral life cycle. In this literature review the origin, classification, aetiology, life cycle, clinical manifestations, laboratory diagnosis and treatment are all reviewed.


2021 ◽  
Vol 12 ◽  
Author(s):  
Javad Khanali ◽  
Mohammadreza Azangou-Khyavy ◽  
Yasaman Asaadi ◽  
Monire Jamalkhah ◽  
Jafar Kiani

Despite significant efforts, there are currently no approved treatments for COVID-19. However, biotechnological approaches appear to be promising in the treatment of the disease. Accordingly, nucleic acid-based treatments including aptamers and siRNAs are candidates that might be effective in COVID-19 treatment. Aptamers can hamper entry and replication stages of the SARS-CoV-2 infection, while siRNAs can cleave the viral genomic and subgenomic RNAs to inhibit the viral life cycle and reduce viral loads. As a conjugated molecule, aptamer–siRNA chimeras have proven to be dual-functioning antiviral therapy, acting both as virus-neutralizing and replication-interfering agents as well as being a siRNA targeted delivery approach. Previous successful applications of these compounds against various stages of the pathogenesis of diseases and viral infections, besides their advantages over other alternatives, might provide sufficient rationale for the application of these nucleic acid-based drugs against the SARS-CoV-2. However, none of them are devoid of limitations. Here, the literature was reviewed to assess the plausibility of using aptamers, siRNAs, and aptamer–siRNA chimeras against the SARS-CoV-2 based on their previously established effectiveness, and discussing challenges lie in applying these molecules.


2021 ◽  
Vol 12 ◽  
Author(s):  
Lisett Liblekas ◽  
Alla Piirsoo ◽  
Annika Laanemets ◽  
Eva-Maria Tombak ◽  
Airiin Laaneväli ◽  
...  

The life-cycle of human papillomaviruses (HPVs) includes three distinct phases of the viral genome replication. First, the viral genome is amplified in the infected cells, and this amplification is often accompanied by the oligomerization of the viral genomes. Second stage includes the replication of viral genomes in concert with the host cell genome. The viral genome is further amplified during the third stage of the viral-life cycle, which takes place only in the differentiated keratinocytes. We have previously shown that the HPV18 genomes utilize at least two distinct replication mechanisms during the initial amplification. One of these mechanisms is a well-described bidirectional replication via theta type of replication intermediates. The nature of another replication mechanism utilized by HPV18 involves most likely recombination-dependent replication. In this paper, we show that the usage of different replication mechanisms is a property shared also by other HPV types, namely HPV11 and HPV5. We further show that the emergence of the recombination dependent replication coincides with the oligomerization of the viral genomes and is dependent on the replicative DNA polymerases. We also show that the oligomeric genomes of HPV18 replicate almost exclusively using recombination dependent mechanism, whereas monomeric HPV31 genomes replicate bi-directionally during the maintenance phase of the viral life-cycle.


2021 ◽  
Vol 50 ◽  
pp. 128-138
Author(s):  
Peter Eugene Jones ◽  
Carolina Pérez-Segura ◽  
Alexander J Bryer ◽  
Juan R Perilla ◽  
Jodi A Hadden-Perilla

mBio ◽  
2021 ◽  
Author(s):  
Apurva T. Prabhakar ◽  
Claire D. James ◽  
Dipon Das ◽  
Raymonde Otoa ◽  
Matthew Day ◽  
...  

Human papillomaviruses are causative agents in around 5% of all cancers, with no specific antiviral therapeutics available for treating infections or resultant cancers. In this report, we demonstrate that phosphorylation of HPV16 E2 by CK2 promotes formation of a complex with the cellular protein TopBP1 in vitro and in vivo .


Author(s):  
Chuying Ding ◽  
Zizi Wang ◽  
Qian Zhang

A non-local delay differential system was developed by age-infected consideration to understand the interaction between tumor cells and oncolytic virus. The critical threshold value [Formula: see text] was obtained that dominates the dynamical behaviors of our model. By strongly [Formula: see text]-persistent and Comparison theorem, the global stability and uniformly strongly persistent were investigated. Our global sensitivity analyses indicate that [Formula: see text] is most sensitive to virus clearance rate [Formula: see text] while is least sensitive to viral life cycle [Formula: see text]. Finally, our model was used to fit with experimental data which indicates that viral life cycle [Formula: see text] plays a key role in data fitting. And the trained model shows perfect prediction in the testing data set with the coefficient of determination [Formula: see text].


Molecules ◽  
2021 ◽  
Vol 26 (18) ◽  
pp. 5627
Author(s):  
Jan Škubník ◽  
Jiří Bejček ◽  
Vladimíra Svobodová Pavlíčková ◽  
Silvie Rimpelová

Drug repositioning is a successful approach in medicinal research. It significantly simplifies the long-term process of clinical drug evaluation, since the drug being tested has already been approved for another condition. One example of drug repositioning involves cardiac glycosides (CGs), which have, for a long time, been used in heart medicine. Moreover, it has been known for decades that CGs also have great potential in cancer treatment and, thus, many clinical trials now evaluate their anticancer potential. Interestingly, heart failure and cancer are not the only conditions for which CGs could be effectively used. In recent years, the antiviral potential of CGs has been extensively studied, and with the ongoing SARS-CoV-2 pandemic, this interest in CGs has increased even more. Therefore, here, we present CGs as potent and promising antiviral compounds, which can interfere with almost any steps of the viral life cycle, except for the viral attachment to a host cell. In this review article, we summarize the reported data on this hot topic and discuss the mechanisms of antiviral action of CGs, with reference to the particular viral life cycle phase they interfere with.


Viruses ◽  
2021 ◽  
Vol 13 (9) ◽  
pp. 1727
Author(s):  
Iris Medits ◽  
Franz X. Heinz ◽  
Karin Stiasny

The major envelope protein E of flaviviruses contains an ectodomain that is connected to the transmembrane domain by the so-called “stem” region. In mature flavivirus particles, the stem is composed of two or three mostly amphipathic α-helices and a conserved sequence element (CS) with an undefined role in the viral life cycle. A tryptophan is the only residue within this region which is not only conserved in all vector-borne flaviviruses, but also in the group with no known vector. We investigated the importance of this residue in different stages of the viral life cycle by a mutagenesis-based approach using tick-borne encephalitis virus (TBEV). Replacing W421 by alanine or histidine strongly reduced the release of infectious virions and their thermostability, whereas fusion-related entry functions and virus maturation were still intact. Serial passaging of the mutants led to the emergence of a same-site compensatory mutation to leucine that largely restored these properties of the wildtype. The conserved tryptophan in CS (or another big hydrophobic amino acid at the same position) is thus essential for the assembly and infectivity of flaviviruses by being part of a network required for conferring stability to infectious particles.


Sign in / Sign up

Export Citation Format

Share Document