Taťána MajerováInstitute of Organic Chemistry and Biochemistry of the CAS · Proteases of Human Pathogens
Taťána Majerová
Doctor of Philosophy
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14
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Publications (14)
Maturing flaviviruses undergo pH-dependent conformational changes, transitioning from trimeric pre-membrane protein prM and envelope protein E (prM-E) complexes to dimeric E with cleaved prM. However, little is known about the intermediate maturation stages and whether immature virions contribute to infection. Here we demonstrated that immature prM...
Some medically important viruses―including retroviruses, flaviviruses, coronaviruses, and herpesviruses―code for a protease, which is indispensable for viral maturation and pathogenesis. Viral protease inhibitors have become an important class of antiviral drugs. Development of the first-in-class viral protease inhibitor saquinavir, which targets H...
Viral proteases are indispensable for successful virion maturation, thus making them a prominent drug target. Their enzyme activity is tightly spatiotemporally regulated by expression in the precursor form with little or no activity, followed by activation via autoprocessing. These cleavage events are frequently triggered upon transportation to a s...
HIV protease is a dimeric aspartic protease that plays a key role in viral maturation. HIV polyproteins are cleaved by HIV protease into functional proteins during the process of maturation, which enables viral progeny to infect new host cells. The indispensable role of HIV protease in the viral life cycle makes it a suitable therapeutic target. De...
Zika and Dengue viruses have attracted substantial attention from researchers in light of recent outbreaks of Dengue fever and increases in cases of congenital microcephaly in areas with Zika incidence. This review summarizes the current state of knowledge about Zika and Dengue proteases. These enzymes have several interesting features: 1) NS3 seri...
HIV-1 protease (PR) is a homodimeric enzyme that is autocatalytically cleaved from the Gag-Pol precursor. Known PR inhibitors bind the mature enzyme several orders of magnitude more strongly than the PR precursor. Inhibition of PR at the precursor level, however, may stop the process at its rate-limiting step before the proteolytic cascade is initi...
Multitemplate polymerase chain reaction (PCR) is used for preparative and analytical applications in diagnostics and research. Classical PCR and qPCR are two basic setups with many possible experimental modifications. Classical PCR is a method of choice to obtain enough material for subsequent sophisticated applications such as construction of libr...
Since new and dangerous influenza virus strains, such as H5N1 “avian flu” and more recently the swine-origin H1N1 “swine flu”, are constantly evolving, the need for effective anti-influenza drugs is pressing. It is becoming clear that the emergence of drug-resistant viruses will be a major potential problem in future efforts to control influenza vi...
The introduction of HIV proteinase inhibitors (PIs) as anti-AIDS drugs resulted in decreased mortality and prolonged life expectancy of HIV-positive patients. However, rapid selection of drug-resistant HIV variants is a common complication in patients undergoing highly active anti-retroviral therapy (HAART). Thus, monitoring of clinical resistance...
All retroviral proteases belong to the family of aspartic proteases. They are active as homodimers, each unit contributing one catalytic aspartate to the active site dyad. An important feature of all aspartic proteases is a conserved complex scaffold of hydrogen bonds supporting the active site, called the "fireman's grip," which involves the hydro...
An X-ray structure (resolution 2.2 A) of mutant HIV-1 protease (A71V, V82T, I84V) complexed with a newly developed peptidomimetic inhibitor with an ethylenamine isostere Boc-Phe-Psi[CH(2)CH(2)NH]-Phe-Glu-Phe-NH(2), denoted as OE, is described and compared with the complex of wild-type HIV-1 protease with the same inhibitor (resolution 2.5 A). OE sh...
Protease inhibitors (PIs) are an important class of drugs for the treatment of HIV infection. However, in the course of treatment, resistant viral variants with reduced sensitivity to PIs often emerge and become a major obstacle to successful control of viral load. On the basis of a compound equipotently inhibiting HIV-1 and 2 proteases (PR), we ha...
HIV-1 proteinase represents a promising target for antiviral chemotherapy. We have designed, synthesized, and tested modular inhibitors combining an active-site inhibitor tethered to a structure targeted to the dimerization domain of the enzyme. At pH 5 the parent active site inhibitor, the equimolar mixture of active site and dimerization inhibito...