Joanna Panecka-Hofman

Joanna Panecka-Hofman
University of Warsaw | UW · Faculty of Physics

PhD

About

21
Publications
3,297
Reads
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516
Citations
Additional affiliations
April 2017 - September 2018
University of Warsaw
Position
  • Professor (Associate)
January 2015 - January 2017
Heidelberger Institut für Theoretische Studien
Position
  • PhD Student
Description
  • Postdoctoral Researcher in the NMTrypI project (www.nmtrypi.eu/) in the group of Prof. Rebecca Wade
October 2008 - September 2014
University of Warsaw
Position
  • PhD Student

Publications

Publications (21)
Article
Trimethylguanosine (TMG) cap is a motif present inter alia at the 5’ end of small nuclear RNAs, which are involved in RNA splicing. TMG cap plays a crucial role in...
Article
Full-text available
Pteridine reductase 1 (PTR1) is a folate and pterin pathway enzyme unique for pathogenic trypanosomatids. As a validated drug target, PTR1 has been the focus of recent research efforts aimed at finding more effective treatments against human parasitic diseases such as leishmaniasis or sleeping sickness. Previous PTR1-centered structural studies hig...
Article
Full-text available
Mitochondrial fatty acid synthesis (mtFAS) is essential for respiratory function. MtFAS generates the octanoic acid precursor for lipoic acid synthesis, but the role of longer fatty acid products has remained unclear. The structurally well-characterized component of mtFAS, human 2E-enoyl-ACP reductase (MECR) rescues respiratory growth and lipoylati...
Article
Introduction Trypanosomatidic parasitic infections of humans and animals caused by Trypanosoma brucei, Trypanosoma cruzi, and Leishmania species pose a significant health and economic burden in developing countries. There are few effective and accessible treatments for these diseases, and the existing therapies suffer from problems such as parasite...
Article
Full-text available
The optimization of compounds with multiple targets is a difficult multidimensional problem in the drug discovery cycle. Here, we present a systematic, multidisciplinary approach to the development of selective antiparasitic compounds. Computational fragment-based design of novel pteridine derivatives along with iterations of crystallographic struc...
Preprint
Full-text available
The optimization of compounds with multiple targets is a difficult multidimensional problem in the drug discovery cycle. Here, we present a systematic, multidisciplinary approach to the development of selective anti-parasitic compounds. Computational fragment-based design of novel pteridine derivatives along with iterations of crystallographic stru...
Article
Full-text available
Cytosolic nucleotidases (cNs) catalyze dephosphorylation of nucleoside 5’-monophosphates and thereby contribute to the regulation of nucleotide levels in cells. cNs have also been shown to dephosphorylate several therapeutically relevant nucleotide analogues. cN-IIIB has shown in vitro a distinctive activity towards 7-mehtylguanosine monophosphate...
Preprint
The optimization of compounds with multiple targets in the drug discovery cycle is a difficult multidimensional problem. Here, we present a systematic, multidisciplinary approach to the development of selective anti-parasitic compounds. Efficient microwave-assisted synthesis of pteridines along with iterations of crystallographic structure determin...
Article
Full-text available
According to the World Health Organization, more than 1 billion people are at risk of or are affected by neglected tropical diseases. Examples of such diseases include trypanosomiasis, which causes sleeping sickness; leishmaniasis; and Chagas disease, all of which are prevalent in Africa, South America, and India. Our aim within the New Medicines f...
Article
Allosteric regulation plays an important role in many biological processes, such as signal transduction, tran-scriptional regulation, and metabolism. Allostery is rooted in the fundamental physical properties of macromo-lecular systems, but its underlying mechanisms are still poorly understood. A collection of contributions to a recent interdiscipl...
Article
Full-text available
Background: Multi-target approaches are necessary to properly analyze or modify the function of a biochemical pathway or a protein family. An example of such a problem is the repurposing of the known human anti-cancer drugs, antifolates, as selective anti-parasitic agents. This requires considering a set of experimentally validated protein targets...
Article
Full-text available
There is a need for improved and generally applicable scoring functions for fragment-based approaches to ligand design. Here, we evaluate the performance of a computationally efficient model for inhibitory activity estimation, which is composed only of multipole electrostatic energy and dispersion energy terms that approximate long-range ab initio...
Article
Full-text available
The TRAnsient Pockets in Proteins (TRAPP) webserver provides an automated workflow that allows users to explore the dynamics of a protein binding site and to detect pockets or sub-pockets that may transiently open due to protein internal motion. These transient or cryptic sub-pockets may be of interest in the design and optimization of small molecu...
Article
The aminoacyl-tRNA binding site (A-site) is located in helix 44 of small ribosomal subunit. The mobile adenines 1492 and 1493 (E. coli numbering), forming the A-site bulge, act as a functional switch that ensures mRNA decoding accuracy. Structural data on the oligonucleotide models mimicking the ribosomal A-site with sequences corresponding to bact...
Article
Full-text available
The conformational properties of the aminoacyl-tRNA binding site (A-site), and its surroundings in the Escherichia coli 30S ribosomal subunit, are of great relevance in designing antibacterial agents. The 30S subunit A-site is near ribosomal protein S12, which neighbors helices h27 and H69; this latter helix, of the 50S subunit, is a functionally i...
Article
The mRNA decoding site (A-site) in the small ribosomal subunit controls fidelity of the translation process. Here, using molecular dynamics simulations and bioinformatic analyses, we investigated the structural dynamics of the human mitochondrial A-site (native and A1490G mutant) and compared it with the dynamics of the bacterial A-site. We detecte...
Article
Full-text available
We summarize here the recent applications of molecular dynamics (MD) and enhanced sampling methods used to elucidate the role of flexibility in ribosome functioning. In the last decade, many atomic resolution structures of the bacterial ribosome have been solved, which allowed for extensive all-atom MD studies of this system. However, the time scal...
Article
By hindering or "silencing" protein translation in vivo, antisense nucleic acid analogues that hybridize to bacterial rRNA could serve as a promising class of antibacterial compounds. Thus, we performed a comparative analysis of the dynamical properties of modified oligonucleotides based upon a sequence (5')r(UGUUACGACU)(3') that is complementary t...

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