Publications by authors named "Claudine Mayer"

Ocular coloboma (OC) is a congenital disorder caused by the incomplete closure of the embryonic ocular fissure. OC can present as a simple anomaly or, in more complex forms, be associated with additional ocular abnormalities. It can occur in isolation or as part of a broader syndrome, exhibiting considerable genetic heterogeneity.

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In fungi, the most abundant transcription factor (TF) class contains a fungal-specific 'GAL4-like' Zn2C6 DNA binding domain (DBD), while the second class contains another fungal-specific domain, known as 'fungal_trans' or middle homology domain (MHD), whose function remains largely uncharacterized. Remarkably, almost a third of MHD-containing TFs in public sequence databases apparently lack DNA binding activity, since they are not predicted to contain a DBD. Here, we reassess the domain organization of these 'MHD-only' proteins using an in silico error-tracking approach.

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is a eukaryotic parasite that has evolved a stage called tachyzoite which multiplies in host cells by producing two daughter cells internally. These nascent tachyzoites bud off their mother and repeat the division process until the expanding progenies escape to settle and multiply in other host cells. Over these intra- and extra-cellular phases, the tachyzoite maintains an essential apicobasal polarity that emerges through a unique bidirectional budding process of the elongating cells.

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Eukaryotic topoisomerases I (TOP1) are ubiquitous enzymes removing DNA torsional stress. However, there is little data concerning the three-dimensional structure of TOP1 in the absence of DNA, nor how the DNA molecule can enter/exit its closed conformation. Here, we solved the structure of thermostable archaeal Caldiarchaeum subterraneum CsTOP1 in an apo-form.

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This paper reports on the design of a series of 10 novel lipophilic piperazinyl derivatives of the 1-cyclopropyl-6-fluoro-8-methoxy-4-oxo-1,4-dihydroquinoline-3-carboxylic acid, their synthesis, their characterisation by H, C and F NMR, IR spectroscopy and HRMS, as well as their biological activity against bacteria of medical interest. Among these derivatives, 2 were as potent as the parent quinolone against Neisseriagonorrhoeae whereas all the compounds displayed lower activity than the parent quinolone against other bacteria of medical interest. Our results showing that the increased lipophilicity was deleterious for antibacterial activity may help to design new quinolone derivatives in the future, especially lipophilic quinolones which have been poorly investigated previously.

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Article Synopsis
  • Mycobacterium leprae, which doesn't grow in lab conditions, complicates the study of its antimicrobial resistance (AMR), so researchers rely on molecular methods for diagnosis.
  • This study systematically reviewed DNA gyrase gene mutations in clinical isolates to understand their link to fluoroquinolone (FQ) resistance, aiming to establish a standardized numbering system for mutation locations.
  • Analyzed data from 25 studies showed that 4% of isolates had mutations in DNA gyrase, leading to the development of a consensus system and a 3D structural model to assess the effects of these mutations on FQ susceptibility.
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The X circular code is a set of 20 trinucleotides (codons) that has been identified in the protein-coding genes of most organisms (bacteria, archaea, eukaryotes, plasmids, viruses). It has been shown previously that the X circular code has the important mathematical property of being an error-correcting code. Thus, motifs of the X circular code, i.

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Background: The Covid19 infection is caused by the SARS-CoV-2 virus, a novel member of the coronavirus (CoV) family. CoV genomes code for a ORF1a / ORF1ab polyprotein and four structural proteins widely studied as major drug targets. The genomes also contain a variable number of open reading frames (ORFs) coding for accessory proteins that are not essential for virus replication, but appear to have a role in pathogenesis.

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Article Synopsis
  • DNA topoisomerases are crucial enzymes for DNA processes in all living organisms and exist in various families, including an atypical group called Topo VIII, mainly found on plasmids.* -
  • New research identified additional Topo VIII homologs across nine bacterial phyla and one archaeal superphylum, showing their exclusive presence in mobile genetic elements (MGE).* -
  • The study also discovered a new subfamily of topoisomerases named 'Mini-A', revealing a specific motif that helps differentiate between this group and other related topoisomerase families, contributing to a revised understanding of their evolution and function.*
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The origin of the genetic code remains enigmatic five decades after it was elucidated, although there is growing evidence that the code coevolved progressively with the ribosome. A number of primordial codes were proposed as ancestors of the modern genetic code, including comma-free codes such as the , , or codes ( = G or A, = C or T, = any nucleotide), and the circular code, an error-correcting code that also allows identification and maintenance of the reading frame. It was demonstrated previously that motifs of the circular code are significantly enriched in the protein-coding genes of most organisms, from bacteria to eukaryotes.

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Despite sharing common features, previous studies have shown that gyrases from different species have been modified throughout evolution to modulate their properties. Here, we report two crystal structures of Mycobacterium tuberculosis DNA gyrase, an apo and AMPPNP-bound form at 2.6-Å and 3.

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In bacteria, one primary and multiple alternative sigma (σ) factors associate with the RNA polymerase core enzyme (E) to form holoenzymes (Eσ) with different promoter recognition specificities. The alternative σ factor RpoS/σ is produced in stationary phase and under stress conditions and reprograms global gene expression to promote bacterial survival. To date, the three-dimensional structure of a full-length free σ factor remains elusive.

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Article Synopsis
  • * This study investigates how specific mutations in GyrA (e.g., D87, P43H) and GyrB (e.g., P466 insertion) contribute to FQ resistance through laboratory experiments, including DNA assays and structural modeling.
  • * Findings indicate that GyrB mutations can lead to increased resistance before GyrA mutations, and the research highlights potential additional targets, including a late-stage mutation in ParE, offering a clearer understanding of FQ resistance mechanisms.
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Article Synopsis
  • GNAT1 is a gene essential for the phototransduction process, and mutations in this gene can lead to forms of congenital night blindness and rod-cone dystrophy.
  • A recent study identified a specific mutation (c.963C>A p.(Cys321*)) in a 32-year-old male with severe rod-cone dystrophy, confirming the link between GNAT1 and retinal disorders.
  • The research highlights that GNAT1 mutations can cause a range of inherited conditions, with varying inheritance patterns, such as autosomal dominant and recessive night blindness and rod-cone dystrophy.
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Objectives: Resistance to fluoroquinolones (FQs) in Mycobacterium tuberculosis (Mtb) is mainly due to mutations in DNA gyrase (GyrA2B2), with the most common substitutions located at positions 90 and 94 in GyrA. Two clinical MDR Mtb (MDR-TB) strains harbouring an A90E or D94N substitution in GyrA were found to be surprisingly susceptible to FQs (ofloxacin MIC ≤2 mg/L). We studied the impact of the additional GyrA substitutions found in these strains (T80A and T80A + A90G, respectively) on FQ susceptibility.

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The SPO11 protein catalyzes the formation of meiotic DNA double strand breaks (DSBs) and is homologous to the A subunit of an archaeal topoisomerase (topo VI). Topo VI are heterotetrameric enzymes comprising two A and two B subunits; however, no topo VIB involved in meiotic recombination had been identified. We characterized a structural homolog of the archaeal topo VIB subunit [meiotic topoisomerase VIB-like (MTOPVIB)], which is essential for meiotic DSB formation.

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In many Gram-negative bacteria, including Salmonella enterica serovar Typhimurium (S. Typhimurium), the sigma factor RpoS/σ(S) accumulates during stationary phase of growth, and associates with the core RNA polymerase enzyme (E) to promote transcription initiation of genes involved in general stress resistance and starvation survival. Whereas σ factors are usually inactivated upon interaction with anti-σ proteins, σ(S) binding to the Crl protein increases σ(S) activity by favouring its association to E.

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The fluoroquinolones (FQs) are synthetic antibiotics effectively used for curing patients with multidrug-resistant tuberculosis (TB). When a multidrug-resistant strain develops resistance to the FQs, as in extensively drug-resistant strains, obtaining a cure is much more difficult, and molecular methods can help by rapidly identifying resistance-causing mutations. The only mutations proven to confer FQ resistance in M.

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In many γ-proteobacteria, the RpoS/σS sigma factor associates with the core RNAP (RNA polymerase) to modify global gene transcription in stationary phase and under stress conditions. The small regulatory protein Crl stimulates the association of σS with the core RNAP in Escherichia coli and Salmonella enterica serovar Typhimurium, through direct and specific interaction with σS. The structural determinants of Crl involved in σS binding are unknown.

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Type II DNA topoisomerases are divided into two families, IIA and IIB. Types IIA and IIB enzymes share homologous B subunits encompassing the ATP-binding site, but have non-homologous A subunits catalyzing DNA cleavage. Type IIA topoisomerases are ubiquitous in Bacteria and Eukarya, whereas members of the IIB family are mostly present in Archaea and plants.

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DNA gyrase, a type II topoisomerase, regulates DNA topology by creating a double-stranded break in one DNA duplex and transporting another DNA duplex [T-DNA (transported DNA)] through this break. The ATPase domains dimerize, in the presence of ATP, to trap the T-DNA segment. Hydrolysis of only one of the two ATPs, and release of the resulting Pi, is rate-limiting in DNA strand passage.

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In contrast with most bacteria which possess two type II topoisomerases (topoisomerase IV and DNA gyrase), Mycobacterium tuberculosis possesses only one, DNA gyrase, which is functionally a hybrid enzyme. Functional differences between the two type IIA topoisomerases are thought to be specified by a CTD (C-terminal DNA-binding domain), which controls DNA recognition. To explore the molecular mechanism responsible for the hybrid functions of the M.

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Mycobacterium tuberculosis DNA gyrase, a nanomachine involved in the regulation of DNA topology, is the only type II topoisomerase present in this organism and hence is the sole target of fluoroquinolones in the treatment of tuberculosis. The ATPase domain provides the energy required for catalysis by ATP hydrolysis. Two constructs corresponding to this 43 kDa domain, Mtb-GyrB47(C1) and Mtb-GyrB47(C2), have been overproduced, purified and crystallized.

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