Ekaterina Isaakova scite author profile

Here, the emerging data on DNA G‐quadruplexes (G4s) as epigenetic modulators are reviewed and integrated. This concept has appeared and evolved substantially in recent years. First, persistent G4s (e.g., those stabilized by exogenous ligands) were linked to the loss of the histone code. More recently, transient G4s (i.e., those formed upon replication or transcription and unfolded rapidly by helicases) were implicated in CpG island methylation maintenance and de novo CpG methylation control. The most recent data indicate that there are direct interactions between G4s and chromatin remodeling factors. Finally, multiple findings support the indirect participation of G4s in chromatin reshaping via interactions with remodeling‐related transcription factors (TFs) or damage responders. Here, the links between the above processes are analyzed; also, how further elucidation of these processes may stimulate the progress of epigenetic therapy is discussed, and the remaining open questions are highlighted.

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MYC multimers shield stalled replication forks from RNA polymerase

Solvie

Baluapuri

Uhl

et al. 2022

Nature

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Genetically encoded calcium indicator with NTnC-like design and enhanced fluorescence contrast and kinetics

et al. 2018

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BackgroundThe recently developed genetically encoded calcium indicator (GECI), called NTnC, has a novel design with reduced size due to utilization of the troponin C (TnC) as a Ca2+-binding moiety inserted into the mNeonGreen fluorescent protein. NTnC binds two times less Ca2+ ions while maintaining a higher fluorescence brightness at the basal level of Ca2+ in neurons as compared with the calmodulin-based GECIs, such as GCaMPs. In spite of NTnC’s high brightness, pH-stability, and high sensitivity to single action potentials, it has a limited fluorescence contrast (F-Ca2+/F+Ca2+) and slow Ca2+ dissociation kinetics.ResultsHerein, we developed a new NTnC-like GECI with enhanced fluorescence contrast and kinetics by replacing the mNeonGreen fluorescent subunit of the NTnC indicator with EYFP. Similar to NTnC, the developed indicator, named iYTnC2, has an inverted fluorescence response to Ca2+ (i.e. becoming dimmer with an increase of Ca2+ concentration). In the presence of Mg2+ ions, iYTnC2 demonstrated a 2.8-fold improved fluorescence contrast in vitro as compared with NTnC. The iYTnC2 indicator has lower brightness and pH-stability, but similar photostability as compared with NTnC in vitro. Stopped-flow fluorimetry studies revealed that iYTnC2 has 5-fold faster Ca2+ dissociation kinetics than NTnC. When compared with GCaMP6f GECI, iYTnC2 has up to 5.6-fold faster Ca2+ association kinetics and 1.7-fold slower dissociation kinetics. During calcium transients in cultured mammalian cells, iYTnC2 demonstrated a 2.7-fold higher fluorescence contrast as compared with that for the NTnC. iYTnC2 demonstrated a 4-fold larger response to Ca2+ transients in neuronal cultures than responses of NTnC. iYTnC2 response in neurons was additionally characterized using whole-cell patch clamp. Finally, we demonstrated that iYTnC2 can visualize neuronal activity in vivo in the hippocampus of freely moving mice using a nVista miniscope.ConclusionsWe demonstrate that expanding the family of NTnC-like calcium indicators is a promising strategy for the development of the next generation of GECIs with smaller molecule size and lower Ca2+ ions buffering capacity as compared with commonly used GECIs.Electronic supplementary materialThe online version of this article (10.1186/s12896-018-0417-2) contains supplementary material, which is available to authorized users.

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Genomic DNA i-motifs as fast sensors responsive to near-physiological pH microchanges

Turaev

Isaakova

Severov

et al. 2021

Biosensors and Bioelectronics

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