Search results for: crispr-cas9

• Establishing the allosteric mechanism in CRISPR‐Cas9

  Publication

  • Ł. Nierzwicki
  • P. R. Arantes
  • A. Saha
  • G. Palermo

  - Wiley Interdisciplinary Reviews-Computational Molecular Science - Year 2021

  Allostery is a fundamental property of proteins, which regulates biochemical information transfer between spatially distant sites. Here, we report on the critical role of molecular dynamics (MD) simulations in discovering the mechanism of allosteric communication within CRISPR‐Cas9, a leading genome editing machinery with enormous promises for medicine and biotechnology. MD revealed how allostery intervenes during at least three...

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• Principles of target DNA cleavage and the role of Mg2+ in the catalysis of CRISPR–Cas9

  Publication

  • Ł. Nierzwicki
  • P. R. Arantes
  • M. Jinek
  • G. Lisi
  • G. Palermo
  • K. East
  • J. Binz
  • R. Vsu
  • A. Mohd
  • E. Skeens
  • M. Pacesa

  - Nature Catalysis - Year 2022

  At the core of the CRISPR–Cas9 genome-editing technology, the endonuclease Cas9 introduces site-specific breaks in DNA. However, precise mechanistic information to ameliorate Cas9 function is still missing. Here, multimicrosecond molecular dynamics, free energy and multiscale simulations are combined with solution NMR and DNA cleavage experiments to resolve the catalytic mechanism of target DNA cleavage. We show that the conformation...

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• A CRISPR/Cas9-Based Mutagenesis Protocol for Brachypodium distachyon and Its Allopolyploid Relative, Brachypodium hybridum

  Publication

  • K. Hus
  • A. Betekhtin
  • A. Pinski
  • M. Rojek-Jelonek
  • E. Grzebelus
  • C. Nibau
  • M. Gao
  • K. Jaeger
  • G. Jenkins
  • J. Doonan
  • R. Hasterok

  - Frontiers in Plant Science - Year 2020

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• Catalytic Mechanism of Non-Target DNA Cleavage in CRISPR-Cas9 Revealed by Ab Initio Molecular Dynamics

  Publication

  • L. Casalino
  • Ł. Nierzwicki
  • M. Jinek
  • G. Palermo

  - ACS Catalysis - Year 2020

  CRISPR-Cas9 is a cutting-edge genome editing technology, which uses the endonuclease Cas9 to introduce mutations at desired sites of the genome. This revolutionary tool is promising to treat a myriad of human genetic diseases. Nevertheless, the molecular basis of DNA cleavage, which is a fundamental step for genome editing, has not been established. Here, quantum–classical molecular dynamics (MD) and free energy methods are used...

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• Molecular Dynamics to Predict Cryo-EM: Capturing Transitions and Short-Lived Conformational States of Biomolecules

  Publication

  • Ł. Nierzwicki
  • G. Palermo

  - Frontiers in Molecular Biosciences - Year 2021

  Single-particle cryogenic electron microscopy (cryo-EM) has revolutionized the field of the structural biology, providing an access to the atomic resolution structures of large biomolecular complexes in their near-native environment. Today’s cryo-EM maps can frequently reach the atomic-level resolution, while often containing a range of resolutions, with conformationally variable regions obtained at 6 Å or worse. Low resolution...

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• Novel Tools for Comprehensive Functional Analysis of LDLR (Low-Density Lipoprotein Receptor) Variants

  Publication

  • J. Jasiecki
  • M. Targońska
  • A. Janaszak-Jasiecka
  • M. Chmara
  • M. Żuk
  • L. Kalinowski
  • K. Waleron
  • B. Wasąg

  - INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES - Year 2023

  Familial hypercholesterolemia (FH) is an autosomal-dominant disorder caused mainly by substitutions in the low-density lipoprotein receptor (LDLR) gene, leading to an increased risk of premature cardiovascular diseases. Tremendous advances in sequencing techniques have resulted in the discovery of more than 3000 variants of the LDLR gene, but not all of them are clinically relevant. Therefore, functional studies of selected variants...

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