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    1. Neuroscience
    2. Stem Cells and Regenerative Medicine

    Engineering induction of singular neural rosette emergence within hPSC-derived tissues

    Gavin T Knight et al.
    A bioengineering approach identifies tissue morphology as an effective variable for controlling the inception of neural organoid morphogenesis via induction of a biomimetic, singular neural rosette tissue cytoarchitecture.
    1. Developmental Biology
    2. Structural Biology and Molecular Biophysics

    Engineering a conserved RNA regulatory protein repurposes its biological function in vivo

    Vandita D Bhat et al.
    Motif length plays a critical role in the specification of biological function within a conserved family of RNA-binding proteins.
    1. Biochemistry and Chemical Biology
    2. Cell Biology

    Engineering ER-stress dependent non-conventional mRNA splicing

    Weihan Li et al.
    Ire1's RNase specificity and its cleavage sites coordination shape the evolutionary specialization of the unfolded protein response.
    1. Computational and Systems Biology
    2. Structural Biology and Molecular Biophysics

    Approaching boiling point stability of an alcohol dehydrogenase through computationally-guided enzyme engineering

    Friso S Aalbers et al.
    By combining structure-based computational predictions and a thorough structural analysis, a highly thermostable enzyme, alcohol dehydrogenase, has been engineered.
    1. Structural Biology and Molecular Biophysics

    Allosteric regulators selectively prevent Ca2+-feedback of CaV and NaV channels

    Jacqueline Niu et al.
    Two structurally-unrelated regulatory proteins utilize parallel molecular mechanisms to selectively tune calcium and calmodulin feedback of calcium and sodium ion channels and reveals a novel strategy to engineer synthetic channel modulators.
    1. Genetics and Genomics
    2. Evolutionary Biology

    Current CRISPR gene drive systems are likely to be highly invasive in wild populations

    Charleston Noble et al.
    If released in the wild, current CRISPR-based gene drive systems designed to alter populations could spread much farther than intended, despite the evolution of drive resistance.
    1. Cell Biology
    2. Computational and Systems Biology

    Rewiring MAP kinases in Saccharomyces cerevisiae to regulate novel targets through ubiquitination

    Benjamin Groves et al.
    Two sets of modular components are sufficient to rewire MAPKs to regulate proteins through ubiquitination – a complementary pair of protein interaction domains and a phosphodegron.
    1. Computational and Systems Biology

    Distributing tasks via multiple input pathways increases cellular survival in stress

    Alejandro A Granados et al.
    Single-cell experiments and mathematical modelling show that cellular signalling networks are vulnerable to trade-offs in speed versus accuracy, but that these vulnerabilities can be overcome by distributing the two tasks to different, although interacting, subnetworks.
    1. Structural Biology and Molecular Biophysics
    2. Chromosomes and Gene Expression

    Selection of chromosomal DNA libraries using a multiplex CRISPR system

    Owen W Ryan et al.
    An optimized CRISPR-Cas9 system enables multiplexed genome engineering for evolving biomolecules and pathways from chromosomally integrated DNA libraries.
    1. Developmental Biology
    2. Stem Cells and Regenerative Medicine

    A 3D culture model of innervated human skeletal muscle enables studies of the adult neuromuscular junction

    Mohsen Afshar Bakooshli et al.
    Human skeletal muscle progenitors and motor neurons self-organize in three-dimensional co-culture to form functional neuromuscular junctions that developmentally mature from the embryonic to the adult state.