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In this Review, the authors provide a comprehensive overview of recent structural studies of the cGAS–STING complex, discussing pertinent functional and mechanistic implications.
Recent studies offer new insight on the mechanisms of IP6-mediated HIV-1 capsid assembly. The immature Gag lattice enables enrichment of IP6 into virions, aiding capsid maturation. Structures of capsid protein (CA) assemblies reveal motifs serving as switches modulating the conformations of CA pentamers/hexamers and affect co-factor accessibility.
Sperm flagella of highly divergent eukaryotic species share an architectural plan. Despite their ostensible ultrastructural similarities, mammalian sperm flagella beat with an asymmetric waveform, in contrast to the symmetrical beats of other eukaryotic flagella. Structural findings elucidate the molecular basis for this evolutionary divergence.
AlphaFold2 has already changed structural biology, but its true power may lie in how it changes the way we think about cells and organisms. Two studies broadly assess its utility and limitations in providing structural models to shed light in areas such as mutations, protein–protein interactions, and phosphorylation.
Gene transcription initiation is a highly regulated process in which Pol II and general transcription factors assemble into a pre-initiation complex. Structural studies of yeast and human initiation complexes shed light on the role of the first nucleosome flanking gene promoters in controlling the transcription machinery.
Craspase is newly identified type III CRISPR–Cas system with two major components: the nuclease Cas7-11, and the protease TPR-CHAT. Craspases perform a delicate balancing act between nuclease and protease activity to achieve immune tolerance and defense in bacteria, and show promise as highly regulatable genome-editing tools.