The root of the cause
September 20th, 2019 by Grant Miura
Nature Chemical Biology, Published online: 20 September 2019; doi:10.1038/s41589-019-0376-5
The root of the causeColibactin comes to light
September 20th, 2019 by Caitlin Deane
Nature Chemical Biology, Published online: 20 September 2019; doi:10.1038/s41589-019-0373-8
Colibactin comes to lightFirst contact
September 20th, 2019 by Yiyun Song
Nature Chemical Biology, Published online: 20 September 2019; doi:10.1038/s41589-019-0375-6
First contactA NAMe-tag for ALS
September 20th, 2019 by Mirella Bucci
Nature Chemical Biology, Published online: 20 September 2019; doi:10.1038/s41589-019-0374-7
A NAMe-tag for ALSDevelopment of targeted protein degradation therapeutics
September 16th, 2019 by Philip P. Chamberlain
Nature Chemical Biology, Published online: 16 September 2019; doi:10.1038/s41589-019-0362-y
This Perspective summarizes recent discoveries that have laid the foundation for targeted degradation therapeutics and discusses the current state of understanding and consideration involved in developing these protein degraders.DNA repair complex licenses acetylation of H2A.Z.1 by KAT2A during transcription
September 16th, 2019 by M. Semer
Nature Chemical Biology, Published online: 16 September 2019; doi:10.1038/s41589-019-0354-y
KAT2A acetylates histone variant H2A.Z to regulate transactivation of XPC and RAR positively regulated genes. The DNA repair complex XPC–RAD23–CEN2 interacts with H2A.Z and KAT2A to license the latter’s histone acetyltransferase activity.Versatile biomanufacturing through stimulus-responsive cell–material feedback
September 16th, 2019 by Zhuojun Dai
Nature Chemical Biology, Published online: 16 September 2019; doi:10.1038/s41589-019-0357-8
Encapsulation of engineered bacteria in environmentally responsive materials enables on-demand protein production coupled to downstream processes such as protein purification, on-chip enzyme kinetics and metabolic production of fatty acids.Dynamic membrane topology in an unassembled membrane protein
September 9th, 2019 by Maximilian Seurig
Nature Chemical Biology, Published online: 09 September 2019; doi:10.1038/s41589-019-0356-9
The topology of homodimeric membrane protein EmrE is dynamic and includes unassisted flipping of an N-terminal helix in and out of the membrane long after co-translational insertion. Dimerization locks the helix to limit topological dynamics.Cargo adaptors regulate stepping and force generation of mammalian dynein–dynactin
September 9th, 2019 by Mohamed M. Elshenawy
Nature Chemical Biology, Published online: 09 September 2019; doi:10.1038/s41589-019-0352-0
Single-molecule analysis revealed that the velocity and force generation of the mammalian dynein–dynactin complex is regulated by activating adaptors and tail–tail interactions between two dyneins.The tail wags the motor
September 9th, 2019 by Richard J. McKenney
Nature Chemical Biology, Published online: 09 September 2019; doi:10.1038/s41589-019-0367-6
Cytoplasmic dynein is a complex molecular motor that steps along microtubules. Advanced biophysical measurements reveal a surprising role for the dynein tail domain in the allosteric control of dynein’s mechanochemistry within assemblies composed of multiple dynein motors.