• Mashup Score: 6

    Radiation damage hampers protein structure determination by X-ray crystallography. Here, the AUs introduce the Bnet metric, a single value summarising the extent of radiation damage of a protein crystal structure, and use Bnet to detect radiation damage in structures deposited in the Protein Data Bank.

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    • A new metric for the extent of radiation damage in protein crystal structures allows analyzing radiation damage in structures deposited in the Protein Data Bank @BristolChem @BristolBiochem @OxBiochNews https://t.co/QNuUtMt93Y https://t.co/T9s9vfsjzh

  • Mashup Score: 4

    So far most of the de novo designed proteins are for single states only. Here, the authors present the de novo design and crystal structure determination of a coiled-coil peptide that assembles into multiple, distinct conformational states under the same conditions and further characterise its properties with biophysical experiments, NMR and MD simulations.

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    • New work from Dek Woolfson’s lab: Structural resolution of switchable states of a de novo peptide assembly WoolfsonLab @BristolChem @BrisBioDesign @BristolBiochem @Will_M_Dawson @Eric_jm_lang @Guto_Rhys @AdrianMulholla1 https://t.co/rfnuQmzFqS https://t.co/V4qE694LF2

  • Mashup Score: 3

    So far most of the de novo designed proteins are for single states only. Here, the authors present the de novo design and crystal structure determination of a coiled-coil peptide that assembles into multiple, distinct conformational states under the same conditions and further characterise its properties with biophysical experiments, NMR and MD simulations.

    Tweet Tweets with this article
    • New work from Dek Woolfson’s lab: Structural resolution of switchable states of a de novo peptide assembly WoolfsonLab @BristolChem @BrisBioDesign @BristolBiochem @Will_M_Dawson @Eric_jm_lang @Guto_Rhys @AdrianMulholla1 https://t.co/rfnuQmzFqS https://t.co/nej8zuueG2