From d18ad3860519a254a29188941229df275ed39e5c Mon Sep 17 00:00:00 2001 From: Dane Sabo Date: Wed, 13 Nov 2024 15:34:10 -0500 Subject: [PATCH] vault backup: 2024-11-13 15:34:10 --- 201 Metadata/My Library.bib | 19 +++++++++++++++++++ 1 file changed, 19 insertions(+) diff --git a/201 Metadata/My Library.bib b/201 Metadata/My Library.bib index 03130a02a..cc87a5d97 100644 --- a/201 Metadata/My Library.bib +++ b/201 Metadata/My Library.bib @@ -46,6 +46,25 @@ file = {/home/danesabo/Zotero/storage/KZSJSUKD/Abelson et al. - 2022 - Structure and interpretation of computer programs.pdf} } +@article{abramsonAccurateStructurePrediction2024, + title = {Accurate Structure Prediction of Biomolecular Interactions with {{AlphaFold}} 3}, + author = {Abramson, Josh and Adler, Jonas and Dunger, Jack and Evans, Richard and Green, Tim and Pritzel, Alexander and Ronneberger, Olaf and Willmore, Lindsay and Ballard, Andrew J. and Bambrick, Joshua and Bodenstein, Sebastian W. and Evans, David A. and Hung, Chia-Chun and O’Neill, Michael and Reiman, David and Tunyasuvunakool, Kathryn and Wu, Zachary and Žemgulytė, Akvilė and Arvaniti, Eirini and Beattie, Charles and Bertolli, Ottavia and Bridgland, Alex and Cherepanov, Alexey and Congreve, Miles and Cowen-Rivers, Alexander I. and Cowie, Andrew and Figurnov, Michael and Fuchs, Fabian B. and Gladman, Hannah and Jain, Rishub and Khan, Yousuf A. and Low, Caroline M. R. and Perlin, Kuba and Potapenko, Anna and Savy, Pascal and Singh, Sukhdeep and Stecula, Adrian and Thillaisundaram, Ashok and Tong, Catherine and Yakneen, Sergei and Zhong, Ellen D. and Zielinski, Michal and Žídek, Augustin and Bapst, Victor and Kohli, Pushmeet and Jaderberg, Max and Hassabis, Demis and Jumper, John M.}, + date = {2024-06}, + journaltitle = {Nature}, + volume = {630}, + number = {8016}, + pages = {493--500}, + publisher = {Nature Publishing Group}, + issn = {1476-4687}, + doi = {10.1038/s41586-024-07487-w}, + url = {https://www.nature.com/articles/s41586-024-07487-w}, + urldate = {2024-11-13}, + abstract = {The introduction of AlphaFold\,21 has spurred a revolution in modelling the structure of proteins and their interactions, enabling a huge range of applications in protein modelling and design2–6. Here we describe our AlphaFold\,3 model with a substantially updated diffusion-based architecture that is capable of predicting the joint structure of complexes including proteins, nucleic acids, small molecules, ions and modified residues. The new AlphaFold model demonstrates substantially improved accuracy over many previous specialized tools: far greater accuracy for protein–ligand interactions compared with state-of-the-art docking tools, much higher accuracy for protein–nucleic acid interactions compared with nucleic-acid-specific predictors and substantially higher antibody–antigen prediction accuracy compared with AlphaFold-Multimer v.2.37,8. Together, these results show that high-accuracy modelling across biomolecular space is possible within a single unified deep-learning framework.}, + langid = {english}, + keywords = {Drug discovery,Machine learning,Protein structure predictions,Structural biology}, + file = {/home/danesabo/Zotero/storage/Y4BDPS2Y/Abramson et al. - 2024 - Accurate structure prediction of biomolecular interactions with AlphaFold 3.pdf} +} + @online{AbstractJulia, title = {{{AbstractJulia}}}, url = {https://www.algebraicjulia.org/}