Message boards : Rosetta@home Science : Florescent proteins designed entirely from scratch
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Anastassia Send message Joined: 16 Sep 18 Posts: 2 Credit: 0 RAC: 0 |
Hi! I am a postdoc in the Baker lab and me and all co-authors wanted to thank you for your contribution the new Baker lab paper published in Nature this week! In that paper, we were able to design a new fluorescent protein completely from scratch, much smaller than the Green Fluorescent Protein that is traditionally used by researchers to visualise processes in cells. The paper presents many “firsts” in computational protein design. It is the first de novo design of the beta-barrel fold (one of the most described fold in the past 35 years, yet mysterious until now). It is also the first de novo design of a protein tailored to bind a small-molecule, which requires very high accuracy in the placement of side chains on protein backbones assembled from scratch. Additionally, we could show that these new proteins could fold and function as expected in vivo! We hope that the advances described in the paper will further unable the de novo design of many biosensors and catalysts tailored for specific applications. Thanks to all the Rosetta@home volunteers who contributed to the validation of our designed proteins and binding sites. Here is the link to the IPD webpage that contains a copy of the paper. The work was also featured in the news articles below (the news in Science contains a video of one of our proteins glowing in living cells). https://www.bakerlab.org/index.php/2018/09/12/de-novo-fluorescent-proteins/ https://cen.acs.org/physical-chemistry/periodic-table/Designer-protein-tackles-binding/96/i37 http://www.sciencemag.org/news/2018/09/watch-these-new-designer-proteins-light-when-they-hit-their-target |
Jim1348 Send message Joined: 19 Jan 06 Posts: 881 Credit: 52,257,545 RAC: 0 |
That really should be placed (probably by the moderator) in a sticky entitled "Research Highlights" or something like that, so that it is easily accessible and does not get lost. A significant result like that can not be expected all the time, but it is very encouraging when it happens. Thanks for the update. |
[VENETO] boboviz Send message Joined: 1 Dec 05 Posts: 1991 Credit: 9,520,400 RAC: 12,860 |
That really should be placed (probably by the moderator) in a sticky entitled "Research Highlights" or something like that, so that it is easily accessible and does not get lost. A significant result like that can not be expected all the time, but it is very encouraging when it happens. +1 |
Jacques Laurence do Nascimento Silva Send message Joined: 15 Feb 12 Posts: 5 Credit: 2,419,347 RAC: 945 |
This is really motivating, seeing that the project is generating results. |
dcdc Send message Joined: 3 Nov 05 Posts: 1831 Credit: 119,473,252 RAC: 11,624 |
This sounds really exciting! Thanks for posting the update, Anastassia. Quick question - approximately how many models did you run on Rosetta@home for the validation process? I fully agree that this forum needs a research highlights channel, or maybe they just need to be added to a thread in "News" that has links to all of the research posts? Also, here are the formatted links: https://www.bakerlab.org/index.php/2018/09/12/de-novo-fluorescent-proteins/ https://cen.acs.org/physical-chemistry/periodic-table/Designer-protein-tackles-binding/96/i37 http://www.sciencemag.org/news/2018/09/watch-these-new-designer-proteins-light-when-they-hit-their-target |
Trotador Send message Joined: 30 May 09 Posts: 108 Credit: 291,214,977 RAC: 4 |
Congratulations! Keep the good work! |
Anastassia Send message Joined: 16 Sep 18 Posts: 2 Credit: 0 RAC: 0 |
Thanks for the positive feedback! We ran validation on Rosetta@home for 60-70 models for the first part of the work (the design of the fold, experimenting with different approaches) then another 50 designs with ligand-binding cavity. |
Christopher Kindred Send message Joined: 4 Feb 20 Posts: 1 Credit: 94,065 RAC: 0 |
Thank you, for sharing this success story. As a CPU volunteer, I often wonder at the results; though, I have never taken the time to search things out before. This COVID-19 Pandemic has given me a bit more time to explore...and, perhaps, to slow down a bit. Thanks, again! ChrysBlaze |
torma99 Send message Joined: 16 Feb 20 Posts: 14 Credit: 288,937 RAC: 0 |
Thanks for the positive feedback! We ran validation on Rosetta@home for 60-70 models for the first part of the work (the design of the fold, experimenting with different approaches) then another 50 designs with ligand-binding cavity. Many thanks, to giving us insight to your project. Sounds really interesting and promising. Hope you will use Rosetta again for your work! |
Sid Celery Send message Joined: 11 Feb 08 Posts: 2114 Credit: 41,100,175 RAC: 22,181 |
This appears to be related - via @UWProteinDesign on twitter In a new report, we describe the de novo design & characterization of selective ion channels, as well as larger pores that permit the passage of fluorescent molecules thru cell walls. Computational design of transmembrane pores | @nature #ProteinDesign |
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Rosetta@home Science :
Florescent proteins designed entirely from scratch
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