Author: pendari1090

Rhiju spoke at Tsinghua University at the 2018 Tsinghua International Symposium of Computational Structural Biology and Biophysics, on Eterna’s recent progress in RNA design of on-demand molecular calculators. More information about the event can be found here.

Rhiju spoke at Tsinghua University at the 2018 Tsinghua International Symposium of Computational Structural Biology and Biophysics, on Eterna’s recent progress in RNA design of on-demand molecular calculators. More information about the event can be found here.

Rhiju spoke at Tsinghua University at the 2018 Tsinghua International Symposium of Computational Structural Biology and Biophysics, on Eterna’s recent progress in RNA design of on-demand molecular calculators. More information about the event can be found here.

The Das & Greenleaf labs at Stanford University School of Medicine are seeking ambitious postdoctoral researchers to create the next generation of the Eterna internet-scale videogame for RNA design. Projects involve ribosome redesign, RNA-based diagnostics, controllable genome editing, and the origin of life. More info on position and how to apply at Nature Jobs

The Das & Greenleaf labs at Stanford University School of Medicine are seeking ambitious postdoctoral researchers to create the next generation of the Eterna internet-scale videogame for RNA design. Projects involve ribosome redesign, RNA-based diagnostics, controllable genome editing, and the origin of life. More info on position and how to apply at Nature Jobs

We’re pleased to report our latest methods in 3D RNA modeling and Eterna design. Three preprints on BioRxiv highlight Blind prediction of noncanonical RNA structure at atomic accuracy, Computational design of asymmetric three-dimensional RNA structures and machines, and Prospects for recurrent neural network models to learn RNA biophysics from high-throughput data. Check out preprints through our publications page

We’re pleased to report our latest methods in 3D RNA modeling and Eterna design. Three preprints on BioRxiv highlight Blind prediction of noncanonical RNA structure at atomic accuracy, Computational design of asymmetric three-dimensional RNA structures and machines, and Prospects for recurrent neural network models to learn RNA biophysics from high-throughput data. Check out preprints through our publications page

We’re pleased to report our latest methods in 3D RNA modeling and Eterna design. Three preprints on BioRxiv highlight Blind prediction of noncanonical RNA structure at atomic accuracy, Computational design of asymmetric three-dimensional RNA structures and machines, and Prospects for recurrent neural network models to learn RNA biophysics from high-throughput data. Check out preprints through our publications page

Congratulations to collaborators Tosan Omabegho & Zev Bryant for reporting their design of a fast molecular machine whose direction can be reversed back and forth by RNA. The paper “Controllable molecular motors engineered from myosin and RNA” and a commentary are now out in Nature Nanotechnology

Congratulations to collaborators Tosan Omabegho & Zev Bryant for reporting their design of a fast molecular machine whose direction can be reversed back and forth by RNA. The paper “Controllable molecular motors engineered from myosin and RNA” and a commentary are now out in Nature Nanotechnology

Congratulations to collaborators Tosan Omabegho & Zev Bryant for reporting their design of a fast molecular machine whose direction can be reversed back and forth by RNA. The paper “Controllable molecular motors engineered from myosin and RNA” and a commentary are now out in Nature Nanotechnology

A rousing EternaCon happened on 2017 Saturday and Sunday October 21-22, 2017. Nearly 50 Eterna players and experts in CRISPR technologies and inexpensive diagnostics came together to consider the possibility of citizen scientists inventing medicine.

A rousing EternaCon happened on 2017 Saturday and Sunday October 21-22, 2017. Nearly 50 Eterna players and experts in CRISPR technologies and inexpensive diagnostics came together to consider the possibility of citizen scientists inventing medicine.

A rousing EternaCon happened on 2017 Saturday and Sunday October 21-22, 2017. Nearly 50 Eterna players and experts in CRISPR technologies and inexpensive diagnostics came together to consider the possibility of citizen scientists inventing medicine.

Eterna has launched the OpenCRISPR challenge, in partnership with Stanford’s Center for Personal Dynamic Regulomes and Berkeley’s Innovative Genome Institute. These Eterna puzzles involve designing on/off switches for CRISPR that will be tested experimentally. We’re hoping for 100,000 solutions! Follow us on Twitter @eternagame

Eterna has launched the OpenCRISPR challenge, in partnership with Stanford’s Center for Personal Dynamic Regulomes and Berkeley’s Innovative Genome Institute. These Eterna puzzles involve designing on/off switches for CRISPR that will be tested experimentally. We’re hoping for 100,000 solutions! Follow us on Twitter @eternagame

Eterna has launched the OpenCRISPR challenge, in partnership with Stanford’s Center for Personal Dynamic Regulomes and Berkeley’s Innovative Genome Institute. These Eterna puzzles involve designing on/off switches for CRISPR that will be tested experimentally. We’re hoping for 100,000 solutions! Follow us on Twitter @eternagame Watch video

The Das lab at Stanford is hiring. One position is for an information analytics aide who can work approximately 20 hours/week and who lives sufficiently close to the Bay Area to come into Stanford one day of the week. The work is well suited to undergraduates who are pursuing computational biology degrees. Eterna players are particularly encouraged to apply.”

The Das lab at Stanford is hiring. One position is for an information analytics aide who can work approximately 20 hours/week and who lives sufficiently close to the Bay Area to come into Stanford one day of the week. The work is well suited to undergraduates who are pursuing computational biology degrees. Eterna players are […]