puzzle picture
Beginner Puzzle (<150): Staphylococcus Aureus Electron Density
Status: Closed

Summary

Name: Beginner Puzzle (<150): Staphylococcus Aureus Electron Density
Status: Closed
Created: 01/27/2014
Points: 100
Expired: 07/21/2016 - 23:00
Difficulty: Beginner
Description: In electron density puzzles, we give you some experimental data to help you find the correct fold. This data takes the form of an electron density, and appears in game as a guide. You can adjust the guide visualization by going to [Actions]>[Electron Density]. For players with fewer than 150 global points.

START HERE:

If you are new to Foldit, here are detailed instructions to get you started: http://fold.it/portal/node/988864
_____________________________

If you want to fold proteins, know that there are many ways to play and this variety is the main value of Foldit :
- try all puzzles not only "Beginners" ones,
- fold first the ones you like the most,
- try it by yourself to understand what works and what doesn't,
- ask for tips in global chat when you think you don't understand something.

Make sure you have followed these tutorials:
- Lonely Sheets,
- Lock and Lower,
- Rebuild,
- Structure and Rebuild,
- Control over Clashing,
and especially:
- Electron Density
before starting this puzzle.
Categories: Beginner

Top Groups

RankGroupScorePoints
1Anthropic Dreams14,8370
2Void Crushers14,4860
3Crunching Family13,7210
4Rechenkraft.net13,6370
5Czech National Team13,6090

Top Soloists

RankPlayerGroupScorePoints
1Waya 18 16  15,147100
2kvasirthewise 127 2377  14,91993
3tokens 127 7154 Anthropic Dreams14,83786
4kabubi 127 204 Void Crushers14,48680
5LaoiseNiFhoghlu 127 7154  14,43774


Need this puzzle? Log in to download.  

Comments

No comments yet.
Download links:
  Windows    OSX    Linux  
Windows
(7/8/10)
OSX
(10.12 or later)
Linux
(64-bit)

Are you new to Foldit? Click here.

Are you a student? Click here.

Are you an educator? Click here.
Search
Only search fold.it
Recommend Foldit
User login
Topics
Top New Users
Sitemap

Developed by: UW Center for Game Science, UW Institute for Protein Design, Northeastern University, Vanderbilt University Meiler Lab, UC Davis
Supported by: DARPA, NSF, NIH, HHMI, Amazon, Microsoft, Adobe, RosettaCommons