55 分鐘
Microbial nanowires This Week in Microbiology
-
- 生命科學
TWiM explores the use of a bacterial protein to make highly conductive microbial nanowires, and how modulin proteins seed the formation of amyloid, a key component of S. aureus biofilms.
Subscribe to TWiM (free) on Apple Podcasts, Google Podcasts, Android, RSS, or by email.
Become a patron of TWiM.
Links for this episode Amyloid formation for S. aureus biofilms (eLife) Highly conductive microbial nanowires (Nat Chem Biol) Uncovering Nature’s electronics (Nature) Activating Nature’s electrical grid (Bioeng) Bacteria that exhale electricity (SyFyWire) Microbial transistors (TWiM 14) TWiM Listener survey Send your microbiology questions and comments (email or recorded audio) to twim@microbe.tv
TWiM explores the use of a bacterial protein to make highly conductive microbial nanowires, and how modulin proteins seed the formation of amyloid, a key component of S. aureus biofilms.
Subscribe to TWiM (free) on Apple Podcasts, Google Podcasts, Android, RSS, or by email.
Become a patron of TWiM.
Links for this episode Amyloid formation for S. aureus biofilms (eLife) Highly conductive microbial nanowires (Nat Chem Biol) Uncovering Nature’s electronics (Nature) Activating Nature’s electrical grid (Bioeng) Bacteria that exhale electricity (SyFyWire) Microbial transistors (TWiM 14) TWiM Listener survey Send your microbiology questions and comments (email or recorded audio) to twim@microbe.tv
55 分鐘