User contributions for Pandadiablo
From MicrobeWiki, the student-edited microbiology resource
15 December 2012
- 03:0603:06, 15 December 2012 diff hist +47 Bacterial response to microgravity No edit summary
- 02:5902:59, 15 December 2012 diff hist +27 Bacterial response to microgravity →Physical Effects
- 02:4802:48, 15 December 2012 diff hist +54 Bacterial response to microgravity →Biofilm formation
- 02:4702:47, 15 December 2012 diff hist +7 Bacterial response to microgravity →Hyper-virulence of Salmonella
- 02:4602:46, 15 December 2012 diff hist +25 Bacterial response to microgravity →Future applications
- 02:4502:45, 15 December 2012 diff hist +42 Bacterial response to microgravity →T3SS and exceptions to hyper-virulence
- 02:4302:43, 15 December 2012 diff hist +64 Bacterial response to microgravity →T3SS and exceptions to hyper-virulence
- 02:4102:41, 15 December 2012 diff hist −1 Bacterial response to microgravity No edit summary
- 02:2802:28, 15 December 2012 diff hist +215 Bacterial response to microgravity →Hyper-virulence of Salmonella
- 02:2702:27, 15 December 2012 diff hist +2 Bacterial response to microgravity No edit summary
- 02:2402:24, 15 December 2012 diff hist +27 Bacterial response to microgravity No edit summary
- 02:2202:22, 15 December 2012 diff hist +588 Bacterial response to microgravity No edit summary
14 December 2012
- 04:2004:20, 14 December 2012 diff hist +11 Bacterial response to microgravity No edit summary
- 03:4903:49, 14 December 2012 diff hist 0 Bacterial response to microgravity →Physical Effects
- 03:4903:49, 14 December 2012 diff hist +8 Bacterial response to microgravity No edit summary
- 03:4703:47, 14 December 2012 diff hist +104 Bacterial response to microgravity No edit summary
- 03:4403:44, 14 December 2012 diff hist +61 N File:Hfqprotein.JPG Hfq protein bound to sRNA. Image courtesy of Robert E. Plaag. current
- 03:4203:42, 14 December 2012 diff hist +261 Bacterial response to microgravity No edit summary
- 03:3603:36, 14 December 2012 diff hist +214 N File:Brownianmotion5particles150frame.gif Animated simulation of Brownian motion (diffusion). In the absence of convection (in space), this is the only way molecules are transferred between cells. Image courtesy of Francisco Esquembre, Fu-Kwun and Lookang. current
- 03:3303:33, 14 December 2012 diff hist −1 Bacterial response to microgravity No edit summary
- 03:3303:33, 14 December 2012 diff hist +1,060 Bacterial response to microgravity No edit summary
- 03:3103:31, 14 December 2012 diff hist +445 N File:HARV.jpg The high aspect ratio vessel (HARV) is used to simulate microgravity conditions. If the axis of rotation is perpendicular to gravity, the vessel randomizes the gravitational vectors felt on the cultured cells, allowing the cells to experience "free-fal... current
- 03:2703:27, 14 December 2012 diff hist −137 File:Access.jpg →{{int:filedesc}} current
- 03:2603:26, 14 December 2012 diff hist +404 N File:Access.jpg =={{int:filedesc}}== {{Information |description={{en|1=Among non-motile bacteria, a microgravity environment allows more space for nutrient uptake (top left). In contrast, only the top layers of bacteria are exposed to the nutrients in a 1 g environmen...
- 03:1403:14, 14 December 2012 diff hist 0 N File:2330main 1534main2 MM Image Feature 20 rs4.jpg No edit summary current
- 03:0503:05, 14 December 2012 diff hist +21 Bacterial response to microgravity No edit summary
- 03:0403:04, 14 December 2012 diff hist +11,838 N Bacterial response to microgravity Created page with "<b>Bacterial response to microgravity</b> is an increasingly useful area of study, with the dawn of continual human presence in low-earth orbit and more [http://en.wikipedia.o..."