Talk:CH391L/S13/Metabolic Engineering and Thermophiles
- Gabriel Wu 17:11, 15 April 2013 (EDT): The latest and greatest on the artemisinin project.
- Dwight Tyler Fields 17:31, 15 April 2013 (EDT): From a big picture perspective, what are the boundaries on what one can get cells to produce? Maybe you could include this in a brief section on "future challenges" in the field?
- Evan Weaver 13:04, 16 April 2013 (EDT): What makes thermophiles so hard to culture? Is it because of the high heat in combination with the amount of pressure needed to keep them alive?
- Aurko Dasgupta 18:44, 16 April 2013 (EDT):I think thermophiles typically have a slower growth rate that mesotherms like E. coli. Deinococcus radiodurans (not a thermophile, but another kind of extremophile) takes 2-3 days to form decent sized colonies on plates. I think the difficulty of transformation is also partially due to differences in their exponential phase compared to normal bacteria.
- Benjamin Gilman 15:34, 18 April 2013 (EDT): Most of the species of bacteria out there are either difficult or impossible to grow in cultures, so it shouldn't be too shocking that thermophiles we've chosen for traits like novel metabolic pathways or ease of transformation don't also grow quickly. The only ways to get over that are to engineer the bacteria for faster growth (which is hard), find a media condition that improves growth (less hard), or find a similar species that really likes growing in tanks (maybe impossible).
- Max E. Rubinson 15:59, 18 April 2013 (EDT): I think I remember reading somewhere that thermophiles can be cultured more successfully when they are co-cultured with their natural symbionts.
- Gabriel Wu 23:07, 17 April 2013 (EDT): What's the cost-benefit of maintaing a higher culturing temperature versus using other forms of selection? I know antibiotics at industrial scale are cost prohibitive. What selection is used currently and is it really cheaper to just keep cultures at 50°C?
- Yunle Huang 15:26, 18 April 2013 (EDT):Perhaps you can expand on precisely how some of the "Modern techniques" can be used in metabolic engineering? Maybe expands on some of the examples you gave in that section.