Team:Stanford-Brown/HellCell/Cold
From 2012.igem.org
(Difference between revisions)
(→Cold At a glance Extremophile: Psychromonas ingrahamii Genes of interest: betA and betB Consensus: Inconclusive) |
(→Cold At a glance Extremophile: Psychromonas ingrahamii Genes of interest: betA and betB Consensus: Inconclusive) |
||
Line 16: | Line 16: | ||
{{:Team:Stanford-Brown/Templates/Content}} | {{:Team:Stanford-Brown/Templates/Content}} | ||
- | == '''Cold''' <br> <u> At a glance</u> <br> Extremophile: ''Psychromonas ingrahamii'' <br> Genes of interest: betA and betB <br> Consensus: Inconclusive == | + | == '''Cold''' <br> <font size = 2> <u> At a glance</u> <br> Extremophile: ''Psychromonas ingrahamii'' <br> Genes of interest: betA and betB <br> Consensus: Inconclusive </font> == |
<html> | <html> | ||
<i>Rhagium inquisitor</i> | <i>Rhagium inquisitor</i> |
Revision as of 08:10, 1 October 2012
Cold
At a glance
Extremophile: Psychromonas ingrahamii
Genes of interest: betA and betB
Consensus: Inconclusive
Rhagium inquisitor
Yale's iGEM team isolated an antifreeze protein out of it last year and showed that it confers survivability to cells at really cold temperatures (down to -20ºC). We are seeing whether cells can thrive and grow with the help of this protein at cold temperatures.
Escherichia coli
We are attempting to upregulate a pathway that produces betaine, a nutrient that prevents the aggregation of proteins and should help contribute to cold resistance.