Team:Valencia/lea

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The LEA (Late Embryogenesis Abundant) proteins were discovered about thirty years ago and were identified as proteins that highly accumulate during the maturation of cotton embryogenesis (Dure and Chlan (1981), Plant Physiol. 68: 180-186). Between their common characteristics, we can point out their high hydrophilicity, the abundance of some amino acid residues such as Gly, Ala, Thr, Glu and Lys/Arg, and their probable intrinsic lack of tertiary structure (Battaglia et al. (2008), Plant Physiol. 148: 6-24). Although these proteins are known for their role in preventing dehydration in plants, they can be found in many distant branches of the tree of life, like in algae, animals, fungi, archaea and bacteria (Tompa and Kovacs (2010), Biochem. Cell. Biol. 88: 167-174).
The LEA (Late Embryogenesis Abundant) proteins were discovered about thirty years ago and were identified as proteins that highly accumulate during the maturation of cotton embryogenesis (Dure and Chlan (1981), Plant Physiol. 68: 180-186). Between their common characteristics, we can point out their high hydrophilicity, the abundance of some amino acid residues such as Gly, Ala, Thr, Glu and Lys/Arg, and their probable intrinsic lack of tertiary structure (Battaglia et al. (2008), Plant Physiol. 148: 6-24). Although these proteins are known for their role in preventing dehydration in plants, they can be found in many distant branches of the tree of life, like in algae, animals, fungi, archaea and bacteria (Tompa and Kovacs (2010), Biochem. Cell. Biol. 88: 167-174).
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===Experiments===
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==Experiments==
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We carried out several experiments ...
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[[Image:Valencia_lea_result.jpg|500px|thumb|center|Results of the experiment. Four different cases, E.Coli with and wothout LEA, and cultures with 0% and 8% of Glycerol.]]
[[Image:Valencia_lea_result.jpg|500px|thumb|center|Results of the experiment. Four different cases, E.Coli with and wothout LEA, and cultures with 0% and 8% of Glycerol.]]
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Revision as of 09:21, 26 October 2010


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Surviving on Mars

Introduction

The fourth part involves dealing with violent temperature changes of the Martian surface. To do this we will implement the expression of LEA (late embryogenesis abundant) “antifreeze” protein. Thus, we want to verify the resistance to cold shock and salt stress of the E. coli cultures who which express LEA and compare this result with the ones who doesn't (control cultures). This brings the new problem of which control cultures we shall use. The same E.coli with the pM2 plasmid but without the insert (this is probably the best option but the more difficult one) What happened with this issue guys???

Late Embriogenesis Abundant (LEA) protein

LEA proteins: characteristics and function

The LEA (Late Embryogenesis Abundant) proteins were discovered about thirty years ago and were identified as proteins that highly accumulate during the maturation of cotton embryogenesis (Dure and Chlan (1981), Plant Physiol. 68: 180-186). Between their common characteristics, we can point out their high hydrophilicity, the abundance of some amino acid residues such as Gly, Ala, Thr, Glu and Lys/Arg, and their probable intrinsic lack of tertiary structure (Battaglia et al. (2008), Plant Physiol. 148: 6-24). Although these proteins are known for their role in preventing dehydration in plants, they can be found in many distant branches of the tree of life, like in algae, animals, fungi, archaea and bacteria (Tompa and Kovacs (2010), Biochem. Cell. Biol. 88: 167-174).

Experiments

We carried out several experiments ...


Results of the experiment. Four different cases, E.Coli with and wothout LEA, and cultures with 0% and 8% of Glycerol.