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| The proteome is the functional representation of the gemone. <ref>J. M. Berg Et Al, Biochemistry, 7th edition (2012), page 68</ref> | | The proteome is the functional representation of the [[Genome|genome]] <ref>J. M. Berg Et Al, Biochemistry, 7th edition (2012), page 68</ref>. |
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| | The term proteome refers to the full set of proteins expressed in a cell, at any one time. |
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| | Two - hybrid screens can be used to detect protein-protein interaction. This is one of many types of proteome analysis <ref>Larry Snyder and Wendy Champness, Molecular genetics of bacteria, Third edition, 2007, ASM press, Washington, p129</ref><ref>Larry Snyder and Wendy Champness, Molecular genetics of bacteria, Third edition, 2007, ASM press, Washington, p129</ref>. |
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| Two - hybrid screens can be used to detect protein-protein interaction. This is one of many types of proteome analysis. <ref>Larry Snyder and Wendy Champness, Molecular genetics of bacteria, Third edition, 2007, ASM press, Washington, p129</ref>
| | === References === |
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| <references />Larry Snyder and Wendy Champness, Molecular genetics of bacteria, Third edition, 2007, ASM press, Washington, p129 | |
Latest revision as of 13:57, 18 October 2016
The proteome is the functional representation of the genome [1].
The term proteome refers to the full set of proteins expressed in a cell, at any one time.
Two - hybrid screens can be used to detect protein-protein interaction. This is one of many types of proteome analysis [2][3].
References
- ↑ J. M. Berg Et Al, Biochemistry, 7th edition (2012), page 68
- ↑ Larry Snyder and Wendy Champness, Molecular genetics of bacteria, Third edition, 2007, ASM press, Washington, p129
- ↑ Larry Snyder and Wendy Champness, Molecular genetics of bacteria, Third edition, 2007, ASM press, Washington, p129