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Force generation is critical for diverse cellular processes including transcription, translation, mitosis, cytokinesis, cell differentiation, and cell migration. Common to biological processes such as these is the inter-conversion of chemical and mechanical energy (i.e. they are mechanochemical processes). Our understanding of mechanochemical processes has benefited greatly from studies of molecular motor proteins, proteins that use chemical energy to perform work. Myosins are a superfamily of molecular motors that use ATP hydrolysis to create directed motion upon interaction with the filamentous protein actin. Research | == Welcome to the Altman Lab! == | ||
Research in our lab focuses on understanding how myosins function both individually and in their complex, cellular environments. | |||
Force generation is critical for diverse cellular processes including transcription, translation, mitosis, cytokinesis, cell differentiation, and cell migration. Common to biological processes such as these is the inter-conversion of chemical and mechanical energy (i.e. they are mechanochemical processes). Our understanding of mechanochemical processes has benefited greatly from studies of molecular motor proteins, proteins that use chemical energy to perform work. Myosins are a superfamily of molecular motors that use ATP hydrolysis to create directed motion upon interaction with the filamentous protein actin. | |||
== News == | |||
*'''6/15/13''' - Summer research is up-and-running with Rebekah Daniel, supported by Willamette's [http://www.willamette.edu/cla/scrp SCRP] program, Jay Howard, supported by Willamette's [http://www.willamette.edu/dept/saga/wu_programs/programs/carson/ Carson Undegraduate Research Grant], and Bianca Nagata, recipient of the Biology Department's [http://www.willamette.edu/~bstebbin/wilson.html Arthur A. Wilson Research Scholarship Award]. | |||
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Revision as of 13:03, 15 June 2013
Welcome to the Altman Lab!
Research in our lab focuses on understanding how myosins function both individually and in their complex, cellular environments.
Force generation is critical for diverse cellular processes including transcription, translation, mitosis, cytokinesis, cell differentiation, and cell migration. Common to biological processes such as these is the inter-conversion of chemical and mechanical energy (i.e. they are mechanochemical processes). Our understanding of mechanochemical processes has benefited greatly from studies of molecular motor proteins, proteins that use chemical energy to perform work. Myosins are a superfamily of molecular motors that use ATP hydrolysis to create directed motion upon interaction with the filamentous protein actin.
News
- 6/15/13 - Summer research is up-and-running with Rebekah Daniel, supported by Willamette's SCRP program, Jay Howard, supported by Willamette's Carson Undegraduate Research Grant, and Bianca Nagata, recipient of the Biology Department's Arthur A. Wilson Research Scholarship Award.
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