RSS Feed for Gleevec https://solvonauts.org/%3Faction%3Drss_search%26term%3DGleevec RSS Feed for Gleevec 5.36 Biochemistry Laboratory (MIT) 5.36 Biochemistry Laboratory (MIT) The course which spans two thirds of a semester provides students with a research inspired laboratory experience that introduces standard biochemical techniques in the context of investigating a current and exciting research topic acquired resistance to the cancer drug Gleevec Techniques include protein expression purification and gel analysis PCR site directed mutagenesis kinase activity assays and protein structure viewing This class is part of the new laboratory curriculum in the MIT Department of Chemistry Undergraduate Research Inspired Experimental Chemistry Alternatives URIECA introduces students to cutting edge research topics in a modular format Acknowledgments Development of this course was funded through an HHMI Professors grant to Professor Catherine L Drennan The course which spans two thirds of a semester provides students with a research inspired laboratory experience that introduces standard biochemical techniques in the context of investigating a current and exciting research topic acquired resistance to the cancer drug Gleevec Techniques include protein expression purification and gel analysis PCR site directed mutagenesis kinase activity assays and protein structure viewing This class is part of the new laboratory curriculum in the MIT Department of Chemistry Undergraduate Research Inspired Experimental Chemistry Alternatives URIECA introduces students to cutting edge research topics in a modular format Acknowledgments Development of this course was funded through an HHMI Professors grant to Professor Catherine L Drennan http://ocw.mit.edu/courses/chemistry/5-36-biochemistry-laboratory-spring-2009 http://ocw.mit.edu/courses/chemistry/5-36-biochemistry-laboratory-spring-2009 7.341 Bench to Bedside: Molecularly Targeted Therapies in Blood Disorders and Malignancy (MIT) 7.341 Bench to Bedside: Molecularly Targeted Therapies in Blood Disorders and Malignancy (MIT) Where do new drugs and treatments come from This class will take you from the test tubes and mice of the laboratory to the treatment of patients with deadly blood disorders Students will learn how to think as a scientist through discussion of primary research papers describing the discoveries of several novel treatments Topics such as gene therapy the potential of drugs based on RNA interference and the reprogramming of somatic cells into stem cells for regenerative medicine will be discussed This course is one of many Advanced Undergraduate Seminars offered by the Biology Department at MIT These seminars are tailored for students with an interest in using primary research literature to discuss and learn about current biological research in a highly interactive setting Many instruct Where do new drugs and treatments come from This class will take you from the test tubes and mice of the laboratory to the treatment of patients with deadly blood disorders Students will learn how to think as a scientist through discussion of primary research papers describing the discoveries of several novel treatments Topics such as gene therapy the potential of drugs based on RNA interference and the reprogramming of somatic cells into stem cells for regenerative medicine will be discussed This course is one of many Advanced Undergraduate Seminars offered by the Biology Department at MIT These seminars are tailored for students with an interest in using primary research literature to discuss and learn about current biological research in a highly interactive setting Many instruct http://ocw.mit.edu/courses/biology/7-341-bench-to-bedside-molecularly-targeted-therapies-in-blood-disorders-and-malignancy-fall-2009 http://ocw.mit.edu/courses/biology/7-341-bench-to-bedside-molecularly-targeted-therapies-in-blood-disorders-and-malignancy-fall-2009 20.320 Analysis of Biomolecular and Cellular Systems (MIT) 20.320 Analysis of Biomolecular and Cellular Systems (MIT) This course focuses on computational and experimental analysis of biological systems across a hierarchy of scales including genetic molecular cellular and cell population levels The two central themes of the course are modeling of complex dynamic systems and protein design and engineering Topics include gene sequence analysis molecular modeling metabolic and gene regulation networks signal transduction pathways and cell populations in tissues Emphasis is placed on experimental methods quantitative analysis and computational modeling This course focuses on computational and experimental analysis of biological systems across a hierarchy of scales including genetic molecular cellular and cell population levels The two central themes of the course are modeling of complex dynamic systems and protein design and engineering Topics include gene sequence analysis molecular modeling metabolic and gene regulation networks signal transduction pathways and cell populations in tissues Emphasis is placed on experimental methods quantitative analysis and computational modeling http://ocw.mit.edu/courses/biological-engineering/20-320-analysis-of-biomolecular-and-cellular-systems-fall-2012 http://ocw.mit.edu/courses/biological-engineering/20-320-analysis-of-biomolecular-and-cellular-systems-fall-2012 7.341 Bench to Bedside: Molecularly Targeted Therapies in Blood Disorders and Malignancy (MIT) Where do new drugs and treatments come from This class will take you from the test tubes and mice of the laboratory to the treatment of patients with deadly blood disorders Students will learn how to think as a scientist through discussion of primary research papers describing the discoveries of several novel treatments Topics such as gene therapy the potential of drugs based on RNA interference and the reprogramming of somatic cells into stem cells for regenerative medicine will be discussed This course is one of many Advanced Undergraduate Seminars offered by the Biology Department at MIT These seminars are tailored for students with an interest in using primary research literature to discuss and learn about current biological research in a highly interactive setting Many instruct https://ocw.mit.edu/courses/biology/7-341-bench-to-bedside-molecularly-targeted-therapies-in-blood-disorders-and-malignancy-fall-2009 https://ocw.mit.edu/courses/biology/7-341-bench-to-bedside-molecularly-targeted-therapies-in-blood-disorders-and-malignancy-fall-2009 20.320 Analysis of Biomolecular and Cellular Systems (MIT) This course focuses on computational and experimental analysis of biological systems across a hierarchy of scales including genetic molecular cellular and cell population levels The two central themes of the course are modeling of complex dynamic systems and protein design and engineering Topics include gene sequence analysis molecular modeling metabolic and gene regulation networks signal transduction pathways and cell populations in tissues Emphasis is placed on experimental methods quantitative analysis and computational modeling https://ocw.mit.edu/courses/biological-engineering/20-320-analysis-of-biomolecular-and-cellular-systems-fall-2012 https://ocw.mit.edu/courses/biological-engineering/20-320-analysis-of-biomolecular-and-cellular-systems-fall-2012 5.36 Biochemistry Laboratory (MIT) The course which spans two thirds of a semester provides students with a research inspired laboratory experience that introduces standard biochemical techniques in the context of investigating a current and exciting research topic acquired resistance to the cancer drug Gleevec Techniques include protein expression purification and gel analysis PCR site directed mutagenesis kinase activity assays and protein structure viewing This class is part of the new laboratory curriculum in the MIT Department of Chemistry Undergraduate Research Inspired Experimental Chemistry Alternatives URIECA introduces students to cutting edge research topics in a modular format Acknowledgments Development of this course was funded through an HHMI Professors grant to Professor Catherine L Drennan https://ocw.mit.edu/courses/chemistry/5-36-biochemistry-laboratory-spring-2009 https://ocw.mit.edu/courses/chemistry/5-36-biochemistry-laboratory-spring-2009