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7.01SC Fundamentals of Biology (MIT) 7.01SC Fundamentals of Biology (MIT)

Description

Fundamentals of Biology focuses on the basic principles of biochemistry, molecular biology, genetics, and recombinant DNA. These principles are necessary to understanding the basic mechanisms of life and anchor the biological knowledge that is required to understand many of the challenges in everyday life, from human health and disease to loss of biodiversity and environmental quality. Fundamentals of Biology focuses on the basic principles of biochemistry, molecular biology, genetics, and recombinant DNA. These principles are necessary to understanding the basic mechanisms of life and anchor the biological knowledge that is required to understand many of the challenges in everyday life, from human health and disease to loss of biodiversity and environmental quality.

Subjects

amino acids | amino acids | carboxyl group | carboxyl group | amino group | amino group | side chains | side chains | polar | polar | hydrophobic | hydrophobic | primary structure | primary structure | secondary structure | secondary structure | tertiary structure | tertiary structure | quaternary structure | quaternary structure | x-ray crystallography | x-ray crystallography | alpha helix | alpha helix | beta sheet | beta sheet | ionic bond | ionic bond | non-polar bond | non-polar bond | van der Waals interactions | van der Waals interactions | proton gradient | proton gradient | cyclic photophosphorylation | cyclic photophosphorylation | sunlight | sunlight | ATP | ATP | chlorophyll | chlorophyll | chlorophyll a | chlorophyll a | electrons | electrons | hydrogen sulfide | hydrogen sulfide | biosynthesis | biosynthesis | non-cyclic photophosphorylation | non-cyclic photophosphorylation | photosystem II | photosystem II | photosystem I | photosystem I | cyanobacteria | cyanobacteria | chloroplast | chloroplast | stroma | stroma | thylakoid membrane | thylakoid membrane | Genetics | Genetics | Mendel | Mendel | Mendel's Laws | Mendel's Laws | cloning | cloning | restriction enzymes | restriction enzymes | vector | vector | insert DNA | insert DNA | ligase | ligase | library | library | E.Coli | E.Coli | phosphatase | phosphatase | yeast | yeast | transformation | transformation | ARG1 gene | ARG1 gene | ARG1 mutant yeast | ARG1 mutant yeast | yeast wild-type | yeast wild-type | cloning by complementation | cloning by complementation | Human Beta Globin gene | Human Beta Globin gene | protein tetramer | protein tetramer | vectors | vectors | antibodies | antibodies | human promoter | human promoter | splicing | splicing | mRNA | mRNA | cDNA | cDNA | reverse transcriptase | reverse transcriptase | plasmid | plasmid | electrophoresis | electrophoresis | DNA sequencing | DNA sequencing | primer | primer | template | template | capillary tube | capillary tube | laser detector | laser detector | human genome project | human genome project | recombinant DNA | recombinant DNA | clone | clone | primer walking | primer walking | subcloning | subcloning | computer assembly | computer assembly | shotgun sequencing | shotgun sequencing | open reading frame | open reading frame | databases | databases | polymerase chain reaction (PCR) | polymerase chain reaction (PCR) | polymerase | polymerase | nucleotides | nucleotides | Thermus aquaticus | Thermus aquaticus | Taq polymerase | Taq polymerase | thermocycler | thermocycler | resequencing | resequencing | in vitro fertilization | in vitro fertilization | pre-implantation diagnostics | pre-implantation diagnostics | forensics | forensics | genetic engineering | genetic engineering | DNA sequences | DNA sequences | therapeutic proteins | therapeutic proteins | E. coli | E. coli | disease-causing mutations | disease-causing mutations | cleavage of DNA | cleavage of DNA | bacterial transformation | bacterial transformation | recombinant DNA revolution | recombinant DNA revolution | biotechnology industry | biotechnology industry | Robert Swanson | Robert Swanson | toxin gene | toxin gene | pathogenic bacterium | pathogenic bacterium | biomedical research | biomedical research | S. Pyogenes | S. Pyogenes | origin of replication | origin of replication

License

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7.01SC Fundamentals of Biology (MIT)

Description

Fundamentals of Biology focuses on the basic principles of biochemistry, molecular biology, genetics, and recombinant DNA. These principles are necessary to understanding the basic mechanisms of life and anchor the biological knowledge that is required to understand many of the challenges in everyday life, from human health and disease to loss of biodiversity and environmental quality.

Subjects

amino acids | carboxyl group | amino group | side chains | polar | hydrophobic | primary structure | secondary structure | tertiary structure | quaternary structure | x-ray crystallography | alpha helix | beta sheet | ionic bond | non-polar bond | van der Waals interactions | proton gradient | cyclic photophosphorylation | sunlight | ATP | chlorophyll | chlorophyll a | electrons | hydrogen sulfide | biosynthesis | non-cyclic photophosphorylation | photosystem II | photosystem I | cyanobacteria | chloroplast | stroma | thylakoid membrane | Genetics | Mendel | Mendel's Laws | cloning | restriction enzymes | vector | insert DNA | ligase | library | E.Coli | phosphatase | yeast | transformation | ARG1 gene | ARG1 mutant yeast | yeast wild-type | cloning by complementation | Human Beta Globin gene | protein tetramer | vectors | antibodies | human promoter | splicing | mRNA | cDNA | reverse transcriptase | plasmid | electrophoresis | DNA sequencing | primer | template | capillary tube | laser detector | human genome project | recombinant DNA | clone | primer walking | subcloning | computer assembly | shotgun sequencing | open reading frame | databases | polymerase chain reaction (PCR) | polymerase | nucleotides | Thermus aquaticus | Taq polymerase | thermocycler | resequencing | in vitro fertilization | pre-implantation diagnostics | forensics | genetic engineering | DNA sequences | therapeutic proteins | E. coli | disease-causing mutations | cleavage of DNA | bacterial transformation | recombinant DNA revolution | biotechnology industry | Robert Swanson | toxin gene | pathogenic bacterium | biomedical research | S. Pyogenes | origin of replication

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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7.27 Principles of Human Disease (MIT) 7.27 Principles of Human Disease (MIT)

Description

This course covers current understanding of, and modern approaches to human disease, emphasizing the molecular and cellular basis of both genetic disease and cancer. Topics include: The Genetics of Simple and Complex Traits; Karyotypic Analysis and Positional Cloning; Genetic Diagnosis; The Roles of Oncogenes and Tumor Suppressors in Tumor Initiation, Progression, and Treatment; The Interaction between Genetics and Environment; Animal Models of Human Disease; Cancer; and Conventional and Gene Therapy Treatment Strategies. This course covers current understanding of, and modern approaches to human disease, emphasizing the molecular and cellular basis of both genetic disease and cancer. Topics include: The Genetics of Simple and Complex Traits; Karyotypic Analysis and Positional Cloning; Genetic Diagnosis; The Roles of Oncogenes and Tumor Suppressors in Tumor Initiation, Progression, and Treatment; The Interaction between Genetics and Environment; Animal Models of Human Disease; Cancer; and Conventional and Gene Therapy Treatment Strategies.

Subjects

human disease | human disease | molecular basis of genetic disease | molecular basis of genetic disease | molecular basis of cancer | molecular basis of cancer | cellular basis of genetic disease | cellular basis of genetic disease | cellular basis of cancer | cellular basis of cancer | genetics of simple and complex traits | genetics of simple and complex traits | karyotypic analysis | karyotypic analysis | positional cloning | positional cloning | genetic diagnosis | genetic diagnosis | roles of oncogenes | roles of oncogenes | tumor suppressors | tumor suppressors | tumor initiation | tumor initiation | tumor progression | tumor progression | tumor treatment | tumor treatment | interaction between genetics and environment | interaction between genetics and environment | animal models of human disease | animal models of human disease | cancer | cancer | conventional treatment strategies | conventional treatment strategies | gene therapy treatment strategies | gene therapy treatment strategies

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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7.22 Developmental Biology (MIT) 7.22 Developmental Biology (MIT)

Description

This graduate and advanced undergraduate level lecture and literature discussion course covers the current understanding of the molecular mechanisms that regulate animal development. Evolutionary mechanisms are emphasized as well as the discussion of relevant diseases. Vertebrate (mouse, chick, frog, fish) and invertebrate (fly, worm) models are covered. Specific topics include formation of early body plan, cell type determination, organogenesis, morphogenesis, stem cells, cloning, and issues in human development. This graduate and advanced undergraduate level lecture and literature discussion course covers the current understanding of the molecular mechanisms that regulate animal development. Evolutionary mechanisms are emphasized as well as the discussion of relevant diseases. Vertebrate (mouse, chick, frog, fish) and invertebrate (fly, worm) models are covered. Specific topics include formation of early body plan, cell type determination, organogenesis, morphogenesis, stem cells, cloning, and issues in human development.

Subjects

animal development | animal development | developmental biology | developmental biology | evolution | evolution | formation of early body plan | formation of early body plan | cell type determination | cell type determination | organogenesis | organogenesis | morphogenesis | morphogenesis | stem cells | stem cells | cloning | cloning | human development | human development

License

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7.013 Introductory Biology (MIT) 7.013 Introductory Biology (MIT)

Description

The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material. 7.013 focuses on the application of the fundamental principles toward an understanding of human biology. Topics include genetics, cell biology, molecular biology, disease (infectious agents, inherited diseases and cancer), The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material. 7.013 focuses on the application of the fundamental principles toward an understanding of human biology. Topics include genetics, cell biology, molecular biology, disease (infectious agents, inherited diseases and cancer),

Subjects

biology | biology | biochemistry | biochemistry | genetics | genetics | molecular biology | molecular biology | recombinant DNA | recombinant DNA | cell cycle | cell cycle | cell signaling | cell signaling | cloning | cloning | stem cells | stem cells | cancer | cancer | immunology | immunology | virology | virology | genomics | genomics | molecular medicine | molecular medicine | DNA | DNA | RNA | RNA | proteins | proteins | replication | replication | transcription | transcription | mRNA | mRNA | translation | translation | ribosome | ribosome | nervous system | nervous system | amino acids | amino acids | polypeptide chain | polypeptide chain | cell biology | cell biology | neurobiology | neurobiology | gene regulation | gene regulation | protein structure | protein structure | protein synthesis | protein synthesis | gene structure | gene structure | PCR | PCR | polymerase chain reaction | polymerase chain reaction | protein localization | protein localization | endoplasmic reticulum | endoplasmic reticulum | human biology | human biology | inherited diseases | inherited diseases | developmental biology | developmental biology | evolution | evolution | human genetics | human genetics | human diseases | human diseases | infectious agents | infectious agents | infectious diseases | infectious diseases

License

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24.06J Bioethics (MIT) 24.06J Bioethics (MIT)

Description

This course does not seek to provide answers to ethical questions. Instead, the course hopes to teach students two things. First, how do you recognize ethical or moral problems in science and medicine? When something does not feel right (whether cloning, or failing to clone) — what exactly is the nature of the discomfort? What kind of tensions and conflicts exist within biomedicine? Second, how can you think productively about ethical and moral problems? What processes create them? Why do people disagree about them? How can an understanding of philosophy or history help resolve them? By the end of the course students will hopefully have sophisticated and nuanced ideas about problems in bioethics, even if they do not have comfortable answers. This course does not seek to provide answers to ethical questions. Instead, the course hopes to teach students two things. First, how do you recognize ethical or moral problems in science and medicine? When something does not feel right (whether cloning, or failing to clone) — what exactly is the nature of the discomfort? What kind of tensions and conflicts exist within biomedicine? Second, how can you think productively about ethical and moral problems? What processes create them? Why do people disagree about them? How can an understanding of philosophy or history help resolve them? By the end of the course students will hopefully have sophisticated and nuanced ideas about problems in bioethics, even if they do not have comfortable answers.

Subjects

24.06 | 24.06 | STS.006 | STS.006 | medical ethics | medical ethics | ethics | ethics | genetics | genetics | life support | life support | stem cell | stem cell | GM | GM | genetically modified | genetically modified | genetic engineering | genetic engineering | risk | risk | biomedical | biomedical | medicine | medicine | cloning | cloning | euthanasia | euthanasia | enhancing or cheating | enhancing or cheating | abortion | abortion | eugenics | eugenics | slippery slope | slippery slope | organ transplant | organ transplant | organ donor | organ donor | disease | disease | public health | public health | health care | health care

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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STS.014 Principles and Practice of Science Communication (MIT) STS.014 Principles and Practice of Science Communication (MIT)

Description

This course helps in developing skills as science communicators through projects and analysis of theoretical principles. Case studies explore the emergence of popular science communication over the past two centuries and consider the relationships among authors, audiences and media. Project topics are identified early in the term and students work with MIT Museum staff. Projects may include physical exhibits, practical demonstrations, or scripts for public programs. This course helps in developing skills as science communicators through projects and analysis of theoretical principles. Case studies explore the emergence of popular science communication over the past two centuries and consider the relationships among authors, audiences and media. Project topics are identified early in the term and students work with MIT Museum staff. Projects may include physical exhibits, practical demonstrations, or scripts for public programs.

Subjects

public understanding of science | public understanding of science | science writing | science writing | museum | museum | exhibit | exhibit | debate | debate | journalism | journalism | stem cell | stem cell | recombinant DNA | recombinant DNA | intelligent design | intelligent design | GMA | GMA | genetically modified food | genetically modified food | biotechnology | biotechnology | bioengineering | bioengineering | risk | risk | journal | journal | newspaper | newspaper | radio | radio | fraud | fraud | cloning | cloning | evolution | evolution | controversy | controversy

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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7.013 Introductory Biology (MIT) 7.013 Introductory Biology (MIT)

Description

The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.7.013 focuses on the application of the fundamental principles toward an understanding of human biology. Topics include genetics, cell biology, molecular biology, disease (infectious agents, inherited diseases and cancer), The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.7.013 focuses on the application of the fundamental principles toward an understanding of human biology. Topics include genetics, cell biology, molecular biology, disease (infectious agents, inherited diseases and cancer),

Subjects

biology | biology | biochemistry | biochemistry | genetics | genetics | molecular biology | molecular biology | recombinant DNA | recombinant DNA | cell cycle | cell cycle | cell signaling | cell signaling | cloning | cloning | stem cells | stem cells | cancer | cancer | immunology | immunology | virology | virology | genomics | genomics | molecular medicine | molecular medicine | DNA | DNA | RNA | RNA | proteins | proteins | replication | replication | transcription | transcription | mRNA | mRNA | translation | translation | ribosome | ribosome | nervous system | nervous system | amino acids | amino acids | polypeptide chain | polypeptide chain | cell biology | cell biology | neurobiology | neurobiology | gene regulation | gene regulation | protein structure | protein structure | protein synthesis | protein synthesis | gene structure | gene structure | PCR | PCR | polymerase chain reaction | polymerase chain reaction | protein localization | protein localization | endoplasmic reticulum | endoplasmic reticulum | human biology | human biology | inherited diseases | inherited diseases | developmental biology | developmental biology | evolution | evolution | human genetics | human genetics | human diseases | human diseases | infectious agents | infectious agents | infectious diseases | infectious diseases

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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7.014 Introductory Biology (MIT) 7.014 Introductory Biology (MIT)

Description

The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.7.014 focuses on the application of these fundamental principles, toward an understanding of microorganisms as geochemical agents responsible for the evolution and renewal of the biosphere and of their role in human health The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.7.014 focuses on the application of these fundamental principles, toward an understanding of microorganisms as geochemical agents responsible for the evolution and renewal of the biosphere and of their role in human health

Subjects

microorganisms | microorganisms | geochemistry | geochemistry | geochemical agents | geochemical agents | biosphere | biosphere | bacterial genetics | bacterial genetics | carbon metabolism | carbon metabolism | energy metabolism | energy metabolism | productivity | productivity | biogeochemical cycles | biogeochemical cycles | molecular evolution | molecular evolution | population genetics | population genetics | evolution | evolution | population growth | population growth | biology | biology | biochemistry | biochemistry | genetics | genetics | molecular biology | molecular biology | recombinant DNA | recombinant DNA | cell cycle | cell cycle | cell signaling | cell signaling | cloning | cloning | stem cells | stem cells | cancer | cancer | immunology | immunology | virology | virology | genomics | genomics | molecular medicine | molecular medicine | DNA | DNA | RNA | RNA | proteins | proteins | replication | replication | transcription | transcription | mRNA | mRNA | translation | translation | ribosome | ribosome | nervous system | nervous system | amino acids | amino acids | polypeptide chain | polypeptide chain | cell biology | cell biology | neurobiology | neurobiology | gene regulation | gene regulation | protein structure | protein structure | protein synthesis | protein synthesis | gene structure | gene structure | PCR | PCR | polymerase chain reaction | polymerase chain reaction | protein localization | protein localization | endoplasmic reticulum | endoplasmic reticulum | ecology | ecology | communities | communities

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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7.012 Introduction to Biology (MIT) 7.012 Introduction to Biology (MIT)

Description

The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.7.012 focuses on the exploration of current research in cell biology, immunology, neurobiology, genomics, and molecular medicine.AcknowledgmentsThe study materials, problem sets, and quiz materials used during Fall 2004 for The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.7.012 focuses on the exploration of current research in cell biology, immunology, neurobiology, genomics, and molecular medicine.AcknowledgmentsThe study materials, problem sets, and quiz materials used during Fall 2004 for

Subjects

biology | biology | biochemistry | biochemistry | genetics | genetics | molecular biology | molecular biology | recombinant DNA | recombinant DNA | cell cycle | cell cycle | cell signaling | cell signaling | cloning | cloning | stem cells | stem cells | cancer | cancer | immunology | immunology | virology | virology | genomics | genomics | molecular medicine | molecular medicine | DNA | DNA | RNA | RNA | proteins | proteins | replication | replication | transcription | transcription | mRNA | mRNA | translation | translation | ribosome | ribosome | nervous system | nervous system | amino acids | amino acids | polypeptide chain | polypeptide chain | cell biology | cell biology | neurobiology | neurobiology | gene regulation | gene regulation | protein structure | protein structure | protein synthesis | protein synthesis | gene structure | gene structure | PCR | PCR | polymerase chain reaction | polymerase chain reaction | protein localization | protein localization | endoplasmic reticulum | endoplasmic reticulum

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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21A.500J Technology and Culture (MIT) 21A.500J Technology and Culture (MIT)

Description

This subject examines relationships among technology, culture, and politics in a range of social and historical settings. The class is organized around two topics: Identity and infrastructure, and will combine interactive lectures, film screenings, readings, and discussion. This subject examines relationships among technology, culture, and politics in a range of social and historical settings. The class is organized around two topics: Identity and infrastructure, and will combine interactive lectures, film screenings, readings, and discussion.

Subjects

21A.500 | 21A.500 | STS.075 | STS.075 | technology | technology | technology and culture | technology and culture | biotechnology | biotechnology | computers and the self | computers and the self | digital world | digital world | science and religion | science and religion | racial economy | racial economy | ethics | ethics | technoscience | technoscience | bioterrorism | bioterrorism | cloning | cloning | genetically modified food | genetically modified food | GMO | GMO | gender identity | gender identity | information age | information age

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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7.012 Introduction to Biology (MIT) 7.012 Introduction to Biology (MIT)

Description

All three courses: 7.012, 7.013 and 7.014 cover the same core material which includes: the fundamental principles of biochemistry as they apply to introductory biology, genetics, molecular biology, basic recombinant DNA technology, and gene regulation.In addition, each version of the subject has its own distinctive material, described below. Note: All three versions require a familiarity with some basic chemistry. For details, see the Chemistry Self-evaluation.7.012 focuses on cell biology, immunology, neurobiology, and includes an exploration into current research in cancer, genomics, and molecular medicine. 7.013 focuses on the application of the fundamental principles toward an understanding of cells, human genetics and diseases, infectious agents, cancer, immunology, molecular All three courses: 7.012, 7.013 and 7.014 cover the same core material which includes: the fundamental principles of biochemistry as they apply to introductory biology, genetics, molecular biology, basic recombinant DNA technology, and gene regulation.In addition, each version of the subject has its own distinctive material, described below. Note: All three versions require a familiarity with some basic chemistry. For details, see the Chemistry Self-evaluation.7.012 focuses on cell biology, immunology, neurobiology, and includes an exploration into current research in cancer, genomics, and molecular medicine. 7.013 focuses on the application of the fundamental principles toward an understanding of cells, human genetics and diseases, infectious agents, cancer, immunology, molecular

Subjects

amino acids | amino acids | biochemistry | biochemistry | cancer | cancer | cell biology | cell biology | cell cycle | cell cycle | cell signaling | cell signaling | cloning | cloning | DNA | DNA | endoplasmic reticulum | endoplasmic reticulum | gene regulation | gene regulation | gene structure | gene structure | genetics | genetics | genomics | genomics | immunology | immunology | molecular biology | molecular biology | molecular medicine | molecular medicine | mRNA | mRNA | nervous system | nervous system | neurobiology | neurobiology | PCR | PCR | polymerase chain reaction | polymerase chain reaction | polypeptide chain | polypeptide chain | protein localization | protein localization | protein structure | protein structure | protein synthesis | protein synthesis | proteins | proteins | recombinant DNA | recombinant DNA | replication | replication | ribosome | ribosome | RNA | RNA | stem cells | stem cells | transcription | transcription | translation | translation | virology | virology | biology | biology

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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STS.006J Bioethics (MIT) STS.006J Bioethics (MIT)

Description

Many difficult ethical questions have arisen from the explosive growth of biomedical research and the health-care industry since World War II. When and how should doctors be allowed to help patients end their lives? Should embryos be cloned for research and/or reproduction? Should parents be given control over the genetic make-up of their children? What sorts of living things is it appropriate to use as research subjects? How should we distribute scarce and expensive medical resources? While some of these questions are genuinely new, products of rapid changes in biomedical technology, others have been debated for centuries. Drawing on philosophy, history, and anthropology, this course will show students how problems in bioethics can be approached from a variety of perspectives, with the ai Many difficult ethical questions have arisen from the explosive growth of biomedical research and the health-care industry since World War II. When and how should doctors be allowed to help patients end their lives? Should embryos be cloned for research and/or reproduction? Should parents be given control over the genetic make-up of their children? What sorts of living things is it appropriate to use as research subjects? How should we distribute scarce and expensive medical resources? While some of these questions are genuinely new, products of rapid changes in biomedical technology, others have been debated for centuries. Drawing on philosophy, history, and anthropology, this course will show students how problems in bioethics can be approached from a variety of perspectives, with the ai

Subjects

medical ethics | medical ethics | ethics | ethics | genetics | genetics | stem cell | stem cell | GM | GM | genetically modified | genetically modified | genetic engineering | genetic engineering | risk | risk | biomedical | biomedical | medicine | medicine | cloning | cloning | euthanasia | euthanasia | abortion | abortion | eugenics | eugenics | slippery slope | slippery slope | organ transplant | organ transplant | organ donor | organ donor | disease | disease | public health | public health | health care | health care

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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21A.216J Dilemmas in Bio-Medical Ethics: Playing God or Doing Good? (MIT) 21A.216J Dilemmas in Bio-Medical Ethics: Playing God or Doing Good? (MIT)

Description

This course is an introduction to the cross-cultural study of bio-medical ethics. It examines moral foundations of the science and practice of western bio-medicine through case studies of abortion, contraception, cloning, organ transplantation, and other issues. It also evaluates challenges that new medical technologies pose to the practice and availability of medical services around the globe, and to cross-cultural ideas of kinship and personhood. It discusses critiques of the bio-medical tradition from anthropological, feminist, legal, religious, and cross-cultural theorists. This course is an introduction to the cross-cultural study of bio-medical ethics. It examines moral foundations of the science and practice of western bio-medicine through case studies of abortion, contraception, cloning, organ transplantation, and other issues. It also evaluates challenges that new medical technologies pose to the practice and availability of medical services around the globe, and to cross-cultural ideas of kinship and personhood. It discusses critiques of the bio-medical tradition from anthropological, feminist, legal, religious, and cross-cultural theorists.

Subjects

Anthropology | Anthropology | cross-cultural study | cross-cultural study | bio-medical ethics | bio-medical ethics | moral foundations | moral foundations | science | science | western bio-medicine | western bio-medicine | case studies | case studies | abortion | abortion | contraception | contraception | cloning | cloning | organ transplantation | organ transplantation | medical technologies | medical technologies | practice | practice | availability | availability | medical services | medical services | globe | globe | kinship | kinship | personhood | personhood | critique | critique | anthropological | anthropological | feminist | feminist | legal | legal | religious | religious | theorists. | theorists. | theorists | theorists | 21A.216 | 21A.216 | SP.622 | SP.622

License

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21H.909J People and Other Animals (MIT) 21H.909J People and Other Animals (MIT)

Description

This class provides a historical survey of the ways that people have interacted with their closest animal relatives, for example: hunting, domestication of livestock, exploitation of animal labor, scientific study of animals, display of exotic and performing animals, and pet keeping. Themes include changing ideas about animal agency and intelligence, our moral obligations to animals, and the limits imposed on the use of animals. This class provides a historical survey of the ways that people have interacted with their closest animal relatives, for example: hunting, domestication of livestock, exploitation of animal labor, scientific study of animals, display of exotic and performing animals, and pet keeping. Themes include changing ideas about animal agency and intelligence, our moral obligations to animals, and the limits imposed on the use of animals.

Subjects

people | people | animals | animals | hunting | hunting | domestication | domestication | livestock | livestock | animal labor | animal labor | scientific experimentation | scientific experimentation | pets | pets | zoos | zoos | selective breeding | selective breeding | vivisection | vivisection | vegetarian | vegetarian | animal cruelty | animal cruelty | poaching | poaching | conservation | conservation | cloning | cloning | colonialism | colonialism | imperialism | imperialism | mad cow disease | mad cow disease | taxidermy | taxidermy | natural history museum | natural history museum | ethology | ethology | primatology | primatology | animal welfare | animal welfare | biodiversity | biodiversity

License

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10.492-2 Integrated Chemical Engineering Topics I: Introduction to Biocatalysis (MIT) 10.492-2 Integrated Chemical Engineering Topics I: Introduction to Biocatalysis (MIT)

Description

This course provides a brief introduction to the field of biocatalysis in the context of process design. Fundamental topics include why and when one may choose to use biological systems for chemical conversion, considerations for using free enzymes versus whole cells, and issues related to design and development of bioconversion processes. Biological and engineering problems are discussed as well as how one may arrive at both biological and engineering solutions. This course provides a brief introduction to the field of biocatalysis in the context of process design. Fundamental topics include why and when one may choose to use biological systems for chemical conversion, considerations for using free enzymes versus whole cells, and issues related to design and development of bioconversion processes. Biological and engineering problems are discussed as well as how one may arrive at both biological and engineering solutions.

Subjects

biocatalysis | biocatalysis | enzymes | enzymes | enzyme kinetics | enzyme kinetics | whole cell catalysts | whole cell catalysts | biocatalytic processes | biocatalytic processes | site-directed mutagenesis | site-directed mutagenesis | cloning | cloning | enzyme performance | enzyme performance | enzyme specificity | enzyme specificity | enzyme inhibition | enzyme inhibition | enzyme toxicity | enzyme toxicity | yield | yield | enzyme instability | enzyme instability | equilibrium reactions | equilibrium reactions | product solubility | product solubility | substrate solubility | substrate solubility

License

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HST.730 Molecular Biology for the Auditory System (MIT) HST.730 Molecular Biology for the Auditory System (MIT)

Description

An introductory course in the molecular biology of the auditory system. First half focuses on human genetics and molecular biology, covering fundamentals of pedigree analysis, linkage analysis, molecular cloning, and gene analysis as well as ethical/legal issues, all in the context of an auditory disorder. Second half emphasizes molecular approaches to function and dysfunction of the cochlea, and is based on readings and discussion of research literature. An introductory course in the molecular biology of the auditory system. First half focuses on human genetics and molecular biology, covering fundamentals of pedigree analysis, linkage analysis, molecular cloning, and gene analysis as well as ethical/legal issues, all in the context of an auditory disorder. Second half emphasizes molecular approaches to function and dysfunction of the cochlea, and is based on readings and discussion of research literature.

Subjects

molecular biology | molecular biology | auditory system | auditory system | human genetics | human genetics | pedigree analysis | pedigree analysis | linkage | linkage | cloning | cloning | ethics | ethics | legal | legal | disorder | disorder | cochlea | cochlea | research literature | research literature

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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7.013 Introductory Biology (MIT) 7.013 Introductory Biology (MIT)

Description

The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. 7.013 focuses on the application of the fundamental principles toward an understanding of human biology. Topics include genetics, cell biology, molecular biology, disease (infectious agents, inherited diseases and cancer), developmental biology, neurobiology and evolution.Biological function at the molecular level is particularly emphasized in all courses and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In add The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. 7.013 focuses on the application of the fundamental principles toward an understanding of human biology. Topics include genetics, cell biology, molecular biology, disease (infectious agents, inherited diseases and cancer), developmental biology, neurobiology and evolution.Biological function at the molecular level is particularly emphasized in all courses and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In add

Subjects

biology | biology | biochemistry | biochemistry | genetics | genetics | molecular biology | molecular biology | recombinant DNA | recombinant DNA | cell cycle | cell cycle | cell signaling | cell signaling | cloning | cloning | stem cells | stem cells | cancer | cancer | immunology | immunology | virology | virology | genomics | genomics | molecular medicine | molecular medicine | DNA | DNA | RNA | RNA | proteins | proteins | replication | replication | transcription | transcription | mRNA | mRNA | translation | translation | ribosome | ribosome | nervous system | nervous system | amino acids | amino acids | polypeptide chain | polypeptide chain | cell biology | cell biology | neurobiology | neurobiology | gene regulation | gene regulation | protein structure | protein structure | protein synthesis | protein synthesis | gene structure | gene structure | PCR | PCR | polymerase chain reaction | polymerase chain reaction | protein localization | protein localization | endoplasmic reticulum | endoplasmic reticulum | human biology | human biology | inherited diseases | inherited diseases | developmental biology | developmental biology | evolution | evolution | human genetics | human genetics | human diseases | human diseases | infectious agents | infectious agents | infectious diseases | infectious diseases

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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7.349 Stem Cells: A Cure or Disease? (MIT) 7.349 Stem Cells: A Cure or Disease? (MIT)

Description

Have you ever considered going to a pharmacy to order some new cardiomyocytes (heart muscle cells) for your ailing heart? It might sound crazy, but recent developments in stem cell science have made this concept not so futuristic. In this course, we will explore the underlying biology behind the idea of using stem cells to treat disease, specifically analyzing the mechanisms that enable a single genome to encode multiple cell states ranging from neurons to fibroblasts to T cells. Overall, we hope to provide a comprehensive overview of this exciting new field of research and its clinical relevance. 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 literat Have you ever considered going to a pharmacy to order some new cardiomyocytes (heart muscle cells) for your ailing heart? It might sound crazy, but recent developments in stem cell science have made this concept not so futuristic. In this course, we will explore the underlying biology behind the idea of using stem cells to treat disease, specifically analyzing the mechanisms that enable a single genome to encode multiple cell states ranging from neurons to fibroblasts to T cells. Overall, we hope to provide a comprehensive overview of this exciting new field of research and its clinical relevance. 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 literat

Subjects

stem cells | stem cells | stem cell therapy | stem cell therapy | cellular reprogramming | cellular reprogramming | transdifferentiation | transdifferentiation | pluripotency | pluripotency | epigenetics | epigenetics | genome-wide sequencing | genome-wide sequencing | transcription-mediated reprogramming | transcription-mediated reprogramming | embryonic stem cell technology | embryonic stem cell technology | transcription factors | transcription factors | chromatin structure | chromatin structure | H3K4me3 | H3K4me3 | H3K27me3 | H3K27me3 | histone deacetylase 1 | histone deacetylase 1 | RNAi screens | RNAi screens | Oct4 | Oct4 | cloning | cloning | Dolly | Dolly | in vitro differentiation | in vitro differentiation | regenerative medicine | regenerative medicine

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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10.492-2 Integrated Chemical Engineering Topics I: Introduction to Biocatalysis (MIT)

Description

This course provides a brief introduction to the field of biocatalysis in the context of process design. Fundamental topics include why and when one may choose to use biological systems for chemical conversion, considerations for using free enzymes versus whole cells, and issues related to design and development of bioconversion processes. Biological and engineering problems are discussed as well as how one may arrive at both biological and engineering solutions.

Subjects

biocatalysis | enzymes | enzyme kinetics | whole cell catalysts | biocatalytic processes | site-directed mutagenesis | cloning | enzyme performance | enzyme specificity | enzyme inhibition | enzyme toxicity | yield | enzyme instability | equilibrium reactions | product solubility | substrate solubility

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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21H.909J People and Other Animals (MIT)

Description

This class provides a historical survey of the ways that people have interacted with their closest animal relatives, for example: hunting, domestication of livestock, exploitation of animal labor, scientific study of animals, display of exotic and performing animals, and pet keeping. Themes include changing ideas about animal agency and intelligence, our moral obligations to animals, and the limits imposed on the use of animals.

Subjects

people | animals | hunting | domestication | livestock | animal labor | scientific experimentation | pets | zoos | selective breeding | vivisection | vegetarian | animal cruelty | poaching | conservation | cloning | colonialism | imperialism | mad cow disease | taxidermy | natural history museum | ethology | primatology | animal welfare | biodiversity

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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Techniques in Molecular Biology

Description

This articulate presentation describes some of the basic techniques in molecular biology with particular emphasis on the use of plasmids as cloning vectors. The theory behind the techniques used to isolate plasmid DNA, carrying out restriction digests, pcr and running agarose gels is described in detail, supported by animations to illustrate the text. Quizzes are interspersed within the body of the presentation to test the users understanding throughout.

Subjects

restriction digest | electrophoresis | pcr | ethidium bromide | antibiotic resistance | origin of replication | cloning | vectors | biochemistry | biology | plasmids | dna | Biological sciences | C000

License

Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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24.06J Bioethics (MIT)

Description

This course does not seek to provide answers to ethical questions. Instead, the course hopes to teach students two things. First, how do you recognize ethical or moral problems in science and medicine? When something does not feel right (whether cloning, or failing to clone) — what exactly is the nature of the discomfort? What kind of tensions and conflicts exist within biomedicine? Second, how can you think productively about ethical and moral problems? What processes create them? Why do people disagree about them? How can an understanding of philosophy or history help resolve them? By the end of the course students will hopefully have sophisticated and nuanced ideas about problems in bioethics, even if they do not have comfortable answers.

Subjects

24.06 | STS.006 | medical ethics | ethics | genetics | life support | stem cell | GM | genetically modified | genetic engineering | risk | biomedical | medicine | cloning | euthanasia | enhancing or cheating | abortion | eugenics | slippery slope | organ transplant | organ donor | disease | public health | health care

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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7.012 Introduction to Biology (MIT)

Description

The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.7.012 focuses on the exploration of current research in cell biology, immunology, neurobiology, genomics, and molecular medicine.AcknowledgmentsThe study materials, problem sets, and quiz materials used during Fall 2004 for

Subjects

biology | biochemistry | genetics | molecular biology | recombinant DNA | cell cycle | cell signaling | cloning | stem cells | cancer | immunology | virology | genomics | molecular medicine | DNA | RNA | proteins | replication | transcription | mRNA | translation | ribosome | nervous system | amino acids | polypeptide chain | cell biology | neurobiology | gene regulation | protein structure | protein synthesis | gene structure | PCR | polymerase chain reaction | protein localization | endoplasmic reticulum

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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Gaining access via net attacks

Description

Application and operating system attacks (part 2) and gaining access via network based attacks. Video lecture from a series on Methods and Issues of e-Investigation delivered by Dan Brearley. Running time approximately 47 minutes.

Subjects

cloning | ukoer | computer security | session tracking | cookies | Computer science | I100

License

Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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