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Standard Seven: Diversity and Continuity of living Things 5/9/05
selection, mutation, genetic drift, and genetic modification. 5. Organisms are classified into a hierarchy of groups and subgroups based on similarities in structure, comparisons in DNA and protein and evolutionary relationships. 6. Genetically diverse populatio...
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selection, mutation, genetic drift, and genetic modification. 5. Organisms are classified into a hierarchy of groups and subgroups based on similarities in structure, comparisons in DNA and protein and evolutionary relationships. 6. Genetically diverse populations are more likely to survive changing environments. 7. Biological evolution is the foundation for modern biology and is used to make predictions for medical, environmental, agricultural and other societal purposes.
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http://www.doe.k12.de.us/infosuites/staff/ci/content_areas/files/science/science_Standard7.pdf#page=6
www.doe.k12.de.us/infosuites/staff/ci/content_areas/files/science/science...
selection, mutation, genetic drift, <span class="highlight">and</span> genetic modification. 5. Organisms are classified into a hierarchy <span class="highlight">of</span> groups <span class="highlight">and</span> subgroups based on similarities in structure, comparisons in DNA <span class="highlight">and</span> protein <span class="highlight">and</span> evolutionary relationships. 6. Genetically diverse populations are more likely to survive changing environments. 7. <span class="highlight">Biological</span> evolution is the foundation for modern biology <span class="highlight">and</span> is used to make predictions for <span class="highlight">medical</span>, environmental, agricultural <span class="highlight">and</span> other societal purposes.
INTRODUCTION TO BIOLOGY
restriction enzymes • Role of vectors in genetic research • Use of transformation techniques e. Research and present a justifiable explanation the practical uses of biotechnology (e.g., chromosome mapping, karyotyping, pedigrees). (DOK 2) f. De...
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restriction enzymes • Role of vectors in genetic research • Use of transformation techniques e. Research and present a justifiable explanation the practical uses of biotechnology (e.g., chromosome mapping, karyotyping, pedigrees). (DOK 2) f. Develop and present a scientifically-based logical argument for or against moral and ethical issues related to genetic engineering. (DOK 3) g. Research genomics (human and other organisms.) and predict benefits and medical advances that may result from
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http://www.mde.k12.ms.us/acad/id/curriculum/Science/2010Framework/2010_MS_Science_Framework_July_25_2008.pdf#page=90
www.mde.k12.ms.us/acad/id/curriculum/Science/2010Framework/2010_MS_Scienc...
restriction enzymes • Role <span class="highlight">of</span> vectors in genetic <span class="highlight">research</span> • Use <span class="highlight">of</span> transformation techniques e. <span class="highlight">Research</span> <span class="highlight">and</span> present a justifiable explanation the practical uses <span class="highlight">of</span> biotechnology (e.g., chromosome mapping, karyotyping, pedigrees). (DOK 2) f. Develop <span class="highlight">and</span> present a scientifically-based logical argument for or against moral <span class="highlight">and</span> ethical issues related to genetic engineering. (DOK 3) g. <span class="highlight">Research</span> genomics (human <span class="highlight">and</span> other organisms.) <span class="highlight">and</span> predict benefits <span class="highlight">and</span> <span class="highlight">medical</span> advances that may result from
Microsoft Word - sci_std_Aug07_hs.docsci_std_Aug07_hs.pdf
83 6. understands biological evolution is used as a broad, unifying theoretical framework for biology. 6. a. Organisms are classified and according to the rules of nomenclature, and are given scientific names. b. The behavioral, physical, and genetic charac...
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83 6. understands biological evolution is used as a broad, unifying theoretical framework for biology. 6. a. Organisms are classified and according to the rules of nomenclature, and are given scientific names. b. The behavioral, physical, and genetic characteristics upon which these classifications are based are used as evidence for common descent. d. Natural selection, genetic drift, genomes, and the mechanisms of genetic change provide a context in which to ask research questions
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http://www.ksde.org/LinkClick.aspx?fileticket=pDh1xi%2fEjYM%3d&tabid=144&mid=8019&forcedownload=true#page=22
www.ksde.org/LinkClick.aspx?fileticket=pDh1xi%2fEjYM%3d&tabid=144&mid=801...
83 6. understands <span class="highlight">biological</span> evolution is used as a broad, unifying theoretical framework for biology. 6. a. Organisms are classified <span class="highlight">and</span> according to the rules <span class="highlight">of</span> nomenclature, <span class="highlight">and</span> are given scientific names. b. The behavioral, physical, <span class="highlight">and</span> genetic characteristics upon which these classifications are based are used as evidence for common descent. d. Natural selection, genetic drift, genomes, <span class="highlight">and</span> the mechanisms <span class="highlight">of</span> genetic change provide a context in which to ask <span class="highlight">research</span> questions
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