1st Edition
BIOS 208: Fundamentals of Cellular Biology
School: Northern Illinois University (NIU )
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Pages: 2Thirty-second lecture explaining nature and nurture, pedigree analysis, inherited disorders, and genetic testing.
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Pages: 3Thirty-first lecture explaining test cross. Mendel laws, multiple alleles, and epistasis.
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Pages: 2Thirtieth lecture explaining Gregor Mendel, Genetic Cross, genotypes, phenotypes, and genetic vocabulary.
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Pages: 4Twenty-ninth lecture explaining meiosis, comparison of mitosis and meiosis, and any sources of variations in the sexual life styles.
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Pages: 2Twenty-eighth lecture explaining living organisms, asexual reproduction, sexual reproduction, fertilization, and chromosomes.
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Pages: 2Twenty-seventh lecture explaining the cell cycle control system, stop and go signs, and cancer cells.
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Pages: 4Twenty-sixth lecture explaining cell division, binary fission in bacteria, cellular organization, chromosomes, the cell cycle, cytokinesis, and the evolution of mitosis.
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Pages: 3Twenty- fifth lecture explaining the cyclic electron flow, chemiosmosis, C4 plants, and CAM plants.
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Pages: 8Exam 5 study guide explaining respiration, photosynthesis, the Krebs cycle, fermentation, light energy, pigments, chemiosmosis, and the Calvin cycle.
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Pages: 2Twenty-fourth lecture explaining the excitation of chlorophyll by light and linear electron flow.
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Pages: 2Twenty-third lecture explaining the nature of sunlight and photosynthetic pigments.
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Pages: 3Twenty-second lecture explaining catabolism, biosynthesis, and photosynthesis.
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Pages: 3Twenty first lecture explaining anaerobic bacteria, fermentation, and the evolutionary significance of glycolysis.
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Pages: 7Exam 4 study guide explaining topics such as enzymes, microscopy, cells, respiration, and glycolysis.
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Pages: 2Twentieth lecture explaining more about the citric acid cycle, electron transport and ATP synthase.
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Pages: 3Eighteenth lecture explaining respiration, redox reactions, and glycolysis.
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Pages: 2Seventeenth lecture explaining the major structural components of plant and animal cells.
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Pages: 3Sixteenth lecture explaining the central vacuole, mitochondria, and chloroplasts.
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Pages: 4Fifteenth lecture explaining cell structure and systems, and cell fractionation.
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Pages: 6Exam # 3 study guide explaining DNA, proteins, polymers, enzymes, energy, and ATP.
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Pages: 2Fourteenth lecture explaining Cell theory, microscopy, and characteristics of prokaryotic cells.
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Pages: 2Thirteenth lecture explaining activation energy, enzymes, and early microscopy.