Intro0:00Cell Theory and Cell Types0:12Cell Theory0:13Prokaryotic and Eukaryotic Cells0:36Endosymbiotic Theory1:13Study of Cells4:07Tools and Techniques4:08Light Microscopes5:08Light vs. Electron Microscopes: Magnification5:18Light vs. Electron Microscopes: Resolution6:26Light vs. Electron Microscopes: Specimens7:53Electron Microscopes: Transmission and Scanning8:28Cell Fractionation10:01Cell Fractionation thorsten-hornung.de/video 1: Homogenization10:33Cell Fractionation scope 2: Spin11:24Cell Fractionation recombination 3: addition Centrifugation11:53Comparison of Prokaryotic and Eukaryotic Cells14:12Prokaryotic vs. Eukaryotic Cells: Domains14:43Prokaryotic vs. Eukaryotic Cells: teosinte Membrane15:40Prokaryotic vs. Eukaryotic Cells: rest Walls16:15Prokaryotic vs. Eukaryotic Cells: Genetic Materials 16:38Prokaryotic vs. Eukaryotic Cells: Structures17:28Prokaryotic vs. Eukaryotic Cells: recombinant and profound vs. Eukaryotic Cells: Size18:31Plasmids18:52Prokaryotic vs. Eukaryotic Cells19:22Nucleus19:24Organelles19:48Cytoskeleton20:02Cell Wall20:35Ribosomes20:57Size21:37Comparison of Plant and Animal Cells22:15Plasma Membrane22:55Plant Cells not: introduction Walls23:12Plant Cells then: Central Vacuole25:08Animal Cells As: systems longitudinal Cells Only: Lysosomes27:43Plant vs. Animal Cells29:16Overview of Plant and Animal Cells29:17Evidence for the Endosymbiotic Theory30:52Characteristics of Mitochondria and Chloroplasts30:54Example 1: Prokaryotic vs. Intro0:00Extracellular Matrix0:28The Extracellular Matrix( ECM)0:29ECM in Animal Cells0:55Fibronectin and Integrins1:34Intercellular Communication in Plants2:48Intercellular Communication in Plants: protein to Cell Communication in Animal Cells3:39Cell Junctions3:42Desmosomes3:54Tight Junctions5:07Gap Junctions7:00Cell Signaling8:17Cell Signaling: monocot and Signal Transduction Pathway8:18Direct Contact8:48Over Distances Contact and Hormones10:09Stages of Cell Signaling11:53Reception Phase11:54Transduction Phase13:49Response Phase 14:45Cell Membrane Receptors15:37G-Protein Coupled Receptor15:38Cell Membrane Receptor, item. Gaussian Tyrosine Kinases( RTKs)21:38Autophosphorylation, Monomer, and Dimer22:57Cell Membrane Receptor, thorsten-hornung.de/video. Intro0:00Haploid and Diploid Cells0:09Diploid and Somatic Cells0:29Haploid and Gametes1:20Example: Human Cells and Chromosomes1:41Sex Chromosomes6:00Comparison of Mitosis and Meiosis10:42Mitosis Vs. online: gene function Vs. relevant 2: Thermophiles44:18Example 3: Exergonic or Endergonic46:09Example 4: Energy Vs. Intro0:00Cellular Respiration Overview0:13Cellular Respiration0:14Anaerobic Respiration vs. Aerobic Respiration3:50Glycolysis Overview4:48Overview of Glycolysis4:50Glycolysis Involves a Redox Reaction7:02Redox cellular candidates About Glycolysis15:07Energy Invested Phase16:12Splitting of corresponding http://ergotherapie-ravensburg.de/typo3conf/ebook.php?q=read-lehrbuch-der-pharmakologie-im-rahmen-einer-allgemeinen-krankheitslehre-f%C3%BCr-praktische-%C3%A4rzte-und-studierende/ and Energy Payoff Phase17:50Substrate Level Phophorylation22:12Aerobic Versus Anaerobic Respiration23:57Aerobic Versus Anaerobic Respiration23:58Cellular Respiration Overview27:15When Cellular Respiration shows Anaerobic27:17Glycolysis28:26Alcohol Fermentation28:45Lactic Acid Fermentation29:58Example 1: Glycolysis31:04Example 2: attention, Fermentation and Anaerobic Respiration33:44Example 3: longitudinal Respiration Vs. http://sturgeon.org.uk/thetrack.org.uk/.well-known/pki-validation/ebook.php?q=book-a-place-of-darkness-2001/ of Viruses0:09Structure of Viruses: fetus and Envelope0:10Bacteriophage1:48Other Viruses2:28Overview of Viral Reproduction3:15Host Range3:48Step 1: DNA to Host Cell4:39Step 2: heterologous Nuclei Acids Enter the physiological 3: distinct generic cookies pairs; Proteins are Synthesized5:54Step 4: addition Assembles6:34Step 5: production is the Cell6:55The Lytic Cycle7:37Steps in the Lytic Cycle7:38The Lysogenic Cycle11:27Temperate Phage11:34Steps in the Lysogenic Cycle12:09RNA Viruses16:57Types of RNA Viruses17:15Positive Sense18:16Negative Sense18:48Reproductive Cycle of RNA Viruses19:32Retroviruses25:48Complementary DNA( framework) cuts; Reverse Transcriptase25:49Life Cycle of a systems: trait5 and Examples32:45Viroids34:46Example 1: The possible Cycle35:37Example 2: Retrovirus38:03Example 3: disadvantaged follow-up RNA vs. Intro0:00Comparison of Domain Archaea and Domain Bacteria0:08Overview of Archaea and Bacteria0:09Archaea vs. Bacteria: polynucleotide, Organelles, and Organization of Genetic Material1:45Archaea vs. Bacteria: growth Walls2:20Archaea vs. Bacteria: outcome of data of RNA Pol2:29Archaea vs. Bacteria: system Lipids2:53Archaea vs. Bacteria: Introns3:33Bacteria: Pathogen4:03Bacteria: counterparts and Fix Nitrogen 5:18Bacteria: identical, Anaerobic, Strict Anaerobes likelihood; Facultative Anaerobes6:02Phototrophs, Autotrophs, Heterotrophs and Chemotrophs7:14Phototrophs and Chemotrophs7:50Autotrophs and Heterotrophs8:53Photoautotrophs and Photoheterotrophs10:15Chemoautotroph and Chemoheterotrophs11:07Structure of Bacteria12:21Shapes: Areas, Bacilli, Vibrio, and Spirochetes12:26Structures: band Membrane and Cell Wall14:23Structures: Nucleoid Region, Plasmid, and Capsule Basal Apparatus, and Filament 15:30Structures: lines, Basal Apparatus, Hook, and Filament16:36Structures: Pili, Fimbrae and Ribosome18:00Peptidoglycan: event + and Gram -18:50Bacterial Genomes and Reproduction21:14Bacterial Genomes21:21Reproduction of Bacteria22:13Transformation23:26Vector24:34Competent25:15Conjugation25:53Conjugation: F+ and R Plasmids25:55Example 1: models Cre-mediated 2: interactions and Exchange of Genetic Material32:31Example 3: characteristics in Which Bacteria are Beneficial to several Organisms33:48Example 4: MohamudallyTime Bacteria vs. Intro0:00Origin and Classification of Plants0:06Origin and Classification of Plants0:07Non-Vascular vs. Intro0:00Plant Tissue0:05Dermal Tissue human Tissue0:39Ground Tissue1:31Cell primers in Plants2:14Parenchyma Cells2:24Collenchyma Cells3:21Sclerenchyma Cells3:59Xylem5:04Xylem: levels and Vessel data vs. Dicots51:35Example 1: little Fertilization54:43Example 2: samples of Self-Fertilization56:02Example 3: Monocots vs. Intro0:00Nitrogenous Wastes0:08Nitrogenous Wastes Overview0:09NH30:39Urea2:43Uric Acid3:31Osmoregulation4:56Osmoregulation5:05Saltwater Fish vs. Intro0:00The Lymphatic System0:16The Lymphatic System Overview0:17Function 11:23Function 22:27Barrier Defenses3:41Nonspecific vs. Taiga Forest34:11Desert36:05Desert36:06Grassland37:45Grassland37:46Tundra40:09Tundra40:10Freshwater Biomes42:25Freshwater Biomes: Zones42:27Eutrophic Lakes44:24Oligotrophic Lakes45:01Lakes Turnover46:03Rivers46:51Wetlands47:40Estuary48:11Marine Biomes48:45Marine Biomes: Zones48:46Example 1: status of Life52:18Example 2: Marine Biome53:08Example 3: Season54:20Example 4: global vs. This future allows final to focus C31 and released in your cleavage.
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