Upload biofinalset.json

biofinalset.json

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+[
+ {
+   "Title": "Prokaryotes ",
+   "Link": "UHw6xCnv1UU"
+ },
+ {
+   "Title": "Eukaryotes ",
+   "Link": "LYvccVz5tew"
+ },
+ {
+   "Title": "Autotrophs and Heterotrophs ",
+   "Link": "FVfEThlRKq4"
+ },
+ {
+   "Title": "Cell Nucleus",
+   "Link": "QV3mOU84QNc"
+ },
+ {
+   "Title": "Cell Membrane and Fluid Mosaic Model",
+   "Link": "5ArOofhOAwI"
+ },
+ {
+   "Title": "Electrochemical Gradient",
+   "Link": "M66B7D5WwXk"
+ },
+ {
+   "Title": "Cell Membrane Transport ",
+   "Link": "hpECyJbtQ38"
+ },
+ {
+   "Title": "Pinocytosis, Phagocytosis and Receptor-Mediated Endocytosis",
+   "Link": "9tOGgB_mJPg"
+ },
+ {
+   "Title": "Microfilaments, Intermediate Filaments, and Microtubules ",
+   "Link": "kHLspuHXvK8"
+ },
+ {
+   "Title": "Centrosome and Centrioles",
+   "Link": "TE_n2p6dpUo"
+ },
+ {
+   "Title": "Endoplasmic Reticulum and Golgi Apparatus",
+   "Link": "3vBnZKRmikU"
+ },
+ {
+   "Title": "Mitochondria ",
+   "Link": "rPKywyTvua4"
+ },
+ {
+   "Title": "Vacuoles, Lysosomes, and Microbodies ",
+   "Link": "wyl9AHk_SWU"
+ },
+ {
+   "Title": "Tight Junctions, Gap Junctions, and Desmosomes",
+   "Link": "wGQabqD3HlI"
+ },
+ {
+   "Title": "Tissue Types and Extracellular Matrix ",
+   "Link": "Eev9Ui_8YPI"
+ },
+ {
+   "Title": "Prokaryotic vs. Eukaryotic Flagella ",
+   "Link": "8porJA2wrFU"
+ },
+ {
+   "Title": "Bacterial Cell Envelope, Gram Positive and Gram Negative Bacteria ",
+   "Link": "HvqRqqSLGvk"
+ },
+ {
+   "Title": "Viruses, Lytic Cycle and Lysogenic Cycle ",
+   "Link": "QHZ1Ir_UaZQ"
+ },
+ {
+   "Title": "RNA and DNA Viruses ",
+   "Link": "SMOO2WaMTiI"
+ },
+ {
+   "Title": "Life Cycle of HIV ",
+   "Link": "0hd1IuAPRSQ"
+ },
+ {
+   "Title": "Introduction to Immune System ",
+   "Link": "bW-eEBxJYaM"
+ },
+ {
+   "Title": "Leukocytes of Immune System ",
+   "Link": "ZQSzIOMRZMQ"
+ },
+ {
+   "Title": "Innate (Non-specific) Immune System ",
+   "Link": "os1oh8AprYw"
+ },
+ {
+   "Title": "Interferons",
+   "Link": "X2-LZ6LeqxA"
+ },
+ {
+   "Title": "Adaptive Immune System ",
+   "Link": "Kr9WsHUSnp4"
+ },
+ {
+   "Title": "Classical Pathway of Complement System ",
+   "Link": "ER0hzqJnt_s"
+ },
+ {
+   "Title": "Alternative Pathway of Complement System ",
+   "Link": "XW-qMHAUqUY"
+ },
+ {
+   "Title": "Major Histocompatibility Complex ",
+   "Link": "yDAGxVxY-L8"
+ },
+ {
+   "Title": "Antibodies ",
+   "Link": "H3LXXq05eko"
+ },
+ {
+   "Title": "Activation of Lymphocytes ",
+   "Link": "Dvs1lN_uKXc"
+ },
+ {
+   "Title": "Antigen Presenting Cells ",
+   "Link": "TadJkUCJLHo"
+ },
+ {
+   "Title": "Mechanism of B-lymphocytes ",
+   "Link": "pZLDjmfaJ0Y"
+ },
+ {
+   "Title": "Alpha Beta T-cells ",
+   "Link": "QLtPj0o5wsI"
+ },
+ {
+   "Title": "Gamma Delta T-cells ",
+   "Link": "NCNi9oDdxbw"
+ },
+ {
+   "Title": "Primary vs. Secondary Immune Response ",
+   "Link": "e2gT4nnETpc"
+ },
+ {
+   "Title": "Immunization, Active Immunity and Passive Immunity",
+   "Link": "3w9ylCxFAa0"
+ },
+ {
+   "Title": "Grafting, Organ Transplants and Immunosuppression",
+   "Link": "0y1UOq7EIMg"
+ },
+ {
+   "Title": "ABO Blood Types ",
+   "Link": "LAFvwRkeUQ8"
+ },
+ {
+   "Title": "ABO Blood Types Part II",
+   "Link": "2iEg1ZPY0jU"
+ },
+ {
+   "Title": "Rh Factor and Rh Incompatibility",
+   "Link": "1dpw8yoggYY"
+ },
+ {
+   "Title": "Autoimmunity",
+   "Link": "3XszVyYWZJE"
+ },
+ {
+   "Title": "Innate and Adaptive Immune Systems ",
+   "Link": "e2TCjFPn2g8"
+ },
+ {
+   "Title": "HIV, AIDS, and Helper T-Cells ",
+   "Link": "QqoezqZIA6c"
+ },
+ {
+   "Title": "Allergens and Allergic Reactions ",
+   "Link": "iicHiSbEx8U"
+ },
+ {
+   "Title": "Immunosurveillance and Cancer Cells ",
+   "Link": "oJnU20cwg8Q"
+ },
+ {
+   "Title": "Lymphatic System ",
+   "Link": "BOCv_WhLcD8"
+ },
+ {
+   "Title": "Enzymes ",
+   "Link": "3UlxoNrDtNM"
+ },
+ {
+   "Title": "Cofactors, Lock-and-Key and Induced Fit Model ",
+   "Link": "qO2DvzAvnPY"
+ },
+ {
+   "Title": "Enzyme Activity",
+   "Link": "FFViDx5TxUM"
+ },
+ {
+   "Title": "Reversible and Irreversible Enzyme Inhibition",
+   "Link": "ixDdTbeby6s"
+ },
+ {
+   "Title": "Allosteric Regulation of Enzymes ",
+   "Link": "ttiduKb_DQ4"
+ },
+ {
+   "Title": "Proteolytic Cleavage and Reversible Covalent Modification ",
+   "Link": "ifPhVmNRReg"
+ },
+ {
+   "Title": "Glycolysis ",
+   "Link": "bfhKGPRCu2o"
+ },
+ {
+   "Title": "Pyruvate Decarboxylation Reaction ",
+   "Link": "FJBNkXAajrk"
+ },
+ {
+   "Title": "Citric Acid Cycle ",
+   "Link": "nurJmumQ8FQ"
+ },
+ {
+   "Title": "Electron Transport Chain ",
+   "Link": "yil3EnXtyvI"
+ },
+ {
+   "Title": "Summary of Aerobic Respiration ",
+   "Link": "Jztm2tsAdtw"
+ },
+ {
+   "Title": "Alcohol and Lactic Acid Fermentation ",
+   "Link": "mQKTDw9Yeaw"
+ },
+ {
+   "Title": "NAD+ and FAD+ Cofactors ",
+   "Link": "eL_iVLHT9Q0"
+ },
+ {
+   "Title": "Triglyceride Metabolism ",
+   "Link": "BIHT5Ay-t-g"
+ },
+ {
+   "Title": "Cell Cycle and Interphase ",
+   "Link": "gBj_ZXCTa2U"
+ },
+ {
+   "Title": "Mitosis and Cytokinesis",
+   "Link": "XFdBvgykVCc"
+ },
+ {
+   "Title": "Meiosis I ",
+   "Link": "ZBqEtIoQmQY"
+ },
+ {
+   "Title": "Meiosis II ",
+   "Link": "9gQS-FnwmxI"
+ },
+ {
+   "Title": "Nondisjunction of Chromosomes ",
+   "Link": "a0-nmZz3r8g"
+ },
+ {
+   "Title": "Conjugation, Transformation and Transduction ",
+   "Link": "MR7yvRDL5iQ"
+ },
+ {
+   "Title": "Spermatogenesis",
+   "Link": "d5cQreR9h20"
+ },
+ {
+   "Title": "Oogenesis",
+   "Link": "Y6s3obXg8Gs"
+ },
+ {
+   "Title": "Fertilization",
+   "Link": "ze01boViRsk"
+ },
+ {
+   "Title": "Anatomy of Reproductive Organs ",
+   "Link": "c55qrVbwZTk"
+ },
+ {
+   "Title": "Anatomy and Function of Female Breasts ",
+   "Link": "ICQQC2KWinM"
+ },
+ {
+   "Title": "The Menstrual Cycle ",
+   "Link": "RQQ4KuH5XME"
+ },
+ {
+   "Title": "Hormones in Menstrual Cycle",
+   "Link": "EooU0vkt-r0"
+ },
+ {
+   "Title": "Asexual Reproduction ",
+   "Link": "6zEo0MmEevI"
+ },
+ {
+   "Title": "Introduction to Embryological Development",
+   "Link": "VxmTBhB2HkA"
+ },
+ {
+   "Title": "Cleavage and Blastulation ",
+   "Link": "W6Vwojq5b98"
+ },
+ {
+   "Title": "Cell Determination and Differentiation",
+   "Link": "W8xx975RtP4"
+ },
+ {
+   "Title": "Morphogenesis",
+   "Link": "dMkvezo9t2c"
+ },
+ {
+   "Title": "Apoptosis",
+   "Link": "aemXc6AtpR0"
+ },
+ {
+   "Title": "Implantation of Blastocyst ",
+   "Link": "hGEXLmPU5mw"
+ },
+ {
+   "Title": "Gastrulation",
+   "Link": "w9tJ7UiLrQs"
+ },
+ {
+   "Title": "Neurulation ",
+   "Link": "7z_8HYV41Bc"
+ },
+ {
+   "Title": "Organogenesis",
+   "Link": "jbkHi2UGMyU"
+ },
+ {
+   "Title": "Extraembryonic Membranes ",
+   "Link": "czjfWCaa4Fw"
+ },
+ {
+   "Title": "Development and Function of Placenta ",
+   "Link": "S_Y2ZMVzl4o"
+ },
+ {
+   "Title": "Human Gestation and Birth",
+   "Link": "p_JccNhopuQ"
+ },
+ {
+   "Title": "Factors Affecting Fetal Development ",
+   "Link": "iAF4FhnrE7A"
+ },
+ {
+   "Title": "Fetal Circulation",
+   "Link": "CWwkC5g-vnY"
+ },
+ {
+   "Title": "Fetal Circulation After Birth",
+   "Link": "29Mg9cgm9k4"
+ },
+ {
+   "Title": "Circulation in Fetal Heart ",
+   "Link": "OJ6KmqxKIU8"
+ },
+ {
+   "Title": "Patent Ductus Arteriosus and Patent Foramen Oval ",
+   "Link": "yjWjEORwQUU"
+ },
+ {
+   "Title": "Gas Exchange in Placenta, Fetal Hemoglobin and Double Bohr Effect ",
+   "Link": "EwvzSJUFMOE"
+ },
+ {
+   "Title": "Introduction to DNA",
+   "Link": "sLdJTcBnO3c"
+ },
+ {
+   "Title": "DNA Replication: Helices and Unwinding",
+   "Link": "9unpqe8087E"
+ },
+ {
+   "Title": "DNA Replication: Leading and Lagging Strand ",
+   "Link": "gxeak5TuRIk"
+ },
+ {
+   "Title": "Summary of DNA Replication",
+   "Link": "WONqRyoi49A"
+ },
+ {
+   "Title": "mRNA, rRNA, and tRNA ",
+   "Link": "dcvtHSFzKOQ"
+ },
+ {
+   "Title": "RNA Transcription",
+   "Link": "IsMHhnGILwg"
+ },
+ {
+   "Title": "Post-transcriptional modifications of mRNA",
+   "Link": "ertPYuifrQM"
+ },
+ {
+   "Title": "The Genetic Code",
+   "Link": "9OvzIpQhXTw"
+ },
+ {
+   "Title": "Translation: Ribosomes and Initiation",
+   "Link": "1fUswlOwslw"
+ },
+ {
+   "Title": "Translation: Elongation and Termination",
+   "Link": "5nMEpRG-az8"
+ },
+ {
+   "Title": "Signal Sequences and Signal-Recognition Particles",
+   "Link": "kp06l4zx7Pw"
+ },
+ {
+   "Title": "Post Translational Modifications ",
+   "Link": "PMsxwRCliBE"
+ },
+ {
+   "Title": "Law of Dominance ",
+   "Link": "OiZEfMe8NJk"
+ },
+ {
+   "Title": "Law of Segregation",
+   "Link": "FG3S2qxy8GE"
+ },
+ {
+   "Title": "Genes, Alleles and Loci on Chromosomes",
+   "Link": "GUS9qmG1wY4"
+ },
+ {
+   "Title": "Genotypes, Phenotypes and Punnett square ",
+   "Link": "-zZf8GXVuiU"
+ },
+ {
+   "Title": "Monohybrid Test Cross",
+   "Link": "gpAzz8f5k9I"
+ },
+ {
+   "Title": "Test Cross",
+   "Link": "0IGXRMEgI4I"
+ },
+ {
+   "Title": "Sum and Product Rule in Genetics ",
+   "Link": "QTGAk6hScGI"
+ },
+ {
+   "Title": "Sum and Product Rule in Genetics Part II",
+   "Link": "Qeu2-VKpEgc"
+ },
+ {
+   "Title": "Genetic Probability Example ",
+   "Link": "wmVPqpMyyAw"
+ },
+ {
+   "Title": "Dihybrid Cross ",
+   "Link": "y9P3WEalvkM"
+ },
+ {
+   "Title": "Dihybrid Cross Part II",
+   "Link": "mTO8xrGRbo8"
+ },
+ {
+   "Title": "Law of Independent Assortment ",
+   "Link": "VjPjyLwcYYQ"
+ },
+ {
+   "Title": "Linked Genes, Crossing Over and Genetic Recombination",
+   "Link": "99A6v-5_sFg"
+ },
+ {
+   "Title": "Linked Genes",
+   "Link": "B3GDK6mWaGU"
+ },
+ {
+   "Title": "Linked Genes Part II",
+   "Link": "vtd0GTJrslI"
+ },
+ {
+   "Title": "Non-linked Genes and Offspring Distribution",
+   "Link": "-RFNS5Xat1M"
+ },
+ {
+   "Title": "Non-linked Genes and Offspring Distribution Part II",
+   "Link": "FXPr0pI1_sI"
+ },
+ {
+   "Title": "Gene Mapping, Percent Recombination and Map Units ",
+   "Link": "asNgHpOuJmY"
+ },
+ {
+   "Title": "Gene Mapping, Recombination and Map Units Part II",
+   "Link": "exl4zSK0X4U"
+ },
+ {
+   "Title": "Determining Gene Order ",
+   "Link": "UKf9lcVmpK4"
+ },
+ {
+   "Title": "Sex Chromosomes",
+   "Link": "a9qrCtDeXf4"
+ },
+ {
+   "Title": "Colorblind Genetics Example ",
+   "Link": "e12A6y4QeyU"
+ },
+ {
+   "Title": "Incomplete Dominance",
+   "Link": "vIh-hiGQwR4"
+ },
+ {
+   "Title": "Multiple Alleles and Codominance",
+   "Link": "jnx16oERTg0"
+ },
+ {
+   "Title": "Pleiotropy and Epistasis ",
+   "Link": "XEltUZ0_gDQ"
+ },
+ {
+   "Title": "Polygenic Inheritance",
+   "Link": "tKnOvPtwZL4"
+ },
+ {
+   "Title": "Pedigree Analysis",
+   "Link": "Wgmgt_Ph6Ko"
+ },
+ {
+   "Title": "Pedigree Analysis of Sex Linked Recessive Traits ",
+   "Link": "9GpCOqFxjmw"
+ },
+ {
+   "Title": "Pedigree Analysis for Autosomal Dominant Traits ",
+   "Link": "TFhQFbYDwEw"
+ },
+ {
+   "Title": "Pedigree Analysis for Autosomal Dominant Traits (Part II) ",
+   "Link": "WzQX5f-zXyY"
+ },
+ {
+   "Title": "Aneuploidy and Nondisjunction ",
+   "Link": "BxmaH5LiIkg"
+ },
+ {
+   "Title": "Aneuploidy and Nondisjunction (Part II) ",
+   "Link": "WF_rsMh9YSU"
+ },
+ {
+   "Title": "Chromosomal Depletion, Inversion, Duplication and Translocation ",
+   "Link": "wEKQ1gQxR88"
+ },
+ {
+   "Title": "Down syndrome (Trisomy 21 and Translocation)",
+   "Link": "MLWs3h7Gf60"
+ },
+ {
+   "Title": "Sex Chromosomal Abnormalities ",
+   "Link": "gdXHq8FrfHI"
+ },
+ {
+   "Title": "Autosomal Recessive Diseases",
+   "Link": "t2QbbnOmc4w"
+ },
+ {
+   "Title": "Point Mutations (Base-Pair Substitutions)",
+   "Link": "aFwxHnuOGks"
+ },
+ {
+   "Title": "Insertion, Deletions and Frameshift Mutations",
+   "Link": "wv73LL6OaKU"
+ },
+ {
+   "Title": "Summary of Gene Mutations ",
+   "Link": "vfp0JUCTbdE"
+ },
+ {
+   "Title": "Restriction Enzymes and Recombinant DNA",
+   "Link": "mMIRBNUuX6I"
+ },
+ {
+   "Title": "Gene Library",
+   "Link": "vWhyUEzhvwE"
+ },
+ {
+   "Title": "cDNA Library",
+   "Link": "lXOVdIFPyjs"
+ },
+ {
+   "Title": "Polymerase Chain Reaction",
+   "Link": "HmkNzMrhIFQ"
+ },
+ {
+   "Title": "Restriction Map and Gel Electrophoresis",
+   "Link": "afdP3eWFj3k"
+ },
+ {
+   "Title": "Gene Regulation and the Lac Operon",
+   "Link": "UXI3_tbsi0E"
+ },
+ {
+   "Title": "Tryptophan Operon",
+   "Link": "O4SdDuBnoW4"
+ },
+ {
+   "Title": "Gene Regulation in Eukaryotes ",
+   "Link": "fabBvmzGBYw"
+ },
+ {
+   "Title": "Types of Macromolecules ",
+   "Link": "BkukWlEd_5Q"
+ },
+ {
+   "Title": "Epithelial Tissue",
+   "Link": "ON5ZNcaM4Gs"
+ },
+ {
+   "Title": "Introduction to Digestive System ",
+   "Link": "R6lTFi3lhOM"
+ },
+ {
+   "Title": "Oral Cavity, Pharynx, and Esophagus",
+   "Link": "5PteyUvJma8"
+ },
+ {
+   "Title": "Stomach",
+   "Link": "j7wTeakwo_g"
+ },
+ {
+   "Title": "Small Intestine",
+   "Link": "ry0ML_DZnuQ"
+ },
+ {
+   "Title": "Digestive Enzymes of Small Intestine and Pancreas ",
+   "Link": "0HsW6LVdRQ4"
+ },
+ {
+   "Title": "Emulsification of Fats ",
+   "Link": "Zqvr20ZOtvM"
+ },
+ {
+   "Title": "Absorption of Carbohydrates by Small Intestine",
+   "Link": "b6_IMnoAv3k"
+ },
+ {
+   "Title": "Absorption of Proteins in Small Intestine",
+   "Link": "S21NMwtsRFA"
+ },
+ {
+   "Title": "Large Intestine",
+   "Link": "GEfrHDQSgG8"
+ },
+ {
+   "Title": "Absorption of Fats in Small Intestine ",
+   "Link": "P1jiWxmqS-o"
+ },
+ {
+   "Title": "Structure of the Nephron",
+   "Link": "WTC1zXPotUs"
+ },
+ {
+   "Title": "Structure of the Kidney",
+   "Link": "ZwnEIooqpgk"
+ },
+ {
+   "Title": "Filtration in Renal Corpuscle",
+   "Link": "GHBDhMsUjWM"
+ },
+ {
+   "Title": "Proximal Convoluted Tubule ",
+   "Link": "IQGvjDDnrkw"
+ },
+ {
+   "Title": "Countercurrent Multiplier System and Loop of Henle",
+   "Link": "X0vVJecAFTo"
+ },
+ {
+   "Title": "Distal Convoluted Tubule",
+   "Link": "0rIQh4100bQ"
+ },
+ {
+   "Title": "Collecting Duct ",
+   "Link": "uEKe33kkup0"
+ },
+ {
+   "Title": "Renal Clearance, Renal Plasma Flow and Glomerular Filtration Rate ",
+   "Link": "yFx5Kqu_T54"
+ },
+ {
+   "Title": "Function of the Liver",
+   "Link": "a6s6mlju3_8"
+ },
+ {
+   "Title": "Structure of Skin",
+   "Link": "hjhlGMOFSZQ"
+ },
+ {
+   "Title": "Function of the Skin ",
+   "Link": "sEqSFWjj2_Q"
+ },
+ {
+   "Title": "Neuron Structure and Function",
+   "Link": "-_uIDESvr6Y"
+ },
+ {
+   "Title": "Resting Membrane Potential of Neuron",
+   "Link": "M0JWkOnnOVw"
+ },
+ {
+   "Title": "Initiation of Action Potential",
+   "Link": "N8lFrHo0FkM"
+ },
+ {
+   "Title": "Propagation of Action Potential",
+   "Link": "KWIWemjaHJA"
+ },
+ {
+   "Title": "Myelination and Saltatory Conduction ",
+   "Link": "X4hl5hKDmHw"
+ },
+ {
+   "Title": "Synaptic Terminal ",
+   "Link": "rxhqKXvkYXU"
+ },
+ {
+   "Title": "Secondary Messenger Systems ",
+   "Link": "jpimow0N0BU"
+ },
+ {
+   "Title": "Neuroglia ",
+   "Link": "n7YCZZ_wg2U"
+ },
+ {
+   "Title": "Introduction to Nervous System ",
+   "Link": "IEGphXyKJgI"
+ },
+ {
+   "Title": "Central Nervous System ",
+   "Link": "m8V9fldkDv8"
+ },
+ {
+   "Title": "Somatic Nervous System ",
+   "Link": "pbzbVM5W-Ak"
+ },
+ {
+   "Title": "Autonomic Nervous System ",
+   "Link": "-rGZfOoZgzI"
+ },
+ {
+   "Title": "Structure of the Human Eye",
+   "Link": "1PGIXXuFu14"
+ },
+ {
+   "Title": "Structure of the Human Ear ",
+   "Link": "3LyWqpknNFQ"
+ },
+ {
+   "Title": "Sarcomere ",
+   "Link": "YaCELjR7vxw"
+ },
+ {
+   "Title": "Structure of Skeletal Muscle ",
+   "Link": "DfKKf89-dFI"
+ },
+ {
+   "Title": "Contraction of Skeletal Muscle ",
+   "Link": "UhSSqToeMsI"
+ },
+ {
+   "Title": "The Motor Unit ",
+   "Link": "kSABUj48Yls"
+ },
+ {
+   "Title": "Cardiac Muscle ",
+   "Link": "UaWv5vYpiFs"
+ },
+ {
+   "Title": "Smooth Muscle ",
+   "Link": "WA5ybT8Xtj8"
+ },
+ {
+   "Title": "Action Potential vs. Muscle Construction Graphs",
+   "Link": "cxj3y5KAl9E"
+ },
+ {
+   "Title": "Action Potential of Cardiac Muscle ",
+   "Link": "uUbgcqo_IOg"
+ },
+ {
+   "Title": "Slow Oxidative, Fast Oxidative and Fast Glycolytic Muscles ",
+   "Link": "L_R7XHqWW_w"
+ },
+ {
+   "Title": "Introduction to Human Skeletal System ",
+   "Link": "TL2oRHsrpzs"
+ },
+ {
+   "Title": "Compact Bone Structure and Osteon System ",
+   "Link": "PQpYZ0RcAKM"
+ },
+ {
+   "Title": "Structure of Long Bones ",
+   "Link": "dJnud23zv8c"
+ },
+ {
+   "Title": "Bone Metabolism",
+   "Link": "ZTBH61OQZTU"
+ },
+ {
+   "Title": "Cartilage and Joints",
+   "Link": "wPfoKaRXYd0"
+ },
+ {
+   "Title": "Agonist-Antagonist Muscle Pairs ",
+   "Link": "x48DZ-ixxMk"
+ },
+ {
+   "Title": "Long Bones, Short Bones, Flat Bones, Irregular Bones ",
+   "Link": "VXsYri-d4QE"
+ },
+ {
+   "Title": "Introduction to Endocrine System ",
+   "Link": "wKRXfbbH-U8"
+ },
+ {
+   "Title": "Anterior Pituitary Gland",
+   "Link": "pilwS8vbqGk"
+ },
+ {
+   "Title": "Posterior Pituitary Gland",
+   "Link": "oQwE6WJQMeM"
+ },
+ {
+   "Title": "Thyroid Gland",
+   "Link": "IA09d-zN-2Y"
+ },
+ {
+   "Title": "Parathyroid Gland",
+   "Link": "MycQU9qw5yI"
+ },
+ {
+   "Title": "Adrenal Gland",
+   "Link": "9o2dqeajWsI"
+ },
+ {
+   "Title": "Islets of Langerhans ",
+   "Link": "O0Qz62nbDvA"
+ },
+ {
+   "Title": "Thymus ",
+   "Link": "vZpFsOvIe_U"
+ },
+ {
+   "Title": "Renin-angiotensin-Aldosterone System",
+   "Link": "NMWaKdO76NQ"
+ },
+ {
+   "Title": "Endocrine Ability of Heart, Kidney, Liver and Skin ",
+   "Link": "BE-CfPkONmo"
+ },
+ {
+   "Title": "Testes",
+   "Link": "mRjG7lciWvw"
+ },
+ {
+   "Title": "Ovaries",
+   "Link": "csxZj8fDh7Y"
+ },
+ {
+   "Title": "Placenta ",
+   "Link": "UznR0DsqhXE"
+ },
+ {
+   "Title": "Hypoglycemia and Hyperglycemia ",
+   "Link": "WszJHxsdpnI"
+ },
+ {
+   "Title": "Introduction to Cardiovascular System ",
+   "Link": "wiy23SyIK-g"
+ },
+ {
+   "Title": "Composition of Blood",
+   "Link": "c2B6C-W_tIg"
+ },
+ {
+   "Title": "Types of Blood Vessels ",
+   "Link": "-zjUZjkNLsI"
+ },
+ {
+   "Title": "Blood Pressure in Arteries, Veins, and Capillaries",
+   "Link": "PTYwFQq4loI"
+ },
+ {
+   "Title": "Compliance of Blood Vessels",
+   "Link": "uhYnKRH8Gho"
+ },
+ {
+   "Title": "Resistance of Blood Vessels and Volume Flow Rate ",
+   "Link": "-QclTMSvm3U"
+ },
+ {
+   "Title": "Structure of the Heart",
+   "Link": "KwbqTHEnJw0"
+ },
+ {
+   "Title": "Blood Flow in the Heart ",
+   "Link": "vWUvsX1OvbQ"
+ },
+ {
+   "Title": "Electrical Conduction in the heart ",
+   "Link": "4o2nHfVMfC8"
+ },
+ {
+   "Title": "Introduction to Electrocardiogram ",
+   "Link": "O04d0hZ1ofo"
+ },
+ {
+   "Title": "Major Arteries of Circulation System ",
+   "Link": "XqCi3dk18pI"
+ },
+ {
+   "Title": "Osmosis Osmotic pressure and Hydrostatic Pressure ",
+   "Link": "2ukQlpNA6-s"
+ },
+ {
+   "Title": "Exchange Across Capillaries ",
+   "Link": "bmQDAM-q2OM"
+ },
+ {
+   "Title": "Recycling of Red Blood Cells ",
+   "Link": "DjmWmbzUogM"
+ },
+ {
+   "Title": "Blood Clotting Cascade",
+   "Link": "SPSvc7-1dec"
+ },
+ {
+   "Title": "Blood Clotting Cascade (Part II)",
+   "Link": "VJm1kaVQI9E"
+ },
+ {
+   "Title": "Amplification of Blood Clotting ",
+   "Link": "zGlW29VuSkA"
+ },
+ {
+   "Title": "Introduction to Human Respiratory System",
+   "Link": "CGVOWh20ufA"
+ },
+ {
+   "Title": "Respiration in the Lungs ",
+   "Link": "ke48zGU9fQw"
+ },
+ {
+   "Title": "Protective Capabilities of Lungs ",
+   "Link": "L_VDawZa9EI"
+ },
+ {
+   "Title": "Alveolar Structure and Gas Exchange ",
+   "Link": "JSZH0rcR9cg"
+ },
+ {
+   "Title": "Surfactant in Alveoli and Surface Tension",
+   "Link": "dmjXQ05cSXw"
+ },
+ {
+   "Title": "Hemoglobin Cooperativity and Oxygen Dissociation Curve ",
+   "Link": "XcupwWwfsz8"
+ },
+ {
+   "Title": "Hemoglobin and Bohr Effect",
+   "Link": "K_bkjbtzdAw"
+ },
+ {
+   "Title": "Effect of Temperature on Hemoglobin Dissociation Curve",
+   "Link": "sd0rkzgOFC0"
+ },
+ {
+   "Title": "2,3 BPG and Hemoglobin",
+   "Link": "vYyIdE_BlQc"
+ },
+ {
+   "Title": "Carbon Monoxide and Hemoglobin",
+   "Link": "Lsq-zyrzXxE"
+ },
+ {
+   "Title": "Chloride Shift in Red Blood Cells ",
+   "Link": "3J3uaVPWmOY"
+ },
+ {
+   "Title": "Factors that Affect Hemoglobin Dissociation curve",
+   "Link": "mrETSLgRYeE"
+ },
+ {
+   "Title": "Myoglobin Dissociation Curve ",
+   "Link": "B8XmUpjCtik"
+ },
+ {
+   "Title": "Lung Capacity and Volume ",
+   "Link": "chMedJwp4wo"
+ },
+ {
+   "Title": "Properties of Water and Hydrophobic Effect ",
+   "Link": "3vy__KvTi6I"
+ },
+ {
+   "Title": "Properties of Water and Hydrophobic Effect Part II",
+   "Link": "fuVbeVapafk"
+ },
+ {
+   "Title": "Intramolecular and Intermolecular Forces ",
+   "Link": "U_W-Ee3h12o"
+ },
+ {
+   "Title": "Intramolecular and Intermolecular Forces (Part II)",
+   "Link": "6WTQFiWUUgc"
+ },
+ {
+   "Title": "First and Second Law of Thermodynamics ",
+   "Link": "1kzsLGq3-14"
+ },
+ {
+   "Title": "Gibbs Free Energy ",
+   "Link": "ZuccSLJYSnk"
+ },
+ {
+   "Title": "Formation of DNA Double Helix ",
+   "Link": "uhsDspChg18"
+ },
+ {
+   "Title": "Acid-Base Reactions and pH ",
+   "Link": "CVC6tykua6A"
+ },
+ {
+   "Title": "pH disrupts double helix of DNA",
+   "Link": "85OUxwxBEgs"
+ },
+ {
+   "Title": "Biological Buffer Systems",
+   "Link": "id1yK29TTcc"
+ },
+ {
+   "Title": "Biological Buffer Systems Part II ",
+   "Link": "RdojMjPjuR0"
+ },
+ {
+   "Title": "Introduction to Proteins ",
+   "Link": "ZfsuDfui0oU"
+ },
+ {
+   "Title": "Introduction to Amino Acids ",
+   "Link": "LHNNOIMt5x0"
+ },
+ {
+   "Title": "Nonpolar and Uncharged Polar Amino Acids ",
+   "Link": "cL2_e83v3js"
+ },
+ {
+   "Title": "Basic and Acidic Amino Acids ",
+   "Link": "dF48PWHbA10"
+ },
+ {
+   "Title": "Ionizable Amino Acids ",
+   "Link": "eE4WgONS6-k"
+ },
+ {
+   "Title": "Peptide Bond Formation",
+   "Link": "4_2fA_W7snM"
+ },
+ {
+   "Title": "Primary Structure of Proteins ",
+   "Link": "KW8Uo8jsiGY"
+ },
+ {
+   "Title": "Primary Structure of Proteins (II)",
+   "Link": "qNWZCIoldWA"
+ },
+ {
+   "Title": "Secondary Structure of Proteins ",
+   "Link": "4YbwjjZWGPA"
+ },
+ {
+   "Title": "Tertiary Structure of Proteins ",
+   "Link": "p5Oi_yFfAhg"
+ },
+ {
+   "Title": "Quaternary Structure of Proteins ",
+   "Link": "-3uYmi7C2DI"
+ },
+ {
+   "Title": "Anfinsen’s Experiment of Protein Folding ",
+   "Link": "pZee0XCCqH4"
+ },
+ {
+   "Title": "Prions and Protein misfiling ",
+   "Link": "Chs7ixRstQk"
+ },
+ {
+   "Title": "Cooperatively of Protein Folding ",
+   "Link": "9XK1Ekx5tYc"
+ },
+ {
+   "Title": "Modification of Amino Acids ",
+   "Link": "gpnyMM44lXc"
+ },
+ {
+   "Title": "Enzyme Assay, Enzyme Activity and Specific Activity",
+   "Link": "rgpN2OXg7mI"
+ },
+ {
+   "Title": "Cell Fractionation ",
+   "Link": "ukHA2tnc8mQ"
+ },
+ {
+   "Title": "Centrifugation and Sedimentation Coefficient ",
+   "Link": "oxiB3UoRc0E"
+ },
+ {
+   "Title": "Derivation of Sedimentation Coefficient Equation",
+   "Link": "EIl9kbeOLeA"
+ },
+ {
+   "Title": "Salting Out",
+   "Link": "TIMGH2z1eh4"
+ },
+ {
+   "Title": "Dialysis",
+   "Link": "P4vxEs7YDXY"
+ },
+ {
+   "Title": "Gel Filtration Chromatography",
+   "Link": "6t1BeXk1Gvc"
+ },
+ {
+   "Title": "Ion Exchange Chromatography",
+   "Link": "jOf_zHw2Hd4"
+ },
+ {
+   "Title": "Affinity Chromatography",
+   "Link": "4lWxWjQB5mo"
+ },
+ {
+   "Title": "Isoelectric Focusing and Isoelectric Point ",
+   "Link": "x62WZGd3VCM"
+ },
+ {
+   "Title": "Isoelectric Focusing and Isoelectric Point (Part II) ",
+   "Link": "Flu1EDgyJxs"
+ },
+ {
+   "Title": "Calculating Isoelectric Point of Proteins ",
+   "Link": "c2kK4My2Jzc"
+ },
+ {
+   "Title": "Calculation of Net Charge on Proteins ",
+   "Link": "g0TZncwkJxU"
+ },
+ {
+   "Title": "SDS Polyacrylamide Gel Electrophoresis ",
+   "Link": "tM0VNhjiFSU"
+ },
+ {
+   "Title": "SDS polyacrylamide Gel Electrophoresis ",
+   "Link": "9ly9bVbS8IU"
+ },
+ {
+   "Title": "Two Dimensional Gel Electrophoresis",
+   "Link": "mXkIWIE0H-0"
+ },
+ {
+   "Title": "Analysis of Protein Purification ",
+   "Link": "7h0XrF1BleM"
+ },
+ {
+   "Title": "Analysis of Protein Purification (Part II)",
+   "Link": "95PAEel-Fy8"
+ },
+ {
+   "Title": "Amino Acid Composition in Proteins ",
+   "Link": "5bBeXvo7ScA"
+ },
+ {
+   "Title": "Sequencing Amino Acids and Edman Degradation ",
+   "Link": "VxaGNLCIETA"
+ },
+ {
+   "Title": "Sequencing Amino Acids by Proteolytic Cleavage ",
+   "Link": "--rkLKzHi5s"
+ },
+ {
+   "Title": "Protein Sequencing Example ",
+   "Link": "X1LeQ3pcNow"
+ },
+ {
+   "Title": "Diagonal Electrophoresis",
+   "Link": "tAZu557bMQw"
+ },
+ {
+   "Title": "Polyclonal Antibodies ",
+   "Link": "13u9zjqU1Sw"
+ },
+ {
+   "Title": "Monoclonal Antibodies ",
+   "Link": "kVs4VQQroOg"
+ },
+ {
+   "Title": "Indirect and Sandwich ELISA ",
+   "Link": "MzrJ35aQPMo"
+ },
+ {
+   "Title": "Western Blotting ",
+   "Link": "8F_SFymyMCw"
+ },
+ {
+   "Title": "Solid-Phase Synthesis of Proteins ",
+   "Link": "ISjHVbG5CTE"
+ },
+ {
+   "Title": "Introduction to Nucleic Acids ",
+   "Link": "1Wc4jTH2v_w"
+ },
+ {
+   "Title": "Composition of Nucleic Acids ",
+   "Link": "Ux1tAy1Jb_I"
+ },
+ {
+   "Title": "Nucleosides and Nucleotides",
+   "Link": "GgQrEJaEH0U"
+ },
+ {
+   "Title": "Watson-Crick Model of DNA",
+   "Link": "VLD9VLxN3PI"
+ },
+ {
+   "Title": "Meselson and Stahl Experiment ",
+   "Link": "_GN4F-PaAWA"
+ },
+ {
+   "Title": "Melting and Annealing of DNA ",
+   "Link": "OblPqlOOgew"
+ },
+ {
+   "Title": "Stem-Loop Structure of RNA ",
+   "Link": "g_pwHZZ0oSo"
+ },
+ {
+   "Title": "DNA Polymerase and Catalysis of Phosphodiester Bond",
+   "Link": "wvaBZSQzGVY"
+ },
+ {
+   "Title": "Circular DNA, RNA Genes and Viruses ",
+   "Link": "TEfHW21ZIoc"
+ },
+ {
+   "Title": "Types of RNA ",
+   "Link": "ruIIccU32nU"
+ },
+ {
+   "Title": "RNA Polymerase ",
+   "Link": "1bAhZayllHc"
+ },
+ {
+   "Title": "Promoter and Termination Sites ",
+   "Link": "a9ZMTVlrLY0"
+ },
+ {
+   "Title": "Central Dogma and Genetic Code ",
+   "Link": "0t5eVgtrdWg"
+ },
+ {
+   "Title": "Start and Stop Codons ",
+   "Link": "HxOGxj2jEfA"
+ },
+ {
+   "Title": "Exons and Introns of Eukaryotic mRNA",
+   "Link": "B8gnuhvnfUs"
+ },
+ {
+   "Title": "Introduction to Biotechnology",
+   "Link": "FlsD__uCRws"
+ },
+ {
+   "Title": "Restriction Enzymes and Palindromic Sequences ",
+   "Link": "GDIu_t_SUTY"
+ },
+ {
+   "Title": "Southern and Northern Blotting",
+   "Link": "EoTq-Ql_Zzc"
+ },
+ {
+   "Title": "Sanger Sequencing of DNA ",
+   "Link": "IAf_6TZ6BYc"
+ },
+ {
+   "Title": "Sanger Sequencing of DNA (Part II) ",
+   "Link": "Kw2-LKRzRMM"
+ },
+ {
+   "Title": "Amplifying DNA with Polymerase Chain Reaction ",
+   "Link": "uHKiohWvY_0"
+ },
+ {
+   "Title": "Plasmids and Recombinant DNA technology ",
+   "Link": "2YxTcBimxlw"
+ },
+ {
+   "Title": "Lambda Phages as Vectors ",
+   "Link": "0Mw-0G2m6uE"
+ },
+ {
+   "Title": "Building and Screening Genomic Libraries ",
+   "Link": "2ikPiR0-rnc"
+ },
+ {
+   "Title": "Cassette Mutagenesis and Gene Deletions ",
+   "Link": "EpQB06gRoLg"
+ },
+ {
+   "Title": "Site-Directed Mutagenesis",
+   "Link": "cCUKopDvTks"
+ },
+ {
+   "Title": "Synthesizing cDNA with Reverse Transcriptase ",
+   "Link": "EU39PDzz9co"
+ },
+ {
+   "Title": "Gene Transfection ",
+   "Link": "oj_h06k9z0g"
+ },
+ {
+   "Title": "Heme Group of Hemoglobin and Myoglobin ",
+   "Link": "L6vhDsi8O_g"
+ },
+ {
+   "Title": "Oxygen Binding Curve for Myoglobin and Hemoglobin",
+   "Link": "Y3hRYzEmKrc"
+ },
+ {
+   "Title": "Hemoglobin vs Myoglobin as Oxygen Carrier ",
+   "Link": "XUI5vGfNYZY"
+ },
+ {
+   "Title": "T-state and R-state of Hemoglobin",
+   "Link": "LKvQLasB6jw"
+ },
+ {
+   "Title": "Concerted and Sequential Model for Hemoglobin",
+   "Link": "VNln4wn7_f4"
+ },
+ {
+   "Title": "Effect of 2,3-BPG on Hemoglobin ",
+   "Link": "20HfkCZy0dI"
+ },
+ {
+   "Title": "Fetal Hemoglobin and 2,3 BPG ",
+   "Link": "WMArOG94H3E"
+ },
+ {
+   "Title": "The Bohr Effect and Hemoglobin",
+   "Link": "vwdT15oc3IE"
+ },
+ {
+   "Title": "The Bohr Effect and Hemoglobin (Part II) ",
+   "Link": "J7Wjq5YiJhs"
+ },
+ {
+   "Title": "Transport of Carbon Dioxide and Chloride Shift ",
+   "Link": "7l-WHYD_uYE"
+ },
+ {
+   "Title": "Haldane Effect ",
+   "Link": "NN60olUJu1I"
+ },
+ {
+   "Title": "High Altitude and 2,3 BPG",
+   "Link": "tTtbU8KD5JM"
+ },
+ {
+   "Title": "Alpha Hemoglobin and Stabilizing Protein ",
+   "Link": "-vpde5PGMX8"
+ },
+ {
+   "Title": "Sickle-Cell Anemia ",
+   "Link": "e67ZP2C3Pr4"
+ },
+ {
+   "Title": "Properties of Enzymes ",
+   "Link": "Gy3fEdy9cCA"
+ },
+ {
+   "Title": "Enzymes’ Effect on Activation Energy and Free Energy ",
+   "Link": "tPCOEUo6J8s"
+ },
+ {
+   "Title": "Gibbs Free Energy and Spontaneity",
+   "Link": "u_IQu7h6xfo"
+ },
+ {
+   "Title": "Enzymes Stabilize Transition State ",
+   "Link": "NEQ9WS8w-2I"
+ },
+ {
+   "Title": "Properties of Active Sites, Lock-and-Key Model and Induced Fit Model ",
+   "Link": "xzeg7ult6pM"
+ },
+ {
+   "Title": "Effect of Enzymes on Rate Law and Rate Constant ",
+   "Link": "htZgbALo8uE"
+ },
+ {
+   "Title": "Effect of Enzymes on Rate Law and Rate Constant (Part II) ",
+   "Link": "yD6CTA-tT6A"
+ },
+ {
+   "Title": "Derivation of Michaelis-Menten Equation",
+   "Link": "NVDxNal06zM"
+ },
+ {
+   "Title": "Derivation of Michaelis Menten-Equation Part II ",
+   "Link": "OOzj_dFzPH4"
+ },
+ {
+   "Title": "Michaelis menten Equation ",
+   "Link": "ALwziZSRiqM"
+ },
+ {
+   "Title": "Michaelis Constant ",
+   "Link": "ZU2EAZQ6Mok"
+ },
+ {
+   "Title": "Maximal Velocity and Turnover Number of Enzymes ",
+   "Link": "KM2Kq9L_V4M"
+ },
+ {
+   "Title": "Catalytic Efficiency of Enzymes ",
+   "Link": "EUunw7voY-o"
+ },
+ {
+   "Title": "Catalytic Efficiency of Enzymes Part II ",
+   "Link": "5dhAuaZMCUg"
+ },
+ {
+   "Title": "Sequential and Ping Pong Reactions ",
+   "Link": "pWURzs8GiB4"
+ },
+ {
+   "Title": "Mechanisms of Enzyme Catalysis ",
+   "Link": "0vvUIIulzMk"
+ },
+ {
+   "Title": "Introduction to Proteases",
+   "Link": "Y9VgJw4w69Q"
+ },
+ {
+   "Title": "Chymotrypsin and Covalent Catalysis ",
+   "Link": "TXSZMLvqx-A"
+ },
+ {
+   "Title": "Reaction Mechanism of Chymotrypsin",
+   "Link": "OY1WsqlcUdo"
+ },
+ {
+   "Title": "Specificity of Serine Proteases",
+   "Link": "4iJY90Fxj7c"
+ },
+ {
+   "Title": "Cysteine, Apsratyl and metalloproteases",
+   "Link": "n8NFSMfV9dc"
+ },
+ {
+   "Title": "Carbonic Anhyrdase",
+   "Link": "W5nLcHtuBvM"
+ },
+ {
+   "Title": "NMP Kinases ",
+   "Link": "z-sII0ooX3g"
+ },
+ {
+   "Title": "Irreversible and Reversible Inhibition",
+   "Link": "0ZiCqwtFMTs"
+ },
+ {
+   "Title": "Irreversibile and Reversible Inhibition Part II ",
+   "Link": "RouBlFpd_mk"
+ },
+ {
+   "Title": "Enzyme Kinetics of Reversible Inhibition",
+   "Link": "rNBEUGYu034"
+ },
+ {
+   "Title": "Enzyme Kinetics of Reversible Inhibition (Part II) ",
+   "Link": "OfjuWqtC51o"
+ },
+ {
+   "Title": "Lineweaver Burke Plot and Reversible Inhibition",
+   "Link": "GVUkZL1jCw0"
+ },
+ {
+   "Title": "Lineweaver Burke Plot and REversible Inhibition Part II ",
+   "Link": "md9QC5oQmLY"
+ },
+ {
+   "Title": "Group Specific Affinity Labels and Suicide Inhibitors ",
+   "Link": "K1uq9AXwo5Q"
+ },
+ {
+   "Title": "Transition State Analogs and Catalytic Antibodies ",
+   "Link": "Q1nUbwJ6wF8"
+ },
+ {
+   "Title": "Structure and Function of Penicillin ",
+   "Link": "JZPo_iXiGuA"
+ },
+ {
+   "Title": "Enzyme Regulation ",
+   "Link": "I82orkqyOEY"
+ },
+ {
+   "Title": "ATCase Allosteric Regulation",
+   "Link": "Z2ZN_9nFl1E"
+ },
+ {
+   "Title": "Structure of ATCase ",
+   "Link": "zSAABNvECGI"
+ },
+ {
+   "Title": "Structure of ATCase Part II",
+   "Link": "m-SxOxZ0PwA"
+ },
+ {
+   "Title": "Cooperatively and Allosteric Effectors of ATCase ",
+   "Link": "gZmlhlK9lTQ"
+ },
+ {
+   "Title": "Covalent Modification and Phosphorylation ",
+   "Link": "zHJexIQbHvc"
+ },
+ {
+   "Title": "Covalent Modification and Phosphorylation Part II ",
+   "Link": "0l924_AJ-iA"
+ },
+ {
+   "Title": "Protein Kinase A ",
+   "Link": "jwp5vwnTyPc"
+ },
+ {
+   "Title": "Proteolytic Activation ",
+   "Link": "Jrp7T9-fMcM"
+ },
+ {
+   "Title": "Proteolytic Activation of Digestive Enzymes ",
+   "Link": "zPX_RGh3Ho0"
+ },
+ {
+   "Title": "Inhibition of Digestive Enzymes ",
+   "Link": "Brx4S1L6NOY"
+ },
+ {
+   "Title": "Inhibition of Digestive Enzymes ",
+   "Link": "bg0K9U5d0xU"
+ },
+ {
+   "Title": "Activation of Coagulation Cascade ",
+   "Link": "fcvhf9vmj5U"
+ },
+ {
+   "Title": "Factor VIII and Hemophilia A ",
+   "Link": "LbbzuBN2Eao"
+ },
+ {
+   "Title": "Inhibition of Coagulation Cascade ",
+   "Link": "jUs6eGbRrfk"
+ },
+ {
+   "Title": "Isozymes ",
+   "Link": "pzdjg3iG4oM"
+ },
+ {
+   "Title": "Introduction to Carbohydrates ",
+   "Link": "OBP8ltttH5U"
+ },
+ {
+   "Title": "Aldoses, Ketoses Fischer Projections and Epimers ",
+   "Link": "ECKrQu0Y2PI"
+ },
+ {
+   "Title": "Cyclic Form of Carbohydrates ",
+   "Link": "H7z1vNc1jos"
+ },
+ {
+   "Title": "Stability of Glucose Anomie’s ",
+   "Link": "MaY1UOYRFMo"
+ },
+ {
+   "Title": "Modification of Carbohydrates ",
+   "Link": "qrvlx5zD4Vc"
+ },
+ {
+   "Title": "Disaccharides (maltose, lactose, and sucrose) ",
+   "Link": "Kj15mH5zB6Y"
+ },
+ {
+   "Title": "Polysaccharides ",
+   "Link": "e0ijBDroE48"
+ },
+ {
+   "Title": "Glycosaminoglycans and Proteoglycans ",
+   "Link": "l3W60xr9ac4"
+ },
+ {
+   "Title": "Glycosylation and Glycoproteins ",
+   "Link": "xHpQuV80xhs"
+ },
+ {
+   "Title": "Functions of Glycoproteins and I-Cell Disease ",
+   "Link": "ti_fvQRfLys"
+ },
+ {
+   "Title": "Glycosyltransferases and ABO Blood Groups ",
+   "Link": "YSVbO2sHlBE"
+ },
+ {
+   "Title": "Properties of Cell Membranes ",
+   "Link": "32F9xpfXUsc"
+ },
+ {
+   "Title": "Fatty Acids ",
+   "Link": "eB9tgWB4YEw"
+ },
+ {
+   "Title": "Fatty Acids Part II ",
+   "Link": "nqBe9jAlTgQ"
+ },
+ {
+   "Title": "Phospholipids ",
+   "Link": "xrn9qeVM9o4"
+ },
+ {
+   "Title": "Glycolipids and Cholesterol ",
+   "Link": "c_RTc7aSFp4"
+ },
+ {
+   "Title": "Micelles and Lipid Bilayer ",
+   "Link": "MTwUy3c5Etc"
+ },
+ {
+   "Title": "Liposomes (Lipid Vesicles) ",
+   "Link": "KiZvvd5dhfM"
+ },
+ {
+   "Title": "Permeability of Cell Membrane ",
+   "Link": "mkkQK6emawM"
+ },
+ {
+   "Title": "Integral and Peripheral Membrane Proteins ",
+   "Link": "AB0tlX6IUYU"
+ },
+ {
+   "Title": "Integral and Peripheral Membrane Proteins Part II ",
+   "Link": "Onq25qxxsco"
+ },
+ {
+   "Title": "Lateral Diffusion of Lipids and Proteins ",
+   "Link": "eHEsOFGOSC4"
+ },
+ {
+   "Title": "Flip-Flopping and Fluid Mosaic Model ",
+   "Link": "ftgQ8-w8YGA"
+ },
+ {
+   "Title": "Asymmetry of Cell Membrane ",
+   "Link": "h7x6Ojc_6iI"
+ },
+ {
+   "Title": "Cholesterol and Fatty Acids Regulate membrane Fluidity ",
+   "Link": "wnBTZ02wnAE"
+ },
+ {
+   "Title": "Introduction to Membrane Transport ",
+   "Link": "veserg9SrtU"
+ },
+ {
+   "Title": "Measuring the Electrochemical Gradient ",
+   "Link": "hnGsBEZ_PeI"
+ },
+ {
+   "Title": "Measuring the Electrochemical Gradient ",
+   "Link": "M5pW6oex-qA"
+ },
+ {
+   "Title": "P-Type ATPases ",
+   "Link": "eJtowEuMjfQ"
+ },
+ {
+   "Title": "ABC Transporters ",
+   "Link": "AYGnZHzXsLs"
+ },
+ {
+   "Title": "Secondary Transporters ",
+   "Link": "JzmH5o0L3tw"
+ },
+ {
+   "Title": "Membrane Channels ",
+   "Link": "HG2Syp6O9EM"
+ },
+ {
+   "Title": "Ligand-Gated Ion Channels ",
+   "Link": "2FMxQsJfCZY"
+ },
+ {
+   "Title": "Resting Membrane Potential ",
+   "Link": "EqjGJ-Zn7Ic"
+ },
+ {
+   "Title": "Generation of Action Potential",
+   "Link": "APKc8A-Ak4s"
+ },
+ {
+   "Title": "Gap Junctions",
+   "Link": "attLYnvWH9M"
+ },
+ {
+   "Title": "Aquaporins ",
+   "Link": "DFu86zguTZA"
+ },
+ {
+   "Title": "Cancer and Termination of Signal Pathways ",
+   "Link": "zA7rl1exdRI"
+ },
+ {
+   "Title": "Signal Transduction Pathways ",
+   "Link": "KiBxUKk4u6g"
+ },
+ {
+   "Title": "Epinephrine Signal Transduction Pathway",
+   "Link": "Z7YK9cA1x70"
+ },
+ {
+   "Title": "Termination of Epinephrine Signaling ",
+   "Link": "pFVLjibWBik"
+ },
+ {
+   "Title": "Phosphoinositide Signal Pathway",
+   "Link": "2PCexQiCjfI"
+ },
+ {
+   "Title": "Calcium and Calmodulin ",
+   "Link": "XhVcqUugv7I"
+ },
+ {
+   "Title": "Insulin Signal Transduction Pathway ",
+   "Link": "CUXQsAdxuYw"
+ },
+ {
+   "Title": "EGF Signal Transduction Pathway",
+   "Link": "fqo7EYIh0XM"
+ },
+ {
+   "Title": "Common Properties of Signal Pathways ",
+   "Link": "fGqbIVj7L_s"
+ },
+ {
+   "Title": "Cholera and G-Protein Coupled Signaling ",
+   "Link": "GQtgUgxidpM"
+ },
+ {
+   "Title": "Introduction to Glucose Metabolism ",
+   "Link": "2yMQsmoZo2A"
+ },
+ {
+   "Title": "Stage 1 of Glycolysis ",
+   "Link": "QEIWcOY0x0g"
+ },
+ {
+   "Title": "Stage 2 of Glycolysis ",
+   "Link": "iL5ThXvldLo"
+ },
+ {
+   "Title": "Stage 2 of Glycolysis Part II ",
+   "Link": "omeKnebHq5c"
+ },
+ {
+   "Title": "Stage 3 of Glycolysis ",
+   "Link": "U4f9jdQU8LM"
+ },
+ {
+   "Title": "Stage 3 of Glycolysis ",
+   "Link": "Cqvl_wRZHXs"
+ },
+ {
+   "Title": "Overview of Glycolysis ",
+   "Link": "elXjUqZRcE0"
+ },
+ {
+   "Title": "Overview of Glycolysis Part II ",
+   "Link": "xgIEqgrvO4c"
+ },
+ {
+   "Title": "Ethanol and Lactic Acid Fermentation ",
+   "Link": "gPbnjk2orcQ"
+ },
+ {
+   "Title": "Fructose and Galactose Breakdown Pathways ",
+   "Link": "y6kVNOs89D4"
+ },
+ {
+   "Title": "Lactose Intolerance ",
+   "Link": "pyfBZCGOUGs"
+ },
+ {
+   "Title": "Regulation of Glycolysis in Skeletal Muscle ",
+   "Link": "uXNi7WQ5JEo"
+ },
+ {
+   "Title": "Regulation of Glycolysis in Skeletal Muscle Part II ",
+   "Link": "KVnP8WOGZA8"
+ },
+ {
+   "Title": "Regulation of Glycolysis in Liver Cells ",
+   "Link": "OG4A3Fkitvw"
+ },
+ {
+   "Title": "Regulation of Glycolysis in Liver Cells Part II ",
+   "Link": "WaCFnrvN2D8"
+ },
+ {
+   "Title": "Glucose Transporters ",
+   "Link": "i9S5_KZa_Is"
+ },
+ {
+   "Title": "Effect of Exercise and Cancer on Glycolysis ",
+   "Link": "xji7TfN5Wbw"
+ },
+ {
+   "Title": "Introduction to Gluconeogenesis ",
+   "Link": "VTLtHbO_L8Q"
+ },
+ {
+   "Title": "Introduction to Gluconeogenesis Part II ",
+   "Link": "yGXkDhmza64"
+ },
+ {
+   "Title": "Gluconeogenesis Steps 1-2",
+   "Link": "SLAlv9XSgqg"
+ },
+ {
+   "Title": "Gluconeogenesis Steps 3-10",
+   "Link": "51g4sAihHEk"
+ },
+ {
+   "Title": "Gluconeogenesis Steps 3-10 Part II ",
+   "Link": "AzCnD-0C3Bs"
+ },
+ {
+   "Title": "Overview of Gluconeogenesis ",
+   "Link": "9p45oK0nECw"
+ },
+ {
+   "Title": "Reciprocal Regulation of Gluconeogenesis and Glycolysis ",
+   "Link": "ardjd4h2Seo"
+ },
+ {
+   "Title": "Reciprocal Regulation of Gluconeogenesis and Glycolysis ",
+   "Link": "UorOXoKlMZM"
+ },
+ {
+   "Title": "Regulation of Glucose in Blood ",
+   "Link": "KYyMI0gyLYk"
+ },
+ {
+   "Title": "Regulation of Glucose in Blood Part II ",
+   "Link": "mTZumNWTAKA"
+ },
+ {
+   "Title": "Overview of Lactate Formation and Recycling ",
+   "Link": "sJO78WVzR1g"
+ },
+ {
+   "Title": "Introduction to Citric Acid Cycle ",
+   "Link": "Ge_uJ3iRDCE"
+ },
+ {
+   "Title": "Pyruvate Decarboxylation ",
+   "Link": "RsG3bD39Jqk"
+ },
+ {
+   "Title": "Step 1 of Citric Acid Cycle ",
+   "Link": "5XibaVKKQwo"
+ },
+ {
+   "Title": "Step 1 of Citric Acid Cycle (Part II) ",
+   "Link": "6c_0qbq2B4Q"
+ },
+ {
+   "Title": "Step 2-4 of Citric Acid Cycle ",
+   "Link": "qgR-2_SDnKU"
+ },
+ {
+   "Title": "Steps 5-8 of Citric Acid Cycle ",
+   "Link": "AJkBo2RlA3A"
+ },
+ {
+   "Title": "Overview of Citric Acid Cycle ",
+   "Link": "fOY03Wl8VG4"
+ },
+ {
+   "Title": "Regulation of Pyruvate Decarboxylation ",
+   "Link": "jZg8JHiLaBA"
+ },
+ {
+   "Title": "Regulation of Citric Acid Cycle ",
+   "Link": "M5_KZ4qpc00"
+ },
+ {
+   "Title": "Replenishing Oxaloacetate in Citric Acid Cycle ",
+   "Link": "WlUPaImRZts"
+ },
+ {
+   "Title": "Introduction to Oxidative Phosphorylation ",
+   "Link": "kI9rD9bO6wU"
+ },
+ {
+   "Title": "Introduction to Electron Transport Chain ",
+   "Link": "COMD8yHJtLI"
+ },
+ {
+   "Title": "Complex I and II of Electron Transport Chain ",
+   "Link": "ay9WIAkoa1Y"
+ },
+ {
+   "Title": "Q-Cycle and Complex III of Electron Transport Chain ",
+   "Link": "rOv-X7VFbp0"
+ },
+ {
+   "Title": "Complex IV of Electron Transport Chain ",
+   "Link": "E0YGToDEKeE"
+ },
+ {
+   "Title": "Reactive Oxygen Species and ETC ",
+   "Link": "zrwhSkeZceg"
+ },
+ {
+   "Title": "Structure of ATP Synthase",
+   "Link": "kio0RTl2FSM"
+ },
+ {
+   "Title": "Mechanism of ATP Synthase ",
+   "Link": "IHCzJjm0b1M"
+ },
+ {
+   "Title": "Proton Movement in ATP Synthase ",
+   "Link": "Q7TESAewi5c"
+ },
+ {
+   "Title": "Glycerol 3-Phosphate Shuttle ",
+   "Link": "sglxi7I21-M"
+ },
+ {
+   "Title": "Malate Aspartate Shuttle ",
+   "Link": "nEj8b-sg4ps"
+ },
+ {
+   "Title": "ATP-ADP Translocase",
+   "Link": "bWATYDuUnLE"
+ },
+ {
+   "Title": "ATP Yield of Aerobic Cell Respiration ",
+   "Link": "i0oYOcXsIBE"
+ },
+ {
+   "Title": "Introduction to Pentose Phosphate Pathway",
+   "Link": "nkTDi2WIm4w"
+ },
+ {
+   "Title": "Oxidative Phase of Pentose Phosphate Pathway ",
+   "Link": "nMWmmJLEI9I"
+ },
+ {
+   "Title": "Nonoxidative Phase of Pentose Phosphate Pathway ",
+   "Link": "dWwXvo2vpBc"
+ },
+ {
+   "Title": "Mechanism of Transaldolase ",
+   "Link": "Ei84u509zrA"
+ },
+ {
+   "Title": "Mechanism of Transketolase ",
+   "Link": "Q2w_gRwmQM8"
+ },
+ {
+   "Title": "Interplay of Glycolysis and Pentose Phosphate Pathway ",
+   "Link": "asgGTwYkS9Q"
+ },
+ {
+   "Title": "Introduction to Glycogen ",
+   "Link": "kei2AmB3sfw"
+ },
+ {
+   "Title": "Glycogen Breakdown ",
+   "Link": "Y1nSZA-A7f8"
+ },
+ {
+   "Title": "Regulating Glycogen Breakdown in Muscle ",
+   "Link": "W11XV-_tI04"
+ },
+ {
+   "Title": "Regulating Glycogen Breakdown in Liver ",
+   "Link": "wHRYT86Efr0"
+ },
+ {
+   "Title": "Activation of Phosphorylase Kinase ",
+   "Link": "BI86QnvROYM"
+ },
+ {
+   "Title": "Glucagon Signal Pathway ",
+   "Link": "DcIEEiGLtVU"
+ },
+ {
+   "Title": "Termination of Glycogen Breakdown ",
+   "Link": "QM2W_KPlbX0"
+ },
+ {
+   "Title": "UDP-Glucose and Glycogen Elongation ",
+   "Link": "2ezIyIt6Wyo"
+ },
+ {
+   "Title": "Branching of Glycogen",
+   "Link": "hejzJ03kZ9E"
+ },
+ {
+   "Title": "Overview of Gluconeogenesis ",
+   "Link": "3FHKw2aS_Z0"
+ },
+ {
+   "Title": "Glycogen Synthase Regulation ",
+   "Link": "3jqxLodarME"
+ },
+ {
+   "Title": "Reciprocal Regulation of Glycogen Metabolism",
+   "Link": "pYrbLjgqdTY"
+ },
+ {
+   "Title": "Insulin and Glucose Regulation of Glycogenesis ",
+   "Link": "t12pXyMg7NQ"
+ },
+ {
+   "Title": "Introduction to Fatty Acid Metabolism",
+   "Link": "0M7PH3Mro5Y"
+ },
+ {
+   "Title": "Triglycerides ",
+   "Link": "TVzJqpzoqDM"
+ },
+ {
+   "Title": "Mobilization of Triglycerides in Adipose Cells ",
+   "Link": "yFqyVA_I2N0"
+ },
+ {
+   "Title": "Activation of Fatty Acids ",
+   "Link": "3lr2uxBb_iw"
+ },
+ {
+   "Title": "Oxidation of Fatty Acids ",
+   "Link": "gQYCCiGe9bo"
+ },
+ {
+   "Title": "ATP yield in Fatty acid oxidation",
+   "Link": "w6V9RFs9NGk"
+ },
+ {
+   "Title": "Oxidation of Unsaturated fatty acids ",
+   "Link": "oE0KQnQf3Q4"
+ },
+ {
+   "Title": "Oxidation of Odd chain fatty acids ",
+   "Link": "dhW6b7XjlZs"
+ },
+ {
+   "Title": "Peroxisomal oxidation of fatty acids ",
+   "Link": "_P2P7R_pcH4"
+ },
+ {
+   "Title": "Ketogenesis ",
+   "Link": "dbno1Aa-E_4"
+ },
+ {
+   "Title": "Diabetic Ketoacidosis ",
+   "Link": "LwLWo6kUst4"
+ },
+ {
+   "Title": "Introduction to Fatty Acid Synthesis ",
+   "Link": "t4D5_du3Of8"
+ },
+ {
+   "Title": "Initiation of Fatty Acid Synthesis",
+   "Link": "6W5dntsodvo"
+ },
+ {
+   "Title": "Fatty Acid Synthesis ",
+   "Link": "4VNKyf34xmI"
+ },
+ {
+   "Title": "Fatty Acid Synthesis Part II ",
+   "Link": "pa4rHm2eOlM"
+ },
+ {
+   "Title": "Introduction to Amino Acid Metabolism ",
+   "Link": "p8YWfhQPuoE"
+ },
+ {
+   "Title": "Ubiquitination of Proteins ",
+   "Link": "ao5DJ4q2DsA"
+ },
+ {
+   "Title": "Proteasome Complex",
+   "Link": "T2oYG_yxKS0"
+ },
+ {
+   "Title": "Deamination of Amino Acids ",
+   "Link": "c_-lwMgBsDE"
+ },
+ {
+   "Title": "Glucose-alanine cycle ",
+   "Link": "V9CSKTFyaYw"
+ },
+ {
+   "Title": "Urea cycle ",
+   "Link": "VtDtG58ETLQ"
+ },
+ {
+   "Title": "Defects in Urea cycle and hyperammonemia ",
+   "Link": "y7ZPAc_pS0I"
+ },
+ {
+   "Title": "Introduction to glucogenic and ketogenic amino acids ",
+   "Link": "p7Ss0yGf84U"
+ },
+ {
+   "Title": "Metabolism of amino acids to pyruvate ",
+   "Link": "TV1gzWHov8Y"
+ },
+ {
+   "Title": "Metabolism of amino acids to ketoglutarate ",
+   "Link": "02gUohKpZnE"
+ },
+ {
+   "Title": "Metabolism of Methionine",
+   "Link": "rehxEfZHkU0"
+ },
+ {
+   "Title": "Metabolism of phenylalanine and tyrosine",
+   "Link": "sOUVczoOCIo"
+ },
+ {
+   "Title": "Alcaptonuria ",
+   "Link": "9Sssjfr5XNQ"
+ },
+ {
+   "Title": "Alcaptonuria  Part 2",
+   "Link": "n7Uec8Jtr4E"
+ },
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+   "Link": ""
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