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Chapter 1 - Introduction: Evolution And The Foundations Of BiologyChapter 1.1 - The Study Of Life Reveals Common ThemesChapter 1.2 - The Core Theme: Evolution Accounts For The Unity And Diversity Of LifeChapter 1.3 - In Studying Nature, Scientists Form And Test HypothesesChapter 2 - The Chemical Context Of LifeChapter 2.1 - Matter Consists Of Chemical Elements In Pure Form And In Combinations Called CompoundsChapter 2.2 - An Element's Properties Depend On The Structure Of Its AtomsChapter 2.3 - The Formation And Function Of Molecules Depend On Chemical Bonding Between AtomsChapter 2.4 - Chemical Reactions Make And Break Chemical BondsChapter 2.5 - Hydrogen Bonding Gives Water Properties That Help Make Life Possible On Earth
Chapter 3 - Carbon And The Molecular Diversity Of LifeChapter 3.1 - Carbon Atoms Form Diverse Molecules By Bonding To Four Other AtomsChapter 3.2 - Macromolecules Are Polymers, Built From MonomersChapter 3.3 - Carbohydrates Serve As Fuel And Building MaterialChapter 3.4 - Lipids Are A Diverse Group Of Hydrophobic MoleculesChapter 3.5 - Proteins Include A Diversity Of Structures, Resulting In A Wide Range Of FunctionsChapter 3.6 - Nucleic Acids Store, Transmit, And Help Express Hereditary InformationChapter 3.7 - Genomics And Proteomics Have Transformed Biological Inquiry And ApplicationsChapter 4 - A Tour Of The CellChapter 4.1 - Biologists Use Microscopes And The Tools Of Biochemistry To Study CellsChapter 4.2 - Eukaryotic Cells Have Internal Membranes That Compartmentalize Their FunctionsChapter 4.3 - The Eukaryotic Cell's Genetic Instructions Are Housed In The Nucleus And Carried Out By The RibosomesChapter 4.4 - The Endomembrane System Regulates Protein Traffic And Performs Metabolic Functions In The CellChapter 4.5 - Mitochondria And Chloroplasts Change Energy From One Form To AnotherChapter 4.6 - The Cytoskeleton Is A Network Of Fibers That Organizes Structures And Activities In The CellChapter 4.7 - Extracellular Components And Connections Between Calls Help Coordinate Cellular ActivitiesChapter 5 - Membrane Transport And Cell SignallingChapter 5.1 - Cellular Membranes Are Fluid Mosaics Of Lipids And ProteinsChapter 5.2 - Membrane Structure Results In Selective PermeabilityChapter 5.3 - Passive Transport Is Diffusion Of A Substance Across A Membrane With No Energy InvestmentChapter 5.4 - Active Transport Uses Energy To Move Solutes Against Their GradientsChapter 5.5 - Bulk Transport Across The Plasma Membrane Occurs By Exocytosis End EndocytosisChapter 5.6 - The Plasma Membrane Plays A Key Role In Most Cell SignalingChapter 6 - An Introduction To MetabolismChapter 6.1 - An Organism's Metabolism Transforms Matter And EnergyChapter 6.2 - The Free-energy Change Of A Reaction Tells Us Whether Or Not The Reaction Occurs SpontaneouslyChapter 6.3 - Atp Powers Cellular Work By Coupling Exergonic Reactions To Endergonic ReactionsChapter 6.4 - Enzymes Speed Up Metabolic Reactions By Lowering Energy BarriersChapter 6.5 - Regulation Of Enzyme Activity Helps Control MetabolismChapter 7 - Cellular Respiration And FermentationChapter 7.1 - Catabolic Pathways Yield Energy By Oxidizing Organic FuelsChapter 7.2 - Glycolysis Harvests Chemical Energy By Oxidizing Glucose To PyruvateChapter 7.3 - After Pyruvate Is Oxidized, The Citric Acid Cycle Completes The Energy-yielding Oxidation Of Organic MoleculesChapter 7.4 - During Oxidative Phosphorylation, Chemiosmosis Couples Electron Transport To Atp SynthesisChapter 7.5 - Fermentation And Anaerobic Respiration Enable Cells To Produce Atp Without The Use Of OxygenChapter 7.6 - Glycolysis And The Citric Acid Cycle Connect To Many Other Metabolic PathwaysChapter 8 - PhotosynthesisChapter 8.1 - Photosynthesis Converts Light Energy To The Chemical Energy Of FoodChapter 8.2 - The Light Reactions Convert Solar Energy To The Chemical Energy Of Atp And NadphChapter 8.3 - The Calvin Cycle Uses The Chemical Energy Of Atp And Nadph To Reduce Co2 To SugarChapter 9 - The Cell CycleChapter 9.1 - Most Cell Division Results In Genetically Identical Daughter CellsChapter 9.2 - The Mitotic Phase Alternates With Interphase In The Cell CycleChapter 9.3 - The Eukaryotic Cell Cycle Is Regulated By A Molecular Control SystemChapter 10 - Meosis And Sexual Life CyclesChapter 10.1 - Offspring Acquire Genes From Parents By Inheriting ChromosomesChapter 10.2 - Fertilization And Meiosis Alternate In Sexual Life CycleChapter 10.3 - Meiosis Reduces The Number Of Chromosome Sets From Diploid To HaploidChapter 10.4 - Genetic Variation Produced In Sexual Life Cycles Contributes To EvolutionChapter 11 - Mendel And The Gene IdeaChapter 11.1 - Mendel Used The Scientific Approach To Identify Two Laws Of InheritanceChapter 11.2 - Probability Laws Govern Mendelian InheritanceChapter 11.3 - Inheritance Patterns Are Often More Complex Than Predicted By Simple Mendelian GeneticsChapter 11.4 - Many Human Traits Follow Mendelian Patterns Of InheritanceChapter 12 - The Chromosomal Basis Of InheritenceChapter 12.1 - Morgan Showed That Mendelian Inheritance Has Its Physical Basis In The Behavior Of Chromosomes: Scientific InquiryChapter 12.2 - Sex-linked Genes Exhibit Unique Patterns Of InheritanceChapter 12.3 - Linked Genes Tend To Be Inherited Together Because They Are Located Near Each Other On The Same ChromosomeChapter 12.4 - Alterations Of Chromosome Number Or Structure Cause Some Genetic DisordersChapter 13 - The Molecular Basis Of InheritenceChapter 13.1 - Dna Is The Genetic MaterialChapter 13.2 - Many Proteins Work Together In Dna Replication And RepairChapter 13.3 - A Chromosome Consists Of A Dna Molecule Packed Together With ProteinsChapter 13.4 - Understanding Dna Structure And Replication Makes Genetic Engineering PossibleChapter 14 - Gene Expression: From Gene To ProteinChapter 14.1 - Genes Specify Proteins Via Transcription And TranslationChapter 14.2 - Transcription Is The Dna-directed Synthesis Of Rna: A Closer LookChapter 14.3 - Eukaryotic Cells Modify Rna After TranscriptionChapter 14.4 - Translation Is The Rna-directed Synthesis Of A Polypeptide: A Closer LookChapter 14.5 - Mutations Of One Or A Few Nucleotides Can Affect Protein Structure And FunctionChapter 15 - Regulation Of Gene ExpressionChapter 15.1 - Bacteria Often Respond To Environmental Change By Regulating TranscriptionChapter 15.2 - Eukaryotic Gene Expression Is Regulated At Many StagesChapter 15.3 - Noncoding Rnas Play Multiple Roles In Controlling Gene ExpressionChapter 15.4 - Researchers Can Monitor Expression Of Specific GenesChapter 16 - Development, Stem Cells, And CancerChapter 16.1 - A Program Of Differential Gene Expression Leads To The Different Cell Types In A Multicellular OrganismChapter 16.2 - Cloning Of Organisms Showed That Differentiated Cells Could Be "reprogrammed" And Ultimately Led To The Production Of Stem CellsChapter 16.3 - Abnormal Regulation Of Genes That Affect The Cell Cycle Can Lead To CancerChapter 17 - VirusesChapter 17.1 - A Virus Consists Of A Nucleic Acid Surrounded By A Protein CoatChapter 17.2 - Viruses Replicate Only In Host CellsChapter 17.3 - Viruses And Prions Are Formidable Pathogens In Animals And PlantsChapter 18 - Genomes And Their EvolutionChapter 18.1 - The Human Genome Project Fostered Development Of Faster, Less Expensive Sequencing TechniquesChapter 18.2 - Scientists Use Bioinformatics To Analyze Genomes And Their FunctionsChapter 18.3 - Genomes Vary In Size, Number Of Genes, And Gene DensityChapter 18.4 - Multicellular Eukaryotes Have Much Noncoding Dna And Many Multigene FamiliesChapter 18.5 - Duplication, Rearrangement, And Mutation Of Dna Contribute To Genome EvolutionChapter 18.6 - Comparing Genome Sequences Provides Clues To Evolution And DevelopmentChapter 19 - Descent With ModificationChapter 19.1 - The Darwinian Revolution Challenged Traditional Views Of A Young Earth Inhabited By Unchanging SpeciesChapter 19.2 - Descent With Modification By Natural Selection Explains The Adaptations Of Organisms And The Unity And Diversity Of LifeChapter 19.3 - Evolution Is Supported By An Overwhelming Amount Of Scientific EvidenceChapter 20 - PhylogenyChapter 20.1 - Phylogenies Show Evolutionary RelationshipsChapter 20.2 - Phylogenies Are Inferred From Morphological And Molecular DataChapter 20.3 - Shared Characters Are Used To Construct Phylogenetic TreesChapter 20.4 - Molecular Clocks Help Track Evolutionary TimeChapter 20.5 - New Information Continues To Revise Our Understanding Of Evolutionary HistoryChapter 21 - The Evolution Of PopulationsChapter 21.1 - Genetic Variation Makes Evolution PossibleChapter 21.2 - The Hardy-weinberg Equation Can Be Used To Test Whether A Population Is EvolvingChapter 21.3 - Natural Selection, Genetic Drift, And Gene Flow Can Alter Allele Frequencies In A PopulationChapter 21.4 - Natural Selection Is The Only Mechanism That Consistently Causes Adaptive EvolutionChapter 22 - The Origin Of SpeciesChapter 22.1 - The Biological Species Concept Emphasizes Reproductive IsolationChapter 22.2 - Speciation Can Take Place With Or Without Geographic SeparationChapter 22.3 - Hybrid Zones Reveal Factors That Cause Reproductive IsolationChapter 22.4 - Speciation Can Occur Rapidly Or Slowly And Can Result From Changes In Few Or Many GenesChapter 23 - Broad Patterns Of EvolutionChapter 23.1 - The Fossil Record Documents Life's HistoryChapter 23.2 - The Rise And Fall Of Groups Of Organisms Reflect Differences In Speciation And Extinction RatesChapter 23.3 - Major Changes In Body Form Can Result From Changes In The Sequences And Regulation Of Developmental GenesChapter 23.4 - Evolution Is Not Goal OrientedChapter 24 - Early Life And The Diversification Of ProkaryotesChapter 24.1 - Conditions On Early Earth Made The Origin Of Life PossibleChapter 24.2 - Diverse Structural And Metabolic Adaptations Have Evolved In ProkaryotesChapter 24.3 - Rapid Reproduction, Mutation, And Genetic Recombination Promote Genetic Diversity In ProkaryotesChapter 24.4 - Prokaryotes Have Radiated Into A Diverse Set Of LineagesChapter 24.5 - Prokaryotes Play Crucial Roles In The BiosphereChapter 25 - The Origin And Diversification Of EukaryotesChapter 25.1 - Eukaryotes Arose By Endosymbiosis More Than 1.8 Billion Years AgoChapter 25.2 - Multicellularity Has Originated Several Times In EukaryotesChapter 25.3 - Four "supergroups" Of Eukaryotes Have Been Proposed Based On Morphological And Molecular DataChapter 25.4 - Single-celled Eukaryotes Play Key Roles In Ecological Communities And Affect Human HealthChapter 26 - The Colonization Of LandChapter 26.1 - Fossils Show That Plants Colonized Land More Than 470 Million Years AgoChapter 26.2 - Though Not Closely Related To Plants, Fungi Played A Key Role In The Colonization Of LandChapter 26.3 - Early Plants Radiated Into A Diverse Set Of LineagesChapter 26.4 - Seeds And Pollen Grains Are Key Adaptations For Life On LandChapter 26.5 - Plants And Fungi Fundamentally Changed Chemical Cycling And Biotic InteractionsChapter 27 - The Rise Of Animal DiversityChapter 27.1 - Animals Originated More Than 700 Million Years AgoChapter 27.2 - The Diversity Of Large Animals Increased Dramatically During The "cambrian Explosion"Chapter 27.3 - Diverse Animal Groups Radiated In Aquatic EnvironmentsChapter 27.4 - Vertebrates Have Been The Ocean's Dominant Predators For More Than 400 Million YearsChapter 27.5 - Several Animal Groups Had Features Facilitating Their Colonization Of LandChapter 27.6 - Amniotes Have Key Adaptations For Life In A Wide Range Of Terrestrial EnvironmentsChapter 27.7 - Animals Have Transfonned Ecosystems And Altered The Course Of EvolutionChapter 28 - Plant Structure And GrowthChapter 28.1 - Plants Have A Hierarchical Organization Consisting Of Organs, Tlssues, And CellsChapter 28.2 - Different Meristems Generate New Cells For Primary And Secondary GrowthChapter 28.3 - Primary Growth Lengthens Roots And ShootsChapter 28.4 - Secondary Growth Increases The Diameter Of Stems And Roots In Woody PlantsChapter 29 - Resource Acquisition, Nutrition, And Transport In Vascular PlantsChapter 29.1 - Adaptations For Acquiring Resources Were Key Steps In The Evolution Of Vascular PlantsChapter 29.2 - Different Mechanisms Transport Substances Over Short Or Long DistancesChapter 29.3 - Plant Roots Absorb Essential Elements From The SoilChapter 29.4 - Plant Nutrition Often Involves Relationships With Other OrganismsChapter 29.5 - Transpiration Drives The Transport Of Water And Minerals From Root To Shoots Via The XytemChapter 29.6 - The Rate Of Transpiration Is Regulated By StomataChapter 29.7 - Sugars Are Transported From Sources To Sinks Via The PhloemChapter 30 - Reproduction And Domestication Of Flowering PlantsChapter 30.1 - Flowers, Double Fertilization, And Fruits Are Unique Features Of The Angiosperm Life CycleChapter 30.2 - Flowering Plants Reproduce Sexually, Asexually, Or BothChapter 30.3 - People Modify Crops Through Breeding And Genetic EngineeringChapter 31 - Plant Responses To Internal And External SignalsChapter 31.1 - Plant Hormones Help Coordinate Growth, Development, And Responses To StimuliChapter 31.2 - Responses To Light Are Critical For Plant SuccessChapter 31.3 - Plants Respond To A Wide Variety Of Stimuli Other Than LightChapter 31.4 - Plants Respond To Attacks By Herbivores And PathogensChapter 32 - The Internal Envirionment Of Animals: Organization And RegulationChapter 32.1 - Animal Form And Function Are Correlated At All Levels Of OrganizationChapter 32.2 - The Endocrine And Nervous Systems Act Individually And Together In Regulating Animal PhysiologyChapter 32.3 - Feedback Control Maintains The Internal Environment In Many AnimalsChapter 32.4 - A Shared System Mediates Osmoregulation And Excretion In Many AnimalsChapter 32.5 - The Mammalian Kidney's Ability To Conserve Water Is A Key Terrestrial AdaptationChapter 33 - Animal NutritionChapter 33.1 - An Animal's Diet Must Supply Chemical Energy, Organic Building Blocks, And Essential NutrientsChapter 33.2 - Food Processing Involves Ingestion, Digestion, Absorption, And EliminationChapter 33.3 - Organs Specialized For Sequential Stages Of Food Processing Form The Mammalian Digestive SystemChapter 33.4 - Evolutionary Adaptations Of Vertebrate Digestive Systems Correlate With DietChapter 33.5 - Feedback Circuits Regulate Digestion, Energy Allocation, And AppetiteChapter 34 - Circulation And Gas ExchangeChapter 34.1 - Circulatory Systems Link Exchange Surfaces With Cells Throughout The BodyChapter 34.2 - Coordinated Cycles Of Heart Contraction Drive Double Circulation In MammalsChapter 34.3 - Patterns Of Blood Pressure And Flow Reflect The Structure And Arrangement Of Blood VesselsChapter 34.4 - Blood Components Function In Exchange, Transport, And DefenseChapter 34.5 - Gas Exchange Occurs Across Specialized Respiratory SurfacesChapter 34.6 - Breathing Ventilates The LungsChapter 34.7 - Adaptations For Gas Exchange Include Pigments That Bind And Transport GasesChapter 35 - The Immune SystemChapter 35.1 - In Innate Immunity, Recognition And Response Rely On Traits Common To Groups Of PathogensChapter 35.2 - In Adaptive Immunity, Receptors Provide Pathogen-specific RecognitionChapter 35.3 - Adaptive Immunity Defends Against Infection Of Body Fluids And Body CellsChapter 36 - Reproduction And DevelopmentChapter 36.1 - Both Asexual And Sexual Reproduction Occur In The Animal KingdomChapter 36.2 - Reproductive Organs Produce And Transport GametesChapter 36.3 - The Interplay Of Tropic And Sex Hormones Regulates Reproduction In MammalsChapter 36.4 - Development Of An Egg Into A Mature Embryo Requires Fertilization, Cleavage, Gastrulation, And OrganogenesisChapter 37 - Neurons, Synapses, And SignalingChapter 37.1 - Neuron Structure And Organization Reflect Function In Information TransferChapter 37.2 - Ion Pumps And Ion Channels Establish The Resting Potential Of A NeuronChapter 37.3 - Action Potentials Are The Signals Conducted By AxonsChapter 37.4 - Neurons Communicate With Other Cells At SynapsesChapter 38 - Nervous And Sensory SystemsChapter 38.1 - Nervous Systems Consist Of Circuits Of Neurons And Supporting CellsChapter 38.2 - The Vertebrate Brain Is Regionally SpecializedChapter 38.3 - The Cerebral Cortex Controls Voluntary Movement And Cognitive FunctionsChapter 38.4 - Sensory Receptors Transduce Stimulus Energy And Transmit Signals To The Central Nervous SystemChapter 38.5 - In Hearing And Equilibrium, Mechanoreceptors Detect Moving Fluid Or Settling ParticlesChapter 38.6 - The Diverse Visual Receptors Of Animals Depend On Light-absorbing PigmentsChapter 39 - Motor Mechanisms And BehaviorChapter 39.1 - The Physical Interaction Of Protein Filaments Is Required For Muscle FunctionChapter 39.2 - Skeletal Systems Transform Muscle Contraction Into LocomotionChapter 39.3 - Discrete Sensory Inputs Can Stimulate Both Simple And Complex BehaviorsChapter 39.4 - Learning Establishes Specific Links Between Experience And BehaviorChapter 39.5 - Selection For Individual Survival And Reproductive Success Can Explain Diverse BehaviorsChapter 39.6 - Genetic Analyses And The Concept Of Inclusive Fitness Provide A Basis For Studying The Evolution Of BehaviorChapter 40 - Population Ecology And The Distribution Of OrganismsChapter 40.1 - Earth's Climate Influences The Distribution Of Terrestrial BiomesChapter 40.2 - Aquatic Biomes Are Diverse And Dynamic Systems That Cover Most Of EarthChapter 40.3 - Interactions Between Organisms And The Environment Limit The Distribution Of SpeciesChapter 40.4 - Biotic And Abiotic Factors Affect Population Density, Dispersion, And DemographicsChapter 40.5 - The Exponential And Logistic Models Describe The Growth Of PopulationsChapter 40.6 - Population Dynamics Are Influenced Strongly By Life History Traits And Population DensityChapter 41 - Species InteractionsChapter 41.1 - Interactions Within A Community May Help, Harm, Or Have No Effect On The Species InvolvedChapter 41.2 - Diversity And Trophic Structure Characterize Biological CommunitiesChapter 41.3 - Disturbance Influences Species Diversity And CompositionChapter 41.4 - Biogeographic Factors Affect Community DiversityChapter 41.5 - Pathogens Alter Community Structure Locally And GloballyChapter 42 - Ecosystems And EnergyChapter 42.1 - Physical Laws Govern Energy Flow And Chemical Cycling In EcosystemsChapter 42.2 - Energy And Other Limiting Factors Control Primary Production In EcosystemsChapter 42.3 - Energy Transfer Between Trophic Levels Is Typically Only 10% EfficientChapter 42.4 - Biological And Geochemical Processes Cycle Nutrients And Water In EcosystemsChapter 42.5 - Restoration Ecologists Return Degraded Ecosystems To A More Natural StateChapter 43 - Global Ecology And Conversation BiologyChapter 43.1 - Human Activities Threaten Earth's BiodiversityChapter 43.2 - Population Conservation Focuses On Population Size, Genetic Diversity, And Critical HabitatChapter 43.3 - Landscape And Regional Conservation Help Sustain BiodiversityChapter 43.4 - Earth Is Changing Rapidly As A Result Of Human ActionsChapter 43.5 - The Human Population Is No Longer Growing Exponentially But Is Still Increasing RapidlyChapter 43.6 - Sustainable Development Can Improve Human Lives While Conserving Biodiversity
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Chapter 1, Problem 1TYUChapter 2, Problem 1TYUReason for the correct statement: Structural isomers are the ones that differ in their covalent...Chapter 4, Problem 1TYUChapter 5, Problem 1TYUChapter 6, Problem 1TYUChapter 7, Problem 1TYUChapter 8, Problem 1TYUChapter 9, Problem 1TYU
Chapter 10, Problem 1TYUChapter 11, Problem 1TYUChapter 12, Problem 1TYUChapter 13, Problem 1TYUChapter 14, Problem 1TYUChapter 15, Problem 1TYUChapter 16, Problem 1TYUChapter 17, Problem 1TYUReason for the correct statement: Genetic engineering uses the DNA based technology to combine DNA...Chapter 19, Problem 1TYUChapter 20, Problem 1TYUChapter 21, Problem 1TYUChapter 22, Problem 1TYUChapter 23, Problem 1TYUChapter 24, Problem 1TYUChapter 25, Problem 1TYUReason for the correct statement: Fungi cannot synthesize their own food with the help of solar...Reason for the correct statement: The division of body into two equal halves and presence of three...Chapter 28, Problem 1TYUChapter 29, Problem 1TYUChapter 30, Problem 1TYUChapter 31, Problem 1TYUChapter 32, Problem 1TYUChapter 33, Problem 1TYUChapter 34, Problem 1TYUReason for the correct statement: The natural killer cells are not produced in the in case of the...Reason for the correct statement: Parthenogenesis is observed in lower plants and animals. The egg...Chapter 37, Problem 1TYUChapter 38, Problem 1TYUChapter 39, Problem 1TYUChapter 40, Problem 1TYUChapter 41, Problem 1TYUReasons for the correct statement: Zooplanktons are a group of organisms and are detritivore in...Chapter 43, Problem 1TYU
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