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All Educational Materials for BIOL 112 at University of British Columbia (UBC)

UBCBIOL 112Karen SmithWinter

BIOL 112- Final Exam Guide - Comprehensive Notes for the exam ( 48 pages long!)

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This determines the effects of that variable: a theor(cid:455) is dra(cid:449)(cid:374) fro(cid:373) a (cid:272)o(cid:374)ti(cid:374)uousl(cid:455) sup
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UBCBIOL 112Heather DenrocheWinter

[BIOL 112] - Final Exam Guide - Ultimate 23 pages long Study Guide!

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UBCBIOL 112Karen SmithWinter

[BIOL 112] - Final Exam Guide - Ultimate 63 pages long Study Guide!

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Deoxyribonucleic acid (dna) : a linear polymer of four different subunits. Dna molecules from all cells and organism are very similar in shape (three d
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UBCBIOL 112Maryam MoussaviWinter

[BIOL 112] - Final Exam Guide - Comprehensive Notes for the exam (68 pages long!)

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A cell is the smallest fundamental unit of living organisms. It is the simplest entity that can exist as an independent unit of life. Essential propert
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UBCBIOL 112Marcia GravesWinter

[BIOL 112] - Final Exam Guide - Everything you need to know! (89 pages long)

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Summarize the cell theory and list and evaluate the characteristics that define cells as the sma. Discuss diversity in cell size, structures; cells as
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UBCBIOL 112Karen SmithFall

[BIOL 112] - Final Exam Guide - Ultimate 55 pages long Study Guide!

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Peptide bonds (between the carboxyl group and the amine group) Has a -cooh group, an -nh2 group, an h, and an r group (side chain) all surrounding an.
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UBCBIOL 112Karen SmithFall

BIOL 112 Study Guide - Comprehensive Midterm Guide: London Dispersion Force, Antonie Van Leeuwenhoek, Fluid Mosaic Model

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Peptide bonds (between the carboxyl group and the amine group) Has a -cooh group, an -nh2 group, an h, and an r group (side chain) all surrounding an.
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UBCBIOL 112Karen SmithFall

BIOL 112 Study Guide - Fall 2018, Comprehensive Midterm Notes -

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UBCBIOL 112Karen SmithFall

BIOL 112 Study Guide - Fall 2018, Comprehensive Midterm Notes -

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UBCBIOL 112Jared L. TaylorSummer

BIOL 112 Study Guide - Midterm Guide: Microtubule, Electrochemical Gradient, Peptide

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The cell is the basic unit of life. Central dogma the theory that information transfer in a cell usually goes from dna to rna to protein. prokaryote nu
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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 38: Overview of Cellular Respiration, Fermentation

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 36: DNP diet pills

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 37: Photosynthesis

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 35: Citric Acid Cycle and Oxidative Phosphorylation

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 34: Substrate Level Phosphorylation

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 33: Metabolism (cont’d) - Redox Reactions

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 32: DNA Replication (cont’d), Introduction to Metabolism and Cellular Respiration

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 31: DNA Replication

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 25: Polymerase Chain Reaction (PCR)

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 24: Approach to Solve New Operons

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 23: Mal Operon

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UBCBIOL 112Karen SmithFall

BIOL 112 Study Guide - Fall 2018, Comprehensive Midterm Notes -

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UBCBIOL 112Karen SmithFall

BIOL 112 Study Guide - Fall 2018, Comprehensive Midterm Notes -

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 22: Midterm 2 Review

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 21: Lac Operon Review and DNA Mutation

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 20: Electron Micrographs, Gene Expression Regulation, Operons

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 19: Translation

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 18: mRNA Processing and Intro to Translation

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 17: Finishing Mechanisms of Transcription (in Prokaryotes and Eukaryotes)

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 16: Mechanism of Transcription

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 14: DNA - Important Concepts

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 13: Unit 2 - Nucleic Acids

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 12: Enzymes

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 11: Finishing Proteins

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 10: Protein Levels Of Structure & Bond Interactions

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 8: Lipids: Membrane Selective Permeability & Transport Across Membrane

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 9: Proteins: An Introduction

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 7: Lipids: The Hydrophobic Effect & Thermodynamics

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 6: Lipids: Properties and Non-Covalent Interactions

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 5: Bonding

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 4: BIOL112: Macromolecules and its functional groups, chemical properties, etc.

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 3: BIOL112: Cell Size and Introduction to Macromolecules

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UBCBIOL 112SAMUELS, ANNE LACEYWinter

BIOL 112 Lecture 9: DNA

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UBCBIOL 112SAMUELS, ANNE LACEYWinter

BIOL 112 Lecture 8: Nucleic Acids

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UBCBIOL 112SAMUELS, ANNE LACEYWinter

BIOL 112 Lecture Notes - Lecture 7: Covalent Bond, Enzyme

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2 fqqfupq f he environment of a protein will determine it "s folding fvwwqofecukwc assembly of. Negatively charged charged positively amino acids can c
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UBCBIOL 112SAMUELS, ANNE LACEYWinter

BIOL 112 Lecture Notes - Lecture 6: Electrochemical Gradient, Sodium-Glucose Transport Proteins, Cytoskeleton

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Atpase creates a sodium gradient outside of the cell. 2 couples this downhill movement uphill movement of. 22/01/2019 kt@baod. eeeii. d reactions } [ g
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UBCBIOL 112SAMUELS, ANNE LACEYWinter

BIOL 112 Lecture 5: Lipids and Membranes

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UBCBIOL 112SAMUELS, ANNE LACEYWinter

BIOL 112 Lecture 4: Lipids – Phospholipids, Membrane Structure, and Membrane Self Assembly

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Non covalent interaction in which a fatty acid tail interacts with water. Model provide permeability and fluidity barrier o membranes are made up of ph
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UBCBIOL 112SAMUELS, ANNE LACEYWinter

BIOL 112 Lecture Notes - Lecture 3: Lipid Bilayer, Intermolecular Force, Hydrogen Bond

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Macromolecules ( lipids , proteins , carbohydrates ) o introduction to macromolecules. Big cell molecular assemblies due to non covalent linked by inte
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UBCBIOL 112SAMUELS, ANNE LACEYWinter

BIOL 112 Lecture Notes - Lecture 2: Electron Microscope, Symbiosis, Phagocytosis

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UBCBIOL 112SAMUELS, ANNE LACEYWinter

BIOL 112 Lecture Notes - Lecture 1: Aaa Battery, Yogurt

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UBCBIOL 112Megan BarkerFall

BIOL 112 Final: Complete and Comprehensive 62 Page Final Exam Study Guide Fall 2015

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 34: Atp Synthase, Light-Independent Reactions, Photosynthesis

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 33: Atp Synthase, Citric Acid Cycle, Mitochondrial Matrix

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 32: Electron Transport Chain, Mitochondrial Matrix, Intermembrane Space

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 31: Citric Acid Cycle, Organic Compound, Nicotinamide Adenine Dinucleotide

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 30: Pyruvic Acid, Pyruvate Dehydrogenase, Phosphorylation

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 29: Galactose, Citric Acid Cycle, Glycolysis

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 28: Avocado, Catabolism, Bacon

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 27: Galactose, Chemical Energy, Synthetic Biology

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 26: Galactose, Operon, Conformational Change

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 25: Lactose Permease, Operon, Maltose

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 24: Ribosome-Binding Site, Conformational Change, Genetic Code

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True or false: all exons are removed leads to specialization. Other ways to process mrna besides splicing. Same genome in each cell- must be able to tu
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 23: Nucleosome, Tata Box, Spliceosome

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 22: Aminoacyl-Trna, Stop Codon, Cystine

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 21: Stop Codon, Start Codon, Consensus Sequence

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 20: Protein Structure, Covalent Bond, Base Pair

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 18: Dna Replication, Nitrogenous Base, Exonuclease

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 19: Ribosome-Binding Site, Start Codon, Chromosome

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 17: Dna Replication, Telomerase, Phosphodiester Bond

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 16: Okazaki Fragments, Meiosis, Helicase

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 15: Mutation, Genome Size, Intron

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Biol112 - lecture #15- organization of genetic info. Genes- stretches of dna that codes for proteins. Genome contains other things that act as the inst
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 14: Phosphodiester Bond, Deoxyribose, Pyrimidine

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 13: Competitive Inhibition, Conformational Change, Reaction Rate

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 12: Hexokinase, Activation Energy, Conformational Change

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 11: Hydrophile, Enthalpy, Mutation

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Side chains on amino acids that make up the protein. Does not require the input of energy. Many pathways to get from original unstable molecule to fina
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 10: Macromolecular Assembly, Facilitated Diffusion, Polymerization

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 9: Facilitated Diffusion, Active Transport, Membrane Protein

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Releases water- entropically driven, water becomes more motionally free. Na+- charged, can"t get through the hydrophobic, non polar membrane. Can think
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 9: Active Transport, Facilitated Diffusion

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Releases water- entropically driven, water becomes more motionally free. Na+- charged, can"t get through the hydrophobic, non polar membrane. Can think
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 8: Lipid Bilayer, Thermodynamics

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Biol112 - lecture #8 - thermodynamics and membrane formation. From reactant being more motionally free, stronger and more bond the product being less m
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 7: Non-Covalent Interactions, Nitrogenous Base, Partial Charge

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Biol112 - lecture #7 - bonding and thermodynamics. Between the carbons in the dna (permanent positive dipole) and the oxygen in the water (permanent ne
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 6: Peptide, Glycerol, Chemical Polarity

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Biol112 - lecture #6 - macromolecules and polarity. Out of proteins, carbs, lipids, nucleic acids. Their monomers have a different structure (3 fatty a
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 5: Microbiological Culture, Growth Medium, Monosaccharide

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 3: Probiotic, Homeostasis, Active Transport

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture 4: Bacterial Cells

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 2: Cell Membrane, Cell Theory, Cytoskeleton

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UBCBIOL 112Megan BarkerFall

BIOL 112 - Biology of the Cell - FINAL EXAM STUDY GUIDE.pdf

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 26: Coupling Reaction, Exergonic Reaction, Endergonic Reaction

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Biol 112 - biology of the cell - chapter 3 (lecture 26): Metabolism consists of anabolic and catabolic reactions. Anabolic process breaks down atp and
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 25: Horse Length, Chemical Energy, Radiant Energy

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UBCBIOL 112Megan BarkerFall

BIOL 112 - Biology of the Cell - Lecture 27: Mechanism of ATP Production in Cells (Phosphorylation) Cellular respiration overview NADH, NADH2, and FADH2 as High Energy Molecules Intermediates/Electron Carriers Reactions of Glycolysis: Inputs and Outputs

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 28: Pyruvic Acid, Skeletal Muscle, Ethanol Fermentation

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Biol 112 - biology of the cell - lecture 28: Pyruvate processing and citric acid cycle: its inputs and output. Without oxygen, pyruvates produced by gl
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 24: Tata Box, Galactose, Eukaryote

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Biol 112 - biology of the cell - chapter 19 (lecture 24): Bacteria: functionally related genes are grouped together. Related genes are scattered across
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UBCBIOL 112Megan BarkerFall

BIOL 112 - Biology of the Cell - Chapter 19 (Lecture 22): Positive and Negative Regulation APOG The Boo Operator Genetic Analysis of the Lac Operon

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Biol 112 - biology of the cell - chapter 19 (lecture 22): Genetic regulations are often studies in bacteria because prokaryotes are simplier to examine
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 21: Maltose, Environmental Law

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 20: Wild Type, Frameshift Mutation, Protein Structure

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Biol 112 - biology of the cell - lecture 20 (chapter 14): dna mutations and phenotypes. Promoter initiates transcription, which ends with terminator. T
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UBCBIOL 112Megan BarkerFall

BIOL 112 - Biology of the Cell - Lecture 16: DNA Replication Wrap-Up Extending Ends of Chromosomes Replication Errors and Mutation

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 15: Okazaki Fragments, Dna Replication

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Biol 112 - biology of the cell - lecture 15: pcr (polymerase chain reaction) and dna. Primers can help determine and locate segments of dna strands (wh
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UBCBIOL 112Megan BarkerFall

BIOL 112 - Biology of the Cell - Lecture 18 (Chapter 19): Transcription (Part II)

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Biol 112 - biology of the cell - lecture 18 (chapter 19): transcription (part ii) Sequences at the two ends of a gene instruct the proteins to read it.
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 17: Xist (Gene), Cpg Site

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Biol 112 - biology of the cell - lecture 17 (chapter 19): transcription. Hundreds of genes contribute to the production of one trait. Answer: this is c
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 14: Polymerase Chain Reaction, Dna Replication, Pyrimidine

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UBCBIOL 112Megan BarkerFall

BIOL 112 - Biology of the Cell - Lecture 6: Membrane Transport

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 2: Archaea, Central Dogma Of Molecular Biology, Cell Theory

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Biol 112 - biology of the cell lecture 2: introduction to cells and organisms. Ability to replicate the information (enzymes and proteins) Mechanisms t
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 10: Protein Folding, Thermodynamics, Hydrogen Bond

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Biol 112: biology of the cell lecture 10: protein folding thermodynamics behind. Primary structure of proteins has covalent bonds between backbones: th
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 8: Turgor Pressure, Plant Cell, Facilitated Diffusion

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Biol 112 biology of the cell lecture 8: membrane transport practices. Hypertonic: solute concentration higher on the outside of cell. Hypotonic: solute
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UBCBIOL 112Megan BarkerFall

BIOL 112 - Biology of the Cell - Lecture 7: Thermodynamics for Biology Membrane Structure and Assembly How Cells Combat the Forces of Osmosis

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 5: Liposome, Cytoplasm, Micelle

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 3: Peptide Bond, Glycosidic Bond

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Biol 112 biology of the cell lecture 3: As the volume of cell increases, the ratio of surface area/volume ratio decreases, meaning cell may not obtain
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UBCBIOL 112Megan BarkerFall

BIOL 112 - Biology of the Cell - Lecture 12: Enzymes

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Biol 112 - biology of the cell - lecture 12: enzymes. Describe in general terms how enzymes can increase reaction rates. Contrast the progress curve of
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 11: Protein Structure, Melting Point

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Biol 112 biology of the cell lecture 11: protein practice. Ability of water molecules to move to maximum motional freedom (t s) forces the hydrophobic
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 4: Exponential Growth

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 9: Covalent Bond, Hydrogen Atom, Kinesin

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Biol 112 biology of the cell lecture 9: Proteins are diverse in types of structure. Proteins are formed from amino acid monomers. Amino acid type (dete
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UBCBIOL 112Megan BarkerFall

BIOL 112 Study Guide - Midterm Guide: Active Transport, Phospholipid, Micelle

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Biol 112 biology of the cell review session for mid-term 1. Temperature raise will lead to faster simple and facilitated diffusion. Temperature change
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UBCBIOL 112Megan BarkerFall

BIOL 112 - Biology of the Cell - Lecture 1: Introductions and General Course Information and Self-Replicating Thing Activity

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 13: Base Pair, Nucleoid, Polyploid

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Biol 112 biology of the cell lecture 13: genomes. Genome: all the genetic content passed from parents to offspring including: cellular forms of life, k
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UBCBIOL 112Marcia GravesWinter

BIOL 112 Lecture Notes - Lecture 4: Phosphatidylcholine, Thermodynamic System, Biological Membrane

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Predict which non-covalent interactions will likely form when phospholipids are mixed with w. Predict which structures that will form when different ki
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UBCBIOL 112Megan BarkerFall

BIOL 112 - Biology of the Cell - Lecture 1: Introductions and General Course Information and Self-Replicating Thing Activity

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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 28: Pyruvic Acid, Skeletal Muscle, Ethanol Fermentation

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Biol 112 - biology of the cell - lecture 28: Pyruvate processing and citric acid cycle: its inputs and output. Without oxygen, pyruvates produced by gl
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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture 38: Overview of Cellular Respiration, Fermentation

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UBCBIOL 112Marcia GravesFall

BIOL 112 Lecture Notes - Lecture 7: Positio, Adenine, Chemical Energy

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All cells convert energy to adenosine triphosphate (atp) that can be easily used to drive cellular processes: atp contains energy in its chemical bonds
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UBCBIOL 112Megan BarkerFall

BIOL 112 Lecture Notes - Lecture 17: Xist (Gene), Cpg Site

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Biol 112 - biology of the cell - lecture 17 (chapter 19): transcription. Hundreds of genes contribute to the production of one trait. Answer: this is c
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UBCBIOL 112Maryam MoussaviWinter

BIOL 112 Lecture Notes - Lecture 32: Liberation Tigers Of Tamil Eelam, Joule

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UBCBIOL 112Karen SmithFall

BIOL 112 Lecture Notes - Lecture 1: Central Dogma Of Molecular Biology, Cell Theory, Cell Nucleus

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This topic provides a general introduction to cells as the basic unit of life, their structure, diversity and the evolutionary relationship of all livi
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UBCBIOL 112Maryam MoussaviWinter

BIOL 112 Lecture Notes - Lecture 17: Ribosomal Rna

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UBCBIOL 112Maryam MoussaviWinter

BIOL 112 Lecture Notes - Lecture 34: Large Hadron Collider, Tcl

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UBCBIOL 112Karen SmithFall

BIOL 112 Chapter Notes - Chapter 1: Tryptophan, Isoleucine, Threonine

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UBCBIOL 112Lacey SamuelsSpring

BIOL 112 Chapter 1-4: BIOL 112 Chapter 1-4: BIOL112 Unit 1 Study Guide (Chemistry for Biology, General Cells, Lipids, Proteins)

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UBCBIOL 112Karen SmithFall

BIOL 112 Chapter Notes - Chapter 1, 26.1: Antonie Van Leeuwenhoek, National Technical Research Organisation, Adenosine Triphosphate

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The cell is to biologists what the atom is to physicists (and chemists) Essential parts of life are understood through cell structure: growth, reproduc
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UBCBIOL 112Maryam MoussaviWinter

BIOL 112 Chapter Notes - Chapter 7.2: Oxidative Phosphorylation, Endergonic Reaction, Pyruvic Acid

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Occurs in the cytosol (cytoplasm) of the cell. Glucose is partially oxidized to 2 pyruvates with the net product of 2 atp and 2. Atp is produced direct
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UBCBIOL 112Marcia GravesFall

BIOL 112 Chapter Notes - Chapter 7: Chlorophyll

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UBCBIOL 112Karen SmithWinter

BIOL 112 Chapter Notes - Chapter 2: Valence Electron, Atomic Number, Electronegativity

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UBCBIOL 112Maryam MoussaviWinter

BIOL 112 Chapter 4: Proteins – Structure and self-assembly

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The e(cid:454)a(cid:272)t order of a(cid:373)i(cid:374)o a(cid:272)ids i(cid:374) a protei(cid:374) deter(cid:373)i(cid:374)es the protei(cid:374)"s sh
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UBCBIOL 112Maryam MoussaviWinter

BIOL 112 Chapter 8: Photosynthesis

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Occurs among prokaryotic as well as eukaryotic organisms, on land as well as in the sea. Approximately 60% of global photosynthesis is carried out by t
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UBCBIOL 112Marcia GravesFall

BIOL 112 Chapter Notes - Chapter 12: Dna Replication

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UBCBIOL 112Maryam MoussaviWinter

BIOL 112 Chapter Notes - Chapter 7.3, 7.4: Intermembrane Space, Inner Membrane, Pyruvic Acid

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Pyruvate is oxidized in the mitochondrial matrix, forming acetyl-coa, the first substrate in the citric acid cycle. A key step that links glycolysis to
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