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Class Notes for BIO130H1 at University of Toronto St. George (UTSG)

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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Lecture Notes - Lecture 26: Spindle Apparatus, Cell Division, Kinetochore

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4 Apr 2019
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Metaphase: all chromosomes are aligned, on the metaphase plate, microtubules from opposite poles, are attached to kinetochores of sister chromatics, ki
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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Study Guide - Final Guide: Lipid Bilayer, Membrane Lipids, Signal Transduction

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1 Apr 2019
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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Lecture Notes - Lecture 25: Gene Duplication, G1 Phase, G2 Phase

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2 Apr 2019
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The cell cycle: m phase, the nucleus and cytoplasm divide, mitosis, cytokinesis. Interphase: period between cell divisions, g1 phase, normal metabolism
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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Lecture Notes - Lecture 24: Basal Lamina, Connective Tissue, Plant Cell

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28 Mar 2019
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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Lecture 23: Junctions

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26 Mar 2019
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Types of junctions: anchoring junctions, occluding junctions, channel-forming junctions, signal-relaying junctions. All present in epithelial cells (fi
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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Lecture Notes - Lecture 21: Fluorescence Microscope, Intermediate Filament, Electron Microscope

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21 Mar 2019
0
3 types of filaments form the cytoskeleton: microfilaments, made of actin, diameter: 5-9nm, look like two smaller filaments twisted around each other.
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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Lecture Notes - Lecture 1: Endoplasmic Reticulum, Endomembrane System, Bacteria

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21 Jan 2019
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UTSGBIO130H1Kenneth YipSpring

BIO130H1 Lecture Notes - Lecture 1: News1, Dna Replication, Cell Theory

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Prof melody neumann january 11th to february 25th. Prof ken yip - february 29th to april 7th. Prof melody neumann course and lab co-ordinator. Ms. nyla
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UTSGBIO130H1Kenneth YipSpring

BIO130H1 Lecture Notes - Lecture 9: Ribose, Cytoplasm, Chromosome

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Bio130 lecture 9 dna errors continued. In eukaryotes: post-polymerase error repair process, initiated by detection of distortion in the geometry of the
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UTSGBIO130H1Kenneth YipSpring

BIO130H1 Lecture Notes - Lecture 2: Archaea, Metabolome, Ribosomal Rna

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Bio130 lecture 2 cells and information flow. 19th and early 20th century approach late 20th and 21st century approach. General attributes of model orga
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UTSGBIO130H1Kenneth YipSpring

BIO130H1 Lecture Notes - Lecture 13: Saccharomyces Cerevisiae, Extracellular Matrix, Lysosome

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Bio130 lecture 13 cellular form and function. Identifying, synthesizing, developing, and studying new molecules that can be used as medications to trea
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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Lecture 2: Model Organisms, the Central Dogma & Nucleic Acids

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18 Jan 2019
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Tree of life: phylogenetic tree used to look at evolutionary relationships, constructed based on rna gene sequences, tree changes using different seque
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UTSGBIO130H1Kenneth YipSpring

BIO130H1 Lecture Notes - Lecture 6: Histone H2B, Nucleosome, Nuclear Membrane

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Phases include: interphase, prophase, prometaphase, metaphase, anaphase, telophase and cytokinesis. Starts with dna double helix (2 nm in diameter) Dna
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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Lecture Notes - Lecture 7: Okazaki Fragments, Phosphodiester Bond, Primase

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28 Jan 2019
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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Lecture Notes - Lecture 8: Reverse Transcriptase, Telomerase, Dna Replication

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1 Feb 2019
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Telomerase to the rescue: the repetitive sequence that is added to the 3" end of the parental strand is determined by the rna template in telomerase. I
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UTSGBIO130H1Kenneth YipSpring

BIO130H1 Lecture Notes - Lecture 5: Naegleria, Genome Size, Mitochondrion

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One maternal and one paternal genome = you. Genomes can come in all different sizes. Mitochondrion doesn"t have all the genes it needs anymore, they ar
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UTSGBIO130H1Kenneth YipSpring

BIO130H1 Lecture Notes - Lecture 7: Helicase, Dna Replication, Dna Ligase

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Procedure: separate dna strands, synthesize dna, proofread newly synthesized dna. Initiator proteins for replication in e. coli: binds to origin, helps
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UTSGBIO130H1Melody Neumann, Kenneth YipWinter

BIO130H1 Lecture 11: Transcription Part II continued

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12 Feb 2019
0
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