PowerPoint Slides for Chapter 18: Emergent Properties at the Organismal Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise Title Page Integrating.

Slides:

Advertisements

Similar presentations

Integrated Systems Biology PowerPoint Slides for Chapter 1: Information at the Molecular Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise.

Advertisements

PowerPoint Slides for Chapter 1: Heritable Material by A. Malcolm Campbell, Laurie J. Heyer, & Christopher Paradise 1.1 What is biological information?

PowerPoint Slides for Chapter 1: Heritable Material by A. Malcolm Campbell, Laurie J. Heyer, & Christopher Paradise 1.3 Can you prove protein is NOT the.

Integrating Concepts in Biology PowerPoint Slides for Chapter 1: Information at the Molecular Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris.

Integrating Concepts in Biology PowerPoint Slides for Chapter 19: Emergent Properties at the Population Level by A. Malcolm Campbell, Laurie J. Heyer,

Slide 1Fig. 22.1, p.669. Slide 2Fig. 22.3, p.670.

Slide 1Fig. 17.1, p.513. Slide 2Table 17.1, p.514.

Chapter 11- Genetics Meiosis Principles of genetics require:

Human Genetics Chapter 14. DNA fingerprinting Every cell that has a nucleus contains the DNA fingerprint for that individual. Only two to four percent.

Height in Humans Height in pea plants is controlled by one of two alleles; the allele for a tall plant is the dominant allele, while the allele for a short.

Overview Armillaria bulbosa (gallica) Known as the Humungous Fungus, or honey mushroom Form rhizomorphs, which make up much of the “humungous” part Basidiocarp:

Quantitative Genetics

9/17/071 Community Properties Reading assignment: Chapter 9 in GSF.

Biology and the Tree of Life Chapter One. Key Concepts Organisms obtain and use energy are made up of cells, process information, replicate, and as populations.

Chapter 01 Lecture Outline

Integrating Concepts in Biology

CSS 650 Advanced Plant Breeding Module 3: Changes in gene frequency due to selection.

Chromosomes, Mapping, and the Meiosis-Inheritance Connection

Integrating Concepts in Biology PowerPoint Slides for Chapter 24: Homeostasis at the Population Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris.

Integrating Concepts in Biology

Integrating Concepts in Biology

Chapter 15 Table of Contents Section 1 History of Evolutionary Thought

Integrating Concepts in Biology PowerPoint Slides for Chapter 13: Cells at the Organismal Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise.

Integrating Concepts in Biology PowerPoint Slides for Chapter 11: Cells at the Molecular Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise.

PowerPoint Slides for Chapter 16: Variation and Population Genetics Section 16.2: How can population genetic information be used to predict evolution?

PowerPoint Slides for Chapter 11: Cells at the Molecular Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise Sections 11.1 & 11.2 Title Page.

Molecular Biology Fourth Edition

11 22 33  m 11 22 33 11 22 11 22 Classical MHC I human MICA, B ULBP-human RAE-1- like human NKG2D-ligands mouse NKG2D-ligands RAE-1,

Chromosomes, Mapping, and the Meiosis-Inheritance Connection Chapter 13.

Integrating Concepts in Biology

Evolution of Populations

The Evolution of Life Span Why do we live as long as we do?

CHAPTER 23 Molecular Immunology.

The Science of Biology Chapter The Diversity of Life Archaea Bacteria ProtistaFungiPlantaeAnimalia Taxonomists classify organisms into 6 Kingdoms.

Slide Slide 1 Section 8-6 Testing a Claim About a Standard Deviation or Variance.

Integrating Concepts in Biology PowerPoint Slides for Chapter 14: Cells at the Population Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise.

Experimental Design and Data Structure Supplement to Lecture 8 Fall

Aging and Reactive oxygen Species. Aging: What is it?  Aging, has been termed generally as a progressive decline in the ability of a physiological process.

PowerPoint Slides for Chapter 2: Central Dogma by A. Malcolm Campbell, Laurie J. Heyer, & Christopher Paradise 2.1 How does DNA communicate information.

PowerPoint Slides for Chapter 0: How to Use ICB by A. Malcolm Campbell, Laurie J. Heyer, & Christopher Paradise 0.1 Guide to Effectively Use ICB Integrating.

Figure SOM1. Functional roles of the genes affected in zmet2-m1 mutants. Although the genes localized on the intracellular membranes were slightly over-represented.

What is evolution? A gradual change in the genes of a population of organisms over time.

Integrating Concepts in Biology PowerPoint Slides for Chapter 2: Information at the Cellular Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise.

Integrating Concepts in Biology

Development and Genes Part 1. 2 Development is the process of timed genetic controlled changes that occurs in an organism’s life cycle. Mitosis Cell differentiation.

Chapter 13 Modern Human Diversity. Chapter Outline  What are the causes of physical variability in animals?  Is the biological concept of race useful.

The Evolution of Life Span Why do we live as long as we do?

PowerPoint Slides for Chapter 16: Emergent Properties at the Molecular Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise Title Page Integrating.

PowerPoint Slides for Chapter 16: Variation and Population Genetics 16.3 Non-Mendelian genetics: Why do we need annual flu vaccines? Copyright © 2015 by.

Integrated Systems Biology PowerPoint Slides for Chapter 7: Evolution at the Cellular Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise.

PowerPoint Slides for Chapter 7: Evolution at the Cellular Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise 7.1: How are new species formed?

Integrating Concepts in Biology PowerPoint Slides for Chapter 9: Evolution of Populations by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise.

PowerPoint Slides for Chapter 21: Homeostasis at the Molecular Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise Title Page Integrating.

Copyright © 2007 Pearson Education Inc., publishing as Pearson Benjamin Cummings Lectures by Chris C. Romero PowerPoint ® Lectures for Essential Biology,

Chapters 13 & 14 GENETIC ENGINEERING & THE HUMAN GENOME.

PowerPoint Slides for Chapter 1: Heritable Material by A. Malcolm Campbell, Laurie J. Heyer, & Christopher Paradise 1.5 Is all genetic information encoded.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 1 Lecture Slides.

Chapter 16.  16-1 Genes & Variation  1. Genetic Variation is common.

Figure Molecular Biology of the Cell (© Garland Science 2008)

Figure 14-1 Molecular Biology of the Cell (© Garland Science 2008)

Active Lecture PowerPoint ® Presentation for Essentials of Genetics Seventh Edition Klug, Cummings, Spencer, Palladino Copyright © 2010 Pearson Education,

Chapter 1 Evolution, Biology, & Science. Studying Biology Biology – QUESTION

(Quantitative, Evolution, & Development)

Extensions and Modifications of

Genetics: Analysis and Principles

The Effect of Oxygen (O2) on Growth

Genomes and Their Evolution

Linkage, Recombination, and Eukaryotic Gene Mapping

The Emerging Genetic Architecture of Type 2 Diabetes

Presentation transcript:

PowerPoint Slides for Chapter 18: Emergent Properties at the Organismal Level by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise Title Page Integrating Concepts in Biology

Quaking Aspen Trees Opening Figure

Autograft and Allograft Differences Fig. 18.1

Test Skin Grafts and Pregnancy Fig. 18.2

Extended Grafting and Pregnancy Tests Fig. 18.3

T Cells Cause Rejection Fig. 18.4

MHC I Present Self Peptides Fig. 18.5

MHC I & Peptides Cause Rejection Fig. 18.6

T Cell Receptors Bind Presented Self Fig. 18.7

Table 18.1

Maternal and Fetal Cell Interface Fig. 18.8

MHC IG Present on Fetal Cells Fig. 18.9

MHC IG Responsible for Tolerance Fig

Interleukin-10 Suppresses T Cells Fig

MHC IG Allele & Gene Structure Fig

MHC IG Allele & Gene Structure Fig

MHC IG Allele & Gene Structure Fig

Table 18.2 Table 18.2 Distribution of genetic markers in four representative fungal samples from a forest in Michigan. Each numbered sample was cultured to isolate the four haploid mating types (a, b, c, and d). RFLP and RAPD numbers are arbitrary designations for particular genetic loci, numbers in RFLP rows are arbitrary designations for alleles, and + or 0 indicates a RAPD fragment was present or absent, respectively.

Table 18.3 Table 18.3 Estimates of growth and size of large A. gallica individual fungus.

MHC IG Allele & Gene Structure Fig

MHC IG Allele & Gene Structure Fig

Table 18.4 Table 18.4 Genetic analysis of quaking aspen stand in Utah. Sample size was 209.

MHC IG Allele & Gene Structure Fig

MHC IG Allele & Gene Structure Fig

MHC IG Allele & Gene Structure Fig

MHC IG Allele & Gene Structure Fig

Table 18.5 Table 18.5 A sampling of expressions in animals studied by Charles Darwin, to which he ascribed various emotions, some of which are shown.

MHC IG Allele & Gene Structure Fig

MHC IG Allele & Gene Structure Fig

Table 18.6 Table 18.6 Results from experiments investigating adrenalin in cats.

MHC IG Allele & Gene Structure Fig

Aging Is Universal Fig

Interactions Affect Fecundity and Mortality Fig

Humans Exhibit Programmed Senescence Fig

Testing Disposable Soma Theory Fig

Table 18.7 Comparison of island and mainland opossum traits. A p-value of <0.05 indicates significant differences in the two populations.

Ethics for End of Life Issues Fig. ELSI 18.1

Table 18.8 Comparison of physical traits for Drosophila fruit flies subjected to high or low adult mortality. Total refers to the average value for each trait using the total population indicated by n.

Disposable Soma Theory in Plants Fig

Biological Source of Senescence Fig

Aging and Senescence in Bacteria Fig a newest poles

Aging and Senescence in Bacteria Fig b & c b)c)

Table 18.9 Gene activity for E. coli cells placed in fresh media after a couple hours (young cells) or 16 days (old cells) of stationary phase existence.

Oxidative Damage and Aging Fig b) c) a)

Table Proposed molecular events that can contribute to physical aging and senescence