Bacteria CHAPTER 27. You must know  The key ways in which prokaryotes differ from eukaryotes with respect to genome, membrane- bound organelles, size,

Slides:

Advertisements

Similar presentations

Bacteria replication, recombination, and transformation

Advertisements

Ch. 27 Bacteria and Archaea

Bacterial Genetics. Prokaryotic Cell Circular (and naked) double stranded DNA Bacteria have very short generation spans (ex. E.coli divides every 20 minutes)short.

Chapter 27 Bacteria & Archaea.

+ Bacteria and Archaea. + Cell surface markers of prokaryotes Most bacteria contain peptidoglycan in their cell walls, which is a polymer of modified.

Chapter 18 Genetics of Viruses and Bacteria. Viruses: are much smaller than bacteria consist of a genome in a protective coat reproduce only within host.

Genetics of Bacteria. Bacterial Chromosomes One double-stranded, circular molecule of DNA. Found in nucleoid region, which is a dense region of DNA. Many.

6/15/2015 The Genetics of Bacteria. 6/15/2015 The Genetics of Bacteria The major component of the bacterial genome is one double-stranded, circular DNA.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings PowerPoint ® Lecture Presentations for Biology Eighth Edition Neil Campbell.

Bacterial Genetics (Ch18) Bacteria –One of the simplest genetic model systems to study the mechanisms of molecular genetics Escherichia coli (E. coli)

Bacterial Genetics. Cell Wall Cytoplasm Cell Membrane Bacteria Have Circular Chromosomes Termination of Replication Origin of Replication Chromosome.

Chapter 27 Bacteria & Archaea.

Copyright © 2009 Pearson Education Inc., publishing as Pearson Benjamin Cummings Lecture prepared by Mindy Miller-Kittrell, University of Tennessee, Knoxville.

Genetic transfer and recombination

Ch. 27 Warm-Up 1. What was Frederick Griffith’s contribution to our understanding of DNA? (Refer back to Ch. 16) 2. How do bacteria replicate?

Topic 6 Growth & Reproduction of Bacteria

Chapter 27: The Prokaryotes Objectives 1.Learn about the prokaryotic adaptations that make them successful, including the diverse metabolic pathways. 2.Learn.

Biotechnology Unit: Increasing Variation through DNA Transfer

Lecture 7 Microbial Genetics: Genetic Mutations Gene Transfer.

The exchange of Genetic Material between bacteria or How bacteria acquire resistance to antimicrobial agents in nature.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Bacteria Staphylococcus bacteria in nose.

The Prokaryotes Chapter 16. Virus Bacterium Animal cell Animal cell nucleus 0.25 µm.

CHAPTER 5 The Genetics of Bacteria and Their Viruses CHAPTER 5 The Genetics of Bacteria and Their Viruses Copyright 2008 © W H Freeman and Company.

Shatha Khalil Ismael. Transformation Certain species of Gram- negative, gram- positive bacteria and some species of Archaea are transformable. The uptake.

Utah’s Great Salt Lake can reach a salt concentration of 32% Its pink color comes from living prokaryotes Overview: Masters of Adaptation © 2011 Pearson.

Bacterial Gene Transfer. Bacterial Gene Exchange General scheme of bacterial exchange of DNA. DNA from a donor cell is transferred to a recipient cell.

Staphylococcus bacteria in nose

NAJRAN UNIVERSITY College of Medicine NAJRAN UNIVERSITY College of Medicine Microbiology &Immunology Course Lecture No. 6 Microbiology &Immunology Course.

Molecular Genetics of Viruses Viruses are parasites of cells. Typical virus –Penetrates a cell –Takes over the metabolic machinery –Assembles hundreds.

SC.912.L  In Eukaryotes: gene transfer only from parent to offspring during sexual reproduction (pre technology)  In Prokaryotes: genetic transfer.

Genetic Transfer and Recombination in Bacteria

Bacterial Genetics.

 Learning Outcomes  To compare the mechanism of genetic recombination in bacteria  To describe the function of plasmids and transposons.

Chap 18 The Genetics of Viruses and Bacteria. Structure of Virus Approximately 20 nm in diameter Their genome can contain DNA or RNA. Enclosed by a.

The Basics of Bacteria. What are bacteria? Bacteria are single-celled prokaryotes Bacteria are single-celled prokaryotes DNA is not located in a nucleus.

Genetic variation in bacteria Including antibiotic resistance.

Bacterial Genetics. Vocabulary Binary fission Exponential growth Gram positive Gram negative Pathogen Antibiotic Selection pressure Adaptation Mutation.

©1999 Timothy G. Standish Bacterial Genetics Timothy G. Standish, Ph. D.

Bacteria Genetics Bacteria Genetics Introduction Chromosome (bacteria are haploid; in other words, they have a single chromosome) Chromosome (bacteria.

Organismal Development Part 1 Prokaryotic Organisms and Protists.

CHAPTER 27 Bacteria and Archaea. YOU MUST KNOW The key ways in which prokaryotes differ from eukaryotes with respect to:  Genome;  Membrane bound organelles;

Microbial Genetics Glossary 1. Strain or clone: A clone is a population of cells that are genetically ideal pure culture. 2. Genome : All the genes present.

Bacteria. Bacterial Structure A. Contain: 1. Cell wall 2. plasma membrane 3. Cytoplasm 4. Ribosomes (smaller than eukaryotic ribosomes and differ in protein.

Chapter 18.1 Contributors of Genetic Diversity in Bacteria.

Introduction to Microbiology Lecture 5

Increasing Variation through DNA Transfer

Ch. 27 Warm-Up What was Frederick Griffith’s contribution to our understanding of DNA? (Refer back to Ch. 16) How do bacteria replicate?

Chapter 7 Microbial Genetics

Colossians 1:16, For by him were all things created, that are in heaven, and that are in earth, visible and invisible, whether they be thrones, or.

CHAPTER 12 DNA Technology and the Human Genome

Bacteria & Archaea and Viruses

Colossians 1:16, For by him were all things created, that are in heaven, and that are in earth, visible and invisible, whether they be thrones, or.

Structure and Function

Topic 2.2 Prokaryotes By Laura Sugden.

Bacteria & Archaea and Viruses

Ch. 27 Warm-Up What was Frederick Griffith’s contribution to our understanding of DNA? (Refer back to Ch. 16) How do bacteria replicate?

Ch. 24 Warm-Up What was Frederick Griffith’s contribution to our understanding of DNA? (Refer back to Ch. 16) How do bacteria replicate?

Chapter 27 Bacteria and Archaea Fig F plasmid

Bacterial Genome & Variations

Ch. 27 Warm-Up What was Frederick Griffith’s contribution to our understanding of DNA? (Refer back to Ch. 16) How do bacteria replicate?

Prokaryotes Chapter 27.

Bacteria Chapter 27.2.

III. Bacteria- heterotrophic, prokaryotic organisms

Chapter 27 Bacteria and Archaea.

Colossians 1:16, For by him were all things created, that are in heaven, and that are in earth, visible and invisible, whether they be thrones, or.

Ch. 27 Warm-Up What was Frederick Griffith’s contribution to our understanding of DNA? (Refer back to Ch. 16) How do bacteria replicate?

Chapter 27 Prokaryotes.

What do you already know about bacteria?

Bacteria & Archaea and Viruses

Chapter 27: Prokaryotes Overview: Masters of Adaptation

Presentation transcript:

Bacteria CHAPTER 27

You must know  The key ways in which prokaryotes differ from eukaryotes with respect to genome, membrane- bound organelles, size, and reproduction.  How horizontal acquisition of genetic information occurs in prokaryotes via transformation, conjugation, and transduction.  How these mechanisms plus mutation contribute to genetic diversity in prokaryotes.

Structure  Most bacterial cell walls contain peptidoglycan.  Cell wall is surrounded by a sticky layer of polysaccharide, called a capsule.  Hairlike appendages, fimbriae, is used to stick to their substrate.  Pili are appendages that pull two cells together prior to DNA transfer from one cell to another.  Majority are motile, because they possess whiplike flagella.

Replication  Binary fusion - a single prokaryotic cell divides into 2 cells, which can then divide into 4, 8, 16….  During harsh conditions, bacteria develop resistant cells called endospores.  The cell makes a copy of the genetic material and surrounds it with a tough multilayered structure, forming the endospore.  Short generation time, they are able to adapt rapidly to new conditions.

Genetic Recombination  Transformation: prokaryote takes up DNA from its surrounding, which is then integrated into the chromosome by the exchange of homologous DNA segments.  Transduction: bacteriophage (virus) transfers genes between one prokaryote and another. A random piece of DNA is accidently packaged into the head of the bacteriophage, which is then introduced to the next host during infection.  Conjugation : genes are directly transferred from one prokaryote to another when they are temporarily joined by a “mating bridge”. It is only one way, one donates, one receives.  F Factor: (a particular piece of DNA), the ability to form pili and donate DNA during conjugation. Can either be in plasmid form or as a segment of DNA within the bacterial chromosome.  F Plasmid: F Factor in the plasmid form. (F+ = DNA donor) (F- = DNA recipient)  Mutations: are rare, but they are the major source of genetic variation in prokaryotes due to the short generation time and large population sizes of bacteria.

R plasmids and Antibiotic Resistance  A bacterial plasmid carrying genes that confer resistance to certain antibiotics.  “Resistance genes” which code for enzymes that specifically destroy the effectiveness of certain antibiotics.  Exposing bacteria populations to antibiotics have developed resistant strains, making the treatment of certain bacterial infections more difficult.