Bacterial Genetics Ch. 18.

Slides:

Advertisements

Similar presentations

January 22, 2007 Chapter 18 Chapter 19 Problems, problems, problems Coming up…….. - Objectives for 22, 23, 24 on or before Friday -Abstract (peer reviewed.

Advertisements

Active Lecture Questions

Regulation of Gene Expression in Prokaryotes

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

DNA, AND IN SOME CASES RNA, IS THE PRIMARY SOURCE OF HERITABLE INFORMATION Noneukaryotic Genetic Information.

Bacterial Operons A model of gene expression regulation Ch 18.4.

The how and why of information flow in living things.

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

Genetic Recombination Bacteria are asexual –With sexual reproduction, multiplication and gene recombination are linked. –In bacteria, they are separate.

Unit 3 – Genetics Chapter 18~ Microbial Models: The Genetics of Viruses and Bacteria.

Objectives: Ch. 4, 5, 8, 9 Describe bacteria by appropriate cellular shape and arrangement (grouping) Understand the location and role of each anatomical.

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?

AP Biology Chapter 18. Bacterial Genetics.

Copyright © 2006 Pearson Education, Inc., publishing as Benjamin Cummings M I C R O B I O L O G Y a n i n t r o d u c t i o n ninth edition TORTORA  FUNKE.

Remember: Final Draft of Posters Due at 10 am on Thursday! Today: Poster Hints Microbial Genetics Gene Regulation Group Quiz 8.

Lecture #8Date _________ n Chapter 18~ Microbial Models: The Genetics of Viruses and Bacteria.

AP Biology Horizontal gene transfer Transmission of DNA between species  Transformation  Transduction  Conjugation.

AP Biology Biotechnology Part 2 Genetics of Bacteria.

T4 bacteriophage infecting an E. coli cell 0.5  m.

BACTERIA AND VIRUSES. DNA core Protein coat (capsid) Characteristics: Parasitic Replicate only inside phenomenal rate.

Gene Regulation, Part 1 Lecture 15 Fall Metabolic Control in Bacteria Regulate enzymes already present –Feedback Inhibition –Fast response Control.

William S. Klug Michael R. Cummings Charlotte A. Spencer Concepts of Genetics Eighth Edition Chapter 16 Regulation of Gene Expression in Prokaryotes Copyright.

THE GENETICS OF BACTERIA. Bacteria Are Prokaryotes.

Regulation of Gene Expression Prokaryotes

Viruses as Pathogens in Bacterial Gene Regulation Bacterial DNA – single double-stranded circular DNA densely supercoiled in a region called the nucleoid.

Chapter 8: Microbial Genetics

111/18/2015 Bacterial Genetics Filename BactGene.ppt.

Chapter 18: Microbial Models: The Genetics of Viruses and Bacteria n Chapter 18: n Microbial Models: The Genetics of Viruses and Bacteria.

The Flow of Genetic Information

Prokaryotes vs Eukaryotes

Gene Regulation Packet #46 Chapter #19.

Ch 7: Microbial Genetics. Nucleotide (2.27) (2.25)

Microbial Genetics - DNA Transfer l Review of Information Transfer in Cell l Recombination l Transfer of DNA &Genetic Recombination in Bacteria –Conjugation.

Figure 18.1 Comparing the size of a virus, a bacterium, and a eukaryotic cell.

Bacterial Genetics & Transformation

Bacterial Genetics.

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

Viruses and Bacteria Ch. 18. Viruses Parasite that requires a host cell in order to live They take the host cell hostage and use the cell to create the.

Bacterial Genetics.

Regulation of Bacterial Gene Expression Constitutive enzymes are expressed at a fixed rate. Other enzymes are expressed only as needed. –Repressible enzymes.

Microbiology B.E Pruitt & Jane J. Stein AN INTRODUCTION EIGHTH EDITION TORTORA FUNKE CASE Chapter 8, part B Microbial Genetics.

Chapter 18.1 Contributors of Genetic Diversity in Bacteria.

Chapter 8, part B Microbial Genetics.

Chapter 8, part B Microbial Genetics.

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

Genetics of Bacteria Bacterial genome =.

8 Microbial Genetics.

Bacteria’s Reproductive Possibilities

Bacterial Genetics Binary fission

Microbial Models: The Genetics of Viruses and Bacteria

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?

Biotechnology Part 2 Genetics of Bacteria

OUTLINE 3 Control of Gene Expression in Prokaryotes

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

Gen Expression Constitutive Enzymes not Regulated

III. Bacteria- heterotrophic, prokaryotic organisms

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

Gene Regulation Packet #22.

The Genetics of Bacteria

Today: Intro to Microbial Genetics Lunch pGLO!.

Biotechnology Part 2 Genetics of Bacteria

Is an inducible operon normally off or on?

Chapter 18~ Microbial Models: The Genetics of Viruses and Bacteria

Breathtaking Bacteria

Chapter 18 Bacterial Regulation of Gene Expression

Biotechnology Part 2 Genetics of Bacteria

Chapter 8, part B Microbial Genetics.

Nutrition & Growth Most Prokaryotes are heterotrophs; get their energy by consuming organic matter as a source of nutrition. Some are autotrophs; obtain.

Presentation transcript:

Bacterial Genetics Ch. 18

Review of Structure

Binary Fission

Other Methods of Gene Transfer & Recombination in Bacteria

Other Methods of Gene Transfer & Recombination in Bacteria Transduction

Conjugation F factor Sex pili

Transposons/Transposable Elements

Operon

Negative Gene Regulation: Repressible Operons

Negative Gene Regulation: Repressible Operons

Negative Gene Regulation: Inducible Operons

Negative Gene Regulation: Inducible Operons

Positive Gene Regulation

Positive Gene Regulation: Catabolite Activator Proteins (CAP)