Chapter 8, part A Microbial Genetics.

Slides:



Advertisements
Similar presentations
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.
Advertisements

DNA.
RNA.
Central dogma: Information flow in cells. Nucleotides Pyrimidine bases: Cytosine (C), Thymine (T), Uracil (U, in RNA) Purine bases: Adenine (A), Guanine.
Microbial Genetics. Terminology Genetics Genetics Study of what genes are Study of what genes are how they carry information how they carry information.
Central dogma: Information flow in cells. Nucleotides Pyrimidine bases: Cytosine (C), Thymine (T), Uracil (U, in RNA) Purine bases: Adenine (A), Guanine.
Molecular Genetics Ch. 16, 17, 18, 19, 20. DNA Replication Happens during interphase of mitosis. Semiconservative Replication 3 basic steps  Unwind and.
Medical Technology Department, Faculty of Science, Islamic University-Gaza MB M ICRO B IOLOGY Dr. Abdelraouf A. Elmanama Ph. D Microbiology 2008 Chapter.
Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings PowerPoint ® Lecture Slide Presentation prepared by Christine L. Case Microbiology.
Biological Information Flow
Central Dogma of Biology
–DNA functions as the inherited directions for a cell or organism. –How are these directions carried out? Flow of Genetic Information Gene DNA RNA Protein.
+ Bacterial Genetics March Terminology Genetics: The study of what genes are, how they carry information, how information is expressed, and how.
Copyright © 2010 Pearson Education, Inc. Lectures prepared by Christine L. Case Chapter 8 Microbial Genetics.
Chapter 8 Microbial Genetics.
What does DNA stand for? Deoxyribonucleic Acid _______ is the enzyme that chemically links Okazaki fragments together DNA Ligase.
Chapter 5 Microbial Genetics. Genetics: The study of what genes are, how they carry information, how information is expressed, and how genes are replicated.
Chapter 8, part A Microbial Genetics.
THEIR ROLE IN PROTEIN SYNTHESIS
KEY CONCEPT DNA structure is the same in all organisms.
Molecular genetics 30 September 2010 Donald Winslow.
KEY CONCEPT DNA structure is the same in all organisms.
Chapter 8 Microbial Genetics part A. Life in term of Biology –Growth of organisms Metabolism is the sum of all chemical reactions that occur in living.
DNA Review  Contains the genetic instructions used in the development and functioning of all organisms  Found in the nucleus of cells!  Made.
Replication Transcription Translation
Bacterial genetics and molecular biology. Terminology Genetics:Study of what genes are, how they carry information, how information is expressed, and.
RNA and Protein Synthesis. How does DNA determine our traits?
Bonus Trivia DNA Structure Translation Transcriptio n Replication
RNA AND PROTEIN SYNTHESIS
The Flow of Genetic Information
Gene Expression. Central Dogma Information flows from: DNA  RNA  Protein Exception: reverse transcriptase (retroviruses) RNA  DNA  RNA  Protein.
From DNA to Protein Chapter 8. Terminology Genetics Genome Chromosome Gene Locus Alleles Genotype/Phenotype Heredity.
Transcription and Translation How genes are expressed (a.k.a. How proteins are made) Biology.
DNA, RNA, and Protein Replication Transcription Translation.
Structure of DNA DNA is made up of a long chain of nucleotides
Expression of the Viral Genome in Host Cells (How do viruses express their genomes?)
Nucleic Acids and Protein Synthesis. Nucleic Acids DNA DNA Deoxyribonucleic Acid Deoxyribonucleic Acid RNA RNA Ribonucleic Acid Ribonucleic Acid.
Copyright © 2010 Pearson Education, Inc. MICROBIAL GENETICS Chapter 8.
Microbial Genetics Structure and Function of Genetic Material The Regulation of Bacterial Gene Expression Mutation: Change in Genetic Material Genetic.
Protein Synthesis Making Proteins from DNA. DNA & the Nucleus DNA cannot leave the nucleus! So how can we get the information for making proteins out.
Chapter 13: RNA and Protein Synthesis Mr. Freidhoff.
From DNA to Protein. DNA Review Nucleic acid Double helix Two strands of nucleotides Phosphate-sugar backbone Nitrogenous base steps Adenine Guanine Cytosine.
DNA Replication. DNA Deoxyribonucleic Acid Polymer of nucleotides Each nucleotides has 3 parts:
Bacterial Genetics In this lecture, we will talk about:  Bacterial chromosome:  Structure  Replication  Expression into proteins  Plasmids  Transposons.
DNA STRUCTURE AND FUNCTION Chapter 10. Identification of the Genetic Material Griffith’s Experiment.
Model for DNA Replication Semiconservative model: Daughter DNA molecules contain: one parental strand and one newly-replicated strand.
Powerpoint Templates.  Replication is semiconservative  Each strand is a template  Building starts at opposite ends (avoid friction of nucleotides)
Inheritance and the Structure of DNA
DNA Replication.
Insert Fig CO 8.
Microbial genetics Dr. Hala AL- DAGHISTANI
CHAPTER 8 MICROBIAL GENETICS: BIO 244 MICROBIOLOGY
DNA Structrue & Function
DNA The Molecule of Life.
1st lesson Medical students Medical Biology Molecular Biology
Topic DNA.
Chromosomal Landscapes
Transcription and Translation
Insert Fig CO 8.
DNA and Genes Chapter 11.
STRUCTURE OF DNA.
Bell Ringer 11/14/16 A) A-A-U B) G-G-T C) T-T-C D) U-U-A.
Review.
Unit 7: Molecular Genetics
Intro to Transcription
DNA, Genes and Genomics.
DNA & Heredity Chapter 11.
Chapter 8, part A Microbial Genetics.
Segment 5 Molecular Biology Part 1b
Unit 3: Genetics Part 1: Genetic Informaiton
Presentation transcript:

Chapter 8, part A Microbial Genetics

Terminology Genetics Study of what genes are, how they carry information, how information is expressed, and how genes are replicated Gene Segment of DNA that encodes a functional product, usually a protein

Terminology Genome All of the genetic material in a cell Genomics Molecular study of genomes Genotype Genes of an organism Phenotype Expression of the genes

E. coli Figure 8.1a

Flow of Genetic Information Figure 8.2

DNA Polymer of nucleotides: adenine, thymine, cytosine, guanine Double helix associated with proteins "Backbone" is deoxyribose-phosphate Strands held together by hydrogen bonds between AT and CG Strands are antiparallel Figure 8.4

DNA Figure 8.3

DNA Figure 8.5

DNA DNA is copied by DNA polymerase In the 5  3 direction Initiated by an RNA primer Leading strand synthesized continuously Lagging strand synthesized discontinuously Okazaki fragments RNA primers are removed and Okazaki fragments joined by a DNA polymerase and DNA ligase

DNA Figure 8.6

DNA DNA replication is semiconservative Figure 8.7

Transcription DNA is transcribed to make RNA (mRNA, tRNA, and rRNA) Transcription begins when RNA polymerase binds to the promotor sequence Transcription proceeds in the 5  3 direction Transcription stops when it reaches the terminator sequence

Figure 8.8

RNA processing in Eukaryotes Figure 8.12

Translation mRNA is translated in codons (3 nucleotides) Translation of mRNA begins at the start codon: AUG Translation ends at a STOP codon: UAA, UAG, UGA Figure 8.2

Translation Figure 8.9