How do Archaea tolerate the heat?

Slides:

Advertisements

Similar presentations

Bacteria - Eubacteria Domain Prokarya.

Advertisements

Domain Prokarya/Archaea Kingdom Archaea

Biology: What is Life? life study of Properties of Life

Copyright Notice! This PowerPoint slide set is copyrighted by Ross Koning and is thereby preserved for all to use from plantphys.info for as long as that.

Ch. 27 Bacteria and Archaea

Chapter 26: Bacteria and Archaea: the Prokaryotic Domains CHAPTER 26 Bacteria and Archaea: The Prokaryotic Domains.

Prokaryotes Chapter 27.

PROKARYOTES ARCHAEA Cells that lack peptidoglycan, tend to live in harsh environments. Extremophiles: Methanogens: produce methane as a result of respiration.

By Alexis Avila & Nilanka Lord.  Relatively new discovery so we don’t know too much about them  Classification is very difficult  Originally classified.

Archaeal Cell Structure 1 4 Copyright © McGraw-Hill Global Education Holdings, LLC. Permission required for reproduction or display.

KINGDOM BACTERIA SEC Classifying Bacteria  Shape  Structure of cell walls  Source of food and energy  RNA Bacteria are prokaryotes! Bacteria.

General Microbiology (MICR300) Lecture 8 Microbial Diversity: Archaea (Text Chapters: )

Molecular Genetics Ch. 16, 17, 18, 19, 20. DNA Replication Happens during interphase of mitosis. Semiconservative Replication 3 basic steps  Unwind and.

Bacterial Physiology (Micr430) Lecture 1 Overview of Bacterial Physiology (Text Chapters: 1 and 2)

1 Prokaryotes Chapter Prevalence of Prokaryotes Prokaryotes are the oldest, abundant for over 2 billion years before the appearance of eukaryotes.

2.2 Prokaryotic Cells.  “primitive cells”  cells that lack membrane-bound organelles  ie: no nucleus, no mitochondria, no vacuoles, etc  Ex: bacteria.

Bacteria Prokaryotes are single cell organisms that lack a nucleus. Their size range form 1-5 micrometers which is smaller than most eukaryotic cell. Epulopiscium.

1 8/27/2015 Structure of Prokaryotes Hugh B. Fackrell.

PROKARYOTES. THEY ARE EVERYWHERE The Major Similarities Between the Two Types of Cells (Prokaryote and eukaryote) Are: They both have DNA as their genetic.

18.1 Bacteria Objectives: 8(C) Compare characteristics of taxonomic groups, including archaea, bacteria, protists, fungi, plants, and animals. 11(C) Summarize.

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

Archaebacteria and Eubacteria Photography Copyright D.Bausch. Public Domain Access Granted.

Bacteria and VirusesSection 1 Section 1: Bacteria Preview Bellringer Key Ideas What Are Prokaryotes? Bacterial Structure Obtaining Energy and Nutrients.

I. Bacteria Introduction Various functions/roles of bacteria

Bacteria on the Point of a Pin. PROKARYOTES: Usually small (< 5  m) compared to most eukaryotic cells (  m) Cell shapes: bacilli, cocci, spirilli;

Prokaryotes Chapter 27. Found wherever there is life; thrive in habitats that are too cold, too hot, too salty, etc. Most live in symbiotic relationships.

Prokaryotes Prokaryotes are microscopic single-celled organisms. Although you cannot see them without the aid of a microscope, their combined biomass is.

Bacteria and Archaea. Prokaryotes Structure, Function, and Reproduction Nutritional and Metabolic Diversity Phylogeny of Prokaryotes Ecological Impact.

Prokaryotes Lack nucleus No organelles Possess DNA, RNA, and all other machinery Possess ATP synthesis Two Domains –Bacteria –Archaea.

RESTRICTION ENDONUCLEASES RESTRICTION ENDONUCLEASES CUT AT SPECIFIC SITES & LEAVE STICKY ENDS EcoR1EcoR1 animation Leave “sticky ends” that can be used.

Chapter 27 Prokaryotes! Wow!. Some Interesting Info… *The biomass of all the prokaryotes of the world is 10 times that of eukaryotes! *The # of prokaryotes.

Chapter 27 l Prokaryotes and the Origins of Metabolic Diversity.

Chapter 27~Prokaryotes and the Origins of Metabolic Diversity.

1 ESSENTIAL CONCEPTS OF METABOLISM CHAPTER 5. 2 Metabolism Anabolism Catabolism.

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.

Prokaryotes Chapter 20. Figure 5.1 The Scale of Life.

Bacteria qCn92mbWxd4 (bacteria introduction) qCn92mbWxd4.

AP Biology Ch. 27 PROKARYOTES. Bacteria on the head of a pin—they are found everywhere!

Prokaryotic Classification EUBACTERIA (Bacteria) ARCHAEBACTERIA (Archaea) EUKARYOTES (Eukarya) Traditionally classified by numerical taxonomy Now increased.

Domain Bacteria Domain Archaea

Archaea Extremophiles Evolutionarily Primitive

Chapter 7 Bacteria and Viruses.

Chapter 27~ Prokaryotes and the Origins of Metabolic Diversity.

AP BIOLOGY Viruses, bacteria, prions & DNA Technology Chapters Review.

Chapter 27 l Prokaryotes and the Origins of Metabolic Diversity.

PAP Bacteria and Virus Notes Ch 19. Bacteria are grouped into two kingdoms: -Eubacteria and Arcahebacteria -Eubacteria and Archaebacteria have different.

By: Morgan, Kayla and Majid

The world of prokaryotes A- They’re everywhere 1- Collective prokaryote biomass outweighs all eukaryotes combined by at least tenfold. 2. They exist almost.

1 Chap 27 Prokaryotes and the Origins of Metabolic Diversity Current nucleotide analysis of a specific RNA molecule called 16S has classified life on Earth.

Prokaryotes Structure Function Reproduction Diversity Ecological Impact.

Chapter 6 Metabolism of Microorganisms. 6.1 Enzymes and Energy in Metabolism Enzymes catalyze all cellular reactions. Enzymes are not changed by the reactions.

Bacterial Metabolism and Genetics

Prokaryotes By Reiss Amoah. What are they?  Prokaryotes are single-celled organisms which lack many of the membrane bound organelles found in Eukaryotic.

Viruses and Bacteria. Viruses  2 main parts- protein coat called a CAPSID and nucleic acid (RNA or DNA)  Host specific and cell specific- the cold virus.

BACTERIA. Bacteria Most numerous organisms on earth Earliest life forms (fossils: 2.5 billion years old) Contain ribosomes Surrounded by protective cell.

Bacteria Chapter 24 Classification Structure Physiology Molecular composition Reactions too stain rRNA sequences.

Introduction to Microbiology Lecture 5

Figure 20.0 DNA sequencers DNA Technology.

Lecture 86 – Lecture 87 – Lecture 88 – Lecture 89 Bacteria Ozgur Unal

Prokaryotic Cells.

The Prokaryotes Chapter 16.

Lecture #12 Date ________

Diversity of Prokaryotes

Replicons have genes for: DNA polymerase Transcription factors

The Prokaryotes Differences from Eukaryotes:

Bacteria on the Point of a Pin

Chapter 6 Microbial Metabolism.

PROKARYOTES AND THE ORIGINS OF METABOLIC DIVERSITY

Bacteria & Viruses Chapter 19.

Chapter 27~ Prokaryotes and the Origins of Metabolic Diversity

Presentation transcript:

How do Archaea tolerate the heat? Proteins stabilized by more ionic bridges between amino acid r-groups and more-hydrophobic core amino acids Heat shock protein (chaperonins) refold denatured proteins…Pyrococcus 121°C for 1 hour! DNA depurination reduced by presence of 2,3-diphosphoglycerate. DNA supercoiling by reverse gyrase reduces denaturation Sac7d in Sulfobolus is a minor groove protein increases the melting temperature by 40°C Histone-like proteins help stabilize DNA as well Heat-resistant di-bi-phytanyl diether lipid membranes (monolayer) prevent delamination of membrane

Cell Membrane Structure Composed of diglycerides R group may be phosphate, sulfate, or sugar Long chain branched hydrocarbon (not fatty acid) Hydrocarbons may be C20 or C40 If C20, the membrane is a bilayer: O R If C40, the membrane is a monolayer O R In some species, the membrane is a mixture of both C20 and C40 diglycerides forming a mixed mono-/bi-layer

Cell Structure: Movement hook directional rotation? basal rings and rod anchorage rotation stiff helical flagellum flagellin protein is rotated by “motor apparatus” in the membrane by H+ ATPase at rates of 200-1700 rps (>12,000 rpm!) Taxis: movement toward stimulus Motile Archaea often have multiple flagella in a tuft at one place on the cell surface phototaxis: movement toward light thermotaxis: movement to heat chemotaxis: movement to chemicals

Cell Structure: Nucleoid Nucleoid - genome one circular DNA molecule + plasmids histone-like protein association (~eukaryotic) genome smaller than typical bacteria sequences closer to eukaryotic homologs introns in rRNA and tRNA genes operon regulation in some genes like bacteria attached to cell membrane transcription by RNA polymerase (~POLII@TATA) replication by DNA polymerase separation of chromosomes cytokinesis by furrowing 70S Ribosome Process called binary fission NOT mitosis! Genome and copy are identical Genome is haploid There is no synapsis There is no recombination rRNA + protein + ribozymes translation of mRNA into protein

Cell Structure: Genetic Structure Nucleoid - main chromosome is circular but associated with histone-like proteins Replicons - small circular DNAs with additional essential genes Genes are generally in clusters in operon-like situations Chromosomes have insertion sites for transposition events rRNA and other genes have intron sequences How the movements of the multiple units is coordinated is not yet fully known

Replicons have genes for: DNA polymerase Transcription factors 3 chromosomes Main chromosome 2,015 kb 191 kb replicon 366 kb replicon Replicons have genes for: DNA polymerase Transcription factors Mineral uptake (K, PO4) Cell division The genome has many insertion sites for foreign genes Bacteriorhodopsin: Protein + retinal Amax 280 UV, 570 green nm energy for proton transport and phosphorylation without photosynthesis! Halobacterium salinarium http://biology.kenyon.edu/Microbial_Biorealm/ archaea/halobacterium/halobacteria_1.jpg Aerobic Respiration Up to 5 M (25% NaCl)! Great Salt Lake, Utah Red Sea, Asia Minor

Hint: it reflects the other colors of the spectrum Periplasmic space Cell Membrane Retinal lsu.epfl.ch/sh/bR_full.pdf Cytoplasm Bacteriorhodopsin absorbs green from the visible spectrum, so what color is the pigment? Hint: it reflects the other colors of the spectrum www.hawaii.edu/microbiology/ Alam/publications/PNAS96-ZHANG.pd

√ Which of these metabolic pathways is Halobacterium demonstrating? Photoautotrophism Photoheterotrophism Chemoautotrophism Chemoheterotrophism √ Hint: Light for energy Chemicals for carbon

Methanococcus jannischii Isolated from “white smoker” hydrothermal vent 2600m deep on the East Pacific Rise Methanogen Obligate anaerobe H2 as energy source CO2 as carbon source CH4 as byproduct of metabolism Temperature: 50-86°C Other species found in cow rumen (first stomach) Cow belches 50 L of methane per day http://www.bact.wisc.edu/Bact303/Methanococcus.jpeg What does this electron micrograph tell you? …about cell shape? …about motility?

√ Which of these metabolic pathways is Methanococcus demonstrating? Photoautotrophism Photoheterotrophism Chemoautotrophism Chemoheterotrophism √ Hint: H2 for energy CO2 for carbon

Thermus aquaticus Gram negative Thermophile isolated from Yellowstone Hot Spring Optimum temperature 85°C Stability of macromolecules excellent Enzymes for research or commercial use Taq polymerase is the enzyme of PCR (Polymerase Chain Reaction) Lives near cyanobacteria which feed Thermus http://www.molgen.mpg.de/~ag_ribo/ ag_franceschi/franceschi-projects-30S.html http://sci.agr.ca/crda/images/BACTERI1.JPG

√ Which of these metabolic pathways is Thermus demonstrating? Photoautotrophism Photoheterotrophism Chemoautotrophism Chemoheterotrophism √ Hint: Organic chemicals for energy Organic chemicals for carbon

Sulfolobus acidocaldarius 75°C Optimum Strict aerobe pH 1 to 6 Oxidize Sulfur or can use Fe2+ or MnO42- as electron acceptors…uses glycolysis and TCA cycle Pilus and conjugation plasmids not similar to bacterial ones http://dac.molbio.ku.dk/Sulfolobus.jpg

√ Which of these metabolic pathways is Sulfolobus demonstrating? Photoautotrophism Photoheterotrophism Chemoautotrophism Chemoheterotrophism √ Hint: Organic chemicals for energy Organic chemicals for carbon