Download Archaea 1

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
Document related concepts

Cell-penetrating peptide wikipedia , lookup

Cell membrane wikipedia , lookup

Enzyme wikipedia , lookup

Endomembrane system wikipedia , lookup

Cryobiology wikipedia , lookup

Biochemistry wikipedia , lookup

Metabolism wikipedia , lookup

List of types of proteins wikipedia , lookup

Transcript 
Kingdom Archaea
Representative Organisms: Methanothermus, Archaeoglobus
Cell Type: • Prokaryotic (NO nucleus)
• unicellular
Cell Structure:
• cell membrane of archaea is different from that of bacteria in that they contain
unusual lipids.
• these lipids remain stable at extreme high and low temperatures. • similar shapes to bacteria
Methods of Reproduction:
Reproduction in archaea is asexual using the process of binary fission. Some archaea use conjugation Biological Role:
• Some Archae produce methane Connection to Human Health:
• None (this type of organism is rarely in contact with humans) 1
Kingdom Archaea
Types of Archaea:
• methanogens: are anaerobes, live in the depths of swamps and sewage and
the digestive tract of animals, give off methane (CH4)
• halophiles: love salty environments • thermoacidophiles: love heat and acid • psychrophiles: those that live at unusually cold temperatures
2
Kingdom Archaea
Characteristics:
Archaea were initially classified as bacteria. But biochemically, and genetically, they are very different from bacteria. (thought to evolve from a common ancestor)
Archaea live in extreme environments (i.e. 100 oC). Extremophiles
Archaea obtains energy from inorganic molecules or light.
Archaeans obtain their energy from inorganic molecules such as
• hydrogen gas, • carbon dioxide • sulfur. Archaea are similar to other prokaryotes in most aspects of cell structure and metabolism. However, their genetic transcription and translation ­ the two central processes in molecular biology ­ do not show many typical bacterial features, and are in many aspects similar to those of eukaryotes. 3
Archaea and Biotechnology
Unique enzymes allow these organisms to live under extreme conditions of heat, cold, acidity, and salinity. A Biotechnology technique called the Polymerase Chain Reaction (PCR) uses an enzyme from an archaeon species that can grow in temperatures greater than 70o C. Because the process involves a technique that heats the reactants, thus the enzyme can be reused and are not destroyed in the process. PCR is an important technique used to make copies of DNA and can be used in forensic science and biotechnology
4
Comparing Bacteria and Archaea
Bacteria
Archaea
5
Related documents
Archaebacteria - Raleigh Charter High School
Archaebacteria - Raleigh Charter High School
Archaea 1
Archaea 1
Chapter 3 Review – Cells
Chapter 3 Review – Cells
Study Guide
Study Guide
The Three Domains of Life
The Three Domains of Life
Chapter 11e
Chapter 11e
outline
outline
Classification Ch 3
Classification Ch 3
Outline 10
Outline 10
SI Bio 211
SI Bio 211
Birth of the domains Bacteria, Archaea and Eucarya and of major
Birth of the domains Bacteria, Archaea and Eucarya and of major
primitive - rosedale11universitybiology
primitive - rosedale11universitybiology
Ch 18 Classification
Ch 18 Classification
Kingdom Archaea 2009
Kingdom Archaea 2009
Chapter 9
Chapter 9
Distinctive characteristics of Archaea
Distinctive characteristics of Archaea
Archaea Topics in Biodiversity
Archaea Topics in Biodiversity
archaeal genetics — the third way - University of Texas Astronomy
archaeal genetics — the third way - University of Texas Astronomy