MAJOR EPISODES IN THE HISTORY OF LIFE All the major phyla of animals evolved by the end of the Cambrian explosion, which began about 540 million years ago and lasted about 10 million years. Plants and fungi first colonized land about 500 million years ago and were followed by amphibians that evolved from fish.
tes Figure 15.2 ticellul ar euk Col Animals aryotes oniz Humans ati on of la nd P 0 resent Origin of solar system and Earth Mul 1 4 yo kar eu d le el Bil l i on s o f y e a ars go 2 3 Prokaryotes -c le Atmo ng Si sp he ri c ox yg en
Figure 15.4 Water vapor CH 4 NH 3 H 2 Atmosphere Electrode Condenser Cold water H 2 O Sea Sample for chemical analysis Cooled water containing organic molecules Miller and Urey s experiment
They re Everywhere! Prokaryotes are found wherever there is life, have a collective biomass that is at least ten times that of all eukaryotes, thrive in habitats too cold, too hot, too salty, too acidic, or too alkaline for any eukaryote, cause about half of all human diseases, and are more commonly benign or beneficial. Compared to eukaryotes, prokaryotes are much more abundant and typically much smaller. Prokaryotes living in soil and at the bottom of lakes, rivers, and oceans help to decompose dead organisms and other organic waste material, returning vital chemical elements to the environment. Prokaryotic cells lack a membrane-enclosed nucleus, lack other membrane-enclosed organelles, typically have cell walls exterior to their plasma membranes, but display an enormous range of diversity.
Prokaryotic Forms The three most common shapes of prokaryotes are 1. spherical (cocci), 2. rod-shaped (bacilli), and 3. spiral or curved. Shapes of Prokaryotic Cells Spherical(cocci) Rod-shaped (bacilli) Spiral or curved All prokaryotes are unicellular. Some species exist as groups of two or more cells, exhibit a simple division of labor among specialized cell types, or are very large, dwarfing most eukaryotic cells.
Prokaryotic Forms About half of all prokaryotes are mobile, and many of these travel using one or more flagella. can form on almost any type of surface, including rocks, metal, plastic, and organic material including teeth.
Prokaryotic Reproduction Most prokaryotes can reproduce by dividing in half by binary fission and at very high rates if conditions are favorable. Some prokaryotes form endospores, which are thick-coated, protective cells produced when the prokaryote is exposed to unfavorable conditions. Endospore
Prokaryotic Nutrition Biologists use the phrase mode of nutrition to describe how organisms obtain energy and carbon. Energy Phototrophs obtain energy from light. Chemotrophs obtain energy from environmental chemicals. Carbon Autotrophs obtain carbon from carbon dioxide (CO 2 ). Heterotrophs obtain carbon from at least one organic nutrient the sugar glucose, for instance. We can group all organisms according to the four major modes of nutrition if we combine the energy source (phototroph versus chemotroph) and carbon source (autotroph versus heterotroph).dominant among multicellular organisms are photoautotrophs and chemoheterotrophs. The other two modes are used only by certain prokaryotes.
The Two Main Branches of Prokaryotic Evolution: Bacteria and Archaea By comparing diverse prokaryotes at the molecular level, biologists have identified two major branches of prokaryotic evolution: 1. bacteria and 2. archaea (more closely related to eukaryotes). Thus, life is organized into three domains: 1. Bacteria, 2. Archaea, and 3. Eukarya. Some archaea are extremophiles. Halophiles thrive in salty environments. Thermophiles inhabit very hot water. Methanogens inhabit the bottoms of lakes and swamps and aid digestion in cattle and deer.
Bacteria and Disease Bacteria That Cause Disease Bacteria and other organisms that cause disease are called pathogens. Most pathogenic bacteria produce poisons. Exotoxins are proteins bacterial cells secrete into their environment. Endotoxins are not cell secretions but instead chemical components of the outer membrane of certain bacteria. The best defenses against bacterial disease are sanitation, antibiotics, and education.
The Ecological Impact of Prokaryotes Pathogenic bacteria are in the minority among prokaryotes. Far more common are species that are essential to our well-being, either directly or indirectly. Prokaryotes play essential roles in chemical cycles in the environment and the breakdown of organic wastes and dead organisms. Bioremediation is the use of organisms to remove pollutants from water, air, and soil. A familiar example is the use of prokaryotic decomposers in sewage treatment.
PROTISTS Protists are eukaryotes that are not fungi, animals, or plants, mostly unicellular, and ancestral to all other eukaryotes.
The Origin of Eukaryotic Cells Eukaryotic cells evolved by the infolding of the plasma membrane of a prokaryotic cell to form the endomemb system and a process known as endosymbiosis. Symbiosis is a more general association between organisms of two or more species. Endosymbiosis refers to one species living inside another host species and is the process by which eukaryotes gained mitochondria and chloroplasts.
Figure 15.19 Plasma membrane DNA Cytoplasm Ancestral prokaryote Membrane infolding Endoplasmic reticulum Nucleus Photosynthetic prokaryote Endosymbiosis Aerobic heterotrophic prokaryote Chloroplast Nuclear envelope Mitochondrion Cell with nucleus and endomembrane system (a) Origin of the endomembrane system Photosynthetic eukaryotic cell (b) Origin of mitochondria and chloroplasts
Figure 15.19a Plasma membrane DNA Cytoplasm Membrane infolding Ancestral prokaryote Endoplasmic reticulum Nucleus Nuclear envelope (a) Origin of the endomembrane system Cell with nucleus and endomembrane system
Figure 15.19b Photosynthetic prokaryote Endosymbiosis Aerobic heterotrophic prokaryote Chloroplast Mitochondrion Photosynthetic eukaryotic cell (b) Origin of mitochondria and chloroplasts