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General Biology Lecture; Regis University; B. Rife; March 1992

Viruses and Monera

I Viruses

II. Kingdom Monera

III. Classification of Bacteria

I Viruses

Viruses are on the borderline between living and nonliving things.

Viruses - are tiny particles (5 nm to 200 nm) composed of at least two parts: an outer coat of protein

called the capsid and an inner core of nucleic acid of either DNA or RNA.

Viruses are capable of reproduction, but only within living cells; therefore, they are call obligate parasites. Outside living cells, viruses are nonliving and can be stored in much the same way as chemicals are stored.

Viruses typically have a specific host range.

Life Cycles

A. Bacteriophages

1. Lytic Cycle

Once inside, the viral DNA brings about disintegration of host DNA and takes over the operation of

the cell. Viral DNA replication, utilizing the nucleotides within the host cell, produces many copies

of viral DNA. Viral DNA and capsids are assembled to produce about 100 viral particles. In the

meantime, viral DNA has directed the synthesis of lysozyme, and enzyme that disrupts the cell

wall, and the particles are released.

2. Lysogenic Cycle

Some bacteriophages do not immediately undergo a lytic cycle. Instead, the viral DNA becomes

integrated into the bacterial DNA. In this stage it is called a prophage. Certain environmental

factors such as ultraviolet radiation can induce the lytic cycle.

B. Animal Viruses

The entire virus enters by endocytosis and uncoating, which releases viral nucleic acid from the

envelope and capsid, occurs inside the cell. Following multiplication and assembly, the virus exits

from the cell by exocytosis, also called budding. The process of budding, which does not

necessarily kill the host cell, provides the virus with its membranous envelope.

RNA Animal Viruses

Some animal viruses have RNA genes, that is, only RNA is enclosed within the capsid.

Other RNA viruses called retroviruses have an enzyme called reverse transcriptase that carries

out RNA --> DNA transcription. Retroviruses are of extreme interest because these are the viruses

that are apt to bring cancer-causing oncogenes into a host cell. The AIDS virus is also a retrovirus

C. Viroids and Prions

Viroids differ from viruses in that they consist only of a short chain of naked RNA.

Prions consist solely of a glycoprotein having only one polypeptide of about 250 amino acids.

D. Viral Infections

Some viral diseases in humans are influenza (respiratory), mumps, measles, polio, rabies, and

infectious hepatitis. Retroviruses cause AIDS and have been implicated in the development of

cancer.

II. Kingdom Monera

Kingdom Monera contains the prokaryotes, the first types of cells to evolve (endosymbiosis).

These organisms provide the first fossils, dated 3.5 billion years ago.

A. Structure

Prokaryotic cells lack a nucleus and do not have the cytoplasmic organelles found in eukaryotic

cells, other than ribosomes.

Bacteria occur in three basic shapes: rod (bacillus), round or spherical (coccus),

and spiral (helical shape called spirillum)

B. Reproduction

Prokaryotes reproduce asexually by means of binary fission.

Genetic recombination can occur among bacteria in three ways:

Conjugation - A process involving contact between two bacterial cells during which genetic

material is passed from on cell to the other.

Transformation - occurs when a bacterium picks up from the medium DNA released by dead

bacteria.

Transduction - Transfer of genetic material between bacterial cells by bacteriophages.

Since prokaryotes have no simple method for achieving genetic recombination as do plants and

animals, mutation becomes the most important avenue for evolutionary change.

When face with unfavorable environmental conditions, some bacteria can form endospores.

Endospores are amazingly resistant to extremes in temperature, drying, and harsh chemicals,

including acids and bases.

When conditions are again suitable for growth, the spore absorbs water, and becomes a typical

bacterial cell, reproducing once again by binary fission.

C. Metabolism

Obligate anaerobes - are unable to grow in the presence of oxygen (botulism, gangrene, tetanus)

Facultative anaerobes - are able to grow in either the presence or the absence of oxygen

Aerobic - require a constant supply of oxygen to carry on cellular respiration.

1. Autotrophic Bacteria

Autotrophic bacteria are capable of synthesizing organic nutrients directly from simple inorganic

substances, such as carbon dioxide and nitrogen.

Photosynthetic bacteria use light as a source of energy to produce their own food.

Chemosynthetic bacteria oxidize inorganic compounds such as ammonia, nitrites, and sulfides,

and trap the small amount of energy released from these oxidations to use in the reactions that

synthesize carbohydrates. Nitrifying bacteria are also chemosynthesizers that oxidize ammonia

(NH3) to nitrites (NO2) and nitrites to nitrates (NO3).

2. Heterotrophic Bacteria

The majority of bacteria are aerobic heterotrophs and feed on dead organic matter by secreting

digestive enzymes and absorbing the products of digestion. These saprophytic decomposers

can break down such a large variety of molecules.

Heterotrophs may be free-living or symbiotic forming mutualistic, commensalistic,

or parasitic relationships. Certain nitrogen-fixing bacteria (Rhizobium) reduce atmospheric

nitrogen (N2) to ammonia (NH3) and nitrates (NO3) and are mutualistic; they live in the root

nodules of legumes (soybeans & alfalfa) and provide organic nitrogen to their hosts.

III. Classification of Bacteria

A. Archaebacteria

Many archaebacteria are able to live in the most extreme of environment, perhaps representing the

kinds of habitats that were available when the earth first formed.

B. Eubacteria

One way to classify eubacteria is to consider their reaction to the Gram stain. The difference is

dependent on the construction of the cell wall.

Gram-positive bacteria appear purple. (Staphylococcus aureus)

Gram-negative bacteria appear red. (E. coli, rickettsias which cause Rocky Mountain spotted

fever)

Cyanobacteria

Cyanobacteria, formerly called blue-green algae, are the most prevalent of the photosynthetic

bacteria. The cyanobacteria carry on photosynthesis in a manner similar to that of plants; they

possess chlorophyll a and evolve oxygen.

The cyanobacteria are believed to be responsible for first introducing oxygen into the primitive

atmosphere. Cyanobacteria my be unicellular, filamentous, or colonial. In association with

fungi, they form lichens that can grow on rocks.