Microbiology and Immunology

(Axel Boer) #1
WORLD OF MICROBIOLOGY AND IMMUNOLOGY Transplantation genetics and immunology

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genetic codeis non-overlapping, i.e., the nucleotide in one
codon is never part of the adjacent codon. The code also seems
to be universal in all living organisms.

See also Cell cycle (prokaryotic), genetic regulation of;
Chromosomes, prokaryotic; Cytoplasm, prokaryotic; Genetic
regulation of prokaryotic cells; Molecular biology and molec-
ular genetics; Protein synthesis; Proteins and enzymes;
Ribonucleic acid (RNA)

TRANSMISSION ELECTRON MICROSCOPE

(TEM)•seeELECTRON MICROSCOPE, TRANSMISSION AND

SCANNING

TTransmission of pathogensRANSMISSION OF PATHOGENS

Microorganisms that cause disease in humans and other
species are known as pathogens. The transmission of
pathogens to a human or other host can occur in a number of
ways, depending upon the microorganism.
A common route is via water. The ingestion of contami-
nated water introduces the microbes into the digestive system.
Intestinal upsets can result. As well, an organism may be capa-
ble of entering the cells that line the digestive tract and gaining
entry to the bloodstream. From there, an infection can become
widely dispersed. A prominent example of a water borne
pathogen is Vibrio cholerae, the bacterium that causes cholera.
The contaminationof drinking water by this bacterium is still
at epidemic proportions in some areas of the world.
Pathogens can also be transmitted via the air. Viruses
and bacterial spores are light enough to be lifted on the breeze.
These agents can subsequently be inhaled, where they cause
lung infections. An example of such as virus is the Hanta
virus. A particularly prominent bacterial example is the spore
form of the anthrax-causing bacterium Bacillus anthracis. The
latter has also been identified as a bioterrorist weapon that can,
as exemplified in a 2001 terrorist attack on the United States,
be transmitted in mail that when opened or touched can result
in cutaneous or inhalation anthrax.
Still other microbial pathogens are transmitted from one
human to another via body fluids such as the blood. This route
is utilized by a number of viruses. The most publicized exam-
ple is the transmission of Human Immunodeficiency Virus
(HIV). HIV is generally regarded to be the cause of acquired
immunodeficiencysyndrome. As well, viruses that cause hem-
orrhagic fever (e.g., Ebola) are transmitted in the blood. If pre-
cautions are not taken when handling patients, the caregiver
can become infected.
Transmission of pathogens can occur directly, as in the
above mechanisms. As well, transmission can be indirect. An
intermediate host that harbors the microorganism can transfer
the microbes to humans via a bite or by other contact. Coxiella
burnetti, the bacterium that cause Q-fever, is transmitted to
humans from the handling of animals such as sheep. As another
example, the trypanosome parasite that causes sleeping sick-

nessenters the bloodstream upon the bite of a female mosquito
that acts as a vector for the transmission of the parasite.
Finally, some viruses are able to transmit infection over
long periods of time by become latent in the host. More
specifically, the genetic material of viruses such as the hepa-
titis viruses and the herpes virus can integrate and be carried
for decades in the host genome before the symptoms of infec-
tions appear.

See alsoAnthrax, terrorist use as a biological weapon;
Bacteria and bacterial infection; Epidemics and pandemics;
Yeast, infectious; Zoonoses

TRANSPLANTATION GENETICS AND

IMMUNOLOGYTransplantation genetics and immunology

There are several different types of transplantation. An auto-
graft is a graft from one part of the body to another site on the
same individual. An isograft is one between individuals that

Transmission of pathogens, such as those affecting poultry, can be
promoted by crowded living conditions.

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