Biological warfare WORLD OF MICROBIOLOGY AND IMMUNOLOGY
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data or only protein sequence data), currently available for
these purposes are the European Molecular BiologyDNA
Sequence Database (EMBL), GenBank, SwissProt and the
Protein Identification Resource (PIR). Secondary databases
contain information derived from other databases. Specialist
databases, or knowledge databases, are collections of
sequence information, expert commentary and reference liter-
ature. Finally, integrated databases are collections (amalgama-
tions) of primary and secondary databases.
The area of bioinformatics concerned with the deriva-
tion of protein sequences makes it conceivable to predict
three-dimensional structures of the protein molecules, by use
of computer graphics and by comparison with similar pro-
teins, which have been obtained as a crystal. Knowledge of
structure allows the site(s) critical for the function of the pro-
tein to be determined. Subsequently, drugs active against the
site can be designed, or the protein can be utilized to
enhanced commercial production processes, such as in phar-
maceutical bioinformatics.
Bioinformatics also encompasses the field of compara-
tive genomics. This is the comparison of functionally equiva-
lent genes across species. A yeast gene is likely to have the
same function as a worm protein with the same amino acid.
Alternately, genes having similar sequence may have diver-
gent functions. Such similarities and differences will be
revealed by the sequence information. Practically, such
knowledge aids in the selectionand design of genes to instill
a specific function in a product to enhance its commercial
appeal.
The most widely known example of a bioinformatics
driven endeavor is the Human Genome Project. It was initi-
ated in 1990 under the direction of the National Center for
Human Genome Research with the goal of sequencing the
entire human genome. While this has now been accomplished,
the larger aim of determining the function of each of the
approximately 50,000 genes in the human genome will require
much further time and effort. Work related to the Human
Genome Project has allowed dramatic improvements in
molecular biological techniques and improved computational
tools for studying genomic function.
See also Hazard Analysis and Critical Point Program
(HAACP); Immunological analysis techniques; The Institute
for Genomic Research (TIGR); Medical training and careers
in microbiology; Transplantation genetics and immunology
BBiological warfareIOLOGICAL WARFARE
Biological warfare, as defined by The United Nations, is the
use of any living organism (e.g. bacterium, virus) or an infec-
tive component (e.g., toxin), to cause disease or death in
humans, animals, or plants. In contrast to bioterrorism, bio-
logical warfare is defined as the “state-sanctioned” use of bio-
logical weapons on an opposing military force or civilian
population.
Biological weapons include viruses, bacteria, rickettsia,
and biological toxins. Of particular concern are genetically
altered microorganisms, whose effect can be made to be
group-specific. In other words, persons with particular traits
are susceptible to these microorganisms.
The use of biological weapons by armies has been a
reality for centuries. For example, in ancient records of battles
exist the documented use of diseased bodies and cattle that had
died of microbial diseases to poison wells. There are even
records that infected bodies or carcasses were catapulted into
cities under siege.
In the earliest years of the twentieth century, however,
weapons of biological warfare were specifically developed by
modern methods, refined, and stockpiled by various govern-
ments.
During World War I, Germany developed a biological
warfare program based on the anthrax bacillus (Bacillus
anthracis) and a strain of Pseudomonas known as
Burkholderia mallei. The latter is also the cause of Glanders
disease in cattle.
Allied efforts in Canada, the United States, and Britain
to develop anthrax-based weapons were also active in World
War II During World War II, Britain actually produced five
million anthrax cakes at the U.K. Chemical and Biological
Defense Establishment at Porton Down facility that were
intended to be dropped on Germany to infect the food chain.
The weapons were never used. Against their will, prisoners in
German Nazi concentration camps were maliciously infected
with pathogens, such as hepatitisA, Plasmodiaspp., and two
types of Rickettsiabacteria, during studies allegedly designed
to develop vaccines and antibacterial drugs. Japan also con-
ducted extensive biological weapon research during World
War II in occupied Manchuria, China. Unwilling prisoners
were infected with a variety of pathogens, including Neisseria
meningitis, Bacillus anthracis, Shigella spp, and Yersinia
pestis. It has been estimated that over 10,000 prisoners died as
a result of either infection or execution following infection. In
addition, biological agents contaminated the water supply and
some food items, and an estimated 15 million potentially
plague-infected fleas were released from aircraft, affecting
many Chinese cities. However, as the Japanese military found
out, biological weapons have fundamental disadvantages: they
are unpredictable and difficult to control. After infectious
agents were let loose in China by the Japanese, approximately
10,000 illnesses and 1,700 deaths were estimated to have
occurred among Japanese troops.
A particularly relevant example of a microorganism
used in biological warfare is Bacillus anthracis. This bac-
terium causes anthrax. Bacillus anthraciscan live as a vegeta-
tive cell, growing and dividing as bacteria normally do. The
organism has also evolved the ability to withstand potentially
lethal environmental conditions by forming a near-dormant,
highly resistant form known as a spore. The spore is designed
to hibernate until conditions are conducive for growth and
reproduction. Then, the spore resuscitates and active meta-
bolic life resumes. The spore form can be easily inhaled to
produce a highly lethal inhalation anthrax. The spores quickly
and easily resuscitate in the warm and humid conditions of the
lung. Contact with spores can also produce a less lethal but
dangerous cutaneous anthrax infection.
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