Microbiology and Immunology

(Axel Boer) #1
WORLD OF MICROBIOLOGY AND IMMUNOLOGY Jenner, Edward

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operon (or lac operon as it is called), this regulator gene codes
for a repressor protein. The repressor protein does one of two
things. When no lactose is present, the repressor protein
attaches to the operator and inactivates it, in turn, halting
structural gene activity and protein synthesis. When lactose is
present, however, the repressor protein binds to the regulator
gene instead of the operator. By doing so, it frees up the oper-
ator and permits protein synthesis to occur. With a system such
as this, a cell can adapt to changing environmental conditions,
and produce the proteins it needs when it needs them.
A year after publication of this paper, Jacob won the
Charles Leopold Mayer Prize of the French Academy of
Sciences. In 1964, Collège de France also recognized his
accomplishments by establishing a special chair in his honor.
His greatest honor, however, came in 1965 when he, Lwoff,
and Monod shared the Nobel Prize for Physiology or
Medicine. The award recognized their contributions “to our
knowledge of the fundamental processes in living matter
which form the bases for such phenomena as adaptation,
reproduction and evolution.”
During his career, Jacob wrote numerous scientific pub-
lications, including the books The Logic of Life: A History of
Hereditaryand The Possible and the Actual.The latter, pub-
lished in 1982, delves into the theory of evolution and the line
that he believes must be drawn between the use of evolution
as a scientific theory and as a myth.

See alsoBacteriophage and bacteriophage typing; Evolution
and evolutionary mechanisms; Evolutionary origin of bacteria
and viruses; Genetic regulation of eukaryotic cells; Genetic
regulation of prokaryotic cells; Immunogenetics; Molecular
biology and molecular genetics; Molecular biology, central
dogma of; Viral genetics

JANNASCH, HOLGERWINDEKILDE

(1927-1998)Jannasch, Holger Windekilde
German marine microbiologist

Holger Jannasch was a marine microbiologist who made fun-
damental contributions to the study of microbial life in the
extreme environment of the deep-sea. His discoveries helped
reveal a hitherto unknown type of bacterial growthand broad-
ened human knowledge about the diversity of life on Earth.
Jannasch was born in Holzminden, Germany. After a
short stint as a lumberjack, he returned to school. His educa-
tional experiences and a job as a warden at a coastal bird sanc-
tuary stimulated an interest in both biological life and the
ocean. These interests were pursued during graduate studies at
the University of Göttingen. He received his Ph.D. in biology
in 1955. From 1956 to 1960 he was an assistant scientist at the
Max Planck Society. At the same time he was also a post-doc-
toral fellow at the Scripps Institution of Oceanography in San
Diego, California, and at the University of Wisconsin. From
1961 to 1963 he served as an assistant professor in the
Department of Microbiology at the University of Göttingen.

He also held the position of Privatdozent at that University
from 1963 until his death.
Visits to the Woods Hole Oceanographic Institution in
the early 1960s lead to his joining the institution in 1963. He
remained there for the remainder of his career and life.
While at Woods Hole, Jannasch proved to be a consum-
mate mentor and educator. As well, he was a prolific researcher.
His main interests were the growth of microorganismsin the
sea, the existence of microbes at the low temperature and high
pressure of the ocean depths, and the microbial processes taking
place at hydrothermal ventson the ocean floor. Indeed, it was
Jannasch who discovered hydrothermal vents.
Jannasch’s research on the hydrothermal vents and their
associated bacterial populations became classic papers that
inspired other microbiologists to similar research. His discov-
ery of sulfur-utilizing bacteria that support an entire
hydrothermal ecosystem has had major implications for deep
sea microbial ecology and may be of fundamental importance
to providing insight into the origin of lifeon Earth.
Jannasch was also a seminal influence of the field of
microbial ecology. He was a participating author on some 200
research publications. For these and other accomplishments in
microbial ecology, a new microorganism was named for him
in 1966: Methanococcus jannaschii. That same year Woods
Hole established the Holger W. Jannasch Chair in recognition
of his accomplishments.
Many other awards and honors were bestowed on
Jannasch during his career. Foe example, in 1995 he was one
of only a handful of non-United States citizens elected to the
National Academy of Sciences.

See alsoExtremophiles

JJenner, Edward ENNER, EDWARD(1749-1823)

English physician

Edward Jenner discovered the process of vaccination, when he
found that injection with cowpoxprotected against smallpox.
His method of immunizationvia vaccination ushered in the
new science of immunology.
Jenner was born in Berkeley, England, the third son and
youngest of six children of Stephen Jenner, a clergyman of the
Church of England. He was orphaned at age five and was
raised by his older sister, who was married to a clergyman.
When Jenner was thirteen years old, he was apprenticed to a
surgeon. Then in 1770, he moved to London, England, to work
with John Hunter (1728 – 1798), an eminent Scottish anatomist
and surgeon who encouraged Jenner to be inquisitive and
experimental in his approach to medicine. Jenner returned to
Berkeley in 1773, and set up practice as a country doctor.
During and prior to Jenner’s lifetime, smallpox was a
common and often fatal disease worldwide. Many centuries
before Jenner’s time, the Chinese had begun the practice of
blowing flakes from smallpox scabs up the nostrils of healthy
persons to confer immunityto the disease. By the seventeenth
century, the Turks and Greeks had discovered that, when
injected into the skin of healthy individuals, the serum from the

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