Ribosomes WORLD OF MICROBIOLOGY AND IMMUNOLOGY492•
Ribosomal RNAs fold in very complex ways. Their
structure is an important clue to the evolutionary relationships
found between different kinds of organisms. Sequence com-
parisons of the various rRNAs across various species show
that even though their base sequences vary widely, evolution
has conserved their secondary structures, therefore, organiza-
tion must be important for their function.
Since the 1970s, nucleic acids’ cellular processes have
become the basis for genetic engineering, in which scientists
add or remove genes in order to alter the characteristics or
behavior of cells. Such techniques are used in agriculture,
pharmaceutical and other chemical manufacturing, and med-
ical treatments for cancer and other diseases.See alsoBiochemistry; Genetic regulation of eukaryotic cellsRRibosomesIBOSOMES
Ribosomes are organelles that play a key role in the manufac-
ture of proteins. Found throughout the cell, ribosomes are
composed of ribosomal ribonucleic acid(rRNA) and proteins.
They are the sites of protein synthesis.
Although Robert Hookefirst used a light microscopeto
look at cells in 1665, it was only during the last few decades
that the cell’s organelles were discovered. This is primarily
because light microscopes do not have the magnifying power
required to see these tiny structures. Using an electron micro-
scope, scientists have been able to see most of the cells sub-
structures, including the ribosomes.
Ribosomes are composed of a variety of proteins and
rRNA. They are organized in two functional subunits that are
constructed in the cell’s nucleolus. One is a small subunit that
has a squashed shape, while another is a large subunit that is
spherical in shape. The large subunit is about twice as big as
the small unit. The subunits usually exist separately, but join
when they are attached to a messenger RNA(mRNA). This ini-
tiates protein synthesis.
Production of a protein begins with initiation. In this
step, the ribosomal small subunit binds to the mRNA along
with the first transfer RNA (tRNA). The next step is elonga-
tion, where the ribosome moves along the mRNA and strings
together the amino acids one by one. Finally, the ribosome
encounters a stop sequence and the two subunits release the
mRNA, the polypeptide chain, and the tRNA.
Protein synthesis occurs at specific sites within the ribo-
some. The P site of a ribosome contains the growing protein
chain. The A site holds the tRNA that has the next amino acid.
The two sites are held close together and a chemical reaction
occurs. When the stop signal is present on the mRNA, protein
synthesis halts. The polypeptide chain is released and the ribo-
some subunits are returned to the pool of ribosome units in the
cytoplasm.
Ribosomes are found in two locations in the cell. Free
ribosomes are dispersed throughout the cytoplasm. Bound
ribosomes are attached to a membranous structure called the
endoplasmic reticulum. Most cell proteins are made by the
free ribosomes. Bound ribosomes are instrumental in produc-ing proteins that function within or across the cell membrane.
Depending on the cell type, there can be as many as a few mil-
lion ribosomes in a single cell.
Because most cells contain a large number of ribo-
somes, rRNA is the most abundant type of RNA. rRNA plays
an active role in ribosome function. It interacts with both the
mRNA and tRNA and helps maintain the necessary structure.
Transfer RNA is the molecule that interacts with the mRNA
during protein synthesis and is able to read a three amino acid
sequence. On the opposite end of the tRNAs, amino acids are
bonded on a growing polypeptide chain. Generally, it takes
about a minute for a single ribosome to make an average sized
protein. However, several ribosomes can work on a single
mRNA at the same time. This allows the cell to make many
copies of a single protein rapidly. Sometimes these multiple
ribosomes, or polysomes, can become so large that they can be
seen with a light microscope.
The ribosomes in eukaryotes and prokaryotes are
slightly different. Eukaryotic ribosomes are generally larger
and are made up of more proteins. Since many diseases are
caused by prokaryotes, these slight differences have important
medical implications. Drugs have been developed that can
inhibit the function of a prokaryotic ribosome, but leave the
eukaryotic ribosome unaffected. One example is the antibiotic
tetracycline.See alsoProtein synthesisRRickettsia and rickettsial poxICKETTSIA AND RICKETTSIAL POX
Rickettsiaare a group of bacteriathat cause a number of seri-
ous human diseases, including the spotted fevers and typhus.
Rod- or sphere-shaped, rickettsia lack both flagella (whip-like
organs that allow bacteria to move) and pili (short, flagella-
like projections that help bacteria adhere to host cells).
Specific species of rickettsia include Rickettsia rickettsii,
which causes the dangerous Rocky Mountain spotted fever; R.
akari,which causes the relatively mild rickettsial pox; R.
prowazekii,which causes the serious disease epidemic typhus;
R. typhi,the cause of the more benign endemic or rat typhus;
and R. tsutsugamushi,the cause of scrub typhus.
Rickettsia are transmitted to humans by insects such as
ticks, mites, and chiggers. Usually the insect has acquired the
bacteria from larger animals which they parasitize, such as
rats, mice, and even humans. When an insect infected with
rickettsia bites a human, the bacteria enter the bloodstream.
From there, unlike most other bacteria that cause infection by
adhering to cells, rickettsia enter specific human cells, where
they reproduce. Eventually these host cells lyse (burst open),
releasing more rickettsia into the bloodstream. Most rickettsial
diseases are characterized by fever and a rash. Although all
can be effectively cured with antibiotics, some of the rick-
ettsial diseases, such as epidemic typhus and Rocky Mountain
spotted fever, can be fatal if not treated promptly.
Rocky Mountain spotted fever is one of the most severe
rickettsial diseases. First recognized in the Rocky Mountains,
it has since been found to occur throughout the United States.womi_R 5/7/03 8:17 AM Page 492