4.1 Taxonomy of Microorganisms in Aquatic Environments 55
serve as excellent antigens. The test includes
production of antibodies in an animal host and test
ing of the antiserum by either the agglutination or
precipitation test. In the agglutination test, a drop of
the culture of a particular bacterium is mixed on a
slide with the antiserum of an individual infected
by it and examined under a microscope. If clump
ing occurs, the test bacterium is considered to be
the same or closely related to the bacterium used as
the antigen.Nucleic Acid Methods
The methods for the characterization and identification
of bacteria which have been discussed so far are based
on phenotypic properties, i.e., the outward manifesta
tion of the innate (genetic) attributes of the organism.
The properties to be discussed in this section are those
of the nucleic acids of the organisms. They alone how
ever do not define the organism and must be taken along
with the phenotypic properties. They are very useful in
refining the description of an organism. They are par
ticularly useful in identifying strains within a species.
(a) G + C ratio
The G + C ratio is the percentage of guanine + cyto
sine in an organism’s DNA. Several methods exist
for determining this ratio. One method is to deter
mine the Tm or temperature of melting of the DNA.
At room temperature, DNA is double stranded.
However, as its temperature is raised gradually,
the two strands separate and the rapidity of separa
tion with increasing temperature depends on the
amount of G and C in the organism’s DNA. G and
C are linked by triple bonds and are therefore less
likely to separate than A and T bonds, which have
double bonds. The higher the G + C content, the
higher the temperature at which the DNA separates
completely.
DNA begins to separate at 70–75°C and separates
completely at about 90°C, when it is said to have
melted. When cooled slowly, it begins to anneal
(i.e., to reform itself into double strands). In anneal
ing, the strands do not return to their previous
“ partners” but will anneal with any strand with com
plimentary bases no matter the source, including
those coming from the same organism, other orga
nisms, or even those synthesized in the laboratory.
This phenomenon of annealing with complimentary
strands from any source is important in other proce
dures such as in the identification of unknowns, the
Polymerase Chain Reaction (PCR), etc.
When the Tm method is used to determine the
G + C composition, the temperature of the double
(ds) DNA is raised slowly and subjected to spectro
photometric reading at 260 nm. The graph of the
spectrophotometric readings is plotted against
the change in temperature (see Fig. 4.8). The Tm is
the midpoint of the resulting graph. Two organisms
with similar phenotypic properties and the same
G + C ratio are likely to belong to the species.
(b) DNA–DNA hybridization
This technique measures the degree of genetic
similarity between pools of DNA sequences. It is
usually used to determine the genetic distance
between two species.
It was seen above that when melted DNA is
allowed to cool slowly, the singlestranded DNA
will anneal with any singlestranded DNA no
matter its source, as long the bases are complimen
tary. To determine how closely related an unknown
organism is with a known one, DNA from the twoFig. 4.8 Determination of
temperature of melting
(Tm) of DNA