68 4 Taxonomy, Physiology, and Ecology of Aquatic Microorganisms
for the production of energy rich carbohydrates
( sugars) in the Calvin cycle (see Fig. 4.1 1 ).
The fixation or reduction of carbon dioxide is a
lightindependent process in which carbon dioxide
combines with a fivecarbon sugar, ribulose 1,5bis
phosphate (RuBP), to yield two molecules of a three
carbon compound, glycerate 3phosphate (GP), also
known as 3phosphoglycerate (PGA). GP, in the pres
ence of ATP and NADPH from the lightdependent
stages, is reduced to glyceraldehyde 3phosphate
(G3P) and enters the citric acid cycle.
The processes of photosynthesis can be represented
by the general formula:
where H 2 A is the source of the reducing power for the
conversion of CO 2 to carbohydrates.
In higher plants, algae and cyanobacteria, where
water is the source of the reducing power photosynthe
sis, can be represented thus:
In bacteria, other than cyanobacteria, where water
is not the source of reducing power and hence oxygen
is not involved (anoxygenic), for example, the green
sulfur bacteria, where hydrogen sulfide is utilized, the
photosynthetic equation is given thus:
Summary: Differences Between Photosynthesis
in Plants and in the Bacteria
Like green plants, some bacteria are photosynthetic,
using the energy of sunlight to reduce carbon dioxide to
carbohydrate. There are a number of differences between
the two groups which are summarized below:- Chlorophyll and bacteriochlorophyll
Chlorophyll, the photosynthetic pigment in plants,
is replaced in bacteria by bacteriochlorophyll
(except in the Cyanobacteria). Both types of
pigments are similar and differ only in some side
chains (see Fig. 4.12). - Sites for photosynthesis in green plants and bacteria
In higher plants, photosynthesis takes places in
membraneous structures known as thylakoids which
are located in organelles known as chloroplasts. In
bacteria, the site for photosynthesis varies from one
group of bacteria to the other. In the cyanobacteria,
although chloroplasts are absent, photosynthesis
occurs in thylakoidlike structures; in helicobacte
ria, it takes place on the cell membranes; in the
purple bacteria, it takes place in invaginations of the
cell membrane; in the green bacteria, it takes place
on the cell membrane as well as in special membrane
folding known as chlorosomes. - Oxygenic and anoxygenic photosynthesis
In higher plants, algae and cyanobacteria, the light
energy excites the molecules of chlorophyll leading
to release of energy which splits the water molecule
and to the release of oxygen as a byproduct, and
finally the provision of H for fixing the CO 2. In most
CO 22 +⇒ ++2H A CH O H O 2A,2 2
CO 22 + ⇒ ++2H O CH O H O O .2 2 2
CO 22 + = ++2H S CH O H O 2S.2 2
Fig. 4.13 Wavelengths
of chorophylls and
photosythetic accessory
pigments (Modified from
Photosynthesis: Light
energy transduced to
chemical energy; http://
phototroph.blogspot.
com/2006/11/pigments-
andabsorptionspectra.
html)