, E. coli, and others. (2) apical growth. e.g. Corynebacterium diphtheriae''. This is
bacterial proliferation. Organisms in the
domains of
Archaea and
Bacteria reproduce with binary fission. This form of
asexual reproduction and
cell division is also used by some
organelles within
eukaryotic organisms (e.g.,
mitochondria). Binary fission results in the reproduction of a living
prokaryotic cell (or organelle) by dividing the cell into two parts, each with the potential to grow to the size of the original.
Fission of prokaryotes The single DNA molecule first replicates, then attaches each copy to a different part of the cell membrane. When the cell begins to pull apart, the replicated and original
chromosomes are separated. The consequence of this asexual method of reproduction is that all the cells are genetically identical, meaning that they have the same genetic material (barring random
mutations). Unlike the processes of
mitosis and
meiosis used by eukaryotic cells, binary fission takes place without the formation of a
spindle apparatus on the cell. Like in mitosis (and unlike in meiosis), the parental identity is not lost.
Fragmentation FtsZ is homologous to
β-tubulin, the building block of the microtubule cytoskeleton used during mitosis in eukaryotes. FtsZ is thought to be the first protein to localize to the site of future division in bacteria, and it assembles into a Z ring, anchored by FtsZ-binding proteins and defines the division plane between the two daughter cells. More specifically, the following steps occur: • The bacterium before binary fission is when the DNA is tightly coiled. • The DNA of the bacterium has uncoiled and duplicated. • The DNA is pulled to the separate poles of the bacterium as it increases the size to prepare for splitting. • The growth of a new cell wall begins to separate the bacterium (triggered by
FtsZ polymerization and "Z-ring" formation) • The new cell wall (
septum) fully develops, resulting in the complete split of the bacterium. • The new daughter cells have tightly coiled DNA rods,
ribosomes, and
plasmids; these are now brand-new organisms. Studies of bacteria made to not produce a cell wall, called
L-form bacteria, indicate that FtsZ requires a
cell wall to work. Little is known about how bacteria that naturally don't grow a cell wall divide, but it is thought to resemble the L-form's
budding-like division process of extrusion and separation.
Speed of FtsZ-dependent Fission Binary fission is generally rapid, though its speed varies between species. For
E. coli, cells typically divide about every 20 minutes at 37 °C. Because the new cells will, in turn, undergo binary fission on their own, the time binary fission requires is also the time the bacterial culture requires to double in the number of cells it contains. This time period can, therefore, be referred to as the
doubling time. Some species other than
E. coli may have faster or slower doubling times: some strains of
Mycobacterium tuberculosis may have doubling times of nearly 100 hours. Bacterial growth is limited by factors including nutrient availability and available space, so binary fission occurs at much lower rates in bacterial cultures once they enter the
stationary phase of growth.
In archaea Thermoproteota (formerly
Crenarchaeota) possess neither a cell wall nor the FtsZ mechanism. They use a primitive version of the eukaryotic
ESCRT-III system (also known as
Cdv) to manipulate the membrane into separating, specifically by coming into the middle of the two soon-to-be daughter cells.
Fission of organelles Some organelles in eukaryotic cells reproduce using binary fission.
Mitochondrial fission occurs frequently within the cell, even when the cell is not actively undergoing mitosis, and is necessary to regulate the cell's
metabolism. All
chloroplasts and some
mitochondria (not in animals), both organelles derived from
endosymbiosis of bacteria, also use FtsZ in a bacteria-like fashion.
Types of binary fission Binary fission in organisms can occur in four ways:
irregular,
longitudinal,
transverse, or
oblique. For example: •
Irregular: In this fission,
cytokinesis may take place along any plane but it is always perpendicular to the plane of
karyokinesis (nuclear division). e.g.
Amoeba. •
Longitudinal: Here cytokinesis takes place along the longitudinal axis. e.g. in
flagellates like
Euglena. •
Transverse: Here cytokinesis takes place along the transverse axis. e.g. in
ciliate protozoans like
Paramecium. •
Oblique: In this type of binary fission, cytokinesis occurs obliquely. Example
Ceratium. Binary fission means "division into two". It is the simplest and most common method of asexual reproduction. ==Multiple fission==