Rhizopus oligosporus
Jual Culture Rhizopus oligosporus
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Rhizopus oligosporus is a
fungus of the family Mucoraceae and is a widely used starter culture for the
production of tempeh at home and industrially. As the mold grows it produces
fluffy, white mycelia, binding the beans together to create an edible
"cake" of partly catabolized soybeans. The domestication of the
microbe is thought to have occurred in Indonesia several centuries ago.
R. oligosporus is the
preferred starter culture for tempeh production for several reasons. It grows
effectively at high temperatures (30-40 °C) which are typical of the Indonesian
islands, it exhibits strong lipolytic and proteolytic activity that create
desirable properties in tempeh and it produces metabolites that allows it to
inhibit and thus outcompete other molds and gram-positive bacteria, including
the potentially harmful Aspergillus flavus and Staphylococcus aureus.
R. oligosporus is at
present considered to be a domesticated form of Rhizopus microsporus and its
proper taxonomic position is thus Rhizopus microsporus var. oligosporus. R.
microsporus produces several potentially toxic metabolites, rhizoxin and
rhizonins A and B, but it appears the domestication and mutation of the R.
oligosporus genome has led to the loss of genetic material responsible for
toxin production.[4]
Rhizopus oligosporus is a
fungus that belongs to the class Zygomycetes, which is one of two classes in
the phylum Zygomycota. Rhizopus oligosporus belongs to the Rhizopus microsporus
group. This group is made of taxa with similar morphology that are associated
with undesired metabolite production, pathogenesis and food fermentation.
Although other varieties in Rhizopus microscopus may be harmful, Rhizopus
oligosporus is not associated with production of potentially harmful metabolites.
It is not found in nature and is frequently used by humans.[6] Rhizopus
oligosporus strains have a large (up to 43 mm) and irregular spores with the
most variable sizes. This is, for instance, reflected as high values in the
spore volume (96–223 mm3/spore).Rhizopus oligosporus has large, subglobose to
globose spores, and high proportion irregular spores (>10 %). Rhizopus
oligosporusalso has spores with nonparallel valleys and ridges, and plateaus
that sometimes are granular.
Rhizopus oligosporous role
in Tempeh fermentation. A popular Indonesian food, Tempeh, is created by
fermenting soybeans in combination with Rhizopus oligosporus. In order to
create tempeh, soybeans must first be soaked in water (usually overnight) at a
temperature similar to the environment it is placed in. The soybean’s outer
covering is then removed and the beans are partially cooked. Lactic acid
bacteria, like Lactococcus and Lb. casei species, play a major role in the
fermentation of tempeh. For the tempeh to ferment, there needs to be a
suitable, pure inoculum. Also, spores with a tendency for fast germinability
are needed, as well. In order for the tempeh to attain its characteristic
compact ‘cake’ form after fermentation, the soybeans become compressed due to
the mycelia of Rhizopus oligosporus.Rapidly growing mycelia helps speed up the
growth of this fungus. Because mycelia are quite sensitive to dehydration and
adverse temperatures, preserving tempeh for extended periods of time can be
challenging.
When the soybeans are
bound together by the white mycelium, the fungus releases enzymes that make
this heavily protein-rich product more digestible for humans.[6] Tempeh-like
foods can also be created from cereal grains such as wheat and rice. Many
times, a good inoculum for this new fermentation actually comes from tiny
pieces of old tempeh that have already been fermented.
Tempeh has the potential
to be used in many high-protein foods due to its mild flavor when fried in
vegetable oil.[7] Containing more than 40% protein, tempeh is often used as a
meat-substitute. This product is used in soups or can simply be sliced and
seasoned.
Even after it is consumed,
Rhizopus oligosporous produces an antibiotic that limits gram-positive bacteria
like Staphylococcus aureus (potentially harmful) and Bacillus subtilis
(beneficial). Thus, people who eat tempeh tend to have fewer intestinal
infections.[9] Tempeh contains ergosterol (provitamin D2). Beneficial effects
of tempeh include inhibiting tumor development, lowering cholesterol and
decreasing diarrhea issues, iron-defficient anaemia, lipid oxidation and
hypertension.[10] This fungus can also treat waste and wastewater, produce
industrial enzymes and ferment other substrates like other legumes and cereals.
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