Answer: The body makes sure that food does not get into the lungs because the epiglottis closes the air pathway so that food will not enter it.
<h2>
Fungal Diseases In Humans </h2>
Explanation:
<u><em>Fungal Disease-</em></u><u> </u>
- Parasitic maladies are frequently brought about by growths that are regular in nature. Most parasites are not perilous, yet a few sorts can be destructive to <em>wellbeing.</em>
- Mellow contagious skin ailments can resemble a rash and are exceptionally normal. Parasitic infections in the lungs are frequently like different ailments, for example, this season's flu virus or tuberculosis.
- The side effects of a parasitic disease will rely upon the sort, however regular manifestations incorporate the accompanying such as skin changes, including red and perhaps splitting or stripping skin. tingling.
- Fungi cause three different types of human illness such as <em>poisonings, parasitic infections, and allergies</em>.
- Many poisonous mushrooms are eaten by mistake because they look like edible mushrooms. <em>Parasitic yeasts cause candidiasis, ringworm, and athlete's foot. Mold allergies are very common.
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<u><em>Use of Phylogenetic Trees-
</em></u>
- A phylogenetic tree is a diagram that represents evolutionary relationships among organisms. Phylogenetic trees are hypotheses, not definitive facts.
- The pattern of branching in a phylogenetic tree reflects how species or other groups evolved from a series of common ancestors.
- In trees, two species are more related if they have a more recent <em>common ancestor and less related if they have a less recent common ancestor.
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- Phylogenetic trees can be drawn in various equivalent styles. Rotating a tree about its branch points doesn't change the information it carries.
Your answer would be Electrons. Positive protons and negative Electrons need eachother to balance out.
Answer:
Use Phosphotransferase system where glucose is not available.
Explanation:
Streptococcus pyogenes uses its phosphotransferase system for the uptake and metabolism of non-glucose carbohydrate sources in the environment where glucose is not available. Streptococcus pyogenes also uses malate which is a dicarboxylic organic acid that is present in large amount in both tissue and in the external environment. This malate is a non-glucose carbohydrate source used by Streptococcus pyogenes for the production of energy.
