There are many kinds of bacteria. Some bacteria is good for your body, and if you get rid of too much bacteria you can get a infection. [For example when you don't have enough bacteria in your vagina that's when you get a infection down there]. But you also can have problems if you have too much bacteria or a bad bacteria, it all depends on the type of bacteria.
No more than you could turn into a parrot. Some bacteria can transfer small segments of genetic material (plasmids) than might contain traits such as antibiotic resistance to other bacteria.
Yes - and vice-versa.
because it is in the food you eat.
toxin is inactive: In bacteria, the toxin is present in an inactive form, called prototoxin, which gets converted into active form when it enters the body of an insect
Nitrogen-Fixing bacteria. aka Rhizobium
Predominantly multicellular not in bacteria but in human body • Cell contains a nucleus and other membrane bound organelles not in bacteria but in human body • DNA occurs in a circular form in bacteria only
Nitrogen gas (N2) is converted by nitrogen-fixing bacteria that live in the root nodules of Legumes into NH3.
ammonia
because it is in the food you eat.
ammonia
Nitrogen Cyclenitrogen fixationnitrogennitrogen fixationNitrogen-fixing bacteria
toxin is inactive: In bacteria, the toxin is present in an inactive form, called prototoxin, which gets converted into active form when it enters the body of an insect
Bacteria change the consistency of the soil. That is they normally change the form in which nitrogen exists in the soil. This make it possible for plants to absorb all the right nutrients
Nitrogen-Fixing bacteria. aka Rhizobium
they have the capability to change the insoluble form of phosphorus into soluble one....
metamorphosis
Predominantly multicellular not in bacteria but in human body • Cell contains a nucleus and other membrane bound organelles not in bacteria but in human body • DNA occurs in a circular form in bacteria only
Although the air is made up of about 80% nitrogen, plants cannot use nitrogen in this N2 form. Nitrogen fixing bacteria change nitrogen into the form of soluble nitrates so that plants can use it. Other bacteria, known as de-nitrifying bacteria, change nitrates back into N2, which completes the nitrogen cycle
white blood cell.