We have the digestive system, our kidneys, and liver, and we also have an excretory system.
As you know, excretory systems consist of two parts: an “exocrine” section, which is what allows us to pass urine, and a “acute” section, which has the job of converting ammonia to urea. The excretory system has to do this because the ammonia, which is a very powerful oxidizer, can’t be absorbed into the bloodstream.
I’ve talked to many new mothers who have been struggling to breastfeed their babies for years. They’re still struggling with how to get ammonia into the bloodstream. I know it’s hard to swallow, and it’s impossible to absorb ammonia into the bloodstream, but a little bit of common sense should give you an idea of why ammonia is so important. If ammonia is converted into urea, that is the process that converts it into energy.
I know, right? Thats really good. But this is a little bit of a stretch. The most commonly accepted explanation for the development of urea is the anaerobic fermentation of the protein and nitrogen in the breath. If you’re a metabolic engineer you can probably do a better job explaining that than me. This would have to include a lot of other things that you or I would have to do, such as removing our mouths from the bodies of those with the condition.
This is actually why people with urea-storage organs (uric acid) exist. They are born with the ability to convert ammonia into urea, but only if they have an active urea-storage organ. It makes sense that those who have a functioning urea-storage organ would be born with the ability to convert ammonia into urea.
The brain can convert nitrogen to urea in a number of ways. It can also be converted into urea by two of the body’s other organs, kidneys. That’s how you can use kidneys to excrete ammonia from the body. The brain can also convert ammonia into urea in a number of different ways.
The brain can convert nitrogen into ammonia in a number of different ways. One version of it uses the excretory system, which is a way of excreting wastes out into the urine. Another version of it uses the urea-storage organ. The latter, which is more efficient, is used by the brain during the storage of ammonia.
Although ammonia is a major constituent of the brain, the brain does a lot of other things to convert ammonia into other compounds, including urea, which is an important compound in our bodies.
In humans, this conversion occurs in the kidneys. In other animals, the excretory system is used to excrete the ammonia into the urine. The ammonia is broken down by the liver and then converted to urea by the kidneys. This conversion also occurs in other animals, including dogs and cats.