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What is the equation for cellular respiration in carnivores as they don’t consume carbohydrates to break down into glucose in the following manner:

Glucose + oxygen -> water + CO2 +energy.

Do they (mammalian carnivores) primarily use ketones to produce energy without using glucose?

Does this mean that glucose is not the only energy source for humans/other animals?

Am I wrong in thinking that every source (protein, fats or carbohydrates) need to be convert into glucose for energy.

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  • $\begingroup$ Welcome to SE Biology. I have edited your question, primarily to replace the term diet/sports term "carbs" by the biochemical "carbohydrates". In addition I have tidied up a bit. I would express the opinion that your question is very naive for this site. Although you have received a useful answer, you really need to read a textbook on biochemistry to appreciate this and the topic in general. $\endgroup$ – David Jun 21 at 22:13
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Your guess is correct: glucose is not the sole source of energy in the cell!

While cellular respiration is the classic mechanism for energy production (in the form of ATP) in the cell, there's another process that's equally important and a little less well-known: beta oxidation. Beta oxidation is how fats and other lipids in the cell can be broken down to produce energy. In this process, the last two carbons in the long chain are sliced off and transferred to Acetyl-CoA, which can then be used in the citric acid cycle to produce ATP.

Here's the equation describing it:

$$C_{n}acyl-CoA+FAD+NAD^{+}+H_{2}O+CoA -> C_{n-2}acyl-CoA+FADH_{2}+NADH+H^++acetylCoA$$

And here's a good diagram from the Wikipedia page that summarizes it:

Beta oxidation diagram

Courtesy of Cruithne9 on Wikipedia [CC BY-SA 4.0 (https://creativecommons.org/licenses/by-sa/4.0)]

This process is why fats actually have a higher energy density than sugars: 9 Cal/g, as opposed to sugar's 4. It's also why organisms tend to use fats as energy storage - while sugar and cellular respiration is great for immediate energy, fats are stable and energy dense so it's an evolutionarily favored idea to use them for long-term storage.

You're also quite correct that animals don't tend to have a lot of free sugars and carbohydrates, unlike plants. Instead, we've converted those carbs into the fat molecules via the reverse process, fatty acid synthesis. So, carnivores largely get their energy from beta oxidation and the metabolism of fats, rather than glucose.

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  • $\begingroup$ Ah thanks for the equation. Wondered how the energy was produced ! Cheers $\endgroup$ – TheSprintingEngineer Jun 22 at 4:48

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