k Carnitine molecule Carnitine, molecular model. Carnitine is responsible for the transport of fatty acids from a cells cytoplasm into mitochondria, where they are oxidised to produce energy. It can be synthesised in the body from the amino acids lysine and methionine and is also found in many foods including red meat, green vegetables and cereals. Atoms are represented as spheres and are colourcoded carbon blue, hydrogen gold, oxygen red and nitrogen dark blue. Stock Photo - Afloimages
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Carnitine molecule Carnitine, molecular model. Carnitine is responsible for the transport of fatty acids from a cell s cytoplasm into mitochondria, where they are oxidised to produce energy. It can be synthesised in the body from the amino acids lysine and methionine and is also found in many foods including red meat, green vegetables and cereals. Atoms are represented as spheres and are colour coded: carbon blue , hydrogen gold , oxygen red and nitrogen dark blue .
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Carnitine molecule

Carnitine, molecular model. Carnitine is responsible for the transport of fatty acids from a cell's cytoplasm into mitochondria, where they are oxidised to produce energy. It can be synthesised in the body from the amino acids lysine and methionine and is also found in many foods including red meat, green vegetables and cereals. Atoms are represented as spheres and are colour-coded: carbon (blue), hydrogen (gold), oxygen (red) and nitrogen (dark blue).

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