Saturated fats, unsaturated fats, and trans fats | Biology | Khan Academy

Khan Academy

14 Jul 201508:56

Summary

TLDRThis educational script explains the molecular structure of triglycerides, highlighting the implicit presence of carbon and hydrogen atoms. It distinguishes between saturated fats with no double bonds, monounsaturated fats with one, and polyunsaturated fats with multiple double bonds. The script also clarifies the difference between cis and trans configurations in unsaturated fats, emphasizing the health risks associated with artificial trans fats, which are now banned in many places due to their detrimental effects.

Takeaways

📚 Triglyceride molecules are often represented in shorthand in chemistry and biology, with carbon atoms implicit at the vertices of the chain structures.
🔍 Every carbon atom is assumed to have four covalent bonds, with any unoccupied bonds filled by hydrogen atoms.
🔑 The presence of double bonds in triglycerides indicates an unsaturated fat, which can have different physical properties compared to saturated fats.
🍯 Saturated fats, like butter, are solid at room temperature due to the maximum hydrogenation and lack of kinks from double bonds.
🚫 Trans fats are artificially created and are considered very unhealthy, with detrimental effects on health, leading to bans in some regions.
🌱 Naturally occurring unsaturated fats are typically in the cis configuration, which causes the fat molecules to bend and be less dense.
🔄 The cis configuration of double bonds in unsaturated fats leads to a more liquid state at room temperature due to the difficulty in packing these molecules closely.
🔄 The trans configuration, where hydrogens are on opposite sides of the double bond, does not create kinks and can be solid at room temperature.
🍳 The process of hydrogenation intended to create a solid fat from liquid oils can also convert cis double bonds to trans, forming unhealthy trans fats.
🧪 The distinction between saturated, monounsaturated, and polyunsaturated fats is based on the number of double bonds present in the triglyceride molecule.
🌟 Nutritional debates aside, the script emphasizes understanding the chemical structures and properties of fats rather than outright labeling them as 'good' or 'bad'.

Q & A

What is the shorthand representation of triglyceride molecules?
-In the shorthand representation, the carbon atoms are implicit at each vertex of the chain, and if there's no letter at the end of the chain, there's also a carbon atom there. Hydrogen atoms are assumed to fill any remaining covalent bonds on each carbon atom.
Why are the carbons and hydrogens in triglyceride molecules often not explicitly shown?
-They are not explicitly shown to simplify the diagram of these large molecules, making it easier to visualize and understand their structure in chemistry, biology, and organic chemistry.
What is the difference between saturated and unsaturated fats in terms of their molecular structure?
-Saturated fats have only single bonds between carbon atoms, allowing for the maximum number of hydrogens, making them solid at room temperature. Unsaturated fats have one or more double bonds, leading to fewer hydrogens and a kinked structure, making them liquid at room temperature.
Why are saturated fats typically solid at room temperature?
-Saturated fats are typically solid at room temperature because their molecules can pack closely together without kinks due to the absence of double bonds, allowing for a more dense structure.
What is the role of double bonds in the structure of unsaturated fats?
-Double bonds in unsaturated fats create kinks in the fatty acid chain, preventing the molecules from packing closely together, which makes unsaturated fats more likely to be liquid at room temperature.
How are monounsaturated fats different from polyunsaturated fats?
-Monounsaturated fats have one double bond, while polyunsaturated fats have multiple double bonds. The presence of more double bonds in polyunsaturated fats makes them even more likely to be liquid at room temperature.
What is the significance of the cis and trans configurations in unsaturated fats?
-The cis configuration causes a bend in the fatty acid chain due to the hydrogens and carbon chains being on the same side of the double bond, while the trans configuration has them on opposite sides, which can affect the physical properties and health implications of the fat.
Why are trans fats considered unhealthy?
-Trans fats are unhealthy because they are often produced artificially and do not occur naturally. They can have negative health impacts, including raising bad cholesterol levels and increasing the risk of heart disease.
How are trans fats formed, and why were they used in food products?
-Trans fats are formed through a process of hydrogenation, where hydrogens are added to unsaturated fats to make them more solid. They were used in food products like shortening and margarine because they were cheaper to produce, had a longer shelf life, and provided a desirable texture.
What is the difference in molecular structure between cis and trans fats?
-In cis fats, the hydrogens and carbon chains are on the same side of the double bond, causing a bend in the molecule. In trans fats, they are on opposite sides, which straightens the molecule and can lead to a structure similar to saturated fats.