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Lipids Structure and Function

Lipids Structure and Function

FromMy AP Biology Thoughts


Lipids Structure and Function

FromMy AP Biology Thoughts

ratings:
Length:
6 minutes
Released:
Apr 6, 2021
Format:
Podcast episode

Description

My AP Biology Thoughts  Unit 1 Episode #43Welcome to My AP Biology Thoughts podcast, my name is Helena and I am your host for episode #43 called Unit 1 Lipids Structure, Function & Example. Today we will be discussing what lipids are and look at some examples. Then we will take a look at their significance. Segment 1: Introduction to Lipids, Structure & Examples First of all, what are Lipids? Well, Lipids are molecules that contain hydrocarbons and yield high energy. They are formed by the chemical linking of small constituent molecules. They consist of a glycerol molecule (which is a small organic molecule with three hydroxyl groups) that is bonded to long hydrocarbon chains and depending on the lipid, they can be bonded to other molecules as well. Lipids are hydrophobic meaning they are nonpolar and insoluble in water. Some are amphipathic. This means that part of the lipid is hydrophobic and another part in hydrophilic. These lipids form molecular aggregates with their hydrophilic ends touching the water and the hydrophobic parts on the inside. This is what oil looks like when mixed with water. So now that we understand what Lipids are, let's take a look at some examples.Segment 2: Example of LipidsThere are many varieties of lipids, and each of these varieties have different structures and functions. The main groups of lipids are Triglycerides, Phospholipids, Steroids, and Waxes. Triglycerides are your fats and oils. They consist of a glycerol backbone and three fatty acid tails. A fatty acid is a long hydrocarbon chain attached to a carboxyl group. The fatty acid tail is bound to the glycerol backbone via ester linkages, which are linkages containing an oxygen atom next to a carbonyl. Triglycerides can be unsaturated or saturated. In order to be saturated the bonds between neighboring carbons in the hydrocarbon chain have to be single bonds. In order to be unsaturated there has to be at least one double bond between neighboring carbons in the hydrocarbon chain. Saturated triglycerides are called fats and they are solid at room temperature because of their tightly packed. They are mainly found in animals. Unsaturated triglycerides are called oils and they are liquid at room temperature because of their cis structure that causes them to bend so they cant be tightly backed like saturated fats. They are mainly found in fish and plants. Phospholipids consist of a glycerol backbone, two fatty acid tails, and the modified phosphate group occupies the third carbon in the glycerol backbone. These are amphipathic molecules. The fatty acid tail chains are hydrophobic, and the phosphate group head is hydrophilic. Phospholipids are found in biological membranes because of their amphipathic property. Their hydrophobic tails stand as a barrier between the inside of the cell and its surroundings while the hydrophilic ends touch the outside and inside of the cell and allow for only certain components to travel between the membrane. This structure is called a bilayer, and it creates a low-energy, stable arrangement. Steroids are another lipid molecule. Their structure consists of four fused carbon rings. The hydrocarbon tail is connected to the steroid at one end, and the hydroxyl group is connected to the other end. Many steroids have an -OH functional group (called sterols), and some have short tails. Cholesterol is the most common steroid, is mainly created in the liver, and is the precursor to many steroid hormones. For example, sex hormones, testosterone and estradiol. In the bloodstream there is good and bad cholesterol. HDL is good and lowers your...
Released:
Apr 6, 2021
Format:
Podcast episode

Titles in the series (100)

The AP Biology Thoughts podcast is created by students for AP Biology students. At the end of each unit, students select topics to define, provide examples, and to make deeper connections to other units and the course.