Lipids and Sugars Lecture 1 PDF

Summary

This document provides a lecture on lipids, sugars, and large biological molecules. It outlines the structure and types of biological molecules, along with examples of their forms in organisms. Topics discussed include polymers, dehydration reactions, and the structure of molecules such as fats and carbohydrates.

Full Transcript

Welcome to the cell biology section of biol1010

Lecture 1 - N. González
Chapter 5
 Organs Tissues

Levels of organization

Cells

Molecules
Organelles
A cell is the smallest unit that can live on its own and that
makes up all living organisms and the tissues of the body.
Biologists use microscopes to
study cells

Most cells are between 1 and 100 µm in diameter
(yellow region of chart) and their components are
even smaller, as are viruses.
Light microscopes use visible light and magnifying lenses
to allow us to see cells

light

Journey to the Microcosmos
 Fluorescent light microscopes capture fluorescence (a
form of glow).

Green fluorescence
Fluorescence is the emission of light by a substance that
has absorbed light or other electromagnetic radiation.

The locations of specific molecules in the cell can be
revealed by labelling the molecules with fluorescent
molecules.
Electron microscopes use beams of
electrons

Transmission electron
microscopes
Scanning electron
microscopes
A transmission electron microscope (TEM) is used to study
the internal structure of thin sections of cells.
A scanning electron microscope (SEM) is used to study the
fine details of cell surfaces.
 5
talk to each other 2 min
1. Identify the type of microscope 3
1

6

2
4

7
A guide to study using the lecture slides

Very likely will be in the exam

Some of these will be in the exam
The illustrations help you
understand
 The Structure and Function
of Large Biological Molecules
Lipids and sugars
Lecture 1 - N. González
Chapter 5 Campbell Biology
Lecture 1 and 2 are about macromolecules

1. Polysaccharides (sugars)
2. Lipids
3. Nucleic acids (DNA, RNA)
4. Proteins
Most of a cell is water (70%). The remaining 30% contains
varying proportions of structural and functional molecules.
Large molecules are either lipids or polymers

1. Polysaccharides = polymers
2. Lipids = not true polymers but can be large
molecules
3. Nucleic acids (DNA, RNA) = polymers
4. Proteins = polymers
On the molecular scale, members of three of these
classes— carbohydrates, proteins,
and nucleic acids—are huge and are therefore called
macromolecules
Macromolecules are polymers, built from monomers
polymers

A polymer is a long molecule
consisting of many similar or identical
building blocks linked by covalent
bonds
In addition to forming polymers, some
monomers also have other functions
of their own monomers
Polymers grow by dehydration reactions reaction.
Polymers are disassembled to monomers by hydrolysis

Hydrolysis is essentially the reverse of the dehydration reaction
Hydrolysis means water breakage (from the Greek hydro, water, and lysis, break).
 Polysaccharides serve as fuel and as building material
sugars
Monosaccharides generally have molecular formulas that
are some multiple of the unit CH2O. Glucose (C6H12O6),
In aqueous solutions, glucose molecules, as well as most
other five- and six-carbon sugars, form rings

Rings are the most stable form of these sugars. The carbons of the
sugar are numbered 1 to 6, as shown. To form
The glucose ring, carbon 1 (magenta) bonds to the oxygen (blue)
attached to carbon 5.
A disaccharide consists of two monosaccharides joined
by a glycosidic linkage
Polysaccharides are macromolecules, polymers with a few
hundred to a few thousand monosaccharides joined by
glycosidic linkages.
Both plants and animals store sugars in the form of
storage polysaccharides

Animals store glycogen
Plants store starch, a mix of amylopectin and amylose
Vertebrates store glycogen in liver and muscle cells.
Hydrolysis of glycogen in these cells releases glucose
when the demand for sugar increases
Organisms build strong materials from structural
polysaccharides
Organisms build strong materials from structural
polysaccharides

Chitin is the
carbohydrate used by
arthropods to build
their exoskeletons
The differing glycosidic linkages in starch and cellulose
give the two molecules distinct three-dimensional shapes.
 discuss 5 min

A dehydration reaction joins two glucose In the 1970s, a process was
molecules to form maltose. The formula developed that
for glucose is C6H12O6. What converts the glucose in corn
is the formula for maltose? syrup to its sweeter isomer,
fructose. High Fructose
corn syrup, a common
ingredient in soft drinks and
processed food,
is a mixture of glucose and
fructose. What type of isomers
are glucose and
fructose? (See Figure 4.7).
Lipids are a diverse group of hydrophobic molecule

Lipids are grouped with each other because they share one important trait: They mix
poorly, if at all, with water.
Lipids are the components of cell membranes
Lipids are fats, phospholipids, and steroids
A fatty acid has a long carbon skeleton, usually 16 or 18
carbon atoms in length.

The carbon at one end of the skeleton is part of a carboxyl group, the functional group that gives
these molecules the name fatty acid.
The rest of the skeleton consists of a hydrocarbon chain.
A fat is constructed from two kinds of smaller molecules:
glycerol and fatty acids
Triacylglycerols are three fatty acid molecules are each
joined to glycerol
phospholipids are only two fatty acids attached to glycerol.
The third hydroxyl group of glycerol is joined to a
phosphate group
The terms saturated fats and unsaturated fats refer to the
structure of the hydrocarbon chains of the fatty acids.

Hint = saturated with
hydrogen
A phospholipid has a hydrophilic (polar) head and two
hydrophobic (nonpolar) tails.

phospholipids are essential for cells because they are major
constituents of cell membranes.
Steroids are lipids characterized by a carbon skeleton
consisting of four fused rings

← Cholesterol is the
molecule from which other steroids,
including the sex hormones, are
synthesized.

Estradiol and testosterone are sex hormones
responsible for the contrasting features of
male and female vertebrates →
CONCEPT CHECK

1. Compare the structure of a fat (triglyceride) with that of a
phospholipid.

2. Why are human sex hormones considered lipids?

3. WHAT IF? Suppose a membrane surrounded an oil droplet, as it
does in the cells of plant seeds and in some animal cells. Describe
and explain the form it might take.