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CARBOHYDRATES energy

CARBOHYDRATES energy. Carbohydrate Molecules ENERGY Storage of energy Cellular structures

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Page 1: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

CARBOHYDRATES

energy

Page 2: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Carbohydrate Molecules

ENERGY Storage of energy Cellular structures

Page 3: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

SUGAR!!!!!!!!!!

Carbohydrates are sugars. Sugars are carbohydrates. Sugar = energy YAY! Saccharide means sugar

Page 4: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Saccharides are divided into three categories

1. Monosaccharides (means one sugar)

2. Disaccharides (made of two single sugars, snapped together)

3. Polysaccharides (many sugars snapped together)

Page 5: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Monosaccharides (simple sugar)Contain 3 – 7 carbon atoms in a chain or ring

2 examples of 5-carbon atoms Ribose and Deoxyribose.   Ribose is found in RNA.   Deoxyribose is found in DNA.  A deoxyribose is

missing one oxygen, which is why it’s called “de-oxy.“

Nest 3 examples are 6-carbon atoms long:  Glucose, Fructose and Galactose.  All three = 6C atoms, 12H atoms & 6O atoms.  The

molecular formula for all three of them is C6H12O6

Page 6: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Wait What?

C6H12O6

Isomers = same type

Chemical Isomers = the same atoms but arranged

differently

Page 7: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Dehydration Synthesis

Two monosaccharides are joined w/ synthesis

Creates a disaccharide Dehydration synthesis is due to H2O

molecules being released during synthesis

Page 8: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Disaccharide (double sugar)

Example is Sucrose (table sugar) Lactose.  “Lacto-” means milk and it’s

found in all milk.  Milk doesn’t taste sweet but that’s because

not all sugars taste sweet.  Lactose is actually made of glucose + galactose.

Page 9: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Yum…Milk

Page 10: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Water is used in the decomposition = Hydrolysis

Catabolism = decomposition of nutrients

Page 11: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Polysaccharides (many sugars) Complex Carbs

Many monosaccharides joined by dehydration synthesis Structural function Fuel Storage Function

Amylose= “starch” is the way many plants store sugars.  Plants and other photosynthetic organisms join glucose

sugars made from photosynthesis into a big chain called amylose. 

Cellulose. Cellulose is made up of a bunch of glucoses, just like starch, however the way they are joined together forms a branching pattern, unlike starch.  We cannot digest or break apart these sugar molecules.

which is why it is also known as “indigestible fiber,” “roughage,” or “insoluble fiber.” 

Page 12: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Monosaccharides (one) Ribose, Deoxyribose, Fructose,

Glucose, Galactose Disaccharides (two)

Sucrose (glucose+fructose), Lactose (glucose+galactose), Maltose (glucose+glucose)

Polysaccharide (many) Amylose (starch), Cellulose

(indigestible fiber), Glycogen (animal starch)

Page 13: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Can be added to other molecules Can join proteins and lipids Creates macromolecules

Page 14: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

LIPIDS

Stored in fat = future energy

Page 15: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures
Page 16: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

The skinny on Lipids

Used for energy storage Stored in fat Chemical Messengers in some form of

hormones Four Classes

Neutral Fats Phospholipids Steroids Eicosanoids

Page 17: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Neutral Fats (triglycerides)

Contains 3 fatty acids & 1 glycerol molecule Glycerol = 3 carbon monosaccharide

(C3H8O3) Fatty Acid = chain of carbon w/ 1 or 2 H

molecules attached to each C by single or double bonds Saturated fatty acid – single bond Unsaturated fatty acid – double bonds

Page 18: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

glycoprotein

Macromolecules of amino acids and carbohydrates found in cell membranes

Page 19: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

lipoprotein

Macromolecule made of lipids and proteins

Hydrophilic allows fats to be sheilded from the blood plasma

Transports fats within the body

Page 20: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Phospholipids

Similar to triglycerides w/ a glycerol backbone

Two fatty acids attached in one direction Make up cell membranes – lipid bilayer

Page 21: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Steroids

Lipids that take up the form of four interlocking hydrocarbon rings

Hydrophobic, non polar w/ very minimal O

Page 22: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Cholesterol

Page 23: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Cholesterol

Digests food Makes hormones Makes some vitamins Builds cell walls Carried through bloodstream by

lipidprotein Too much can lead to heart disease

Page 24: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Eicosanoids

Lipids formed from 20-carbon fatty acids Highly potent

Page 25: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Eicosanoids

Inflammatory response Gastric integrity Hyper-sensitivity Renal function Regulates smooth muscle contraction Regulation of blood vessel diameter Platelet homeostasis

Page 26: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Eicosanoids

Local action Not stored, metabolized rapidly Produced in much smaller quantities

Most all tissues make their own eicosanoids

Page 27: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

PROTEINS

Page 28: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Proteins

Most abundant organic molecule Catalyst – speed up all reactions in

the body Transport ions/molecules into and

out of cell Used for cellular structure Structural body tissues Process molecules to harvest energy Control chemical reactions Regulating growth

Page 29: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Protein make up

C, O, H, N Sometimes sulfur, iron and/or phosphorus

Page 30: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Workers….

Protein carries out most ALL functions within cell other than genetic storage of information Hemoglobin – picks up O2 in body for

transport Antibodies – immune cell dispatched to

fight off Hair and Nails

Page 31: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures
Page 32: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Amino Acids

Molecule containing central C attached to H 20 different amino acids!

Page 33: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures
Page 34: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Amino Acids

Metabolized in the muscles Used for immediate energy Group of amino acids

Peptide Dipeptide Tripeptide Polypeptide

When an amino acid chain exceeds 100 it is called a protein

Page 35: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Protein Structure

Shape = function Globular proteins (antibodies) look like a puzzle Collagen are long and firm

Four levels of structure Primary structure

Sequence and number of amino acids Secondary structure

Natural bend of peptide chain Tertiary structure

Overall shape of a single protein molecule Quaternary structure

Two or more proteins bond into a macromolecule

Page 36: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures
Page 37: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Structural Protein

Stable and rigid, hydrophobic to add stregnth Fibrous proteins

Page 38: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures
Page 39: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Functional Proteins

Hydrophilic, flexible, three-dimensional shape Globular proteins Hemoglobin Antibodies Protein-based hormones enzymes

Page 40: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Enzymes

Biological molecules that act as catalysts Lock and Key

Page 41: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Enzyme examples

Page 42: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

NUCLEIC ACIDS

AKA “Boss Man”

Page 43: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Nucleic Acids Largest molecule in the body

Page 44: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

DNA

DNA Deoxyribose Exists mainly in nucleus Also in mitochondria Provides all instructions for protein building

Page 45: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Genes

Instructions are coded in segments called genes

Page 46: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures
Page 47: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures
Page 48: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

RNA

RNA Ribonucleic acid Transfers instructions OUT of the nucleus

into the cytoplasm Builds proteins

Page 49: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

DNA – boss manRNA – worker

Page 50: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures
Page 51: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Nucleotides

Molecular building blocks of nucleic acids Formed by sugar (pentose) and phosphate groups joined in long chain with

nitrogenous base open for metabolic activity

5 difference nucleotides / same structure N (base) + 5C pentose sugar +

Phosphate

Page 52: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures
Page 53: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Chromosomes

Long chains of genes combined with protein

Replicate during cell division so that all daughter cells inherit an identical copy from parent to child

Page 54: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

ATP

Page 55: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

ATP

Glucose is broken down into monosaccharides, the energy stored from this is called ATP Adenosine triphosphate

The energy currency the cells need fuel

Cellular respiration Cells use nutrients in process called cellular

respiration

Page 56: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

ATP creates energy

Energy needed in body is stored in phosphate bonds of ATP molecule

ATP is an RNA nucleotide High-energy bonds release energy from

ATP molecule Temporarily losing a phosphate group After loses becomes an ADP

Page 57: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

ADP

ADP Adenosine diphosphate

Page 58: CARBOHYDRATES energy. Carbohydrate Molecules  ENERGY  Storage of energy  Cellular structures

Chapter 2………….FINALLY