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Chapter 20: Biochemistry

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Title: Chapter 20: Biochemistry


1
  • Chapter 20 Biochemistry

2
Biochemistry
  • Biochemistry is the study of chemistry that takes
    place in the living cell.
  • There are several important classes of
    biochemical compounds
  • Carbohydrates
  • Lipids
  • Amino acids and proteins
  • Nucleic acids
  • Vitamins and hormones

3
Carbohydrates
  • Carbohydrates contain carbon, hydrogen, and
    oxygen and have the general formula Cx(H2O)y
  • Simple carbohydrates or sugars (like glucose,
    C6H12O6) are called monosaccharides.
  • Disaccharides can be hydrolyzed to 2
    monosaccharides
  • Disaccharide H2O 2 monosaccharides
  • Polysaccharides are hydrolyzed to many
    monosaccharides
  • Polysaccharide nH2O n
    monosaccharides

4
Monosaccharides
  • Monosaccharides contain a carbonyl group and
    several hydroxyl groups.
  • If a monosaccharide is an aldehyde, it is called
    an aldose.
  • If the monosaccharide is a ketone, it is a
    ketose.
  • The names of the monosaccharides end in ose.

5
MonosaccharidesClassification by Carbon Atoms
  • Number of Carbon Monosaccharide
  • Atoms Class
  • 3 Triose
  • 4 Tetrose
  • 5 Pentose
  • 6 Hexose

6
Naming Classes can be Combined
  • Glucose is an aldehyde with six carbon atoms. It
    is an aldohexose.
  • Ribose is an aldehyde with five carbon atoms. It
    is an aldopentose.
  • Fructose is a ketone with six carbon atoms. It
    is a ketohexose.

7
Chiral Carbons
  • A carbon that has four different groups around it
    is chiral. These four different groups can be
    arranged two different ways.
  • There are four chiral carbons in the aldohexose.
    This leads to a possibility of 16 isomers.
  • Different names designate these isomers.
  • Isomers that have the OH group on the 5th carbon
    on the right is D-.
  • Isomers that have the OH group on the 5th carbon
    on the left are L-.

8
Sugars are Polyhydroxy Aldehydes and Ketones
Insert figure 20.2
9
Cyclic Structures
  • Cyclic structures are formed by aldohexoses when
    one of the hydroxyl groups react with the
    carbonyl group to form a hemiacetal

Or
10
Mutarotation
  • Opening and closing the ring structure is called
    Mutarotation

Or
11
Common Monosaccharides
12
Disaccharides
  • Hydrolysis Products

Maltose H2O 2 glucose
Lactose H2O glucose galactose
Sucrose H2O glucose fructose
13
Disaccharides
Beta acetal
fructose
glucose
galactose
Alpha acetal
glucose
Alpha acetal
14
Polysaccharides
  • Starch Made of glucose units bound by alpha
    acetal bonds. Digestible by humans. Source of
    energy in diet. Compose of amylose and
    amylopectin.
  • Cellulose Made of glucose units bound by beta
    acetal bonds. Not digestible by humans. Source
    of fiber in diet.

15
Metabolism
  • When carbohydrates are metabolized, they are
    broken into glucose molecules. The glucose
    molecules combine with oxygen to yield CO2, H2O,
    and energy
  • C6H12O6 6O2 6CO2 6H2O Energy

Carbohydrates supply approximately 4 kcal of
energy per gram.
16
Lipids
  • Lipids are biological compounds that are soluble
    in organic solvents and insoluble in water.
  • Simple lipids are esters of glycerol and fatty
    acids.
  • Phospholipids contain a phosphate group.
  • Steroids have a ring structure.
  • Prostaglandins have a wide range of effects.

17
Triglycerides
  • Triglycerides are esters of glycerol and fatty
    acids (long chain carboxylic acids).

3C17H35COOH
Stearic acid (a fatty acid)
18
Fats and Oils
  • Fats are solids derived from animals. They
    contain mostly saturated fatty acids.
  • Oils are liquids derived from plants. They
    contain a larger proportion of unsaturated fatty
    acids.
  • Saturated fatty acids contain no CC double
    bonds.
  • Monounsaturated fatty acids contain one CC
    double bond.
  • Polyunsaturated fatty acids contain more than one
    CC double bond.

19
Insert figure 20.9
20
Amino Acids
  • Amino acids are the monomer units in the
    biological polymer protein.
  • An amino acid contains a carboxyl group and an
    amino group

Carboxyl group
Amino group
21
Zwitterion
  • The carboxyl group transfers a proton to the
    amino group to form a zwitterion

Zwitterion
22
Peptide Bond
  • Two amino acids are joined by forming an amide
    between the carboxyl group of one amino acid and
    the amino group of the other amino acid


H2O
(A dipeptide)
23
Peptides
  • The amide link between amino acids is called the
    peptide bond.
  • The compound formed when two amino acid are
    joined by a peptide bond is called a dipeptide.
  • Three amino acids form a tripeptide.
  • Ten or more amino acids form a polypeptide.
  • When a polypeptide has a molecular weight of
    10,000 or more, it is called a protein.

24
Protein Structure
  • The amino acid structure is called the primary
    structure of the protein.
  • The secondary structure is the way the amino acid
    chain coils around.
  • The tertiary structure is the general overall
    shape of the protein molecule.

25
Structure of a Segment of a Protein Molecule
26
Enzymes
  • Enzymes are proteins that act as biochemical
    catalysts.
  • Enzymes can increase reaction rates by a factor
    of 106 1012.
  • Some enzymes act by a lock-and-key mechanism.

27
Lock and Key Enzyme Mechanism
Insert Figure 20.11
28
Nucleic Acids
  • Nucleic Acids serve as the information and
    control centers of the cell.
  • There are two types of nucleic acids.
  • 1. Deoxyribonucleic acid (DNA)
  • 2. Ribonucleic acid (RNA)
  • Nucleic acids are polymers composed of
    nucleotides.

29
Nucleotides
  • Nucleotides are composed of three parts
  • 1. A base (a heterocyclic amine)
  • 2. A sugar (ribose or deoxyribose)
  • 3. A phosphate group (PO4)

base
sugar
Phosphate
30
Sugars
  • Sugars found in nucleotides are
  • Ribose
  • In RNA
  • Deoxyribose
  • In DNA

31
Structure of a Nucleotide
32
Bases
  • Purine Bases
  • Adenine (A) (in RNA and DNA)
  • Guanine (G) (in RNA and DNA)
  • Pyrimidine Bases
  • Cytosine ( C) (in RNA and DNA)
  • Thymine (T) (in DNA)
  • Uracil (U) (in RNA)

33
Phosphate
34
Nucleic Acid Polymer
  • Nucleotides are joined together through the
    phosphate group
  • Base O Base O Base O
  • Sugar-O-P-O-Sugar-O-P-O-Sugar-O-P-O
  • OH OH
    OH

35
DNA Structure
  • Information stored in DNA and RNA is contained in
    the sequence of bases in the polymer chain.
  • Watson and Crick determined that the structure of
    DNA involves two strands of nucleic acid polymer
    arranged in space as a double helix.

36
Structure of DNA Double Helix
Insert figure 20.18
37
Base Pairing
  • Bases on the two strands are bound to each other
    between the strands by hydrogen bonding.
  • Adenine is bound to Thymine
  • Guanine is bound to Cytosine
  • This creates two complementary strands.
  • If one strand has a sequence AATCGTACG
  • The other strand will be TTAGCATGC

38
Protein Synthesis
  • The information contained in a portion of a DNA
    molecule through its sequence of nucleotides will
    determine the primary structure of a protein.
  • This sequence is called a gene.
  • In a process called transcription, the
    information in the DNA is transferred to the
    messenger RNA (mRNA) through base pairing.

39
mRNA and Protein Synthesis
  • The base sequence carried by the mRNA determines
    the amino acid sequence.
  • A set of three consecutive bases in the mRNA
    specifies one amino acid in the chain.
  • Transfer RNA (tRNA) carries amino acids carry the
    amino acids to the proper site on the mRNA in the
    ribosomes to build the protein molecules.

40
RNA Structure
41
Vitamins
  • Vitamins are organic compounds required in the
    diet in small amounts for proper functioning.
  • Non-polar vitamins are fat-soluble
  • A, D, E, and K
  • Polar vitamins contain O and N and are termed
    water-soluble
  • B complex and C

42
Hormones
  • Hormones are needed by the body to regulate body
    function.
  • Hormones can be synthesized by the body.
  • Hormones are produced in the endocrine glands
  • Pituitary ovaries
  • Thyroid testes
  • Parathyroid placenta
  • Adrenal pancreas
  • Gastrointestinal track.

43
Hormones
  • Some hormones are proteins or polypeptides like
    insulin.
  • Some hormones are steroids like estrogen and
    testosterone.
  • Cholesterol is a steroid with no hormonal
    activity, but which is a main component of many
    cells.
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