Unit 2 - Amino Acids and Peptides PDF

Summary

This document is a set of lecture notes on amino acids and peptides, including their structure, properties, and biological functions. Eric D. Alina, LPT is the author of the study notes which are intended for university students.

Full Transcript

The Legazpi Thomasian Prayer
God of all nations, beneficent creator and generous provider,
You who guide all creation to its proper perfection,
enlighten our vision and guide our mission
that we may see clearly and love truly as we realize our goals and
objectives.

Imbue us with Your unending grace,
that we may flourish as persons integrally,
and be one in mind and heart as a community.

Keep our passion for the truth bright and our compassion for
humanity burning
empowering us to be agents of Christian social transformation.
 The Legazpi Thomasian Prayer
Sustain us in harmony with nature
that we may be responsible stewards of Your creation.

Merciful Lord of our restless being.
strengthen us to soar beyond the limits of our weakness and
vulnerability,
So that we may praise, bless, and preach You
in a life of truth and love out of gratitude.

We ask this, O Loving Father, through Jesus Christ Your Son,
in the unity of the Holy Spirit, God forever and ever.

Amen.
 UNIT II:
AMINO ACIDS
AND PEPTIDES
ERIC D. ALINA, LPT
Instructor II, CASE
University of Santo Tomas-Legazpi
 UNIT II OUTLINE
2-1 Amino Acids are Three-Dimensional
2-2 Structures and Properties of Amino Acids
2-3 Amino Acids can Acts As Both Acids and Bases
2-4 The Peptide Bond
2-5 Small Peptides with Physiological Activity
Amino Acids
are Three-
Dimensional 2-1
 INTRODUCTION TO AMINO ACIDS

AMINO ACIDS
❑ amino group and a carboxyl group, both are
bonded to 𝜶 − 𝒄𝒂𝒓𝒃𝒐𝒏 (also bonded to H and R)
❑ R (side chain group) – determines the identity of
the particular amino acid.

2-1 Amino Acids are Three-Dimensional
Many important biomolecules
are chiral. A frequently
encountered chiral center in
biomolecules is a carbon atom
with 4 different groups bonded
to it.

2-1 Amino Acids are Three-Dimensional
2-1 Amino Acids are Three-Dimensional
 Structures and
2-2 Properties of
Amino Acids
 The R groups, and the individual amino acids, are
classified according to several criteria, two of which
are particularly important:
1. Polar or Nonpolar nature
2. Presence of acidic or basic group in the side chain,
presence of functional groups other than acidic or
basic ones in the side chain.
2-2 Structures and Properties of Amino Acids
2-2 Structures and Properties of Amino Acids
2-2 Structures and Properties of Amino Acids
 FOUR CATEGORIES OF AMINO ACIDS

1. Nonpolar (Hydrophobic)
2. Polar Uncharged/Neutral (Hydrophilic)
3. Polar Acidic
4. Polar Basic
5. Uncommon

2-2 Structures and Properties of Amino Acids
 NONPOLAR
AMINO ACIDS
These are amino acids containing one amino group,
one carboxyl group, and a non-polar side chain.
There are 9 nonpolar amino acids: glycine, alanine,
valine, leucine, isoleucine, proline, phenylalanine,
tryptophan, and methionine.

2-2 Structures and Properties of Amino Acids
 GLYCINE (Gly, G)

space-filling

ball-and-stick line-and-dash

- aliphatic; with H as a side chain
2-2 Structures and Properties of Amino Acids
 METHIONINE (Met, M)

space-filling

ball-and-stick
line-and-dash
- the side chain contains a S atom in addition to aliphatic
hydrocarbon groupings; not capable of forming disulfide bridge.
2-2 Structures and Properties of Amino Acids
 LEUCINE (Leu, L)

space-filling
ball-and-stick line-and-dash

- has a side chain containing an aliphatic (absence of benzene
ring) hydrocarbon group
2-2 Structures and Properties of Amino Acids
 TRYPTOPHAN (Trp, W)

ball-and-stick line-and-dash space-filling

- the side chain contains an indole ring, which is also aromatic.
2-2 Structures and Properties of Amino Acids
 PROLINE (Pro, P)

ball-and-stick line-and-dash space-filling
- has an aliphatic cyclic structure, and N bonded to 2 C atoms.
The amino group of proline is a secondary amine, and proline is
often called an imino acid.
2-2 Structures and Properties of Amino Acids
 PHENYLALANINE (Phe, F)

ball-and-stick line-and-dash space-filling

- the hydrocarbon group is aromatic (with benzene ring) rather
than aliphatic
2-2 Structures and Properties of Amino Acids
 ALANINE (Ala, A)

ball-and-stick line-and-dash space-filling

- has an alkyl group (methyl)

2-2 Structures and Properties of Amino Acids
 ISOLEUCINE (Ile, I)

ball-and-stick line-and-dash space-filling

- has an aliphatic hydrocarbon group and branched structure in
its side chain.
2-2 Structures and Properties of Amino Acids
 VALINE (Val, V)

ball-and-stick space-filling
line-and-dash

- has an aliphatic hydrocarbon group

2-2 Structures and Properties of Amino Acids
 POLAR UNCHARGED
AMINO ACIDS
These are amino acids containing one amino group,
one carboxyl group, and a side chain that is polar
but electrically neutral at neutral pH. There are six
polar neutral amino acids: threonine, serine,
tyrosine, cysteine, glutamine, and asparagine.

2-2 Structures and Properties of Amino Acids
 THREONINE (Thr, T)

ball-and-stick space-filling
line-and-dash
- the polar group, hydroxyl, is bonded to aliphatic hydrocarbon
groups. It is significant for the regulation of calcium levels in the
body.
2-2 Structures and Properties of Amino Acids
 SERINE (Ser, S)

ball-and-stick line-and-dash space-filling

- the polar group, hydroxyl, is bonded to aliphatic hydrocarbon
group
2-2 Structures and Properties of Amino Acids
 CYSTEINE (Cys, C)

line-and-dash space-filling
ball-and-stick
- the polar side chain consists of a thiol group, which can react
with other cysteine thiol groups to form disulfide bridges in
proteins in an oxidation reaction. The thiol group can also lose a
proton.
2-2 Structures and Properties of Amino Acids
 TYROSINE (Tyr, Y)

ball-and-stick line-and-dash space-filling

- the hydroxyl group is bonded to an aromatic ring (a phenol – a
stronger acid than an aliphatic alcohol). It is often found at active sites
of enzymes due to its involvement in substrate binding.
2-2 Structures and Properties of Amino Acids
 ASPARAGINE (Asn, N)

ball-and-stick line-and-dash space-filling
- has an amide group, which are derived from carboxyl group in
its side chain, and is capable of forming hydrogen bonds. It is a
derivative of aspartic acid.
2-2 Structures and Properties of Amino Acids
 GLUTAMINE (Gln, Q)

ball-and-stick space-filling
line-and-dash

- has an amide group, which are derived from carboxyl group in
its side chain. It is a derivative of glutamic acid.
2-2 Structures and Properties of Amino Acids
 POLAR ACIDIC
AMINO ACIDS
These are amino acids containing one amino group
and two carboxyl groups, the second carboxyl group
being part of the side chain. There are only 2 polar
acidic amino acids: aspartic acid and glutamic acid.

2-2 Structures and Properties of Amino Acids
 ASPARTIC ACID (Asp, D)

ball-and-stick space-filling
line-and-dash

- has a carboxyl group in its side chain. It is involved in peptide
bond formation during protein synthesis.
2-2 Structures and Properties of Amino Acids
 GLUTAMIC ACID (Glu, E)

ball-and-stick space-filling
line-and-dash

- has a carboxyl group in its side chain.

2-2 Structures and Properties of Amino Acids
 POLAR BASIC
AMINO ACIDS
These are amino acids containing two amino groups
and one carboxyl group, the second amino group
being part of the side chain. There are only 3 polar
basic amino acids: histidine, lysine, and arginine.

2-2 Structures and Properties of Amino Acids
 HISTIDINE (Glu, E)

space-filling
ball-and-stick line-and-dash

- has an imidazole group (cyclic imino group) in its side chain,
and the side chain is positively charged at or near neutral pH.
2-2 Structures and Properties of Amino Acids
 LYSINE (Lys, K)

ball-and-stick space-filling
line-and-dash
- the side-chain amino group is attached to an aliphatic
hydrocarbon tail, which is positively charged at or near neutral
pH. It is involved in the catalytic activity of enzymes.
2-2 Structures and Properties of Amino Acids
 ARGININE (Arg, R)

ball-and-stick line-and-dash space-filling

- the side-chain basic group (positively charged), the guanidino
group, is more complex in structure than the amino group, but it
is also bonded to an aliphatic hydrocarbon tail.
2-2 Structures and Properties of Amino Acids
 UNCOMMON
AMINO ACIDS
These are amino acids derived from other amino
acids and are produced by modification of the parent
amino acid after the protein is synthesized by the
organism in a process called posttranslational
modification.

2-2 Structures and Properties of Amino Acids
 HYDROXYPROLINE

- Hydroxyproline has hydroxyl group on its side chain; found
only in a few connective-tissue proteins, such as collagen.
2-2 Structures and Properties of Amino Acids
 HYDROXYLYSINE

- Hydroxylysine has
hydroxyl group on its side
chain; found only in a few
connective-tissue proteins,
such as collagen.

2-2 Structures and Properties of Amino Acids
 THYROXINE
- Thyroxine has an extra
iodine-containing aromatic
group on the side chain; it is
produced only in the thyroid
gland by posttranslational
modification of tyrosine
residues in the protein
thyroglobulin.

2-2 Structures and Properties of Amino Acids
 Amino Acids Can
2-3
Act as Both
Acids and Bases
 AMINO ACIDS AS BOTH ACIDS AND BASES

In a free amino acid, the carboxyl
group and amino group of the
general structure are charged at
neutral pH – the carboxylate
portion negatively and the amino
group positively.
2-3 Amino Acids Can Act as Both Acids and Bases
 AMINO ACIDS AS BOTH ACIDS AND BASES

Amino acids without charged
groups on their side chains exist in
neutral solution as zwitterions with
no net charge.

2-3 Amino Acids Can Act as Both Acids and Bases
 TITRATION OF AMINO ACIDS

2-3 Amino Acids Can Act as Both Acids and Bases
 TITRATION OF AMINO ACIDS

2-3 Amino Acids Can Act as Both Acids and Bases
 TITRATION OF AMINO ACIDS

2-3 Amino Acids Can Act as Both Acids and Bases
 TITRATION OF AMINO ACIDS
The titratable groups of each of the
amino acids have characteristic 𝑝𝐾𝑎
values.
𝛼 −carboxyl groups: pH = 2
amino groups: pH = 9-10.5

2-3 Amino Acids Can Act as Both Acids and Bases
2-3 Amino Acids Can Act as Both Acids and Bases
 TITRATION OF AMINO ACIDS
The fact that amino acids, peptides, and proteins have different pKa value
gives rise to the possibility that they can have different charges at a given pH.
At high pH (pH>10):
Ala: -1 (carboxylate anion)
His: -1 (carboxylate anion)
At lower pH (pH=5):
Alanine: zwitterion (no net charge)
His: +1 (imidazole is protonated)

2-3 Amino Acids Can Act as Both Acids and Bases
 AMINO ACID
ISOELECTRIC POINT
The pH at which a molecule has no net
charge is called the isoelectric pH or
isoelectric point (pI). At its isoelectric pH, a
molecule will not migrate in an electric
field.
2-3 Amino Acids Can Act as Both Acids and Bases
 AMINO ACID
ISOELECTRIC POINT
𝒑𝑲𝒂𝟏 + 𝒑𝑲𝒂𝟐
𝒑𝑰 =
𝟐
𝑝𝐾𝑎1 : higher pKa if two groups are dissociated
at isoelectric pH
𝑝𝐾𝑎2 : for the group that has not dissociated at
isoelectric pH
2-3 Amino Acids Can Act as Both Acids and Bases
 AMINO ACID
ISOELECTRIC POINT
Which of the following amino acids has a net
charge of +2 at low pH? Which has a net charge
of -2 at high pH? do not have titratable side
chains?
Asp, Ala, Arg, Glu, Leu, Lys
What is the pI for His? 7.58
2-3 Amino Acids Can Act as Both Acids and Bases
2-4 The Peptide
Bond
 THE PEPTIDE BOND
Individual amino acids can be linked by forming
covalent bonds. The bond is formed between the
𝛼 −carboxyl group of one amino acid and the
𝛼 − amino group of the next one. Water is
eliminated in the process, and the linked amino
acid residues remain after water is eliminated.
2-4 The Peptide Bond
 THE PEPTIDE BOND

2-4 The Peptide Bond
2-4 The Peptide Bond
 THE PEPTIDE BOND
Peptide bond – an amide bond between amino
acids in a protein.

Peptides – molecule formed by linking two to
several dozen amino acids by amide bonds.
2-4 The Peptide Bond
 THE PEPTIDE BOND
Polypeptide chain – the backbone of a protein; it
is formed by linking amino acids by peptide
(amide) bonds.
Resonance structures – structural formulas
that differ from each other only in the position
of electrons.
2-4 The Peptide Bond
 A Small Peptide

2-4 The Peptide Bond
 Resonance Structure

2-4 The Peptide Bond
Small
Peptides with
Physiological 2-5
Activity
 BIOLOGICAL FUNCTIONS

2-5 Small Peptides with Physiological Activity
 BIOLOGICAL FUNCTIONS
Both oxytocin and vasopressin are peptide hormones.
Oxytocin – induces labor in pregnant women and
controls contraction of uterine muscle; plays a role in
stimulating the flow of milk in a nursing mother;
influences female social and sexual behaviors,
including intercourse, maternal attachment, and pair
bonding.
2-5 Small Peptides with Physiological Activity
 BIOLOGICAL FUNCTIONS
Vasopressin – plays a role in the control of blood
pressure by regulating contraction of smooth muscle;
stimulates reabsorption of water by the kidneys, thus
having an antidiuretic effect. In males, it influences
erection, ejaculation, aggression, territoriality, and pair
bonding.

2-5 Small Peptides with Physiological Activity
 BIOLOGICAL FUNCTIONS

2-5 Small Peptides with Physiological Activity
 REFERENCE

Campbell, M.K. & Farrell, S. (2018).
Biochemistry Ninth Edition. Cengage
Learning.