Week 5 Overview Of Protein Function - Biochemistry PDF

Summary

This document provides an overview of week 5's material in biochemistry, focusing on protein function. It covers topics such as ligand binding, myoglobin, hemoglobin, structural proteins, and more. The document includes diagrams and figures related to these concepts.

Full Transcript

Week 5 Overview
Chapter 5; Protein Function
For Tuesday:
– Ligand Binding, Myoglobin and Hemoglobin
For Thursday
– Structural Proteins, Motor Proteins and Antibodies

Other
– Wiley Plus Practice Problems
– Weekly Problem Set #3.
– For Thurs: Read Paper (SCD vs CFTR funding) and post
reflection question answers
– Topic Selectin for Biochemistry and Society Project
Key Concept: The structure of a
protein enables its function
5.2. Structural Proteins provide support
both within and outside the cell.
 Two categories of structural proteins

Globular proteins that associate
– Actin – microfilaments
– Tubulin – microtubules

Fibrous proteins that are elongated
– Keratin – intermediate fibers
– Collagen (extracellular protein)
 F-actin is a polymer of the
monomeric G actin protein

Polymerization

Globular protein
(~375 aa) with
ATP binding site.
Actin Filament Assembly (F-actin)

Polymerization driven by ATP hydrolysis

Copyright © 2017 John Wiley & Sons, Inc. All rights reserved.
 Functions of Actin filaments

Cell shape/ size/
structural support
Cell movement
Muscle movement

Copyright © 2017 John Wiley & Sons, Inc. All rights reserved.
Microtubules are polymers of the
tubulin dimer

Globular proteins
(~450 aa) with GTP
binding site.

Copyright © 2017 John Wiley & Sons, Inc. All rights reserved.
Actin filaments vs Microtubules;
structure vs flexibility

Copyright © 2017 John Wiley & Sons, Inc. All rights reserved.
Microtubules are hollow fibers built
from tubulin dimers

13 filaments
per tube.

GTP hydrolysis occurs
upon polymerization
 Microtubule Functions

Cytoskeleton –
support
Cell division
Cell movement (cilia,
flagella)
Transport within cell
Microtubules

Chromosomes
 Fibrous proteins provide structural
support.
Fibrous proteins are characterized by
well defined secondary structure.

𝛂- keratin
Collagen
 Keratins are a class of structural
proteins

Backbone Stick Space-
filling
α-Keratin has coiled-coil structure.

Large hydrophobic residues
repeat every 4 positions.

How does this feature impact
the protein structure?
What does high
level of Cys
indicate?
Assembly of filament

Disulfide
bonds can
form between
fibers to
stabilize
Collagen is part of the Extracellular
Matrix

Copyright © 2017 John Wiley & Sons, Inc. All rights reserved.
 Collagen fibers formed from
tropocollagen; a triple helix protein
 Contains high
levels of Glycine
and proline
Collagen has a unique amino acid
composition; Gly-X-Y triple motif

Every 3rd amino acid is glycine and 30% of remaining are Pro or Hyp

Hyp is formed via a reaction requiring vitamin C.
Cross-section of the Collagen Triple
Helix; Gly align in center
Polypeptides are crosslinked
Collagen fiber is assembled from
multiple tropocollagen proteins
 Review Key Concepts

1. Two categories of structural proteins are ______ proteins
that associate and ______ that are elongated.
2. Actin filaments are composed of ______ while
microtubules are composed of ______. Of these two,
____ are more flexible than ______.
3. ___ are important in muscle movement while ____ are
important in cell division.
4. Fibrous proteins are have well defined _____ structure.
5. ____ is a dimer of alpha helices that wind around each
other while ____ is a trimer that forms a triple helix.
6. ______ is found in the extracellular matrix of cells.
 5.3. Motor proteins: facilitate movement
by acting on structural elements.

Convert chemical
energy to
mechanical energy.
Myosin has two heads and a long
tail

The heads have
ATP and actin binding sites, and a flexible neck.
ATP hydrolysis drives the physical
movement of myosin along an actin
filament
Kinesin is a microtubule-associated
protein.

Opposite end binds to a
Heads contain nucleotide protein in a vesicle.
binding site and tubulin
binding site.
 Kinesin transports cargo by moving
processively along a microtubule track.

Copyright © 2017 John Wiley & Sons, Inc. All rights reserved.
Defensive Protein: Antibody Structure and
Function

Antibodies recognize and
bind to “foreign” molecules
Large proteins with huge
amino acid variation
Important tool used in
biochemistry to identify
specific proteins.
 Immune response activated by foreign
substances.

Antigen = foreign
substance
Antibody = immune
protein that binds it.
Epitope (antigenic
determinant) region
where antibody
binds.
 Antibodies are produced by immune cells
Immune cells produce surface
antibodies.

Upon exposure to
antigen soluble
antibodies are produced.

Make a prediction about
how the structure of the
surface antibodies differs
from those of the soluble
antibodies.
Overview of simplified immune response

Memory cells are also
produced upon initial exposure
to antigen.
Allow more rapid immune
response upon second
exposure.

How does this relate to the
development of vaccines?
 The Structure of Antibodies
Schematic model of an IgG antibody

4 polypeptide chains
– 2 “heavy chains” ~53 kDa
– 2 “light chains” ~ 23kDa
Chains held together
by disulfide bonds
C = constant domains
V= variable domains
The Antigen-Binding Site is hypervariable
and comprises the complementarity-
determining regions of the sequence.
Shape and charge complementarity allow for
specific interaction between antibody and
antigen.
Antibody and viral peptide showing
shape complementarity
 Antibodies are used as biochemical tools
to identify, quantify, or localize particular
proteins

ELISA Immunoblotting Immunocytochemistry
How are antibodies made?
Indirect enzyme-linked immunosorbent
assay (ELISA), test for presence of
protein
Immunoblotting (Western Blotting) used
to identify / quantify proteins in a
complex mixture

Similar to ELISA
Proteins separated
on gel & then
transferred to
membrane.
Membrane probed
with antibody
Secondary antibody
used to visualize
primary antibody
 Immunocytochemistry allows for
localization of particular proteins in
cells/tissues mixture

Antibodies with
fluorescence
tags are used
Localization
using
microscopy
 Key Learning Outcomes
What should you be able to do after learning this material?

Be able to compare the structures and functions of structural proteins
How do the globular proteins that assemble differ from the fibrous proteins
and how does that impact their structural roles?
How do structural features, such as amino acid sequences, ability to cross link,
impact the overall structure and therefore function of these proteins?
Explain how motor protein operate (in general)
Describe the general structure of motor proteins
Describe the structure and function of immunoglobulins (antibodies)
Identify the key features of antibodies
Be able to describe the applications of antibodies in the laboratory and clinic.
 Review Key Concepts
1. The ______ of a protein allows for its ______.
2. An ______ is a foreign substance that an _____
binds to during an immune response.
3. An antibody contains ___ heavy chains and __ light
chains that held together by ______.
4. The complementarity of both ____ and ____ allow for
the specificity of the interaction between antiboides
and antigens.
5. The ____ allows for testing for the presence of a
protein while the technique of ____ is used to identify
and/or quantify proteins in mixtures.
6. _______ is used to figure out the location of proteins
within cells.