Funbio 9 2024 Biological Membranes Transport 2 PDF

Summary

These lecture notes cover biological membranes transport, focusing on exocytosis and endocytosis. The document details the different types of transport, including constitutive and Ca2+-mediated exocytosis, alongside phagocytosis and pinocytosis. The material includes diagrams and illustrations supporting the lecture's topics.

Full Transcript

Biological Membranes:
transport I (macrotransfer)
Class Foundation Year
Course Fundamentals of Human Biology
Code FUNBIO.9
Lecturer Dr Irene Oglesby
Date 16th October 2024
Learning outcomes

At the end of this lecture, the learner will be able to

ALO1 - Recall the difference between macrotransfer and microtransfer processes.

ALO2 - Differentiate between exocytosis and endocytosis.

ALO3 - Explain the mechanism of both phagocytosis and pinocytosis.

ALO4 - Differentiate between receptor-mediated and fluid phase pinocytosis.

ALO5 - Describe 4 stages in the secretory vesicles formation

ALO 6 - Differentiate between constitutive and regulated secretion.

MNB.X Lecture Title 2
 Membrane Transport

Macrotransfer Microtransfer

Passive Active

Exocytosis Endocytosis

Constitutive Ca2+-dependent Phagocytosis Pinocytosis

Receptor- Fluid-
mediated phase
Membrane Transport

Macrotransfer
The transport of macromolecules and larger items into and out of the cell which are
referred to respectively as;

Exocytosis
Movement out of the cell

Endocytosis
Movement into the cell
 EXOCYTOSIS
–Process of releasing large biomolecules
through the plasma membrane
Membrane Transport
–Accomplishes three tasks:
1. The surface of the plasma membrane
Part 1: Exocytosis increases (by the surface of the fused
vesicle).

2. The substances within the vesicle are
released into the exterior.

3. Proteins embedded in the vesicle
membrane are now part of the plasma
membrane
 Membrane Transport - Exocytosis

2 types of exocytosis:

1. Constitutive exocytosis
(Non-Ca2+-dependent)

2. Ca2+-dependent exocytosis
 Membrane Transport - Exocytosis

Ca2+-mediated Exocytosis
Requires the presence of Ca2+ in order for the
vesicle to be released

Important process in:
–Neuronal communication
Converts electrical information into
chemical information (at the synapse)

–Hormone release
Insulin from beta cells
 Exocytosis

1
Vesicle approaches plasma
1
Vesicle approaches plasma
membrane,
membrane, 1
Vesicle approaches plasma
membrane,
Vesicle approaches plasma
1
membrane,

2 fuses with it, and
2 fuses with it, and
2 fuses with it, and
2 fuses with it, and

Hormone release
3 releases its contents outside cell.
3 releases its contents outside cell. Insulin from beta cells (as shown before)
Figure 5-19 p124
3 releases its contents outside cell.
Figure 5-19 p124
3 releases its contents outside cell. Figure 5-19 p124
 Membrane Transport - Exocytosis
Distinct steps in exocytosis

1. Vesicle trafficking
2. Tethering
3. Docking
4. Priming
5. Fusion

1. Vesicle trafficking - Movement of vesicles from site of production to the site of release

Facilitated by:
–Actin and microtubule-based cytoskeletons
–Motor proteins (e.g. Kinesin, dynein)
 Membrane Transport - Exocytosis
2. Vesicle tethering

At the tethering point, a bridging complex is
formed.
 Membrane Transport - Exocytosis
3. Vesicle docking

Docking involves the attachment of the vesicle
membrane with the cell membrane.
It involves the holding of two membranes
within a bilayer's distance of one another (