Module 04 · 70 min

Organelles & the Secretory Pathway

ER, Golgi, lysosomes, and the COP/clathrin logistics network that keeps a cell alive.

CoreClinicalResearch

Topics

What this module covers

01Co-translational ER targeting: SRP, Sec61, signal peptides
02N-glycosylation, calnexin/calreticulin cycle
03COPII (ER → Golgi), COPI (retrograde), clathrin (post-Golgi/endocytosis)
04Rab GTPases as identity tags; SNAREs for fusion
05Lysosomes: hydrolases, mTORC1 platform, lysosomal storage diseases
06Mitochondrial protein import (TOM/TIM); peroxisome biogenesis

Deep dives

Lesson sub-pages

advanced 26 min· 3 refs

Rab GTPases and SNAREs: address labels and fusion locks

How the cell achieves vesicle specificity without a central dispatcher — and where the system breaks in disease.

Learning objectives

By the end of this module you will be able to

L01Trace a secreted protein from ribosome to extracellular space, naming the machinery at each step.
L02Explain why a single missing lysosomal hydrolase produces a pleiotropic, often neurological, disease.
L03Distinguish COPI, COPII, and clathrin coats by location, cargo, and triggering GTPase.

Expected takeaways

What you should walk away believing

→Vesicle traffic is GTPase-regulated identity logistics; misrouting causes disease.
→Lysosomal storage diseases are model 'one missing enzyme, system-wide failure' diseases.
→Mitochondrial import is post-translational and energy-dependent — a vulnerability in many myopathies.

Core summary

At the Core level

About a third of all human proteins enter the secretory pathway. They are made on ER-bound ribosomes, glycosylated and quality-checked in the ER, sorted in the Golgi, and dispatched in vesicles bearing identity tags (Rabs) that dock and fuse via SNAREs. Lysosomes terminate this stream and feed nutrients back to mTORC1.

Myth vs reality

Common misconception

Claim

All proteins are translated on free cytosolic ribosomes.

Reality

About one third of human proteins are co-translationally targeted to the ER; mistargeting is a recognised disease mechanism.

Evidence-graded claims

Claims, scored A–F

Mannose-6-phosphate is the canonical lysosomal targeting tag for soluble hydrolases

Established cell biology.

Rab GTPases mark organelle identity

>60 Rabs each defining specific compartments.

Eliglustat cures Gaucher disease

It reduces substrate accumulation; not curative.

Quiz

Check your understanding

Q1. Which coat protein mediates ER → Golgi transport?

Q2. I-cell disease results from defective:

Flashcards

Lock it in

1 / 4

Front

SRP function?

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Primary literature

The cell biology of secretion — Lippincott-Schwartz & Phair, Annu Rev Biophys 2010 ↗
Lysosomal storage diseases — Platt et al., Nat Rev Dis Primers 2018 ↗

Protein Structure, Folding & Quality Control

Cytoskeleton & Cell Motility