Lecture 6 - Intracellular compartments and transport I

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01.26.11 Lecture 6 - Intracellular compartments and transport I

Intracellular transport and compartments 1. Protein sorting: How proteins get to their appropriate destinations within the cell 2. Vesicular transport: How vesicles shuttle proteins and membranes between cellular compartments

Primary functions of the compartments within a cell

Relative cellular volumes of the major membranous organelles

The evolution of organelles: nuclear membranes and ER

The evolution of organelles: mitochondria

Organelles import proteins by three distinct mechanisms 1. Transport from the cytoplasm into the nucleus through nuclear pores 2. Transport from the cytoplasm to organelles by protein translocators in the membrane 3. Transport from ER to other organelles occurs via vesicles

Signal sequences target proteins to their destinations

Signal sequences are necessary and sufficient for protein targeting

Mechanism 1: proteins enter the nucleus via nuclear pores The nuclear envelope is a double membrane Contiguous with the ER - both compartments share the same lumen Perforated by nuclear pores

The nuclear pore complex (NPC) is a selective molecular gate Composed of ~100 different proteins Small, water-soluble molecules pass freely, macromolecules must carry appropriate signal

NPCs actively transport proteins bound for the nucleus 1. Proteins bind to nuclear transport receptors 2. Complex is guided to the pore by filaments 3. Pore opens, receptor + protein are transported in (uses GTP) 4. Receptor is shuttled back into the cytoplasm

GTP hydrolysis provides the energy that drives nuclear transport

The nuclear envelope disassembles and reforms during each cell division

Mechanism 2: protein translocation from cytoplasm to organelle Proteins moving from the cytosol into the ER, mitochondria, chloroplasts, or peroxisomes Protein movement is mediated by specialized proteins termed protein translocators Unlike passage through nuclear pores, translocation requires unfolding or cotranslational transport

Proteins are unfolded during translocation into mitochondria

The ER is a network of membrane sheets & tubules

Active ribosomes may be in the cytosol or associated with the ER

Ribosomes are directed to the ER by the SRP and ER signal

Soluble proteins cross the ER membrane into the lumen

Soluble proteins cross the ER membrane into the lumen

Integration of transmembrane proteins into the ER membrane

Multi-pass proteins use internal starttransfer sequences

Mechanism 3: vesicular transport

Transport vesicles Continually bud off from and fuse to other membrane compartments producing a constant flux of material Carry soluble proteins (in the lumen) and lipids & membrane proteins (in the bilayer) between compartments Are transported along microtubules by motor proteins

Vesicle budding is driven by assembly of a protein coat

Clathrin-coated vesicles transport selected cargo molecules

Complexes of clathrin form a basket around vesicles and help them to pinch from membranes

Step 1 Cargo molecules (red) bind to transmembrane cargo receptors Cytoplasmic domains of receptors bind to adaptin (light green)which recruits clathrin Clathrin clusters cargo/ receptor/adaptin complexes and induces curvature to the membrane - clathrin-coated pit

Step 2 Additional clathrin molecules bind - increasing curvature Dynamin assembles a ring around each clathrincoated pit

Step 3 Dynamin rings constrict to pinch the membrane off Dynamin is a GTPase and used the energy released from GTP hydrolysis to power this reaction

Step 4 The free vesicle sheds its coat of adaptin and clathrin Vesicles are transported to their destination on microtubules

Clathrin-coated vesicles transport selected cargo molecules

Clathrin-coated vesicles transport selected cargo molecules

Animation of clathrin assembly and disassembly around an endocytic vesicle

SNAREs are proteins that target vesicles to specific compartments v-snares are on vesicles t-snares are on target compartments

SNARE proteins are important for membrane fusion v-snares and t-snares bind tightly Complexes bring the two membranes together to promote fusion

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