Import/Export of Nucleus

Question 1

What types of molecules are imported into the nucleus?

Answer 1

RNA pols; DNA pols; Protein kinases/phosphates; Histones; RNA binding proteins (also exported); snRNA (also exported); transcription factors (also exported)

Question 2

What types of molecules are exported from the nucleus?

Answer 2

40s and 60s ribosomal subunits; tRNAs; mRNAs; RNA binding proteins (also imported); snRNAs (also imported); transcription factors (also imported)

Question 3

What is the structure of the translocation channel?

Answer 3

Macromolecular pores (nuclear pore complexes; NPCs)

Question 4

What are the major structural features of the NPC?

Answer 4

~30 distinct “nucleoproins” (Nups) repetitively arranged.

Question 5

What are the 3 layers of the NPC?

Answer 5

Nuclear envelope layer; scaffolding layer; barrier layer

Question 6

What are the main features of each layer in the NPC?

Answer 6

Nuclear envelope layer = Lumenal ring. Scaffoling layer = Inner and outer rings; linker Nups; Cytoplasmic filaments; nuclear basket. All attached to membrane layer/lumenal ring. Barrier layer = FG Nups (form central channel)

Question 7

What is a key feature of the Barrier Nups?

Answer 7

FG repeats (phenylalanine;glycine). Create hydrophobic patches. Highly disordered; but achieve order when they are affiliated with other components (key element of transport)

Question 8

What types of molecules can freely traverse the nuclear envelope (diffusion driven)?

Answer 8

Small and hydrophilic

Question 9

If a molecule is large how does it pass through the nuclear envelope?

Answer 9

Must have hydrophic patches (be an ampiphilic molecule). Rapidly associates/deassociates with FG repeats and gets transported through envelope. At some point it must reach a conformational change within the nucleus so it can disassociate from the FG repeats. This is spontaneous migration (needs no energy input)

Question 10

What is the 3rd way a molecule can pass through the NPC?

Answer 10

Facilitated transport (requires a transporter). Requires energy input

Question 11

What are the main principles of NPC facilitated transport?

Answer 11

There is a cargo molecule which is hydrophilic and has a signal region (EX NLS or NES) for the carrier. The carrier is usually amphiphilic. They bind and the cargo is transported across the envelope (and across its concentration barrier). Inside the nucleus there is an energy couple dissociation. Renders this process irreversible

Question 12

What is a key feature of the signal regions (NLS and NES)? Why is this important?

Answer 12

Signals must be on the outside of the protein to be active because proteins remain folded during transport

Question 13

What is the general term for the cargo transporter/carrier protein?

Answer 13

Karyopherins AKA importins/exportins

Question 14

What are the two classes of karyopherins?

Answer 14

Receptor family (eg Karyopherin Beta) and Adapters (eg Karyopherin alpha)

Question 15

How do receptor family karyopherins work?

Answer 15

Bind directy with cargo and interact directly with FG Nups

Question 16

How do adapter family karyopherins work?

Answer 16

Bind directly with specific cargos but cannot themselves interact with FG Nups. Will bind with the cargo and another receptor family Karyopherin to form a heterodimeric import receptors. All 3 will pass through the envelope

Question 17

What is NTF2?

Answer 17

Specific transporter for Ran. GDP (Note: NTF2 is not of the karyopherin family)

Question 18

What is NXF1/NXT1

Answer 18

Transporters for mRNA and rRNA (rRNA requires this plus karyopherins. Note: NXF1 and NXT1 are not of the karyopherin family)

Question 19

What does Ran.GTP do?

Answer 19

Once the cargo/karyopherin are inside the nucleus; Ran.GTP binds to the karyopherin to cause conformational change so it will un-bind from the cargo. Ran.GTP-karyopherin complex is then transported back outside the nucleus where Ran.GTP is hydrolyzed to Ran.GDP and the two complexes break apart

Question 20

How much does transport cost with just a receptor family transport (beta subunit)? How much if there is adaptor + receptor (alpha + beta)?

Answer 20

1 GTP/molecule for just receptor. 2 GTP/molecule for alpha + beta

Question 21

How does facilitated export through the NPC occur?

Answer 21

Cargo + transporter + Ran.GTP all bind in nucleus then pass through NPC then break apart in the cytoplasm. NTF2 brings Ran.GDP back to nucleus. Transporters come back through simple diffusion

Question 22

What proteins are needed to convert Ran.GTP into Ran.GDP? Where does this occur?

Answer 22

RanBP1 most important. Also RanGAP and RanBP2 (tethered directly to cytoplasmic filaments on outside of nuclear envelope). Happens in cytoplasm

Question 23

What proteins are needed to convert Ran.GDP into Ran.GTP? Where does this occur?

Answer 23

RCC1 (tethered directly to chromatin). Happens inside nucleus

Question 24

Are the NLS/NES cleaved during transport?

Answer 24

No. So they can be re-used

Question 25

How is energy spent during transport?

Answer 25

Not directly couple to transport; but linked to the recylcing of Ran

Question 26

What 2 things can Importin Beta bind to?

Answer 26

Can bind to Importin Alpha (the adapter protein) or directly to the cargo

Question 27

Can proteins contain both NLS and NES?

Answer 27

Yes. Proteins/protein complexes can shuttle so many contain both.

Question 28

How abundant are the Ran proteins?

Answer 28

Very. About 0.4% of total cell protein

Question 29

What energy molecule drives transport of mRNA out of nucleus? What is it used for?

Answer 29

ATP. Required to remove certain proteins as mRNA passes through the NPC (and maybe attached cytoplasmic Rnbp?)

Question 30

When does NXF1/NXT1 transporters attach to mRNA

Answer 30

In nucleus after splicing; etc. After removal of nuclear Rnbp

Question 31

What are 3 ways regulation of nucleocytoplasmic transport can occur?

Answer 31

Through regulation of NPC (permeability/protein expression); transport receptors (availability of); or cargo (Post-translational or transcriptional modifications; inter/intramolecular interactions)

Question 32

What is the main way regulation occurs?

Answer 32

Through regulation of cargo

Question 33

How is disruption of nucleo-ctyoplasmic transport seen in cancer?

Answer 33

Normally BRCA2 and RAD51 are sequestered inside the nucleus; in cancer cell they are both exported from the nucleus. In some cancers Crm1 protein is over expressed and so p53 gets exported from nucleus

Question 34

How does SINE (selective inhibitors of nuclear export) work in cancer therapy?

Answer 34

Binds to Crm1 protein to prevent export