Plant Signalling 2

Question 1

Auxins roles

Answer 1

Auxin = Indole-3-Acetic Acid (IAA)

Roles in:

• tropic growth
• apical dominance
• organogenesis
• pattern formation & polarity

Question 2

IAA mutants

Answer 2

No mutants that COMPLETELY lack IAA are known

Mutants in auxin perception & response have helped work out the molecular basis of auxin action

Question 3

Natural & Synthetic IAA

Answer 3

Synthetic = more stable
- used experimentally

Natural = similar to tryptophan

• synthesis begins from tryptophan
• synthesis driven by developmental and environmental signals

Question 4

IAA modulation/regulation

Answer 4

Controlled by conjugation

• when conjugated as sugar ester forms, IAA is in its inactive storage form
• cleaving ester bond rapidly activates it (useful for quick responses, naste)

Question 5

IAA transport

Answer 5

Moves in vascular system (fast, non-polar)

Slow cell-cell transport (polar)

Question 6

Polar IAA transport

Answer 6

Unique to IAA, gives rise to concentration gradients that shape cell responses

Moving cell to cell using chemiosmotic driving force for movement

Question 7

IAA entering/exiting the cell mechanisms

Answer 7

Entering:

• Diffusion as IAAH (protonated)
• Co-transport of IAA- & H+ through AUX1 influx carrier
• Active transport of IAA via ABC importers

Exiting:

• PIN efflux carrier
• Active transport of IAA via ABC transporter
• Active transport of H+ via H+ ATPase

Movement is based on pH difference across membrane:

• pH 5.5 outside vs pH 7 inside
• IAAH <===> IAA- + H+

Question 8

Monitoring IAA presence

Answer 8

Done by inserting an auxin responsive promoter (e.g. DR5) with an adjacent downstream reporter like GUS or GFP

Question 9

IAA’s asymmetric distribution

Answer 9

Achieved by the asymmetric distribution of influx and efflux proteins in the cells:

• Influx on 1 side, efflux on the other
• PIN (efflux) protein localisation change in response to developmental and environmental signals

Question 10

IAA response to embryo development

Answer 10

1) initial transport into embryo via PIN7
2) following cell division, PIN1 mediates auxin flow between cells inside embryo
3) PIN4 transports IAA to the base of the embryo

Question 11

IAA regulating tropisms

Answer 11

PIN localisation can change in response to gravity: providing gravistimulation

• Starch granules sense gravity by sedimenting at bottom of root cap cells
• PIN3 relocates and IAA accumulates on lower side of root
• results in asymmetric, downwards root growth

Question 12

Mechanism for changing PIN protein localisation

PM-endosome cycling

Answer 12

PIN and AUX proteins are synthesised on ER and transported in vesicles to plasma membrane (PM). They are constitutively cycled between the PM and endosomes

• Constantly recycling, the location of fusion with the PM can change
• PIN and AUX can also enter degradation pathway, entering the vacuole

Question 13

IAA activating genes

Answer 13

Like Jasmonates, involves degrading repressors

• AUX/IAA repressors normally bind to Auxin Responsive Factors (ARFs) on promoter
• Auxins activate TIR1 (F-box) which activates the SCF type E3 ligase (SCFtir1)
• SCFtir1 polyubiquitinates the AUX/IAA repressor leading to proteosomal degradation