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DA dendrite formation
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DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Dec 20, 2015

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tiling slide

instar slide

dendrite guidance slide

routing defect slide

increased density slide

zn finger protein slide

es ch md amos slide

class of da neurons

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Page 1: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

DA dendrite formation

Page 2: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Dendrite guidance

Page 3: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Clock model: axonal and dendritic growth are internally regulated, depending on how to

respond to guidance molecules

Page 4: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

WT

Robo3 over-expression in TTMn

Robo3 over-expression in both GF & TTMn

GF, giant fiber interneuronTTMn: tergotrochantral motor neuron

Page 5: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Neuropil model: same guidance molecules for attracting (or including) axon and

dendrite together for synapse

TRENDS in Neurosciences Vol.27 No.4 April 2004

Page 6: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

achaete scute

atonal

amos

Proneural genesSensory organs

+ + associated associated

MD MD neuronsneurons

+ + associated associated

MD MD neuronsneurons

solo-MD solo-MD neuronsneurons

Page 7: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

ES MD / mono-ES MD / poly-ES

CH MD / CH solo-MD

ASC ASCASC

ato ato amos

Brewster and Bodmer, 1995

ES

CH

MDamos

Page 8: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.
Page 9: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.
Page 10: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Control of dendrite developmentControl of dendrite development

Luo. et al. Trends Neuroscience (2003)

Page 11: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

DA Dendrite formation

Page 12: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Constitutive active CDC42 induce supernumerary primary dendrites that fail to extend dorsally and grow secondary dendrites

WT

CDC42

pros mutations causes routing defect

Page 13: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Lateral branch defects: (A) WT, (B) reduced, (C) fail to extend, (E, F) over shrinking

Increased density

Page 14: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Sequotia (水杉 ), Zn finger protein

Page 15: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

No repulsion in dorsal groupNo invasion into ablated region in dorsal region in third instar

Page 16: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Competition between two dorsal groups of contralateral dorsal groups

Page 17: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Dorsal dendrite overextension in flamingo mutants

Page 18: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Class I Class II

Page 19: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Class III

Page 20: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Development (2002) Grueber et al

Tiling of dendrites within the same class of DA neuronsTiling of dendrites within the same class of DA neurons

Page 21: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Cell (2003) Grueber et al

Page 22: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Dendrites of different classes overlap extensively

Class III and IVClass I and IV

Page 23: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Class IV tiling

Page 24: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Differential Cut levels in four types of DA neurons

Page 25: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

cut mutant phenotypes in class III

Page 26: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Class II

Class I

Page 27: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Class I

Class II

Page 28: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Class IV

No effect on class III

Page 29: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Dendrites over-branching and over-lapping phenotypes

Page 30: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Defect in like-dendrite avoidance response

WT

fry

Page 31: DA dendrite formation. Dendrite guidance Clock model: axonal and dendritic growth are internally regulated, depending on how to respond to guidance molecules.

Heteroneuronal tiling defect

Trc kinase

Rac

Fry

branching

tiling


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