scholarly journals Drosophilaembryonic type II neuroblasts: origin, temporal patterning, and contribution to the adult central complex

Development ◽  
2017 ◽  
Vol 144 (24) ◽  
pp. 4552-4562 ◽  
Author(s):  
Kathleen T. Walsh ◽  
Chris Q. Doe
Keyword(s):  
Central Complex ◽  
Type Ii ◽  
Temporal Patterning

scholarly journals Drosophila embryonic type II neuroblasts: origin, temporal patterning, and contribution to the adult central complex

2017 ◽  
Author(s):  
Kathleen T. Walsh ◽  
Chris Q. Doe
Keyword(s):  
Transcription Factors ◽  
Complex Function ◽  
Neural Progenitors ◽  
Central Complex ◽  
Type I ◽  
Type Ii ◽  
Neuronal Diversity ◽  
Temporal Patterning ◽  
Larval Type ◽  
Mother Cells

ABSTRACTDrosophila neuroblasts are an excellent model for investigating how neuronal diversity is generated. Most brain neuroblasts generate a series of ganglion mother cells (GMCs) that each make two neurons (type I lineage), but sixteen brain neuroblasts generate a series of intermediate neural progenitors (INPs) that each produce 4-6 GMCs and 8-12 neurons (type II lineage). Thus, type II lineages are similar to primate cortical lineages, and may serve as models for understanding cortical expansion. Yet the origin of type II neuroblasts remains mysterious: do they form in the embryo or larva? If they form in the embryo, do their progeny populate the adult central complex, as do the larval type II neuroblast progeny? Here we present molecular and clonal data showing that all type II neuroblasts form in the embryo, produce INPs, and express known temporal transcription factors. Embryonic type II neuroblasts and INPs undergo quiescence, and produce embryonic-born progeny that contribute to the adult central complex. Our results provide a foundation for investigating the development of the central complex, and tools for characterizing early-born neurons in central complex function.

scholarly journals Drosophila type II neuroblast lineages keep Prospero levels low to generate large clones that contribute to the adult brain central complex

2010 ◽  
Vol 5 (1) ◽  
pp. 26 ◽  
Author(s):  
Omer Bayraktar ◽  
Jason Q Boone ◽  
Michael L Drummond ◽  
Chris Q Doe
Keyword(s):  
Adult Brain ◽  
Central Complex ◽  
Type Ii

Type II Solar Radio Bursts over Solar Cycle 21

1994 ◽  
Vol 144 ◽  
pp. 283-284
Author(s):  
G. Maris ◽  
E. Tifrea
Keyword(s):  
Solar Radio ◽  
Interplanetary Space ◽  
Impulsive Phase ◽  
Radio Bursts ◽  
Type Ii ◽  
Solar Radio Bursts ◽  
Strong Energy ◽  
Mass Ejection ◽  
Geophysical Effect ◽  
Radio Event

The type II solar radio bursts produced by a shock wave passing through the solar corona are one of the most frequently studied solar activity phenomena. The scientific interest in this type of phenomenon is due to the fact that the presence of this radio event in a solar flare is an almost certain indicator of a future geophysical effect. The origin of the shock waves which produce these bursts is not at all simple; besides the shocks which are generated as a result of a strong energy release during the impulsive phase of a flare, there are also the shocks generated by a coronal mass ejection or the shocks which appear in the interplanetary space due to the supplementary acceleration of the solar particles.

Heat-Etching with a Bullivant Type II Simple Freeze-Cleave Device

1970 ◽  
Vol 28 ◽  
pp. 106-107 ◽  
Author(s):  
Ronald S. Weinstein ◽  
N. Scott McNutt
Keyword(s):  
New Zealand ◽  
General Hospital ◽  
Massachusetts General Hospital ◽  
Type I ◽  
Type Ii ◽  
Collaborative Effort ◽  
Temperature And Pressure ◽  
The University

The Type I simple cold block device was described by Bullivant and Ames in 1966 and represented the product of the first successful effort to simplify the equipment required to do sophisticated freeze-cleave techniques. Bullivant, Weinstein and Someda described the Type II device which is a modification of the Type I device and was developed as a collaborative effort at the Massachusetts General Hospital and the University of Auckland, New Zealand. The modifications reduced specimen contamination and provided controlled specimen warming for heat-etching of fracture faces. We have now tested the Mass. General Hospital version of the Type II device (called the “Type II-MGH device”) on a wide variety of biological specimens and have established temperature and pressure curves for routine heat-etching with the device.

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