Add to ORKGFor the nervous system to develop properly, axons must connect neurons into networks by navigating to their target destinations. A large proportion of genes containing extracellular Leucine-Rich Repeats (eLRRs) function in neurodevelopment, including in axon guidance. The objective of this thesis is to identify novel eLRR genes in the Caenorhabditis elegans’ lron and iglr gene families that function in axon guidance. Animals with mutations in these genes were observed with pan-neuronal and pioneer markers to identify mutations that induced axon guidance defects. Six mutants had significant axon guidance defects. In addition, iglr-2 mutants were found to have fasciculation defects in the left ventral nerve cord. lron-11 mutants had the...
A long-standing yet to be accomplished task in understanding behavior is to dissect the function of ...
Since Caenorhabditis elegans was chosen as a model organism by Sydney Brenner in 1960's, genetic stu...
Accurate control of nervous system development is critical for normal brain patterning, and defects ...
In complex organisms, genes determine cellular fates and functions. By studying gene networks during...
Cellular networks are required for a variety of processes in complex organisms. Caenorhabditis elega...
AbstractThe ventral cord in C. elegans is the major longitudinal axon tract containing essential com...
One goal of modern day neuroscience is the establishment of molecular maps that assign unique featur...
A process such as locomotion requires a well-connected cellular network that is assembled by a gene ...
The nervous system has an exceptionally complex morphology. Even in C. elegans, a relatively simple...
To understand how to fix damages to the central nervous system, the genes and pathways associated wi...
This study was undertaken to identify genes involved in axon guidance in the nervous system of Caeno...
The nematode Caenorhabditis elegans, with its sequenced genome, compact nervous system and stereotyp...
The past decade has produced much evidence that glia, the major cellular component of vertebrate ner...
Organisms receive, process, and respond to environmental cues via intricate neural circuits that for...
The growth cone of a developing axon senses and responds to extracellular cues resulting in the migr...
A long-standing yet to be accomplished task in understanding behavior is to dissect the function of ...
Since Caenorhabditis elegans was chosen as a model organism by Sydney Brenner in 1960's, genetic stu...
Accurate control of nervous system development is critical for normal brain patterning, and defects ...
In complex organisms, genes determine cellular fates and functions. By studying gene networks during...
Cellular networks are required for a variety of processes in complex organisms. Caenorhabditis elega...
AbstractThe ventral cord in C. elegans is the major longitudinal axon tract containing essential com...
One goal of modern day neuroscience is the establishment of molecular maps that assign unique featur...
A process such as locomotion requires a well-connected cellular network that is assembled by a gene ...
The nervous system has an exceptionally complex morphology. Even in C. elegans, a relatively simple...
To understand how to fix damages to the central nervous system, the genes and pathways associated wi...
This study was undertaken to identify genes involved in axon guidance in the nervous system of Caeno...
The nematode Caenorhabditis elegans, with its sequenced genome, compact nervous system and stereotyp...
The past decade has produced much evidence that glia, the major cellular component of vertebrate ner...
Organisms receive, process, and respond to environmental cues via intricate neural circuits that for...
The growth cone of a developing axon senses and responds to extracellular cues resulting in the migr...
A long-standing yet to be accomplished task in understanding behavior is to dissect the function of ...
Since Caenorhabditis elegans was chosen as a model organism by Sydney Brenner in 1960's, genetic stu...
Accurate control of nervous system development is critical for normal brain patterning, and defects ...