This study demonstrates an inexpensive and straightforward technique that allows the measurement of physical properties such as position, velocity, acceleration and forces involved in the locomotory behavior of nematodes suspended in a column of water in response to single wavelengths of light. We demonstrate how to evaluate the locomotion of a microscopic organism using Single Wavelength Shadow Imaging (SWSI) using two different examples. The first example is a systematic and statistically viable study of the average descent of C. elegans in a column of water. For this study, we used living and dead wildtype C. elegans. When we compared the velocity and direction of nematode active movement with the passive descent of dead worms within the...
Background The detailed assessment of nematode activity and viability still remains a relatively und...
The nematode Caenorhabditis elegans provides a unique opportunity to interrogate the neural basis of...
DoctorThe goal of behavioral science is to understand biological mechanisms underlying animal behavi...
Soil and aquatic microscopic organisms live and behave in a complex three-dimensional environment. M...
Behavioural phenotyping of model organisms is widely used to investigate fundamental aspects of orga...
Identifying the function of different locomotive genes in model organisms is crucial for genetics re...
C. elegans is a small (~ 1mm long), free-living nematode that is extensively used as a model organis...
This paper presents integration of optogenetic illumination of C. elegans neural circuits and muscul...
Studying animal mechanics is crucial in order to understand how signals in the neuromuscular system ...
We present an optogenetic illumination system that is capable of real-time light delivery with high ...
The behavior of the nematode C. elegans has proven increasingly useful for the genetic dissection of...
A fundamental goal of systems neuroscience is to probe the dynamics of neural activity that generate...
We present an optogenetic illumination system capable of real-time light delivery with high spatial ...
We present an optogenetic illumination system capable of real-time light delivery with high spatial ...
<div><p>Behavioural phenotyping of model organisms is widely used to investigate fundamental aspects...
Background The detailed assessment of nematode activity and viability still remains a relatively und...
The nematode Caenorhabditis elegans provides a unique opportunity to interrogate the neural basis of...
DoctorThe goal of behavioral science is to understand biological mechanisms underlying animal behavi...
Soil and aquatic microscopic organisms live and behave in a complex three-dimensional environment. M...
Behavioural phenotyping of model organisms is widely used to investigate fundamental aspects of orga...
Identifying the function of different locomotive genes in model organisms is crucial for genetics re...
C. elegans is a small (~ 1mm long), free-living nematode that is extensively used as a model organis...
This paper presents integration of optogenetic illumination of C. elegans neural circuits and muscul...
Studying animal mechanics is crucial in order to understand how signals in the neuromuscular system ...
We present an optogenetic illumination system that is capable of real-time light delivery with high ...
The behavior of the nematode C. elegans has proven increasingly useful for the genetic dissection of...
A fundamental goal of systems neuroscience is to probe the dynamics of neural activity that generate...
We present an optogenetic illumination system capable of real-time light delivery with high spatial ...
We present an optogenetic illumination system capable of real-time light delivery with high spatial ...
<div><p>Behavioural phenotyping of model organisms is widely used to investigate fundamental aspects...
Background The detailed assessment of nematode activity and viability still remains a relatively und...
The nematode Caenorhabditis elegans provides a unique opportunity to interrogate the neural basis of...
DoctorThe goal of behavioral science is to understand biological mechanisms underlying animal behavi...
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