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Full-Text Articles in Biology
Regional Phenotypic Differences Of The Opener Muscle In Procambarus Clarkii: Sarcomere Length, Fiber Diameter, And Force Development, Rachel C. Holsinger, Robin L. Cooper
Regional Phenotypic Differences Of The Opener Muscle In Procambarus Clarkii: Sarcomere Length, Fiber Diameter, And Force Development, Rachel C. Holsinger, Robin L. Cooper
Biology Faculty Publications
The opener muscle in the walking legs of the crayfish (Procambarus clarkii) has three distinct phenotypic regions although innervated by only one excitatory motor neuron. These regions (distal, central, and proximal) have varied biochemistry and physiology, including synaptic structure, troponin-T levels, fiber diameter, input resistance, sarcomere length, and force generation. The force generated by the central fibers when the excitatory neuron was stimulated at 40 Hz was more than the force generated by the other regions. This increase in force was correlated with the central fibers having longer sarcomeres when measured in a relaxed claw. These data support …
Effects Of Clove Oil (Eugenol) On Proprioceptive Neurons, Heart Rate, And Behavior In Model Crustaceans, Samuel Wycoff, Kristin Weineck, Shannon Conlin, Chinni Suryadevara, Elizabeth Grau, Alec Bradley, Danielle Cantrell, Samantha Eversole, Carolyn Grachen, Kaylee Hall, Danielle Hawthorne, Claire Kinmon, Paula Ortiz Guerrero, Bhavik Patel, Kaitlyn Samuels, Gia Valdes, Andrew J. Ray, Leo J. Fleckenstein, Elena Piana, Robin L. Cooper
Effects Of Clove Oil (Eugenol) On Proprioceptive Neurons, Heart Rate, And Behavior In Model Crustaceans, Samuel Wycoff, Kristin Weineck, Shannon Conlin, Chinni Suryadevara, Elizabeth Grau, Alec Bradley, Danielle Cantrell, Samantha Eversole, Carolyn Grachen, Kaylee Hall, Danielle Hawthorne, Claire Kinmon, Paula Ortiz Guerrero, Bhavik Patel, Kaitlyn Samuels, Gia Valdes, Andrew J. Ray, Leo J. Fleckenstein, Elena Piana, Robin L. Cooper
Biology Faculty Publications
Clove oil contains eugenol as an active ingredient and is used as a topical anesthetic in mammals to remedy pain and to anesthetize fish and other seafood for short periods; however, the exact mechanism of action of eugenol is not fully understood. We examined use of eugenol as a reversible anesthetic in crustaceans by examining its effect on sensory and motor neurons in the Red Swamp crayfish (Procambarus clarkii), Blue crab (Callinectes sapidus) and Whiteleg shrimp (Litopenaeus vannamei) with electrophysiological recordings. The neurogenic heart rate in the three species was also monitored along with …
Investigating The Effects Of Homocysteine As An Agonist On Invertebrate Glutamatergic Synapses, Elizabeth Grau, Alexandra E. Stanback, Alec Bradley, Danielle Cantrell, Samantha Eversole, Carolyn Grachen, Kaylee Hall, Danielle Hawthorne, Claire Kinmon, Paula Ortiz Guerrero, Bhavik Patel, Kaitlyn Samuels, Chinni Suryadevara, Gia Valdes, Samuel Wycoff, Robin L. Cooper
Investigating The Effects Of Homocysteine As An Agonist On Invertebrate Glutamatergic Synapses, Elizabeth Grau, Alexandra E. Stanback, Alec Bradley, Danielle Cantrell, Samantha Eversole, Carolyn Grachen, Kaylee Hall, Danielle Hawthorne, Claire Kinmon, Paula Ortiz Guerrero, Bhavik Patel, Kaitlyn Samuels, Chinni Suryadevara, Gia Valdes, Samuel Wycoff, Robin L. Cooper
Biology Faculty Publications
Hyperhomocysteinemia (HHcy) in mammals can produce neurological deficits, such as memory loss. The cause of the neurological issues is assumed to be due to homocysteine (HCY) binding to glutamatergic receptors in the central nervous system (CNS). High levels of HCY in the CNS are also associated with Amyotrophic Lateral Sclerosis (ALS) and Parkinson’s disease. Thus, understanding the detailed mechanisms of HCY in model preparations could be useful in developing potential treatments to neurodegenerative diseases with overlapping symptoms to HHcy. The aim of this study is to investigate the efficacy of HCY as an agonist at glutamatergic synapses in invertebrates. The …
The Effect Of Co2, Intracellular Ph And Extracellular Ph On Mechanosensory Proprioceptor Responses In Crayfish And Crab, Viresh Dayaram, Cole A. Malloy, Sarah Martha, Brenda Alvarez, Ikenna Chukwudolue, Nadera Dabbain, Dlovan D.Mahmood, Slavina Goleva, Tori Hickey, Angel Ho, Molly King, Paige Kington, Matthew Mattingly, Samuel Potter, Landon Simpson, Amanda Spence, Henry Uradu, Jacob Van Doorn, Dlovan Faiq, Robin L. Cooper
The Effect Of Co2, Intracellular Ph And Extracellular Ph On Mechanosensory Proprioceptor Responses In Crayfish And Crab, Viresh Dayaram, Cole A. Malloy, Sarah Martha, Brenda Alvarez, Ikenna Chukwudolue, Nadera Dabbain, Dlovan D.Mahmood, Slavina Goleva, Tori Hickey, Angel Ho, Molly King, Paige Kington, Matthew Mattingly, Samuel Potter, Landon Simpson, Amanda Spence, Henry Uradu, Jacob Van Doorn, Dlovan Faiq, Robin L. Cooper
Biology Faculty Publications
Proprioceptive neurons monitor the movements of limbs and joints to transduce the movements into electrical signals. These neurons function similarly in species from arthropods to humans. These neurons can be compromised in disease states and in adverse environmental conditions such as with changes in external and internal pH. We used two model preparations (the crayfish muscle receptor organ and a chordotonal organ in the limb of a crab) to characterize the responses of these proprioceptors to external and internal pH changes as well as raised CO2. The results demonstrate the proprioceptive organs are not highly sensitive to changes …
Stretch Activated Channels In Proprioceptive Organs Of Crab And Crayfish Are Sensitive To Gadolinium But Not Amiloride, Ruthenium Red Or Low Ph, Viresh Dayaram, Cole A. Malloy, Sarah Martha, Brenda Alvarez, Ikenna Chukwudolue, Nadera Dabbain, Dlovan D.Mahmood, Slavina Goleva, Tori Hickey, Angel Ho, Molly King, Paige Kington, Matthew Mattingly, Samuel Potter, Landon Simpson, Amanda Spence, Henry Uradu, Jacob Van Doorn, Robin L. Cooper
Stretch Activated Channels In Proprioceptive Organs Of Crab And Crayfish Are Sensitive To Gadolinium But Not Amiloride, Ruthenium Red Or Low Ph, Viresh Dayaram, Cole A. Malloy, Sarah Martha, Brenda Alvarez, Ikenna Chukwudolue, Nadera Dabbain, Dlovan D.Mahmood, Slavina Goleva, Tori Hickey, Angel Ho, Molly King, Paige Kington, Matthew Mattingly, Samuel Potter, Landon Simpson, Amanda Spence, Henry Uradu, Jacob Van Doorn, Robin L. Cooper
Biology Faculty Publications
The type of stretch activated receptors (SARs) in the chordotonal organs in the crab walking leg and of the muscle receptor organ (MRO) in the crayfish abdomen have not yet been classified as to their molecular or pharmacological profile. The purpose of this study is to examine the pharmacological profile of SARs in the proprioceptive neurons in the crab and crayfish models. Since many SARs share the pharmacological profile of displaying low pH or being proton sensitive (i.e. being more active) or blocked by the diuretic amiloride or ruthenium red as well as being blocked by the broad stretch activated …
Modeling Biological Membranes With Circuit Boards And Measuring Electrical Signals In Axons: Student Laboratory Exercises, Martha M. Robinson, Jonathan M. Martin, Harold L. Atwood, Robin L. Cooper
Modeling Biological Membranes With Circuit Boards And Measuring Electrical Signals In Axons: Student Laboratory Exercises, Martha M. Robinson, Jonathan M. Martin, Harold L. Atwood, Robin L. Cooper
Biology Faculty Publications
This is a demonstration of how electrical models can be used to characterize biological membranes. This exercise also introduces biophysical terminology used in electrophysiology. The same equipment is used in the membrane model as on live preparations. Some properties of an isolated nerve cord are investigated: nerve action potentials, recruitment of neurons, and responsiveness of the nerve cord to environmental factors.
Membrane Potentials, Synaptic Responses, Neuronal Circuitry, Neuromodulation And Muscle Histology Using The Crayfish: Student Laboratory Exercises, Brittany Baierlein, Alison L. Thurow, Harold L. Atwood, Robin L. Cooper
Membrane Potentials, Synaptic Responses, Neuronal Circuitry, Neuromodulation And Muscle Histology Using The Crayfish: Student Laboratory Exercises, Brittany Baierlein, Alison L. Thurow, Harold L. Atwood, Robin L. Cooper
Biology Faculty Publications
The purpose of this report is to help develop an understanding of the effects caused by ion gradients across a biological membrane. Two aspects that influence a cell's membrane potential and which we address in these experiments are: (1) Ion concentration of K+ on the outside of the membrane, and (2) the permeability of the membrane to specific ions. The crayfish abdominal extensor muscles are in groupings with some being tonic (slow) and others phasic (fast) in their biochemical and physiological phenotypes, as well as in their structure; the motor neurons that innervate these muscles are correspondingly different in …
Physiological Experimentation With The Crayfish Hindgut: A Student Laboratory Exercise, Ann S. Cooper, Bonnie Leksrisawat, Allison B. Gilberts, A. Joffre Mercier, Robin L. Cooper
Physiological Experimentation With The Crayfish Hindgut: A Student Laboratory Exercise, Ann S. Cooper, Bonnie Leksrisawat, Allison B. Gilberts, A. Joffre Mercier, Robin L. Cooper
Biology Faculty Publications
The purpose of the report is to describe dissection techniques for preparing the crayfish hindgut and to demonstrate how to make physiological recordings with a force transducer to monitor the strength of contraction. In addition, we demonstrate how to visually monitor peristaltic activity, which can be used as a bioassay for various peptides, biogenic amines and neurotransmitters. This preparation is amenable to student laboratories in physiology and for demonstrating pharmacological concepts to students. This preparation has been in use for over 100 years, and it still offers much as a model for investigating the generation and regulation of peristaltic rhythms …
Muscle Receptor Organs In The Crayfish Abdomen: A Student Laboratory Exercise In Proprioception, Bonnie Leksrisawat, Ann S. Cooper, Allison B. Gilberts, Robin L. Cooper
Muscle Receptor Organs In The Crayfish Abdomen: A Student Laboratory Exercise In Proprioception, Bonnie Leksrisawat, Ann S. Cooper, Allison B. Gilberts, Robin L. Cooper
Biology Faculty Publications
The primary purpose of this experiment is to demonstrate primary sensory neurons conveying information of joint movements and positions as proprioceptive information for an animal. An additional objective of this experiment is to learn anatomy of the preparation by staining, dissection and viewing of neurons and sensory structures under a dissecting microscope. This is performed by using basic neurophysiological equipment to record the electrical activity from a joint receptor organ and staining techniques. The muscle receptor organ (MRO) system in the crayfish is analogous to the intrafusal muscle spindle in mammals, which aids in serving as a comparative model that …
Physiological Recordings Of High And Low Output Nmjs On The Crayfish Leg Extensor Muscle, Wenhui Wu, Robin L. Cooper
Physiological Recordings Of High And Low Output Nmjs On The Crayfish Leg Extensor Muscle, Wenhui Wu, Robin L. Cooper
Biology Faculty Publications
We explain in detail how to expose and conduct electrophysiological recordings of synaptic responses for high (phasic) and low (tonic) output motor neurons innervating the extensor muscle in the walking leg of a crayfish. Distinct differences are present in the physiology and morphology of the phasic and tonic nerve terminals. The tonic axon contains many more mitochondria, enabling it to take a vital stain more intensely than the phasic axon. The tonic terminals have varicosities, and the phasic terminal is filiform. The tonic terminals are low in synaptic efficacy but show dramatic facilitated responses. In contrast, the phasic terminals are …
Monitoring Heart Function In Larval Drosophila Melanogaster For Physiological Studies, Ann S. Cooper, Kylah E. Rymond, Matthew A. Ward, Easter L. Bocook, Robin L. Cooper
Monitoring Heart Function In Larval Drosophila Melanogaster For Physiological Studies, Ann S. Cooper, Kylah E. Rymond, Matthew A. Ward, Easter L. Bocook, Robin L. Cooper
Biology Faculty Publications
We present various methods to record cardiac function in the larval Drosophila. The approaches allow heart rate to be measured in unrestrained and restrained whole larvae For direct control of the environment around the heart another approach utilizes the dissected larvae and removal of the internal organs in order to bathe the heart in desired compounds. The exposed heart also allows membrane potentials to be monitored which can give insight of the ionic currents generated by the myocytes and for electrical conduction along the heart tube. These approaches have various advantages and disadvantages for future experiments that are discussed. …
Historical View And Physiology Demonstration At The Nmj Of The Crayfish Opener Muscle, Ann S. Cooper, Robin L. Cooper
Historical View And Physiology Demonstration At The Nmj Of The Crayfish Opener Muscle, Ann S. Cooper, Robin L. Cooper
Biology Faculty Publications
Here we present some of the key important discoveries made with the opener neuromuscular (NMJ) preparation of crustaceans and illustrate that there is still much to learn from this model preparation. In understanding the history one can appreciate why even today this NMJ still offers a rich playground to address questions regarding pre- and post-synaptic function and plasticity. The viability and ease of access to the terminal for intracellular as well as extracellular electrophysiology and imaging are significant advantages. The mechanisms behind the modulation of vesicular kinetics and fusion within the high- and low-output terminals are begging for investigation. The …
Measures Of Heart And Ventilatory Rates In Freely Moving Crayfish, Sonya M. Bierbower, Robin L. Cooper
Measures Of Heart And Ventilatory Rates In Freely Moving Crayfish, Sonya M. Bierbower, Robin L. Cooper
Biology Faculty Publications
The fear, flight or fight response serves as the fundamental physiological basis for examining an organism's awareness of its environment under an impending predator attack. Although it is not known whether invertebrates posses an autonomic nervous system identical to that of vertebrates, evidence shows invertebrates have a sympathetic-like response to regulate the internal environment and ready the organism to act behaviorally to a given stimuli. Furthermore, this physiological response can be feasibly measured and it acts as a biological index for the animal's internal state. Measurements of the physiological response can be directly related to internal and external stressors through …