Life Sciences Commons^™

A Neuromuscular Look Into Genetics Of Muscle Aging, Christina Talley

Master of Science in Integrative Biology Theses

As individuals age throughout their life, they experience muscle tissue loss that impacts their quality of life such as a decrease in their physical capabilities and sometimes even their mental capacity. The process of muscle aging is the key point of this study. This involves the individual’s muscles and the motor neurons that control them. Skeletal muscles are used daily to maintain posture, stand, walk, etc. Throughout a lifetime these muscles undergo damage and need to be repaired. When the muscles are repaired, they express physical changes. The tissue shrinks in size and eventually the composition of the tissue is …

Temperature Changes Seen In Lower Extremities After Cpn Local Anesthetic Block, Lora Asberry

Symposium of Student Scholars

Many older patients often suffer from walking issues such as Drop Foot. Drop Foot is caused by the malfunction of nerves in the foot, resulting in the loss of control of the front foot muscle. Within all of our patients, there has been a common fibular palsy, caused by the entrapment of the peroneal nerve. Due to this, they cannot lift up their foot. Some cases are permanent, while others are temporary. In the temporary cases, we have indicated a Phoenix Sign. The Phoenix Sign indicates that a nerve, presumed to be dead, has the capability to be recessed back …

Age-Related Reduction In High-Velocity Power And Myofiber Morphology And Composition, Ben Dalton

Symposium of Student Scholars

Power is diminished more dramatically at higher contraction velocities in older adults. It has been suggested that this may reflect age-related changes in single myofiber morphology or composition. PURPOSE: To examine power, muscle activation, and single myofiber morphology and composition between young (YM) and older (OM) males. METHODS: Power, or torque × velocity, was recorded during isokinetic knee extensions at 60°·s^-1 and 180°·s^-1 in healthy, untrained YM (n=15; 20.7±2.2 yrs) and OM (n=15; 71.6±3.9 yrs). The relative increase in power from 60°·s^-1 to 180°·s^-1 was recorded for each participant. Electromyography amplitude of the vastus lateralis (VL) …

Drosophila Model To Study Muscle Atrophy, Aaron Aghai

Master of Science in Integrative Biology Theses

Muscle atrophy (MA) is a phenomenon of muscle mass loss due to accelerated protein degradation in muscle fibers. Some pathological conditions, such as chronic inflammation or cancer, induce accelerated MA, which complicates medical treatment, hampers recovery of fragile patients, and ultimately can be the cause of a patient’s death. To gain better control over MA, more information is required about the whole spectrum of genetic factors that can influence MA.

Drosophila provides an excellent platform for genetic screening, although it has somewhat limited utility for MA research since insect muscles lack the level of plasticity found in mammalian muscles. We …

Exotic Properties Of A Voltage-Gated Proton Channel From The Snail Helisoma Trivolvis, Sarah Thomas, Vladimir V. Cherny, Deri Morgan, Liana R. Artinian, Vincent Rehder, Susan M. E. Smith, Thomas E. Decoursey

Faculty and Research Publications

Voltage-gated proton channels, HV1, were first reported in Helix aspersa snail neurons. These H+ channels open very rapidly, two to three orders of magnitude faster than mammalian HV1. Here we identify an HV1 gene in the snail Helisoma trivolvis and verify protein level expression by Western blotting of H. trivolvis brain lysate. Expressed in mammalian cells, HtHV1 currents in most respects resemble those described in other snails, including rapid activation, 476 times faster than hHV1 (human) at pHo 7, between 50 and 90 mV. In contrast to most HV1, activation of HtHV1 is exponential, suggesting first-order kinetics. However, the large …

Histidine168 Is Crucial For Δph-Dependent Gating Of The Human Voltage-Gated Proton Channel, Hhv1, Vladimir V. Cherny, Deri Morgan, Sarah Thomas, Susan M. E. Smith, Thomas E. Decoursey

Faculty and Research Publications

We recently identified a voltage-gated proton channel gene in the snail Helisoma trivolvis, HtHV1, and determined its electrophysiological properties. Consistent with early studies of proton currents in snail neurons, HtHV1 opens rapidly, but it unexpectedly exhibits uniquely defective sensitivity to intracellular pH (pHi). The H+ conductance (gH)-V relationship in the voltage-gated proton channel (HV1) from other species shifts 40 mV when either pHi or pHo (extracellular pH) is changed by 1 unit. This property, called ΔpH-dependent gating, is crucial to the functions of HV1 in many species and in numerous human tissues. The HtHV1 channel exhibits normal pHo dependence but …

The Sh3 Domain Of Unc-89 (Obscurin) Interacts With Paramyosin, A Coiled-Coil Protein, In Caenorhabditis Elegans Muscle, Hiroshi Qadota, Jonathan Mcmurry, Verra M. Ngwa, Et Al.

Faculty and Research Publications

UNC-89 is a giant polypeptide located at the sarcomeric M-line of Caenorhabditis elegans muscle. The human homologue is obscurin. To understand how UNC-89 is localized and functions, we have been identifying its binding partners. Screening a yeast two-hybrid library revealed that UNC-89 interacts with paramyosin. Paramyosin is an invertebrate-specific coiled-coil dimer protein that is homologous to the rod portion of myosin heavy chains and resides in thick filament cores. Minimally, this interaction requires UNC-89’s SH3 domain and residues 294–376 of paramyosin and has a KD of ∼1.1 μM. In unc-89 loss-of-function mutants that lack the SH3 domain, paramyosin is found …

Localisation And Protein-Protein Interactions Of The Helicobacter Pylori Taxis Sensor T1pd And Their Connection To Metabolic Functions, Wiebke Behrens, Tobias Schweinitzer, Jonathan L. Mcmurry, Christine Josenhans

Faculty and Research Publications

The Helicobacter pylori energy sensor TlpD determines tactic behaviour under low energy conditions and is important in vivo. We explored protein-protein interactions of TlpD and their impact on TlpD localisation and function. Pull-down of tagged TlpD identified protein interaction partners of TlpD, which included the chemotaxis histidine kinase CheAY2, the central metabolic enzyme aconitase (AcnB) and the detoxifying enzyme catalase (KatA). We confirmed that KatA and AcnB physically interact with TlpD. While the TlpD-dependent behavioural response appeared not influenced in the interactor mutants katA and acnB in steady-state behavioural assays, acetone carboxylase subunit (acxC) mutant behaviour was altered. TlpD was …

Hoxd Expression In The Fin-Fold Compartment Of Basal Gnathostomes And Implications For Paired Appendage Evolution, Frank J. Tulenko, Gaius J. Augustus, James L. Massey, Seth E. Sims

Faculty and Research Publications

The role of Homeobox transcription factors during fin and limb development have been the focus of recent work investigating the evolutionary origin of limb-specific morphologies. Here we characterize the expression of HoxD genes, as well as the cluster-associated genes Evx2 and LNP, in the paddlefish Polyodon spathula, a basal ray-finned fish. Our results demonstrate a collinear pattern of nesting in early fin buds that includes HoxD14, a gene previously thought to be isolated from global Hoxregulation. We also show that in both Polyodon and the catsharkScyliorhinus canicula (a representative chondrichthyan) late phaseHoxD transcripts are present in cells of the fin-fold …

Efn-4 Functions In Lad-2-Mediated Axon Guidance In Caenorhabditis Elegans, Alicia A. Schwieterman, Cory J. Donelson, Jonathan L. Mcmurry, Martin L. Hudson

Faculty and Research Publications

During development of the nervous system, growing axons rely on guidance molecules to direct axon pathfinding. A well-characterized family of guidance molecules are the membrane-associated ephrins, which together with their cognate Eph receptors, direct axon navigation in a contact-mediated fashion. InC. elegans, the ephrin-Eph signaling system is conserved and is best characterized for their roles in neuroblast migration during early embryogenesis. This study demonstrates a role for theC. elegansephrin EFN-4 in axon guidance. We provide both genetic and biochemical evidence that is consistent with theC. elegansdivergent L1 cell adhesion molecule LAD-2 acting as a non-canonical ephrin receptor to EFN-4 to …

Isothermal Titration Calorimetry Uncovers Substrate Promiscuity Of Bicupin Oxalate Oxidase From Ceriporiopsis Subvermispora, Hassan Rana, Patricia Moussatche, Lis Souza Rocha, Ellen W. Moomaw

Faculty and Research Publications

Isothermal titration calorimetry (ITC) may be used to determine the kinetic parameters of enzymecatalyzed reactions when neither products nor reactants are spectrophotometrically visible and when the reaction products are unknown. We report here the use of the multiple injection method of ITC to characterize the catalytic properties of oxalate oxidase (OxOx) from Ceriporiopsis subvermispora (CsOxOx), a manganese dependent enzyme that catalyzes the oxygen-dependent oxidation of oxalate to carbon dioxide in a reaction coupled with the formation of hydrogen peroxide. CsOxOx is the first bicupin enzyme identified that catalyzes this reaction. The multiple injection ITC method of measuring OxOx activity involves …