Acute and recurrent hypoglycemia modulates brain glycogen metabolism in the mouse / Title on signature page: Acute and recurrent hypoglycemia modulates brain glycogen in the mouse

Schenk, Sarah E.

January 2009

Access to abstract permanently restricted to Ball State community only / Access to thesis permanently restricted to Ball State community only / Department of Biology

Hypoglycemia

Brain--Metabolism

Glycogen--Physiological effect

Mice--Physiology

The importance of brain glycogen during acute seizure activity in mice

Riegle, Melissa A.

January 2009

Seizure activity is the primary symptom in a common but very serious neurological disorder known as epilepsy. Brain glycogen is utilized for neuronal function, prompting us to investigate the role of brain glycogen during seizure activity in mouse models. Seizures were induced with Pentylenetetrazole (PTZ) in both wild-type mice and mice lacking brain glycogen (MGSKO/GSL30 mice). A time course of brain glycogen utilization after onset of seizure activity revealed a reduction of brain glycogen in wild-type mice. The glycogen synthase activity ratio increased after onset of seizure activity, while the glycogen phosphorylase activity ratio remained constant. Brain and blood glucose levels increased after seizure onset in wild-type mice. Despite lacking brain glycogen, MGSKO/GSL30 mice exhibited acute seizure activity. No differences were observed in seizure intensity, onset time, and duration between genotypes. These findings suggest that brain glycogen is important, but not required for PTZ-induced acute seizure activity in mice. / Access to thesis permanently restricted to Ball State community only / Department of Biology

Brain--Metabolism

Glycogen--Physiological effect

Convulsions

Mice--Physiology

Effects of maternal immunization against myostatin on skeletal muscle mass of offspring in mice

Bobbili, Naveen K

January 2007

Thesis (M.S.)--University of Hawaii at Manoa, 2007. / Includes bibliographical references (leaves 45-55). / i, 92 leaves, bound ill. 29 cm

Mice -- Physiology -- Genetic aspects

Mice -- Immunology -- Genetic aspects

Behavioral Strategies and Neural Control of Skilled Locomotion in Mice

Warren, Richard A.

January 2022

The brain evolved to control behavior, and locomotion is among the behaviors most critical to animal survival. The neural mechanisms of skilled locomotion have been studied for decades, yet recently developed technologies offer the opportunity to shine new light on this long studied behavior. I leveraged these technologies to develop a system for studying the behavioral strategies and neural mechanisms of skilled locomotion in mice. In Chapter 2, I use detailed 3D kinematic tracking and behavioral modelling to describe a rapid sensorimotor decision that determines the kinematic strategies used by mice to step over obstacles. Despite the whisker dependency of this behavior, performance is minimally affected by manipulations of whisker sensory cortex, whereas motor cortex manipulations impair but did not prevent obstacle clearance. Neither cortical manipulation substantially impacts the sensorimotor decision. In Chapter 3, we turn to the cerebellum. The cerebellum is thought to contribute to the coordination of movement, as evinced by the locomotor deficits that are a hallmark of cerebellar ataxia. However, much cerebellar research has focused on simple behaviors involving single body parts. Furthermore, the recent discovery of reward signals in the cerebellar cortex has drawn attention to its potential non-motor functions, but whether such signals exist in the output of the cerebellum is unknown. We conducted an electrophysiological survey of the deep cerebellar nuclei to characterize the signals communicated by the cerebellum to downstream structures. Preliminary analyses from this ongoing work suggest that cerebellar output is dominated by orofacial and locomotor signals, whereas reward related modulations are largely accounted for by the behavioral correlates of reward delivery. Collectively, these results demonstrate that quantitative whole body analyses of ethologically inspired behaviors can enhance our understanding of the neural control of sensorimotor behaviors.

Neurosciences

Mice--Physiology

Locomotion

Motor ability

Cerebellum

Kinematics

The influence of growth rate on the energy metabolism of LS mouse cells in steady-state semicontinuous culture /

Woodruff, Peter Brian.

January 1975

No description available.

Carbohydrates -- Metabolism.

Mice -- Physiology.

Engineering, General.

Cell physiology.

Cell culture.

Naloxone analgesia in BALBc mice : a dose-dependent relationship

Vaccarino, Anthony Leonard.

January 1987

No description available.

Pain -- Physiological aspects.

Mice -- Physiology.

Analgesia.

Naloxone -- Physiological effect.

The disposition of caffeine in man, rabbit and mouse /

Beach, Cynthia Ann

January 1983

No description available.

Health Sciences

Caffeine--Physiological effect

Rabbits--Physiology

Mice--Physiology

The metabolism of histone mRNA during the cell cycle of serum stimulated mouse 3T6 fibroblasts /

DeLisle, Alice J.(Alice Jean)

January 1984

No description available.

Chemistry

Fibroblasts

Cell cycle

Histones

RNA

Mice--PHYSIOLOGY

The effects of maternal Diabetes mellitus on cardiac development in the CD-1 mouse fetus /

Barlett, Paul Bruce

January 1984

No description available.

Biology

Fetal heart

Maternal-fetal exchange

Diabetes in pregnancy

Mice--PHYSIOLOGY

The effects of acute posttraining injections of cocaine on spatial memory in C57BL/6 mice

Iñiguez, Sergio Diaz

01 January 2007

The purpose of this study was to investigate the effects of cocaine on spatial memory consolidation using the Morris water maze. Specifically, male and female C57BL/6 mice were trained on a spatial water task, and then administered a single posttraining injection of saline or cocaine (1.25, 2.5, 5.0, or 20.0 mg/kg).

Mice as laboratory animals

Cocaine

Animal memory Effect of drugs on

Mice Physiology

Cocaine

Mice as laboratory animals

Mice Physiology.

Biological Psychology