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Locomotive Behaviors (locomotive + behavior)

Distribution by Scientific Domains
Life Sciences83%

Selected Abstracts

Drosophila cdk5 is needed for locomotive behavior and NMJ elaboration, but seems dispensable for synaptic transmission

DEVELOPMENTAL NEUROBIOLOGY, Issue 6 2009
Alexander E. Kissler
Abstract Cyclin-dependent kinase 5 (Cdk5) functions in postmitotic neuronal cells and play roles in cell differentiation, cell migration, axonal guidance, and synaptic function. Here, we demonstrate that Drosophila cdk5 is dispensable for adult viability and fertility, a feature that allows us to study its physiological function in the whole animal model. For the adult, cdk5 is needed for proper locomotion and flight performance. Larvae lacking cdk5 in the presynaptic tissue display abnormal crawling motion, and their neuromuscular junctions (NMJ) are elongated and contain a higher number of boutons that are smaller. As a result of these two counteracting effects, the total synaptic area/NMJ is similar to wild type, leading to normal synaptic transmission, indicating that a compensatory mechanism is capable of correcting the problem caused by the lack of cdk5. futsch, the Drosophila MAP1B homolog, is also involved in NMJ morphogenesis, and analysis of the NMJ phenotype of the double mutant futschK68; cdk5, indicates that cdk5 is epistatic to futsch in this process. © 2009 Wiley Periodicals, Inc. Develop Neurobiol, 2009 [source]

Disruption of insulin pathways alters trehalose level and abolishes sexual dimorphism in locomotor activity in Drosophila

DEVELOPMENTAL NEUROBIOLOGY, Issue 1 2006
Yesser Hadj Belgacem
Abstract Insulin signaling pathways are implicated in several physiological processes in invertebrates, including the control of growth and life span; the latter of these has also been correlated with juvenile hormone (JH) deficiency. In turn, JH levels have been correlated with sex-specific differences in locomotor activity. Here, the involvement of the insulin signaling pathway in sex-specific differences in locomotor activity was investigated in Drosophila. Ablation of insulin-producing neurons in the adult pars-intercerebralis was found to increase trehalosemia and to abolish sexual dimorphism relevant to locomotion. Conversely, hyper-insulinemia induced by insulin injection or by over-expression of an insulin-like peptide decreases trehalosemia but does not affect locomotive behavior. Moreover, we also show that in the head of adult flies, the insulin receptor (InR) is expressed only in the fat body surrounding the brain. While both male and female InR mutants are hyper-trehalosemic, they exhibit similar patterns of locomotor activity. Our results indicate that first, insulin controls trehalosemia in adults, and second, like JH, it controls sex-specific differences in the locomotor activity of adult Drosophila in a manner independent of its effect on trehalose metabolism. © 2005 Wiley Periodicals, Inc. J Neurobiol, 2006 [source]

Supraspinal input is dispensable to generate glycine-mediated locomotive behaviors in the zebrafish embryo

DEVELOPMENTAL NEUROBIOLOGY, Issue 5 2006
Gerald B. Downes
Abstract The anatomy of the developing zebrafish spinal cord is relatively simple but, despite this simplicity, it generates a sequence of three patterns of locomotive behaviors. The first behavior exhibited is spontaneous movement, then touch-evoked coiling, and finally swimming. Previous studies in zebrafish have suggested that spontaneous movements occur independent of supraspinal input and do not require chemical neurotransmission, while touch-evoked coiling and swimming depend on glycinergic neurotransmission as well as supraspinal input. In contrast, studies in other vertebrate preparations have shown that spontaneous movement requires glycine and other neurotransmitters and that later behaviors do not require supraspinal input. Here, we use lesion analysis combined with high-speed kinematic analysis to re-examine the role of glycine and supraspinal input in each of the three behaviors. We find that, similar to other vertebrate preparations, supraspinal input is not essential for spontaneous movement, touch-evoked coiling, or swimming behavior. Moreover, we find that blockade of glycinergic neurotransmission decreases the rate of spontaneous movement and impairs touch-evoked coiling and swimming, suggesting that glycinergic neurotransmission plays critical yet distinct roles for individual patterns of locomotive behaviors. © 2006 Wiley Periodicals, Inc. J Neurobiol, 2006 [source]

Relationship between Serum Testosterone, Dominance and Mating Success in Père David's Deer Stags

ETHOLOGY, Issue 9 2004
Li Chunwang
We conducted an experiment in the Beijing Milu Park to study the social behavior of male Père David's deer, and related social behavior to social position and serum testosterone level of the stags during rut. We classified the stags into three rank classes according to their rutting behavior: ,harem master', ,challenger' and ,bachelor'. We monitored the behaviors of four ,harem masters', five ,challengers' and five ,bachelors', and analyzed serum testosterone levels in blood samples of those 14 stags using radioimmunoassay. We defined the effectiveness value, E = A/T, to assess the effectiveness of herding or mating attempts made by stags (,T' represents the frequency of herding or mating attempts made by a stag and ,A' represents the frequency of herding or mating attempts accepted by hinds). We found that: (1) the ,harem masters' and the ,challengers' displayed more frequent rut and locomotive behaviors but fewer ingestion behaviors than the ,bachelors'; (2) serum testosterone levels in the ,harem masters' and the ,challengers' were higher than that in the ,bachelors'; (3) effectiveness value of herding attempts differed significantly between the three types of stags, being highest in the ,harem masters' and the lowest in the ,bachelors'; and (4) effectiveness value of mating attempts was significantly greater for the ,harem masters' than for the ,challengers'. We conclude that: (1) reproductive behavior of the Père David's deer stags is strongly associated with social rank; (2) social roles of Père David's deer stags during the rut are related to the testosterone secretion; and (3) rank class affects the mating opportunity of the stags. [source]

Decreased physical function and increased pain sensitivity in mice deficient for type IX collagen

ARTHRITIS & RHEUMATISM, Issue 9 2009
Kyle D. Allen
Objective In mice with Col9a1 gene inactivation (Col9a1,/,), osteoarthritis (OA) and intervertebral disc degeneration develop prematurely. The aim of this study was to investigate Col9a1,/, mice for functional and symptomatic changes that may be associated with these pathologies. Methods Col9a1,/, and wild-type mice were investigated for reflexes, functional impairment (beam walking, pole climbing, wire hang, grip strength), sensorimotor skills (rotarod), mechanical sensitivity (von Frey hair), and thermal sensitivity (hot plate/tail flick). Gait was also analyzed to determine velocity, stride frequency, symmetry, percentage stance time, stride length, and step width. Postmortem, sera obtained from the mice were analyzed for hyaluronan, and their knees and spines were graded histologically for degeneration. Results Col9a1,/, mice had compensatory gait changes, increased mechanical sensitivity, and impaired physical ability. Col9a1,/, mice ambulated with gaits characterized by increased percentage stance times and shorter stride lengths. These mice also had heightened mechanical sensitivity and were deficient in contact righting, wire hang, rotarod, and pole climbing tasks. Male Col9a1,/, mice had the highest mean serum hyaluronan levels and strong histologic evidence of cartilage erosion. Intervertebral disc degeneration was also detected, with Col9a1,/, mice having an increased incidence of disc tears. Conclusion These data describe a Col9a1,/, behavioral phenotype characterized by altered gait, increased mechanical sensitivity, and impaired function. These gait and functional differences suggest that Col9a1,/, mice select locomotive behaviors that limit joint loads. The nature and magnitude of behavioral changes were largest in male mice, which also had the greatest evidence of knee degeneration. These findings suggest that Col9a1,/, mice present behavioral changes consistent with anatomic signs of OA and intervertebral disc degeneration. [source]