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Full-Text Articles in Life Sciences
Free-Living Allen’S Hummingbirds (Selasphorus Sasin) Rarely Use Torpor While Nesting, Erich R. Eberts, Glenn J. Tattersall, Peter J. Auger, Maria Curley, Melissa I. Morado, Eric G. Strauss, Don Powers, Noemi C. Soveral, Bret W. Tobalske, Anusha Shankar
Free-Living Allen’S Hummingbirds (Selasphorus Sasin) Rarely Use Torpor While Nesting, Erich R. Eberts, Glenn J. Tattersall, Peter J. Auger, Maria Curley, Melissa I. Morado, Eric G. Strauss, Don Powers, Noemi C. Soveral, Bret W. Tobalske, Anusha Shankar
Faculty Publications - Department of Biological & Molecular Science
For reproducing animals, maintaining energy balance despite thermoregulatory challenges is important for surviving and successfully raising offspring. This is especially apparent in small endotherms that exhibit high mass-specific metabolic rates and live in unpredictable environments. Many of these animals use torpor, substantially reducing their metabolic rate and often body temperature to cope with high energetic demands during non-foraging periods. In birds, when the incubating parent uses torpor, the lowered temperatures that thermally sensitive offspring experience could delay development or increase mortality risk. We used thermal imaging to noninvasively explore how nesting female hummingbirds sustain their own energy balance while effectively …
Does Wing Use And Disuse Cause Behavioural And Musculoskeletal Changes In Domestic Fowl (Gallus Gallus Domesticus)?, Renée C. Garant, Bret W. Tobalske, Neila Ben Sassi, Nienke Van Staaveren, Dan Tulpan, Tina Widowski, Donald R. Powers, Alexandra Harlander-Matauschek
Does Wing Use And Disuse Cause Behavioural And Musculoskeletal Changes In Domestic Fowl (Gallus Gallus Domesticus)?, Renée C. Garant, Bret W. Tobalske, Neila Ben Sassi, Nienke Van Staaveren, Dan Tulpan, Tina Widowski, Donald R. Powers, Alexandra Harlander-Matauschek
Faculty Publications - Department of Biological & Molecular Science
Domestic chickens may live in environments which restrict wing muscle usage. Notably, reduced wing activity and accompanying muscle weakness are hypothesized risk factors for keel bone fractures and deviations. We used radio-frequency identification (RFID) to measure duration spent at elevated resources (feeders, nest-boxes), ultrasonography to measure muscle thickness (breast and lower leg) changes, radiography and palpation to determine fractures and deviations, respectively, following no, partial (one-sided wing sling) and full (cage) immobilization in white- and brown-feathered birds. We hypothesized partially immobilized hens would reduce elevated resource usage and that both immobilization groups would show decreased pectoralis thickness (disuse) and increased …
Eye Lens Β-Crystallins Are Predicted By Native Ion Mobility-Mass Spectrometry And Computations To Form Compact Higher-Ordered Heterooligomers, Amber D. Rolland, Takumi Takata, Micah T. Donor, Kirsten J. Lampi, James S. Prell
Eye Lens Β-Crystallins Are Predicted By Native Ion Mobility-Mass Spectrometry And Computations To Form Compact Higher-Ordered Heterooligomers, Amber D. Rolland, Takumi Takata, Micah T. Donor, Kirsten J. Lampi, James S. Prell
Faculty Publications - Department of Biological & Molecular Science
Eye lens crystallin proteins maintain the refractive properties of the lens but are not replaced after denucleation. Rolland et al. use native ion mobility-mass spectrometry, kinetics experiments, and computations to reveal that b-crystallins form heterodimers. These likely assemble into compact heterooligomers that enable the very high protein concentrations found in lens tissue.