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Social and Behavioral Sciences Commons™
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Articles 1 - 4 of 4
Full-Text Articles in Social and Behavioral Sciences
Do Osteon Morphotypes Identified In The Mid-Diaphysis Of Human Femurs Indicate The Same Torsional Load History As Chimpanzees?, Bailey A G Colohan
Do Osteon Morphotypes Identified In The Mid-Diaphysis Of Human Femurs Indicate The Same Torsional Load History As Chimpanzees?, Bailey A G Colohan
Theses and Dissertations
Skedros’s (2009) osteon morphotype scoring (MTS) scheme is employed to identify if humans have the same torsional load-bearing history as chimpanzees at the femoral mid-diaphysis. Humans show to have no significant difference between quadrants of this area’s MTS, congruent with what is expected in a torsional load-bearing area of bone.
A Penile Spine/Vibrissa Enhancer Sequence Is Missing In Modern And Extinct Humans But Is Retained In Multiple Primates With Penile Spines And Sensory Vibrissae, Philip L. Reno, Cory Y Mclean, Jasmine E Hines, Terence D Capellini, Gill Bejerano, David M Kingsley
A Penile Spine/Vibrissa Enhancer Sequence Is Missing In Modern And Extinct Humans But Is Retained In Multiple Primates With Penile Spines And Sensory Vibrissae, Philip L. Reno, Cory Y Mclean, Jasmine E Hines, Terence D Capellini, Gill Bejerano, David M Kingsley
PCOM Scholarly Works
Previous studies show that humans have a large genomic deletion downstream of the Androgen Receptor gene that eliminates an ancestral mammalian regulatory enhancer that drives expression in developing penile spines and sensory vibrissae. Here we use a combination of large-scale sequence analysis and PCR amplification to demonstrate that the penile spine/vibrissa enhancer is missing in all humans surveyed and in the Neandertal and Denisovan genomes, but is present in DNA samples of chimpanzees and bonobos, as well as in multiple other great apes and primates that maintain some form of penile integumentary appendage and facial vibrissae. These results further strengthen …
Remarkable Resilience Of Teeth (How Are Teeth So Brittle Yet So Resilient), Paul J. Constantino
Remarkable Resilience Of Teeth (How Are Teeth So Brittle Yet So Resilient), Paul J. Constantino
Biological Sciences Faculty Research
Tooth enamel is inherently weak, with fracture toughness comparable with glass, yet it is remarkably resilient, surviving millions of functional contacts over a lifetime. We propose a microstructural mechanism of damage resistance, based on observations from ex situ loading of human and sea otter molars (teeth with strikingly similar structural features). Section views of the enamel implicate tufts, hypomineralized crack-like defects at the enamel–dentin junction, as primary fracture sources. We report a stabilization in the evolution of these defects, by ‘‘stress shielding’’ from neighbors, by inhibition of ensuing crack extension from prism interweaving (decussation), and by self-healing. These factors, coupled …
Ζωϊκά Και Ανθρώπινα Οστά Στα Αρχαιολογικά Σύνολα. Προβληματική Και Διαχωρισμός, Anastasia Tsaliki
Ζωϊκά Και Ανθρώπινα Οστά Στα Αρχαιολογικά Σύνολα. Προβληματική Και Διαχωρισμός, Anastasia Tsaliki
Dr Anastasia Tsaliki, PhD
No abstract provided.