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Identifying Variation Within Substitution Rates in Mammary Gland Development Genes within Primate Genomes

Description
Mammary gland development in humans during puberty involves the enlargement of breast tissue, but this is not true in non-human primates. To identify potential causes of this difference, I examined variation in substitution rates across genes related to mammary development. Genes undergoing purifying selection show slower-than-average substitution rates, while genes

Mammary gland development in humans during puberty involves the enlargement of breast tissue, but this is not true in non-human primates. To identify potential causes of this difference, I examined variation in substitution rates across genes related to mammary development. Genes undergoing purifying selection show slower-than-average substitution rates, while genes undergoing positive selection show faster rates. These may be related to the difference between humans and other primates. Three genes were found to be accelerated were FOXF1, IGFBP5, and ATP2B2, but only the latter one was found in humans and it seems unlikely that it would be related to the differences between mammary gland development at puberty between humans and non-human primates.
ContributorsArroyo, Diana (Author) / Cartwright, Reed (Thesis director) / Wilson Sayres, Melissa (Committee member) / Schwartz, Rachel (Committee member) / School of Life Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2016-05

Piano trio in B-flat major, op. 97, "Archduke". Scherzo. Allegro

ContributorsBeethoven, Ludwig van, 1770-1827 (Composer)

Violin sonata no. 8. Allegro vivace

ContributorsBeethoven, Ludwig van, 1770-1827 (Composer)
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Modeling the Relationship Between Migration, Selection, and Drift in Populations of Blind Cave Fish

Description
The evolution of blindness in cave animals has been heavily studied; however, little research has been done on the interaction of migration and drift on the development of blindness in these populations. In this study, a model is used to compare the effect that genetic drift has on the fixation

The evolution of blindness in cave animals has been heavily studied; however, little research has been done on the interaction of migration and drift on the development of blindness in these populations. In this study, a model is used to compare the effect that genetic drift has on the fixation of a blindness allele for varying amounts of migration and selection. For populations where the initial frequency is quite low, genetic drift plays a much larger role in the fixation of blindness than populations where the initial frequency is high. In populations where the initial frequency is high, genetic drift plays almost no role in fixation. Our results suggest that migration plays a greater role in the fate of the blindness allele than selection.
ContributorsMerry, Alexandra Leigh (Author) / Cartwright, Reed (Thesis director) / Rosenberg, Michael (Committee member) / Schwartz, Rachel (Committee member) / Barrett, The Honors College (Contributor) / School of Life Sciences (Contributor)
Created2014-05

Piano sonata no. 30, op. 109. I. Vivace, ma non troppo

ContributorsBeethoven, Ludwig van, 1770-1827 (Composer)

Sonata in C major, op. 53. II. Introduzione: Adagio molto

ContributorsBeethoven, Ludwig van, 1770-1827 (Composer)

Sonata in G minor, op. 5, no. 2. Adagio sostenuto e espressivo ; Allegro molto piu tosto presto

ContributorsBeethoven, Ludwig van, 1770-1827 (Composer)

Sonata in G minor, op. 5, no. 2. Rondo-Allegro

ContributorsBeethoven, Ludwig van, 1770-1827 (Composer)

Sonata in A major, op. 47

ContributorsBeethoven, Ludwig van, 1770-1827 (Composer)

Sonata in A major, op. 12, no. 2. Allegro vivace

ContributorsBeethoven, Ludwig van, 1770-1827 (Composer)