Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 4 of 4
Full-Text Articles in Entire DC Network
Identifying Key Evolving Residues That Drive Cid/Cal1 Incompatibility In Drosophila Species, Hayden Yuan, Barbara Mellone
Identifying Key Evolving Residues That Drive Cid/Cal1 Incompatibility In Drosophila Species, Hayden Yuan, Barbara Mellone
Honors Scholar Theses
The centromere, an essential locus on the chromosome critically important for faithful chromosome segregation during cell division, requires the incorporation of centromere protein A (CENP-A/CID) orchestrated by the chaperone CAL1. This thesis investigates the structural requirements governing the interaction between CAL1 and CID, with a focus on two diverged Drosophila species. Using a combination of structural analysis prediction and cellular assays, I explored the compatibility between the N-terminal region of CAL1 and the L1 domain of CID. Previous results demonstrate species specific interactions between CAL1 and CID, with endogenous Drosophila melanogaster (mel) CAL1 efficiently depositing Drosophila melanogaster CID …
Confirming World-Wide Distribution Of An Agriculturally Important Lacewing, Chrysoperla Zastrowi Sillemi, Using Songs, Morphology, Mitochondrial Gene Sequencing, And Phylogenetic Reconstruction, Zoe Mandese
Honors Scholar Theses
The Chrysoperla carnea-group of green lacewings is a cryptic species complex. Species within the group are morphologically similar, yet isolated from one another via reproductive mating song. Chrysoperla zastrowi, a species within the carnea-group, is currently described with a distribution ranging from South Africa to the Middle East and India. However, recent collections of carnea-group lacewings from Guatemala and California were preliminarily identified as Chrysoperla zastrowi based upon similarities in their vibrational courtship songs. This analysis aims to place six specimens, collected by collaborators in Guatemala, Armenia, Iran, and California, into a pre-existing phylogeny of the …
Sequencing And Analysis Of Centromere Protein B In Wallaby And The Rapid Evolution Of The Centromere, Alexander Tedeschi
Sequencing And Analysis Of Centromere Protein B In Wallaby And The Rapid Evolution Of The Centromere, Alexander Tedeschi
Honors Scholar Theses
Using a combination of Sanger sequencing and RNA-seq data, this project aims to determine the nucleotide and amino acid sequence of Centromere Protein B (CENP-B), an important protein involved in the assembly of the kinetochore protein complex at the centromere, in several species of marsupials, specifically wallabies. Despite their recent evolutionary history, these species have been shown to have surprisingly divergent centromeric DNA sequences. Through comparative analysis of these sequences, this project, along with analysis of several other CENPs, aims to determine if this divergence extends to the proteins closely associated with these sequences and possibly even further into the …
Identifying New Genes Involved In Centromere Establishment, Megan Boyer
Identifying New Genes Involved In Centromere Establishment, Megan Boyer
Honors Scholar Theses
The centromere is a site on the chromosome that mediates accurate cell division by serving as a platform for kinetochore assembly, and microtubule attachment during cell division. Errors in the process of chromosome segregation can contribute to genetic irregularities, such as those seen in cancer and congenital defects. Our lab uses the ectopic centromere as a tool to discover what proteins may be involved in centromere establishment, defined as the deposition of CENP-A at the locus. We use the lacO/LacI system within Drosophila S2 cells that contain a CAL1-GFP- LacI transgene and an integrated lacO array to study the ectopic …