Browsing by Subject "microtubules"
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Item Functional Analysis of an Integrated GTPase Regulating the Cellular Pool and Distribution Profile of Intraflagellar Transport Particles in Chlamydomonas Reinhardtii(2012-12-11) Silva, DavidCilia and flagella are sensory organelles, found in the majority of eukaryotic organisms that play a vital role in the general physiology, health and early development of humans. Intraflagellar transport (IFT) is tasked with building and maintaining the entire ciliary structure by facilitating the transport of axonemal precursors, trafficking of ciliary membrane proteins and turnover products. Currently, there are no complete models detailing how ciliated organisms regulate the entry and exit of IFT particles, a multi-meric adaptor complex that ferries flagellar proteins. In this thesis, I focus on small Rab-like protein IFT22, an IFT-particle integrated protein with predicted GTPase activity, as a potential regulatory component of IFT particle trafficking in Chlamydomonas. Using an artificial microRNAs strategy, I show that IFT22 regulates the available cellular pool of IFT particles and the distribution profile of the IFT particles between the cytoplasm and the flagellar compartment. Additionally, I demonstrate how the putative constitutive active mutant of IFT22 is able properly localize to the peri-basal body and enter the flagellar compartment using immunofluorescence and immunoblot analysis of flagella extracts. Finally, preliminary RNAi data suggests IFT25 the IFT particle/motor/BBSome assembly downstream of IFT22 regulation, evident from the depletion of kinesin-2 subunit FLA10, IFT-dynein-2 subunit D1bLIC and BBsome component BBS3from whole cell extracts of IFT25 knockdown transformants.Item Tubulin in vitro, in vivo and in silico(Texas A&M University, 2005-02-17) Mershin, AndreasTubulin, microtubules and associated proteins were studied theoretically, computationally and experimentally in vitro and in vivo in order to elucidate the possible role these play in cellular information processing and storage. Use of the electric dipole moment of tubulin as the basis for binary switches (biobits) in nanofabricated circuits was explored with surface plasmon resonance, refractometry and dielectric spectroscopy. The effects of burdening the microtubular cytoskeleton of olfactory associative memory neurons with excess microtubule associated protein TAU in Drosophila fruitflies were determined. To investigate whether tubulin may be used as the substrate for quantum computation as a bioqubit, suggestions for experimental detection of quantum coherence and entanglement among tubulin electric dipole moment states were developed.