Matching Items (2)
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- All Subjects: Oligonucleotides
- All Subjects: Serial Crystallography
- Creators: Allen, James
Description
The ability to manipulate the interaction between small molecules and biological macromolecules towards the study of disease pathogenesis has become a very important part of research towards treatment options for various diseases. The work described here shows both the use of DNA oligonucleotides as carriers for a nicotine hapten small molecule, and the use of microsomes to study the stability of compounds derived to treat mitochondrial diseases.
Nicotine addiction is a worldwide epidemic because nicotine is one of the most widely used addictive substances. It is linked to early death, typically in the form of heart or lung disease. A new vaccine conjugate against nicotine held within a DNA tetrahedron delivery system has been studied. For this purpose, several strands of DNA, conjugated with a modified dTpT having three or six carbon atom alkynyl linkers, have been synthesized. These strands have later been conjugated to three separate hapten small molecules to analyze which conjugates formed would be optimal for further testing in vivo.
Mitochondrial diseases are hard to treat, given that there are so many different variations to treat. There is no one compound that can treat all mitochondrial and neurodegenerative diseases; however, improvements can be made to compounds currently under study to improve the conditions of those afflicted. A significant issue leading to compounds failing in clinical trials is insufficient metabolic stability. Many compounds have good biological activity, but once introduced to an animal, are not stable enough to have any effect. Here, several synthesized compounds have been evaluated for metabolic stability, and several showed improved stability, while maintaining biological activity.
Nicotine addiction is a worldwide epidemic because nicotine is one of the most widely used addictive substances. It is linked to early death, typically in the form of heart or lung disease. A new vaccine conjugate against nicotine held within a DNA tetrahedron delivery system has been studied. For this purpose, several strands of DNA, conjugated with a modified dTpT having three or six carbon atom alkynyl linkers, have been synthesized. These strands have later been conjugated to three separate hapten small molecules to analyze which conjugates formed would be optimal for further testing in vivo.
Mitochondrial diseases are hard to treat, given that there are so many different variations to treat. There is no one compound that can treat all mitochondrial and neurodegenerative diseases; however, improvements can be made to compounds currently under study to improve the conditions of those afflicted. A significant issue leading to compounds failing in clinical trials is insufficient metabolic stability. Many compounds have good biological activity, but once introduced to an animal, are not stable enough to have any effect. Here, several synthesized compounds have been evaluated for metabolic stability, and several showed improved stability, while maintaining biological activity.
ContributorsSchmierer, Margaret (Author) / Hecht, Sidney M. (Thesis advisor) / Allen, James (Committee member) / Gould, Ian (Committee member) / Arizona State University (Publisher)
Created2016
Description
Serial crystallography (SX) is a relatively new structural biology technique that collects X-ray diffraction data from microcrystals via femtosecond pulses produced by an X-ray free electron laser (X-FEL) or by synchrotron radiation, allowing for challenging protein structures to be solved from microcrystals at room temperature. Because of the youth of this technique, method development is necessary for it to achieve its full potential.
Most serial crystallography experiments have relied on delivering sample in the mother liquor focused into a stream by compressed gas. This liquid stream moves at a fast rate, meaning that most of the valuable sample is wasted. For this reason, the liquid jet can require 10-100 milligrams of sample for a complete data set. Agarose has been developed as a slow moving microcrystal carrier to decrease sample consumption and waste. The agarose jet provides low background, no Debye-Sherrer rings, is compatible for sample delivery in vacuum environments, and is compatible with a wide variety of crystal systems. Additionally, poly(ethylene oxide) which is amenable for data collection in atmosphere has been developed for synchrotron experiments. Thus this work allows sample limited proteins of difficult to crystallize systems to be investigated by serial crystallography.
Time-resolved serial X-ray crystallography (TR-SX) studies have only been employed to study light-triggered reactions in photoactive systems. While these systems are very important, most proteins in Nature are not light-driven. However, fast mixing of two liquids, such as those containing enzyme protein crystals and substrates, immediately before being exposed to an X-ray beam would allow conformational changes and /or intermediates to be seen by diffraction. As a model, 3-deoxy-D-manno-2-octulosonate-8-phosphate synthase (KDO8PS), has been developed for TR-SX. This enzyme initializes the first step of lipopolysaccharide synthesis by a net aldol condensation between arabinose-5-phosphate, phosphoenol pyruvate, and water. During this reaction, a short lived intermediate is formed and has been observed on a millisecond timescale using other methods. Thus KDO8PS is an ideal model protein for studying diffusion times into a crystal and short mixing times (<10 ms). For these experiments, microcrystals diffracting to high resolution have been developed and characterized.
Most serial crystallography experiments have relied on delivering sample in the mother liquor focused into a stream by compressed gas. This liquid stream moves at a fast rate, meaning that most of the valuable sample is wasted. For this reason, the liquid jet can require 10-100 milligrams of sample for a complete data set. Agarose has been developed as a slow moving microcrystal carrier to decrease sample consumption and waste. The agarose jet provides low background, no Debye-Sherrer rings, is compatible for sample delivery in vacuum environments, and is compatible with a wide variety of crystal systems. Additionally, poly(ethylene oxide) which is amenable for data collection in atmosphere has been developed for synchrotron experiments. Thus this work allows sample limited proteins of difficult to crystallize systems to be investigated by serial crystallography.
Time-resolved serial X-ray crystallography (TR-SX) studies have only been employed to study light-triggered reactions in photoactive systems. While these systems are very important, most proteins in Nature are not light-driven. However, fast mixing of two liquids, such as those containing enzyme protein crystals and substrates, immediately before being exposed to an X-ray beam would allow conformational changes and /or intermediates to be seen by diffraction. As a model, 3-deoxy-D-manno-2-octulosonate-8-phosphate synthase (KDO8PS), has been developed for TR-SX. This enzyme initializes the first step of lipopolysaccharide synthesis by a net aldol condensation between arabinose-5-phosphate, phosphoenol pyruvate, and water. During this reaction, a short lived intermediate is formed and has been observed on a millisecond timescale using other methods. Thus KDO8PS is an ideal model protein for studying diffusion times into a crystal and short mixing times (<10 ms). For these experiments, microcrystals diffracting to high resolution have been developed and characterized.
ContributorsConrad, Chelsie E (Author) / Fromme, Petra (Thesis advisor) / Ros, Alexandra (Committee member) / Allen, James (Committee member) / Arizona State University (Publisher)
Created2016