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Full-Text Articles in Pharmacology, Toxicology and Environmental Health
Intronic Non-Cg Dna Hydroxymethylation And Alternative Mrna Splicing In Honey Bees, Pablo Cingolani, Xiaoyi Cao, Radhika S. Khetani, Chieh-Chun Chen, Melissa Coon, Alya'a Sammak, Aliccia Bollig-Fischer, Susan Land, Yun Huang, Matthew E. Hudson, Mark D. Garfinkel, Sheng Zhong, Gene E. Robinson, Douglas M. Ruden
Intronic Non-Cg Dna Hydroxymethylation And Alternative Mrna Splicing In Honey Bees, Pablo Cingolani, Xiaoyi Cao, Radhika S. Khetani, Chieh-Chun Chen, Melissa Coon, Alya'a Sammak, Aliccia Bollig-Fischer, Susan Land, Yun Huang, Matthew E. Hudson, Mark D. Garfinkel, Sheng Zhong, Gene E. Robinson, Douglas M. Ruden
Wayne State University Associated BioMed Central Scholarship
Abstract
Background
Previous whole-genome shotgun bisulfite sequencing experiments showed that DNA cytosine methylation in the honey bee (Apis mellifera) is almost exclusively at CG dinucleotides in exons. However, the most commonly used method, bisulfite sequencing, cannot distinguish 5-methylcytosine from 5-hydroxymethylcytosine, an oxidized form of 5-methylcytosine that is catalyzed by the TET family of dioxygenases. Furthermore, some analysis software programs under-represent non-CG DNA methylation and hydryoxymethylation for a variety of reasons. Therefore, we used an unbiased analysis of bisulfite sequencing data combined with molecular and bioinformatics approaches to distinguish 5-methylcytosine from 5-hydroxymethylcytosine. By doing this, we have performed the first whole …
Progress Towards Understanding Of Mechanisms Of Action Of Potent Multifunctional Disease Modifying Therapeutics For Parkinson's Disease & Investigating The Methamphetamine-Induced Striatal Microglia Activation., Mrudang M. Shah
Wayne State University Dissertations
PROGRESS TOWARDS UNDERSTANDING OF MECHANISMS OF ACTION OF POTENT MULTIFUNCTIONAL DISEASE MODIFYING
THERAPEUTICS FOR PARKINSON'S DISEASE.
by
MRUDANG MANOJKUMAR SHAH
December 2013
Advisor: Dr. Aloke Dutta
Major: Pharmaceutical Sciences
Degree: Doctor of Philosophy
Our long term goal is to design and develop potent multifunctional disease modifying therapeutics for Parkinson's disease. The objective of my dissertation was to understand the mechanisms of action of some potent small molecules (synthesized in our lab) as a disease modifying Parkinson's disease therapeutic. The objective was achieved by pursuing the following two specific aims:
1. Investigating anti-oxidant and neuroprotective effects of a lead molecule (D-512) …