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http://hdl.handle.net/10225/786
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| Title: | SYNTHESIS AND STRUCTURE-PROPERTY STUDIES OF ORGANIC MATERIALS CONTAINING FLUORINATED AND NON-FLUORINATED # SYSTEMS (SMALL MOLECULES AND POLYMERS) |
| Authors: | Wang, Yongfeng |
| Keywords: | Organic electronic materials
nucleophilic aromatic substitution
perfluoroarene
supramolecular engineering
self assembly |
| Date Created: | 2008 |
| Publisher: | University of Kentucky |
| Abstract: | Loline alkaloids (LA) are secondary metabolites produced by Epichloë�(anamorph, Neotyphodium) grass endophytes. They are toxic and deterrent to a broad�range of herbivorous insects but not to livestock. This protective bioactivity has spurred�considerable research into the LA biosynthetic pathway. LOL, the gene cluster containing�nine genes, is required for LA biosynthesis. The regulation of LOL genes during LA�production in culture and in symbio is of interest.�In this study, coordinate regulation between LOL gene expression and LA�production level was investigated in both MM culture and symbiota. Results showed that�expression of LOL genes in N. uncinatum MM culture were tightly correlated with each�other (p < 0.0005), and all presented a significant temporal quadratic pattern during LA�production. Gene expression started before LA were detectable, and increased while LA�accumulated. The highest gene expression level was reached before the highest amounts�of LA were detected, and gene expression level declined to a very low level after�amounts of LA plateaued. Observations suggested that the hierarchical clusters based on�the correlation coefficient could help to predict the roles of LOL genes in the LA�pathway.�In symbiota, coordinate coregulation of LOL gene expression with LA was found�in E. festucae-meadow fescue inflorescences and stromata, whereby lower LOL gene�expression corresponded with the lower LA level in stromata. In N. uncinatum (or N.�siegelii)-meadow fescue vegetative tissues, dramatically higher LA levels were found in�younger leaf tissue than in older leaf tissue, yet no evidence was found to relate this�difference to LOL gene expression differences. Instead, substrate availability may�regulate the LA level. In particular, asparagine was more than 10-fold higher in young�leaf tissue than in old tissue, although proline was significantly lower in young tissue.�Therefore, different regulatory mechanisms underlie LOL gene expression and LA�production in different circumstances.�The GUS activity of Pro-lolC2-GUS and Pro-lolA2-GUS in Neotyphodium�species was almost undetectable in culture, though the activity could be detected in�symbiota. The mRNA of GUS did not exhibit the same pattern as lolC2 or lolA2 in�culture during LA production time course. A Pro-lolC2-cre transgene was expressed in�complex medium, in which lolC2 mRNA was not detectable. These results suggest that�proper regulation of LOL genes in culture or symbiota is dependent on the LOL cluster. |
| URI: | http://hdl.handle.net/10225/786 |
| Appears in Collections: | Electronic Theses and Dissertations
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Files in This Item:
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Description |
Size | Format |
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| Yongfengdissertation.pdf | | 7129Kb | Adobe PDF | View/Open |
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