Life Sciences Commons^™

Characterizing Ntrc-Like Activators Affecting Myxococcus Xanthus Development, Jessica Eisenstatt

Honors Capstone Projects - All

Myxococcus xanthus is a soil bacterium that is a member of a group of organisms known as the myxobacteria. M. xanthus cells live in biofilms and feed on other bacteria to obtain nutrients. During times of inadequate nourishment, M. xanthus cells aggregate, build fruiting bodies, and fruiting body cells differentiate into spores that are highly resistant. In order to form the fruiting bodies, M. xanthus cells must be able to move across solid surfaces. There are two motility systems, the adventurous system (A-motility) and the social system (S-motility), used by M. xanthus cells to navigate across surfaces. The adventurous system …

Compensation Mechanisms For Altered Membrane Sterol Compositions In The Yeast: Saccharomyces Cerevisiae, David M. Dewolfe

Honors Capstone Projects - All

Cell Membranes are composed of several different lipid and sterol products. Among these are, chiefly, phospholipids, glycolipids, sphingolipids, various proteins and sterols. The sterol that is prevalent in fungi, including yeast, is ergosterol. It plays the same physiological role as cholesterol in mammalian cells. That is, mainly, to control membrane fluidity. Membranes in general are extremely important to the normal functioning of any cell and its sub-cellular compartments. The primary factor in the normal functioning of a membrane is the relative composition of the previously mentioned components. Even though there is a high amount of traffic between different membranes within …

Characterization Of Hypersensitive Response Related Genes Of Arabidopsis Thaliana, Keluo Yao

Honors Capstone Projects - All

Like most complex living organisms, plants have many mechanisms to prevent disease by microbial pathogens. One of the most important and well developed defense systems that involve recognition, identification and systematic response is the hypersensitive response.

The hypersensitive response is a complex, early defense response against pathogens that causes necrosis and cell death at the site of infection to restrict the spread of pathogen. Hypersensitive response is a type of programmed cell death, and its activation usually happens when the plant recognizes a pathogen through an elicitor. This recognition triggers a series of signal transductions events which end in the …

Characterization Of Type Ii Secretion Mutants Of Pseudomonas Aeruginosa, Sijung Suh

Honors Capstone Projects - All

Pseudomonas aeruginosa mutants PA0686, PA3102, PA3103, and PA5210 carry transposon insertions in uncharacterized genes in the PA01 background. The biofilms formed by these mutants show different phenotypes than PA01, their wild-type counterpart. BLAST searches and phylogenomic mapping tools indicate that protein products of the mutated genes are involved in P. aeruginosa type-II secretion, which is linked to twitching motility. In this study, 96-well microtitre plate biofilm assays, UV/visible spectrophotometer analysis, and motility assays were used to demonstrate a link between type-II secretion, twitching motility and biofilm formation. The results show that the PA5210 mutant forms a biofilm that is less …