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- All Subjects: Synechocystis
- Creators: Misra, Rajeev
- Member of: Theses and Dissertations
Description
Cystic Fibrosis (CF) is a genetic disorder that disrupts the hydration of mucous of the lungs, which promotes opportunistic bacterial infections that begin in the affected person’s childhood, and persist into adulthood. One of the bacteria that infect the CF lung is Pseudomonas aeruginosa. This gram-negative bacterium is acquired from the environment of the CF lung, changing the expression of phenotypes over the course of the infection. As P. aeruginosa infections become chronic, some phenotype changes are known to be linked with negative patient outcomes. An important exoproduct phenotype is rhamnolipid production, which is a glycolipid that P. aeruginosa produces as a surfactant for surface-mediated travel. Over time, the expression of this phenotype decreases in expression in the CF lung.
The objective of this investigation is to evaluate how environmental changes that are related to the growth environment in the CF lung alters rhamnolipid production. Thirty-five P. aeruginosa isolates from Dartmouth College and Seattle Children’s Hospital were selected to observe the impact of temperature, presence of Staphylococcus aureus metabolites, and oxygen availability on rhamnolipid production. It was found that the rhamnolipid production significantly decreased for 30C versus 37C, but not at 40C. The addition of S. aureus spent media, in any of the tested conditions, did not influence rhamnolipid production. Finally, the change in oxygen concentration from normoxia to hypoxia significantly reduced rhamnolipid production. These results were compared to swarming assay data to understand how changes in rhamnolipid production impact surface-mediated motility.
The objective of this investigation is to evaluate how environmental changes that are related to the growth environment in the CF lung alters rhamnolipid production. Thirty-five P. aeruginosa isolates from Dartmouth College and Seattle Children’s Hospital were selected to observe the impact of temperature, presence of Staphylococcus aureus metabolites, and oxygen availability on rhamnolipid production. It was found that the rhamnolipid production significantly decreased for 30C versus 37C, but not at 40C. The addition of S. aureus spent media, in any of the tested conditions, did not influence rhamnolipid production. Finally, the change in oxygen concentration from normoxia to hypoxia significantly reduced rhamnolipid production. These results were compared to swarming assay data to understand how changes in rhamnolipid production impact surface-mediated motility.
ContributorsKiermayr, Jonathan Patrick (Author) / Bean, Heather (Thesis director) / Misra, Rajeev (Committee member) / Haydel, Shelley (Committee member) / School of International Letters and Cultures (Contributor) / School of Molecular Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2017-05
Description
Like most other phototrophic organisms the cyanobacterium Synechocystis sp. PCC 6803 produces carotenoids. These pigments often bind to proteins and assume various functions in light harvesting, protection from reactive oxygen species (ROS) and protein stabilization. One hypothesis was that carotenoids bind to the surface (S-)layer protein. In this work the Synechocystis S-layer protein was identified as Sll1951 and the effect on the carotenoid composition of this prokaryote by disruption of sll1951 was studied. Loss of the S-layer, which was demonstrated by electron microscopy, did not result in loss of carotenoids or changes in the carotenoid profile of the mutant, which was shown by HPLC and protein analysis. Although Δsll1951 was more susceptible to osmotic stress than the wild type, the general viability of the mutant remained unaffected. In a different study a combination of mutants having single or multiple deletions of putative carotenoid cleavage dioxygenase (CCD) genes was created. CCDs are presumed to play a role in the breakdown of carotenoids or apo-carotenoids. The carotenoid profiles of the mutants that were grown under conditions of increased reactive oxygen species were analyzed by HPLC. Pigment lifetimes of all strains were estimated by 13C-labeling. Carotenoid composition and metabolism were similar in all strains leading to the conclusion that the deleted CCDs do not affect carotenoid turnover in Synechocystis. The putative CCDs either do not fulfill this function in cyanobacteria or alternative pathways for carotenoid degradation exist. Finally, slr0941, a gene of unknown function but a conserved genome position in many cyanobacteria downstream of the δ-carotene desaturase, was disrupted. Initially, the mutant strain was impaired in growth but displayed a rather normal carotenoid content and composition, but an apparent second-site mutation occurred infrequently that restored growth rates and caused an accumulation of carotenoid isomers not found in the wild type. Based on the obtained data a role of the slr0941 gene in carotenoid binding/positioning for isomerization and further conversion to mature carotenoids is suggested.
ContributorsTrautner, Christoph (Author) / Vermaas, Willem Fj (Thesis advisor) / Chandler, Douglas E. (Committee member) / Misra, Rajeev (Committee member) / Bingham, Scott E (Committee member) / Arizona State University (Publisher)
Created2011
Description
In this work, secretion of free fatty acids (FFAs) and ω-hydroxy FFAs wasachieved in the model cyanobacterium Synechocystis sp. PCC 6803 (Synechocystis), and
FFAs were detected by a novel fluorescence assay. Current methods of detecting FFA
concentrations, including HPLC-based and GC-based methods or enzyme-based kits,
have hindered research advancement due to their laborious and/or expensive nature. The
work herein establishes a novel, rapid, fluorescence-based assay for detecting total FFA
concentrations secreted by Synechocystis FFA secretion strains. The novel FFA-detection
assay demonstrates the efficacy of using Nile Red as a fluorescent reporter for laurate or
palmitate at concentrations up to 500 µM in the presence of cationic surfactants. Total
FFA concentrations in Synechocystis supernatants quantified by the novel, Nile Red fluorescence-based assay are demonstrated herein to be highly correlative to total FFA
concentrations quantified by LC-MS; this correlation was seen in supernatant samples of
wild type Synechocystis and Synechocystis FFA secretion strains, both in 96-well plates
and 30-mL, aerated culture tubes.
This work also establishes the expression of a cytochrome P450 fusion enzyme,
CYP153A-CPRmut, or a monooxygenase system from Pseudomonas putida GPo1,
AlkBGT, in FFA secretion strains of Synechocystis for the generation of ω-hydroxy
laurate from laurate. After finding greatly increased ω-hydroxylation activity of
CYP153A-CPRmut with concurrent superoxide dismutase and catalase overexpression, 55
or 1.5 µM of ω-hydroxy laurate were produced over five days by Synechocystis strains
expressing CYP153A-CPRmut or AlkBGT, respectively. As further indication of the
presence of reactive oxygen species affecting ω-hydroxy laurate production with
Synechocystis strains expressing CYP153A-CPRmut, concentrations of ω-hydroxy laurate
in the supernatant increased over two-fold in the presence of 250 µM of the anti-oxidant,
methionine, in bench-scale cultures and in 96-well plate cultures. Additionally, a
mutation at the 55th amino acid position in AlkB (tryptophan to cysteine; AlkBW55C),
resulted in a more than two-fold shift in AlkB’s substrate preference from decanoate
towards the desired substrate, laurate. As a result, Synechocystis expressing AlkBW55C
could produce 5.9 µM ω-hydroxy laurate and 2.0 µM dodecanedioic acid over five days
of growth.
ContributorsAshe, Christopher (Author) / Vermaas, Willem Fj (Thesis advisor, Committee member) / Wang, Xuan (Committee member) / Nielsen, David R (Committee member) / Misra, Rajeev (Committee member) / Arizona State University (Publisher)
Created2023