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- Title
- A Caenorhabditis elegans Model of Age-dependent Neurodegeneration.
- Creator
- Jia, Kailiang, Graduate College
- Abstract/Description
-
The probability of humans developing neurodegenerative diseases increases as one ages. So the purpose of this study is to use the nematode Caenorhabditis elegans as a genetic model for determining if they develop age-dependent neuronal changes.
- Date Issued
- 2014
- PURL
- http://purl.flvc.org/fau/fd/FA00005151
- Format
- Document (PDF)
- Title
- Antibiotic resistance in the oral bacterial community.
- Creator
- Famuyiwa, Toluleke, Esiobu, Nwadiuto, Jia, Kailiang, Graduate College
- Abstract/Description
-
Purpose: This study was designed to define the antibiotic resistance index of the cultivable oral microbiome to Amoxiacilin Clavulanic acid, Vancomycin, Ciprofloxacin, Clarithomycin, Chlorotetracyclin, Bacitracin, Kanamycin and Tobramycin using a new method adapted from the Kirby Bauer assay. Method: Oral wash samples were collected from 2 current smokers and 2 nonsmokers. Bacterial community were pelleted by centrifugation and used to create a lawn for the assay employing standard disk...
Show morePurpose: This study was designed to define the antibiotic resistance index of the cultivable oral microbiome to Amoxiacilin Clavulanic acid, Vancomycin, Ciprofloxacin, Clarithomycin, Chlorotetracyclin, Bacitracin, Kanamycin and Tobramycin using a new method adapted from the Kirby Bauer assay. Method: Oral wash samples were collected from 2 current smokers and 2 nonsmokers. Bacterial community were pelleted by centrifugation and used to create a lawn for the assay employing standard disk diffusion assay. Zones of inhibition and number of colonies in the zone were recorded. Mean values of inhibition zones were compared to established databases to draw conclusions. Result: The zones of inhibition of Bacitracin antibiotics shows that several bacteria from one of the non smokers were resistant to Bacitracin, while the smokers showed marked susceptibility. Conclusion: The new method developed in our lab yielded consistent set of data which serve as criteria for determining resistance of the oral microbiome to antibiotics. Quite remarkably, it is known that pathogenic beta Streptococci are susceptible to Bacitracin while non-pathogens are not; confirming that healthy persons harbor the healthy strains of streptococci. However the unanswered question is …. Could these normal biota pick up genes and become resistant too? Only time and human habits will decide but we have developed a baseline and an easy method for testing.
Show less - Date Issued
- 2014
- PURL
- http://purl.flvc.org/fau/fd/FA00005814
- Format
- Document (PDF)
- Title
- Neuronal autophagy activity is essential for insulin growth factor signaling-regulated lifespan extension in C. elegans.
- Creator
- Minnerly, Justin, Jia, Kailiang, Zhang, Jiuli, Graduate College
- Abstract/Description
-
The conserved insulin growth factor IGF signaling pathway is one of the major regulators of lifespan in many species including C. elegans. In C. elegans the insulin/IGF-like receptor is encoded by the daf-2 gene, mutations in which result in lifespan extension. The daf-2 activity in the nervous system controls these phenotypes cell nonautonomously. Interestingly, the longevity phenotype of daf-2 mutant worms is dependent on macroautophagy hereafter autophagy. Autophagy is a highly conserved...
Show moreThe conserved insulin growth factor IGF signaling pathway is one of the major regulators of lifespan in many species including C. elegans. In C. elegans the insulin/IGF-like receptor is encoded by the daf-2 gene, mutations in which result in lifespan extension. The daf-2 activity in the nervous system controls these phenotypes cell nonautonomously. Interestingly, the longevity phenotype of daf-2 mutant worms is dependent on macroautophagy hereafter autophagy. Autophagy is a highly conserved lysosomal degradation pathway involved in the removal of long-lived proteins and cytoplasmic organelles. During autophagy, cellular components are sequestered into the double-membrane autophagosomes and delivered to lysosomes for degradation. Increasing evidence has emerged that the autophagy process is a central regulator of lifespan that is required for the effects of DAF-2 signaling, dietary restriction and some mitochondrial mutations on C. elegans longevity. It is unknown however whether autophagy activity in every tissue or in a single tissue mediates the influence of these longevity signals. To address this question, we examined the tissue requirement of the autophagy gene atg-18 for the lifespan of wild type animals and the daf-2 mutant. We discovered that neurons and intestinal cells are two key tissues where atg-18 mediates the effect of DAF-2 insulin-like signaling on lifespan, suggesting autophagy acts cell nonautonomously in controlling C. elegans adult longevity. Moreover, we found that neuronal release of neuropeptides is required for the cell non-autonomous function of neuronal autophagy activity in controlling C. elegans lifespan.
Show less - Date Issued
- 2015
- PURL
- http://purl.flvc.org/fau/fd/FA00005900
- Format
- Document (PDF)
- Title
- Tissue-specific requirement of the autophagy gene atg-18 in controlling C. elegans dauer morphogenesis, fat metabolism and adult longevity.
- Creator
- Minnerly, Justin, Zhang, Jiuli, Graduate College, Jia, Kailiang
- Abstract/Description
-
The conserved insulin growth factor IGF signaling pathway is one of the major regulators of lifespan in many species including C. elegans. In C. elegans the insulin/IGF-like receptor is encoded by the daf-2 gene, mutations in which result in lifespan extension, fat accumulation and dauer formation. The daf-2 activity in the nervous system controls these phenotypes cell non-autonomously. Interestingly, the longevity phenotype of daf-2 mutant worms is dependent on macroautophagy hereafter...
Show moreThe conserved insulin growth factor IGF signaling pathway is one of the major regulators of lifespan in many species including C. elegans. In C. elegans the insulin/IGF-like receptor is encoded by the daf-2 gene, mutations in which result in lifespan extension, fat accumulation and dauer formation. The daf-2 activity in the nervous system controls these phenotypes cell non-autonomously. Interestingly, the longevity phenotype of daf-2 mutant worms is dependent on macroautophagy hereafter autophagy. Autophagy is a highly conserved lysosomal degradation pathway involved in the removal of long-lived proteins and cytoplasmic organelles. During autophagy, cellular components are sequestered into the double-membrane autophagosomes and delivered to lysosomes for degradation. Increasing evidence has emerged that the autophagy process is a central regulator of lifespan that is required for the effects of DAF-2 signaling, dietary restriction and some mitochondrial mutations on C. elegans longevity. It is unknown however whether autophagy activity in every tissue or in a single tissue mediates the influence of these longevity signals. To address this question, we examined the tissue requirement of autophagy gene atg-18 for the lifespan of wild type animals and the daf-2 mutant. We discovered that neurons and intestinal cells are two key tissues where atg-18 mediates the effect of DAF-2 insulin-like signaling on lifespan, fat accumulation and dauer morphogenesis, suggesting autophagy acts cell non-autonomously in controlling C. elegans dauer formation, fat metabolism and adult longevity.
Show less - Date Issued
- 2014
- PURL
- http://purl.flvc.org/fau/fd/FA00005160
- Format
- Document (PDF)