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One or more keywords matched the following properties of Baatz, John
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overview The focus of the research projects in our laboratory is the effects of hypoxic stress and marine-borne toxin exposure on the distal lung, specifically with respect to responses of alveolar cells. This research currently encompasses four research projects. The first of these examines the roles of hemoglobin, recently identified by our laboratory as being expressed in alveolar type II cells, in nitrosative and oxidative stress as well as surfactant protein expression. Secondly we are developing a porous hollow fiber system that permits culture of embryonic stem cells, primary airway cells and immortalized airway cells within the fiber at an air/water interface. We are also using this system to assess adaptations diving marine mammals (such as dolphins, seals and whales) have made to repetitive hypoxic conditions while being able to maintain lung health. This unique technique may be useful in reducing the use of animals in studying distal lung during health, disease or injury, and may also serve as a system to repopulate diseased or injured airway cells with health cells. We continue to examine structural/function relationships of pulmonary surfactant proteins and the effects of marine-borne toxins (such as red-tide toxins) on lung health. This is an exciting untapped field of study and has direct impacts on human lung health since humans share the often-polluted coastal waters, whether by recreation or work related, with dolphins, whales and manatees. This project utilizes proteomic and molecular biologic techniques in an effort to identify proteins and specific mechanistic pathways in airway cells that are altered in expression or secretion as a result of toxin exposure. Finally, as Director of the MUSC Gel Proteomics facility, I am interested in development of novel separations and labeling techniques to identify, in a variety of species, disease-specific protein biomarkers and effects of drugs or stress on subcellular organelle proteins.
One or more keywords matched the following items that are connected to Baatz, John
Item TypeName
Academic Article Surfactant protein B corrects oxygen-induced pulmonary dysfunction in heterozygous surfactant protein B-deficient mice.
Academic Article Surface properties of sulfur- and ether-linked phosphonolipids with and without purified hydrophobic lung surfactant proteins.
Academic Article Surfactant protein A and D in human sinus mucosa: a preliminary report.
Academic Article Sinonasal surfactant protein A1, A2, and D gene expression in cystic fibrosis: a preliminary report.
Academic Article Innate and adaptive mediators in cystic fibrosis and allergic fungal rhinosinusitis.
Academic Article Surfactant protein C-deficient mice are susceptible to respiratory syncytial virus infection.
Academic Article Genetic replacement of surfactant protein-C reduces respiratory syncytial virus induced lung injury.
Academic Article Deacylated pulmonary surfactant protein SP-C transforms from alpha-helical to amyloid fibril structure via a pH-dependent mechanism: an infrared structural investigation.
Academic Article Surfactant protein A-polylysine conjugates for delivery of DNA to airway cells in culture.
Academic Article Acylation of pulmonary surfactant protein-C is required for its optimal surface active interactions with phospholipids.
Academic Article Structure and functions of a dimeric form of surfactant protein SP-C: a Fourier transform infrared and surfactometry study.
Academic Article Surfactant protein B detection and gene expression in chronic rhinosinusitis.
Academic Article Surfactant protein SP-B induces ordering at the surface of model membrane bilayers.
Academic Article Hypoxia up-regulates expression of hemoglobin in alveolar epithelial cells.
Academic Article Cryopreservation and in vitro culture of primary cell types from lung tissue of a stranded pygmy sperm whale (Kogia breviceps).
Academic Article Surfactant peptides stimulate uptake of phosphatidylcholine by isolated cells.
Academic Article Lipid effects on aggregation of pulmonary surfactant protein SP-C studied by fluorescence energy transfer.
Concept Pulmonary Surfactant-Associated Protein C
Concept Pulmonary Surfactant-Associated Protein D
Concept Pulmonary Surfactant-Associated Protein B
Concept Pulmonary Surfactant-Associated Protein A
Academic Article Persistence of LPS-induced lung inflammation in surfactant protein-C-deficient mice.
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  • Pulmonary Surfactant Associated Protein A