Cody Goode scite author profile

Cody Goode

2Publications

9Citation Statements Received

77Citation Statements Given

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Affiliations

Texas A&M University, Purdue University Northwest, Purdue University West Lafayette

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Length and saturation of fatty acids in phosphatidylserine determine the rate of lysozyme aggregation simultaneously altering the structure and toxicity of amyloid oligomers and fibrils

et al. 2023

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Abrupt aggregation of misfolded proteins is the underlying molecular cause of numerous severe pathologies including Alzheimer's and Parkinson's diseases.Protein aggregation yields small oligomers that can later propagate into amyloid fibrils, β-sheet-rich structures with a variety of topologies. A growing body of evidence suggests that lipids play an important role in abrupt aggregation of misfolded proteins. In this study, we investigate the roles of length and saturation of fatty acids (FAs) in phosphatidylserine (PS), an anionic lipid that is responsible for the recognition of apoptotic cells by macrophages, in lysozyme aggregation. We found that both the length and saturation of FAs in PS contribute to the aggregation rate of insulin. PS with 14-carbon-long FAs (14:0) enabled a much stronger acceleration of protein aggregation compared to PS with 18-carbon-long FAs (18:0). Our results demonstrate that the presence of double bonds in FAs accelerated the rate of insulin aggregation relative to PS with fully saturated FAs. Biophysical methods revealed morphological and structural differences in lysozyme aggregates grown in the presence of PS with varying lengths and FA saturation. We also found that such aggregates exerted diverse cell toxicities. These results demonstrate that the length and saturation of FAs in PS can uniquely alter the stability of misfolded proteins on lipid membranes.

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Localization of Cdc14 Isoforms to Ciliary Structures in Tetrahymena thermophila

et al. 2022

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Cdc14 protein phosphatase is highly conserved across the eukaryotic kingdom, from single‐celled yeast and protozoa to multicellular organisms including mammals. In budding yeast, where it was first studied, Cdc14 is required for mitotic exit; however, this function is not widely conserved. In humans and mice, Cdc14A mutations cause deficiencies in hearing and male fertility due to defects in cilia formation and maintenance. There is evidence for Cdc14 localization to the basal bodies at the proximal end of cilia. The large number of cilia in the free‐living protozoan Tetrahymena thermophila make it an attractive model for molecular studies of cilia structure and function. Our goal is to determine the localization of Cdc14 isoforms to gain some insight into their cellular function and to test if Cdc14 cilia localization is broadly conserved. Interestingly, T. thermophilahas a larger number of Cdc14 isoforms than most organisms. Thus far, genes encoding three of the seven T. thermophilaCdc14 isoforms have been used to create C‐terminal gene fusions with YFP that are expressed in vivo. The constructs were inserted into the T. thermophilamacronuclear genome adjacent to the RPL29 gene and cell lines were selected due to the resulting conversion to cycloheximide resistance. Expression of the transgenes was regulated by a metallothionine promoter. Cells were examined via fluorescence microscopy in the presence and absence of cadmium. All three isoforms localize along ciliary rows and in the oral apparatus after induction during vegetative growth, consistent with basal body localization. No differences in localization have been noted between the three isoforms thus far. The presence of multiple isoforms with the same localization raises questions regarding the redundancy and/or functional specialization of Cdc14 in this highly ciliated organism.

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Cody Goode

Length and saturation of fatty acids in phosphatidylserine determine the rate of lysozyme aggregation simultaneously altering the structure and toxicity of amyloid oligomers and fibrils

Localization of Cdc14 Isoforms to Ciliary Structures in Tetrahymena thermophila

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