Publications by authors named "Shuntae Williams"

Article Synopsis
  • * The study analyzed 292 tumor samples and found that ROR1 was highly prevalent in chronic lymphocytic leukemia and hairy cell leukemia, while its expression was more varied in other cancers like mantle cell lymphoma and triple negative breast cancer.
  • * The research highlights the need for tailored patient selection strategies due to the diverse expression of ROR1 across various hematological malignancies and solid tumors, which could influence therapeutic development.
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B-cell maturation antigen (BCMA) is a promising target for the treatment of multiple myeloma (MM) because the expression of this protein is largely limited to B-cell sets, plasma cells, MM, and other B-cell malignancies. Early studies assessing BCMA protein expression and localization have used insufficiently qualified immunohistochemistry assays, which have reported broad ranges of BCMA expression. As a result, our understanding of BCMA tissue expression derived from these data is limited, specifically the prevalence of BCMA expression on the cell surface/membrane, which has mechanistic relevance to the antimyeloma activity of several novel biotherapeutics.

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Mitochondrial protein translocation machinery in the kinetoplastid parasites, like Trypanosoma brucei, has been characterized poorly. In T. brucei genome database, one homolog for a protein translocator of mitochondrial inner membrane (Tim) has been found, which is closely related to Tim17 from other species.

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Trypanosome alternative oxidase (TAO) and the cytochrome oxidase (COX) are two developmentally regulated terminal oxidases of the mitochondrial electron transport chain in Trypanosoma brucei. Here, we have compared the import of TAO and cytochrome oxidase subunit IV (COIV), two stage-specific nuclear encoded mitochondrial proteins, into the bloodstream and procyclic form mitochondria of T. brucei to understand the import processes in two different developmental stages.

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The bloodstream forms of African trypanosomes solely depend on trypanosome alternative oxidase (TAO), for respiration. Similar to alternative oxidases (AOXs) found in plants and fungi, TAO is a membrane-bound diiron protein. Here, we investigated if TAO exists as a dimer like plant AOXs, or as a monomer like that of fungi.

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