9 research outputs found

    Determining Expression Levels of the Notch Signaling Pathway in Self-Renewing hASCs

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    Investigating Expression Levels of the Notch Pathway in Self-Renewing hASCs

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    Chris Miller and Mengcheng Lieu are graduate students in Molecular Science and Nanotechnology at Louisiana Tech University. Avery Bryan and John Bradley Cart are undergraduate students in the School of Biological Sciences at Louisiana Tech University. Dr. Jamie Newman is an Assistant Professor in the School of Biological Sciences at Louisiana Tech University. The abstract for this presentation can be downloaded by clicking on the blue download button

    Characterizing the role of Phlda3 in the development of acute toxicity and malignant transformation of hematopoietic cells induced by total-body irradiation in mice

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    Abstract The tumor suppressor p53 is a transcriptional factor that plays a crucial role in controlling acute toxicity and long-term malignant transformation of hematopoietic cells induced by genotoxic stress such as ionizing radiation. Among all transcriptional targets of p53, one gene that is robustly induced by radiation is the pleckstrin homology domain-only protein Phlda3. However, the role that Phlda3 plays in regulating the response of hematopoietic cells to radiation is unknown. Here, using isogenic cell lines and genetically engineered mouse models, we showed that radiation induces Phlda3 in human leukemia cells and mouse normal hematopoietic cells in a p53-dependent manner. However, deletion of the Phlda3 gene did not ameliorate radiation-induced acute hematologic toxicity. In addition, distinct from mice that lose p53, loss of Phlda3 did not alter the latency and incidence of radiation-induced thymic lymphoma in mice. Remarkably, whole-exome sequencing data showed that lymphomas in irradiated Phlda3 +/+ mice harbor a significantly higher number of single nucleotide variants (SNVs) and indels compared to lymphomas in irradiated Phlda3 +/− and Phlda3 −/− littermates. Together, our results indicate that although deletion of Phlda3 does not accelerate the development of radiation-induced thymic lymphoma, fewer SNVs and indels are necessary to initiate lymphomagenesis after radiation exposure when Phlda3 is silenced

    A second update on mapping the human genetic architecture of COVID-19

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