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Intrinsic And Extrinsic Factors Required For Cd4 T Memory Cell Formation And Function, Sarah B. Mollo
Intrinsic And Extrinsic Factors Required For Cd4 T Memory Cell Formation And Function, Sarah B. Mollo
All ETDs from UAB
CD4 T cells are central to the organization of the immune response through the secretion of cytokines that recruit and activate other immune cells. Following infection and pathogen control, the majority of the effector CD4 T cells undergo apoptosis, leaving a subset that persists and gives rise to the memory T cell pool. Upon encountering the same pathogen, memory CD4 T cells respond rapidly, providing enhanced protection from re-infection. What determines which effector CD4 T cells will survive is unclear; however, there are a number of factors both intrinsic to the cell as well as external signals from the environment …
Epigenetic Regulation Of Hippocampus-Dependent Learning, Laura Qadri
Epigenetic Regulation Of Hippocampus-Dependent Learning, Laura Qadri
All ETDs from UAB
Knowledge of the molecular mechanisms that underlie learning and memory has advanced a great deal. Research into the role of epigenetics, or modifications above the genome, has the promise of providing an even greater understanding of the precise mechanisms involved in memory formation. Studies of epigenetic regulation of memory in the rodent hippocampus have primarily focused on associative learning using contextual fear conditioning. While these studies have provided valuable insight into the role that epigenetics plays in cognition, it remains to be seen whether the findings generalize to other forms of hippocampus-dependent learning. This work examines the role of epigenetic …
The Role Of Gadd45b In Hippocampus-Dependent Cognition, Synaptic Plasticity And Activity-Associated Transcriptional Dynamics, Faraz Sultan
The Role Of Gadd45b In Hippocampus-Dependent Cognition, Synaptic Plasticity And Activity-Associated Transcriptional Dynamics, Faraz Sultan
All ETDs from UAB
An expanding body of literature argues for a pivotal role of molecular epigenetic mechanisms in memory. Defined as mechanisms that regulate gene expression in the absence of DNA sequence modifications, these regulate various stages of memory-associated transcription. These phenomena are present at diverse anatomical subregions of the central nervous system (CNS) and regulate corresponding behaviors. Epigenetic mechanisms comprise a unique category of behavioral and physiological modulators because of their potential to modify the cellular phenotype in a stable manner. Hence, epigenetics offers a novel potential solution to a central paradox in memory retention: the finding that most putative molecular substrates …