User:Vinaysm: Difference between revisions
No edit summary |
No edit summary |
||
| Line 1: | Line 1: | ||
<h2>Vinay S Mahajan</h2> | |||
I am a fourth year doctoral student at the Biological Engineering Division, MIT and I work on T cell immunology in the labs of Darrell Irvine and Jianzhu Chen. | |||
'''Research Summary:''' | |||
<div style="margin-left:0.3em;border:3px dashed #6688AA;margin-right:0.7em; padding:1em"> | |||
T cell responses to self-peptides in the periphery: | |||
Positive selection of T cells in the thymus based on low affinity interactions with self-peptides in the thymus has been the subject of intense study in the past decade. However, it is being increasingly realised that self-peptides play important roles in regulating the behaviour of mature T cells in the periphery. For instance, self-peptides in the periphery are critical for naive T cell homeostasis and in the modulation of T cell signalling in the immunological synapse. The molecular mechanisms of self-peptide signalling are yet to clearly defined. I aim to use a combination of live T cell and dendritic cell imaging in vitro and in vivo mouse experiments to explore this question. I am especially interested in studying how naive, memory and effector T cells respond to self-peptides in the periphery in various contexts, i.e presence and absence of cognate antigen. My research will help in gaining a molecular understanding of T cell homeostasis in the periphery and peripheral tolerance. | |||
</div> | |||
Latest revision as of 19:06, 25 March 2006
Vinay S Mahajan
I am a fourth year doctoral student at the Biological Engineering Division, MIT and I work on T cell immunology in the labs of Darrell Irvine and Jianzhu Chen.
Research Summary:
T cell responses to self-peptides in the periphery:
Positive selection of T cells in the thymus based on low affinity interactions with self-peptides in the thymus has been the subject of intense study in the past decade. However, it is being increasingly realised that self-peptides play important roles in regulating the behaviour of mature T cells in the periphery. For instance, self-peptides in the periphery are critical for naive T cell homeostasis and in the modulation of T cell signalling in the immunological synapse. The molecular mechanisms of self-peptide signalling are yet to clearly defined. I aim to use a combination of live T cell and dendritic cell imaging in vitro and in vivo mouse experiments to explore this question. I am especially interested in studying how naive, memory and effector T cells respond to self-peptides in the periphery in various contexts, i.e presence and absence of cognate antigen. My research will help in gaining a molecular understanding of T cell homeostasis in the periphery and peripheral tolerance.
