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Study Of The Calcium Regulation Mechanism Of Tcr Activation Using Nanodisc And Nmr Technologies Bi

Name: Study Of The Calcium Regulation Mechanism Of Tcr Activation Using Nanodisc And Nmr Technologies Bi
SKU: BELL-6754056
Price: 31.00 USD
Availability: InStock
Rating: 5 (38 reviews)

SKU: BELL-6754056

$ 31.00 ~~$ 45.00~~ (-31%)

5.0

38 reviews

Study Of The Calcium Regulation Mechanism Of Tcr Activation Using Nanodisc And Nmr Technologies Bi instant download after payment.

Publisher: Springer Berlin Heidelberg : Imprint: Springer

File Extension: PDF

File size: 3.04 MB

Pages: 79

Author: Bi, Yunchen

ISBN: 9783662546161, 9783662546185, 3662546167, 3662546183

Language: English

Year: 2018

Product desciption

Study Of The Calcium Regulation Mechanism Of Tcr Activation Using Nanodisc And Nmr Technologies Bi by Bi, Yunchen 9783662546161, 9783662546185, 3662546167, 3662546183 instant download after payment.

This thesis describes the use of biophysical and biochemical methods to prove that calcium has a positive feedback effect on amplifying and sustaining CD3 phosphorylation and should enhance T-cell sensitivity to foreign antigens. The study presented shows that calcium can regulate the signal pathway in cells not only as a secondary messenger but also through direct interactions with the phospholipid bilayer. The approach used in the thesis also represents an important advance, as it couples the use of nuclear magnetic resonance (NMR) to the analysis of signaling phenomena in living cells. Moreover, the thesis optimizes the Nanodisc assembly protocol, which can broaden its range of applications in membrane protein studies. A preliminary study on the structure of dengue virus NS2B-NS3p in complex with aprotinin, which may help to develop new drugs against the dengue virus, is also included.
Abstract: Describing the use of biophysical and biochemical methods to prove that calcium has a positive feedback effect on amplifying and sustaining CD3 phosphorylation and should enhance T-cell sensitivity to foreign antigens, this thesis couples the use of nuclear magnetic resonance (NMR) to the analysis of signaling phenomena in living cells.