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The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
provided by the
Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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XB130: in silico and invivo Studies of a Novel Signal Adaptor ProteinRubacha, Matthew 15 February 2010 (has links)
XB130 is a relatively unstudied novel signal adaptor protein. In the first phase of this study, an in silico search for proteins related to XB130 was conducted. Two other proteins (AFAP and AFAP1L1) were found to have a significant similarity to XB130 and were compared in detail. After an analysis of these three proteins, it was proposed that they are members of a novel protein family, termed the “AFAP family of signal adaptor proteins”.
XB130 has previously been found to regulate cell cycle progression, death, and migration in lung epithelial cells. It was therefore hypothesized that XB130 is protective in acute lung injury (ALI) and important for facilitating repair after injury. XB130 was found to be differentially regulated in ALI depending on the initial insult. Engineering XB130 transgenic mice to further characterize the role of XB130 in lung injury/regeneration revealed that this protein could be essential for early embryo development.
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XB130: in silico and invivo Studies of a Novel Signal Adaptor ProteinRubacha, Matthew 15 February 2010 (has links)
XB130 is a relatively unstudied novel signal adaptor protein. In the first phase of this study, an in silico search for proteins related to XB130 was conducted. Two other proteins (AFAP and AFAP1L1) were found to have a significant similarity to XB130 and were compared in detail. After an analysis of these three proteins, it was proposed that they are members of a novel protein family, termed the “AFAP family of signal adaptor proteins”.
XB130 has previously been found to regulate cell cycle progression, death, and migration in lung epithelial cells. It was therefore hypothesized that XB130 is protective in acute lung injury (ALI) and important for facilitating repair after injury. XB130 was found to be differentially regulated in ALI depending on the initial insult. Engineering XB130 transgenic mice to further characterize the role of XB130 in lung injury/regeneration revealed that this protein could be essential for early embryo development.
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