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Full-Text Articles in Life Sciences
Ni Site Structure And Function In Biological Sensing And Enzyme Activity, Hsin-Ting Huang
Ni Site Structure And Function In Biological Sensing And Enzyme Activity, Hsin-Ting Huang
Doctoral Dissertations
Ni(II) is one of the important cofactors involved in various enzyme functions. For organisms utilizing Ni(II), a regulation system is required to maintain Ni(II) homeostasis and prevent toxicity. The focus of this dissertation is on investigating the relationship between the Ni(II) site structure and the function of proteins, a Ni(II) sensor and a Ni(II) enzyme. RcnR, a Ni(II)/Co(II) sensor in E. coli, controls the expression of the Ni(II)/Co(II) exporter proteins, RcnAB. Due to the lack of structural information, the mechanism of metal induced allosteric regulation and metal selection is not fully elucidated. Results presented here show that binding of …
Examining Shsp-Substrate Capture And Chaperone Network Coordination Through Cross-Linking, Keith Ballard
Examining Shsp-Substrate Capture And Chaperone Network Coordination Through Cross-Linking, Keith Ballard
Doctoral Dissertations
Small heat shock proteins (sHSPs) and related α-crystallins are virtually ubiquitous, ATP-independent molecular chaperones linked to protein misfolding diseases. They comprise a conserved core α-crystallin domain (ACD) flanked by an evolutionarily variable N-terminal domain (NTD) and semi-conserved C-terminal extension/domain (CTD). They are capable of binding up to an equal mass of unfolding protein, forming large, heterogeneous sHSP-substrate complexes that coordinate with ATP-dependent chaperones for refolding. To derive common features of sHSP-substrate recognition, I compared the chaperone activity and specific sHSP-substrate interaction sites for three different sHSPs from Arabidopsis (At17.6B), pea (Ps18.1) and wheat (Ta16.9), for which the atomic solution-state structures …
Quantitative And Functional Analysis Pipeline For Label-Free Metaproteomics Data And Its Applications, Lang Ho Lee
Quantitative And Functional Analysis Pipeline For Label-Free Metaproteomics Data And Its Applications, Lang Ho Lee
Doctoral Dissertations
Since the large-scale metaproteome was first reported in 2005, metaproteomics has advanced at a tremendous rate both in its quantitative and qualitative metrics. Furthermore metaproteomics is now being applied as a general tool in microbial ecology in a large variety of environmental studies. Though metaproteomics is becoming a useful and even a standard tool for the microbial ecologist, standardized bioinformatics pipelines are not readily available. Therefore, we developed quantitative and functional analysis pipeline for metaproteomics (QFAM) to help analyze large and complicated metaproteomics data in a robust and timely fashion with outputs designed to be simple and clearly understood by …
Development And Application Of Mass Spectrometry-Based Proteomics To Generate And Navigate The Proteomes Of The Genus Populus, Paul Edward Abraham
Development And Application Of Mass Spectrometry-Based Proteomics To Generate And Navigate The Proteomes Of The Genus Populus, Paul Edward Abraham
Doctoral Dissertations
Historically, there has been tremendous synergy between biology and analytical technology, such that one drives the development of the other. Over the past two decades, their interrelatedness has catalyzed entirely new experimental approaches and unlocked new types of biological questions, as exemplified by the advancements of the field of mass spectrometry (MS)-based proteomics. MS-based proteomics, which provides a more complete measurement of all the proteins in a cell, has revolutionized a variety of scientific fields, ranging from characterizing proteins expressed by a microorganism to tracking cancer-related biomarkers. Though MS technology has advanced significantly, the analysis of complicated proteomes, such as …