Eukaryotic proteasome assembly is a highly organized process mediated by several proteasome-specific chaperones, which interact with proteasome assembly intermediates. In yeast, Ump1 and Pba1-4 have been identified as assembly chaperones that are dedicated to the formation of the proteasome 20S catalytic core complex. The crystal structures of Pba chaperones have been reported previously, but no detailed information has been provided for the structure of Ump1. Thus, to better understand the mechanisms underlying Ump1-mediated proteasome assembly, we characterized the conformation of Ump1 in solution using NMR. Backbone chemical shift data indicated that Ump1 is an intrinsically unstructured protein and largely devoid of secondary structural elements.
The
behavior and the structural properties of organic radical species
(ORs) in their native hydrocarbon environment as a function of temperature
were investigated by electron paramagnetic resonance (EPR) spectroscopy.
Five petroleum fractions derived from the same initial crude oil were
studied in the temperature range of 293–673 K. The results
from continuous wave (CW) and pulsed EPR spectroscopy show that petroleum
fractions behave differently under thermal activation. The inverse
of the normalized area versus temperature gave us different slope
changes in accordance with the generation and the recombination of
ORs. The EPR experimental parameters (line shape, line width) highlighted
that during the thermal treatment, no conformational change occurred,
but it impacts the organic matter maturity with the breaking of sulfur
chains.
HOIL-1L and its binding partner, HOIL-1L interacting protein (HOIP), are essential components of linear ubiquitin (Ub) chain assembly complex (LUBAC), a 600-kDa enzyme complex catalyzing elongation of a tandemly connected Ub chain, which serve as a regulator of NF-κB activation. Specific interaction between the N-terminal Ub-like domain (UBL) of HOIL-1L and the Ub-associated domain (UBA) located at the central region of HOIP is shown to be involved in the formation of LUBAC. For better understanding of the mechanisms underlying the generation of the linear Ub chains by LUBAC, it is necessary to characterize the UBL-UBA interaction on the basis of structural data, which, however, is not available to date. Here we report backbone and side chain NMR assignments of the UBL of human HOIL-1L. By inspection of chemical shift index, it was predicted that HOIL-1L-UBL assumes a Ub fold followed by an α-helical segment, offering the basis for determination its 3D structure and interaction with HOIP-UBA in solution.
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