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781.
The elucidation of assembly pathways of multi-subunit membrane proteins is of growing interest in structural biology. In this
study, we provide an analysis of the assembly of the asymmetrically oriented PsaC subunit on the pseudo C2-symmetric Photosystem I core. Based on a comparison of the differences in the NMR solution structure of unbound PsaC with
that of the X-ray crystal structure of bound PsaC, and on a detailed analysis of the PsaC binding site surrounding the FX iron-sulfur cluster, two models can be envisioned for what are likely the last steps in the assembly of Photosystem I. Here,
we dissect both models and attempt to address heretofore unrecognized issues by proposing a mechanism that includes a thermodynamic
perspective. Experimental strategies to verify the models are proposed. In closing, the evolutionary aspects of the assembly
process will be considered, with special reference to the structural arrangement of the PsaC binding surface.
Received 22 October 2008; received after revision 17 November 2008; accepted 05 December 2008 相似文献
782.
Berger W Steiner E Grusch M Elbling L Micksche M 《Cellular and molecular life sciences : CMLS》2009,66(1):43-61
The unique and evolutionary highly conserved major vault protein (MVP) is the main component of ubiquitous, large cellular
ribonucleoparticles termed vaults. The 100 kDa MVP represents more than 70% of the vault mass which contains two additional
proteins, the vault poly (ADP-ribose) polymerase (vPARP) and the telomerase-associated protein 1 (TEP1), as well as several
short untranslated RNAs (vRNA). Vaults are almost ubiquitously expressed and, besides chemotherapy resistance, have been implicated
in the regulation of several cellular processes including transport mechanisms, signal transmissions and immune responses.
Despite a growing amount of data from diverse species and systems, the definition of precise vault functions is still highly
complex and challenging. Here we review the current knowledge on MVP and vaults with focus on regulatory functions in intracellular
signal transduction and immune defence.
Received 27 June 2008; received after revision 25 July 2008; accepted 30 July 2008 相似文献
783.
Dirk M. Walther Doron Rapaport Jan Tommassen 《Cellular and molecular life sciences : CMLS》2009,66(17):2789-2804
Membrane-embedded β-barrel proteins span the membrane via multiple amphipathic β-strands arranged in a cylindrical shape.
These proteins are found in the outer membranes of Gram-negative bacteria, mitochondria and chloroplasts. This situation is
thought to reflect the evolutionary origin of mitochondria and chloroplasts from Gram-negative bacterial endosymbionts. β-barrel
proteins fulfil a variety of functions; among them are pore-forming proteins that allow the flux of metabolites across the
membrane by passive diffusion, active transporters of siderophores, enzymes, structural proteins, and proteins that mediate
protein translocation across or insertion into membranes. The biogenesis process of these proteins combines evolutionary conservation
of the central elements with some noticeable differences in signals and machineries. This review summarizes our current knowledge
of the functions and biogenesis of this special family of proteins. 相似文献
784.
Salamah M. Alwahsh Hassan Rashidi David C. Hay 《Cellular and molecular life sciences : CMLS》2018,75(8):1307-1324
The prevalence of liver diseases is increasing globally. Orthotopic liver transplantation is widely used to treat liver disease upon organ failure. The complexity of this procedure and finite numbers of healthy organ donors have prompted research into alternative therapeutic options to treat liver disease. This includes the transplantation of liver cells to promote regeneration. While successful, the routine supply of good quality human liver cells is limited. Therefore, renewable and scalable sources of these cells are sought. Liver progenitor and pluripotent stem cells offer potential cell sources that could be used clinically. This review discusses recent approaches in liver cell transplantation and requirements to improve the process, with the ultimate goal being efficient organ regeneration. We also discuss the potential off-target effects of cell-based therapies, and the advantages and drawbacks of current pre-clinical animal models used to study organ senescence, repopulation and regeneration. 相似文献
785.
786.
Sophie M. Hapak Carla V. Rothlin Sourav Ghosh 《Cellular and molecular life sciences : CMLS》2018,75(15):2735-2761
Polarity is a fundamental feature of cells. Protein complexes, including the PAR3–PAR6–aPKC complex, have conserved roles in establishing polarity across a number of eukaryotic cell types. In neurons, polarity is evident as distinct axonal versus dendritic domains. The PAR3, PAR6, and aPKC proteins also play important roles in neuronal polarization. During this process, either aPKC kinase activity, the assembly of the PAR3–PAR6–aPKC complex or the localization of these proteins is regulated downstream of a number of signaling pathways. In turn, the PAR3, PAR6, and aPKC proteins control various effector molecules to establish neuronal polarity. Herein, we discuss the many signaling mechanisms and effector functions that have been linked to PAR3, PAR6, and aPKC during the establishment of neuronal polarity. 相似文献
787.
788.
Steven J. Collins Carolin Tumpach Bradley R. Groveman Simon C. Drew Cathryn L. Haigh 《Cellular and molecular life sciences : CMLS》2018,75(17):3231-3249
Neurogenesis continues in the post-developmental brain throughout life. The ability to stimulate the production of new neurones requires both quiescent and actively proliferating pools of neural stem cells (NSCs). Actively proliferating NSCs ensure that neurogenic demand can be met, whilst the quiescent pool makes certain NSC reserves do not become depleted. The processes preserving the NSC quiescent pool are only just beginning to be defined. Herein, we identify a switch between NSC proliferation and quiescence through changing intracellular redox signalling. We show that N-terminal post-translational cleavage products of the prion protein (PrP) induce a quiescent state, halting NSC cellular growth, migration, and neurite outgrowth. Quiescence is initiated by the PrP cleavage products through reducing intracellular levels of reactive oxygen species. First, inhibition of redox signalling results in increased mitochondrial fission, which rapidly signals quiescence. Thereafter, quiescence is maintained through downstream increases in the expression and activity of superoxide dismutase-2 that reduces mitochondrial superoxide. We further observe that PrP is predominantly cleaved in quiescent NSCs indicating a homeostatic role for this cascade. Our findings provide new insight into the regulation of NSC quiescence, which potentially could influence brain health throughout adult life. 相似文献
789.
790.
Patricio Atanes Inmaculada Ruz-Maldonado Ross Hawkes Bo Liu Min Zhao Guo Cai Huang Israa Mohammed Al-Amily Albert Salehi Stefan Amisten Shanta J. Persaud 《Cellular and molecular life sciences : CMLS》2018,75(16):3039-3050