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101.
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Corsini L Bonnal S Bonna S Basquin J Hothorn M Scheffzek K Valcárcel J Sattler M 《Nature structural & molecular biology》2007,14(7):620-629
The U2AF-homology motif (UHM) mediates protein-protein interactions between factors involved in constitutive RNA splicing. Here we report that the splicing factor SPF45 regulates alternative splicing of the apoptosis regulatory gene FAS (also called CD95). The SPF45 UHM is necessary for this activity and binds UHM-ligand motifs (ULMs) present in the 3' splice site-recognizing factors U2AF65, SF1 and SF3b155. We describe a 2.1-A crystal structure of SPF45-UHM in complex with a ULM peptide from SF3b155. Features distinct from those of previously described UHM-ULM structures allowed the design of mutations in the SPF45 UHM that selectively impair binding to individual ULMs. Splicing assays using the ULM-selective SPF45 variants demonstrate that individual UHM-ULM interactions are required for FAS splicing regulation by SPF45 in vivo. Our data suggest that networks of UHM-ULM interactions are involved in regulating alternative splicing. 相似文献
104.
In Leishmania donovani, the HSP90 chaperone complex plays an essential role in the control of the parasite’s life cycle, general viability and infectivity. Several of the associated co-chaperones were also shown to be essential for viability and/or infectivity to mammalian cells. Here, we identify and describe the co-chaperone P23 and distinguish its function from that of the structurally related small heat shock protein HSP23. P23 is expressed constitutively and associates itself with members of the HSP90 complex, i.e. HSP90 and Sti1. Viable P23 gene replacement mutants could be raised and confirmed as null mutants without deleterious effects on viability under a variety of physiological growth conditions. The null mutant also displays near-wild-type infectivity, arguing against a decisive role played by P23 in laboratory settings. However, the P23 null mutant displays a marked hypersensitivity against HSP90 inhibitors geldanamycin and radicicol. P23 also appears to affect the radicicol resistance of a HSP90 Leu33-Ile mutant described previously. Therefore, the annotation of L. donovani P23 as HSP90-interacting co-chaperone is confirmed.
Electronic supplementary material
The online version of this article (doi:10.1007/s12192-015-0595-y) contains supplementary material, which is available to authorized users. 相似文献105.
Protein-RNA interactions play essential roles in gene regulation and RNA metabolism. While high-resolution structures have revealed principles of RNA recognition by individual RNA binding domains (RBDs), the presence of multiple RBDs in many eukaryotic proteins suggests additional modes of RNA recognition by combination and cooperation of these interactions. Recent structures, together with biochemical and biophysical studies have revealed novel principles of RNA recognition by multi-domain proteins. These examples highlight an important role for dynamics in RNA recognition, with mechanisms including fly-casting and conformational selection, and advocate the use of solution techniques for their analysis. 相似文献
106.
Irina Vetter Filip Touska Andreas Hess Rachel Hinsbey Simon Sattler Angelika Lampert Marina Sergejeva Anastasia Sharov Lindon S Collins Mirjam Eberhardt Matthias Engel Peter J Cabot John N Wood Viktorie Vlachová Peter W Reeh Richard J Lewis Katharina Zimmermann 《The EMBO journal》2012,31(19):3795-3808
Ciguatoxins are sodium channel activator toxins that cause ciguatera, the most common form of ichthyosarcotoxism, which presents with peripheral sensory disturbances, including the pathognomonic symptom of cold allodynia which is characterized by intense stabbing and burning pain in response to mild cooling. We show that intraplantar injection of P-CTX-1 elicits cold allodynia in mice by targeting specific unmyelinated and myelinated primary sensory neurons. These include both tetrodotoxin-resistant, TRPA1-expressing peptidergic C-fibres and tetrodotoxin-sensitive A-fibres. P-CTX-1 does not directly open heterologously expressed TRPA1, but when co-expressed with Nav channels, sodium channel activation by P-CTX-1 is sufficient to drive TRPA1-dependent calcium influx that is responsible for the development of cold allodynia, as evidenced by a large reduction of excitatory effect of P-CTX-1 on TRPA1-deficient nociceptive C-fibres and of ciguatoxin-induced cold allodynia in TRPA1-null mutant mice. Functional MRI studies revealed that ciguatoxin-induced cold allodynia enhanced the BOLD (Blood Oxygenation Level Dependent) signal, an effect that was blunted in TRPA1-deficient mice, confirming an important role for TRPA1 in the pathogenesis of cold allodynia. 相似文献
107.
108.
Mapelli M Filipp FV Rancati G Massimiliano L Nezi L Stier G Hagan RS Confalonieri S Piatti S Sattler M Musacchio A 《The EMBO journal》2006,25(6):1273-1284
The spindle assembly checkpoint (SAC) monitors chromosome attachment to spindle microtubules. SAC proteins operate at kinetochores, scaffolds mediating chromosome-microtubule attachment. The ubiquitous SAC constituents Mad1 and Mad2 are recruited to kinetochores in prometaphase. Mad2 sequesters Cdc20 to prevent its ability to mediate anaphase onset. Its function is counteracted by p31comet (formerly CMT2). Upon binding Cdc20, Mad2 changes its conformation from O-Mad2 (Open) to C-Mad2 (Closed). A Mad1-bound C-Mad2 template, to which O-Mad2 binds prior to being converted into Cdc20-bound C-Mad2, assists this process. A molecular understanding of this prion-like property of Mad2 is missing. We characterized the molecular determinants of the O-Mad2:C-Mad2 conformational dimer and derived a rationalization of the binding interface in terms of symmetric and asymmetric components. Mutation of individual interface residues abrogates the SAC in Saccharomyces cerevisiae. NMR chemical shift perturbations indicate that O-Mad2 undergoes a major conformational rearrangement upon binding C-Mad2, suggesting that dimerization facilitates the structural conversion of O-Mad2 required to bind Cdc20. We also show that the negative effects of p31comet on the SAC are based on its competition with O-Mad2 for C-Mad2 binding. 相似文献
109.
110.
Numerous microbial habitats are strongly influenced by elevated levels of heavy metals. This type of habitat has developed
either due to ore mining and metal processing or by pedogenesis above metal-rich base rocks. Most actinobacteria are soil-borne
microbes with a remarkable capability for the synthesis of a broad variety of biologically active secondary metabolites. One
major obstacle in identifying secondary metabolites, however, is the known phenomenon of sleeping gene clusters which are
present, but silent under standard screening conditions. Here, we proceed to show that sleeping gene clusters can be awakened
by the induction in heavy metal stress. Both, a chemical and a biological screening with extracts of supernatant and biomass
of 10 strains derived from metal contaminated and non-contaminated environments was carried out to assay the influence of
heavy metals on secondary metabolite patterns of metal tolerant actinobacteria. Metabolite patterns of cultures grown in complex
and minimal media were compared to nickel (or cadmium) spiked parallels. Extracts of some strains grown in the presence of
a metal salt displayed intense antibiosis against Escherichia coli, Mycobacterium smegmatis, Staphylococcus aureus and Candida albicans. Contrarily to the widely held opinion of metals as hindrance in secondary metabolism, metals thus can induce or enhance
synthesis of possibly potent and medically relevant metabolites in metal tolerant strains. Hence, re-screening of existing
strain libraries as well as identification of new strains from contaminated areas are valid strategies for the detection of
new antibiotics in the future. 相似文献