The Rel/NF-kappaB family of eukaryotic transcription factors bind DNA with high specificity and affinity as homo- or heterodimers to mediate a diverse range of biological processes. By comparison, ...the nuclear factor of activated T-cells (NFAT) family has been recognised as Rel homologues due to structural similarities between the DNA-binding domains, yet they bind DNA as lower-affinity monomers. The structural and functional overlap between the NF-kappaB and NFAT families suggests that they may be evolutionarily divergent from a common, monomeric ancestor but have evolved different mechanisms to achieve high-affinity binding to their target DNA sequences. In order to understand the origin of these mechanistic differences, we constructed two chimeric proteins, based on molecular modelling, comprising the DNA-binding domain of NFAT and the dimerisation domain of NF-kappaB p50, differing only in the position of the splice site. Biophysical characterisation of the wild-type and chimeric proteins revealed that one of the chimeras bound DNA as a high-affinity, NF-kappaB-like cooperative dimer, whilst the other bound as a lower-affinity, NFAT-like monomer, demonstrating the importance of the interdomain linker in controlling the intrinsic ability of NFATc to form dimers. In addition, we have studied the rate of exchange of monomers between preformed NF-kappaB dimers and have determined, for the first time, the intrinsic homodimerisation constant for NF-kappaB p50. These data support a model in which NF-kappaB proteins bind DNA both in vitro and in vivo as high-affinity preformed homo- or heterodimers, which in an unbound form can still exchange monomer units on a physiologically relevant timescale in vivo.
(19)F-based NMR analysis and hydrogen/deuterium primary isotope shifts establish the formation of a highly populated solution-state trigonal bipyramidal complex involving beta-phosphoglucomutase ...(beta-PGM), alpha-galactose 1-phosphate (alphaGal1P), and trifluoromagnesate (MgF(3)(-)), PGM-MgF(3)-alphaGal1P, that is a transition state analogue for phosphoryl transfer. Full backbone resonance assignment of the protein shows that its structure is in the closed conformation required for catalytic activity and is closely related to the corresponding complex with glucose 6-phosphate, which we have recently identified using NMR analysis in solution and X-ray crystallography in the solid state. The previous identification of three structural waters in a PGM-alphaGal1P binary substrate complex had indicated that, in the presence of alphaGal1P, magnesium ions, and fluoride, beta-PGM should indeed form a PGM-MgF(3)-alphaGal1P-TSA complex whereas, in the solid-state, apparently it did not. This cast doubt on the validity of the interpretation of MgF(3)(-) complexes. The present work establishes that, in solution, the expectation that a PGM-MgF(3)-alphaGal1P-TSA complex should readily form is fulfilled. These results thus refute the final evidence used to claim that the trigonal bipyramidal species observed in some solid-state structures of complexes involving beta-PGM are pentaoxyphosphorane intermediates.
The Event Horizon Telescope (EHT) has led to the first images of a supermassive black hole, revealing the central compact objects in the elliptical galaxy M87 and the Milky Way. Proposed upgrades to ...this array through the next-generation EHT (ngEHT) program would sharply improve the angular resolution, dynamic range, and temporal coverage of the existing EHT observations. These improvements will uniquely enable a wealth of transformative new discoveries related to black hole science, extending from event-horizon-scale studies of strong gravity to studies of explosive transients to the cosmological growth and influence of supermassive black holes. Here, we present the key science goals for the ngEHT and their associated instrument requirements, both of which have been formulated through a multi-year international effort involving hundreds of scientists worldwide.
The mammalian 26S proteasome is a 2500 kDa multi-catalytic complex involved in intracellular protein degradation. We describe the synthesis and properties of a novel series of non-covalent di-peptide ...inhibitors of the proteasome based corrected on a capped tri-peptide that was first identified by high-throughput screening of a library of approx. 350000 compounds for inhibitors of the ubiquitin-proteasome system in cells. We show that these compounds are entirely selective for the beta5 (chymotrypsin-like) site over the beta1 (caspase-like) and beta2 (trypsin-like) sites of the 20S core particle of the proteasome, and over a panel of less closely related proteases. Compound optimization, guided by X-ray crystallography of the liganded 20S core particle, confirmed their non-covalent binding mode and provided a structural basis for their enhanced in vitro and cellular potencies. We demonstrate that such compounds show low nanomolar IC50 values for the human 20S beta5 site in vitro, and that pharmacological inhibition of this site in cells is sufficient to potently inhibit the degradation of a tetra-ubiquitin-luciferase reporter, activation of NFkappaB (nuclear factor kappaB) in response to TNF-alpha (tumour necrosis factor-alpha) and the proliferation of cancer cells. Finally, we identified capped di-peptides that show differential selectivity for the beta5 site of the constitutively expressed proteasome and immunoproteasome in vitro and in B-cell lymphomas. Collectively, these studies describe the synthesis, activity and binding mode of a new series of non-covalent proteasome inhibitors with unprecedented potency and selectivity for the beta5 site, and which can discriminate between the constitutive proteasome and immunoproteasome in vitro and in cells.
The binding kinetics of NF-kappaB p50 to the Ig-kappaB site and to a DNA duplex with no specific binding site were determined under varying conditions of potassium chloride concentration using a ...surface plasmonresonance biosensor. Association and dissociation rate constants were measured enabling calculation of the dissociation constants. Under previously established high affinity buffer conditions, the ka for both sequences was in the order of 10<7< M<-1<s<-1< whilst the kd values varied 600-fold in a sequence-dependent manner between 10<-1< and 10<-4<s<-1<, suggesting that the selectivity of p50 for different sequences is mediated primarily through sequence-dependent dissociation rates. The calculated KD value for the Ig-kappaB sequence was 16 pM, whilst the KD for the non-specific sequence was 9.9 nM. As the ionic strength increased to levels which are closer to that of the cellular environment, the binding of p50 to the non-specific sequence was abolished whilst the specific affinity dropped to nanomolar levels. From these results, a mechanism is proposed in which p50 binds specific sequences with high affinity whilst binding non-specific sequences weakly enough to allow efficient searching of the DNA.
The binding kinetics of NF-κB p50 to the Ig-κB site and to a DNA duplex with no specific binding site were determined under varying conditions of potassium chloride concentration using a surface ...plasmon resonance biosensor. Association and dissociation rate constants were measured enabling calculation of the dissociation constants. Under previously established high affinity buffer conditions, the ka for both sequences was in the order of 107 M−1s−1 whilst the kd values varied 600-fold in a sequence-dependent manner between 10−1 and 10−4 s−1, suggesting that the selectivity of p50 for different sequences is mediated primarily through sequence-dependent dissociation rates. The calculated KD value for the Ig-κB sequence was 16 pM, whilst the KD for the non-specific sequence was 9.9 nM. As the ionic strength increased to levels which are closer to that of the cellular environment, the binding of p50 to the non-specific sequence was abolished whilst the specific affinity dropped to nanomolar levels. From these results, a mechanism is proposed in which p50 binds specific sequences with high affinity whilst binding non-specific sequences weakly enough to allow efficient searching of the DNA.
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