Is Arg418 the catalytic base required for the hydrolysis step of the IMP dehydrogenase reaction?

The first committed step of guanine nucleotide biosynthesis is the oxidation of inosine 5'-monophosphate (IMP) to xanthosine 5'-monophosphate (XMP) catalyzed by IMP dehydrogenase. The reaction involves the reduction of NAD(+) with the formation of a covalent enzyme intermediate (E-XMP). Hydrolysis of E-XMP requires the enzyme to adopt a closed conformation and is rate-limiting. Thr321, Arg418, and Tyr419 are candidates for the residue that activates water. The substitution of Thr321 has similar, but small, effects on both the hydride transfer and hydrolysis steps. This result suggests that Thr321 influences the reactivity of Cys319, either through a direct interaction or by stabilizing the structure of the active site loop. The hydrolysis of E-XMP is accelerated by the deprotonation of a residue with a pK(a) of approximately 8. A similar deprotonation stabilizes the closed conformation; this residue has a pK(a) of >or=6 in the closed conformation. The substitution of Tyr419 with Phe does not change the pH dependence of either the hydrolysis of E-XMP or the conformational change, which suggests that Tyr419 is not the residue that activates water. In contrast, the conformational change becomes pH-independent when Arg418 is substituted with Gln. Lys can replace the function of Arg418 in the hydrolysis reaction but does not stabilize the closed conformation. The simplest explanation for these observations is that Arg418 serves as the base that activates water in the IMPDH reaction.     

Is lipid flippase activity of SNARE transmembrane domains required for membrane fusion?

It has been suggested that lipids translocate between the outer and inner leaflets of fusing membranes, or flip-flop, to facilitate changes in bilayer leaflet areas at various stages of fusion. Here, we investigated the lipid flip activity of synthetic peptides that mimic SNARE transmembrane domains (TMDs). These peptides indeed induce flip of marker lipids. However, mutations that reduce flip activity do not diminish fusogenicity and cholesterol blocks flip much more efficiently than fusion. Therefore, our data do not support a role for flip in membrane fusion. On the other hand, the ability of SNARE TMDs to catalyze flip is consistent with a role of SNAREs in biogenic lipid flip.     

Is an immune reaction required for malignant transformation and cancer growth?

Increasing evidence has shown that probably all malignant mouse cells, even those of spontaneous sporadic cancers, are endowed with tumor-specific antigens. Stimulation of cancer growth, rather than inhibition by the immune reaction, is seemingly the prevalent effect in the animal of origin (the autochthonous animal). Small initial dosages of even strong tumor antigens tend to produce stimulatory immune reactions rather than tumor inhibition in any animal. Thus, an immune response at a low level may be an essential growth-driving feature of nascent cancers, and this may be why all cancers apparently have tumor-specific antigens. Inasmuch as a low level of immunity is stimulatory to tumor growth while larger dosages are inhibitory, immuno-selection via this low response may tend to keep the antitumor immune reaction weak and at a nearly maximal stimulatory level throughout most of a tumor's existence. These facts suggest that both suppression of tumor immunity and a heightened immune reaction might each be therapeutic although very contrasting modalities.     

Alpha,beta-elimination reaction of O-acetylserine sulfhydrylase. Is the pyridine ring required?

O-Acetylserine sulfhydrylase (OASS) catalyzes the elimination of acetate from O-acetyl-L-serine (OAS) followed by addition of bisulfide to give L-cysteine. Site-directed mutagenesis has been used to replace the active site serine, S272, which forms a hydrogen bond to N1 of pyridoxal 5'-phosphate (PLP) with alanine and aspartate. Based on UV-visible spectral and steady-state kinetic studies, both mutant enzymes catalyze the elimination reaction with an efficiency equal to that of the wild-type enzyme. Data are consistent with an anti-E(2) reaction proposed for the elimination reaction.     

Is extracellular calcium required for insulin action?

Isolated hepatocytes and isolated adipocytes incubated in the absence of added calcium ions respond to insulin with a decrease in tissue cyclic AMP levels, and an increase in low Km phosphodiesterase activity. Isolated hepatocytes also showed a diminution of glucagon stimulated glucose output in response to insulin, while adipocytes responded with increased rates of glucose oxidation, lipid synthesis and decreased glycerol output. These responses to insulin are the same as those seen when the cells are incubated in buffers containing physiological concentrations of calcium ions. When extracellular concentrations of calcium ions were made extremely low by using either gelatine or albumin which had been pretreated to remove calcium, and/or the incubation buffers contained EGTA, both the hepatocytes and adipocytes continued to respond to insulin. These results suggest that extracellular calcium ions are not required for insulin action.     

Is 1,25-dihydroxyvitamin D required for reproduction?

The role of 1,25-dihydroxyvitamin D (1,25-(OH)2D) in avian and mammalian reproduction is examined. 1,25-Dihydroxyvitamin D is required, in both the avian and mammalian species, for maintenance of normocalcemia, adequate intestinal calcium absorption, bone turnover, and mineral homeostasis throughout the reproductive cycle--just as it is required in the nonlaying bird or nonpregnant, nonlactating mammal. In the avian species, 1,25-(OH)2D is required for ovulation and shell formation, transfer of calcium from the egg shell across the chorioallantoic membrane to the fetal circulation, and maintenance of fetal serum calcium, bone metabolism, and mineral homeostasis. In the mammalian species, 1,25-(OH)2D is required for normal ovulation, normal fetal and neonatal bone metabolism, milk production, and maintenance of normocalcemia and mineral homeostasis in the neonate. In the absence of 1,25-(OH)2D, however, embryogenesis (rat and chick) and neonatal development (rat) can proceed in such a way as to produce viable, normal appearing offspring. The classical effects of 1,25-(OH)2D deficiency (hypocacemia, inadequate intestinal calcium absorption, and bone mineralization) become increasingly apparent with advancing age but there are no other apparent major developmental abnormalities.     

Is dimerization required for the catalytic activity of bacterial biotin carboxylase?

Acetyl-coenzyme A carboxylases (ACCs) have crucial roles in fatty acid metabolism. The biotin carboxylase (BC) subunit of Escherichia coli ACC is believed to be active only as a dimer, although the crystal structure shows that the active site of each monomer is 25 A from the dimer interface. We report here biochemical, biophysical, and structural characterizations of BC carrying single-site mutations in the dimer interface. Our studies demonstrate that two of the mutants, R19E and E23R, are monomeric in solution but have only a 3-fold loss in catalytic activity. The crystal structures of the E23R and F363A mutants show that they can still form the correct dimer at high concentrations. Our data suggest that dimerization is not an absolute requirement for the catalytic activity of the E. coli BC subunit, and we propose a new model for the molecular mechanism of action for BC in multisubunit and multidomain ACCs.     

Is Ffh required for export of secretory proteins?

In Escherichia coli, protein export from the cytoplasm may occur via the signal recognition particle (SRP)-dependent pathway or the Sec-dependent pathway. Membrane proteins utilize the SRP-dependent route, whereas many secretory proteins use the cytoplasmic Sec machinery. To examine the possibility that signal peptide hydrophobicity governs which targeting route is utilized, we used a series of PhoA signal sequence mutants which vary only by incremental hydrophobicity changes. We show that depletion of SRP, but not trigger factor, affects all the mutants examined. These results suggest secretory proteins with a variety of signal sequences, as well as membrane proteins, require SRP for export.     

Is phospholipid a required cofactor for the activity of mammalian signal peptidase?

To determine whether phospholipid is required for the activity of mammalian signal peptidase, the enzyme was partially purified from porcine pancreas and then extensively freed of phospholipid by SP-Sephadex C-50 chromatography. The delipidated enzyme showed signal peptidase activity, with a low concentration of detergent. Phospholipid was found to release the enzyme from the inhibition due to excess detergent.     

Is supercomplex organization of the respiratory chain required for optimal electron transfer activity?

The supra-molecular assembly of the main respiratory chain enzymatic complexes in the form of "super-complexes" has been proved by structural and functional experimental evidence. This evidence strongly contrasts the previously accepted Random Diffusion Model stating that the complexes are functionally connected by lateral diffusion of small redox molecules (i.e. Coenzyme Q and cytochrome c). This review critically examines the available evidence and provides an analysis of the functional consequences of the intermolecular association of the respiratory complexes pointing out the role of Coenzyme Q and of cytochrome c as channeled or as freely diffusing intermediates in the electron transfer activity of their partner enzymes.     

Is multiple-sequence alignment required for accurate inference of phylogeny?

The process of inferring phylogenetic trees from molecular sequences almost always starts with a multiple alignment of these sequences but can also be based on methods that do not involve multiple sequence alignment. Very little is known about the accuracy with which such alignment-free methods recover the correct phylogeny or about the potential for increasing their accuracy. We conducted a large-scale comparison of ten alignment-free methods, among them one new approach that does not calculate distances and a faster variant of our pattern-based approach; all distance-based alignment-free methods are freely available from http://www.bioinformatics.org.au (as Python package decaf+py). We show that most methods exhibit a higher overall reconstruction accuracy in the presence of high among-site rate variation. Under all conditions that we considered, variants of the pattern-based approach were significantly better than the other alignment-free methods. The new pattern-based variant achieved a speed-up of an order of magnitude in the distance calculation step, accompanied by a small loss of tree reconstruction accuracy. A method of Bayesian inference from k-mers did not improve on classical alignment-free (and distance-based) methods but may still offer other advantages due to its Bayesian nature. We found the optimal word length k of word-based methods to be stable across various data sets, and we provide parameter ranges for two different alphabets. The influence of these alphabets was analyzed to reveal a trade-off in reconstruction accuracy between long and short branches. We have mapped the phylogenetic accuracy for many alignment-free methods, among them several recently introduced ones, and increased our understanding of their behavior in response to biologically important parameters. In all experiments, the pattern-based approach emerged as superior, at the expense of higher resource consumption. Nonetheless, no alignment-free method that we examined recovers the correct phylogeny as accurately as does an approach based on maximum-likelihood distance estimates of multiply aligned sequences.     

Is NMDA receptor-coincidence detection required for learning and memory?

The Mg2+ block of NMDA-type glutamate receptors (NMDARs) is crucial to their function as synaptic coincidence detectors. An analysis of Drosophila expressing a Mg2+-independent NMDAR by in this issue of Neuron concludes that the Mg2+ block is required primarily for long-term memory.     

Is organic acid required for nutrition of thermophilic fungi?

In contrast to a published report [Wali et al. Arch Microbiol 118:49–53 (1978)], an organic acid is not essential for the growth of thermophilic fungi. The thermophilic fungus, Thermomyces lanuginosus, grows satisfactorily in a synthetic medium containing glucose as carbon source if the pH of the medium is controlled. The control of pH is essential for the concentration of carbon dioxide in the growth medium and the activity of anaplerotic enzyme, pyruvate carboxylase.Abbreviations PEP phosphoenolpyruvate - GDP guanosine 5-diphosphate     

Is photoisomerization required for NO photorelease in ruthenium nitrosyl complexes?

The factors that explain the competition between intramolecular NO linkage photoisomerization and NO photorelease in five ruthenium nitrosyl complexes were investigated. By applying DFT-based methods, it was possible to characterize the ground states and lowest triplet potential energy surfaces of these species, and to establish that both photoisomerization and photorelease processes can occur in the lowest triplet state of each species. This work highlights the crucial role of the sideways-bonded isomer, a metastable state also known as the MS2 isomer, in the photochemical loss of NO, while the results obtained also indicate that the population of the triplet state of this isomer is compulsory for both processes and show how photoisomerization and photorelease interfere.

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Graphical Abstract Illustration of the crucial role of the ³MS2 state in the photoreactivities of ruthenium nitrosyl complexes

     

Is NSF a fusion protein?

N-ethylmaleimide-sensitive fusion protein (NSF) is an ATPase required for vesicular transport throughout the constitutive secretory and endocytic pathways. Recently, NSF has also been implicated in regulated exocytosis in synapses--based on SNAP-mediated binding in vitro to a complex of neurotoxin substrates (termed 'SNAREs'). This work has generated an hypothesis in which the interaction of SNAREs (SNAP receptors) on the vesicle membrane with those on the target membrane forms a docking complex to which SNAPs bind, thus allowing NSF to bind and elicit membrane fusion. However, current evidence supports an earlier, pre-fusion role for NSF. We speculate that this role may be as a molecular chaperone for the membrane docking/fusion machinery.     

Is the enzyme a powerful reactant of the biochemical reaction?

The mainstream explanation of enzyme catalysis relies on the assumption that enzymes can utilize the binding energy. The author suggest that (i) an enzyme with excess free energy first gives a group from its active site into the final place of the bound reactant (substrate) in order to break the first initial chemical bond; (ii) this enzyme accepts a similar group from the second bound reactant (or second group in the case of the single-substrate) into active site and finish the substrate conversion and enzyme regeneration. The detailed mechanisms of the well-studied reactions of peptide bond hydrolysis catalyzed by α-chymotrypsin and the glyceraldehyde-3-phosphate interconversion steps in glycolysis are in accordance with the proposed theoretical conclusions.     

Is osmotic adjustment required for water stress resistance in the Mediterranean shrub Atriplex halimus L?

The effect of water stress was investigated in plants from two populations of Atriplex halimus L: Tensift issued from a salt-affected coastal area and Kairouan, originating from an inland dried site. Water deficit was applied by withholding water for 22 days. Shoot dry weight (shoot DW), leaf relative water content (RWC), turgid weight to dry weight ratio (TW/DW), osmotic potential (psis), osmotic adjustment (OA), proline, glycinebetaine, and sugar content were determined 1, 8, 15 and 22 days after withholding watering. Water stress induced a decrease in shoot DW, RWC, psis, and TW/DW, but an increase in glycinebetaine and sugar leaf contents. The decrease of psis and TW/DW was more marked in Kairouan than in Tensift. At the end of the stress period, Kairouan showed a greater OA compared with Tensift. However, the contribution of net solute accumulation (OAacc) was similar in both populations in response to stress. Water stress resistance could thus not be associated with higher OA, although the ability of plants to regulate these metabolic and physiological functions could play an important role under harmful conditions. The possible roles of osmolyte accumulations are discussed in relation to the specific physiological strategy of water-stress-resistance in this species.     

Is the interaction of CNP with tubulin and microtubules required for process extension in oligodendrocytes?

The STOP protein (stable tubule-only polypeptide) is a calmodulin-regulated protein which associates with microtubules and induces cold stabilization. There are different isoforms of this protein that arise from alternative splicing of STOP mRNA. Neurons express two major variants N-STOP (125 kDa) and E-STOP (84 kDa). NIH 3T3 fibroblasts contain a major F-STOP isoform (42 kDa) and two minor STOP variants (48 and 89 kDa). Previously, we demonstrated the presence of N-STOP in the cytoskeleton associated with myelin isolated from animals injected with apotransferrin. Since this protein was only described as a neuronal protein we decided to further investigate the expression of this protein in oligodendrocyte cultures. The analysis of the STOP protein expression in oligodendrocyte shows that STOP protein is expressed in the soma and processes of oligodendrocyte precursors, as well as in immature and mature oligodendroglial cells. In addition, we found that MBP shows a high degree of colocalization with STOP protein. By Western blot analysis, it was found that these cells express a major STOP variant (89 kDa). When the cultures were exposed to cold temperature we found that STOP protein associates with microtubules and induces microtubule cold stabilization. Under these experimental conditions, we found that MBP associates with microtubules too, and maintains its colocalization with STOP protein. At present, we are doing new assays directed to further characterize STOP (89 kDa) protein and to elucidate how this protein participates in the formation of myelin by oligodendrocytes.