François Gros scite author profile

The high degree of tubulin heterogeneity in neurons is controlled mainly at the posttranslational level. Several variants of alpha-tubulin can be posttranslationally labeled after incubation of cells with [3H]acetate or [3H]glutamate. Peptides carrying the radioactive moiety were purified by high-performance liquid chromatography. Amino acid analysis, Edman degradation sequencing, and mass spectrometric analysis of these peptides led to the characterization of a posttranslational modification consisting of the successive addition of glutamyl units on the gamma-carboxyl group of a glutamate residue (Glu445). This modification, localized within a region of alpha-tubulin that is important in the interactions of tubulin with microtubule-associated proteins and calcium, could play a role in regulating microtubule dynamics.

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Differential expression of two neuronal intermediate-filament proteins, peripherin and the low-molecular-mass neurofilament protein (NF-L), during the development of the rat

Escurat

et al. 1990

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The expression of peripherin, an intermediate filament protein, had been shown by biochemical methods to be localized in the neurons of the PNS. Using immunohistochemical methods, we analyzed this expression more extensively during the development of the rat and compared it with that of the low-molecular-mass neurofilament protein (NF-L), which is expressed in every neuron of the CNS and PNS. The immunoreactivity of NF-L is first apparent at the 25-somite stage (about 11 d) in the ventral horn of the spinal medulla and in the posterior part of the rhombencephalon. The immunoreactivity of peripherin appears subsequently, first colocalized with that of NF-L. Both immunoreactivities then spread out along rostral and caudal directions, but whereas the immunoreactivity of NF-L finally becomes noticeable in every part of the nervous system, that of peripherin remains localized to (1) the motoneurons of the ventral horn of the spinal medulla; (2) the autonomic ganglionic and preganglionic neurons; and (3) the sensory neurons. These results demonstrate that, in the neurons that originate from migrating neural crest cells, the immunoreactivities of peripherin and of NF-L become apparent only when they have reached their destination. The results also show that peripherin is expressed more widely than has been previously observed and that this protein occurs in neuronal populations from different lineages (neural tube, neural crest, placodes) with different functions (motoneurons, sensory and autonomic neurons). The common point of these neurons is that they all have axons lying, at least partly, at the outside of the axis constituted by the encephalon and the spinal medulla; this suggests that peripherin might play a role in the recognition of the axonal pathway through the intermediary of membrane proteins.

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Polyglutamylation of Tubulin as a Progressive Regulator of in Vitro Interactions between the Microtubule-Associated Protein Tau and Tubulin

Boucher

Larcher²,

Gros³

et al. 1994

Biochemistry

191

153

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The multiple functions of microtubules are mediated by various structural and motor microtubule-associated proteins (MAPs). To harmonize these functions in different places of a single cell, the key problem is to regulate the interactions of these proteins with microtubules. The chemical diversity of tubulin isoforms, which constitute the microtubule wall, could represent a molecular basis for this control. Using an in vitro assay of ligand blotting, we found that the microtubule-associated protein Tau interacts differentially with the diverse posttranslationally-modified isotubulins: its binding is mainly restricted to moderately-modified alpha- and beta-tubulin isoforms. We obtained evidence that the recently-discovered polyglutamylation, which consists of the sequential, posttranslational addition of one to six glutamyl units to both alpha- and beta-tubulin subunits, regulates the binding of Tau as a function of its chain length. The relative affinity of Tau, very low for unmodified tubulin, increases progressively for isotubulins carrying from one to three glutamyl units, reaches an optimal value, and then decreases progressively when the polygutamyl chain lengthens up to six residues. Our results suggest that the unmodified C-terminus of tubulin exerts a constitutive inhibition on Tau binding, probably by locking the MAP-binding site, and that this inhibition could be first released and then restored as the polyglutamyl chain grows. As the posttranslational chain does not appear to interact directly with Tau, it is thought that the growth of this chain from one to six glutamyl units causes a progressive, conformational shift in the structure of the C-terminal domain of tubulin, thus leading to the observed modulation of affinity.

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Characterization of a novel, low-molecular-weight DNA-binding protein from Escherichia coli.

Rouvière‐Yaniv¹,

Gros²

1975

Proc. Natl. Acad. Sci. U.S.A.

313

149

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A low-molecular-weight (7000), heat-stable protein-HU-that stimulates transcription of bacteriophage X DNA by E. coli RNA polymerase was purified from E. coli extracts using affinity chromatography on DNA-cellulose. HU binds to native DNA, resulting in an apparent thickening of the DNA chains as revealed by electron microscopy. Contrary to DNA unwinding proteins, it causes no destabilization of the double helix. HU differs from previously described transcription factors (HI, D, etc.) and from the lowmolecular-weight w subunit of the RNA polymerase. By its amino-acid composition and characteristics, HU displays an interesting. resemblance to some eukaryotic histones, such as H2B and Hi. A variety of low-molecular-weight proteins from Escherichia coli that stimulate RNA synthesis in vitro have been characterized (1-8). The heat-stable protein, HI (1, 2), was shown to enhance X-lac DNA transcription by E. colt RNA polymerase (3) while causing reduction of ribosomal RNA synthesis in an E. coli DNA-dependent system (4). A heatstable protein, the D factor, was reported to increase the specificity of X-DNA transcription by the E. colt polymerase (5). Another class of small, heat-stable proteins has also been described which stimulates in vitro the replication of RNA bacteriophage (6, 7). That these small protein factors could act by locally affecting the stability of nucleic acid secondary structure, hence favoring or inhibiting the action of polymerases, has already been suggested (1, 2, 5, 8), and it has been proposed that some of these entities, such as the H1 and the D factors, could represent the prokaryotic counterpart of eukaryotic nuclear proteins (3,(5)(6)(7)(8).In. the frame of this hypothesis, we have undertaken a more systematic analysis of DNA binding proteins by means of affinity chromatography on DNA-cellulose columns. We report, here, the purification from E. coli extracts of a small, heat-stable protein-HU-that stimulates transcription of bacteriophage X-DNA and displays by its amino-acid composition and physicochemical behavior some properties characteristic of eukaryotic histones. Fig. 1 MATERIALS AND METHODS Bacterial

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François Gros

Posttranslational Glutamylation of α-tubulin

Differential expression of two neuronal intermediate-filament proteins, peripherin and the low-molecular-mass neurofilament protein (NF-L), during the development of the rat

Polyglutamylation of Tubulin as a Progressive Regulator of in Vitro Interactions between the Microtubule-Associated Protein Tau and Tubulin

Characterization of a novel, low-molecular-weight DNA-binding protein from Escherichia coli.

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