Etude de mécanismes moléculaires et de lois physiques qui régissent l'auto-organisation des microtubules en réseaux ordonnés et complexes in vitro

Le cytosquelette de microtubule (MT) est essentiel dans de nombreux processus cellulaire. Il est notamment impliqué dans le trafic intracellulaire, la division cellulaire, la modification et le maintien de la forme de la cellule. En fonction du type cellulaire ou de son état de différenciation, les réseaux de MTs vont adopter des architectures différentes. Ces organisations sont définies par des contraintes géométriques intracellulaires et l'activité moléculaire de nombreuses protéines associées aux MTs (MAPs). Parmi ces protéines, des membres de la famille des MAP65s ont été identifiés. In vitro, elles forment des ponts entre les MTs pour les organiser en faisceaux. Le but de mon travail de thèse a été d'étudier in vitro le rôle de MAP65s dans l'auto-organisation d'un réseau de faisceaux de MTs. Dans un premier temps, j'ai mis au point un système biomimétique utilisant la technique de micro-patterning qui imposent une géométrie d'assemblage pour les MTs dans des limites qui se rapprochent de celles observées dans les cellules. Cette méthode permet de contrôler précisément l'assemblage des MTs à partir de zones dont les formes, la taille et la distribution des unes par rapport aux autres sont définies. Pour valider cette technique, j'ai reconstitué des réseaux qui miment des architectures cellulaires (i.e modules du fuseau mitotique). Dans un deuxième temps j'ai étudié le rôle de MAP65s dans l'auto-organisation de réseaux de faisceaux de MTs, et plus particulièrement l'étape de co-alignement entre MTs dynamiques et dispersés. J'ai montré que MAP65-1 de plante et son orthologue chez la levure, Ase1, diminuent fortement la longueur de persistance de MTs isolés ou organisés en faisceaux. Cet assouplissement leur permet de se déformer et donc de se co-aligner pour former des faisceaux lorsqu'ils se rencontrent à des angles de rencontre élevés. L'augmentation de flexibilité est du à l'interaction du domaine de liaison de MAP65-1/Ase1 avec la lattice des MTs. Ces résultats suggèrent que la diminution de la rigidité des MTs contrôle dans les cellules l'issue des évènements des rencontres entre MTs. De façon plus générale, la modulation des propriétés mécaniques des MTs par des MAPs représente un nouveau mécanisme pour réguler la plasticité des réseaux de MTs dans les cellules eucaryotes.The microtubule (MT) cytoskeleton is essential for many cell processes, such as the intracellular trafficking, the cell division, and the cell morphogenesis. Depending on the cell type or on its differentiation state, the MT networks will adopt different architectures. These organizations are defined by intracellular geometric constraints and the regulation of the acticity of many MT associated proteins (MAPs). Among these proteins, we get a particular interest in MAP65s family that crosslink MTs to organize them into bundles. The aim of my thesis was to study in vitro the role of MAP65s in the self-organization of MT bundles in particular networks. As a first step, I developed a biomimetic system using the micro-patterning procedure which imposes a MT assembly geometry within limits close to those observed in cells. This method allows to precisely control the MT assembly from micro-patterns with define shape, size and spatial distribution. In order to validate this technic, I reconstituted MT networks which mimic cellular architecture (i.e mitotic spindle modules). In a second time, I studied the role of major MT cross-linkers that are members of the MAP65 family in the formation of MT bundles, particularly the step of MT co-aligment after encountering of dynamic growing MTs. I found that plant MAP65-1 and its yeast ortholog, Ase1, lower the global rigidity of single MTs and MT bundles. This increase in MT flexibility is directly caused by interactions between the MAP65 MT-binding domain and the MT lattice. These data suggest that MT softening by MAP65 controls the issue of MT encounters, so that self-organized ordered MT bundles are formed in living cells. In a more general way, the modulation of MT mechanical propreties by MAPs represent a new mecanism to regulate MT networks plasticity in eukaryote cells.SAVOIE-SCD - Bib.électronique (730659901) / SudocGRENOBLE1/INP-Bib.électronique (384210012) / SudocGRENOBLE2/3-Bib.électronique (384219901) / SudocSudocFranceF

Arabidopsis katanin binds microtubules using a multimeric microtubule-binding domain.

Katanin is a heterodimeric protein that mediates ATP-dependent destabilization of microtubules in animal cells. In plants, the catalytic subunit of Arabidopsis thaliana katanin (AtKSS, Arabidopsis thaliana Katanin Small Subunit) has been identified and its microtubule-severing activity has been demonstrated in vitro. In vivo, plant katanin plays a role in the organization of cortical microtubules, but the way it achieves this function is unknown. To go further in our understanding of the mechanisms by which katanin severs microtubules, we analyzed the functional domains of Arabidopsis katanin. We characterized the microtubule-binding domain of katanin both in vitro and in vivo. It corresponds to a poorly conserved sequence between plant and animal katanins that is located in the N-terminus of the protein. This domain interacts with cortical microtubules in vivo and has a low affinity for microtubules in vitro. We also observed that katanin microtubule-binding domain oligomerizes into trimers. These results show that, besides being involved in the interaction of katanin with microtubules, the microtubule-binding domain may also participate in the oligomerization of katanin. At the structural level, we observed that AtKSS forms ring-shaped oligomers

Тенденції розвитку національної інноваційної системи в Україні

Проаналізовано національну інноваційну систему України. Розглянуто галузі промисловості України за ознаками інноваційної активності та досліджено темпи зростання показників, враховуючи індекс інфляції. Встановлено, що спад темпів зростання динаміки реалізованої продукції призводить до зменшення витрат на інноваційну діяльність.Дан анализ национальной инновационной системы Украины. Рассмотрены отрасли промышленности Украины по признакам инновационной активности и исследованы темпы роста показателей, учитывая индекс инфляции. Установлено, что спад темпов роста динамики реализованной продукции приводит к уменьшению затрат на инновационную деятельность.This article analyses national innovation system of Ukraine. Examined the industry of Ukraine based on innovative activity and investigated the growth indicators, taking into account inflation-index. It is established that the slowdown in the dynamics realized production leads to a decrease in the cost of innovation

Microtubule sliding activity of a kinesin-8 promotes spindle assembly and spindle length control

Molecular motors play critical roles in the formation of mitotic spindles, either through controlling the stability of individual microtubules, or by cross-linking and sliding microtubule arrays. Kinesin-8 motors are best known for their regulatory roles in controlling microtubule dynamics. They contain microtubule-destabilizing activities, and restrict spindle length in a wide variety of cell types and organisms. Here, we report for the first time on an anti-parallel microtubule-sliding activity of the budding yeast kinesin-8, Kip3. The in vivo importance of this sliding activity was established through the identification of complementary Kip3 mutants that separate the sliding activity and microtubule destabilizing activity. In conjunction with kinesin-5/Cin8, the sliding activity of Kip3 promotes bipolar spindle assembly and the maintenance of genome stability. We propose a “slide-disassemble” model where Kip3’s sliding and destabilizing activity balance during pre-anaphase. This facilitates normal spindle assembly. However, Kip3’s destabilizing activity dominates in late anaphase, inhibiting spindle elongation and ultimately promoting spindle disassembly

Interdisciplinary research: motivations and challenges for researcher careers

accepté par QSS, mai 2023Interdisciplinarity is a fundamental asset in today's research landscape, but its rules and habits vary from those of disciplinary approaches. This article aims to evaluate the impact of researchers' participation in interdisciplinary projects on their scientific careers. To do so, we conducted a survey of researchers working at the Centre National de la Recherche Scientifique (CNRS), the largest public, multidisciplinary research institution in France. The survey is based on a sample of 970 respondents representative of scientists from all disciplines and involved to varying degrees in interdisciplinarity. The main results indicate that involvement in interdisciplinary projects often starts very early (PhD, post-doc), and that interdisciplinarity is not slowing down career development. Interdisciplinarity has however certain specificities like the longer duration of projects, or the absence of adequate scientific journals. In terms of valorization of scientific results, differences to disciplinary uses are found. Assessment criteria for interdisciplinary projects or careers do not take sufficient account of these specificities; they are considered inadequate to the challenges of interaction between disciplines and should be rethought. We make four proposals, which we believe essential to better recognize interdisciplinary scientific engagement

Interdisciplinary research: motivations and challenges for researcher careers

accepté par QSS, mai 2023Interdisciplinarity is a fundamental asset in today's research landscape, but its rules and habits vary from those of disciplinary approaches. This article aims to evaluate the impact of researchers' participation in interdisciplinary projects on their scientific careers. To do so, we conducted a survey of researchers working at the Centre National de la Recherche Scientifique (CNRS), the largest public, multidisciplinary research institution in France. The survey is based on a sample of 970 respondents representative of scientists from all disciplines and involved to varying degrees in interdisciplinarity. The main results indicate that involvement in interdisciplinary projects often starts very early (PhD, post-doc), and that interdisciplinarity is not slowing down career development. Interdisciplinarity has however certain specificities like the longer duration of projects, or the absence of adequate scientific journals. In terms of valorization of scientific results, differences to disciplinary uses are found. Assessment criteria for interdisciplinary projects or careers do not take sufficient account of these specificities; they are considered inadequate to the challenges of interaction between disciplines and should be rethought. We make four proposals, which we believe essential to better recognize interdisciplinary scientific engagement

Interdisciplinary research: Motivations and challenges for researcher careers Interdisciplinary research

International audienceInterdisciplinarity is a fundamental asset in today's research landscape, but its rules and habits vary from those of disciplinary approaches. This article aims to evaluate the impact of researchers' participation in interdisciplinary projects on their scientific careers. To do so, we conducted a survey of researchers working at the Centre National de la Recherche Scientifique (CNRS), the largest public, multidisciplinary research institution in France. The survey is based on a sample of 970 respondents representative of scientists from all disciplines and involved to varying degrees in interdisciplinarity. The main results indicate that involvement in interdisciplinary projects often starts very early (PhD, post-doc), and that interdisciplinarity is not slowing down career development. Interdisciplinarity has however certain specificities like the longer duration of projects, or the absence of adequate scientific journals. In terms of valorization of scientific results, differences to disciplinary uses are found. Assessment criteria for interdisciplinary projects or careers do not take sufficient account of these specificities; they are considered inadequate to the challenges of interaction between disciplines and should be rethought. We make four proposals, which we believe essential to better recognize interdisciplinary scientific engagement

Functional evidence for in vitro microtubule severing by the plant katanin homologue.

Temporal and spatial assembly of microtubules in plant cells depends mainly on the activity of microtubule-interacting proteins, which either stabilize, destabilize or translocate microtubules. Recent data have revealed that the thale cress (Arabidopsis thaliana) contains a protein related to the p60 catalytic subunit of animal katanin, a microtubule-severing protein. However, effects of the plant p60 on microtubule assembly are not known. We report the first functional evidence that the recombinant A. thaliana p60 katanin subunit, Atp60, binds to microtubules and severs them in an ATP-dependent manner in vitro. ATPase activity of Atp60 is stimulated by low tubulin/katanin ratios, and is inhibited at higher ratios. Considering its properties in vitro, several functions of Atp60 in vivo are discussed