Nikolski M

References (5)

Title : FluoSim: simulator of single molecule dynamics for fluorescence live-cell and super-resolution imaging of membrane proteins - Lagardere_2020_Sci.Rep_10_19954
Author(s) : Lagardere M , Chamma I , Bouilhol E , Nikolski M , Thoumine O
Ref : Sci Rep , 10 :19954 , 2020
Abstract : Fluorescence live-cell and super-resolution microscopy methods have considerably advanced our understanding of the dynamics and mesoscale organization of macro-molecular complexes that drive cellular functions. However, different imaging techniques can provide quite disparate information about protein motion and organization, owing to their respective experimental ranges and limitations. To address these issues, we present here a robust computer program, called FluoSim, which is an interactive simulator of membrane protein dynamics for live-cell imaging methods including SPT, FRAP, PAF, and FCS, and super-resolution imaging techniques such as PALM, dSTORM, and uPAINT. FluoSim integrates diffusion coefficients, binding rates, and fluorophore photo-physics to calculate in real time the localization and intensity of thousands of independent molecules in 2D cellular geometries, providing simulated data directly comparable to actual experiments. FluoSim was thoroughly validated against experimental data obtained on the canonical neurexin-neuroligin adhesion complex at cell-cell contacts. This unified software allows one to model and predict membrane protein dynamics and localization at the ensemble and single molecule level, so as to reconcile imaging paradigms and quantitatively characterize protein behavior in complex cellular environments.
ESTHER : Lagardere_2020_Sci.Rep_10_19954
PubMedSearch : Lagardere_2020_Sci.Rep_10_19954
PubMedID: 33203884

Title : Draft Genome Sequences of Mycoplasma auris and Mycoplasma yeatsii, Two Species of the Ear Canal of Caprinae - Dordet-Frisoni_2013_Genome.Announc_1_
Author(s) : Dordet-Frisoni E , Baranowski E , Barre A , Blanchard A , Breton M , Couture C , Dupuy V , Gaurivaud P , Jacob D , Lemaitre C , Manso-Silvan L , Nikolski M , Nouvel LX , Poumarat F , Sirand-Pugnet P , Thebault P , Theil S , Thiaucourt F , Citti C , Tardy F
Ref : Genome Announc , 1 : , 2013
Abstract : We report here the draft genome sequences of Mycoplasma auris and Mycoplasma yeatsii, two species commonly isolated from the external ear canal of Caprinae.
ESTHER : Dordet-Frisoni_2013_Genome.Announc_1_
PubMedSearch : Dordet-Frisoni_2013_Genome.Announc_1_
PubMedID: 23766401

Title : Draft Genome Sequences of Mycoplasma alkalescens, Mycoplasma arginini, and Mycoplasma bovigenitalium, Three Species with Equivocal Pathogenic Status for Cattle - Manso-Silvan_2013_Genome.Announc_1_e00348
Author(s) : Manso-Silvan L , Tardy F , Baranowski E , Barre A , Blanchard A , Breton M , Couture C , Citti C , Dordet-Frisoni E , Dupuy V , Gaurivaud P , Jacob D , Lemaitre C , Nikolski M , Nouvel LX , Poumarat F , Thebault P , Theil S , Thiaucourt F , Sirand-Pugnet P
Ref : Genome Announc , 1 : , 2013
Abstract : We report here the draft genome sequences of Mycoplasma alkalescens, Mycoplasma arginini, and Mycoplasma bovigenitalium. These three species are regularly isolated from bovine clinical specimens, although their role in disease is unclear.
ESTHER : Manso-Silvan_2013_Genome.Announc_1_e00348
PubMedSearch : Manso-Silvan_2013_Genome.Announc_1_e00348
PubMedID: 23766408

Title : Comparative genomics of protoploid Saccharomycetaceae - Souciet_2009_Genome.Res_19_1696
Author(s) : Souciet JL , Dujon B , Gaillardin C , Johnston M , Baret PV , Cliften P , Sherman DJ , Weissenbach J , Westhof E , Wincker P , Jubin C , Poulain J , Barbe V , Segurens B , Artiguenave F , Anthouard V , Vacherie B , Val ME , Fulton RS , Minx P , Wilson R , Durrens P , Jean G , Marck C , Martin T , Nikolski M , Rolland T , Seret ML , Casaregola S , Despons L , Fairhead C , Fischer G , Lafontaine I , Leh V , Lemaire M , De Montigny J , Neuveglise C , Thierry A , Blanc-Lenfle I , Bleykasten C , Diffels J , Fritsch E , Frangeul L , Goeffon A , Jauniaux N , Kachouri-Lafond R , Payen C , Potier S , Pribylova L , Ozanne C , Richard GF , Sacerdot C , Straub ML , Talla E
Ref : Genome Res , 19 :1696 , 2009
Abstract : Our knowledge of yeast genomes remains largely dominated by the extensive studies on Saccharomyces cerevisiae and the consequences of its ancestral duplication, leaving the evolution of the entire class of hemiascomycetes only partly explored. We concentrate here on five species of Saccharomycetaceae, a large subdivision of hemiascomycetes, that we call "protoploid" because they diverged from the S. cerevisiae lineage prior to its genome duplication. We determined the complete genome sequences of three of these species: Kluyveromyces (Lachancea) thermotolerans and Saccharomyces (Lachancea) kluyveri (two members of the newly described Lachancea clade), and Zygosaccharomyces rouxii. We included in our comparisons the previously available sequences of Kluyveromyces lactis and Ashbya (Eremothecium) gossypii. Despite their broad evolutionary range and significant individual variations in each lineage, the five protoploid Saccharomycetaceae share a core repertoire of approximately 3300 protein families and a high degree of conserved synteny. Synteny blocks were used to define gene orthology and to infer ancestors. Far from representing minimal genomes without redundancy, the five protoploid yeasts contain numerous copies of paralogous genes, either dispersed or in tandem arrays, that, altogether, constitute a third of each genome. Ancient, conserved paralogs as well as novel, lineage-specific paralogs were identified.
ESTHER : Souciet_2009_Genome.Res_19_1696
PubMedSearch : Souciet_2009_Genome.Res_19_1696
PubMedID: 19525356
Gene_locus related to this paper: lactc-c5dci9 , lactc-c5ddi5 , lactc-c5dew5 , lactc-c5dez1 , lactc-c5df11 , lactc-c5dfh7 , lactc-c5dgd1 , lactc-c5dif7 , lactc-c5din7 , lactc-c5dja0 , lactc-c5dm95 , lactc-c5dn06 , lactc-c5dnn9 , lactc-c5e2g8 , lactc-c5e3n5 , lactc-c5e375 , zygrc-c5drr0 , zygrc-c5dvh0 , zygrc-c5dvl2 , zygrc-c5dvx0 , zygrc-c5dvz8 , zygrc-c5dx83 , zygrc-c5dxn5 , zygrc-c5dxq9 , zygrc-c5e0w1 , zygrc-c5e1e4 , zygrc-c5e1h2 , zygro-a0a1q2zt01 , 9sach-a0a0p1kuu1 , lactc-kex1 , zygrc-kex1

Title : Genome evolution in yeasts - Dujon_2004_Nature_430_35
Author(s) : Dujon B , Sherman D , Fischer G , Durrens P , Casaregola S , Lafontaine I , De Montigny J , Marck C , Neuveglise C , Talla E , Goffard N , Frangeul L , Aigle M , Anthouard V , Babour A , Barbe V , Barnay S , Blanchin S , Beckerich JM , Beyne E , Bleykasten C , Boisrame A , Boyer J , Cattolico L , Confanioleri F , de Daruvar A , Despons L , Fabre E , Fairhead C , Ferry-Dumazet H , Groppi A , Hantraye F , Hennequin C , Jauniaux N , Joyet P , Kachouri R , Kerrest A , Koszul R , Lemaire M , Lesur I , Ma L , Muller H , Nicaud JM , Nikolski M , Oztas S , Ozier-Kalogeropoulos O , Pellenz S , Potier S , Richard GF , Straub ML , Suleau A , Swennen D , Tekaia F , Wesolowski-Louvel M , Westhof E , Wirth B , Zeniou-Meyer M , Zivanovic I , Bolotin-Fukuhara M , Thierry A , Bouchier C , Caudron B , Scarpelli C , Gaillardin C , Weissenbach J , Wincker P , Souciet JL
Ref : Nature , 430 :35 , 2004
Abstract : Identifying the mechanisms of eukaryotic genome evolution by comparative genomics is often complicated by the multiplicity of events that have taken place throughout the history of individual lineages, leaving only distorted and superimposed traces in the genome of each living organism. The hemiascomycete yeasts, with their compact genomes, similar lifestyle and distinct sexual and physiological properties, provide a unique opportunity to explore such mechanisms. We present here the complete, assembled genome sequences of four yeast species, selected to represent a broad evolutionary range within a single eukaryotic phylum, that after analysis proved to be molecularly as diverse as the entire phylum of chordates. A total of approximately 24,200 novel genes were identified, the translation products of which were classified together with Saccharomyces cerevisiae proteins into about 4,700 families, forming the basis for interspecific comparisons. Analysis of chromosome maps and genome redundancies reveal that the different yeast lineages have evolved through a marked interplay between several distinct molecular mechanisms, including tandem gene repeat formation, segmental duplication, a massive genome duplication and extensive gene loss.
ESTHER : Dujon_2004_Nature_430_35
PubMedSearch : Dujon_2004_Nature_430_35
PubMedID: 15229592
Gene_locus related to this paper: canga-apth1 , canga-ppme1 , canga-q6fik7 , canga-q6fiv5 , canga-q6fiw8 , canga-q6fj11 , canga-q6fjh6 , canga-q6fjl0 , canga-q6fjr8 , canga-q6fkj6 , canga-q6fkm9 , canga-q6fku7 , canga-q6fl14 , canga-q6flb5 , canga-q6fle9 , canga-q6flk8 , canga-q6fly1 , canga-q6fly9 , canga-q6fmz4 , canga-q6fnx4 , canga-q6fp28 , canga-q6fpa8 , canga-q6fpi6 , canga-q6fpv7 , canga-q6fpw6 , canga-q6fqj3 , canga-q6fr97 , canga-q6frt7 , canga-q6ftm9 , canga-q6ftu0 , canga-q6ftv9 , canga-q6ftz9 , canga-q6fuf8 , canga-q6fv41 , canga-q6fvu3 , canga-q6fw36 , canga-q6fw94 , canga-q6fwk6 , canga-q6fwm0 , canga-q6fxc7 , canga-q6fxd7 , debha-apth1 , debha-atg15 , debha-b5rtk1 , debha-b5rub4 , debha-b5rue8 , debha-b5rue9 , debha-bna7 , debha-ppme1 , debha-q6bgx3 , debha-q6bh69 , debha-q6bhb8 , debha-q6bhc1 , debha-q6bhd0 , debha-q6bhj7 , debha-q6bi97 , debha-q6biq7 , debha-q6bj53 , debha-q6bkd8 , debha-q6bks1 , debha-q6bky4 , debha-q6bm63 , debha-q6bmh3 , debha-q6bn89 , debha-q6bnj6 , debha-q6bp08 , debha-q6bpb4 , debha-q6bpc0 , debha-q6bpc6 , debha-q6bq10 , debha-q6bq11 , debha-q6bqd9 , debha-q6bqj6 , debha-q6br33 , debha-q6br93 , debha-q6brg1 , debha-q6brw7 , debha-q6bs23 , debha-q6bsc3 , debha-q6bsl8 , debha-q6bsx6 , debha-q6bta5 , debha-q6bty5 , debha-q6btz0 , debha-q6bu73 , debha-q6buk9 , debha-q6but7 , debha-q6bvc4 , debha-q6bvg4 , debha-q6bvg8 , debha-q6bvp4 , debha-q6bw82 , debha-q6bxr7 , debha-q6bxu9 , debha-q6bym5 , debha-q6byn7 , debha-q6bzj8 , debha-q6bzk2 , debha-q6bzm5 , klula-apth1 , klula-ppme1 , klula-q6cin9 , klula-q6ciu6 , klula-q6cj47 , klula-q6cjc8 , klula-q6cjq9 , klula-q6cjs1 , klula-q6cjv9 , klula-q6ckd7 , klula-q6ckk4 , klula-q6ckx4 , klula-q6cl20 , klula-q6clm1 , klula-q6cly8 , klula-q6clz7 , klula-q6cm48 , klula-q6cm49 , klula-q6cmt5 , klula-q6cn71 , klula-q6cnm1 , klula-q6cr74 , klula-q6cr90 , klula-q6crs0 , klula-q6crv8 , klula-q6crz9 , klula-q6cst8 , klula-q6csv8 , klula-q6ctp8 , klula-q6cu02 , klula-q6cu78 , klula-q6cu79 , klula-q6cuv3 , klula-q6cvd3 , klula-q6cw70 , klula-q6cw92 , klula-q6cwu7 , klula-q6cx84 , klula-q6cxa3 , klula-q6cy41 , yarli-apth1 , yarli-atg15 , yarli-BST1B , yarli-lip2 , yarli-LIP3 , yarli-LIP4 , yarli-LIP5 , yarli-LIP7 , yarli-LIP8 , yarli-lipa1 , yarli-ppme1 , yarli-q6bzp1 , yarli-q6bzv7 , yarli-q6c1f5 , yarli-q6c1f7 , yarli-q6c1r3 , yarli-q6c2z2 , yarli-q6c3h1 , yarli-q6c3i6 , yarli-q6c3l1 , yarli-q6c3u6 , yarli-q6c4h8 , yarli-q6c5j1 , yarli-q6c5m4 , yarli-q6c6m4 , yarli-q6c6p7 , yarli-q6c6v2 , yarli-q6c7h3 , yarli-q6c7i7 , yarli-q6c7j5 , yarli-q6c7y6 , yarli-q6c8m4 , yarli-q6c8q4 , yarli-q6c8u4 , yarli-q6c8y2 , yarli-q6c9r0 , yarli-q6c9r1 , yarli-q6c9u0 , yarli-q6c9v4 , yarli-q6c209 , yarli-q6c225 , yarli-q6c493 , yarli-q6c598 , yarli-q6c687 , yarli-q6c822 , yarli-q6cau6 , yarli-q6cax2 , yarli-q6caz1 , yarli-q6cb63 , yarli-q6cba7 , yarli-q6cbb1 , yarli-q6cbe6 , yarli-q6cby1 , yarli-q6ccr0 , yarli-q6cdg1 , yarli-q6cdi6 , yarli-q6cdv9 , yarli-q6ce37 , yarli-q6ceg0 , yarli-q6cep3 , yarli-q6cey5 , yarli-q6cf60 , yarli-q6cfp3 , yarli-q6cfx2 , yarli-q6cg13 , yarli-q6cg27 , yarli-q6cgj3 , yarli-q6chb8 , yarli-q6ci59 , yarli-q6c748 , canga-q6fpj0 , klula-q6cp11 , yarli-q6c4p0 , debha-q6btp5 , debha-kex1