Cytology and GeneticsOct 28
Assessing Genomic Evolution of Tubulin Gene Family for Camelina Species Genotyping - #Camelina #cropwildrelatives #tubulin #genomeevolution #polyploidy #DNAbarcoding #tubulinbasedpolymorphism #genotyping - https://link.springer.com/article/10.3103/S0095452725050020
Assessing Genomic Evolution of Tubulin Gene Family for Camelina Species Genotyping - Cytology and Genetics

Abstract Tubulin plays a key role in the functioning of cytoskeletal systems that regulate such fundamental processes as cell division and growth. Correct identification of isotypes and determination of the orthology of tubulin genes in plants is a nontrivial task that requires the involvement of a complex of bioinformatics approaches. In the present study, a genome-wide search and identification of tubulin genes was carried out in diploid representatives of the genus Camelina, in particular in the C. neglecta, C. laxa, and C. hispida species, which allowed the authors to identify complete sets of α-, β-, and γ-tubulin genes as well as their pseudogenes. Phylogenetic analysis and a series of genome-wide comparisons allowed for establishing the orthology of the tubulin genes, determining isotype identity of the encoded tubulins, and tracing evolutionary changes in tubulin gene sets during species divergence and the emergence of allohexaploid C. sativa species. Genotyping of the accessions of different Camelina species using TBP-, cTBP-, and γTBP-markers allowed effective differentiation of species based on the assessment of polymorphisms of intronic regions of the β- and γ-tubulin genes. The obtained results lay a strong groundwork for further studies of the isotype and functional diversity of tubulins in Cruciferae and other groups of flowering plants and will also contribute to the development and implementation of new, highly efficient molecular marker systems for DNA-barcoding and marker-assisted breeding of plant species, including such promising oilseed crops as C. sativa.

SpringerLink
Cytology and GeneticsNov 12, 2024
Bioinformatical View on the Contribution of MAST/IRE-Dependent Phosphorylation in the Tubulin Code - #proteinkinases #MAST #IREH1 #tubulin #phosphorylation #phosphorylationsites - https://link.springer.com/article/10.3103/S0095452724030058
Show threadBose-Einstein-KondensatJul 26, 2024
6/n In addition to the above shown examples for #MolecularMachines, here a few more #molecules we presented in #AugmentedReality at #IdeenExpo: #Tubulin-stathmin complex, #antibody, #nucleosome particle, #SARSCoV2 #polymerase.
#DIYbio #MINT #STEM #chem #AR #education #TiltFive
CellBioNewsJul 23, 2024

#Ciliated #eukaryotes study offers simple, versatile method for #tubulin #staining.

#microscopy #cytostucture

https://phys.org/news/2024-07-ciliated-eukaryotes-simple-versatile-method.html

Ciliated eukaryotes study offers simple, versatile method for tubulin staining

Ciliates, a group of single-celled ciliated eukaryotes, have been studied since the dawn of light microscopy, with over 10,000 species described. Cilia are the key feature of ciliates and contribute to their diversity. They vary in length, covering the cell surface or specific parts, or can bundle to form cirri. Staining cilia and basal bodies is a common procedure in ciliate morphology research, using techniques like silver impregnation and immunofluorescence staining with antibodies associated with tubulin.

Phys.org
Cytology and GeneticsApr 16, 2024
β-Tubulin of Fusarium as a Potential Target for Realization of Antifungal Activity of Ivermectin - #ivermectin #Fusariumgraminearum #Fusariumoxysporum #βtubulin #taxanesite #ivermectinbinding #fungicidaleffect #Fusarium #tubulin - https://link.springer.com/article/10.3103/S009545272401002X
β-Tubulin of Fusarium as a Potential Target for Realization of Antifungal Activity of Ivermectin - Cytology and Genetics

The analysis of the effect of ivermectin on phytopathogenic strains of Fusarium graminearum (F‑55644, F-55748) and Fusarium oxysporum f. sp. lycopersici (F-52897, F-55547) was carried out; as a result, its concentrations were established at which a fungistatic effect on the growth of colonies of the specified strains was observed (2 and 3 mg/mL). It was found that F. oxysporum strains were more susceptible in general to ivermectin than F. graminearum strains. Since it is known that ivermectin is able to interact with β-tubulin (causing a stabilization of microtubules), to explain the obtained results, a 3-dimensional model of the complex of this compound with Fusarium β-tubulin was developed and ivermectin-induced changes in the conformation of β-tubulin were determined, including, particularly, the stabilization and spiralization of the M‑loop of the β-tubulin molecule. This structural element of β-tubulin plays an important role in the lateral contacts between tubulin subunits of adjacent protofilaments within the microtubule. Since the M-loop stabilization reflects a very important feature of microtubule stabilizing agents' binding to the taxane site of β-tubulin, it can be supposed, that ivermectin possesses the same effect on Fusarium microtubules. The results obtained allow for considering ivermectin or its derivatives as potential compounds with fungicidal activity.

SpringerLink
Show threadMill_labJan 16, 2024
We close with Dan Dodd (Mill lab, MRC HGU) on unique #cilia & #centriole-specific functions for #tubulin isotype TUBB4B with dominant negative roles in motile & non-motile #ciliopathies. New insights from Alan Brown & Jeff Ti Labs. Deep read: www.medrxiv.org/content/10.1... #ukcilia2024 6/8
mechanochemistrySep 18, 2023

New paper from Yean Ming and Rob

“Taxol acts differently on different tubulin isotypes”

http://rdcu.be/dmiem

#cytoskeleton #tubulin #microtubules #CellBiology #Motorheads

Mill_labSep 1, 2023

Two+ weeks 🚨 19/09/2023 15:00-17:15 BST 🚨until our 45th BSCB GenSoc UK Cilia Network e-symposium- free and open to all! >1260 folks already registered, this is the #cilia #centriole place to be! Not on my list already, sign up here: https://www.eventbrite.co.uk/e/bscb-gensoc-uk-cilia-network-e-symposia-series-tickets-122092125835

We have all good things lined-up: #GeneRegulatoryNetworks, #Signalling, mind-blowing #cryoET protein ID, #OrganelleProteomics in #neurons AND everything #tubulin! Join us...

BSCB GenSoc UK Cilia Network e-Symposia Series

BSCB GenSoc UK Cilia Network e-Symposia Series

Eventbrite
The EMBO JournalJul 5, 2023
How does #centrosome #amplification -common in #cancer- promote #cellmigration through confined spaces?
Susana Godinho and colleagues show that it alters intracellular organization via effects on #tubulin #acetylation and #organelle transport along #microtubules
https://www.embopress.org/doi/full/10.15252/embj.2022112812
michaelJun 30, 2023
29-Jun-2023
Cracking the tubulin code Scientists developed a chemical method to engineer fully functional tubulin carrying precise combinations of post-translational modifications
https://www.eurekalert.org/news-releases/993985
#science #CellBiology #nanoworld #tubulin
Cracking the tubulin code

Tubulins are the building blocks of microtubules, which make up the cell’s skeleton. A new method enables the detailed study of their role in diseases, including cancer.

EurekAlert!