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1.
Nat Methods ; 19(12): 1563-1567, 2022 12.
Artigo em Inglês | MEDLINE | ID: mdl-36396787

RESUMO

Fluorescent in-situ hybridization (FISH)-based methods extract spatially resolved genetic and epigenetic information from biological samples by detecting fluorescent spots in microscopy images, an often challenging task. We present Radial Symmetry-FISH (RS-FISH), an accurate, fast, and user-friendly software for spot detection in two- and three-dimensional images. RS-FISH offers interactive parameter tuning and readily scales to large datasets and image volumes of cleared or expanded samples using distributed processing on workstations, clusters, or the cloud. RS-FISH maintains high detection accuracy and low localization error across a wide range of signal-to-noise ratios, a key feature for single-molecule FISH, spatial transcriptomics, or spatial genomics applications.


Assuntos
Corantes , Epigenômica , Hibridização in Situ Fluorescente , Genômica , Microscopia
2.
Biosystems ; 208: 104483, 2021 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-34271083

RESUMO

This research addresses the interactions between the unicellular slime mold Physarum polycephalum and a red yeast in a spatial ecosystem over week-long imaging experiments. An inverse relationship between the growth rates of both species is shown, where P. polycephalum has positive growth when the red yeast has a negative growth rate and vice versa. The data also captures successional and oscillatory dynamics between both species. An advanced image analysis methodology for semantic segmentation is used to quantify population density over time, for all components of the ecosystem. We suggest that P. polycephalum is capable of exhibiting a sustainable feeding strategy by depositing a nutritive slime trail, allowing yeast to serve as a periodic food source. This opens a new direction of P. polycephalum research, where the population dynamics of spatial ecosystems can be readily quantified and complex ecological dynamics can be studied.


Assuntos
Aprendizado Profundo , Ecossistema , Fenômenos Microbiológicos , Physarum polycephalum/fisiologia , Dinâmica Populacional
3.
Nat Cell Biol ; 21(9): 1102-1112, 2019 09.
Artigo em Inglês | MEDLINE | ID: mdl-31481792

RESUMO

The classical model of tissue renewal posits that small numbers of quiescent stem cells (SCs) give rise to proliferating transit-amplifying cells before terminal differentiation. However, many organs house pools of SCs with proliferative and differentiation potentials that diverge from this template. Resolving SC identity and organization is therefore central to understanding tissue renewal. Here, using a combination of single-cell RNA sequencing (scRNA-seq), mouse genetics and tissue injury approaches, we uncover cellular hierarchies and mechanisms that underlie the maintenance and repair of the continuously growing mouse incisor. Our results reveal that, during homeostasis, a group of actively cycling epithelial progenitors generates enamel-producing ameloblasts and adjacent layers of non-ameloblast cells. After injury, tissue repair was achieved through transient increases in progenitor-cell proliferation and through direct conversion of Notch1-expressing cells to ameloblasts. We elucidate epithelial SC identity, position and function, providing a mechanistic basis for the homeostasis and repair of a fast-turnover ectodermal appendage.


Assuntos
Ameloblastos/citologia , Diferenciação Celular/fisiologia , Proliferação de Células/fisiologia , Ectoderma/citologia , Incisivo/citologia , Animais , Divisão Celular/fisiologia , Células Epiteliais/citologia , Camundongos Transgênicos , Transdução de Sinais/fisiologia , Células-Tronco/citologia
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