Johan Boström
4 Papers
1 Citations
Johan Boström is an academic researcher. The author has contributed to research in topics: Biology & Medicine. The author has an hindex of 1, co-authored 3 publications.
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Papers
Schwann cell precursors represent a neural crest‐like state with biased multipotency
Maria Eleni Kastriti,Louis Faure,Dorothea Von Ahsen,Thibault Bouderlique,Johan Boström,Tatiana Solovieva,Cameron B. Jackson,Marianne E. Bronner,Dies Meijer,Saida Hadjab,Francois Lallemend,Alek Erickson,Marketa Kaucka,Viacheslav Dyachuk,Thomas Perlmann,Laura Lahti,Jan Krivanek,Jean-François Brunet,Kaj Fried,Igor Adameyko +19 more
TL;DR: Overall, SCPs resemble migrating neural crest cells that maintain multipotency and become transcriptionally primed towards distinct lineages.
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β-catenin-dependent endomesoderm specification appears to be a Bilateria-specific co-option
Tatiana Lebedeva,Johan Boström,David Mörsdorf,Isabell Niedermoser,Evgeny Genikhovich,Igor Adameyko,Grigory Genikhovich +6 more
TL;DR: It is shown that the oral-aboral axis in a cnidarian is indeed patterned by a gradient of β-catenin signalling, which suggests that β- catenin-dependent endomesoderm specification is a Bilateria-specific co-option, which may have linked endomesODerm specification with the subsequent posterior-anterior patterning.
β-catenin-driven endomesoderm specification is a Bilateria-specific novelty
Tatiana Lebedeva,Johan Boström,Stanislav Kremnyov,David Mörsdorf,Isabell Niedermoser,Evgeny Genikhovich,Andreas Hejnol,Igor Adameyko,Grigory Genikhovich +8 more
TL;DR: Contrary to previous assumptions, β-catenin signalling represses endomesoderm specification in the cnidarian Nematostella, unlike in Bilateria, where it drives specification, suggesting a bilaterian innovation in endomesoderm patterning.
Altered developmental programs and oriented cell divisions lead to bulky bones during salamander limb regeneration
Marketa Kaucka,Alberto Joven Araus,Marketa Tesarova,Joshua D. Currie,Johan Boström,Michaela Kavkova,Julian Petersen,Zeyu Yao,Anass Bouchnita,Andreas Hellander,Tomáš Zikmund,Ahmed Elewa,Phillip T Newton,Ji-Feng Fei,Andrei S. Chagin,Kaj Fried,Elly M. Tanaka,Jozef Kaiser,András Simon,Igor Adameyko +19 more
TL;DR: In this article , a combination of micro-CT imaging, molecular profiling and clonal cell tracing was used to analyze skeletal elements of salamanders and found that regenerative skeletal growth is accomplished based entirely on cartilage expansion prior to ossification.