D
Danae Morales Angeles
Researcher at Norwegian University of Life Sciences
Publications - 9
Citations - 153
Danae Morales Angeles is an academic researcher from Norwegian University of Life Sciences. The author has contributed to research in topics: Peptidoglycan & Penicillin binding proteins. The author has an hindex of 6, co-authored 8 publications receiving 89 citations. Previous affiliations of Danae Morales Angeles include University of Groningen.
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Journal ArticleDOI
Staphylococcal Biofilms: Challenges and Novel Therapeutic Perspectives.
Christian Kranjec,Danae Morales Angeles,Marita Torrissen Mårli,Lucía Fernández,Lucía Fernández,Pilar García,Pilar García,Morten Kjos,Dzung B. Diep +8 more
TL;DR: In this paper, the authors provide an overview of current knowledge of the stages of biofilm development and what difficulties may arise when trying to eradicate staphylococcal biofilms.
Journal ArticleDOI
The localization of key Bacillus subtilis penicillin binding proteins during cell growth is determined by substrate availability
Marta Carolina Afonso Lages,Katrin Beilharz,Danae Morales Angeles,Jan-Willem Veening,Dirk-Jan Scheffers +4 more
TL;DR: The results strongly suggest that the localization of PG synthesis at the periphery of the cell is substrate-driven, even in bacteria that contain actin-like MreB cytoskeletal structures.
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Pentapeptide-rich peptidoglycan at the Bacillus subtilis cell-division site
Danae Morales Angeles,Yun Liu,Alwin M. Hartman,Marina Borisova,Anabela de Sousa Borges,Niels A W de Kok,Katrin Beilharz,Jan-Willem Veening,Christoph Mayer,Anna K. H. Hirsch,Dirk-Jan Scheffers +10 more
TL;DR: Local differences in the chemical composition of PG are reported in the Gram‐positive rod‐shaped model organism Bacillus subtilis indicating either a lower local degree of PG crosslinking or a difference in PG composition, which could be a topological marker for other proteins.
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The Cell Wall of Bacillus subtilis
TL;DR: The cell wall of Bacillus subtilis is a rigid structure on the outside of the cell that forms the first barrier between the bacterium and the environment, and at the same time maintains cell shape and withstands the pressure generated by the cell's turgor.
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In Vivo Cluster Formation of Nisin and Lipid II Is Correlated with Membrane Depolarization
TL;DR: It is shown that cluster formation is always concomitant with membrane pore formation and membrane depolarization, suggesting that delocalization of peptidoglycan synthesis is not the primary killing mechanism of these lantibiotics.