Abstract
Chloroplasts possess a small genome which encodes for many essential complex subunits involved in photosynthesis. The integration of these proteins together with nucleus-encoded and posttranslationally imported proteins into a functional chloroplast proteome is a major challenge which is regulated on multiple levels. Here, we highlight unique features of the chloroplast protein biogenesis machinery and their roles during plant acclimation to environmental changes.
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Lisa Désirée Westrich 2010–2016 Biologiestudium an der TU Kaiserslautern. Seit 2016 Promotion in der Abteilung Eukaryontengenetik der TU Kaiserslautern unter Anleitung von Jun.-Prof. Dr. F. Willmund.
Vincent Leon Gotsmann 2012–2018 Biologiestudium an der TU Kaiserslautern. Seit 2018 Promotion in der Abteilung Eukaryontengenetik der TU Kaiserslautern unter Anleitung von Jun.-Prof. Dr. F. Willmund.
Felix Willmund 1998–2004 Biologiestudium an der Universität Freiburg; dort 2004–2007 Promotion in Biochemie der Pflanzen unter Anleitung von Prof. Dr. M. Schroda. 2008–2013 Postdoktorand an der Stanford University, CA, USA, im Labor von Prof. Dr. J. Frydman. Seit 2014 Juniorprofessor für Eukaryontengenetik an der TU Kaiserslautern.
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Westrich, L.D., Gotsmann, V.L. & Willmund, F. Chloroplasten-Proteinbiogenese: angepasst an das phototrophe Leben. Biospektrum 25, 127–131 (2019). https://doi.org/10.1007/s12268-019-1018-x
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DOI: https://doi.org/10.1007/s12268-019-1018-x