Marcel Baer 400x400
© Barbara Frommann

Dr. Marcel Baer

INRES - Crop Functional Genomics

Friedrich-Ebert-Allee 144
D-53113 Bonn

s7mabaer@uni-bonn.de, +49 228 73-60554
Research website: Root architecture

Publications

2024
Zhao J, Chen Y, Tao Q, Schreiber L, Suresh K, Frei M, Shahedul Alam M, Li B, Zhou Y, Baer M, Hochholdinger F, Wang C, Yu P (2024) Enhanced CO2 coordinates the spatial recruitment of diazotrophs in rice via root development. Plant Cell Environ, in press.

Wang D, He X, Baer M, Lami K, Yu B, Tassinari A, Salvi S, Schaaf S, Hochholdinger F, Yu P (2024) Enrichment of Massilia in lateral roots is associated with flowering in maize. Microbiome 12: 124. PubMed

He X, Wang D, Jiang Y, Li M, Delgado-Baquerizo M, McLaughlin C, Marcon C, Guo L, Baer M, Moya YAT, von Wirén N, Deichmann M, Schaaf G, Piepho H-P, Yang Z, Yang J, Yim B, Smalla K, Goormachtig S, de Vries FT, Hüging H, Baer M, Sawers RJH*, Reif JC*, Hochholdinger F*, Chen X*, Yu P* (2024) Heritable microbiome variation is correlated with source environment in locally adapted maize varieties. Nature Plants 10: 598–617. PubMed

2023
Guo L, Osthoff A, Baer M, Kirschner G, Salvi S, Hochholdinger F (2023) ENHANCED GRAVITROPISM 2 coordinates molecular adaptations to gravistimulation in the elongation zone of barley roots. New Phytol 237: 2196-2209. PubMed

2022
Baer M, Taramino G, Multani D, Sakai, H, Jiao S, Fengler K, Hochholdinger F (2022) Maize lateral rootless 1 encodes a homolog of the DCAF protein subunit of the CUL4-based E3 ubiquitin ligase complex. New Phytol 237: 1204–1214. PubMed

Guo L, Klaus A, Baer M, Kirschner GK, Salvi S, Hochholdinger H (2022) ENHANCED GRAVITROPISM 2 coordinates molecular adaptations to gravistimulation in the elongation zone of barley roots. bioRxiv 10.1101/2022.10.11.511704   Free Article

2021
Yu P, He X, Baer M, Beirinckx S, Tian T, Moya YAT, Zhang Y, Deichmann M, Frey FP, Bresgen V, Li C, Razavi BS, Schaaf G, von Wirén N, Su Z, Bucher M, Tsuda K, Goormachtig S, Chen X, Hochholdinger F (2021) Plant flavones enrich rhizosphere Oxalobacteraceae to improve maize performance under nitrogen deprivation. Nat Plants 7: 481–499. PubMed

2018
Yu P, Marcon C, Baldauf JA, Frey F, Baer M, Hochholdinger F (2018) Transcriptomic dissection of maize root system development. Compendium of plant genomes: The Zea mays Genome. 1st ed. (eds. J. Bennetzen, S. Flint-Garcia, C. Hirsch and R. Tuberosa) pp. 247-257. Springer Nature.

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