Artículos con órdenes de acceso público - Jutta BaldaufMás información
Disponibles en algún lugar: 15
Osmotic stress enhances suberization of apoplastic barriers in barley seminal roots: analysis of chemical, transcriptomic and physiological responses
T Kreszies, N Shellakkutti, A Osthoff, P Yu, JA Baldauf, VV Zeisler‐Diehl, ...
New Phytologist 221 (1), 180-194, 2019
Órdenes: German Research Foundation
Root type and soil phosphate determine the taxonomic landscape of colonizing fungi and the transcriptome of field‐grown maize roots
P Yu, C Wang, JA Baldauf, H Tai, C Gutjahr, F Hochholdinger, C Li
New Phytologist 217 (3), 1240-1253, 2018
Órdenes: National Natural Science Foundation of China, German Research Foundation …
Transcriptomic reprogramming of barley seminal roots by combined water deficit and salt stress
A Osthoff, P Donà dalle Rose, JA Baldauf, HP Piepho, F Hochholdinger
BMC genomics 20, 1-14, 2019
Órdenes: German Research Foundation
Seminal roots of wild and cultivated barley differentially respond to osmotic stress in gene expression, suberization, and hydraulic conductivity
T Kreszies, S Eggels, V Kreszies, A Osthoff, N Shellakkutti, JA Baldauf, ...
Plant, Cell & Environment 43 (2), 344-357, 2020
Órdenes: Australian Research Council, German Research Foundation
Root type-specific reprogramming of maize pericycle transcriptomes by local high nitrate results in disparate lateral root branching patterns
P Yu, JA Baldauf, A Lithio, C Marcon, D Nettleton, C Li, F Hochholdinger
Plant Physiology 170 (3), 1783-1798, 2016
Órdenes: National Natural Science Foundation of China, German Research Foundation
Nonsyntenic genes drive tissue-specific dynamics of differential, nonadditive, and allelic expression patterns in maize hybrids
JA Baldauf, C Marcon, A Paschold, F Hochholdinger
Plant physiology 171 (2), 1144-1155, 2016
Órdenes: German Research Foundation
Single-parent expression is a general mechanism driving extensive complementation of non-syntenic genes in maize hybrids
JA Baldauf, C Marcon, A Lithio, L Vedder, L Altrogge, HP Piepho, ...
Current Biology 28 (3), 431-437. e4, 2018
Órdenes: US National Science Foundation, US National Institutes of Health, German …
Proteomics of maize root development
F Hochholdinger, C Marcon, JA Baldauf, P Yu, FP Frey
Frontiers in Plant Science 9, 143, 2018
Órdenes: German Research Foundation, Federal Ministry of Education and Research, Germany
Stability of single-parent gene expression complementation in maize hybrids upon water deficit stress
C Marcon, A Paschold, WA Malik, A Lithio, JA Baldauf, L Altrogge, N Opitz, ...
Plant Physiology 173 (2), 1247-1257, 2017
Órdenes: German Research Foundation
BonnMu: A Sequence-Indexed Resource of Transposon-Induced Maize Mutations for Functional Genomics Studies
C Marcon, L Altrogge, YN Win, T Stöcker, JM Gardiner, JL Portwood, ...
Plant physiology 184 (2), 620-631, 2020
Órdenes: German Research Foundation, Federal Ministry of Education and Research, Germany
Complexity and specificity of the maize (Zea mays L.) root hair transcriptome
S Hey, J Baldauf, N Opitz, A Lithio, A Pasha, N Provart, D Nettleton, ...
Journal of experimental botany 68 (9), 2175-2185, 2017
Órdenes: German Research Foundation
Single-parent expression complementation contributes to phenotypic heterosis in maize hybrids
JA Baldauf, M Liu, L Vedder, P Yu, HP Piepho, H Schoof, D Nettleton, ...
Plant Physiology 189 (3), 1625-1638, 2022
Órdenes: US National Science Foundation, US National Institutes of Health, German …
Robust non-syntenic gene expression patterns in diverse maize hybrids during root development
JA Baldauf, L Vedder, H Schoof, F Hochholdinger
Journal of Experimental Botany 71 (3), 865-876, 2020
Órdenes: German Research Foundation
Transcriptomic dissection of maize root system development
P Yu, C Marcon, JA Baldauf, F Frey, M Baer, F Hochholdinger
The Maize Genome, 247-257, 2018
Órdenes: German Research Foundation, Federal Ministry of Education and Research, Germany
Molecular dissection of heterosis in cereal roots and their rhizosphere
JA Baldauf, F Hochholdinger
Theoretical and Applied Genetics 136 (8), 173, 2023
Órdenes: German Research Foundation
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