[HTML][HTML] Transcriptome sequencing analysis of maize roots reveals the effects of substrate and root hair formation in a spatial context
Background Plant roots sense and respond to changes in their soil environment, but
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
Transcriptome sequencing analysis of maize roots reveals the effects of substrate and root hair formation in a spatial context.
M Ganther, D Vetterlein, A Heintz-Buschart… - Plant & …, 2022 - search.ebscohost.com
Background: Plant roots sense and respond to changes in their soil environment, but
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
Transcriptome sequencing analysis of maize roots reveals the effects of substrate and root hair formation in a spatial context
M Ganther, D Vetterlein, A Heintz-Buschart… - Plant and …, 2022 - search.proquest.com
Background Plant roots sense and respond to changes in their soil environment, but
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
Transcriptome sequencing analysis of maize roots reveals the effects of substrate and root hair formation in a spatial context.
M Ganther, D Vetterlein, A Heintz-Buschart, MT Tarkka - Plant and Soil, 2022 - go.gale.com
Background Plant roots sense and respond to changes in their soil environment, but
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
[PDF][PDF] Transcriptome sequencing analysis of maize roots reveals the effects of substrate and root hair formation in a spatial context
M Ganther, D Vetterlein, A Heintz-Buschart, MT Tarkka - 2021 - scholar.archive.org
Background Plant roots sense and respond to changes in their soil environment, but
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
Transcriptome sequencing analysis of maize roots reveals the effects of substrate and root hair formation in a spatial context.
M Ganther, D Vetterlein, A Heintz-Buschart, MT Tarkka - 2022 - cabidigitallibrary.org
Background: Plant roots sense and respond to changes in their soil environment, but
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
[PDF][PDF] Transcriptome sequencing analysis of maize roots reveals the effects of substrate and root hair formation in a spatial context
M Ganther, D Vetterlein, A Heintz-Buschart, MT Tarkka - 2021 - academia.edu
Background Plant roots sense and respond to changes in their soil environment, but
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
Transcriptome sequencing analysis of maize roots reveals the effects of substrate and root hair formation in a spatial context
M Ganther, D Vetterlein, A Heintz-Buschart… - Plant and …, 2022 - ui.adsabs.harvard.edu
Background Plant roots sense and respond to changes in their soil environment, but
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …
conversely contribute to rhizosphere organization through chemical, mechanical and biotic …