Molecular Regulation of Iron Homeostasis in Plants

“…In most soils, iron is present in the form of insoluble oxides/hydroxides rendering it poorly available to plants. To cope with this poor bioavailability, plants have evolved sophisticated strategies to take up iron from soils (Berger et al ., 2023; Li et al ., 2023). Arabidopsis plants preferentially use the reduction‐based strategy (the so‐called Strategy I), as do most dicots and nongraminous monocots.…”

“…The regulation of Iron homeostasis is well‐conserved in plants, and is primarily controlled at the transcriptional level (Berger et al ., 2023; Li et al ., 2023). It relies on an intricate regulatory network involving several regulatory proteins, among which the bHLH (basic helix–loop–helix) transcription factors play a preponderant role (Fig.…”

Iron‐dependent regulation of leaf senescence: a key role for the H2B histone variant HTB4

“…In most soils, iron is present in the form of insoluble oxides/hydroxides rendering it poorly available to plants. To cope with this poor bioavailability, plants have evolved sophisticated strategies to take up iron from soils (Berger et al ., 2023; Li et al ., 2023). Arabidopsis plants preferentially use the reduction‐based strategy (the so‐called Strategy I), as do most dicots and nongraminous monocots.…”

“…The regulation of Iron homeostasis is well‐conserved in plants, and is primarily controlled at the transcriptional level (Berger et al ., 2023; Li et al ., 2023). It relies on an intricate regulatory network involving several regulatory proteins, among which the bHLH (basic helix–loop–helix) transcription factors play a preponderant role (Fig.…”

Iron‐dependent regulation of leaf senescence: a key role for the H2B histone variant HTB4