The model pennate diatom Phaeodactylum tricornutum is able to assimilate a range of iron
sources. It therefore provides a platform to study different mechanisms of iron processing …

Iron is a biochemically critical metal cofactor in enzymes involved in photosynthesis, cellular
respiration, nitrate assimilation, nitrogen fixation, and reactive oxygen species defense …

Iron is a biochemically critical metal cofactor in enzymes involved in photosynthesis,
respiration, nitrate assimilation, nitrogen fixation, and reactive oxygen species defense …

Diatoms are important primary producers in the world's oceans, yet their growth is
constrained in large regions by low bioavailable iron (Fe). Low‐Fe stress‐induced limitation …

Marine primary productivity is iron (Fe)-limited in vast regions of the contemporary oceans,
most notably the high nutrient low chlorophyll (HNLC) regions. Diatoms often form large …

Iron (Fe) is involved in multiple processes that contribute to the maintenance of the cellular
homeostasis of all living beings. In photosynthetic organisms, Fe is notably required for …

Numerous cellular functions including respiration require iron. Plants and phytoplankton
must also maintain the iron-rich photosynthetic electron transport chain, which most likely …

Environmental fluctuations affect distribution, growth and abundance of diatoms in nature,
with iron (Fe) availability playing a central role. Studies on the response of diatoms to low Fe …

We demonstrate that the unique green algal iron assimilatory protein, FEA1, is able to
complement the Arabidopsis iron-transporter mutant, irt1, as well as enhance iron …

Iron is an essential element for all living organisms due to its ubiquitous role in redox and
other enzymes, especially in the context of respiration and photosynthesis. The iron uptake …