Add to ORKGIn this project I will explore iron uptake in the cyanobacterium Synechococcus 7002 sp. Particularly in terms of of siderophore production, in addition to the iron transport complex FutABC. The methods employed will be a mix of bioinformatic analysis and the use of deletion mutants to elucidate the function of certain genes
Iron uptake in proteobacteria by TonB-dependent outer membrane transporters represents a well-explor...
Yousef N. Comparative analysis of iron-responsive genes under iron starvation and oxidative stress i...
The cyanobacterium Anabaena sp. (PCC #6411) is known to produce the siderophore, schizokinen, in res...
Iron is an important trace element that is involved in biological processes and often acts as a limi...
As primary producers, marine cyanobacteria regulate the biological and biogeochemical cycles of aqua...
Cyanobacteria belong to the most widely distributed microorganisms in the biosphere and contribute s...
AbstractIron uptake is essential for Gram-negative bacteria including cyanobacteria. In cyanobacteri...
We have investigated the changes associated with growth over a range of iron availabilities in the c...
In this contribution, we address the question of iron bioavailability to cyanobacteria by measuring ...
Large summertime proliferations (or blooms) of the noxious filamentous cyanobacterium Lyngbya majusc...
In response to Iron deprivation and in specific environmental conditions, the cyanobacteria Anabaena...
Cyanobacteria are known to survive in iron-deficient envir-onments, but the ways in which they acqui...
Siderophores are low-molecular-weight metal chelators that function in microbial iron uptake. As iro...
BACKGROUND: Different iron transport systems evolved in Gram-negative bacteria during evolution. Mos...
Field work with natural phytoplankton assemblages using conventional oceanographic techniques, has e...
Iron uptake in proteobacteria by TonB-dependent outer membrane transporters represents a well-explor...
Yousef N. Comparative analysis of iron-responsive genes under iron starvation and oxidative stress i...
The cyanobacterium Anabaena sp. (PCC #6411) is known to produce the siderophore, schizokinen, in res...
Iron is an important trace element that is involved in biological processes and often acts as a limi...
As primary producers, marine cyanobacteria regulate the biological and biogeochemical cycles of aqua...
Cyanobacteria belong to the most widely distributed microorganisms in the biosphere and contribute s...
AbstractIron uptake is essential for Gram-negative bacteria including cyanobacteria. In cyanobacteri...
We have investigated the changes associated with growth over a range of iron availabilities in the c...
In this contribution, we address the question of iron bioavailability to cyanobacteria by measuring ...
Large summertime proliferations (or blooms) of the noxious filamentous cyanobacterium Lyngbya majusc...
In response to Iron deprivation and in specific environmental conditions, the cyanobacteria Anabaena...
Cyanobacteria are known to survive in iron-deficient envir-onments, but the ways in which they acqui...
Siderophores are low-molecular-weight metal chelators that function in microbial iron uptake. As iro...
BACKGROUND: Different iron transport systems evolved in Gram-negative bacteria during evolution. Mos...
Field work with natural phytoplankton assemblages using conventional oceanographic techniques, has e...
Iron uptake in proteobacteria by TonB-dependent outer membrane transporters represents a well-explor...
Yousef N. Comparative analysis of iron-responsive genes under iron starvation and oxidative stress i...
The cyanobacterium Anabaena sp. (PCC #6411) is known to produce the siderophore, schizokinen, in res...