Add to ORKGAbstract Plant cells exposed to anaerobic stress generate copious amounts of the gaseous free radical nitric oxide (NO). At this time, the concomitant expression of the ubiq-uitous class 1 plant hemoglobins establishes one component of a soluble terminal NO dioxygenase system, which yields nitrate ions via reaction of oxyhemoglobin with NO. Class 1 hemoglobin expression also enhances the cellular energy status, redox status, and NO metabolism of plant cells exposed to hypoxic stress. The ability of class 1 hemoglobins to ligate oxygen at concentrations two orders of magnitude lower than cytochrome c oxidase suggests that hemoglobin and NO may serve as components of an alternative type of respiration that is operative during conditions that ...
AbstractActively respiring animal and plant tissues experience hypoxia because of mitochondrial O2 c...
It is widely accepted that nitrate but not ammonium improves tolerance of plants to hypoxic stress, ...
Ascorbic acid and hemoglobins have been linked to nitric oxide metabolism in plants. It has been hyp...
Plant tissues, particularly roots, can be subjected to periods of hypoxia due to environmental circu...
Article de revue (Article scientifique dans une revue à comité de lecture)International audienceMore...
Mitochondria recently have emerged as important sites in controlling NO levels within the cell. In t...
Mitochondria are not only major sites for energy production but also participate in several alternat...
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Ci...
The major goal of the present study is to describe the mechanisms by which plants adapt to deficien...
Study of the interactions between nitric oxide (NO) and mitochondria are important for two major rea...
Nitric oxide (NO) and ethylene are signalling molecules that are synthesized in response to oxygen d...
The non-energy conserving protein alternative oxidase (AOX) of the mitochondrial respiratory electro...
At oxygen concentrations of <1%, even completely nitrate reductase (NR)-free root tissues reduced...
Non-symbiotic plant hemoglobins (nsHbs) have been found in various plant tissues and plant species, ...
International audienceActively respiring animal and plant tissues experience hypoxia because of mito...
AbstractActively respiring animal and plant tissues experience hypoxia because of mitochondrial O2 c...
It is widely accepted that nitrate but not ammonium improves tolerance of plants to hypoxic stress, ...
Ascorbic acid and hemoglobins have been linked to nitric oxide metabolism in plants. It has been hyp...
Plant tissues, particularly roots, can be subjected to periods of hypoxia due to environmental circu...
Article de revue (Article scientifique dans une revue à comité de lecture)International audienceMore...
Mitochondria recently have emerged as important sites in controlling NO levels within the cell. In t...
Mitochondria are not only major sites for energy production but also participate in several alternat...
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Ci...
The major goal of the present study is to describe the mechanisms by which plants adapt to deficien...
Study of the interactions between nitric oxide (NO) and mitochondria are important for two major rea...
Nitric oxide (NO) and ethylene are signalling molecules that are synthesized in response to oxygen d...
The non-energy conserving protein alternative oxidase (AOX) of the mitochondrial respiratory electro...
At oxygen concentrations of <1%, even completely nitrate reductase (NR)-free root tissues reduced...
Non-symbiotic plant hemoglobins (nsHbs) have been found in various plant tissues and plant species, ...
International audienceActively respiring animal and plant tissues experience hypoxia because of mito...
AbstractActively respiring animal and plant tissues experience hypoxia because of mitochondrial O2 c...
It is widely accepted that nitrate but not ammonium improves tolerance of plants to hypoxic stress, ...
Ascorbic acid and hemoglobins have been linked to nitric oxide metabolism in plants. It has been hyp...