Add to ORKGAbstract: Reactive oxygen and nitrogen species can modify various biomolecules, including proteins. The resulting protein modifications are highly diverse, can be reversible as well as irreversible, and might affect protein structure and function. Besides random modifications, targeted modifications at specific amino acids in surface-accessible protein regions occur. These changes are of particular interest as, e.g. by altering the local protein conformation; they might initiate specific (oxidative) signaling pathways. Here, we focus on two protein modifications that are found under conditions of oxidative stress in plants: oxidation of the sulfur-containing methionine and nitration of tyrosine. We review the functional consequences caused ...
Plants are sessile in nature and they perceive and react to environmental stresses such as abiotic a...
Plant acclimation to environmental conditions involves multiple interactions between hormones and o...
Nitric oxide and reactive oxygen species play a key role in the plant hypersensitive disease resista...
Abstract: Reactive oxygen and nitrogen species can modify various biomolecules, including proteins. ...
Reactive oxygen species such as hydrogen peroxide can modify proteins via direct oxidation of their ...
ROS and reactive nitrogen species (RNS) are key regulators of redox homeostasis in living organisms ...
Plants generate reactive oxygen species (ROS) as part of their metabolism and in response to various...
In plants, fluctuation of the redox balance by altered levels of reactive oxygen species (ROS) can a...
Higher plants are continually exposed to reactive oxygen and nitrogen species during their lives. To...
Stress factors provoke enhanced production of reactive oxygen species (ROS) in plants. ROS that esca...
Nitric oxide (•NO) is a free radical which exerts a myriad of functions in the physiology of higher ...
Protein tyrosine nitration is a post-translational modification (PTM) mediated by reactive nitrogen ...
The thiols groups of cysteine residues on proteins are attractive oxidative targets for modification...
Posttranslational modification (PTM) of proteins is essential to creating a diverse proteome with th...
Stress factors provoke enhanced production of reactive oxygen species (ROS) in plants. ROS that esc...
Plants are sessile in nature and they perceive and react to environmental stresses such as abiotic a...
Plant acclimation to environmental conditions involves multiple interactions between hormones and o...
Nitric oxide and reactive oxygen species play a key role in the plant hypersensitive disease resista...
Abstract: Reactive oxygen and nitrogen species can modify various biomolecules, including proteins. ...
Reactive oxygen species such as hydrogen peroxide can modify proteins via direct oxidation of their ...
ROS and reactive nitrogen species (RNS) are key regulators of redox homeostasis in living organisms ...
Plants generate reactive oxygen species (ROS) as part of their metabolism and in response to various...
In plants, fluctuation of the redox balance by altered levels of reactive oxygen species (ROS) can a...
Higher plants are continually exposed to reactive oxygen and nitrogen species during their lives. To...
Stress factors provoke enhanced production of reactive oxygen species (ROS) in plants. ROS that esca...
Nitric oxide (•NO) is a free radical which exerts a myriad of functions in the physiology of higher ...
Protein tyrosine nitration is a post-translational modification (PTM) mediated by reactive nitrogen ...
The thiols groups of cysteine residues on proteins are attractive oxidative targets for modification...
Posttranslational modification (PTM) of proteins is essential to creating a diverse proteome with th...
Stress factors provoke enhanced production of reactive oxygen species (ROS) in plants. ROS that esc...
Plants are sessile in nature and they perceive and react to environmental stresses such as abiotic a...
Plant acclimation to environmental conditions involves multiple interactions between hormones and o...
Nitric oxide and reactive oxygen species play a key role in the plant hypersensitive disease resista...