Soybean is an important legume crop that exhibits markedly reduced growth and yields under flooding conditions. To unravel the mechanisms involved in recovery after flooding in soybean root, gel-free proteomic analysis was performed. Morphological analysis revealed that growth suppression was more severe with increased flooding duration. Out of a total of 1645 and 1707 identified proteins, 73 and 21 proteins were changed significantly during the recovery stage following 2 and 4 days flooding, respectively. Based on the proteomic, clustering, and in silico protein–protein interaction analyses, six key enzymes were analyzed at the mRNA level. Lipoxygenase 1, which was increased at the protein level during the recovery period, was steadily dow...
To investigate the mechanism of flooding tolerance of soybean, flooding-tolerant mutants derived fro...
To understand the mechanism of biophoton emission, ROS and mitochondrial proteins were analyzed in s...
The efficiency of stress-induced adaptive responses of plants depends on intricate coordination of m...
Soybean is an important legume crop that exhibits markedly reduced growth and yields under flooding ...
Flooding injury is one of the abiotic constraints on soybean growth. An experimental system establis...
Flooding negatively affects the growth of soybean, and several flooding-specific stress responses ha...
Flooding injury is a major problem in soybean cultivation. A proteomics approach was used to clarify...
Soybean, which is rich in protein and oil, is cultivated in several climatic zones; however, its gro...
Flooding is a serious problem for soybean cultivation because it markedly reduces growth. To investi...
Flooding significantly reduces the growth and grain yield of soybean plants. Proteomic and biochemic...
Dissecting molecular pathways at protein level is essential for comprehensive understanding of plant...
Flooding negatively affects the growth of soybeans. Recently, omic approaches have been used to stud...
Flooding has severe negative effects on soybean growth. To explore the flooding-responsive mechanism...
To investigate the mechanism of flooding tolerance of soybean, flooding-tolerant mutants derived fro...
To understand the mechanism of biophoton emission, ROS and mitochondrial proteins were analyzed in s...
The efficiency of stress-induced adaptive responses of plants depends on intricate coordination of m...
Soybean is an important legume crop that exhibits markedly reduced growth and yields under flooding ...
Flooding injury is one of the abiotic constraints on soybean growth. An experimental system establis...
Flooding negatively affects the growth of soybean, and several flooding-specific stress responses ha...
Flooding injury is a major problem in soybean cultivation. A proteomics approach was used to clarify...
Soybean, which is rich in protein and oil, is cultivated in several climatic zones; however, its gro...
Flooding is a serious problem for soybean cultivation because it markedly reduces growth. To investi...
Flooding significantly reduces the growth and grain yield of soybean plants. Proteomic and biochemic...
Dissecting molecular pathways at protein level is essential for comprehensive understanding of plant...
Flooding negatively affects the growth of soybeans. Recently, omic approaches have been used to stud...
Flooding has severe negative effects on soybean growth. To explore the flooding-responsive mechanism...
To investigate the mechanism of flooding tolerance of soybean, flooding-tolerant mutants derived fro...
To understand the mechanism of biophoton emission, ROS and mitochondrial proteins were analyzed in s...
The efficiency of stress-induced adaptive responses of plants depends on intricate coordination of m...