8 Result(s)
within
Jianbin Zeng
Agriculture
-
Article
Open AccessGenome-wide identification and characterization of GATA family genes in wheat
Transcription factors GATAs were a member of zinc finger protein, which could bind DNA regulatory regions to control expression of target genes, thus influencing plant growth and development either in normal c...
-
Article
Open AccessRoot plasticity and Pi recycling within plants contribute to low-P tolerance in Tibetan wild barley
Barley is a low phosphorus (P) demand cereal crop. Tibetan wild barley, as a progenitor of cultivated barley, has revealed outstanding ability of tolerance to low-P stress. However, the underlying mechanisms o...
-
Article
Open AccessTranscriptomic analysis reveals adaptive strategies to chronic low nitrogen in Tibetan wild barley
Development of crop cultivars with high low nitrogen (LN) tolerance or nitrogen use efficiency (NUE) is imperative for sustainable agriculture development. Tibetan wild barley is rich in genetic diversity and ...
-
Article
Leaf epidermis transcriptome reveals drought-Induced hormonal signaling for stomatal regulation in wild barley
Drought is one of the major abiotic stresses affecting crop yields. Understanding drought tolerance mechanism is pivotal for develo** drought tolerant crop cultivars. Here, two Tibetan annual wild barley gen...
-
Article
Open AccessRoot and leaf metabolite profiles analysis reveals the adaptive strategies to low potassium stress in barley
Potassium (K) deficiency in arable land is one of the most important factors affecting crop productivity. Development of low K (LK) tolerant crop cultivars is regarded as a best economic and effective approach...
-
Article
Physiological characterizations of three barley genotypes in response to low potassium stress
Plants adopt several strategies for fighting against low potassium (LK) stress. Our previous study identified some Tibetan wild barley accessions which show the higher LK tolerance than cultivated barley. Howe...
-
Article
Open AccessTranscriptome profiling analysis for two Tibetan wild barley genotypes in responses to low nitrogen
Nitrogen (N) is the most common limiting factor for crop productivity worldwide. An effective approach to solve N deficiency is to develop low N (LN) tolerant crop cultivars. Tibetan annual wild barley is well...
-
Article
The differences in physiological responses, ultrastructure changes, and Na+ subcellular distribution under salt stress among the barley genotypes differing in salt tolerance
Plants adopt several strategies to maintain cellular ion homeostasis, including physiological, biochemical, cellular, subcellular, and molecular mechanisms for fighting against salt stress. We investigated th...
