Yunrong Wu
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View article: H2O2-mediated oxidation of PHOSPHATE STARVATION RESPONSE2 promotes adaptation to low phosphate in rice
H2O2-mediated oxidation of PHOSPHATE STARVATION RESPONSE2 promotes adaptation to low phosphate in rice Open
View article: OSH45, a homeobox transcription factor, coordinates low-phosphate adaptation in rice
OSH45, a homeobox transcription factor, coordinates low-phosphate adaptation in rice Open
Phosphorus (P), an essential macronutrient critical for plant growth and development, faces significant availability constraints in agricultural soils, substantially limiting crop yield potential. Transcription factors (TFs) play pivotal r…
View article: A root system architecture regulator modulates OsPIN2 polar localization in rice
A root system architecture regulator modulates OsPIN2 polar localization in rice Open
View article: Maximal intersecting families revisited
Maximal intersecting families revisited Open
The well-known Erdős--Ko--Rado theorem states that for $n> 2k$, every intersecting family of $k$-sets of $[n]:=\{1,\ldots ,n\}$ has at most $ {n-1 \choose k-1}$ sets, and the extremal family consists of all $k$-sets containing a fixed elem…
View article: The LRR receptor-like kinase ALR1 is a plant aluminum ion sensor
The LRR receptor-like kinase ALR1 is a plant aluminum ion sensor Open
View article: Integrated transcriptomic analysis identifies coordinated responses to nitrogen and phosphate deficiency in rice
Integrated transcriptomic analysis identifies coordinated responses to nitrogen and phosphate deficiency in rice Open
Nitrogen (N) and phosphorus (P) are two primary components of fertilizers for crop production. Coordinated acquisition and utilization of N and P are crucial for plants to achieve nutrient balance and optimal growth in a changing rhizosphe…
View article: Root‐secreted peptide OsPEP1 regulates primary root elongation in rice
Root‐secreted peptide OsPEP1 regulates primary root elongation in rice Open
Summary Hormone‐like signaling peptides play essential roles in plant growth and development; however, few peptides regulating root development have been identified in rice ( Oryza sativa ). Here, we combined liquid chromatography–tandem m…
View article: <scp>CRD</scp>1, an Xpo1 domain protein, regulates mi<scp>RNA</scp> accumulation and crown root development in rice
<span>CRD</span>1, an Xpo1 domain protein, regulates mi<span>RNA</span> accumulation and crown root development in rice Open
Summary Crown root (CR) is the main component of the fibrous root system in cereal crops, but the molecular mechanism underlying CR development is still unclear. Here, we isolated the crown root defect 1 ( crd1 ) mutant from ethyl methane …
View article: OsSPL3, an SBP-Domain Protein, Regulates Crown Root Development in Rice
OsSPL3, an SBP-Domain Protein, Regulates Crown Root Development in Rice Open
The major root system of cereals consists of crown roots (or adventitious roots), which are important for anchoring plants in the soil and for water and nutrient uptake. However, the molecular basis of crown root formation is largely unkno…
View article: Rice SPX6 negatively regulates the phosphate starvation response through suppression of the transcription factor PHR2
Rice SPX6 negatively regulates the phosphate starvation response through suppression of the transcription factor PHR2 Open
Summary Phosphorus (P) is an essential macronutrient for plant growth and development, but the molecular mechanism determining how plants sense external inorganic phosphate (Pi) levels and reprogram transcriptional and adaptive responses i…
View article: Heterologous Expression and Functional Analysis of Rice GLUTAMATE RECEPTOR-LIKE Family Indicates its Role in Glutamate Triggered Calcium Flux in Rice Roots
Heterologous Expression and Functional Analysis of Rice GLUTAMATE RECEPTOR-LIKE Family Indicates its Role in Glutamate Triggered Calcium Flux in Rice Roots Open
View article: LIGHT-INDUCED RICE1 Regulates Light-Dependent Attachment of LEAF-TYPE FERREDOXIN-NADP<sup>+</sup> OXIDOREDUCTASE to the Thylakoid Membrane in Rice and Arabidopsis
LIGHT-INDUCED RICE1 Regulates Light-Dependent Attachment of LEAF-TYPE FERREDOXIN-NADP<sup>+</sup> OXIDOREDUCTASE to the Thylakoid Membrane in Rice and Arabidopsis Open
LIR1 (LIGHT-INDUCED RICE1) encodes a 13-kD, chloroplast-targeted protein containing two nearly identical motifs of unknown function. LIR1 is present in the genomes of vascular plants, mosses, liverworts, and algae, but not in cyanobacteria…
View article: Additional file 3: of Heterologous Expression and Functional Analysis of Rice GLUTAMATE RECEPTOR-LIKE Family Indicates its Role in Glutamate Triggered Calcium Flux in Rice Roots
Additional file 3: of Heterologous Expression and Functional Analysis of Rice GLUTAMATE RECEPTOR-LIKE Family Indicates its Role in Glutamate Triggered Calcium Flux in Rice Roots Open
The information of OsGLR genes in rice. (XLSX 12 kb)
View article: Additional file 10: of Heterologous Expression and Functional Analysis of Rice GLUTAMATE RECEPTOR-LIKE Family Indicates its Role in Glutamate Triggered Calcium Flux in Rice Roots
Additional file 10: of Heterologous Expression and Functional Analysis of Rice GLUTAMATE RECEPTOR-LIKE Family Indicates its Role in Glutamate Triggered Calcium Flux in Rice Roots Open
The sequences of primers used in this research. (XLSX 13 kb)
View article: Integrative Comparison of the Role of the PHOSPHATE RESPONSE1 Subfamily in Phosphate Signaling and Homeostasis in Rice
Integrative Comparison of the Role of the PHOSPHATE RESPONSE1 Subfamily in Phosphate Signaling and Homeostasis in Rice Open
Phosphorus (P), an essential macronutrient for all living cells, is indispensable for agricultural production. Although Arabidopsis (Arabidopsis thaliana) PHOSPHATE RESPONSE1 (PHR1) and its orthologs in other species have been shown to fun…
View article: Aequorin-based luminescence imaging reveals differential calcium signalling responses to salt and reactive oxygen species in rice roots
Aequorin-based luminescence imaging reveals differential calcium signalling responses to salt and reactive oxygen species in rice roots Open
It is well established that both salt and reactive oxygen species (ROS) stresses are able to increase the concentration of cytosolic free Ca(2+) ([Ca(2+)]i), which is caused by the flux of calcium (Ca(2+)). However, the differences between…