Zhiqiang Pang
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View article: Probiotic model for studying rhizosphere interactions of root exudates and the functional microbiome
Probiotic model for studying rhizosphere interactions of root exudates and the functional microbiome Open
Root exudates are important mediators of plant–microbiome interactions. Recent pioneering studies on various aerial root plants, including cereals, have shown that carbohydrate-rich mucilage can enrich diazotrophs and increase host nitroge…
View article: Microbiota-mediated nitrogen fixation and microhabitat homeostasis in aerial root-mucilage
Microbiota-mediated nitrogen fixation and microhabitat homeostasis in aerial root-mucilage Open
View article: Additional file 3 of Microbiota-mediated nitrogen fixation and microhabitat homeostasis in aerial root-mucilage
Additional file 3 of Microbiota-mediated nitrogen fixation and microhabitat homeostasis in aerial root-mucilage Open
Additional file 3: Method S1. Carbohydrate and widely targeted metabolites profiling. Method S2. Plant Genome and transcriptome analysis.
View article: Additional file 2 of Microbiota-mediated nitrogen fixation and microhabitat homeostasis in aerial root-mucilage
Additional file 2 of Microbiota-mediated nitrogen fixation and microhabitat homeostasis in aerial root-mucilage Open
Additional file 2: Table S1. Relative content of different compounds and carbohydrates of aerial root mucilage (ARM) and underground root exudate (URE) Table S2. Fungal and bacterial OTU of different samples. Table S3. Differentially bacte…
View article: Additional file 1 of Microbiota-mediated nitrogen fixation and microhabitat homeostasis in aerial root-mucilage
Additional file 1 of Microbiota-mediated nitrogen fixation and microhabitat homeostasis in aerial root-mucilage Open
Additional file 1: Figure S1. Aerial root mucilage (ARM) and underground root exudate (URE) compound of H. rotundifolia. Figure S2. Fungal diversity and community of aerial root mucilage (mucilage) and underground rhizosphere soil (rhizosp…
View article: Microbiota-mediated nitrogen fixation and homeostasis in aerial root-mucilage
Microbiota-mediated nitrogen fixation and homeostasis in aerial root-mucilage Open
Plants sustain intimate relationships with diverse microbes. While it is well recognized that these plant-associated microbiota shape individual performance and fitness of host plants, how they exert their function and maintain their homeo…
View article: Multiomics Reveals the Effect of Root Rot on Polygonati Rhizome and Identifies Pathogens and Biocontrol Strain
Multiomics Reveals the Effect of Root Rot on Polygonati Rhizome and Identifies Pathogens and Biocontrol Strain Open
Root (rhizome or tuber) reproduction is the main method for the agricultural cultivation of many important cash crops, and infected crop plants rot, exhibit retarded growth, and experience yield losses. While many studies have investigated…
View article: Linking Plant Secondary Metabolites and Plant Microbiomes: A Review
Linking Plant Secondary Metabolites and Plant Microbiomes: A Review Open
Plant secondary metabolites (PSMs) play many roles including defense against pathogens, pests, and herbivores; response to environmental stresses, and mediating organismal interactions. Similarly, plant microbiomes participate in many of t…
View article: Microbial Diversity of Upland Rice Roots and Their Influence on Rice Growth and Drought Tolerance
Microbial Diversity of Upland Rice Roots and Their Influence on Rice Growth and Drought Tolerance Open
Among abiotic stresses, drought is one of the most important factors limiting plant growth. To increase their drought tolerance and survival, most plants interact directly with a variety of microbes. Upland rice (Oryza sativa L.) is a rice…