Yongjing Ni
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View article: Genome-Wide Identification of 13 miR5200 Loci in Wheat and Investigation of Their Regulatory Roles Under Stress
Genome-Wide Identification of 13 miR5200 Loci in Wheat and Investigation of Their Regulatory Roles Under Stress Open
Background/Objectives: miR5200 is miRNA unique to Poaceae plants. Induced under short-day conditions, it modulates flowering time by regulating the florigen FT gene expression. However, to date, the genetic locus responsible for mature miR…
View article: Evolutionary and functional diversification of the DOG gene family in wheat (Triticum aestivum L.) and their roles in seed dormancy
Evolutionary and functional diversification of the DOG gene family in wheat (Triticum aestivum L.) and their roles in seed dormancy Open
View article: QTL mapping for leaf rust resistance in a recombinant inbred line population from the cross of wheat cultivars Zhongmai 578/Jimai 22
QTL mapping for leaf rust resistance in a recombinant inbred line population from the cross of wheat cultivars Zhongmai 578/Jimai 22 Open
Leaf rust is a highly destructive disease that poses a significant threat to both the yield and quality of wheat. Identification of genetic loci can aid in enhancing leaf rust resistance in wheat breeding. In the present study, 262 recombi…
View article: Genetic Mapping by 55K Single-Nucleotide Polymorphism Array Reveals Candidate Genes for Tillering Trait in Wheat Mutant dmc
Genetic Mapping by 55K Single-Nucleotide Polymorphism Array Reveals Candidate Genes for Tillering Trait in Wheat Mutant dmc Open
Background: The tiller number is a key agronomic trait for increasing the yield potential of wheat (Triticum aestivum L.). A number of quantitative trait loci (QTLs) and key genes controlling tillering have been identified, but the regulat…
View article: <i>Tae-miR396b</i> regulates <i>TaGRFs</i> in spikes of three wheat spike mutants
<i>Tae-miR396b</i> regulates <i>TaGRFs</i> in spikes of three wheat spike mutants Open
Tillering and spike differentiation are key agronomic traits for wheat ( Triticum aestivum L.) production. Numerous studies have shown that miR396 and growth-regulating factor genes ( GRFs ) are involved in growth and development of differ…
View article: Cloning and Expression Analysis of the Transcription Factor Tabhlh35
Cloning and Expression Analysis of the Transcription Factor Tabhlh35 Open
View article: Peer Review #1 of "Wheat gibberellin oxidase genes and their functions in regulating tillering (v0.2)"
Peer Review #1 of "Wheat gibberellin oxidase genes and their functions in regulating tillering (v0.2)" Open
Multiple genetic factors control tillering, a key agronomy trait for wheat (Triticum aestivum L.) yield .Previously, we reported a dwarf-monoculm mutant (dmc) derived from wheat cultivar Guomai 301, and found that the contents of gibberell…
View article: Wheat gibberellin oxidase genes and their functions in regulating tillering
Wheat gibberellin oxidase genes and their functions in regulating tillering Open
Multiple genetic factors control tillering, a key agronomy trait for wheat ( Triticum aestivum L.) yield. Previously, we reported a dwarf-monoculm mutant ( dmc ) derived from wheat cultivar Guomai 301, and found that the contents of gibber…
View article: Peer Review #2 of "Wheat gibberellin oxidase genes and their functions in regulating tillering (v0.1)"
Peer Review #2 of "Wheat gibberellin oxidase genes and their functions in regulating tillering (v0.1)" Open
Multiple genetic factors control tillering, a key agronomy trait for wheat (Triticum aestivum L.) yield .Previously, we reported a dwarf-monoculm mutant (dmc) derived from wheat cultivar Guomai 301, and found that the contents of gibberell…
View article: Peer Review #1 of "Wheat gibberellin oxidase genes and their functions in regulating tillering (v0.1)"
Peer Review #1 of "Wheat gibberellin oxidase genes and their functions in regulating tillering (v0.1)" Open
Multiple genetic factors control tillering, a key agronomy trait for wheat (Triticum aestivum L.) yield .Previously, we reported a dwarf-monoculm mutant (dmc) derived from wheat cultivar Guomai 301, and found that the contents of gibberell…
View article: Key <i>auxin response factor</i> (ARF) genes constraining wheat tillering of mutant <i>dmc</i>
Key <i>auxin response factor</i> (ARF) genes constraining wheat tillering of mutant <i>dmc</i> Open
Tillering ability is a key agronomy trait for wheat ( Triticum aestivum L.) production. Studies on a dwarf monoculm wheat mutant ( dmc ) showed that ARF11 played an important role in tillering of wheat. In this study, a total of 67 ARF fam…
View article: Peer Review #2 of "Key auxin response factor (ARF) genes constraining wheat tillering of mutant dmc (v0.1)"
Peer Review #2 of "Key auxin response factor (ARF) genes constraining wheat tillering of mutant dmc (v0.1)" Open
Tillering ability is a key agronomy trait for wheat ( Triticum aestivum L.) production
View article: Peer Review #1 of "Key auxin response factor (ARF) genes constraining wheat tillering of mutant dmc (v0.1)"
Peer Review #1 of "Key auxin response factor (ARF) genes constraining wheat tillering of mutant dmc (v0.1)" Open
Tillering ability is a key agronomy trait for wheat ( Triticum aestivum L.) production
View article: Effect of Wide Bed Planting on Dry Matter Accumulation and Translocation of Winter Wheat After Anthesis
Effect of Wide Bed Planting on Dry Matter Accumulation and Translocation of Winter Wheat After Anthesis Open
View article: Heredity and gene mapping of a novel white stripe leaf mutant in wheat
Heredity and gene mapping of a novel white stripe leaf mutant in wheat Open
View article: Key wheat <i>GRF</i> genes constraining wheat tillering of mutant <i>dmc</i>
Key wheat <i>GRF</i> genes constraining wheat tillering of mutant <i>dmc</i> Open
Tillering is a key agronomy trait for wheat ( Triticum aestivum L.) production. Previously, we have reported a dwarf-monoculm wheat mutant ( dmc ) obtained from cultivar Guomai 301 (wild type, WT), and found growth regulating factors (GRFs…
View article: Enhanced Senescence Process is the Major Factor Stopping Spike Differentiation of Wheat Mutant ptsd1
Enhanced Senescence Process is the Major Factor Stopping Spike Differentiation of Wheat Mutant ptsd1 Open
Complete differentiation of the spikes guarantees the final wheat (Triticum aestivum L.) grain yield. A unique wheat mutant that prematurely terminated spike differentiation (ptsd1) was obtained from cultivar Guomai 301 treated with ethyl …
View article: The miRNA–mRNA Networks Involving Abnormal Energy and Hormone Metabolisms Restrict Tillering in a Wheat Mutant dmc
The miRNA–mRNA Networks Involving Abnormal Energy and Hormone Metabolisms Restrict Tillering in a Wheat Mutant dmc Open
Tillers not only determine plant architecture but also influence crop yield. To explore the miRNA regulatory network restraining tiller development in a dwarf-monoculm wheat mutant (dmc) derived from Guomai 301 (wild type, WT), we employed…
View article: Genetic mapping and expressivity of a wheat multi-pistil gene in mutant 12TP
Genetic mapping and expressivity of a wheat multi-pistil gene in mutant 12TP Open
We identified a wheat (Triticum aestivum L.) multi-pistil mutant from an F2 breeding population in 2012, named 12TP (three pistils in one floret). Genetic analysis showed that one dominant gene locus controlled the multi-pistil trait. Usin…
View article: Quantitative Changes in the Transcription of Phytohormone-Related Genes: Some Transcription Factors Are Major Causes of the Wheat Mutant dmc Not Tillering
Quantitative Changes in the Transcription of Phytohormone-Related Genes: Some Transcription Factors Are Major Causes of the Wheat Mutant dmc Not Tillering Open
Tiller number is an important agronomic trait for grain yield of wheat (Triticum aestivum L.). A dwarf-monoculm wheat mutant (dmc) was obtained from cultivar Guomai 301 (wild type, WT). Here, we explored the molecular basis for the restrai…
View article: Transcriptome analysis for the restrained stem development of the wheat mutant dms
Transcriptome analysis for the restrained stem development of the wheat mutant dms Open
Wheat (Triticum aestivum L.) stem development significantly affects grain yield. The dwarf plants (D) of wheat mutant dms was less than 30cm. Here, we were to explore the molecular basis for the restrained stem development of the dwarf pla…
View article: Transcriptome analysis for the restrained stem development of the wheat mutant dms
Transcriptome analysis for the restrained stem development of the wheat mutant dms Open
Wheat (Triticum aestivum L.) stem development significantly affects grain yield. The dwarf plants (D) of wheat mutant dms was less than 30cm. Here, we were to explore the molecular basis for the restrained stem development of the dwarf pla…
View article: Identification of a novel male sterile wheat mutant dms conferring dwarf status and multi-pistils
Identification of a novel male sterile wheat mutant dms conferring dwarf status and multi-pistils Open