| P2093 | author name string | Xi Chen | |
| | Xiaoying Wang | |
| | Zhipeng Liu | |
| | Kai Xiao | |
| | Qianqian Bai | |
| | Guiqing Shi | |
| P2860 | cites work | miRNA regulation of nutrient homeostasis in plants | Q27692488 |
| | Origin, biogenesis, and activity of plant microRNAs | Q28236171 |
| | MicroRNAS and their regulatory roles in plants | Q28237934 |
| | The application of GMOs in agriculture and in food production for a better nutrition: two different scientific points of view | Q28706345 |
| | Overexpression of miR156 in switchgrass (Panicum virgatum L.) results in various morphological alterations and leads to improved biomass production | Q28714261 |
| | Regulation of flowering time and floral organ identity by a MicroRNA and its APETALA2-like target genes | Q29617907 |
| | Control of leaf morphogenesis by microRNAs | Q29618435 |
| | MAPMAN: a user-driven tool to display genomics data sets onto diagrams of metabolic pathways and other biological processes | Q30004199 |
| | Knock out of the PHOSPHATE 2 Gene TaPHO2-A1 Improves Phosphorus Uptake and Grain Yield under Low Phosphorus Conditions in Common Wheat. | Q30382619 |
| | Nitrate Starvation Induced Changes in Root System Architecture, Carbon:Nitrogen Metabolism, and miRNA Expression in Nitrogen-Responsive Wheat Genotypes | Q30990429 |
| | Novel and stress-regulated microRNAs and other small RNAs from Arabidopsis | Q31095568 |
| | Abiotic stress miRNomes in the Triticeae. | Q31132918 |
| | History and current status of wheat miRNAs using next-generation sequencing and their roles in development and stress | Q31168041 |
| | Regulation of plant growth by cytokinin | Q33335831 |
| | Deep sequencing of small RNA libraries reveals dynamic regulation of conserved and novel microRNAs and microRNA-stars during silkworm development | Q33525389 |
| | CrMAPK3 regulates the expression of iron-deficiency-responsive genes in Chlamydomonas reinhardtii | Q33697254 |
| | Whole-genome discovery of miRNAs and their targets in wheat (Triticum aestivum L.). | Q33721954 |
| | Photosynthetic Properties and Potentials for Improvement of Photosynthesis in Pale Green Leaf Rice under High Light Conditions | Q33813198 |
| | A conserved MYB transcription factor involved in phosphate starvation signaling both in vascular plants and in unicellular algae | Q34087322 |
| | Massive analysis of rice small RNAs: mechanistic implications of regulated microRNAs and variants for differential target RNA cleavage | Q34096555 |
| | microRNA-directed cleavage and translational repression of the copper chaperone for superoxide dismutase mRNA in Arabidopsis. | Q34096567 |
| | Validation and characterization of Citrus sinensis microRNAs and their target genes. | Q34268282 |
| | PHOSPHATE ACQUISITION. | Q34304435 |
| | Sorting the wheat from the chaff: identifying miRNAs in genomic survey sequences of Triticum aestivum chromosome 1AL. | Q34345313 |
| | Unique and conserved microRNAs in wheat chromosome 5D revealed by next-generation sequencing | Q34921251 |
| | Uncovering small RNA-mediated responses to phosphate deficiency in Arabidopsis by deep sequencing | Q35009425 |
| | Characterization of phosphorus-regulated miR399 and miR827 and their isomirs in barley under phosphorus-sufficient and phosphorus-deficient conditions | Q35065496 |
| | New wheat microRNA using whole-genome sequence | Q35084176 |
| | MicroRNA399 is involved in multiple nutrient starvation responses in rice | Q35211760 |
| | Identification and characterization of microRNAs from tree peony (Paeonia ostii) and their response to copper stress | Q35557101 |
| | Phosphate transport and homeostasis in Arabidopsis | Q35625632 |
| | The MTP1 promoters from Arabidopsis halleri reveal cis-regulating elements for the evolution of metal tolerance | Q36319315 |
| | MicroRNA319-regulated TCPs interact with FBHs and PFT1 to activate CO transcription and control flowering time in Arabidopsis | Q36384957 |
| | Phosphate transporters from the higher plant Arabidopsis thaliana | Q36833531 |
| | Signaling components involved in plant responses to phosphate starvation | Q37247337 |
| | Signaling network in sensing phosphate availability in plants | Q37849310 |
| | Phosphate nutrition: improving low-phosphate tolerance in crops | Q38192036 |
| | Stress responsive miRNAs and isomiRs in cereals | Q38434583 |
| | Root precursors of microRNAs in wild emmer and modern wheats show major differences in response to drought stress | Q38460703 |
| | Durum wheat miRNAs in response to nitrogen starvation at the grain filling stage | Q38622156 |
| | The contrasting microRNA content of a drought tolerant and a drought susceptible wheat cultivar | Q38748112 |
| | Dissecting miRNAs in Wheat D Genome Progenitor, Aegilops tauschii | Q38865461 |
| | Regulation of barley miRNAs upon dehydration stress correlated with target gene expression | Q39119950 |
| | Enhanced drought and heat stress tolerance of tobacco plants with ectopically enhanced cytokinin oxidase/dehydrogenase gene expression. | Q39200949 |
| | MicroRNA and Transcription Factor: Key Players in Plant Regulatory Network | Q39265458 |
| | Photosynthesis, Light Use Efficiency, and Yield of Reduced-Chlorophyll Soybean Mutants in Field Conditions. | Q39470303 |
| | MicroRNAs involving in cold, wounding and salt stresses in Triticum aestivum L. | Q39572364 |
| | Analysis of cis-acting regulatory elements of Respiratory burst oxidase homolog (Rboh) gene families in Arabidopsis and rice provides clues for their diverse functions | Q39824234 |
| | Wheat miRNA ancestors: evident by transcriptome analysis of A, B, and D genome donors | Q39874103 |
| | Phosphate starvation responses and gibberellic acid biosynthesis are regulated by the MYB62 transcription factor in Arabidopsis | Q43183766 |
| | Subgenomic analysis of microRNAs in polyploid wheat | Q44771782 |
| | Arabidopsis WRKY45 transcription factor activates PHOSPHATE TRANSPORTER1;1 expression in response to phosphate starvation | Q44899633 |
| | Regulatory network of microRNA399 and PHO2 by systemic signaling | Q45066451 |
| | A miRNA involved in phosphate-starvation response in Arabidopsis | Q46219280 |
| | Impact of transcriptional, ABA-dependent, and ABA-independent pathways on wounding regulation of RNS1 expression. | Q46496833 |
| | TaZAT8, a C2H2-ZFP type transcription factor gene in wheat, plays critical roles in mediating tolerance to Pi deprivation through regulating P acquisition, ROS homeostasis and root system establishment | Q46546310 |
| | Identification of nutrient-responsive Arabidopsis and rapeseed microRNAs by comprehensive real-time polymerase chain reaction profiling and small RNA sequencing | Q48069811 |
| | Regulation of phosphate homeostasis by MicroRNA in Arabidopsis | Q48106220 |
| | Mild osmotic stress promotes 4-methoxy indolyl-3-methyl glucosinolate biosynthesis mediated by the MKK9-MPK3/MPK6 cascade in Arabidopsis | Q48280967 |
| | Function of wheat phosphate transporter gene TaPHT2;1 in Pi translocation and plant growth regulation under replete and limited Pi supply conditions. | Q50485271 |
| | Gradual increase of miR156 regulates temporal expression changes of numerous genes during leaf development in rice. | Q51822041 |
| | Regulated expression of Arabidopsis phosphate transporters. | Q52114878 |
| | PHO2, microRNA399, and PHR1 define a phosphate-signaling pathway in plants. | Q53624117 |
| | Ethylene signalling is involved in regulation of phosphate starvation-induced gene expression and production of acid phosphatases and anthocyanin in Arabidopsis. | Q54629693 |
| | Cereal phosphate transporters associated with the mycorrhizal pathway of phosphate uptake into roots. | Q54646179 |
| | pho2, a phosphate overaccumulator, is caused by a nonsense mutation in a microRNA399 target gene | Q63641826 |
| | Expression analysis suggests novel roles for members of the Pht1 family of phosphate transporters in Arabidopsis | Q74581859 |
| | WRKY75 transcription factor is a modulator of phosphate acquisition and root development in Arabidopsis | Q79830535 |
| | Phosphate transport in Arabidopsis: Pht1;1 and Pht1;4 play a major role in phosphate acquisition from both low- and high-phosphate environments | Q80377207 |
| | Promoter analysis of the barley Pht1;1 phosphate transporter gene identifies regions controlling root expression and responsiveness to phosphate deprivation | Q80999209 |
| P433 | issue | 9 | |
| P304 | page(s) | 1293-1309 | |
| P577 | publication date | 2018-06-09 | |
| P1433 | published in | Plant Cell Reports | Q7201465 |
| P1476 | title | TaMIR1139: a wheat miRNA responsive to Pi-starvation, acts a critical mediator in modulating plant tolerance to Pi deprivation | |
| P478 | volume | 37 | |