| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1036370182 |
| P356 | DOI | 10.1038/NATURE01636 |
| P698 | PubMed publication ID | 12815435 |
| P5875 | ResearchGate publication ID | 6950580 |
| P50 | author | Joanne Chory | Q15994359 |
| P2093 | author name string | Pablo D Cerdán | |
| P2860 | cites work | Molecular basis of seasonal time measurement in Arabidopsis | Q28202660 |
| Metal-dependent conformational changes in a recombinant vWF-A domain from human factor B: a solution study by circular dichroism, fourier transform infrared and (1)H NMR spectroscopy. | Q30326649 | ||
| Eukaryotic signalling domain homologues in archaea and bacteria. Ancient ancestry and horizontal gene transfer | Q30715471 | ||
| Control of flowering time | Q33333458 | ||
| Independent regulation of flowering by phytochrome B and gibberellins in Arabidopsis | Q33333920 | ||
| A pair of related genes with antagonistic roles in mediating flowering signals. | Q33334148 | ||
| Activation tagging of the floral inducer FT. | Q33334152 | ||
| Distinct roles of CONSTANS target genes in reproductive development of Arabidopsis | Q33334634 | ||
| Arabidopsis, the Rosetta stone of flowering time? | Q33337109 | ||
| The CONSTANS gene of Arabidopsis promotes flowering and encodes a protein showing similarities to zinc finger transcription factors | Q33366928 | ||
| Photoreceptors and regulation of flowering time | Q33915777 | ||
| Phytochrome photosensory signalling networks | Q34522847 | ||
| Regulation of photoperiodic flowering by Arabidopsis photoreceptors | Q34763818 | ||
| The AGAMOUS-LIKE 20 MADS domain protein integrates floral inductive pathways in Arabidopsis | Q35203368 | ||
| SMART: identification and annotation of domains from signalling and extracellular protein sequences | Q38548521 | ||
| Conservation of glutamine-rich transactivation function between yeast and humans | Q39452069 | ||
| Antagonistic regulation of flowering-time gene SOC1 by CONSTANS and FLC via separate promoter motifs. | Q39647895 | ||
| Independent control of gibberellin biosynthesis and flowering time by the circadian clock in Arabidopsis. | Q52111310 | ||
| Multiple roles of Arabidopsis VRN1 in vernalization and flowering time control. | Q52117381 | ||
| Negative Interference of Endogenous Phytochrome B with Phytochrome A Function in Arabidopsis | Q57831559 | ||
| Phytochrome B and at Least One Other Phytochrome Mediate the Accelerated Flowering Response of Arabidopsis thaliana L. to Low Red/Far-Red Ratio | Q59303665 | ||
| Regulation of phytochrome B signaling by phytochrome A and FHY1 in Arabidopsis thaliana | Q61919026 | ||
| CONSTANS mediates between the circadian clock and the control of flowering in Arabidopsis | Q73808180 | ||
| Phytochrome E influences internode elongation and flowering time in Arabidopsis | Q77183473 | ||
| Keeping up with the neighbours: phytochrome sensing and other signalling mechanisms | Q77739456 | ||
| P433 | issue | 6942 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 881-885 | |
| P577 | publication date | 2003-06-01 | |
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Regulation of flowering time by light quality | |
| P478 | volume | 423 |
| Q43109000 | 14-3-3 isoforms participate in red light signaling and photoperiodic flowering. |
| Q37080481 | 14-3-3 proteins, red light and photoperiodic flowering: A point of connection? |
| Q46902950 | A Shoot-Specific Hypoxic Response of Arabidopsis Sheds Light on the Role of the Phosphate-Responsive Transcription Factor PHOSPHATE STARVATION RESPONSE1. |
| Q35067141 | A downy mildew effector attenuates salicylic acid-triggered immunity in Arabidopsis by interacting with the host mediator complex |
| Q34227033 | A dynamic balance between gene activation and repression regulates the shade avoidance response in Arabidopsis |
| Q33757830 | A high-throughput method for the detection of homologous gene deletions in hexaploid wheat |
| Q41957599 | A reverse genetics approach identifies novel mutants in light responses and anthocyanin metabolism in petunia |
| Q47108873 | Accelerated Generation of Selfed Pure Line Plants for Gene Identification and Crop Breeding |
| Q50635108 | Acceleration of flowering during shade avoidance in Arabidopsis alters the balance between FLOWERING LOCUS C-mediated repression and photoperiodic induction of flowering. |
| Q44943138 | Alterations in the endogenous ascorbic acid content affect flowering time in Arabidopsis |
| Q43550386 | An augmented Arabidopsis phenology model reveals seasonal temperature control of flowering time |
| Q38345601 | Antisense suppression of the Arabidopsis PIF3 gene does not affect circadian rhythms but causes early flowering and increases FT expression |
| Q37622890 | Arabidopsis MSI1 functions in photoperiodic flowering time control |
| Q36009210 | Arabidopsis STO/BBX24 negatively regulates UV-B signaling by interacting with COP1 and repressing HY5 transcriptional activity |
| Q34807892 | Arabidopsis TRANSCURVATA1 encodes NUP58, a component of the nucleopore central channel |
| Q90209098 | AtHSPR is involved in GA- and light intensity-mediated control of flowering time and seed set in Arabidopsis |
| Q37683563 | Axillary bud outgrowth in herbaceous shoots: how do strigolactones fit into the picture? |
| Q36184321 | Bottom-up Assembly of the Phytochrome Network |
| Q50460698 | COP1-mediated ubiquitination of CONSTANS is implicated in cryptochrome regulation of flowering in Arabidopsis. |
| Q35752537 | CRYPTIC PRECOCIOUS/MED12 is a novel flowering regulator with multiple target steps in Arabidopsis |
| Q50472282 | CRYPTOCHROME2 in vascular bundles regulates flowering in Arabidopsis. |
| Q58998086 | Canopy Light Signals and Crop Yield in Sickness and in Health |
| Q50706072 | Characterization of circadian-associated pseudo-response regulators: II. The function of PRR5 and its molecular dissection in Arabidopsis thaliana. |
| Q37281602 | Chloroplast retrograde signal regulates flowering |
| Q64079774 | Chromatin State-Based Analysis of Epigenetic H3K4me3 Marks of in Response to Dark Stress |
| Q45740474 | Cloning and functional analysis of the flowering gene GmSOC1-like, a putative SUPPRESSOR OF OVEREXPRESSION CO1/AGAMOUS-LIKE 20 (SOC1/AGL20) ortholog in soybean |
| Q58755883 | Comparative RNA-Seq analysis on the regulation of cucumber sex differentiation under different ratios of blue and red light |
| Q33564210 | Comparative genomics of flowering time pathways using Brachypodium distachyon as a model for the temperate grasses |
| Q38217404 | Competing neighbors: light perception and root function |
| Q34111221 | Comprehensive analysis of tandem amino acid repeats from ten angiosperm genomes |
| Q31154764 | Conservation of Arabidopsis flowering genes in model legumes |
| Q47585311 | Cross-talk between high light stress and plant defence to the two-spotted spider mite in Arabidopsis thaliana |
| Q39016507 | Development of transgenic crops based on photo-biotechnology. |
| Q46914098 | Disruption of Mediator rescues the stunted growth of a lignin-deficient Arabidopsis mutant. |
| Q24534393 | Distinct roles of GIGANTEA in promoting flowering and regulating circadian rhythms in Arabidopsis |
| Q48172446 | Divergent roles of a pair of homologous jumonji/zinc-finger-class transcription factor proteins in the regulation of Arabidopsis flowering time. |
| Q45927761 | Do PFT1 and HY5 interact in regulation of sulfate assimilation by light in Arabidopsis? |
| Q47917486 | Dynamics of the shade-avoidance response in Arabidopsis. |
| Q37140105 | Ecological modulation of plant defense via phytochrome control of jasmonate sensitivity. |
| Q57139209 | Ectopic expression of an FT homolog from citrus confers an early flowering phenotype on trifoliate orange (Poncirus trifoliata L. Raf.) |
| Q49196042 | Effects of different growth temperatures on growth, development, and plastid pigments metabolism of tobacco (Nicotiana tabacum L.) plants |
| Q38600138 | Emerging Hubs in Plant Light and Temperature Signaling. |
| Q48121126 | Emerging functions of multi-protein complex Mediator with special emphasis on plants |
| Q38215490 | Enhancing the productivity of grasses under high-density planting by engineering light responses: from model systems to feedstocks |
| Q38046204 | Florigenic and antiflorigenic signaling in plants |
| Q50279618 | Flowering and expression of flowering-related genes under long-day conditions with light-emitting diodes |
| Q41847701 | Flowering regulation by tissue specific functions of photoreceptors |
| Q38674682 | Flowering responses to light and temperature |
| Q36412489 | Functional metabolomics as a tool to analyze Mediator function and structure in plants |
| Q46441174 | Functional specialization of Nicotiana attenuata phytochromes in leaf development and flowering time |
| Q52096420 | Gating of the rapid shade-avoidance response by the circadian clock in plants. |
| Q89749024 | Genetic and molecular basis of floral induction in Arabidopsis thaliana |
| Q38328374 | Genome-wide identification of SOC1 and SVP targets during the floral transition in Arabidopsis |
| Q35662467 | Genome-wide identification of microRNAs and their targets in wild type and phyB mutant provides a key link between microRNAs and the phyB-mediated light signaling pathway in rice |
| Q33826338 | Genome-wide mapping of DNase I hypersensitive sites reveals chromatin accessibility changes in Arabidopsis euchromatin and heterochromatin regions under extended darkness |
| Q35232112 | Genome-wide transcriptional profiles of the berry skin of two red grape cultivars (Vitis vinifera) in which anthocyanin synthesis is sunlight-dependent or -independent |
| Q34110855 | GmFT2a, a soybean homolog of FLOWERING LOCUS T, is involved in flowering transition and maintenance |
| Q34578731 | GmGBP1, a homolog of human ski interacting protein in soybean, regulates flowering and stress tolerance in Arabidopsis |
| Q50446313 | HEMERA Couples the Proteolysis and Transcriptional Activity of PHYTOCHROME INTERACTING FACTORs in Arabidopsis Photomorphogenesis. |
| Q51687001 | HSI2 Repressor Recruits MED13 and HDA6 to Down-Regulate Seed Maturation Gene Expression Directly During Arabidopsis Early Seedling Growth. |
| Q40786873 | High-level expression and phosphorylation of phytochrome B modulates flowering time in Arabidopsis |
| Q41465583 | Hormonal Regulation in Shade Avoidance |
| Q33507159 | Identification of flowering genes in strawberry, a perennial SD plant |
| Q26781182 | Importance of Mediator complex in the regulation and integration of diverse signaling pathways in plants |
| Q90179347 | Improvement of alfalfa forage quality and management through the down-regulation of MsFTa1 |
| Q61918995 | Increased phytochrome B alleviates density effects on tuber yield of field potato crops |
| Q35688333 | Induction of flowering by seasonal changes in photoperiod |
| Q28607165 | Integration of Light and Photoperiodic Signaling in Transcriptional Nuclear Foci |
| Q36238760 | Integration of light signaling with photoperiodic flowering and circadian rhythm |
| Q28539189 | Interaction studies of the human and Arabidopsis thaliana Med25-ACID proteins with the herpes simplex virus VP16- and plant-specific Dreb2a transcription factors |
| Q38101140 | Jasmonate signalling: a copycat of auxin signalling? |
| Q84534876 | Knockdown of NtMed8, a Med8-like gene, causes abnormal development of vegetative and floral organs in tobacco (Nicotiana tabacum L.). |
| Q61451537 | LACK OF SYMBIONT ACCOMMODATION controls intracellular symbiont accommodation in root nodule and arbuscular mycorrhizal symbiosis in Lotus japonicus |
| Q48129974 | Light Controls Cytokinin Signaling via Transcriptional Regulation of Constitutively Active Sensor Histidine Kinase CKI1. |
| Q33736349 | Light quality regulates flowering in FvFT1/FvTFL1 dependent manner in the woodland strawberry Fragaria vesca. |
| Q46628440 | Light regulation and daytime dependency of inducible plant defenses in Arabidopsis: phytochrome signaling controls systemic acquired resistance rather than local defense |
| Q37779616 | Light-regulated plant growth and development |
| Q45891687 | MEDIATOR25 acts as an integrative hub for the regulation of jasmonate-responsive gene expression in Arabidopsis. |
| Q39624234 | MPF2-like MADS-box genes affecting expression of SOC1 and MAF1 are recruited to control flowering time |
| Q38077643 | Mechanisms of Mediator complex action in transcriptional activation. |
| Q99557032 | Mediator Subunit MED25 Physically Interacts with PHYTOCHROME INTERACTING FACTOR 4PIF4 to Regulate Shade-induced Hypocotyl Elongation in Tomato |
| Q50658275 | Mediator subunit 16 functions in the regulation of iron uptake gene expression in Arabidopsis. |
| Q34551948 | Mediator subunit18 controls flowering time and floral organ identity in Arabidopsis |
| Q38854881 | Mediator: A key regulator of plant development |
| Q36384957 | MicroRNA319-regulated TCPs interact with FBHs and PFT1 to activate CO transcription and control flowering time in Arabidopsis |
| Q37271780 | Molecular interactions between light and hormone signaling to control plant growth |
| Q34722178 | Molecular locks and keys: the role of small molecules in phytohormone research |
| Q34307942 | Multiple pathways in the decision to flower: enabling, promoting, and resetting |
| Q43532081 | Non-Bonded Interactions Drive the Sub-Picosecond Bilin Photoisomerization in the P(fr) State of Phytochrome Cph1. |
| Q34306002 | Non-recognition-of-BTH4, an Arabidopsis mediator subunit homolog, is necessary for development and response to salicylic acid |
| Q45005162 | PFT1, a transcriptional Mediator complex subunit, controls root hair differentiation through reactive oxygen species (ROS) distribution in Arabidopsis |
| Q42015655 | PFT1, the MED25 subunit of the plant Mediator complex, promotes flowering through CONSTANS dependent and independent mechanisms in Arabidopsis. |
| Q50457007 | PHYTOCHROME AND FLOWERING TIME1/MEDIATOR25 Regulates Lateral Root Formation via Auxin Signaling in Arabidopsis |
| Q37276764 | PHYTOCHROME-DEPENDENT LATE-FLOWERING accelerates flowering through physical interactions with phytochrome B and CONSTANS. |
| Q93133611 | PIF transcription factors link a neighbor threat cue to accelerated reproduction in Arabidopsis |
| Q47827399 | Papillae formation on trichome cell walls requires the function of the mediator complex subunit Med25. |
| Q41894165 | Pathogen and circadian controlled 1 (PCC1) protein is anchored to the plasma membrane and interacts with subunit 5 of COP9 signalosome in Arabidopsis. |
| Q48079827 | Pea LATE BLOOMER1 is a GIGANTEA ortholog with roles in photoperiodic flowering, deetiolation, and transcriptional regulation of circadian clock gene homologs |
| Q46953867 | Photobiological interactions of blue light and photosynthetic photon flux: effects of monochromatic and broad-spectrum light sources. |
| Q89745970 | Photosynthetic characteristics and chloroplast ultrastructure of welsh onion (Allium fistulosum L.) grown under different LED wavelengths |
| Q50763207 | Phytochrome B in the mesophyll delays flowering by suppressing FLOWERING LOCUS T expression in Arabidopsis vascular bundles. |
| Q58799448 | Phytochrome B1-dependent control of SP5G transcription is the basis of the night break and red to far-red light ratio effects in tomato flowering |
| Q38234059 | Phytochrome regulation of plant immunity in vegetation canopies |
| Q39933186 | Phytochrome signaling mechanism |
| Q35710519 | Phytochrome signaling mechanisms |
| Q36301356 | Phytochrome-imposed oscillations in PIF3 protein abundance regulate hypocotyl growth under diurnal light/dark conditions in Arabidopsis |
| Q36128002 | Phytochromes and shade-avoidance responses in plants |
| Q90435680 | Pivotal Roles of Cryptochromes 1a and 2 in Tomato Development and Physiology |
| Q38546777 | Plant Mediator complex and its critical functions in transcription regulation |
| Q48362347 | Plant-plant interactions influence developmental phase transitions, grain productivity and root system architecture in Arabidopsis via auxin and PFT1/MED25 signalling. |
| Q45158656 | Proteasome-mediated turnover of Arabidopsis MED25 is coupled to the activation of FLOWERING LOCUS T transcription |
| Q50746266 | RED AND FAR-RED INSENSITIVE 2, a RING-domain zinc finger protein, mediates phytochrome-controlled seedling deetiolation responses. |
| Q41480091 | REF4 and RFR1, subunits of the transcriptional coregulatory complex mediator, are required for phenylpropanoid homeostasis in Arabidopsis |
| Q27650264 | Rapid Synthesis of Auxin via a New Tryptophan-Dependent Pathway Is Required for Shade Avoidance in Plants |
| Q27318562 | Red Light-Mediated Degradation of CONSTANS by the E3 Ubiquitin Ligase HOS1 Regulates Photoperiodic Flowering in Arabidopsis |
| Q50672060 | Red sky in the morning, shepherd's warning. |
| Q53612627 | Redox regulation of the MED28 and MED32 mediator subunits is important for development and senescence. |
| Q50639775 | Regulation of CONSTANS and FLOWERING LOCUS T expression in response to changing light quality. |
| Q37494394 | Regulation of flowering time in Arabidopsis by K homology domain proteins |
| Q34598683 | Remote sensing of future competitors: impacts on plant defenses |
| Q33347058 | SHB1 plays dual roles in photoperiodic and autonomous flowering |
| Q90726889 | Selection of candidate genes controlling veraison time in grapevine through integration of meta-QTL and transcriptomic data |
| Q34717556 | Sexual dimorphism floral microRNA profiling and target gene expression in andromonoecious poplar (Populus tomentosa). |
| Q34274679 | Shade avoidance |
| Q35601692 | Shade avoidance components and pathways in adult plants revealed by phenotypic profiling. |
| Q49830415 | Silencing SlMED18, tomato Mediator subunit 18 gene, restricts internode elongation and leaf expansion |
| Q64977723 | Sphingomonas sp. Cra20 Increases Plant Growth Rate and Alters Rhizosphere Microbial Community Structure of Arabidopsis thaliana Under Drought Stress. |
| Q38442221 | Stress tolerance to stress escape in plants: role of the OXS2 zinc-finger transcription factor family |
| Q46847385 | Sucrose transporter StSUT4 from potato affects flowering, tuberization, and shade avoidance response. |
| Q90479917 | Suppression of Arabidopsis Mediator Subunit-Encoding MED18 Confers Broad Resistance Against DNA and RNA Viruses While MED25 Is Required for Virus Defense |
| Q41889174 | Suppression of pleiotropic effects of functional cryptochrome genes by Terminal Flower 1. |
| Q48114105 | Suppression of the floral activator Hd3a is the principal cause of the night break effect in rice |
| Q47286749 | TCP transcription factors regulate shade avoidance via directly mediating the expression of both PHYTOCHROME INTERACTING FACTORs and auxin biosynthetic genes. |
| Q46442133 | Temperature-dependent shade avoidance involves the receptor-like kinase ERECTA. |
| Q50463802 | The 14-3-3 Proteins mu and upsilon influence transition to flowering and early phytochrome response |
| Q42479323 | The Arabidopsis Mediator Complex Subunit16 Is a Key Component of Basal Resistance against the Necrotrophic Fungal Pathogen Sclerotinia sclerotiorum. |
| Q42437535 | The Arabidopsis Mediator complex subunits MED14/SWP and MED16/SFR6/IEN1 differentially regulate defense gene expression in plant immune responses |
| Q44962628 | The Arabidopsis Myb genes MYR1 and MYR2 are redundant negative regulators of flowering time under decreased light intensity |
| Q87440912 | The Arabidopsis mediator complex subunit16 positively regulates salicylate-mediated systemic acquired resistance and jasmonate/ethylene-induced defense pathways |
| Q39063558 | The Arabidopsis mediator complex subunits MED16, MED14, and MED2 regulate mediator and RNA polymerase II recruitment to CBF-responsive cold-regulated genes |
| Q50794236 | The Arabidopsis mediator subunit MED25 differentially regulates jasmonate and abscisic acid signaling through interacting with the MYC2 and ABI5 transcription factors. |
| Q35002822 | The Arabidopsis thaliana Med25 mediator subunit integrates environmental cues to control plant development. |
| Q91636323 | The FT-like gene PehFT in petunia responds to photoperiod and light quality but is not the main gene promoting light quality-associated flowering |
| Q89783514 | The Floral Repressor GmFLC-like Is Involved in Regulating Flowering Time Mediated by Low Temperature in Soybean |
| Q46985621 | The GIGANTEA-regulated microRNA172 mediates photoperiodic flowering independent of CONSTANS in Arabidopsis |
| Q50735328 | The GRAS protein SCL13 is a positive regulator of phytochrome-dependent red light signaling, but can also modulate phytochrome A responses. |
| Q33552385 | The MED12-MED13 module of Mediator regulates the timing of embryo patterning in Arabidopsis |
| Q48217716 | The Mediator Complex MED15 Subunit Mediates Activation of Downstream Lipid-Related Genes by the WRINKLED1 Transcription Factor |
| Q28299679 | The Mediator complex and transcription regulation |
| Q51849831 | The Mediator complex in plants: structure, phylogeny, and expression profiling of representative genes in a dicot (Arabidopsis) and a monocot (rice) during reproduction and abiotic stress. |
| Q36119053 | The Mediator complex subunit 8 regulates organ size in Arabidopsis thaliana |
| Q35765183 | The Mediator complex subunits MED25/PFT1 and MED8 are required for transcriptional responses to changes in cell wall arabinose composition and glucose treatment in Arabidopsis thaliana |
| Q39580926 | The Mediator subunit SFR6/MED16 controls defence gene expression mediated by salicylic acid and jasmonate responsive pathways |
| Q39403551 | The Multitalented MEDIATOR25. |
| Q40058405 | The Wheat Mediator Subunit TaMED25 Interacts with the Transcription Factor TaEIL1 to Negatively Regulate Disease Resistance against Powdery Mildew. |
| Q34336727 | The conserved PFT1 tandem repeat is crucial for proper flowering in Arabidopsis thaliana |
| Q33354854 | The florigen genes FT and TSF modulate lateral shoot outgrowth in Arabidopsis thaliana |
| Q36912664 | The function of the Mediator complex in plant immunity |
| Q38009957 | The genetic architecture of flowering time and photoperiod sensitivity in maize as revealed by QTL review and meta analysis |
| Q37894489 | The interplay between light and jasmonate signalling during defence and development |
| Q38597130 | The link between flowering time and stress tolerance |
| Q47422365 | The mediator complex subunit PFT1 interferes with COP1 and HY5 in the regulation of Arabidopsis light signaling |
| Q43293809 | The mediator complex subunit PFT1 is a key regulator of jasmonate-dependent defense in Arabidopsis |
| Q42098464 | The nature of floral signals in Arabidopsis. I. Photosynthesis and a far-red photoresponse independently regulate flowering by increasing expression of FLOWERING LOCUS T (FT). |
| Q43248304 | The nature of floral signals in Arabidopsis. II. Roles for FLOWERING LOCUS T (FT) and gibberellin |
| Q50491972 | The phytochrome-interacting vascular plant one-zinc finger1 and VOZ2 redundantly regulate flowering in Arabidopsis. |
| Q37913048 | The plant Mediator and its role in noncoding RNA production |
| Q92026233 | The plant Mediator complex and its role in jasmonate signaling |
| Q42594268 | The role of BoFLC2 in cauliflower (Brassica oleracea var. botrytis L.) reproductive development |
| Q34626491 | The role of Mediator in small and long noncoding RNA production in Arabidopsis thaliana. |
| Q46914491 | The role of cryptochrome 2 in flowering in Arabidopsis. |
| Q38654260 | Tissue-specific regulation of flowering by photoreceptors. |
| Q57166686 | Transcriptome Analysis of Four Mediator Tail Mutants Reveals Overlapping and Unique Functions in Gene Regulation |
| Q33362616 | Transcriptome Profiling of Tiller Buds Provides New Insights into PhyB Regulation of Tillering and Indeterminate Growth in Sorghum. |
| Q33934599 | Transcriptomic, proteomic and metabolomic analysis of UV-B signaling in maize |
| Q58776834 | Using light to improve commercial value |
| Q42198363 | VP16 fusion induces the multiple-knockout phenotype of redundant transcriptional repressors partly by Med25-independent mechanisms in Arabidopsis |
| Q33351472 | WEREWOLF, a regulator of root hair pattern formation, controls flowering time through the regulation of FT mRNA stability |
| Q60428836 | Weed presence altered biotic stress and light signaling in maize even when weeds were removed early in the critical weed-free period |
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