#fruitdevelopment search results

🌸☕ A new review breaks down the full #phenology of Coffea arabica — detailing #flowering, #fruitdevelopment, and the factors shaping productivity and quality. A valuable guide for improving agronomy and sustainability. Read more 👉 brnw.ch/21wXues #cropdevelopment

PfPOS3, an LBD gene, regulates fruit weight by controlling cell size & number in Physalis. Overexpression shows promise for breeding. #PlantScience #FruitDevelopment @OxfordJournals Details: doi.org/10.1093/hr/uha…

CmFUL1 found as key negative regulator of melon fruit length via GWAS, affecting breeding! #MelonGenetics #FruitDevelopment @OxfordJournals Details: doi.org/10.1093/hr/uha…

#VegetableRes New study identifies the SmeFL gene, a key regulator of eggplant fruit length through cell expansion, advancing crop breeding. #Eggplant @MaximumAcademic @NewPhyt #FruitDevelopment Details: maxapress.com/article/doi/10…

#SeedBio Arabidopsis studies unlock fruit/gynoecium GRNs; hormone crosstalk shapes their development. @MaximumAcademic #FruitDevelopment #ArabidopsisGRN @NewPhyt Details: maxapress.com/article/doi/10…

🌱 New review article published! 📖 #Brassinosteroids: Biosynthesis, Signaling, and Hormonal Crosstalk as Related to Fruit Yield and Quality ✍️ Divya Aryal & Fernando Alferez 🔗 brnw.ch/21wTyOO #PlantHormones #FruitDevelopment #YieldQuality #HormonalCrosstalk

Study reveals PbDELLA-PbMYB56-PbCYP78A6 module in GA-induced pear parthenocarpy, insights into seedless fruit formation. #Parthenocarpy #GAsignaling #FruitDevelopment @OxfordJournals Details: doi.org/10.1093/hr/uha…

SlRBP1 regulates tomato fruit size via SlFBA7 & SlGPIMT. New insights into RNA-binding proteins' role! #FruitDevelopment #RNABindingProteins #MolecularMechanisms @OxfordJournals Details: doi.org/10.1093/hr/uha…

Enhance your orchard’s productivity with Global BioAg Innovations’ natural solutions for fruit development. Boost size, taste, and yield with our sustainable biofertilizers. Visit Now:- bioaginnovations.com/innovations/ #FruitDevelopment #GlobalBioAg #SustainableFarming #CropInnovation

कटहल के नवजात फल क्यों गिरते हैं? जानें वैज्ञानिक कारण और समाधान hindi.krishijagran.com/farm-activitie… #farmingtips #jackfruitcare #fruitdevelopment #AgriculturalResearch #FarmingSolutions #cropprotection

#CallforReading 🌶️ Transcriptomic and Metabolomic Analyses Reveal Differences in Flavonoid Synthesis During #FruitDevelopment of Capsicum frutescens pericarp ✍️ by Yinxin Yang et al. 👇 Check it out for more: doi.org/10.3390/agricu… #AgricultureMdpi

#SeedBio Advancements in Arabidopsis fruit development reveal gene networks and hormone crosstalk crucial for tissue differentiation, opening doors to further research. @PlantSciRes #FruitDevelopment #Arabidopsis #PlantGenetics Details: maxapress.com/article/doi/10…

3/4 🌱 Morphological and transcriptomic analysis highlights key genes, including CAD, COMT, LOX, and MADS-box, crucial in the 5 developmental stages of winged fruits. SEM and paraffin sections show the fruit wings originate from enlarged bracts. #FruitDevelopment #Transcriptomics

Changes in sugar and acid components contents and #comprehensivequalityevaluation during #fruitdevelopment of #Orah with different #rootstocks. Read #OpenAccess: scienceopen.com/document?vid=4… #solublesugars #organicacids #qualityevaluation @Science_Open

#SeedBio #FruitDevelopment #Arabidopsis #PlantGenetics Advancements in Arabidopsis fruit development reveal gene networks and hormone crosstalk crucial for tissue differentiation, opening doors to further research. @MaximumAcademic Details: maxapress.com/article/doi/10…

#VegetableRes CsCRC gene network, involving auxin and key transcription factors, regulates cucumber fruit length by promoting cell expansion and elongation. @MaximumAcademic @NewPhyt @sci_plant @PlantPhys #Cucumber #FruitDevelopment Details: maxapress.com/article/doi/10…

Chromatin structure regulates strawberry ripening! #HistoneMod #FruitDevelopment @OxfordJournals Details:doi.org/10.1093/hr/uha…

🍎🌿 Did you know that long non-coding RNAs (lncRNAs) play a crucial role in fruit development? Specifically, in apple plants! 🍏 Research has shown that lncRNAs regulate gene expression, influencing fruit growth, ripening, and quality. #lncRNA #Apple #FruitDevelopment

#FruitRes Eggplant fruit length: QTL-seq & fine-mapping reveal SmeFL as a key regulator of cell expansion. @HortiPlant #PlantScience #FruitDevelopment Details: maxapress.com/article/doi/10…

Regulation of carotenoid and chlorophyll pools in hesperidia, anatomically unique fruits found only in Citrus #PlantSci #FruitDevelopment buff.ly/3y0E0t8

METHYLTRANSFERASE1 and ripening modulate vivipary during tomato fruit development #Epigenetics #RNA #FruitDevelopment #PlantBiology doi.org/10.1104/pp.20.…

🌸☕ A new review breaks down the full #phenology of Coffea arabica — detailing #flowering, #fruitdevelopment, and the factors shaping productivity and quality. A valuable guide for improving agronomy and sustainability. Read more 👉 brnw.ch/21wXues #cropdevelopment

NEWS & VIEWS: Sweet or Sour? Important Link between Nitrate Signaling and Malate Accumulation Identified in Apple #FruitDevelopment #BiFC #PlantBiology #PlantSci buff.ly/2Ysb92a

The Tomato Guanylate-Binding Protein SlGBP1 Enables Fruit Tissue Differentiation by Maintaining Endopolyploid Cells in a Non-proliferative State #FruitDevelopment #Fruit #PlantBiology #PlantSci buff.ly/2Ptj3Dc

Triple-localized WHIRLY2 influences leaf senescence and silique development via carbon allocation #FruitDevelopment #Ethylene #Jasmonates #Mitochondria #SWEETfamily #PlantBiology #PlantSci buff.ly/2FhmsTK

Plant Physiology: Triple-localized WHIRLY2 influences leaf senescence and silique development via carbon allocation #FruitDevelopment #Ethylene #Jasmonates #Mitochondria #SWEETfamily #PlantBiology #PlantSci buff.ly/2ZLDFvW

🍎 #fruitdevelopment #applefarm #randomshot

Plant Physiology NEWS & VIEWS: Sweet or Sour? Important Link between Nitrate Signaling and Malate Accumulation Identified in Apple #FruitDevelopment #BiFC #PlantBiology #PlantSci buff.ly/2EiGnRL

Control of Grain Size and Weight by the GSK2-LARGE1/OML4 Pathway in Rice #CropYield #FruitDevelopment#PlantBiology doi.org/10.1105/tpc.19…

CmFUL1 found as key negative regulator of melon fruit length via GWAS, affecting breeding! #MelonGenetics #FruitDevelopment @OxfordJournals Details: doi.org/10.1093/hr/uha…

IN BRIEF: When Less is More: GSK2-OML4 Module Negatively Regulates Grain Size in Rice #CropYield #FruitDevelopment #PlantBiology doi.org/10.1105/tpc.20…

In situ hybridization running, again ! #fruitdevelopment #arabidopsisthaliana

PfPOS3, an LBD gene, regulates fruit weight by controlling cell size & number in Physalis. Overexpression shows promise for breeding. #PlantScience #FruitDevelopment @OxfordJournals Details: doi.org/10.1093/hr/uha…

Chromatin structure regulates strawberry ripening! #HistoneMod #FruitDevelopment @OxfordJournals Details:doi.org/10.1093/hr/uha…

SlRBP1 regulates tomato fruit size via SlFBA7 & SlGPIMT. New insights into RNA-binding proteins' role! #FruitDevelopment #RNABindingProteins #MolecularMechanisms @OxfordJournals Details: doi.org/10.1093/hr/uha…

The Plant Cell IN BRIEF now via Plantae.org: When Less is More: GSK2-OML4 Module Negatively Regulates Grain Size in Rice #CropYield #FruitDevelopment#PlantBiology doi.org/10.1105/tpc.20…

The Plant Cell IN BRIEF: Tempting Fate: A Guanylate-Binding Protein Maintains Tomato Fruit Cell Differentiation #FruitDevelopment #Fruit #Tomato #PlantBiology #PlantSci @RachelMShahan buff.ly/2EbUGro

IN BRIEF: Tempting Fate: A Guanylate-Binding Protein Maintains Tomato Fruit Cell Differentiation #FruitDevelopment #Fruit #Tomato #PlantBiology #PlantSci @RachelMShahan buff.ly/3iF0nNd

BTB-TAZ domain protein MdBT2 modulates malate accumulation and vacuolar acidification in response to nitrate #FruitDevelopment #BiFC #PlantBiology doi.org/10.1104/pp.20.…