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#jipb — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #jipb, aggregated by home.social.

  1. 🦠It takes a village--a #bacteria village!
    🔖Keystone taxa of phyllosphere microbiome confer resistance to #citrus bacterial canker in pomelo.
    🍃Read this important new study by Yuan et al. right here in #JIPB!
    doi.org/10.1111/jipb.70273
    @WileyLifeSci
    #PlantSci #plant #pathology #botany

  2. 🦠It takes a village--a #bacteria village!
    🔖Keystone taxa of phyllosphere microbiome confer resistance to #citrus bacterial canker in pomelo.
    🍃Read this important new study by Yuan et al. right here in #JIPB!
    doi.org/10.1111/jipb.70273
    @WileyLifeSci
    #PlantSci #plant #pathology #botany

  3. #Soybeans are a valuable food source, but soy-based #consumer products can have undesirable beany or grassy flavors.
    Xie et al. show that #gene editing may be an effective solution in their new study published in #JIPB.
    doi.org/10.1111/jipb.70282
    @WileyLifeSci
    #PlantSci #AgTech #botany

  4. #Soybeans are a valuable food source, but soy-based #consumer products can have undesirable beany or grassy flavors.
    Xie et al. show that #gene editing may be an effective solution in their new study published in #JIPB.
    doi.org/10.1111/jipb.70282
    @WileyLifeSci
    #PlantSci #AgTech #botany

  5. The #Arabidopsis chaperonin CCT complex subunit CCT8 coordinates #cell division in the root meristem by regulating SEC31B abundance--modulating COPII-mediated trafficking of PIN proteins to support root #growth.
    doi.org/10.1111/jipb.70277
    @WileyLifeSci
    #PlantSci #JIPB #development #bot

  6. The #Arabidopsis chaperonin CCT complex subunit CCT8 coordinates #cell division in the root meristem by regulating SEC31B abundance--modulating COPII-mediated trafficking of PIN proteins to support root #growth.
    doi.org/10.1111/jipb.70277
    @WileyLifeSci
    #PlantSci #JIPB #development #bot

  7. This Commentary explores work by Liao et al. on the role of NITROGEN LIMITATION ADAPTATION (NLA) in #plant cold tolerance, framing it within the broader context of #ClimateChange and #nutrient constraints.
    doi.org/10.1111/jipb.70255
    @WileyLifeSci
    #PlantSci #SciComm #JIPB #AgTech

  8. This Commentary explores work by Liao et al. on the role of NITROGEN LIMITATION ADAPTATION (NLA) in #plant cold tolerance, framing it within the broader context of #ClimateChange and #nutrient constraints.
    doi.org/10.1111/jipb.70255
    @WileyLifeSci
    #PlantSci #SciComm #JIPB #AgTech

  9. This Commentary explores work by Liao et al. on the role of NITROGEN LIMITATION ADAPTATION (NLA) in #plant cold tolerance, framing it within the broader context of #ClimateChange and #nutrient constraints.
    doi.org/10.1111/jipb.70255
    @WileyLifeSci
    #PlantSci #SciComm #JIPB #AgTech

  10. This Commentary explores work by Liao et al. on the role of NITROGEN LIMITATION ADAPTATION (NLA) in #plant cold tolerance, framing it within the broader context of #ClimateChange and #nutrient constraints.
    doi.org/10.1111/jipb.70255
    @WileyLifeSci
    #PlantSci #SciComm #JIPB #AgTech

  11. This Commentary explores work by Liao et al. on the role of NITROGEN LIMITATION ADAPTATION (NLA) in #plant cold tolerance, framing it within the broader context of #ClimateChange and #nutrient constraints.
    doi.org/10.1111/jipb.70255
    @WileyLifeSci
    #PlantSci #SciComm #JIPB #AgTech

  12. A new study in #JIPB reveals how bollworms suppress #plant defenses.
    Wang et al. report #cotton bollworm effector HYPB1 targets dirigent protein GhDIR15, suppressing lignin #biosynthesis and weakening cell wall-mediated defense.
    doi.org/10.1111/jipb.70270
    @WileyLifeSci
    #PlantSci #botany

  13. A new study in #JIPB reveals how bollworms suppress #plant defenses.
    Wang et al. report #cotton bollworm effector HYPB1 targets dirigent protein GhDIR15, suppressing lignin #biosynthesis and weakening cell wall-mediated defense.
    doi.org/10.1111/jipb.70270
    @WileyLifeSci
    #PlantSci #botany

  14. The #ClimateEmergency is driving urgent #conservation efforts to meet 30x30 targets.
    This study integrates several types of data for 603 Rhododendron species in China, highlighting significant conservation hotspots.
    doi.org/10.1111/jipb.70253
    @WileyLifeSci
    #PlantSci #JIPB #botany #OpenAccess

  15. The #ClimateEmergency is driving urgent #conservation efforts to meet 30x30 targets.
    This study integrates several types of data for 603 Rhododendron species in China, highlighting significant conservation hotspots.
    doi.org/10.1111/jipb.70253
    @WileyLifeSci
    #PlantSci #JIPB #botany #OpenAccess

  16. The #ClimateEmergency is driving urgent #conservation efforts to meet 30x30 targets.
    This study integrates several types of data for 603 Rhododendron species in China, highlighting significant conservation hotspots.
    doi.org/10.1111/jipb.70253
    @WileyLifeSci
    #PlantSci #JIPB #botany #OpenAccess

  17. The #ClimateEmergency is driving urgent #conservation efforts to meet 30x30 targets.
    This study integrates several types of data for 603 Rhododendron species in China, highlighting significant conservation hotspots.
    doi.org/10.1111/jipb.70253
    @WileyLifeSci
    #PlantSci #JIPB #botany #OpenAccess

  18. The #ClimateEmergency is driving urgent #conservation efforts to meet 30x30 targets.
    This study integrates several types of data for 603 Rhododendron species in China, highlighting significant conservation hotspots.
    doi.org/10.1111/jipb.70253
    @WileyLifeSci
    #PlantSci #JIPB #botany #OpenAccess

  19. Ever wonder how ubiquitination regulates plant receptor kinases?🤔

    Then do we ever have a review for you!🫵

    Zhou et al. look at what's new and next with the ubiquitin code of receptor kinases in #plants.

    doi.org/10.1111/jipb.70267
    @WileyLifeSci
    #PlantSci #JIPB #signaling #botany

  20. Ever wonder how ubiquitination regulates plant receptor kinases?🤔

    Then do we ever have a review for you!🫵

    Zhou et al. look at what's new and next with the ubiquitin code of receptor kinases in #plants.

    doi.org/10.1111/jipb.70267
    @WileyLifeSci
    #PlantSci #JIPB #signaling #botany

  21. OsKOL4 and OsKOL5, five-gene tandem arrays encoding members of the ent-kaurene oxidase family, play divergent roles in momilactone metabolism, but both act in the production of #antifungal and #antibacterial phytoalexins.
    doi.org/10.1111/jipb.70262
    @WileyLifeSci
    #PlantSci #JIPB #botany #OpenAccess

  22. OsKOL4 and OsKOL5, five-gene tandem arrays encoding members of the ent-kaurene oxidase family, play divergent roles in momilactone metabolism, but both act in the production of #antifungal and #antibacterial phytoalexins.
    doi.org/10.1111/jipb.70262
    @WileyLifeSci
    #PlantSci #JIPB #botany #OpenAccess

  23. Global #ClimateChange threatens #agricultural productivity, especially as elevated temperatures impact #rice grain filling.
    New work by Li et al. reports that intron editing of RISBZ1 confers thermotolerance for grain filling.
    doi.org/10.1111/jipb.70274
    @WileyLifeSci
    #PlantSci #JIPB #botany

  24. Global #ClimateChange threatens #agricultural productivity, especially as elevated temperatures impact #rice grain filling.
    New work by Li et al. reports that intron editing of RISBZ1 confers thermotolerance for grain filling.
    doi.org/10.1111/jipb.70274
    @WileyLifeSci
    #PlantSci #JIPB #botany

  25. Global #ClimateChange threatens #agricultural productivity, especially as elevated temperatures impact #rice grain filling.
    New work by Li et al. reports that intron editing of RISBZ1 confers thermotolerance for grain filling.
    doi.org/10.1111/jipb.70274
    @WileyLifeSci
    #PlantSci #JIPB #botany

  26. Global #ClimateChange threatens #agricultural productivity, especially as elevated temperatures impact #rice grain filling.
    New work by Li et al. reports that intron editing of RISBZ1 confers thermotolerance for grain filling.
    doi.org/10.1111/jipb.70274
    @WileyLifeSci
    #PlantSci #JIPB #botany

  27. Global #ClimateChange threatens #agricultural productivity, especially as elevated temperatures impact #rice grain filling.
    New work by Li et al. reports that intron editing of RISBZ1 confers thermotolerance for grain filling.
    doi.org/10.1111/jipb.70274
    @WileyLifeSci
    #PlantSci #JIPB #botany

  28. 🌽Improving quantitative traits in #maize requires new breeding strategies.
    🍿Liu et al report that the optimized Cas-SF01 #gene-editing toolbox shortens flowering timing in commercial maize inbred JING724.
    doi.org/10.1111/jipb.70264
    @WileyLifeSci
    #PlantSci #JIPB #Agtech #CropSci #botany

  29. 🌽Improving quantitative traits in #maize requires new breeding strategies.
    🍿Liu et al report that the optimized Cas-SF01 #gene-editing toolbox shortens flowering timing in commercial maize inbred JING724.
    doi.org/10.1111/jipb.70264
    @WileyLifeSci
    #PlantSci #JIPB #Agtech #CropSci #botany

  30. New work on vesicle trafficking in relation to CO2 reveals that CO2-sensitive K+ channel traffic affects stomata and whole-plant water use, providing a novel perspective on #plant responses to #ClimateChange.
    🔓Free access!⬇️
    doi.org/10.1111/jipb.70269
    @WileyLifeSci
    #PlantSci #JIPB #botany

  31. New work on vesicle trafficking in relation to CO2 reveals that CO2-sensitive K+ channel traffic affects stomata and whole-plant water use, providing a novel perspective on #plant responses to #ClimateChange.
    🔓Free access!⬇️
    doi.org/10.1111/jipb.70269
    @WileyLifeSci
    #PlantSci #JIPB #botany

  32. New work on vesicle trafficking in relation to CO2 reveals that CO2-sensitive K+ channel traffic affects stomata and whole-plant water use, providing a novel perspective on #plant responses to #ClimateChange.
    🔓Free access!⬇️
    doi.org/10.1111/jipb.70269
    @WileyLifeSci
    #PlantSci #JIPB #botany

  33. Haploid induction is an essential component of doubled haploid #plant breeding.
    Li et al. report that editing the #cucumber peroxidase #gene CsPOD7 establishes a haploid inducer line capable of inducing maternal haploids.
    doi.org/10.1111/jipb.70276
    @WileyLifeSci
    #PlantSci #JIPB #botany

  34. Haploid induction is an essential component of doubled haploid #plant breeding.
    Li et al. report that editing the #cucumber peroxidase #gene CsPOD7 establishes a haploid inducer line capable of inducing maternal haploids.
    doi.org/10.1111/jipb.70276
    @WileyLifeSci
    #PlantSci #JIPB #botany

  35. Single-cell multiomics is transforming #crop research by revealing how distinct cell types shape #development, stress responses, and #evolution.
    Wang et al. highlight new tools and their potential to improve #plant breeding.
    doi.org/10.1111/jipb.70272
    @WileyLifeSci
    #JIPB #PlantSci #botany

  36. Single-cell multiomics is transforming #crop research by revealing how distinct cell types shape #development, stress responses, and #evolution.
    Wang et al. highlight new tools and their potential to improve #plant breeding.
    doi.org/10.1111/jipb.70272
    @WileyLifeSci
    #JIPB #PlantSci #botany

  37. 🚨Special issue alert!

    Our latest focus issue, "Advances in Plant Natural Products: Biosynthesis, Bioengineering, and Applications," is out now!

    Find it here: onlinelibrary.wiley.com/toc/17

    @WileyLifeSci
    #PlantScience #JIPB #biosynthesis #bioengineering #botany

  38. 🚨Special issue alert!

    Our latest focus issue, "Advances in Plant Natural Products: Biosynthesis, Bioengineering, and Applications," is out now!

    Find it here: onlinelibrary.wiley.com/toc/17

    @WileyLifeSci
    #PlantScience #JIPB #biosynthesis #bioengineering #botany

  39. Crocin carotenoids have many #medicinal benefits, but production is tricky.
    Wang et al. report that #metabolic engineering may be the solution, producing a #rice germplasm that biosynthesizes crocin and other #carotenoids.

    doi.org/10.1111/jipb.70246
    @WileyLifeSci
    #JIPB #PlantSci #botany

  40. Crocin carotenoids have many #medicinal benefits, but production is tricky.
    Wang et al. report that #metabolic engineering may be the solution, producing a #rice germplasm that biosynthesizes crocin and other #carotenoids.

    doi.org/10.1111/jipb.70246
    @WileyLifeSci
    #JIPB #PlantSci #botany

  41. In low-nitrogen conditions, #plants prioritize root biomass, compromising shoot #growth and photosynthetic capacity.
    This commentary discusses the role of the transcription factor WRINKLED1a to coordinate nitrogen-responsive root and shoot growth in #rice, improving nitrogen-use efficiency and yield stability.
    doi.org/10.1111/jipb.70247 @WileyLifeSci #JIPB #PlantSci #CropSci #botany #FreeAccess

  42. In low-nitrogen conditions, #plants prioritize root biomass, compromising shoot #growth and photosynthetic capacity.
    This commentary discusses the role of the transcription factor WRINKLED1a to coordinate nitrogen-responsive root and shoot growth in #rice, improving nitrogen-use efficiency and yield stability.
    doi.org/10.1111/jipb.70247 @WileyLifeSci #JIPB #PlantSci #CropSci #botany #FreeAccess

  43. Leaves of the popular ornamental #kale turn white under cold conditions...but how?
    Gong et al. define a molecular pathway linking cold perception to transcriptional #regulation and genetically controlled #leaf color variation.
    doi.org/10.1111/jipb.70250
    @WileyLifeSci
    #PlantSci #JIPB #botany

  44. Leaves of the popular ornamental #kale turn white under cold conditions...but how?
    Gong et al. define a molecular pathway linking cold perception to transcriptional #regulation and genetically controlled #leaf color variation.
    doi.org/10.1111/jipb.70250
    @WileyLifeSci
    #PlantSci #JIPB #botany

  45. ⏱️#BriefComms!
    ✂️Exo-Cas12i2 v1-driven MITE manipulation enables precise regulation of #genes involved in gibberellin-mediated #cell elongation and #root ethylene responses to generate favorable #agronomic traits.
    🧬doi.org/10.1111/jipb.70254
    @WileyLifeSci
    #PlantSci #JIPB #CropSci #botany #FreeAccess

  46. ⏱️#BriefComms!
    ✂️Exo-Cas12i2 v1-driven MITE manipulation enables precise regulation of #genes involved in gibberellin-mediated #cell elongation and #root ethylene responses to generate favorable #agronomic traits.
    🧬doi.org/10.1111/jipb.70254
    @WileyLifeSci
    #PlantSci #JIPB #CropSci #botany #FreeAccess

  47. In our latest #NewTech feature, Cheng et al. demonstrate the successful use of a Cas12a base editor for trait #development, and report improved Cas12a CBEs and ABEs for precise base editing in #plants.
    doi.org/10.1111/jipb.70249
    @WileyLifeSci
    #PlantSci #JIPB #CropSci #GeneEditing #botany

  48. In our latest #NewTech feature, Cheng et al. demonstrate the successful use of a Cas12a base editor for trait #development, and report improved Cas12a CBEs and ABEs for precise base editing in #plants.
    doi.org/10.1111/jipb.70249
    @WileyLifeSci
    #PlantSci #JIPB #CropSci #GeneEditing #botany

  49. Peng et al. characterize #Arabidopsis SEC23A, a COPII complex component that mediates membrane trafficking b/t the endoplasmic reticulum and the Golgi apparatus, as a novel interactor of SIGMA FACTOR-BINDING PROTEIN 1 (SIB1).
    doi.org/10.1111/jipb.70251
    @WileyLifeSci
    #PlantSci #JIPB #botany #OpenAccess

  50. Peng et al. characterize #Arabidopsis SEC23A, a COPII complex component that mediates membrane trafficking b/t the endoplasmic reticulum and the Golgi apparatus, as a novel interactor of SIGMA FACTOR-BINDING PROTEIN 1 (SIB1).
    doi.org/10.1111/jipb.70251
    @WileyLifeSci
    #PlantSci #JIPB #botany #OpenAccess