The present study was to test the hypothesis that the plant growth retardants chlorocholine chloride(CCC) and paclobutrazol(PBZ)could improve the carbohydrate accumulation in lily bulbs by enhancing photosynthetic cap...The present study was to test the hypothesis that the plant growth retardants chlorocholine chloride(CCC) and paclobutrazol(PBZ)could improve the carbohydrate accumulation in lily bulbs by enhancing photosynthetic capacity and changing endogenous hormones.Plants of Lilium Oriental hybrids'Sorbonne'were treated with a foliar spray of CCC or PBZ(both at 300 mg/L)solution,at six weeks after planting(6 WAP).The morphological parameters,endogenous hormone contents(gibberellic acid(GA),abscisic acid(ABA),and indole-3-acetic acid(IAA)),and carbohydrate contents were measured from 6 to 18 WAP,at 2-week intervals.The results showed that CCC increased the biomass of leaves and stems which might produce more photoassimilates available for transportation and utilization.However,PBZ treatment suppressed vegetative growth and favored photoassimilate transportation into bulbs.A slight delay of bud and anthesis formation was observed in both treated plants.CCC and PBZ treatments substantially enhanced the sucrose contents in leaves probably due to the increase of chlorophyll contents.Treatment with CCC or PBZ decreased GA but increased IAA contents in lily bulbs which might stimulate starch accumulation and formation of new scales.Our experiment suggested that CCC or PBZ treatment is an effective method to promote carbohydrate accumulation in lily bulbs.展开更多
This study aimed to investigate the mechanism underlying primary bud necrosis(PBN)in grapevines.PBN is a physiological disorder that significantly reduces grape yields.The four varieties,‘Shine Muscat’,‘Summer Blac...This study aimed to investigate the mechanism underlying primary bud necrosis(PBN)in grapevines.PBN is a physiological disorder that significantly reduces grape yields.The four varieties,‘Shine Muscat’,‘Summer Black’,‘Ruby Seedless’,and‘Hutai 8’,were investigated and found to exhibit differences in PBN,which was positively correlated with the speed and extent of inflorescence differentiation.Among them,‘Summer Black’was most susceptible to PBN.Treatment with gibberellin acid 3(GA_(3))notably accelerated and exacerbated PBN in‘Summer Black’,whereas the endogenous gibberellin(GA)inhibitor chlorocholine chloride(CCC)delayed or prevented PBN onset.Histological observations of dormant bud tissues revealed PBN progression in stages,starting with the expansion of cells in the necrosis zone(NZ),followed by cell wall irregularities and collapse,buckling cell layer formation,and subsequent cell separation.In the water control group,NZ mainly occurred in the bud scale layer.However,by the second week after GA_(3) treatment,primary buds visibly elongated,and NZ was formed at multiple locations along the primary buds.Transcriptomic analyses revealed significant regulation of stress-related genes,including reactive oxygen species(ROS)and heat-shock proteins(HSPs),following GA_(3) treatment.Genes related to jasmonic acid(JA)biosynthesis and signaling pathways were upregulated after week 2,whereas CCC treatment led to the downregulation of these genes.Furthermore,genes associated with cations such as calcium,iron,and copper showed significant changes across all transcriptome samples.Genes associated with the degradation of cell membranes and cell walls were upregulated in samples treated with GA_(3) and water control.Overall,these findings suggested that GA_(3) promoted PBN by enhancing JA synthesis and modulating the cell necrosis pathway via JA signaling.This process involved ROS accumulation and activation of cation pathways,leading to endomembrane and cell wall degradation,cell rupture,and,ultimately,PBN development.展开更多
文摘The present study was to test the hypothesis that the plant growth retardants chlorocholine chloride(CCC) and paclobutrazol(PBZ)could improve the carbohydrate accumulation in lily bulbs by enhancing photosynthetic capacity and changing endogenous hormones.Plants of Lilium Oriental hybrids'Sorbonne'were treated with a foliar spray of CCC or PBZ(both at 300 mg/L)solution,at six weeks after planting(6 WAP).The morphological parameters,endogenous hormone contents(gibberellic acid(GA),abscisic acid(ABA),and indole-3-acetic acid(IAA)),and carbohydrate contents were measured from 6 to 18 WAP,at 2-week intervals.The results showed that CCC increased the biomass of leaves and stems which might produce more photoassimilates available for transportation and utilization.However,PBZ treatment suppressed vegetative growth and favored photoassimilate transportation into bulbs.A slight delay of bud and anthesis formation was observed in both treated plants.CCC and PBZ treatments substantially enhanced the sucrose contents in leaves probably due to the increase of chlorophyll contents.Treatment with CCC or PBZ decreased GA but increased IAA contents in lily bulbs which might stimulate starch accumulation and formation of new scales.Our experiment suggested that CCC or PBZ treatment is an effective method to promote carbohydrate accumulation in lily bulbs.
基金supported by National Technology System for Grape Industry(Grant No.CARS-29-zp-9)National Key Research and Development Program of China(Grant No.2021YFD1200200)Natural Science Foundation of Hunan Province of China(Grant No.2023JJ50063).
文摘This study aimed to investigate the mechanism underlying primary bud necrosis(PBN)in grapevines.PBN is a physiological disorder that significantly reduces grape yields.The four varieties,‘Shine Muscat’,‘Summer Black’,‘Ruby Seedless’,and‘Hutai 8’,were investigated and found to exhibit differences in PBN,which was positively correlated with the speed and extent of inflorescence differentiation.Among them,‘Summer Black’was most susceptible to PBN.Treatment with gibberellin acid 3(GA_(3))notably accelerated and exacerbated PBN in‘Summer Black’,whereas the endogenous gibberellin(GA)inhibitor chlorocholine chloride(CCC)delayed or prevented PBN onset.Histological observations of dormant bud tissues revealed PBN progression in stages,starting with the expansion of cells in the necrosis zone(NZ),followed by cell wall irregularities and collapse,buckling cell layer formation,and subsequent cell separation.In the water control group,NZ mainly occurred in the bud scale layer.However,by the second week after GA_(3) treatment,primary buds visibly elongated,and NZ was formed at multiple locations along the primary buds.Transcriptomic analyses revealed significant regulation of stress-related genes,including reactive oxygen species(ROS)and heat-shock proteins(HSPs),following GA_(3) treatment.Genes related to jasmonic acid(JA)biosynthesis and signaling pathways were upregulated after week 2,whereas CCC treatment led to the downregulation of these genes.Furthermore,genes associated with cations such as calcium,iron,and copper showed significant changes across all transcriptome samples.Genes associated with the degradation of cell membranes and cell walls were upregulated in samples treated with GA_(3) and water control.Overall,these findings suggested that GA_(3) promoted PBN by enhancing JA synthesis and modulating the cell necrosis pathway via JA signaling.This process involved ROS accumulation and activation of cation pathways,leading to endomembrane and cell wall degradation,cell rupture,and,ultimately,PBN development.
