Rose is a highly significant ornamental plant with substantial edible and medicinal value,cultivated worldwide primarily for perfume production.Recently,Rosa yangii,a new species found in northwestern Yunnan,China,has...Rose is a highly significant ornamental plant with substantial edible and medicinal value,cultivated worldwide primarily for perfume production.Recently,Rosa yangii,a new species found in northwestern Yunnan,China,has drawn attention due to its strong sweet scented flowers.In this study,the floral components of R.yangii were extracted at different flowering stages using solid phase micro extraction(SPME)and analyzed through gas chromatography-mass spectrometry(GC-MS).A total of 131 volatile organic compounds(VOCs)were detected from R.yangii,including 69 odor compounds.The production and release of floral VOCs were the highest during the initial-open stage,making it the most suitable time for harvesting as a significant number of floral components were synthesized and preserved.The analysis of the odor activity values(OAV)highlighted several key aromatic ingredients of R.yangii,such as eugenol,methyleugenol,benzeneacetaldehyde and phenylethylalcohol,heptanal,decanal,(E)-2-hexen-1-yl acetate,caryophyllene,and others.Metabolome and time-order gene co-expression networks(TO-GCN)revealed that VOCs and benzenoids/phenylpropanoids,along with associated genes,played a pivotal role in the overall floral regulatory network of R.yangii.MYB and bHLH were identified as the essential regulatory factors governing the regulation of eugenol synthase(EGS)and isoeugenol synthase(IGS),consequently influencing the sweet scent of R.yangii.The findings of this study provide a scientific foundation for enhancing fragrance through molecular breeding of ornamental plants.Furthermore,the study facilitated the development and utilization of this new plant’s essential oil material in various industries,including food storage,aromatherapy,cosmetic,and perfumery.展开更多
Rose is one of the most important ornamental and economic plants in the world.Modern rose cultivars are primarily tetraploid,and during meiosis,they may exhibit double reduction or preferential chromosome pairing.Ther...Rose is one of the most important ornamental and economic plants in the world.Modern rose cultivars are primarily tetraploid,and during meiosis,they may exhibit double reduction or preferential chromosome pairing.Therefore,the construction of a high density genetic map of tetraploid rose is both challenging and instructive.In this study,a tetraploid rose population was used to conduct a genetic analysis using genome sequencing.A total of 17382 single nucleotide polymorphism(SNP)markers were selected from 2308042 detected SNPs.Combined with 440 previously developed simple sequence repeats(SSR)and amplified fragment length polymorphism(AFLP)markers,a marker dosage of 6885 high quality markers was successfully assigned by GATK software in the tetraploid model.These markers were used in the construction of a high density genetic map,containing the expected seven linkage groups with 6842 markers,a total map length of 1158.9 c M,and an average inter-marker distance of 0.18 c M.Quantitative trait locus(QTL)analysis was subsequently performed to characterize the genetic architecture of petal number and flower diameter.One major QTL(qpnum-3-1)was detected for petal number in three consecutive years,which explained 20.18–22.11%of the variation in petal number.Four QTLs were detected for flower diameter;the main locus,qfdia-2-2,was identified in two consecutive years.Our results will benefit the molecular marker-assisted breeding of modern rose cultivars.In addition,this study provides a guide for the genetic and QTL analysis of autotetraploid plants using sequencing-based genotyping methods.展开更多
Five kinds of agricultural castoffs, such as sawdust and powder of coconut coir, were used as growing media to substitute the peat moss for potted Cyclamen percicum. It showed that most of the substitute media could f...Five kinds of agricultural castoffs, such as sawdust and powder of coconut coir, were used as growing media to substitute the peat moss for potted Cyclamen percicum. It showed that most of the substitute media could fit for the growth of the root system without disturbing the spatial development of the root. The root activities of the plants in substitute media were all higher or not significantly lower than that in the contrast peat moss (PM). The substitute media might not make adverse effects on the biosynthesis of chlorophyll of C. percicum leaves, and the nutrient components contained in the substitute media itself was none of the content of mineral elements in the leaves. The morphological indexes of C. percicum plants growing in the substitute media except in the powder of coconut coir (PCC) were all better than those in the contrast PM. The synthetically evaluation index of the plant showed that the sawdust, the powder of maize core, the powder of soybean stalk, the powder of peanut hull could take place the peat moss totally in C. percicum industrialization cultivation.展开更多
基金supported by the Beijing High-Precision Discipline Project,Discipline of Ecological Environment of Urban and Rural Human Settlements and the National Key R&D Program of China(2019YFD1000400)。
文摘Rose is a highly significant ornamental plant with substantial edible and medicinal value,cultivated worldwide primarily for perfume production.Recently,Rosa yangii,a new species found in northwestern Yunnan,China,has drawn attention due to its strong sweet scented flowers.In this study,the floral components of R.yangii were extracted at different flowering stages using solid phase micro extraction(SPME)and analyzed through gas chromatography-mass spectrometry(GC-MS).A total of 131 volatile organic compounds(VOCs)were detected from R.yangii,including 69 odor compounds.The production and release of floral VOCs were the highest during the initial-open stage,making it the most suitable time for harvesting as a significant number of floral components were synthesized and preserved.The analysis of the odor activity values(OAV)highlighted several key aromatic ingredients of R.yangii,such as eugenol,methyleugenol,benzeneacetaldehyde and phenylethylalcohol,heptanal,decanal,(E)-2-hexen-1-yl acetate,caryophyllene,and others.Metabolome and time-order gene co-expression networks(TO-GCN)revealed that VOCs and benzenoids/phenylpropanoids,along with associated genes,played a pivotal role in the overall floral regulatory network of R.yangii.MYB and bHLH were identified as the essential regulatory factors governing the regulation of eugenol synthase(EGS)and isoeugenol synthase(IGS),consequently influencing the sweet scent of R.yangii.The findings of this study provide a scientific foundation for enhancing fragrance through molecular breeding of ornamental plants.Furthermore,the study facilitated the development and utilization of this new plant’s essential oil material in various industries,including food storage,aromatherapy,cosmetic,and perfumery.
基金the National Natural Science Foundation of China(31600565)the Fundamental Research Funds for the Central Public Welfare Research Institutes,China(ZZ13-YQ-053)+1 种基金the Special Fund for Beijing Common Construction Project,ChinaDr.Peter M.Bourke from Plant Breeding,Wageningen University&Research,The Netherlands,was partly funded through the TKI polyploids project(BO-26.03-009-004 and BO-50-002-022)。
文摘Rose is one of the most important ornamental and economic plants in the world.Modern rose cultivars are primarily tetraploid,and during meiosis,they may exhibit double reduction or preferential chromosome pairing.Therefore,the construction of a high density genetic map of tetraploid rose is both challenging and instructive.In this study,a tetraploid rose population was used to conduct a genetic analysis using genome sequencing.A total of 17382 single nucleotide polymorphism(SNP)markers were selected from 2308042 detected SNPs.Combined with 440 previously developed simple sequence repeats(SSR)and amplified fragment length polymorphism(AFLP)markers,a marker dosage of 6885 high quality markers was successfully assigned by GATK software in the tetraploid model.These markers were used in the construction of a high density genetic map,containing the expected seven linkage groups with 6842 markers,a total map length of 1158.9 c M,and an average inter-marker distance of 0.18 c M.Quantitative trait locus(QTL)analysis was subsequently performed to characterize the genetic architecture of petal number and flower diameter.One major QTL(qpnum-3-1)was detected for petal number in three consecutive years,which explained 20.18–22.11%of the variation in petal number.Four QTLs were detected for flower diameter;the main locus,qfdia-2-2,was identified in two consecutive years.Our results will benefit the molecular marker-assisted breeding of modern rose cultivars.In addition,this study provides a guide for the genetic and QTL analysis of autotetraploid plants using sequencing-based genotyping methods.
文摘Five kinds of agricultural castoffs, such as sawdust and powder of coconut coir, were used as growing media to substitute the peat moss for potted Cyclamen percicum. It showed that most of the substitute media could fit for the growth of the root system without disturbing the spatial development of the root. The root activities of the plants in substitute media were all higher or not significantly lower than that in the contrast peat moss (PM). The substitute media might not make adverse effects on the biosynthesis of chlorophyll of C. percicum leaves, and the nutrient components contained in the substitute media itself was none of the content of mineral elements in the leaves. The morphological indexes of C. percicum plants growing in the substitute media except in the powder of coconut coir (PCC) were all better than those in the contrast PM. The synthetically evaluation index of the plant showed that the sawdust, the powder of maize core, the powder of soybean stalk, the powder of peanut hull could take place the peat moss totally in C. percicum industrialization cultivation.