Odour of Chrysanthemums is one of the short stories by D. H. Lawrence. The fiction shows how humanity was ruined by bourgeois industrial civilization through the death of a miner. In embedding themes, the narrative te...Odour of Chrysanthemums is one of the short stories by D. H. Lawrence. The fiction shows how humanity was ruined by bourgeois industrial civilization through the death of a miner. In embedding themes, the narrative technique of Odour of Chrysanthemums is worth our attention. This paper is intended to make an analysis of point of view, focalization and symbol in the light of narrative theory.展开更多
The Chrysanthemums is the masterpiece of John Steinbeck, which is considered to be "one of the greatest short stories ever". The story tells the life experiences of an 35-year-old woman named Elisa. In this ...The Chrysanthemums is the masterpiece of John Steinbeck, which is considered to be "one of the greatest short stories ever". The story tells the life experiences of an 35-year-old woman named Elisa. In this novel, the most outstanding writing technique is the use of symbolism. Based on the analysis of the story, this paper aims to analyze how symbols are used to reflect the theme of this novel, which will be of great help o have a better understanding of the theme and the charm of the story.展开更多
Through ecocritical study of Odour of Chrysanthemums,this paper reflects that the industrial civilization leads to damaged nature,distorted humanity and conjugal relation.
Lawrence is a great writer and expert in describing character's inner psychological activity. By analyzing the short story Odour of Chrysanthemums, this paper aims to offer the readers a fresh entry to understand ...Lawrence is a great writer and expert in describing character's inner psychological activity. By analyzing the short story Odour of Chrysanthemums, this paper aims to offer the readers a fresh entry to understand the important role of different kinds of narrative skills on psychological description in Lawrence's novels.展开更多
Chrysanthemums are sensitive to waterlogging stress,and the development of screening methods for tolerant germplasms or genes and the breeding of tolerant new varieties are of great importance in chrysanthemum breedin...Chrysanthemums are sensitive to waterlogging stress,and the development of screening methods for tolerant germplasms or genes and the breeding of tolerant new varieties are of great importance in chrysanthemum breeding.To understand the genetic basis of waterlogging tolerance(WT)in chrysanthemums,we performed a genome-wide association study(GWAS)using 92,811 single nucleotide polymorphisms(SNPs)in a panel of 88 chrysanthemum accessions,including 64 spray cut and 24 disbud chrysanthemums.The results showed that the average MFVW(membership function value of waterlogging)of the disbud type(0.65)was significantly higher than that of the spray type(0.55)at P<0.05,and the MFVW of the Asian accessions(0.65)was significantly higher than that of the European accessions(0.48)at P<0.01.The GWAS performed using the general linear model(GLM)and mixed linear model(MLM)identified 137 and 14 SNP loci related to WT,respectively,and 11 associations were commonly predicted.By calculating the phenotypic effect values for 11 common SNP loci,six highly favorable SNP alleles that explained 12.85—21.85%of the phenotypic variations were identified.Furthermore,the dosage-pyramiding effects of the favorable alleles and the significant linear correlations between the numbers of highly favorable alleles and phenotypic values were identified(r2=0.45;P<0.01).A major SNP locus(Marker6619-75)was converted into a derived cleaved amplified polymorphic sequence(dCAPS)marker that cosegregated with WT with an average efficiency of 78.9%.Finally,four putative candidate genes in the WT were identified via quantitative real-time PCR(qRT-PCR).The results presented in this study provide insights for further research on WT mechanisms and the application of molecular marker-assisted selection(MAS)in chrysanthemum WT breeding programs.展开更多
[Objective]The paper was to preliminarily study the pharmacognosy of three species of chrysanthemums cultivated in Bozhou,and to compare their similarities and differences.[Method]Organs of three species of chrysanthe...[Objective]The paper was to preliminarily study the pharmacognosy of three species of chrysanthemums cultivated in Bozhou,and to compare their similarities and differences.[Method]Organs of three species of chrysanthemum samples were dissected and made into integral slices,and surface morphology of each part was observed microscopically.Powder slices were developed in the same way and observed under a microscope.According to thin layer chromatography(TLC)test(Part I,Appendix VIB,2005 edition),2μL of sample solutions and reference solutions were absorbed respectively,and dripped on the same piece of silica gel G thin layer plate.With petroleum ether-acetone(2∶1)as the developing solvent,samples were developed and then dried.Slices were sprayed with chromogenic agent 2%aluminum trichloride,and examined under UV light at the wavelength of 365 nm.Whether fluorescent spots of the same color were displayed in the position corresponding to the chromatogram of reference solutions were observed.[Result]Non-glandular hairs were found in bract microstructures of three species of chrysanthemums.There were many T-shaped hairs and few multicellular sessile non-glandular hairs.The epidermal cell walls of bracts were parallel straight,and some were rectangular;stomas could be seen everywhere.Only Dendranthema morifolium(Ramat.)Tzvel.‘Boju’cv.nov.and Dendranthema morifolium(Ramat.)Tzvel.‘Da maya’cv.nov.displayed fluorescent spots of the same color in the position corresponding to the chromatogram of reference sample acacetin in TLC test,and the spots of D.morifolium(Ramat.)Tzvel.‘Da maya’cv.nov.were light in color;there were no spots observed in Chrysanthemum morifolium Ramat.[Conclusion]The external characters,internal forms and internal components of D.morifolium(Ramat.)Tzvel.‘Boju’cv.nov.,D.morifolium(Ramat.)Tzvel.‘Da maya’cv.nov.and C.morifolium Ramat are all related to germplasm resources of chrysanthemum species.The contents of acacetin,one of the components of D.morifolium(Ramat.)Tzvel.‘Boju’cv.nov.and D.morifolium(Ramat.)Tzvel.‘Da maya’cv.nov.,remain to be further studied.展开更多
The morphological characteristics and growth habits of medicinal chrysanthemums are described,the cultivation techniques are summarized from the aspects of nursery,transplanting and field management,and the harvest an...The morphological characteristics and growth habits of medicinal chrysanthemums are described,the cultivation techniques are summarized from the aspects of nursery,transplanting and field management,and the harvest and primary processing technology are introduced in detail.展开更多
To realize the robotic harvesting of Hangzhou White Chrysanthemums,the quick recognition and 3D vision localization system for target Chrysanthemums was investigated in this study.The system was comprised of three mai...To realize the robotic harvesting of Hangzhou White Chrysanthemums,the quick recognition and 3D vision localization system for target Chrysanthemums was investigated in this study.The system was comprised of three main stages.Firstly,an end-effector and a simple freedom manipulator with three degrees were designed to meet the quality requirements of harvesting Hangzhou White Chrysanthemums.Secondly,a segmentation based on HSV color space was performed.A fast Fuzzy C-means(FCM)algorithm based on S component was proposed to extract the target image from irrelevant background.Thirdly,binocular stereo vision was used to acquire the target spatial information.According to the shape of Hangzhou White Chrysanthemums,the centroids of stamens were selected as feature points to match in the right and left images.The experimental results showed that the proposed method was able to recognize Hangzhou White Chrysanthemums with the accuracy of 85%.When the distance between target and baseline was 150-450 mm,the errors between the calculated and measured distance were less than 14 mm,which could meet the requirements of the localization accuracy of the harvesting robot.展开更多
Although some species that accumulate only cyanidin(Cy)in nature can produce blue flowers through iron ions,there has been no evidence of blue chrysanthemums being generated in this manner.This study revealed that fla...Although some species that accumulate only cyanidin(Cy)in nature can produce blue flowers through iron ions,there has been no evidence of blue chrysanthemums being generated in this manner.This study revealed that flavonoid extracts from the ray florets of the chrysanthemum cultivar‘Wandai Fengguang’turned blue when exposed to Fe^(3+).Samples that could turn blue were labeled as CB(Cy-determined blue flowers),while samples that did not turn blue were labeled as CN(Cy-determined non-blue flowers).After a series of experiments,a stable screening system was established using flavonoid extracts containing NaAc buffer at pH 5.5 and a total anthocyanin concentration(TAC)of 30 μmol·L^(-1),and the addition of Fe^(3+)from 0 to 0.25 μmol·L^(-1)allowed for the selection of five CB samples from 39 chrysanthemum cultivars.All five CB samples exhibited flower color phenotypes that belonged to Cluster-I with redness(a*)values ranging from 29.03 to 45.99,yellowness(b*)values from-11.31 to 3.77,and brightness(L*)values from 29.07 to 45.99.Additionally,the ratio of TAC to total luteolin concentration(TLC)was found to be a critical factor for distinguishing between CB and CN samples.To realize the desired blue hue in the flavonoid extracts with the participation of Fe^(3+),a TAC to TLC ratio of 2.25 and above is required.Moreover,the protoplasts and ray florets of CB samples that turned blue with the involvement of Fe^(2+)showed great potential for cultivating blue chrysanthemums through ferric-anthocyanin chelate.Overall,this study reveals that blue flowers can be cultivated through the increase in the iron ion concentration,combined with the accumulation of Cy.展开更多
Color fading caused by a decrease in anthocyanin accumulation during the post-flowering stage significantly affects postharvest quality of chrysanthemum.However,the underlying mechanism by which anthocyanin accumulati...Color fading caused by a decrease in anthocyanin accumulation during the post-flowering stage significantly affects postharvest quality of chrysanthemum.However,the underlying mechanism by which anthocyanin accumulation decreases during the post-flowering stage still unclear,which greatly restricts design of molecular breeding in chrysanthemum.Here,a chrysanthemum SG7 R2R3 MYB transcription factor(TF),CmMYB3-like,was identified to have a function in regulating anthocyanin biosynthesis during the post-flowering stage.Quantitative real time PCR(qRT-PCR)assays showed that the expression of CmMYB3-like was gradually downregulated when anthocyanin content increased during the flowering stage and was significantly upregulated during the post-flowering stage.Genetic transformation of chrysanthemum and dual-luciferase assays in N.benthamiana leaves showed that CmMYB3-like suppressed anthocyanin accumulation by inhibiting the transcription of CmCHS and CmANS directly and that of CmF3H indirectly.However,overexpression or suppression of CmMYB3-like did not affect the biosynthesis of flavones or flavonols.Genetic transformation of chrysanthemum revealed that the overexpression of CmMYB3-like inhibited anthocyanin accumulation,but its suppression prevented the decrease in anthocyanin accumulation during the post-flowering stage.Our results revealed a crucial role of CmMYB3-like in regulating the color of petals during the post-flowering stage and provided a target gene for molecular design breeding to improve the postharvest quality of chrysanthemum.展开更多
FLOWERING LOCUS T(FT)is an important factor for integrating flowering signals through the photoperiod pathway,which significantly promotes flowering.Most chrysanthemum varieties are short-day plants,sensitive to the p...FLOWERING LOCUS T(FT)is an important factor for integrating flowering signals through the photoperiod pathway,which significantly promotes flowering.Most chrysanthemum varieties are short-day plants,sensitive to the photoperiod,which limits their ornamental and annual production supply.In this study,we aim to analyze the nutrients and flowering-related genes of chrysanthemums with different photoperiod types and to clone and verify the function of the flowering-related gene CmFT.We found that the formation of floral buds requires the accumulation of starch while consuming soluble sugars and the expression patterns of flowering-related genes GIGANTEA(GI),CONSTANS(CO),and FT in C.morifolium‘Zilian’and C.morifolium‘Zihongtuogui’had a certain synchronization during floral buds differentiation according to our quantitative validation,and the expression levels of CmGI,CmCO and CmFT in C.morifolium‘Zihongtuogui’were higher than those in C.morifolium.‘Zilian’in the later stage of differentiation.CmFT was cloned from photosensitive chrysanthemums-C.morifolium‘Zihongtuogui’and polypeptide alignment and phylogenetic analysis showed that CmFT was clustered in FT-like subfamily.In further functional verification,we obtained two Arabidopsis transgenic lines.Our results showed that CmFT transgenic ft mutant lines can significantly accelerate flowering in Arabidopsis.Thus,we can initially confirm that CmFT plays an important role in promoting flowering,which may be the key reason for the photosensitivity of C.morifolium‘Zihongtuogui’.Overall,the results of this study are of great importance in revealing the flowering mechanism of different photoperiod types of chrysanthemums.展开更多
Chrysanthemum×morifolium is a horticultural crop which plays a vital role in theflower industry with signifi-cant economic value and has a cultivation history of over three thousand years in China.The accumulation ...Chrysanthemum×morifolium is a horticultural crop which plays a vital role in theflower industry with signifi-cant economic value and has a cultivation history of over three thousand years in China.The accumulation of anthocyanins is always affected by light.Here,we revealed that anthocyanin accumulation is highly dependent on light in‘2021135’genotype chrysanthemum,while it is light-independent in‘2001402’genotype chrysanthe-mum.However,no literature has been reported regarding the non-photosensitive chrysanthemum in anthocya-nins light-independent synthesis pathways.Through the phenotype analysis of 44 F1 generations,we found that light-independence is a dominant trait which can be stable inherited by progeny.The transcriptome of the rayflorets of‘2021135’and‘2001402’under light and bagging treatment were sequenced and analyzed.Based on weighted gene co-expression network analysis(WGCNA),K-means analysis,and Real-Time Quantitative Poly-merase Chain Reaction(RT-qPCR)analysis,16 genes were highly correlated with the anthocyanin content.The anthocyanin content of rayflorets treated with different light-quality conditions indicated that blue light signifi-cantly affected anthocyanin accumulations.Through Yeast one-hybrid analysis,CmBIC1.1 and CmBIC1.2 can directly regulate the anthocyanin structural gene CmCHS2.In our study,we revealed the important characteristics of light-independent anthocyanin synthesis in chrysanthemums and screened regulatory factors in light-depen-dent and light-independent anthocyanin synthesis pathways.The results laid the groundwork for subsequent ana-lysis of the molecular mechanism involved in the light-independent synthesis of anthocyanins in chrysanthemums.展开更多
Volatile oil(VO)is the main chemical component of common plants in Chrysanthemum genus,and it possesses several beneficial pharmacological properties,including bacteriostatic,antioxidant,anti-tumor,anti-inflammatory,a...Volatile oil(VO)is the main chemical component of common plants in Chrysanthemum genus,and it possesses several beneficial pharmacological properties,including bacteriostatic,antioxidant,anti-tumor,anti-inflammatory,antipyretic,analgesic,antiosteoporotic,antihypertensive,sedative,and hypnotic effects.To date,research on the effective components of Chrysanthemum extract has mainly focused on flavonoids,whereas limited data are available on the chemical constituents and underlying mechanisms of action of the VO components.In this review,the pharmacological activities and mechanisms of VO are comprehensively reviewed with the aim of providing a foundation for further development for medicinal,aromatherapy,and diet therapy applications.展开更多
A sensitive and convenient method for the study of electrochemical fingerprints of Chrysanthemums from different regions is studied by Belousov-Zhabotinskii(B-Z) oscillation system with malonate as a dissipative mat...A sensitive and convenient method for the study of electrochemical fingerprints of Chrysanthemums from different regions is studied by Belousov-Zhabotinskii(B-Z) oscillation system with malonate as a dissipative material.The results indicated that the electrochemical fingerprints of Chrysanthemums from different regions show significantly different characteristics,and can be used to identify the regions of Chrysanthemums.展开更多
In order to realize the visual positioning for Hangzhou white chrysanthemums harvesting robot in natural environment,a color image segmentation method for Hangzhou white chrysanthemum based on least squares support ve...In order to realize the visual positioning for Hangzhou white chrysanthemums harvesting robot in natural environment,a color image segmentation method for Hangzhou white chrysanthemum based on least squares support vector machine(LS-SVM)was proposed.Firstly,bilateral filter was used to filter the RGB channels image respectively to eliminate noise.Then the pixel-level color feature and texture feature of the image,which was used as input of LS-SVM model(classifier)and SVM model(classifier),were extracted via RGB value of image and gray level co-occurrence matrix.Finally,the color image was segmented with the trained LS-SVM model(classifier)and SVM model(classifier)separately.The experimental results showed that the trained LS-SVM model and SVM model could effectively segment the images of the Hangzhou white chrysanthemums from complicated background taken under three illumination conditions such as front-lighting,back-lighting and overshadow,with the accuracy of above 90%.When segmenting an image,the SVM algorithm required 1.3 s,while the LS-SVM algorithm proposed in this paper just needed 0.7 s,which was better than the SVM algorithm obviously.The picking experiment was carried out and the results showed that the implementation of the proposed segmentation algorithm on the picking robot could achieve 81%picking success rate.展开更多
Mitogen-activated protein kinases(MAPKs,also known as MPKs)regulate diverse cellular and physiological functions,and dual-specificity MAPK phosphatases(MKPs)modulate MAPK signalling through MAPK dephosphorylation and ...Mitogen-activated protein kinases(MAPKs,also known as MPKs)regulate diverse cellular and physiological functions,and dual-specificity MAPK phosphatases(MKPs)modulate MAPK signalling through MAPK dephosphorylation and inactivation.Due to lacking of overall understanding for the regulatory networks between Chrysanthemum morifolium MKPs(CmMKPs)and C.morifolium MAPKs(CmMPKs),we systematically studied the interactions between four groups of CmMPKs and eight identified CmMKPs in chrysanthemum and found that the interaction between the specific CmMKP and the specific CmMPK differed from those in other plants.Furthermore,the expression of CmMKP1 and CmMKP1-LIKE1showed opposite trends during the development of chrysanthemum flower buds under salt treatment and Alternaria alternata inoculation,but these genes could interact with the same CmMPKs,providing insight into the subfunctionalization of paralogues.Amino acid variations(M87V,T277P and V6L)in dual-specificity protein phosphatases(DsPTP1)-LIKE1/2/3 changed the interactions of these proteins with the four CmMPK groups in chrysanthemum,providing evidence for the de/neofunctionalization of paralogues in polyploids,suggesting that we can identify the key functional sites of proteins by studying polyploid paralogues.展开更多
Strawflower(Helichrysum bracteatum)capitula have papery bracts and thus have the qualities of a naturally dried flower.The involucral bract cells have a secondary cell wall(SCW)of which a crucial component is lignin.A...Strawflower(Helichrysum bracteatum)capitula have papery bracts and thus have the qualities of a naturally dried flower.The involucral bract cells have a secondary cell wall(SCW)of which a crucial component is lignin.Although the constituents of SCWs have been studied extensively in plants,little is known of the mechanism regulating SCW formation,especially lignin biosynthesis in the involucral bracts of strawflower.In this study,a homolog of NAC SECONDARY WALL THICKENING PROMOTING FACTOR 1,designated Hb NST1,was identified as a positive regulator of lignin biosynthesis in strawflower.The transcript level of Hb NST1 was the highest in the involucral bracts.Subcellular localization analysis indicated that Hb NST1 was localized to the nucleus.Overexpression of Hb NST1 in Chrysanthemum indicum promoted the expression of a gene related to lignin biosynthesis,a homolog of cinnamyl alcohol dehydrogenase,designated Ci CAD,suggesting that Hb NST1 was associated with the accumulation of lignin in the SCW of the involucral bracts.Taken together,the results suggested that Hb NST1 positively regulated lignin accumulation in the involucral bracts and mediated the expression of lignin biosynthesis-related genes in strawflower.展开更多
Chrysanthemum morifolium,an ornamental crop with diverse forms of inflorescence,is a good model for studying flower development in Asteraceae.However,the genetic background is complex and the mechanisms of regulating ...Chrysanthemum morifolium,an ornamental crop with diverse forms of inflorescence,is a good model for studying flower development in Asteraceae.However,the genetic background is complex and the mechanisms of regulating flower development are still unclear.Here,we identified two natural mutant lines of chrysanthemum and named them M1 and M2 according to the severity of the phenotype.Both lines showed defects in petal identity,and the petals of the M1 line had a mild phenotype:partially loss of petal identity and conversion of petals into green,leaf-like organs.The M2 line had severe phenotypes:in addition to severe petal defects,secondary inflorescences were produced in the capitulum to replace the normal ray and disc florets,which indicated a transformation of a flower meristem into an inflorescence meristem.Transcriptome sequencing of WT and M2 inflorescences was performed and found altered expression of floral organ development A,B and E class genes,where B and E class genes were significantly down-regulated.qRT-PCR analysis in both M1 and M2 lines revealed that the expression of three chrysanthemum class B genes CmAP3.1,CmAP3.2 and CmPI,was negatively correlated with phenotypic severity.This suggests that class B genes in chrysanthemum not only have conserved functions in determining petal identity but also were involved in the determinacy of the flower meristem.This study provides insights into the functions of class B genes in flower development,and is informative for dissecting the molecular mechanisms of flower development in chrysanthemum.展开更多
Chrysanthemum morifolium Ramat is one of the four major cut flowers in the world.Pht1 family is focus on the uptake and transport of phosphate in plants.In our previous studies,CmPht1;2 overexpression line(Oe1)had hig...Chrysanthemum morifolium Ramat is one of the four major cut flowers in the world.Pht1 family is focus on the uptake and transport of phosphate in plants.In our previous studies,CmPht1;2 overexpression line(Oe1)had higher phosphate contents both in roots and shoots,and its root development was significantly enhanced than wild type(WT)at low phosphorus conditions in chrysanthemum.Metabolomics analysis showed that several metabolites had a change in pyruvate metabolism and tricarboxylic acid(TCA)cycle pathway.To explore the gene difference expression and the change of metabolic pathway between CmPht1;2-Oe1 and WT,we conducted the transcriptome analysis.A total of 617,681 and 207,271 unigenes were obtained from roots and shoots,respectively.They were classified into biological process,cellular component and molecular function by Gene Ontology(GO).In addition,450 different expression genes(DEGs)were found in the roots after 2 d treatment,and 1,787 DEGs were identified in shoots after 7 d treatment under LP condition between Oe1 and WT.From the top 20 pathways of DEGs assigned by Kyoto Encyclopedia of Genes and Genomes(KEGG),TCA cycle and pyruvate metabolism pathways mostly affected by overexpression of CmPht1;2 attracted our attention.This research will be helpful for elucidating the mechanism of effects by CmPht1;2 overexpression on growth,development and stress tolerance.展开更多
文摘Odour of Chrysanthemums is one of the short stories by D. H. Lawrence. The fiction shows how humanity was ruined by bourgeois industrial civilization through the death of a miner. In embedding themes, the narrative technique of Odour of Chrysanthemums is worth our attention. This paper is intended to make an analysis of point of view, focalization and symbol in the light of narrative theory.
文摘The Chrysanthemums is the masterpiece of John Steinbeck, which is considered to be "one of the greatest short stories ever". The story tells the life experiences of an 35-year-old woman named Elisa. In this novel, the most outstanding writing technique is the use of symbolism. Based on the analysis of the story, this paper aims to analyze how symbols are used to reflect the theme of this novel, which will be of great help o have a better understanding of the theme and the charm of the story.
文摘Through ecocritical study of Odour of Chrysanthemums,this paper reflects that the industrial civilization leads to damaged nature,distorted humanity and conjugal relation.
文摘Lawrence is a great writer and expert in describing character's inner psychological activity. By analyzing the short story Odour of Chrysanthemums, this paper aims to offer the readers a fresh entry to understand the important role of different kinds of narrative skills on psychological description in Lawrence's novels.
基金supported by the National Natural Science Foundation of China(31730081)the National Science Fund for Distinguished Young Scholars(31425022)+2 种基金the National Natural Science Foundation of China(31572152)the National Science Fund of Jiangsu Province(BK20151429)the Fundamental Research Funds for the Central Universities(KYRC201601).
文摘Chrysanthemums are sensitive to waterlogging stress,and the development of screening methods for tolerant germplasms or genes and the breeding of tolerant new varieties are of great importance in chrysanthemum breeding.To understand the genetic basis of waterlogging tolerance(WT)in chrysanthemums,we performed a genome-wide association study(GWAS)using 92,811 single nucleotide polymorphisms(SNPs)in a panel of 88 chrysanthemum accessions,including 64 spray cut and 24 disbud chrysanthemums.The results showed that the average MFVW(membership function value of waterlogging)of the disbud type(0.65)was significantly higher than that of the spray type(0.55)at P<0.05,and the MFVW of the Asian accessions(0.65)was significantly higher than that of the European accessions(0.48)at P<0.01.The GWAS performed using the general linear model(GLM)and mixed linear model(MLM)identified 137 and 14 SNP loci related to WT,respectively,and 11 associations were commonly predicted.By calculating the phenotypic effect values for 11 common SNP loci,six highly favorable SNP alleles that explained 12.85—21.85%of the phenotypic variations were identified.Furthermore,the dosage-pyramiding effects of the favorable alleles and the significant linear correlations between the numbers of highly favorable alleles and phenotypic values were identified(r2=0.45;P<0.01).A major SNP locus(Marker6619-75)was converted into a derived cleaved amplified polymorphic sequence(dCAPS)marker that cosegregated with WT with an average efficiency of 78.9%.Finally,four putative candidate genes in the WT were identified via quantitative real-time PCR(qRT-PCR).The results presented in this study provide insights for further research on WT mechanisms and the application of molecular marker-assisted selection(MAS)in chrysanthemum WT breeding programs.
基金Key Science and Technology Service Projects in 2016"Investigation Project of Degradation of Four Major Genuine Chinese Medicinal Materials in Bozhou City"(BZCG[2015]338)University Continuing Education Teaching Reform Project(2019jxjj67)Natural Science Research Projects of Colleges and Universities in Anhui Province(KJ2019A1180,KJ2018A0884,KJ2017A772).
文摘[Objective]The paper was to preliminarily study the pharmacognosy of three species of chrysanthemums cultivated in Bozhou,and to compare their similarities and differences.[Method]Organs of three species of chrysanthemum samples were dissected and made into integral slices,and surface morphology of each part was observed microscopically.Powder slices were developed in the same way and observed under a microscope.According to thin layer chromatography(TLC)test(Part I,Appendix VIB,2005 edition),2μL of sample solutions and reference solutions were absorbed respectively,and dripped on the same piece of silica gel G thin layer plate.With petroleum ether-acetone(2∶1)as the developing solvent,samples were developed and then dried.Slices were sprayed with chromogenic agent 2%aluminum trichloride,and examined under UV light at the wavelength of 365 nm.Whether fluorescent spots of the same color were displayed in the position corresponding to the chromatogram of reference solutions were observed.[Result]Non-glandular hairs were found in bract microstructures of three species of chrysanthemums.There were many T-shaped hairs and few multicellular sessile non-glandular hairs.The epidermal cell walls of bracts were parallel straight,and some were rectangular;stomas could be seen everywhere.Only Dendranthema morifolium(Ramat.)Tzvel.‘Boju’cv.nov.and Dendranthema morifolium(Ramat.)Tzvel.‘Da maya’cv.nov.displayed fluorescent spots of the same color in the position corresponding to the chromatogram of reference sample acacetin in TLC test,and the spots of D.morifolium(Ramat.)Tzvel.‘Da maya’cv.nov.were light in color;there were no spots observed in Chrysanthemum morifolium Ramat.[Conclusion]The external characters,internal forms and internal components of D.morifolium(Ramat.)Tzvel.‘Boju’cv.nov.,D.morifolium(Ramat.)Tzvel.‘Da maya’cv.nov.and C.morifolium Ramat are all related to germplasm resources of chrysanthemum species.The contents of acacetin,one of the components of D.morifolium(Ramat.)Tzvel.‘Boju’cv.nov.and D.morifolium(Ramat.)Tzvel.‘Da maya’cv.nov.,remain to be further studied.
文摘The morphological characteristics and growth habits of medicinal chrysanthemums are described,the cultivation techniques are summarized from the aspects of nursery,transplanting and field management,and the harvest and primary processing technology are introduced in detail.
基金This work was financially supported by the project of National Science and Technology Supporting Plan(2015BAF01B02)the Open Foundation of Intelligent Robots and Systems at the University of Beijing Institute of Technology,High-tech Innovation Center(2016IRS03).
文摘To realize the robotic harvesting of Hangzhou White Chrysanthemums,the quick recognition and 3D vision localization system for target Chrysanthemums was investigated in this study.The system was comprised of three main stages.Firstly,an end-effector and a simple freedom manipulator with three degrees were designed to meet the quality requirements of harvesting Hangzhou White Chrysanthemums.Secondly,a segmentation based on HSV color space was performed.A fast Fuzzy C-means(FCM)algorithm based on S component was proposed to extract the target image from irrelevant background.Thirdly,binocular stereo vision was used to acquire the target spatial information.According to the shape of Hangzhou White Chrysanthemums,the centroids of stamens were selected as feature points to match in the right and left images.The experimental results showed that the proposed method was able to recognize Hangzhou White Chrysanthemums with the accuracy of 85%.When the distance between target and baseline was 150-450 mm,the errors between the calculated and measured distance were less than 14 mm,which could meet the requirements of the localization accuracy of the harvesting robot.
基金supported by the National Natural Science Foundation of China (Grant Nos.32171849 and 32271946).
文摘Although some species that accumulate only cyanidin(Cy)in nature can produce blue flowers through iron ions,there has been no evidence of blue chrysanthemums being generated in this manner.This study revealed that flavonoid extracts from the ray florets of the chrysanthemum cultivar‘Wandai Fengguang’turned blue when exposed to Fe^(3+).Samples that could turn blue were labeled as CB(Cy-determined blue flowers),while samples that did not turn blue were labeled as CN(Cy-determined non-blue flowers).After a series of experiments,a stable screening system was established using flavonoid extracts containing NaAc buffer at pH 5.5 and a total anthocyanin concentration(TAC)of 30 μmol·L^(-1),and the addition of Fe^(3+)from 0 to 0.25 μmol·L^(-1)allowed for the selection of five CB samples from 39 chrysanthemum cultivars.All five CB samples exhibited flower color phenotypes that belonged to Cluster-I with redness(a*)values ranging from 29.03 to 45.99,yellowness(b*)values from-11.31 to 3.77,and brightness(L*)values from 29.07 to 45.99.Additionally,the ratio of TAC to total luteolin concentration(TLC)was found to be a critical factor for distinguishing between CB and CN samples.To realize the desired blue hue in the flavonoid extracts with the participation of Fe^(3+),a TAC to TLC ratio of 2.25 and above is required.Moreover,the protoplasts and ray florets of CB samples that turned blue with the involvement of Fe^(2+)showed great potential for cultivating blue chrysanthemums through ferric-anthocyanin chelate.Overall,this study reveals that blue flowers can be cultivated through the increase in the iron ion concentration,combined with the accumulation of Cy.
基金financially supported grants from National Natural Science Foundation of China(Grant Nos.31902053,31870279,31730081)China Postdoctoral Science Foundation(Grant No.2018M642273)+3 种基金Jiangsu Planned Projects or Postdoctoral Reaearch Funds(Grant No.2019K169)the Fundamental Research Funds for the Central Uniersities(Grant No.KYQN202031)the National Key Research and Development Program of China(Grant Nos.2019YFD1001500,2020YFD1000400)the earmarked fund for Jiangsu Agricultural Industry Technology System,and a project funded by the Priority academic Program Development of Jiangsu Higher Education Institutions。
文摘Color fading caused by a decrease in anthocyanin accumulation during the post-flowering stage significantly affects postharvest quality of chrysanthemum.However,the underlying mechanism by which anthocyanin accumulation decreases during the post-flowering stage still unclear,which greatly restricts design of molecular breeding in chrysanthemum.Here,a chrysanthemum SG7 R2R3 MYB transcription factor(TF),CmMYB3-like,was identified to have a function in regulating anthocyanin biosynthesis during the post-flowering stage.Quantitative real time PCR(qRT-PCR)assays showed that the expression of CmMYB3-like was gradually downregulated when anthocyanin content increased during the flowering stage and was significantly upregulated during the post-flowering stage.Genetic transformation of chrysanthemum and dual-luciferase assays in N.benthamiana leaves showed that CmMYB3-like suppressed anthocyanin accumulation by inhibiting the transcription of CmCHS and CmANS directly and that of CmF3H indirectly.However,overexpression or suppression of CmMYB3-like did not affect the biosynthesis of flavones or flavonols.Genetic transformation of chrysanthemum revealed that the overexpression of CmMYB3-like inhibited anthocyanin accumulation,but its suppression prevented the decrease in anthocyanin accumulation during the post-flowering stage.Our results revealed a crucial role of CmMYB3-like in regulating the color of petals during the post-flowering stage and provided a target gene for molecular design breeding to improve the postharvest quality of chrysanthemum.
基金the Major Technological Innovation of Guangdong Province of China,Grant Number 2020B020220009the Science and Technology Projects,Grant Number 202201011833.
文摘FLOWERING LOCUS T(FT)is an important factor for integrating flowering signals through the photoperiod pathway,which significantly promotes flowering.Most chrysanthemum varieties are short-day plants,sensitive to the photoperiod,which limits their ornamental and annual production supply.In this study,we aim to analyze the nutrients and flowering-related genes of chrysanthemums with different photoperiod types and to clone and verify the function of the flowering-related gene CmFT.We found that the formation of floral buds requires the accumulation of starch while consuming soluble sugars and the expression patterns of flowering-related genes GIGANTEA(GI),CONSTANS(CO),and FT in C.morifolium‘Zilian’and C.morifolium‘Zihongtuogui’had a certain synchronization during floral buds differentiation according to our quantitative validation,and the expression levels of CmGI,CmCO and CmFT in C.morifolium‘Zihongtuogui’were higher than those in C.morifolium.‘Zilian’in the later stage of differentiation.CmFT was cloned from photosensitive chrysanthemums-C.morifolium‘Zihongtuogui’and polypeptide alignment and phylogenetic analysis showed that CmFT was clustered in FT-like subfamily.In further functional verification,we obtained two Arabidopsis transgenic lines.Our results showed that CmFT transgenic ft mutant lines can significantly accelerate flowering in Arabidopsis.Thus,we can initially confirm that CmFT plays an important role in promoting flowering,which may be the key reason for the photosensitivity of C.morifolium‘Zihongtuogui’.Overall,the results of this study are of great importance in revealing the flowering mechanism of different photoperiod types of chrysanthemums.
基金supported by General Project of 2021 Science and Technology Plan of Beijing Municipal Education Comission(KM202111418001)Beijing Natural Science Foundation,China(Grant No.6212022).
文摘Chrysanthemum×morifolium is a horticultural crop which plays a vital role in theflower industry with signifi-cant economic value and has a cultivation history of over three thousand years in China.The accumulation of anthocyanins is always affected by light.Here,we revealed that anthocyanin accumulation is highly dependent on light in‘2021135’genotype chrysanthemum,while it is light-independent in‘2001402’genotype chrysanthe-mum.However,no literature has been reported regarding the non-photosensitive chrysanthemum in anthocya-nins light-independent synthesis pathways.Through the phenotype analysis of 44 F1 generations,we found that light-independence is a dominant trait which can be stable inherited by progeny.The transcriptome of the rayflorets of‘2021135’and‘2001402’under light and bagging treatment were sequenced and analyzed.Based on weighted gene co-expression network analysis(WGCNA),K-means analysis,and Real-Time Quantitative Poly-merase Chain Reaction(RT-qPCR)analysis,16 genes were highly correlated with the anthocyanin content.The anthocyanin content of rayflorets treated with different light-quality conditions indicated that blue light signifi-cantly affected anthocyanin accumulations.Through Yeast one-hybrid analysis,CmBIC1.1 and CmBIC1.2 can directly regulate the anthocyanin structural gene CmCHS2.In our study,we revealed the important characteristics of light-independent anthocyanin synthesis in chrysanthemums and screened regulatory factors in light-depen-dent and light-independent anthocyanin synthesis pathways.The results laid the groundwork for subsequent ana-lysis of the molecular mechanism involved in the light-independent synthesis of anthocyanins in chrysanthemums.
基金funded by the National Natural Science Foundation of China(82260695)the Jiangxi Provincial Natural Science Foundation(20232ACB206062,20212ACB206004)+2 种基金Young Jinggang Scholar of Jiangxi Province and New Century Talents Project of Jiangxi Province(2017082,2020028)the Science and Technology Innovation Team of Jiangxi University of Chinese Medicine(CXTD22001,CXTD22006)Project of College Students’Innovation and Entrepreneurship Training Program of Jiangxi University of Chinese Medicine.
文摘Volatile oil(VO)is the main chemical component of common plants in Chrysanthemum genus,and it possesses several beneficial pharmacological properties,including bacteriostatic,antioxidant,anti-tumor,anti-inflammatory,antipyretic,analgesic,antiosteoporotic,antihypertensive,sedative,and hypnotic effects.To date,research on the effective components of Chrysanthemum extract has mainly focused on flavonoids,whereas limited data are available on the chemical constituents and underlying mechanisms of action of the VO components.In this review,the pharmacological activities and mechanisms of VO are comprehensively reviewed with the aim of providing a foundation for further development for medicinal,aromatherapy,and diet therapy applications.
文摘A sensitive and convenient method for the study of electrochemical fingerprints of Chrysanthemums from different regions is studied by Belousov-Zhabotinskii(B-Z) oscillation system with malonate as a dissipative material.The results indicated that the electrochemical fingerprints of Chrysanthemums from different regions show significantly different characteristics,and can be used to identify the regions of Chrysanthemums.
基金This work was financially supported by the project of National Science and Technology Supporting Plan(2015BAF01B02)the Open Foundation of Intelligent Robots and Systems at the University of Beijing Institute of Technology,High-tech Innovation Center(2016IRS03).
文摘In order to realize the visual positioning for Hangzhou white chrysanthemums harvesting robot in natural environment,a color image segmentation method for Hangzhou white chrysanthemum based on least squares support vector machine(LS-SVM)was proposed.Firstly,bilateral filter was used to filter the RGB channels image respectively to eliminate noise.Then the pixel-level color feature and texture feature of the image,which was used as input of LS-SVM model(classifier)and SVM model(classifier),were extracted via RGB value of image and gray level co-occurrence matrix.Finally,the color image was segmented with the trained LS-SVM model(classifier)and SVM model(classifier)separately.The experimental results showed that the trained LS-SVM model and SVM model could effectively segment the images of the Hangzhou white chrysanthemums from complicated background taken under three illumination conditions such as front-lighting,back-lighting and overshadow,with the accuracy of above 90%.When segmenting an image,the SVM algorithm required 1.3 s,while the LS-SVM algorithm proposed in this paper just needed 0.7 s,which was better than the SVM algorithm obviously.The picking experiment was carried out and the results showed that the implementation of the proposed segmentation algorithm on the picking robot could achieve 81%picking success rate.
基金funded by the National Natural Science Foundation of China(Grant Nos.31870694,31870279,32002083)the Natural Science Fund of Jiangsu Province(Grant No.BK20190076)+2 种基金the National Key R&D Program of China(Grant No.2018YFD1000403)the Foundation of Central Laboratory of Xinyang Agriculture and Forestry University(Grant No.FCL202002)a project funded by the Priority Academic Program Development of Jiangsu Higher Education Institution。
文摘Mitogen-activated protein kinases(MAPKs,also known as MPKs)regulate diverse cellular and physiological functions,and dual-specificity MAPK phosphatases(MKPs)modulate MAPK signalling through MAPK dephosphorylation and inactivation.Due to lacking of overall understanding for the regulatory networks between Chrysanthemum morifolium MKPs(CmMKPs)and C.morifolium MAPKs(CmMPKs),we systematically studied the interactions between four groups of CmMPKs and eight identified CmMKPs in chrysanthemum and found that the interaction between the specific CmMKP and the specific CmMPK differed from those in other plants.Furthermore,the expression of CmMKP1 and CmMKP1-LIKE1showed opposite trends during the development of chrysanthemum flower buds under salt treatment and Alternaria alternata inoculation,but these genes could interact with the same CmMPKs,providing insight into the subfunctionalization of paralogues.Amino acid variations(M87V,T277P and V6L)in dual-specificity protein phosphatases(DsPTP1)-LIKE1/2/3 changed the interactions of these proteins with the four CmMPK groups in chrysanthemum,providing evidence for the de/neofunctionalization of paralogues in polyploids,suggesting that we can identify the key functional sites of proteins by studying polyploid paralogues.
基金supported by National Key R&D Program of China(Grant No.2018YFD1000403)The National Natural Science Foundation(Grant Nos.32002072 and 31772347)China Postdoctoral Science Foundation(Grant No.2021M693429)。
文摘Strawflower(Helichrysum bracteatum)capitula have papery bracts and thus have the qualities of a naturally dried flower.The involucral bract cells have a secondary cell wall(SCW)of which a crucial component is lignin.Although the constituents of SCWs have been studied extensively in plants,little is known of the mechanism regulating SCW formation,especially lignin biosynthesis in the involucral bracts of strawflower.In this study,a homolog of NAC SECONDARY WALL THICKENING PROMOTING FACTOR 1,designated Hb NST1,was identified as a positive regulator of lignin biosynthesis in strawflower.The transcript level of Hb NST1 was the highest in the involucral bracts.Subcellular localization analysis indicated that Hb NST1 was localized to the nucleus.Overexpression of Hb NST1 in Chrysanthemum indicum promoted the expression of a gene related to lignin biosynthesis,a homolog of cinnamyl alcohol dehydrogenase,designated Ci CAD,suggesting that Hb NST1 was associated with the accumulation of lignin in the SCW of the involucral bracts.Taken together,the results suggested that Hb NST1 positively regulated lignin accumulation in the involucral bracts and mediated the expression of lignin biosynthesis-related genes in strawflower.
基金financially supported by the National Natural Science Foundation of China(32171855)China Agriculture Research System(CARS-23-A18),Seed Industry Project of Jiangsu Province(JBGS[2021]020)+2 种基金the China Postdoctoral Science Foundation(2019M661870)the National Key Research and Development Program of China(2020YFD1000400)a Project Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions.
文摘Chrysanthemum morifolium,an ornamental crop with diverse forms of inflorescence,is a good model for studying flower development in Asteraceae.However,the genetic background is complex and the mechanisms of regulating flower development are still unclear.Here,we identified two natural mutant lines of chrysanthemum and named them M1 and M2 according to the severity of the phenotype.Both lines showed defects in petal identity,and the petals of the M1 line had a mild phenotype:partially loss of petal identity and conversion of petals into green,leaf-like organs.The M2 line had severe phenotypes:in addition to severe petal defects,secondary inflorescences were produced in the capitulum to replace the normal ray and disc florets,which indicated a transformation of a flower meristem into an inflorescence meristem.Transcriptome sequencing of WT and M2 inflorescences was performed and found altered expression of floral organ development A,B and E class genes,where B and E class genes were significantly down-regulated.qRT-PCR analysis in both M1 and M2 lines revealed that the expression of three chrysanthemum class B genes CmAP3.1,CmAP3.2 and CmPI,was negatively correlated with phenotypic severity.This suggests that class B genes in chrysanthemum not only have conserved functions in determining petal identity but also were involved in the determinacy of the flower meristem.This study provides insights into the functions of class B genes in flower development,and is informative for dissecting the molecular mechanisms of flower development in chrysanthemum.
基金This research was funded by the National Natural Science Foundation of China(31902061),CL.https://www.nsfc.gov.cn.
文摘Chrysanthemum morifolium Ramat is one of the four major cut flowers in the world.Pht1 family is focus on the uptake and transport of phosphate in plants.In our previous studies,CmPht1;2 overexpression line(Oe1)had higher phosphate contents both in roots and shoots,and its root development was significantly enhanced than wild type(WT)at low phosphorus conditions in chrysanthemum.Metabolomics analysis showed that several metabolites had a change in pyruvate metabolism and tricarboxylic acid(TCA)cycle pathway.To explore the gene difference expression and the change of metabolic pathway between CmPht1;2-Oe1 and WT,we conducted the transcriptome analysis.A total of 617,681 and 207,271 unigenes were obtained from roots and shoots,respectively.They were classified into biological process,cellular component and molecular function by Gene Ontology(GO).In addition,450 different expression genes(DEGs)were found in the roots after 2 d treatment,and 1,787 DEGs were identified in shoots after 7 d treatment under LP condition between Oe1 and WT.From the top 20 pathways of DEGs assigned by Kyoto Encyclopedia of Genes and Genomes(KEGG),TCA cycle and pyruvate metabolism pathways mostly affected by overexpression of CmPht1;2 attracted our attention.This research will be helpful for elucidating the mechanism of effects by CmPht1;2 overexpression on growth,development and stress tolerance.