In this study, 23 germplasm resources of Chrysanthemum morifolium used in medicine and tea were collected from Dabie Mountains and its surrounding producing areas, and the contents of 13 mineral elements were determined and compared. The thermal maps of correlation analysis, principal component analysis and cluster analysis were used for comprehensive evaluation. The results showed that the average content of each element in Ch. morifolium of different germplasm resources was: K>N>P>Mg>Ca>Fe>Mn>Zn>Cu>Ni>Cr>Pb>Cd, and the leaves were: K>N>Ca>Mg>P>Fe>Mn>Zn>Cr>Cu>Ni>Pb>Cd. There are rich contents of N, P, K, Ca, Mg and Fe in Ch. morifolium flowers and their leaves, among them, K element has the largest change range, while N, Ca, Fe, Mg and Zn elements have a larger change range. The absorption and accumulation of each element in the leaves of different germplasm resources varied greatly. The correlation analysis shows that there is a strong positive correlation between Ca element, Mg, Mn and Cd element.Principal component analysis in Ch. morifolium flowers characteristic elements for Mn, Cr, Cu, P, K, can be used as a Ch. morifolium resources to identify the characteristics of the elements, choose top five principal component(F1-F5) comprehensive evalua-tion of medicinal Ch. morifolium, scored in the top five varieties for Hangiu-Fuhuangju, Hangju-Xiaoyangju, Hangju-Sheyangju, Hangju-Dayanghua, Hangju-Subeiju,indicates that in terms of mineral elements, the five medicinal Ch. morifolium resources quality is better. The PCA score chart can divide 23 Ch. morifolium resources into 4 groups, and the cluster analysis heat map divides 23 Ch. morifolium resources into 5 groups. All the Ch. morifolium resources of the same type can be well clustered together, indicating that the difference in mineral element content of Ch. morifolium germplasm resources is closely related to genetic factors.
Chrysanthemum/genetics* ; Flowers/genetics* ; Minerals ; Plant Leaves ; Tea

Three Chrysanthemum-chalcone-isomerase genes( CmCHI) were successfully cloned by PCR from the database of Chrysanthemum transcriptome and named CmCHI1,CmCHI2 and CmCHI3,respectively. Bioinformatics analysis showed that the base numbers of CmCHI1-3 open reading frame were 708,633 and 681 bp,encoding 235,210 and 226 amino acids,respectively. Three fusion proteins of about 30 kDa were successfully induced by prokaryotic expression technology,and the corresponding recombinant fusion proteins were isolated and purified by Ni-NTA resin column. Clustering analysis showed that the 3 CmCHI were homologous with Compositae plants,and CmCHI1 and CmCHI3 belonged to type Ⅰ CHI. CmCHI2 belongs to type Ⅳ CHI. Using β-actin as an internal reference gene,RT-qPCR was used to detect and analyze the expression of CmCHI1-3 genes in Hangju. The results showed that the expression levels of CmCHI1 and CmCHI3 were higher,while the expression levels of CmCHI2 were lower. It was concluded that CmCHI1 and CmCHI3 were the main chalcone isomerase genes involved in the synthesis of flavonoids in Hangju,and CmCHI2 was a helper gene. Flooding treatment significantly promoted the expression of CmCHI1 and CmCHI3 genes,but had no regulatory effect on CmCHI2. The above results provided a basis for further study of the molecular regulation mechanism of CHI gene in the metabolism of flavonoids in Hangju,which laid a foundation for improving the content of flavonoids in Hangju and finally improving the medicinal quality of Hangju.
Chrysanthemum ; enzymology ; genetics ; Cloning, Molecular ; Intramolecular Lyases ; genetics ; Plant Proteins ; genetics

OBJECTIVETo study the salt stress tolerance of Hongxinju, Huangju and F1 seedlings from orthogonal and reciprocal cross under different salt treatments. Grope for transmissibility of salt tolerance between parents and F1 seedlings, and relativity between flavone, chlorogenic acid contents and salt tolerance.

METHODThe materials were put in 5 different concentrations of Hoagland nutrient solution (0, 40, 80, 120, 160 mmol x L(-1)) containing NaCl, keeping grads while raising the consistency of NaCl day by day. The injured leaf area per plant, proline, betaine, MDA, flavones and chlorogenic acid contents were measured and analyzed after treatment.

RESULTAs NaCl concentration was below 120 mmol x L(-1), the salt tolerance of Hongxinju was higher than that of Huangju, the salt tolerance of Hongxinju x Huangju higher than that of parents, the salt tolerance of Huangju x Hongxinju was at the level of parents. As NaCl concentration between 120 to 160 mmol x L(-1), the salt tolerance of Huangju was higher than that of Hongxinju, the salt tolerance of Huangju x Hongxinju higher than that of parents and the salt tolerance of Hongxinju x Huangju was at the level of parents.

CONCLUSIONSalt tolerance of F1 is more influenced by female parent, relativity showed between flavonoids, chlorogenic acid contents and salt tolerance.

Breeding ; China ; Chlorides ; metabolism ; Chrysanthemum ; genetics ; growth & development ; physiology ; Salt-Tolerance ; Seedlings ; genetics ; growth & development ; physiology

The present study aims to explore the genetic diversity of germplasm resources of Chrysanthemum×morifolium (hereinafter, C.×morifolium) at the molecular level and to establish a fingerprint database of C.×morifolium varieties. We employed 12 pairs of primers with high levels of polymorphism, clear bands, and high degrees of reproducibility to analyze the SSR molecular markers and genetic diversity of 91 C.×morifolium materials and 14 chrysanthemum- related materials. With regard to constructing the fingerprints of the tested materials, we chose 9 pairs of core primers. The findings revealed that 12 primer pairs detected 104 alleles in 105 samples, ranging from 2 to 26. The average number of observed alleles (N_a) per site was 9.25. The average number of effective alleles (N_e) per site was 2.745 6, with its range being 1.276 0 to 4.742 5. Shannon genetic diversity index (I) values ranged between 0.513 3 and 2.239 9 (M=1.209 0). Nei's gene diversity index (H) ranged between 0.216 3 and 0.789 1 (M=0.578 0). The observed heterozygosity (H_o) ranged between 0.223 3 and 0.895 2 (M=0.557 5). The expected heterozygosity (H_e) ranged between 0.217 4 and 0.793 3 (M=0.580 8). The polymorphism information content (PIC) ranged between 0.211 5 and 0.774 0 (M=0.532 9). The genetic similarity (GS) ranged between 0.228 5 and 1.000 0 (M=0.608 3). Cluster analysis revealed that when the genetic distance (GD) equals to 0.30, the tested materials can be classified into 2 groups. When the GD equals to 0.27, the first group can be divided into 6 subgroups; accordingly, 105 tested materials can be divided into 7 subgroups. The cophenetic correlation test was carried out based on the cluster analysis, and the corresponding results showed that the cluster map correlated with the genetic similarity coefficient (r=0.952 73). According to the results of Structure population analysis, we obtained the optimal population number, with the true number of populations (K) being 3 and the population being divided concerning Q≥0.5. Three subgroups, i.e., Q1, Q2 and Q3, included 34, 33 and 28 germplasms, respectively, and the remaining 10 germplasms were identified as the mixed population. During the experiment, 9 pairs of core primers were screened among the total of 12 for a complete differentiation regarding 105 tested materials, and the fingerprints of 91 C.×morifolium materials and 14 chrysanthemum-related materials were further constructed. Overall, there were significant genetic differences and rich genetic diversity among C.×morifolium materials, which would shed light on the garden application and variety selection fields of C.×morifolium. The fingerprint database of 105 C.×morifolium varieties and chrysanthemum-related species may provide technical support for future research regarding the identification and screening system of C.×morifolium varieties.
Genetic Variation ; Chrysanthemum/genetics* ; Reproducibility of Results ; Microsatellite Repeats/genetics* ; Polymorphism, Genetic ; Biomarkers ; Phylogeny

OBJECTIVETo investigate the dynamic changes of main physiological indexes, active constituent of Chrysanthemum morifolium and their correlation during the whole growing period and provided a reference basis for the field production.

METHODTake Ch. morifolium cv. Xiaobaiju, Ch. morifolium cv. Hongxinju and Ch. morifolium cv. Changbanju were taken as the research objects, the main physiological and biochemical indexes were determined, the correlation among them was analyzed.

RESULTThe trend of each main physiological index and active component were different during the whole growing period. Agronomic characters, physiological and biochemical indexes and economic characters had correlation in different degree.

CONCLUSIONVarieties with higher plant height, more branch and cephaloid numbers may be used for breeding for high yield, and varieties with higher chlorophyll content and POD activity, lower GSH content and SOD activity may be used for breeding for high content of the active components.

Breeding ; Chlorophyll ; analysis ; Chrysanthemum ; anatomy & histology ; chemistry ; genetics ; physiology ; Medicine, Chinese Traditional ; Seasons

Chrysanthemum is widely used as a type of edible flower and also considered as the important materials of many beverages in China. Due to the occurrence of diseases and pests, and the lack of regulations for species, frequency, dose of pesticides in Chrysanthemum, pesticides have become one of the main pollutants in Chrysanthemum. The pesticide residues in Chrysanthemum were detected frequently and worth noting. This paper focused on the types of pesticides, pesticide residue detection techniques, and risk assessment methods for Chrysanthemums on the basis of relevant literatures. The pesticide residues of traditional Chinese medicine are mainly organochlorines, organophosphorus and pyrethroids, and the detection techniques include gas chromatography(GC), liquid chromatography(LC) or both combined with mass spectrometry(MS). With the increasing use of traditional Chinese medicine, Chrysanthemum is widely circulated in the market. Therefore, it is important to understand the current situation of pesticide residues in different varieties of Chrysanthemum, so as to provide theoretical reference for the control of quality and safety of Chrysanthemum and the formulation of the maximum residue limit.
China ; Chromatography, Liquid ; Chrysanthemum/genetics* ; Gas Chromatography-Mass Spectrometry ; Pesticide Residues/analysis*

OBJECTIVETo investigate botanical characters and yield of four cultivars of Chrysanthemum morifolium for further study on their genetic diversity and selective breeding.

METHODThe characters were observed and yield was investigated by field randomized block and analysis of variance.

RESULT AND CONCLUSIONThe botanical characters are difference among four cultivars; the amount of single flower head is the main factor influencing on the output of Chrysanthemum morifolium (r = 0.925); the yield of "Hongxinju" and "Xiaobaiju" are remarkably higher than that of "Dabaiju" and "Changbanju".

Breeding ; Chrysanthemum ; anatomy & histology ; genetics ; growth & development ; Genetic Variation ; Plants, Medicinal ; anatomy & histology ; genetics ; growth & development ; Selection, Genetic

OBJECTIVETo investigate the genetic diversity of Chrysanthemum morifolium at the level of molecular biology.

METHODThe total genomic DNA was extracted from medicinal chrysanthemums by 2% CTAB method. And the genetic diversity of 22 C. morifolium accessions was tested by RAPD marks. The NTSYS software was used to analyze the marks.

RESULT26 10-mer arbitrary primers were found to acquire polymophic results. A total of 233 bands were amplified, of which 89.7% bands were found to be polymophic. 8.04 polymophic bands were amplified by each primer on the average. The results of cluster analysis by using UPGMA method showed that all the tested accessions could be differentiated by RAPD marks.

CONCLUSIONThere actually existed much genetic diversity at the molecular level among the germplasm resources of C. morifolium. RAPD marks could be effective tools to construct DNA fingerprintings of C. morifolium. The differences between the tested chrysanthemums are related to the environments. However, it was affected by genetic facters more significantly.

China ; Chrysanthemum ; classification ; genetics ; Cluster Analysis ; DNA, Plant ; genetics ; Ecosystem ; Phylogeny ; Plants, Medicinal ; genetics ; Polymorphism, Genetic ; Random Amplified Polymorphic DNA Technique ; methods

To investigate the effects of the expression of flavonoid 3' hydroxylase gene ( and active ingredients in under flooding stress, we cloned F3'H from Hangju (temporarily named ) and conducted bioinformatics analysis. During the flower bud differentiation stage, we flooded the and then used the Real-time PCR to detect the relative expression of ; Finally, active ingredients of the inflorescence were measured by HPLC.The sequencing results showed that 1 562 bp sequence was acquired with the largest open reading frame of 1 527 bp, which encoded 508 amino acids. The phylogenetic tree found that was highly homologous to other species of Compositae. Real-time PCR results showed that had a significant response to flooding stress and had the highest expression level after flooding for 24 h, which was about 9 times as that of the control group. The results of HPLC showed that luteolin and luteoloside, the downstream products catalyzed by the F3'H, were significantly higher than those in the control group. It was also found that the contents of chlorogenic acid and 3,5- acid were also significantly higher than those of the control group. Therefore, regulates the synthesis of downstream products by regulating the expression of in the flavonoid synthesis pathway under flooding stress, thereby responding to flooding stress. The flooding stress during flower bud differentiation can significantly enhance the accumulation of active ingredients.
Chrysanthemum ; enzymology ; genetics ; Cloning, Molecular ; Cytochrome P-450 Enzyme System ; genetics ; Floods ; Gene Expression Regulation, Plant ; Glucosides ; biosynthesis ; Luteolin ; biosynthesis ; Phylogeny ; Plant Proteins ; genetics ; Stress, Physiological

OBJECTIVETo find the patterns of the rDNA ITS sequence variation of Crocus sativus, Chrysanthemum chanetii, Nelumbo nucifera, Zea mays and Garthamus tinctorius and to establish the molecular biological method for the identification of C. sativus and the others.

METHODAfter the total DNA of Crocus sativus, C. vernus-w and C. vernus-p were extracted, the ITS sequence was amplified by PCR with universal primer of ITS and PCR product was sequenced after purification and cloning. The ITS sequences of Chrysanthemrnum chanetii, Nelumbo nucifera, Zea mays and Garthamus tinctorius were obtained from GenBank.

RESULTThe complete ITS sequence of Crocus sativus, C. vernus-w and C. vernus-p, including ITSI rDNA, 5.8S rDNA, ITS2 rDNA were measured. The GenBank accession No. was DQ094185, DQ224363 and DQ224364 respectively. The similarity of ITS sequence between C. sativus and the two garden species of C. vernus was above 91%; the identity was 99.84% between C. vernus-w and C. vernus-p. The range of diversity between C. sativus and other herbs was above 46% based on ITS1 and above 41% based on ITS2.

CONCLUSIONC. sativus can be distinguished from misused substitutes by the ITS sequence. The ITS sequence is an available molecular marker for identification of the C. sativus.

Chrysanthemum ; genetics ; Crocus ; genetics ; DNA, Plant ; chemistry ; genetics ; DNA, Ribosomal ; chemistry ; genetics ; DNA, Ribosomal Spacer ; chemistry ; genetics ; Genetic Variation ; Molecular Sequence Data ; Nelumbo ; genetics ; Plants, Medicinal ; genetics ; Polymerase Chain Reaction ; Sequence Analysis, DNA ; Zea mays ; genetics