Cloning and expression of AGL19 gene in two Lonicera macranthoides varieties.

AGLl9 is an important regulator for flowering in plants and critical in controlling the morphogenesis of flower organs. The fulllength cDNAs of AGL19in conventional Lonicera macranthoides (Lm-AGL19) and the mutant 'Xianglei' cultivar (Lm-XL-AGL19) were obtained using rapid amplification of cDNA ends and the expression vectors for Lm-XL-AGL19were constructed to investigate the roles of AGL19 in the 'Xianglei' cultivar. Lm-AGL19 (GenBank: MK419948) and Lm-XL-AGL19 (GenBank: MK419948) were isolated from the conventional variety and 'Xianglei' cultivar of L. macranthoides, respectively. Lm-AGL19 is 1274 bp in length, whereas Lm-XL-AGL19 is 1264-bp long, and both include a 654 bp open reading frame, encoding 217 amino acids, which has a highly conserved MADS_MEF2_like domain and a moderately conserved K-box domain, belonging to the type II MADS-box family of genes. Quantitative real-time polymerase chain reaction indicated that the expression levels of these genes at different flowering stages were significantly different, and that the genes were also expressed in stems and leaves. Lm-XL-AGL19 is underexpressed at flowering period 5 that the key time node for corolla expansion and nonexpansion, while LM-AGL19 is overexpressed during this flowering period. AGL19 was speculated to be a functional gene causing different phenotypes in the two L. macranthoides varieties. The successfully constructed plant expression vector provides an experimental reference for further research on the function of this gene and the basis for the excellent phenotype of L. macranthoides 'Xianglei'.

Identification of key odorants in honeysuckle by headspace-solid phase microextraction and solvent-assisted flavour evaporation with gas chromatography-mass spectrometry and gas chromatograph-olfactometry in combination with chemometrics.

At present, the identification of honeysuckle aroma depends on experienced tasters, which results in inconsistencies due to human error. The key odorants have the potential to distinguish the different species and evaluate the quality of honeysuckle. Hence, in this study, a more scientific approach was applied to distinguish various honeysuckles. The volatile compounds of different species and parts of honeysuckle were separately extracted by headspace-solid phase microextraction (HS-SPME) and solvent assisted flavor evaporation (SAFE). Compounds with greater volatility such as aldehydes, limonene, γ-terpinene, and terpinolene were preferentially extracted by HS-SPME. As a complementary extraction method to HS-SPME, SAFE was found to recover comparatively more polar compounds such as eugenol, decanoic acid, and vanillin. Subsequently, key odorants with the highest flavour dilution (FD) factors were detected by aroma extract dilution analysis (AEDA). These were benzaldehyde, 4-ethylphenol, decanoic acid, vanillin, 3-methyl-2-butenal, and ß-ionone in honeysuckle flowers and γ-octalactone, 4-ethyl phenol, and vanillin in honeysuckle stem. Finally, principal component analysis (PCA) was conducted to analyze not only the key odorants of species and parts of honeysuckle but also their different origins. The results of PCA suggested that the species of honeysuckle contributed much more to variations in aroma rather than their origins. In conclusion, the application of the key odorants combined with PCA was demonstrated as a valid approach to differentiate species, origins, and parts of honeysuckle.

Chemical and genomic diversity of six Lonicera species occurring in Korea.

Lonicera spp. (Caprifoliaceae) are important not only as a common medicinal herb in East Asia but also as one of the most problematic invasive species in North America. In the present study, we performed a systemic analysis of genomic and chemical diversity among six Lonicera species occurring in Korea, L. japonica, L. maackii, L. insularis, L. sachalinensis, L. praeflorens, and L. vesicaria, using chloroplast DNA whole genome shotgun (WGS) sequencing and LC-MS analyses. The phylogenetic and phylochemical relationships did not coincide with each other, but partial consistency could be found among them. InDel-based cDNA marker for authentication was developed based on the genome sequences. Flavonoids, iridoids, and organic acids were identified in the LC-MS analyses, and their inter-species distribution and localization were also revealed.

Comparison of polyphenol, anthocyanin and antioxidant capacity in four varieties of Lonicera caerulea berry extracts.

Four varieties of Lonicera caerulea berries--'Wild', 'Beilei', 'No. 1', and 'No. 2'--were compared with respect to extraction yield, fruit weight, total soluble solids, polyphenol and anthocyanin contents, oxygen radical absorbance capacity (ORAC), and anthocyanin composition. Sixteen individual anthocyanins were identified in the selected varieties. Acylated anthocyanins, cyanidin 3-acetylhexoside and peonidin 3-acetylhexoside, were identified in L. caerulea berries for the first time. Cyanidin-3-glucoside was the most prominent anthocyanin in all four tested varieties. Wild type of L. caerulea fruit ('Wild'), with the highest polyphenol content, contained 14 anthocyanins and the highest ORAC value. Eleven anthocyanins were found in 'Beilei' berries, which had a higher ORAC value than 'No. 1' and 'No. 2'. The highest total soluble solid content and extraction yield were found in 'No. 2' and 'Wild' berries, respectively.

[Research progress on chemical constituents and their differences between Lonicerae Japonicae Flos and Lonicerae Flos].

The dried flower buds or initial flowers of Lonicerae Japonicae Flos and Lonicerae Flos, which belong to different species of Lonicera or Caprifoliaceae, are usually taken to clear away heat and toxic material and treat the exopathogenic wind-heat. They are two different herbs, and due to various reasons, there are far more controversies. This paper reviews the research on the chemical constituents and their differences between Lonicerae Japonicae Flos and Lonicerae Flos. Both of them contain the similar chemical constituents, such as organic acids, flavonoids, triterpenoidal saponins, iridoids, volatile oils and trace elements. But there are also differences between them. The main differences：Lonicerae Japonicae Flos contains a wealth of iridoids and flavonoids, while Lonicerae Flos contains more kinds of triterpenoidal saponins; the content of chlorogenic acid in Lonicerae Flos is significantly higher than that of Lonicerae Japonicae Flos; the content of rutin, luteoloside,luteolin-7-O-ß-D-galactoside and lonicerin in Lonicerae Japonicae Flos is much higher than that of Lonicerae Flos; the content of Fe and Ni in Lonicerae Japonicae Flos is higher, while the content of Mn is higher in Lonicerae Flos. Finally, main problems and suggestions on chemical composition between Lonicerae Japonicae Flos and Lonicerae Flos were also discussed.

Screening and characterization of endophytic Bacillus and Paenibacillus strains from medicinal plant Lonicera japonica for use as potential plant growth promoters

Abstract A total of 48 endophytic bacteria were isolated from surface-sterilized tissues of the medicinal plant Lonicera japonica, which is grown in eastern China; six strains were selected for further study based on their potential ability to promote plant growth in vitro (siderophore and indoleacetic acid production). The bacteria were characterized by phylogenetically analyzing their 16S rRNA gene similarity, by examining their effect on the mycelial development of pathogenic fungi, by testing their potential plant growth-promoting characteristics, and by measuring wheat growth parameters after inoculation. Results showed that the number of endophytic bacteria in L. japonica varied among different tissues, but it remained relatively stable in the same tissues from four different plantation locations. Among the three endophytic strains, strains 122 and 124 both had high siderophore production, with the latter showing the highest phosphate solubilization activity (45.6 mg/L) and aminocyclopropane-1-carboxylic acid deaminase activity (47.3 nmol/mg/h). Strain 170 had the highest indoleacetic acid (IAA) production (49.2 mg/L) and cellulase and pectinase activities. After inoculation, most of the six selected isolates showed a strong capacity to promote wheat growth. Compared with the controls, the increase in the shoot length, root length, fresh weight, dry weight, and chlorophyll content was most remarkable in wheat seedlings inoculated with strain 130. The positive correlation between enzyme (cellulose and pectinase) activity and inhibition rate on Fusarium oxysporum, the IAA production, and the root length of wheat seedlings inoculated with each tested endophytic strain was significant in regression analysis. Deformity of pathogenic fungal mycelia was observed under a microscope after the interaction with the endophytic isolates. Such deformity may be directly related to the production of hydrolytic bacterial enzymes (cellulose and pectinase). The six endophytic bacterial strains were identified to be Paenibacillus and Bacillus strains based on the results of 16S rRNA gene sequencing analysis and their physiological and biochemical characteristics. Results indicate the promising application of endophytic bacteria to the biological control of pathogenic fungi and the improvement of wheat crop growth.

Rapid quantitative analysis of adulterant Lonicera species in preparations of Lonicerae Japonicae Flos.

Lonicerae Japonicae Flos is often adulterated with Lonicerae Flos, which is derived from the other four Lonicera species, in both the crude drug and Lonicerae Japonicae Flos preparations. We proposed a methodology for the quantitative analysis of adulterant Lonicerae Flos in Lonicerae Japonicae Flos preparations. Taking macranthoidins A, B, dipsacoside B (saponins), sweroside (iridoids), and luteolin-7-O-d-glucoside (flavonoids) as markers, a method of ultra high performance liquid chromatography with triple quadrupole mass spectrometry was employed to determine their amounts in Lonicerae Flos, Lonicerae Japonicae Flos, and Lonicerae Japonicae Flos preparations. The proportion of adulterant Lonicerae Flos in Lonicerae Japonicae Flos preparations was estimated based on the saponin contents of Lonicerae Japonicae Flos and Lonicerae Flos. All analytes separated under isocratic elution in 12 min with acceptable linearity, precision, repeatability, and accuracy. Lonicerae Japonicae Flos was easily distinguished from Lonicerae Flos by the total amount of saponins (0.067 and > 45.8 mg/g for Lonicerae Japonicae Flos and Lonicerae Flos, respectively). Eighteen of twenty one Lonicerae Japonicae Flos preparation samples were adulterated with Lonicerae Flos in proportions of 11.3-100%. The developed ultra high performance liquid chromatography with triple quadrupole mass spectrometry method could be used for the identification of Lonicerae Japonicae Flos and the four species of Lonicerae Flos and for the analysis of Lonicerae Japonicae Flos preparations adulterated with Lonicerae Flos.

Apparent competition and native consumers exacerbate the strong competitive effect of an exotic plant species.

Direct and indirect effects can play a key role in invasions, but experiments evaluating both are rare. We examined the roles of direct competition and apparent competition by exotic Amur honeysuckle (Lonicera maackii) by manipulating (1) L. maackii vegetation, (2) presence of L. maackii fruits, and (3) access to plants by small mammals and deer. Direct competition with L. maackii reduced the abundance and richness of native and exotic species, and native consumers significantly reduced the abundance and richness of native species. Although effects of direct competition and consumption were more pervasive, richness of native plants was also reduced through apparent competition, as small-mammal consumers reduced richness only when L. maackii fruits were present. Our experiment reveals the multiple, interactive pathways that affect the success and impact of an invasive exotic plant: exotic plants may directly benefit from reduced attack by native consumers, may directly exert strong competitive effects on native plants, and may also benefit from apparent competition.

[Gene cloning and bioinformatics analysis of new gene for chlorogenic acid biosynthesis of Lonicera hypoglauca].

To obtain the key genes for chlorogenic acid biosynthesis of Lonicera hypoglauca, four new genes ware obtained from the our dataset of L. hypoglauca. And we also predicted the structure and function of LHPAL4, LHHCT1 , LHHCT2 and LHHCT3 proteins. The phylogenetic tree showed that LHPAL4 was closely related with LHPAL1, LHHCT1 was closely related with LHHCT3, LHHCT2 clustered into a single group. By Real-time PCR to detect the gene expressed level in different organs of L. hypoglauca, we found that the transcripted level of LHPAL4, LHHCT1 and LHHCT3 was the highest in defeat flowers, and the transcripted level of LHHCT2 was the highest in leaves. These result provided a basis to further analysis the mechanism of active ingredients in different organs, as well as the element for in vitro biosynthesis of active ingredients.

Development of RAPD-SCAR markers for Lonicera japonica (Caprifolicaceae) variety authentication by improved RAPD and DNA cloning / Desarrollo de marcadores RAPD-SCAR para Lonicera japonica Thunb. (Caprifolicaceae) para la autenticación de variedades mediante RAPD mejorados y clonación de ADN

Genetic diversity within a species is a common feature, which plays a vital role in its survival and adaptability, and is important for the identification and authentication of a species. Lonicera japonica is a traditionally used medicinal plant, which have been recently genetically characterized by an improved ran- dom amplified polymorphic DNA (RAPD) analysis. In this study, the molecular markers on the basis of these RAPD fragments have been developed to identify specific L. japonica variety. The DNAs were extracted from fresh young leaves of different samples of L. japonica collected from Shenzhen, Yichang, Leshan, Emei and Loudi, China. The DNA materials were amplified using improved RAPD PCR. Different RAPD bands were excised, cloned and developed for stable sequence-characterized amplified region (SCAR) markers with differ- ent species. Two SCAR markers, JYH3-3 and JYH4-3, have been successfully cloned from improved RAPD fragments. The SCAR marker JYH3-3 was found specific for all of the L. japonica samples collected from the different regions, and another marker JYH 4-3 was strictly specific to the Shenzhen sample from Guangdong province, which is geographically distant from Hubei, Sichuan and Hunan Provinces (source of other L. japonica samples). The marker JYH3-3 was found as specific molecular marker for the identification of L. japonica, while JYH4-3 was found as molecular marker strictly specific for the Shenzhen sample. The developed SCAR mark- ers might serve as more specific molecular markers for L. japonica variety authentication. The combination of improved RAPD analysis and SCAR marker development have resulted useful tools to study the genetic variety of any organism, which we have successfully applied here in L. japonica.

La diversidad genética dentro de una especie es una característica común, que juega un papel vital en su supervivencia y adaptabilidad, y es importante para la identificación y la autenticación de una especie. Lonicera japonica es una planta medicinal utilizada tradicionalmente, que han sido recientemente caracterizada genéticamente por amplificación aleatoria mejorada de ADN polimórfico (RAPD). En este estudio, los marcadores moleculares basados en estos fragmentos de RAPD se han desarrollado para identificar una variedad específica de L. japonica. Los ADN se extrajeron de las hojas jóvenes frescas de diferentes muestras de L. japonica recogidas de Shenzhen, Yichang, Leshan, Emei y Loudi, China. Los materiales de ADN fueron amplificados utilizando el RAPD PCR mejorado. Diferentes bandas RAPD fueron extraídas, clonadas y desarrolladas para las regiones amplificadas de secuencia conocida (SCAR) con marcado- res de diferentes especies. Dos marcadores SCAR, JYH3-3 y JYH4-3, se clonaron con éxito de los RAPD mejorados. El marcador SCAR JYH3-3 se encontró específico para todas las muestras de L. japonica recolectadas en las diferentes regiones, mientras que el otro marcador JYH4-3 era estrictamente específico para la muestra de Shenzhen de la provincia de Guangdong, que está geográficamente distante de Hubei, Sichuan y Provincias Hunan (fuente de otras muestras de L. japonica). Se encontró que JYH3-3 es un marcador molecular específico para la identificación de L. japonica, mientras que JYH4-3 se encontró como marcador molecular estrictamente específico para la muestra de Shenzhen. Los marcadores SCAR desarrollados podrían servir como marcadores moleculares más específicos para la autenticación de la variedad L. japonica. La combi- nación de RAPD mejorado y el desarrollo del marcador SCAR han dado como resultado herramientas útiles para el estudio de la variedad genética de cualquier organismo, que hemos aplicado con éxito en L. japonica.

[Comparison and analysis of wild and cultivated Lonicerae japonicae flos from Xinmi].

OBJECTIVE: To compare and analyze the wild and cultivated Lonicerae Japonicae Flos from Xinmi. METHODS: Macroscopic identification and microscopic identification were adopted to compare and analyze characteristics of the wild and cultivated Lonicerae Japonicae Flos from Xinmi. The content of chlorogenic acid and luteoloside were determined by the methods in the Chinese Pharmacopoeia. DNA molecular marker technology was used to identify Lonicerae Japonicae Flos of different varieties. RESULTS: The differences in macroscopic and microscopic characteristics as well as the content of chlorogenic acid and luteoloside between them had been found. PCR amplification reaction system and procedure of Lonicerae Japonicae Flos from Xinmi were optimized. An effective primer for identification was chosen from 11 primers. CONCLUSION: The results provide the scientific basis for quality assessment of Lonicerae Japonicae Flos from Xinmi.

[Study on physiological trait changes in growth process of different varieties of Lonicera japonica].

OBJECTIVE: To study the physiological trait changes in the growth process of different varieties of Lonicera japonica, and to explore the growth regularity. METHODS: Length, color, flowering rate and drying rate in the growth and development process of different varieties of Lonicera japonica were observed. Nonlinear regression analysis was used to conclude the growth simulation curve equation. RESULTS: Among different varieties and different sections of the same branch, the growth showed a similar law, the drying rates of the 'sanqing' period got the maximum value in all of the three varieties, the weight of the flower in 'erbai' period was the highest, and no differences between varieties. The R2 of the two curve equations was 0.996 and 0.995, respectively. CONCLUSION: Both of two curve equations can reply the growth regularity of Lonicera japonica flower very well. Study on the growth process systematically can guide the agricultural production very well.

[Literature study on species of honeysuckle flower].

Honeysuckle flower is a traditional herbal medicine in China Through systemically sorting and studying literature of Chinese medicine, this article pointed out that leech used by the traditional Chinese medicine in ancient time has the features of twist vine, slight purple stem with clothing hair; opposite growing leaves, ovule shape with clothing hair on both side; two flowers growing from one pedicel, labiate corolla with 3.2 cm longth, flower grows from white color to yellow color, each branch axil grows only one pedicel, the involucre is ovoid shape, and the flower season is from mid-March to mid-May. Among all species of caprifoliaceae, only Lonicera japonica Thunb. meets these botanic features. Therefore, L. japonica Thunb. should be used as the orthodox species of herbal honeysuckle flower.

[Karyotype analysis of three Lonicera species growth in Sichuan].

OBJECTIVE: To provide the genetic reference for development and application of Lonicera species growth in Sichuan. METHODS: Shoot apices cells from Lonicera japonica, Lonicera japonica var. chinensis and Lonicera similis (cultivars) were used to make the chromosomal preparation. Their karyotypes were analyzed and the relevant parameters of chromosomes were measured by improved chromosome preparation technique. RESULTS: The chromosome numbers of three Lonicera species were 2n = 2X = 18; their chromosome length was 30.747, 33.231 and 36.948 microm; Their karyotype formula was 2n = 2X = 18 = 2m + 7sm, 2n = 2X = 18 = 8m + 8sm + 2st and 2n = 2X = 18 = 8sm + 10m; Their As. k was 64.013%, 64.380% and 61.949%; And their karyotypes belonged to 2B, 2B and 2A type, respectively. CONCLUSION: These three Lonicera species can be of the germplasm resources for widely cultivating since they have high degree genetic evolution.

[Numerical taxonomy of agronomic trait in cultivated Lonicera japonica].

Sixty-three morphological traits from 743 specimens of the 41 taxa within the cultivated Lonicera japonica were observed and measured, such as the height of plants, the length of leaf, the width of leaf, the length of anther, the alabastrum's number of one branch, the color of alabastrum and so on. A numerical taxonomy is presented by using the cluster analysis, principal components analysis (PCA) and factor analysis. Sixteen of 63 characters were screened by means of PCA and used for cluster analysis of 41 taxa with the method of Ward linkage and average euclidean distance. The cluster analysis showed that the 41 taxa could be divided into 5 groups when the Euclidean distance coefficient was 11.84. The factor analysis indicated that the shape of leaf, color of alabastrum, the pilosity and color of twiggery were of significance for the cultivated L. japonica classification. The results of this study will be a base for the core collection and breeding of L. japonica.

[Restriction endonuclease digest - melting curve analysis: a new SNP genotyping and its application in traditional Chinese medicine authentication].

Single nucleotide polymorphisms (SNP) is an important molecular marker in traditional Chinese medicine research, and it is widely used in TCM authentication. The present study created a new genotyping method by combining restriction endonuclease digesting with melting curve analysis, which is a stable, rapid and easy doing SNP genotyping method. The new method analyzed SNP genotyping of two chloroplast SNP which was located in or out of the endonuclease recognition site, the results showed that when attaching a 14 bp GC-clamp (cggcgggagggcgg) to 5' end of the primer and selecting suited endonuclease to digest the amplification products, the melting curve of Lonicera japonica and Atractylodes macrocephala were all of double peaks and the adulterants Shan-yin-hua and A. lancea were of single peaks. The results indicated that the method had good stability and reproducibility for identifying authentic medicines from its adulterants. It is a potential SNP genotyping method and named restriction endonuclease digest - melting curve analysis.

Predicting the function of 4-coumarate:CoA ligase (LJ4CL1) in Lonicera japonica.

4-Coumarate:CoA ligases (4CLs) are a group of essential enzymes involved in the pathway of phenylpropanoid-derived compound metabolisms; however it is still difficult to identify orthologs and paralogs of these important enzymes just based on sequence similarity of the conserved domains. Using sequence data of 20 plant species from the public databases and sequences from Lonicera japonica, we define 1252 adenosine monophosphate (AMP)-dependent synthetase/ligase sequences and classify them into three phylogenetic clades. 4CLs are in one of the four subgroups, according to their partitioning, with known proteins characterized in A. thaliana and Oryza sativa. We also defined 184 non-redundant sequences that encode proteins containing the GEICIRG motif and the taxonomic distribution of these GEICIRG-containing proteins suggests unique catalytic activities in plants. We further analyzed their transcription levels in L. japonica and L. japonica. var. chinensis flowers and chose the highest expressed genes representing the subgroups for structure and binding site predictions. Coupled with liquid chromatography-mass spectrometry (LC-MS) analysis of the L. japonica flowers, the structural study on putative substrate binding amino acid residues, ferulate, and 4-coumaric acid of the conserved binding-site of LJ4CL1 leads to a conclusion that this highly expressed protein group in the flowers may process 4-coumarate that represents 90% of the known phenylpropanoid-derived compounds. The activity of purified crude LJ4CL1 protein was analyzed using 4-coumarate as template and high activity indicating that 4-coumarate is one of the substrates of LJ4CL1.

[Rapid PCR authentication Lonicera japanica].

To simply and rapid authenticate Lonicera japanica. Rapid allele-specific PCR primer was designed base on trnL-trnF 625 G/T Single nucleotide polymorphism and the PCR reaction systems including annealing temperature was optimized; optimized results were performed to authenticate L. japanica and its 9 adulterants. When 100 x SYBR Green I was added in the PCR product of 87 degrees C initial denatured 1 min; 87 degrees C denatured 5 s, 68 degrees C annealing 5 s, 30 cycle; L. japanica visualize strong green fluorescence under 365 nm UV lamp whereas adulterants without. The results indicate rapid allele-specific PCR could authenticate L. japanica and its adulterants rapidly and simply.

Development of RAPD-SCAR markers for Lonicera japonica (Caprifolicaceae) variety authentication by improved RAPD and DNA cloning.

Genetic diversity within a species is a common feature, which plays a vital role in its survival and adaptability, and is important for the identification and authentication of a species. Lonicera japonica is a traditionally used medicinal plant, which have been recently genetically characterized by an improved ran- dom amplified polymorphic DNA (RAPD) analysis. In this study, the molecular markers on the basis of these RAPD fragments have been developed to identify specific L. japonica variety. The DNAs were extracted from fresh young leaves of different samples of L. japonica collected from Shenzhen, Yichang, Leshan, Emei and Loudi, China. The DNA materials were amplified using improved RAPD PCR. Different RAPD bands were excised, cloned and developed for stable sequence-characterized amplified region (SCAR) markers with differ- ent species. Two SCAR markers, JYH3-3 and JYH4-3, have been successfully cloned from improved.RAPD fragments. The SCAR marker JYH3-3 was found specific for all of the L. japonica samples collected from the different regions, and another marker JYH 4-3 was strictly specific to the Shenzhen sample from Guangdong province, which is geographically distant from Hubei, Sichuan and Hunan Provinces (source of other L. japonica samples). The marker JYH3-3 was found as specific molecular marker for the identification of L. japonica, while JYH4-3 was found as molecular marker strictly specific for the Shenzhen sample. The developed SCAR markers might serve as more specific molecular markers for L. japonica variety authentication. The combination of improved RAPD analysis and SCAR marker development have resulted useful tools to study the genetic variety of any organism, which we have successfully applied here in L. japonica.

Molecular authentication of multi-species honeysuckle tablets.

Authenticating multi-species original raw materials in commercial formulations is difficult. Jin Yin Hua and Shan Yin Hua, both classified as raw honeysuckle materials in the Chinese Pharmacopoeia, are used in various medicines. Differentiating one variety from another is difficult based on chemical analysis. We developed molecular authentication of multi-species original honeysuckle in 3 brands of commercial tablets using allele-specific PCR. All 3 tablets contained both Jin Yin Hua and Shan Yin Hua. We also built a PCR-enzyme digestion method and enzymatic mutation detection in the PCR fragments of psbA-trnH and trnL-trnF, and the restriction endonucleases HinfI and NlaIV, respectively. The PCR-enzyme digestion method produced the same result as the allele-specific PCR. Sequence and phylogenetic analyses show that the tablets YXC and YQJ contained Lonicera japonica and L. macranthoides as original raw materials, and LYG contained L. japonica, L. hypoglauca, and L. macranthoides.