ObjectiveTo investigate the alleviating effect of calcium cyanamide （CaCN₂） soil fumigation on replanting problems of Rehmannia glutinosa. MethodsNewly soil （NP） was used as the control group， while three treatment groups were established： replanted soil （RP）， newly soil treated with CaCN₂ （120 g·m²， tillage depth 25 cm） （NPCC）， and replanted soil treated with CaCN₂ （RPCC）. R. glutinosa was cultivated in all groups. At harvest， the tuber agronomic traits （number of enlarged roots， maximum root diameter， fresh weight， dry weight） were measured. The content of catalpol and rehmannioside D was quantified by ultra-high-performance liquid chromatography （UPLC） to evaluate medicinal quality. Rhizosphere soil available nutrients and enzyme activities were analyzed by assay kits. The community structure and composition of fungi and bacteria in rhizosphere soil were assessed via internal transcribed spacer 2 （ITS2） sequencing and 16S rDNA sequencing， respectively. ResultsCompared with NP， the RP group showed obviously reduced in tuber agronomic traits and quality indicators （P0.05）. However， the RPCC group showed significant improvement in agronomic traits and a notable increase in rehmannioside D content compared to RP （P0.05）. The contents of available phosphorus and potassium in RPCC and NP groups were obviously lower than those in RP （P0.05）. The polyphenol oxidase soil （S-PPO） activity in RP was obviously lower than in NP （P0.05）， while sucrose soil （S-SC）， acid phosphatase soil （S-ACP）， and S-PPO activities in RPCC were obviously higher than in RP （P0.05）. Microbial richness and diversity in RP were obviously higher than in NP （P0.05）， whereas no significant differences were observed between the RPCC and NP. The relative abundances of fungal genera Nectria， Myrothecium， Tomentella， and bacterial genus Skermanella were obviousl lower in RPCC and NP than in RP （P0.05）. Correlation analysis that S-ACP activity was positively correlated with the content of rehmannioside D （P0.05）. Fungal genera Engyodontium and Alternaria， and bacterial genera Pir4 lineage， Pirellula， Methyloversatilis， Brevundimonas， Ralstonia， and Acidibacter were obviously positively correlated with tuber dry weight （P0.05）. Conversely， fungal genera Pseudaleuria， Nectria， Haematonectria， Ceratobasidium， and bacterial genera Streptomyces， Skermanella， RB41， Gemmatimonas， and Bacillus were obviously negatively correlated with dry weight （P0.05）. The fungal genus Alternaria and bacterial genera Brevundimonas， Ralstonia， Acidibacter， and Dongia showed positive correlations with medicinal quality of R.glutinosa tuber， while fungal genera Pseudaleuria， Nectria， Stachybotrys， Fusarium， Gibberella， Ceratobasidium， and bacterial genera Sphingomonas， Skermanella， RB41， Gemmatimonas， and Bacillus were obviously negatively correlated （P0.05）. ConclusionCaCN₂ soil fumigation can significantly improve enzyme activities in replanted Rehmannia rhizosphere soil， enhance the utilization of available nutrients， reshape microbial community structure of replanted R.glutinosa at the family and genus level， and notably improve tuber agronomic traits and medicinal quality. This study provides a novel approach to alleviating replanting problems and offers insights for the integrated development of standardized cultivation techniques， including soil disinfection， nutrient-targeted regulation， and microbial inoculant application.

ObjectiveTo reveal the correlation of Rehmannia glutinosa-soil feedback process with the formation of its continuous cropping obstacles through the identification of the root exudates of R. glutinosa and analysis of the specific rhizomicrobes recruited by the root exudate. MethodThe root exudates of R. glutinosa seedlings germinated under sterilized condition and those enriched in the rhizosphere of R. glutinosa cultivated in the field were collected and analyzed using the ultra-performance liquid chromatography quadrupole time-of-flight mass spectrometry（UPLC-Q-TOF-MS）. The highly abundant compounds identified in the root exudates were added into blank soil， and the soil microbial community was profiled using Illumina Miseq sequencing. The bacterial and fungal functions were predicted by PICRUSt and FUNGuild， respectively. ResultThe identification results showed that seven phenylethanoid glycosides were found in R. glutinosa root exudates， and acteoside possessed the highest abundance. In the soil enriched with acteoside， the bacterial genera such as Agromyces， Pseudomonas， Lysobacter， Sphingobium， Pseudoxanthomonas and Sphingomonas were enriched. For the fungi， the genera Neocosmospora， Plectosphaerella and Dactylonectria， and the species such as Neocosmospora rubicola， Plectosphaerella cucumerina， Dactylonectria alcacerensis and Fusarium solani showed higher abundance. The functional analysis indicated the above-mentioned bacterial genera may realize rapid proliferation by utilizing， biodegrading and transforming phenylethanoid glycosides， and some potential fungal pathogens were colonized. ConclusionThe R. glutinsoa-soil feedbacks were likely generated by the phenylethanoid glycosides in the root exudates together with the specific rhizomicrobes. The investigations of R. glutinsoa-soil feedbacks under continuous cropping system are critical to the further understanding of the underlying mechanisms related to its continuous cropping obstacles.

ObjectiveTo investigate the correlation among the botanical characteristics， biological characteristics， chemical composition， and medicinal properties and efficacy of traditional Chinese medicines （TCM） from latex-containing plants， so as to strengthen the theory of "identifying symptoms for qualities" and provide a reference for the development and utilization of the latex-containing plant resources. MethodStatistics on the meridians for properties and tastes， efficacy， medicinal parts， family and genus， and chemical components of TCM from latex-containing plants were carried out. A total of 53 TCM from latex-containing plants included in the 2020 edition of the Chinese Pharmacopoeia were screened by mining the Chinese Botanical Journal， Chinese Materia Medica， Dictionary of Traditional Chinese Medicines， and related literature. In addition， their meridians for properties and tastes， medicinal parts， chemical components， and TCM classifications were summarized and statistically analyzed by using Excel 2013 and ChiPlot 2023.3.31 software. ResultIt was found that latex-containing plants were mainly distributed in one kingdom， one phylum， two classes， and 20 families， and most of the TCM from latex-containing plants belonged to Dicotyledonaceae under Angiosperms. In terms of properties and tastes， plain>cold>warm>cool>hot and bitter>pungent>sweet>sour>salty. In terms of meridians， liver>lung>kidney>spleen=large intestine=stomach>heart>bladder=gallbladder=small intestines. In terms of medicinal parts， roots （root， rhizomes， tuberous root， and root bark）>resin>seed>whole herb （whole herb and above-ground part）>stem （stem and branch）>fruit>leaf>flower=skin. In terms of research on chemical components， they were mostly glycosides. In terms of TCM classification， they were mostly medicines for activating blood circulation and removing blood stasis. ConclusionThe TCM from latex-containing plants is mainly plain， with a uniform warm and cold distribution. The tastes are mainly bitter and pungent， and the major meridians are the liver and lung. The roots and resins are mainly used as medicines. The components mostly contain glycosides， alkaloids， and volatile oils， and most of them are medicines for activating blood circulation and removing blood stasis， as well as for removing heat and toxins. There is a certain degree of correlation among the growth habits， medicinal parts， chemical components， and the properties， tastes， and efficacy of the TCM from latex-containing plants. It may provide a reference for resource development and utilization of TCM from latex-containing plants.

ObjectiveThe relevant laws among the biological characteristics， medicinal parts， growth environment， and medicinal properties and efficacy of traditional Chinese medicines （TCM） from fungi were excavated， so as to strengthen the theory of distinguishing symptoms for quality and provide a reference for the development and utilization of TCM from fungi. MethodThe medicinal parts， meridians for properties and tastes， heterotrophic mode， and efficacy of commonly used TCM from fungi were summarized. By consulting the Compendium of Materia Medica， Shennong Materia Medica， Flora of China， and literature， the TCM from fungi indexed in the 2020 edition of the Chinese Pharmacopoeia and some local pharmacopeias were checked. ResultA total of 28 common TCM from fungi were selected. Different TCMs from fungi have different meridians for properties and tastes， medicinal parts， habits， and growth environments. The relevant information was counted. Among the four properties， plain>cold>warm. Among the five tastes， sweet>bitter>light>pungent=salty. In terms of medicinal parts， fruiting body>sclerotia>complex>spermia=outer skin=other. In terms of meridians， lung>liver=heart>spleen=kidney>stomach. In terms of habits， parasitism>saprophysis>symbiosis=facultative parasitism=facultative saprophysis. ConclusionTCM from fungi are mainly parasitic and saprophytic， and the plain property and sweet taste the most. The meridians are mostly lung， heart， and liver. Nourishment and diuresis are the main efficacy. There is a certain correlation between the color， habit， medicinal parts， and growth environment of TCM from fungi and their properties， tastes， and efficacy， providing comprehensive literature reference and theoretical basis for their in-depth research， clinical use， and resource development.

ObjectiveTo investigate the functions and characteristics of traditional Chinese medicine （TCM） from plant skin and their Chinese patent medicines and explore the related laws of the medicinal tissue， property， taste， efficacy， and clinical application， so as to strengthen the theory of identifying symptoms for qualities and provide references for the development and utilization of TCM from plant skin and their Chinese patent medicines. MethodBy reviewing the 2020 edition of the Chinese Pharmacopoeia and some local pharmacopeias， TCM from plant skin and their Chinese patent medicines were screened out， and the characteristics， functions， and precautions of TCM from plant skin and their Chinese patent medicines were summarized. Statistical analysis was carried out with Excel. ResultA total of 62 TCM from plant skin were found， mainly distributed in one kingdom， three phyla， and 31 families. In terms of the family genus， Rutaceae>Leguminosae>Cucurbitaceae. In terms of the medicinal tissue， bark>root bark>fruit bark>seed bark. In terms of property and taste， warm>cold>plain>cool>hot， and bitter>sweet=pungent>acidic. In terms of meridians， lung>liver>spleen>heart>colorectal>kidney>stomach=bladder. In terms of TCM classification， most of them belong to the category of heat-clearing medicines. There were 485 types of Chinese patent medicines from plant skin， with the most Chinese patent medicines containing Citri Reticulatae Pericarpium. Among the forms of administration， pills were the most predominant. In terms of the tastes of the medicines， bitter and sweet flavors predominated. In terms of functions， medicines for strengthening the body resistance were the most. For the precautions， contraindications during pregnancy were the most common. ConclusionThere is a correlation among medicinal tissue， property， taste， efficacy， and clinical application of TCM from plant skin. It is also necessary to pay attention to the contraindications of the medicines and rationally choose TCM from plant skin and their Chinese patent medicines under the guidance of TCM theory based on syndrome differentiation and treatment.

ObjectiveTo explore the correlations between botanical characteristics， biological characteristics， growth environment， and medicinal properties of common pteridophyte-derived Chinese medicinal materials， thus providing evidence for the theory of quality evaluation through morphological identification and giving insights into the extensive and reasonable application of pteridophytes in traditional Chinese medicine （TCM）. MethodThe medicine parts， habitats， natures， tastes， and effects of the commonly used pteridophyte-derived Chinese medicinal materials were summarized. The commonly used pteridophyte-derived Chinese medicinal materials were retrieved from the Pharmacopoeia of China， Dictionary of Chinese Materia Medica， and related literature. Excel 2016， ChiPlot， Cytoscape 3.7.1， SPSS 21.0， and weiciyun software were used for statistical analysis. ResultThe frequency of the habitats followed the trend of streamside wetland>tree trunk and rock crevices>sunslope>water surface. The frequency of medicinal parts presented the trend of whole plant>rhizome>leaf>dried aboveground part>spore. The frequency of natures was in the order of cool>cold>plain>warm>hot， and that of tastes was in an order of bitter>pungent>sweet>bland>salty. The frequency of meridian tropism followed the trend of liver meridian>stomach meridian>lung meridian>kidney meridian>bladder meridian>heart meridian>large intestine meridian>spleen meridian>small intestine meridian. The effects of the pteridophyte-derived Chinese medicinal materials followed a frequency trend of clearing heat and detoxifying>promoting urination and relieving stranguria>cooling blood and stopping bleeding>activating blood and resolving stasis>dispelling wind and eliminating dampness. ConclusionThe pteridophyte-derived Chinese medicinal materials mainly have a cool nature， a bitter taste， and tropism to the liver meridian. Whole plants and roots are mainly used for medicinal purposes， and most of these plants grow in the wetlands near rivers， under trees， and in tree trunk and rock crevices. The main effects of these medicinal materials are clearing heat and detoxifying， dispelling wind and removing dampness， cooling blood and stopping bleeding， activating blood and resolving stasis， and soothing meridians and dredging collaterals. There are certain correlations between the structures， habitats， medicinal parts， and effects of pteridophyte-derived Chinese medicinal materials， which provide reference for the development and utilization of pteridophyte-derived Chinese medicinal material resources.

ObjectiveTo explore the correlations between the medicinal parts， habitats， tissue， components， and medicinal properties （natures， tastes， and effects） of 100 aquatic Chinese medicinal plants， thus providing evidence for the relationship between image and analogy and laying a theoretical foundation for the clinical use and development of aquatic Chinese medicinal plant resources. MethodThe Aquatic Plants of China， Flora of China， and related literature were searched， and a total of 100 aquatic Chinese medicinal plants included in the Chinese Pharmacopoeia （2020 edition）， Chinese Materia Medica， National Compilation of Chinese Herbal Medicines， Dictionary of Chinese Materia Medica， and local standards were screened out. The medicine-taxonomic status-life habit associations and nature-component-traditional Chinese medicine classification-pharmacological effect associations were analyzed respectively. ResultThe aquatic Chinese medicinal plants mostly had a cold nature， bitter， pungent， and sweet tastes， and tropism to the liver meridian. The whole plant or aerial part was mainly used for medicinal purposes， and these plants generally had well developed aerenchyma. These plants mainly contained flavonoids， alkaloids， and volatile oils and had the effects of clearing heat， detoxifying， and promoting urination. ConclusionThere are correlations between the medicinal parts， habitats， tissue， components， medicinal properties， and effects of aquatic Chinese medicinal plants， which provide reference for the development and utilization of aquatic Chinese medicinal plant resources.

ObjectiveTo make statistics on the biological characteristics， medicinal parts， chemical components， and other aspects of thorny medicinal plants and systematically analyze the correlations between their natures， tastes， and meridian tropism， so as to provide a theoretical basis for the clinical application and resource development of these plants. MethodThe Chinese Pharmacopoeia （2020 edition） and the processing standards of various provinces and cities and other related documents were reviewed， on the basis of which 46 species of thorny medicinal plants were selected. The natures， tastes， meridian tropism， medicinal parts， chemical components， pharmacological activities， and geographical distribution of these plants were summarized and analyzed in Excel 2013 and SPSS Statistics 26.0. ResultThe 46 species of thorny medicinal plants belonged to 25 families， 1 class， 1 phylum of 1 kingdom. In terms of the location of thorns， the frequency of these medicinal plants followed the trend of leaf thorns>peel thorns>branch thorns>fruit thorns. In terms of the nature， taste， and meridian tropism， the frequency of these plants was in the orders of warm>plain>cold>cool>hot， bitter>sweet>pungent>sour>salty， and liver>lung>spleen=large intestine>heart>kidney， respectively. In terms of the medicinal parts， the frequency followed the trend of roots and rhizomes>fruits>whole plants>flowers>leaves. The thorny medicinal plants were mainly distributed in north and southwest China. The thorny medicinal plants mainly contained flavonoids， alkaloids， and saponins and had the effects of clearing heat and detoxifying， resolving stasis and eliminating carbuncle， moving Qi and relieving pain， and alleviating edema and expelling pus. Moreover， 24 of them had anti-tumor activity. ConclusionMost of the thorny medicinal plants belong to Compositae， Leguminosae， and Rosaceae， have leaf thorns， a warm nature， a bitter taste， tropism to the liver meridian， and roots as the medicinal part. These plants are mainly distributed in north China， with the effects of clearing heat and detoxifying， resolving stasis and eliminating carbuncle. In summary， the thorn location， distribution， and medicinal parts of thorny medicinal plants are correlated with the natures， tastes， and meridian tropism. The findings provide clues for the development and utilization of these plants.

ObjectiveTo study the composition of volatile oil in Opisthopappus taihangensis （Taihangju）， and provide a reference for comprehensive development of this medicine. MethodTaking Chrysanthemum morifolium （Xiaobaiju）， C. morifolium （Xiaohuangju） and C. indicum （Yejuhua） as control， the qualitative and quantitative analysis of volatile oil in Taihangju and three control varieties were completed by gas chromatography-mass spectrometry （GC-MS） combined with retention index method. The GC conditions were as following：programmed temperature （initial temperature at 60 ℃， kept for 2 min； up to 120 ℃ with the heating rate of 5 ℃·min^-1， still kept for 2 min； up to 180 ℃ with the heating rate of 2 ℃·min^-1， kept for 3 min； and then up to 240 ℃ with the heating rate of 8 ℃·min^-1， kept for 5 min； finally up to 280 ℃ with the heating rate of 10 ℃·min^-1， kept it for 5 min and finished）， high-purity helium as the carrier gas， the split ratio of 50∶1. MS conditions were as follows：electron impact ion source （EI）， ion source temperature of 230 ℃， electron collision energy of 70 eV and scanning range of m/z 30-445. Principal component analysis （PCA） and orthogonal partial least squares-discriminant analysis （OPLS-DA） were used to obtain the characteristic components between Taihangju and the three control varieties. ResultA total of 86， 96， 112 and 109 compounds including 73 common components were identified in Taihangju， Xiaobaiju， Xiaohuangju and Yejuhua， respectively. The contents of volatile components in Taihangju were significantly different from that of the control varieties. In which， the relative contents of α-thujone， eucalyptol and terpinen-4-ol were high in Taihangju， and eucalyptol， camphor and α-terpinyl acetate were the main compositions in the control varieties. In addition， 11 compounds were screened as characteristic components to distinguish Taihangju and the three control varieties by PCA and OPLS-DA， including main differential components of chamazulene and δ-cadinene. ConclusionThe main components of volatile oil in Taihangju includes alcohols， terpenes， ketones and esters with high medicinal value. The accuracy of qualitative analysis of volatile oil is improved by GC-MS combined with retention index method， which provides scientific reference for development and utilization of Taihangju.

To explore the effect of geniposidic acid (GPA) on the signal pathway of small heterodimer dimer receptor (SHP) and liver receptor homologue 1 (LRH-1) in cholestasis rats induced by alpha-naphthalene isothiocyanate (ANIT).
 Methods: Fifty SD rats were randomly divided into five groups: a blank group, an ANIT group, an ANIT+GPA (100 mg/kg) group, an ANIT+GPA (50 mg/kg) group, and an ANIT+GPA (25 mg/kg) group (n=10 in each group). The GPA were intragastrically given to rats for 10 days, and the control group and the ANIT group were given normal saline. At the eighth day of administration, all rats except the blank group were given 65 mg/kg ANIT once until the tenth day. After the last administration, serum total cholesterol (TC), triglyceride (TG) and total bile acids (TBA) were measured. The primary hepatocytes (RPH) were isolated from normal rats and cultured. The cells were divided into a blank group, an ANIT (40 μmol/L) group, an ANIT (40 μmol/L)+GPA (4.00 mmol/L) group (A4.00G group), an ANIT (40 μmol/L)+GPA (1.00 mmol/L) group (A1.00G group), and an ANIT (40 μmol/L)+GPA (0.25 mmol/L) group (A0.25G group). The mRNA transcription levels of SHP and cholesterol 7 alpha hydroxylase (CYP7A1) in RPH were detected by real-time-PCR, and the protein levels of SHP and CYP7a1 were detected by Western blotting. In the LRH-1 silence experiment, the RPH were divided into a blank group, a negative transfection group, a siRNA-LRH group (ZR group), a siRNA-LRH+GPA (4.00 mmol/L) group (ZR4.00G group), a siRNA-LRH+GPA (1.00 mmol/L) group (ZR1.00G group) and a siRNA-LRH+GPA (0.25 mmol/L) group (ZR0.25G group). The protein and mRNA levels of SHP, CYP7a1, LRH-1 were detected. In the over-expression experiment, the RPH were also divided into a blank group, a negative transfection group, a LRH-1 over-expression plasmid group (OE group), a LRH-1 over-expression plasmid+GPA (4.00 mmol/L) group (OE4.00G group), a LRH-1 over-expression plasmid+GPA (1.00 mmol/L) group (OE1.00G group), and a LRH-1 over-expression plasmid+GPA (0.25 mmol/L) group (OE0.25G group). The protein and mRNA levels of SHP, CYP7a1 and LRH-1 were detected.
 Results: Compared with the blank control group, TC and TBA were significantly increased (both P<0.01) in the ANIT group, but there was no difference in TG; compared with the ANIT group, the contents of TC and TBA in the AG100 and AG50 groups were significantly reduced (all P<0.01). Compared with the blank control group, the proteins and mRNA levels of SHP were significantly decreased (P<0.01), while CYP7a1 were dramatically increased (P<0.01) in the ANIT group; compared with the ANIT group, the proteins and mRNA levels of SHP in the A4.00G group and the A1.00G group were significantly increased (both P<0.01), while the levels of CYP7a1 proteins and mRNA levels were evidently decreased in the A4.00G and A1.00G groups (both P<0.01). Compared with the negative transfection group, the proteins and mRNA levels of CYP7a1 and LRH-1 were dramatically restrained (all P<0.01), while there was no change in SHP in the ZR group; compared with the ZR group, the proteins and mRNA levels of SHP were significantly increased (all P<0.01), while LRH-1 and CYP7a1 were not changed in the ZR4.00G, ZR1.00G and ZR0.25G groups. Compared with the negative transfection group, the protein and mRNA levels of CYP7a1 and LRH-1 were significantly suppressed in the OE group (all P<0.01). Compared with the OE group, the protein and mRNA levels of SHP were evidently increased in the OE4G and OE1G groups (all P<0.01), while LRH-1 and CYP7a1 were not changed in the OE4G, OE1G and OE0.25G groups.
 Conclusion: The over-expression of LRH-1 in RPH can up-regulate the mRNA and protein levels of CYP7a1. GPA can improve the biochemical and liver pathology of ANIT-induced cholestasis rats, which may be related to the decrease of CYP7a1 by activating SHP through LRH-1 in RPH.
Animals ; Cholestasis ; Iridoid Glucosides ; Rats ; Rats, Sprague-Dawley ; Receptors, Cytoplasmic and Nuclear ; Signal Transduction