Comparative analysis of medicinal plants Scutellaria baicalensis and common adulterants based on chloroplast genome sequencing.

BACKGROUND: Scutellaria baicalensis Georgi has been extensively used as a medicinal herb in China for over 2000 years. They may be intentionally or inadvertently substituted or blended with comparable species in the local market, threatening clinical medication safety. Molecular markers are effective tools to prevent misidentification and eliminate doping and falsification among Scutellaria plants. This study screened four highly variable regions to identify Scutellaria and its adulterants. In addition, a phylogenetic analysis was performed using the complete cp genome combined with published Scutellaria species samples. Moreover, a comparative analysis of the cp genomes was conducted to investigate the cp genome evolution of S. baicalensis. RESULTS: The complete cp genome of five species of Scutellaria was sequenced for the first time, and four previously published Scutellaria species were re-sequenced. They all exhibited a conserved quadripartite structure in their cp genomes, including two distinct regions, namely a small and large single copy region, respectively, and two inverted repeats encompassing the majority of ribosomal RNA genes. Furthermore, the nine species exhibited high conservation from aspects of the genome structure, codon usage, repeat sequences, and gene content. Four highly variable regions (matK-rps16, ndhC-trnV-UAC, psbE-petL, and rps16-trnQ-UUG) may function as potential molecular markers for differentiating S. baicalensis from its adulterants. Additionally, the monophyly of Scutellaria was ascertained and could be reclassified into two subgenera, subgenus Anaspis and subgenus Scutellaria, as evidenced by the phylogenetic analyses on sequences of cp genome and shared protein-coding sequences. According to the molecular clock analysis, it has been inferred that the divergence of Scutellaria occurred at approximately 4.0 Mya during the Pliocene Epoch. CONCLUSION: Our study provides an invaluable theoretical basis for further Scutellaria species identification, phylogenetics, and evolution analysis.

Multimodal integrated strategy for the discovery and identification of antiplatelet aggregation Q-markers in Paris polyphylla var. yunnanensis.

To enhance the quality evaluation and control of traditional Chinese medicine (TCM) and ensure the safety and efficacy of clinical medication, it is imperative to establish a comprehensive quality assessment method aligned with TCM efficacy. This study uses a representative Chinese medicine with multi-origin and multi-efficacy, Paris polyphylla var. yunnanensis (PY), as an illustrative example. Surprisingly, despite the high fingerprint similarity among the 12 batches of PY samples collected from various regions in Yunnan, a notable variation in the composition and content of components was observed. The chromatographic analysis identified seven common peaks, namely, polyphyllin I, polyphyllin II, polyphyllin V, polyphyllin VI, polyphyllin VII, polyphyllin H, and polyphyllin D. In the bioactivity evaluation, an in vitro antiplatelet aggregation model induced by adenosine diphosphate was established, showcasing excellent stability. The maximum antiplatelet aggregation inhibition rate for all PY samples consistently remained stable at 73.1%-99.1%. However, the 50% inhibitory concentration (IC50 ) values exhibited a range from 1.615 to 18.200 mg/mL. This approach not only meets high-throughput screening requirements but also demonstrates remarkable discrimination. The results of chemical and bioactivity evaluations were analyzed using hierarchical cluster analysis and canonical correlation analysis. Polyphyllin I, polyphyllin II, polyphyllin VII, polyphyllin H, and polyphyllin D were identified as the Q-markers for antiplatelet aggregation in PY samples. Validation of the bioactivity for these monomer components aligned with the previously mentioned findings. Notably, this study established a spectrum-effect model for PY samples, enhancing the scientific robustness of the quality evaluation method. Furthermore, these findings offer valuable research insights for improving the quality assessment of other TCMs.

Thyroid Nodules: Emerging Trends in Detection and Visualization based on Citespace.

BACKGROUND: Thyroid nodule (TN) is a highly prevalent clinical endocrine disease. Many countries have formed guidelines on the prevention and treatment of TN based on extensive research. However, there is a scarcity of TN-related literature based on bibliometrics. OBJECTIVES: This study aimed to evaluate the scientific achievements and progress of TN research from a global perspective by investigating the literature for 20 years through bibliometrics. METHODS: We searched the literature on TN in the core collection of the Web of Science database from 2002 to 2021 and used the Citespace software to analyze the co-authorship, co-citation, and co-occurrence of countries, institutions, authors, keywords, and co-cited literature. RESULTS: We retrieved 12319 documents related to TN. The literature on TN has been growing since 2002. The United States has contributed the largest proportion of TN papers (20.64%), followed by China, Italy, and South Korea. The United States ranked first in terms of centrality (0.38). Haugen BR, Gharib H, and Cibas ES are the top three most cited authors. The papers published in Thyroid were cited most frequently (7952 times). The most prominent keywords were management, cancer, fine needle aspiration, diagnosis, malignant tumor, thyroid cancer, ultrasound, biopsy, benign, surgery, ablation, and cytology. All keywords could be divided into three categories: diagnosis stratification, treatment, and cancer. As far as potential hot spots are concerned, the keywords that have recently burst strongly and are still continuing are: "Association Guideline" (2018-2021), "Radiofrequency Ablation" (2017-2021), "Classification" (2019-2021), and "Data System" (2017-2021). CONCLUSION: Based on the current trends, the number of publications on TN will continue to increase. The United States is the most active contributor to research in this field. Previous literature focused on stratification, cancer, surgery, and ablation, and there were different opinions on the stratification of diagnosis. There were relatively few studies on pathogenesis and treatment using medicine. More focus will be placed on association guidelines, radiofrequency ablation, classification, and data system, which may be the next popular topics in TN research.

Analysis of codon usage patterns in 48 Aconitum species.

BACKGROUND: The Aconitum genus is a crucial member of the Ranunculaceae family. There are 350 Aconitum species worldwide, with about 170 species found in China. These species are known for their various pharmacological effects and are commonly used to treat joint pain, cold abdominal pain, and other ailments. Codon usage bias (CUB) analysis contributes to evolutionary relationships and phylogeny. Based on protein-coding sequences (PCGs), we selected 48 species of Aconitum for CUB analysis. RESULTS: The results revealed that Aconitum species had less than 50% GC content. Furthermore, the distribution of GC content was irregular and followed a trend of GC1 > GC2 > GC3, indicating a bias towards A/T bases. The relative synonymous codon usage (RSCU) heat map revealed the presence of conservative codons with slight variations within the genus. The effective number of codons (ENC)-Plot and the parity rule 2 (PR2)-bias plot analysis indicate that natural selection is the primary factor influencing the variation in codon usage. As a result, we screened various optimal codons and found that A/T bases were preferred as the last codon. Furthermore, our Maximum Likelihood (ML) analysis based on PCGs among 48 Aconitum species yielded results consistent with those obtained from complete chloroplast (cp.) genome data. This suggests that analyzing mutation in PCGs is an efficient method for demonstrating the phylogeny of species at the genus level. CONCLUSIONS: The CUB analysis of 48 species of Aconitum was mainly influenced by natural selection. This study reveals the CUB pattern of Aconitum and lays the foundation for future genetic modification and phylogenetic analyses.

The potential, challenges, and prospects of the genus Spirulina polysaccharides as future multipurpose biomacromolecules.

Spirulina has been widely used worldwide as a food and medicinal ingredient for centuries. Polysaccharides are major bioactive constituents of Spirulina and are of interest because of their functional properties and unlimited application potential. However, the clinical translation and market industrialization of the polysaccharides from genus Spirulina (PGS) are retarded due to the lack of a further understanding of their isolation, bioactivities, structure-activity relationships (SARs), toxicity, and, most importantly, versatile applications. Herein, we provide an overview of the extraction, purification, and structural features of PGS; meanwhile, the advances in bioactivities, SARs, mechanisms of effects, and toxicity are discussed and summarized. Furthermore, the applications, potential developments, and future research directions are scrutinized and highlighted. This review may help fill the knowledge gap between theoretical insights and practical applications and guide future research and industrial application of PGS.

Bioactive polysaccharides from lotus as potent food supplements: a review of their preparation, structures, biological features and application prospects.

Lotus is a famous plant of the food and medicine continuum for millennia, which possesses unique nutritional and medicinal values. Polysaccharides are the main bioactive component of lotus and have been widely used as health nutritional supplements and therapeutic agents. However, the industrial production and application of lotus polysaccharides (LPs) are hindered by the lack of a deeper understanding of the structure-activity relationship (SAR), structural modification, applications, and safety of LPs. This review comprehensively comments on the extraction and purification methods and structural characteristics of LPs. The SARs, bioactivities, and mechanisms involved are further evaluated. The potential application and safety issues of LPs are discussed. This review provides valuable updated information and inspires deeper insights for the large scale development and application of LPs.

Extraction, structural-activity relationships, bioactivities, and application prospects of Bletilla striata polysaccharides as ingredients for functional products: A review.

Bletilla striata is a well-known medicinal plant with high pharmaceutical and ornamental values. Polysaccharide is the most important bioactive ingredient in B. striata and has various health benefits. Recently, B. striata polysaccharides (BSPs) have attracted much attention from industries and researchers due to their remarkable immunomodulatory, antioxidant, anti-cancer, hemostatic, anti-inflammatory, anti-microbial, gastroprotective, and liver protective effects. Despite the successful isolation and characterization of BSPs, there is still limited knowledge regarding their structure-activity relationships (SARs), safety concerns, and applications, which hinders their full utilization and development. Herein, we provided an overview of the extraction, purification, and structural features, as well as the effects of different influencing factors on the components and structures of BSPs. We also highlighted and summarized the diversity of chemistry and structure, specificity of biological activity, and SARs of BSP. The challenges and opportunities of BSPs in the food, pharmaceutical, and cosmeceutical fields are discussed, and the potential development and future study direction are scrutinized. This article provides comprehensive knowledge and underpinnings for further research and application of BSPs as therapeutic agents and multifunctional biomaterials.

Extraction, structural-activity relationships, bioactivities, and application prospects of Pueraria lobata polysaccharides as ingredients for functional products: A review.

Pueraria lobata (Willd.) Ohwi is an important resource with dual functions in medicine and food since ancient times. Polysaccharides are the main bioactive component of P. lobata and have various bioactivities, such as antidiabetic, antioxidant, immunological activities, etc. Due to the distinctive bioactivity of P. lobata polysaccharides (PLPs), the research on PLPs is booming. Although a series of PLPs have been isolated and characterized, the chemical structure and mechanism are unclear and need further study. Here, we reviewed recent progress in isolation, identification, pharmacological properties, and possible therapeutic mechanisms of PLPs to update awareness of these value-added natural polysaccharides. Besides, the structure-activity relationships, application status, and toxic effects of PLPs are highlighted and discussed to afford a deeper understanding of PLPs. This article may provide theoretical insights and technical guidance for developing PLPs as novel functional foods.

The complete chloroplast genome of Verbascum thapsus L. (Scrophulariaceae) and its phylogenetic affinities.

Verbascum thapsus L. has extensive pharmacological effects, including antioxidative and antineoplastic action, memory improvement and neuroprotection. However, its phylogenetic position is not established in Scrophulariaceae. In this study, we reported the complete chloroplast genome sequence of V. thapsus L. for the first time and investigate its phylogenetic relationship in Scrophulariaceae. The assembled chloroplast genome is a circular 153,338 bp sequence, including a large single copy (LSC) region of 84,627 bp, a small single copy (SSC) region of 17,829 bp and a pair of inverted repeats (IRs) of 25,441 bp. The genome contains 135 genes, including 86 protein coding genes, 37 tRNA genes, and eight rRNA genes. The phylogenetic tree showed that V. thapsus is closely associated with V. chinense and V. phoeniceum.

Sequencing and characterization of the chloroplast genome of Aconitum forrestii Stapf provide insights into phylogenetics in Aconitum.

Aconitum forrestii Stapf is an essential traditional Chinese medicine, and is beneficial in dispelling wind, removing dampness, warming, and relieving pain. However, its phylogenetic position of Aconitum is not accepted yet. In order to clarify the evolutionary relationship of A. forrestii, complete sequencing of chloroplast genome was carried out using Illumina sequencing technology. In total, the chloroplast genome was about 155,869 base pair (bp) in length and carried a typical tetrad structure that included a large single-copy, a small-single copy and two inverted repeat regions. A total of 132 genes were annotated, that included 85 protein -coding genes, 37 transfer RNA genes, eight ribosomal RNA genes, and two pseudogenes. The phylogenetic tree analysis indicated that Aconitum forrestii is closely related to Aconitum episcopale and Aconitum delavayi.

Comparative analysis of complete chloroplast genome of ethnodrug Aconitum episcopale and insight into its phylogenetic relationships.

Aconitum episcopale Leveille is an important medicinal plant from the genus Aconitum L. of Ranunculaceae family and has been used as conventional medicine in Bai, Yi, and other ethnic groups of China. According to the available data and Ethno folk applications, A. episcopale is the only Aconitum species that has detoxifying and antialcoholic property. It can detoxify opium, especially the poisoning of Aconitum plants. Aconitum species have been widely used for their medicinal properties, and it is important to be noted that many of the species of this plant are reported to be toxic also. Distinguishing the species of this plant based on the morphology is a tough task and there are also no significant differences in the chemical composition. Therefore, before application of this plant for medicinal usage, it is very important to identify the species which could be life-threatening and exclude them. In this paper, the complete chloroplast (cp) genome sequence of A. episcopale was acquired by Illumina paired-end (PE) sequencing technology and compared with other species in the same family and genus. Herein, we report the complete cp genome of A. episcopale. The whole circular cp genome of A. episcopale has been found to be of 155,827 bp in size and contains a large single-copy region (LSC) of 86,452 bp, a small single-copy region (SSC) of 16,939 bp, and two inverted repeat regions (IRs) of 26,218 bp. The A. episcopale cp genome was found to be comprised of 132 genes, including 85 protein-coding genes (PCGs), 37 transfer RNA genes (tRNAs), eight ribosomal RNA genes (rRNAs), and two pseudogenes. A total of 20 genes contained introns, of which 14 genes contained a single intron and two genes had two introns. The chloroplast genome of A. episcopale contained 64 codons encoding 20 amino acids, with the number of codons encoding corresponding amino acids ranging from 22 to 1068. The Met and Trp amino acids have only one codon, and other amino acids had 2-6 codons. A total of 64 simple sequence repeats (SSRs) were identified, among which mononucleotide sequences accounted for the most. Phylogenetic analysis showed that A. episcopale is closely related with A. delavayi. Cumulatively the results of this study provided an essential theoretical basis for the molecular identification and phylogeny of A. episcopale.

Comparative Analysis of the Chloroplast Genome for Aconitum Species: Genome Structure and Phylogenetic Relationships.

Aconitum is an important medicinal group of the Ranunculaceae family and has been used as conventional medicine in Bai, Yi, and other ethnic groups of China. There are about 350 Aconitum species globally and about 170 species in China. It is challenging to identify the species in morphology, and the lack of molecular biology information hinders the identification and rational utilization of the germplasm of this genus. Therefore, it is necessary to increase the molecular data of Aconitum species. This paper acquired the complete chloroplast (CP) genome sequence of ten medicinal plants of Aconitum species from Yunnan by Illumina paired-end (PE) sequencing technology and compared it with other species in the same family and genus. These CP genomes exhibited typical circular quadripartite structure, and their sizes ranged from 155,475 (A. stylosum) to 155,921 bp (A. vilmoinianum), including a large single-copy region (LSC), a small single-copy region (SSC), and two inverted repeat regions (IRs). Their gene content, order, and GC content (38.1%) were similar. Moreover, their number of genes ranged from 129 (A. vilmoinianum) to 132 (A. ramulosum), including 83 to 85 protein-coding genes (PCGs), 37 tRNA genes (tRNAs), eight rRNA genes (rRNAs), and two pseudogenes. In addition, we performed repeated sequence analysis, genomic structure, and comparative analysis using 42 Aconitum chloroplast genomes, including ten Aconitum chloroplast genomes and other sequenced Aconitum species. A total of 48-79 simple sequence repeats (SSRs) and 17 to 77 long repeat sequences were identified. IR regions showed higher variability than the SSC region and LSC region. Seven mutational hotspots were screened out, including trnK-UUU-trnQ-UGG, psbD, ndhJ-ndhK, clpP, psbH-petB, ycf1, and trnA-UGC-trnI-GAU, respectively. The phylogenetic trees of ten Aconitum species and other Aconitum species revealed that the complete CP genome was beneficial in determining the complex phylogenetic relationships among Aconitum species. This study provides a potential molecular marker and genomic resource for phylogeny and species identification of Aconitum species and an important reference and basis for Ranunculaceae species identification and phylogeny.

Comparative analysis of complete chloroplast genome sequences of five endangered species and new insights into phylogenetic relationships of Paris.

Paris L. genus has been a precious traditional herb for more than 2000 years in China. However, due to overexploitation and habitat destruction, Paris is threatened by extinction. Similar morphological features cause the classification of Paris species in dispute. The chloroplast (cp) genome approach has been used to investigate the evolution of Paris. However, some studies confirm that the cp genome may result in misleading relationships because of the length variation, gaps/indels deletion, and incorrect models of sequence evolution in concatenated datasets. Therefore, there is a high demand for a reconstructed phylogenetic relationship and developed genetic markers to conserve these species. Recent studies have demonstrated that the protein-coding genes could provide a better phylogenetic relationship in the phylogenetic investigation. In this study, the complete cp genomes of five species were characterized, and the length of five cp genomes ranges from 162,927 bp to 165,267 bp, covering 89 protein-coding genes, 38 tRNA, and eight rRNA. The analysis of the repeat sequences, codon usage, RNA-editing sites, and comparison of cp genomes shared a high degree of conservation. Based on the protein-coding genes, the phylogenetic tree confirmed Paris's position in the order Melanthiaceae, providing maximum support for a sister relationship of the subgenera Paris sensu strict (Paris s.s.) with the Daiswa and Trillium. In addition, the molecular clock showed that subgenus Paris was inferred to have occurred at about 52.81 Mya, whereas subgenus Daiswa has originated at 24.56 Mya, which was consistent with the phylogenetic investigation. This study provided a valuable insight into the evolutionary dynamics of cp genome structure in the family Melanthiaceae, and it also contributes to the bioprospecting and conservation of Paris species.

The first complete chloroplast genome of Vicatia thibetica de Boiss.: genome features, comparative analysis, and phylogenetic relationships.

Vicatia thibetica de Boiss.: a herb in the family Apiaceae, has been used for over a hundred years as an essential medicinal and edible plant in the Bai ethnic group of Dali City. However, due to the lack of study on plastid genomes of V. thibetica, studies of comparison and phylogeny with other related species remain scarce. In the current study, we assembled, annotated, and characterized the entire chloroplast (cp) genome of V. thibetica through high-throughput sequencing for the first time, compared with published whole chloroplast genomes from the same family. A phylogenetic analysis of the chloroplast genome has also been performed. The whole chloroplast genome of V. thibetica was 145,796 in size and consisted of a large single-copy region (LSC; 92,186 bp), a small single-copy region (SSC; 17,452 bp), and a pair of inverted repeat regions (IRs; 18,079 bp) forming a circular quadripartite structure. Annotation resulted in 128 genes, including 84 protein-coding genes (PCGs), 35 transfer RNA genes (tRNAs), eight ribosomal genes (rRNAs), and one pseudogene. Repeat sequence analysis displayed V. thibetica plastid genome contains 75 simple repeats, 37 long repeats, and 29 tandem repeats. Compared with the cp genome of other Apiaceae species, a common feature was that the IR regions of the genome were more conservative compared to the LSC and SSC regions. Highly variable hotspots included rps16, ndhC-trnV-UAC, clpP, ycf1, and ndhB in the genomes, which supply valuable molecular markers for phylogeny, identification, and classification in the Apiaceae family. The results of phylogenetic analysis strongly supported the genus Vicatia as an independent genus in the family Apiaceae, in which the closest affinities to the related species of Angelica, Peucedanum, and Ligusticum were observed. In conclusion, the first chloroplast genome of Vicatia reported in this study may  improve our understanding of phylogenetic relationship of different genera of Apiaceae. In addition, the current data will be valuable as chloroplast genomic resource for species identification and population genetics. Supplementary Information: The online version contains supplementary material available at 10.1007/s12298-022-01154-y.

Detection of Gegen Adulteration Using Multiple Fingerprints Coupled With Chemometric Strategy.

BACKGROUND: The root of Pueraria montana var. lobata (gegen) is a well-known traditional Chinese medical herb, which is prone to be accidentally contaminated with Pueraria montana var. thomsonii, Pueraria wallichii, and Pueraria peduncularis due to the morphological character similarity. These adulterations might cause quality confusion and safety issues. OBJECTIVE: In this study, the screening technique to detect adulteration in gegen was developed using multiple fingerprints and chemometrics. METHOD: A range of gegen samples and possible known adulterants including Pueraria montana var. thomsonii, Pueraria wallichii, and Pueraria peduncularis were collected. FT-IR and HPLC coupled with different chemometric techniques, including similarity analysis (SA), hierarchical clustering analysis (HCA), principal component analysis (PCA), and orthogonal partial least-squares discriminant analysis (OPLS-DA), provide the qualitative chemometric models for gegen adulteration detection. RESULTS: FT-IR and HPLC combined with OPLS-DA successfully differentiated authentic gegen from adulterants. Both FT-IR and HPLC units can be used as alternative methods to traditional methods. The HPLC showed better performance in identifying samples than FT-IR. CONCLUSIONS: The use of FT-IR and HPLC coupled with chemometrics could potentially be the proper selection method for the early quality evaluation of gegen. This method can be used to combat fraud in the herbal industry in the future. HIGHLIGHTS: FT-IR and HPLC combined with chemometrics analysis were developed to discriminate between Pueraria lobata (gegen) and adulterants. The multiple fingerprints combined with multivariate methods were successfully applied to the study of the gegen and its adulterants. The chemometrics analysis using SA and OPLS-DA indicate significant differentiation in the chemical composition of these species. This research provides important chemotaxonomic references in species identification.

The complete chloroplast genome of Aconitum piepunense (Ranunculaceae) and its phylogenetic analysis.

Aconitum piepunense belonging to the family Ranunculaceae is an endangered herb species in southwestern China. In this study, the complete chloroplast genome of A. piepunense was sequenced, and the results revealed a typical quadripartite structure with a length of 155,836 bp, including a large single-copy region (LSC, 86,433 bp), a small single-copy region (SSC, 16,945 bp), and a pair of inverted repeat (IR) regions (IRa and IRb, 26,229 bp, respectively). A total of 130 genes were identified in the A. piepunense chloroplast genome, containing 85 protein-coding genes, 37 transfer RNA (tRNA) genes, and 8 ribosomal RNA (rRNA) genes. Phylogenetic analysis based on the maximum likelihood method indicated that A. piepunense formed a monophyletic group, which was sister to A. contortum and A. vilmorinianum.

Rapid Repurposing of Novel Combination Drugs for the Treatment of Heart Failure via a Computationally Guided Network Screening Approach.

Combination drugs, characterized by high efficacy and few side effects, have received extensive attention from pharmaceutical companies and researchers for the treatment of complex diseases such as heart failure (HF). Traditional combination drug discovery depends on large-scale high-throughput experimental approaches that are time-consuming and costly. Herein we developed a novel, rapid, and potentially universal computer-guided combination drug-network-screening approach based on a set of databases and web services that are easy for individuals to obtain and operate, and we discovered for the first time that the menthol-allethrin combination screened by this approach exhibited a significant synergistic cardioprotective effect in vitro. Further mechanistic studies indicated that allethrin and menthol could synergistically block calcium channels. Allethrin bound to the central cavity of the voltage-dependent L-type calcium channel subunit alpha-1S (CACNA1S) lead to a conformational change in an allosteric site of CACNA1S, thereby enhancing the binding of menthol to this allosteric site. In summary, we reported a potentially universal computational approach to combination drug screening that has been used to discover a new combination of menthol-allethrin against HF in vitro, providing a new synergistic mechanism and prospective agent for HF treatment.

Microbial community diversity and function analysis of Aconitum carmichaelii Debeaux in rhizosphere soil of farmlands in Southwest China.

Understanding how microbial communities affect plant growth is crucial for sustainable productivity and ecological health. However, in contrast with the crop system, there is limited information on the microbial community associated with the medicinal plant. We observed that altitude was the most influential factor on the soil microbial community structures of Aconitum carmichaelii Debeaux. For community composition, bacterial reads were assigned to 48 phyla, with Proteobacteria, Acidobacteriota, and Actinobacteriota being the dominant phyla. The fungal reads were assigned to seven phyla, and Ascomycota was the predominant phylum detected in most groups. The four dominant phyla were categorized as keystone taxa in the co-occurrence networks, suggesting that they may be involved in soil disease suppression and nutrient mobility. Bacterial co-occurrence networks had fewer edges, lower average degree, and lower density at YL1, HQ1, HQ2, BC, and DL than fungal networks, creating less intricate rhizosphere network patterns. Furthermore, the bacterial and fungal communities showed strong distance decay of similarity across the sampling range. Overall, this study improves our understanding of regulating rhizosphere microbial communities in soil systems and also provides potential production strategies for planting A. carmichaelii.

Antiaging Effects of Vicatia thibetica de Boiss Root Extract on Caenorhabditis elegans and Doxorubicin-Induced Premature Aging in Adult Mice.

The roots of Vicatia thibetica de Boiss are a kind of Chinese herb with homology of medicine and food. This is the first report showing the property of the extract of Vicatia thibetica de Boiss roots (HLB01) to extend the lifespan as well as promote the healthy parameters in Caenorhabditis elegans (C. elegans). For doxorubicin- (Doxo-) induced premature aging in adult mice, HLB01 counteracted the senescence-associated biomarkers, including P21 and γH2AX. Interestingly, HLB01 promoted the expression of collagen in C. elegans and mammalian cell systemically, which might be one of the essential factors to exert the antiaging effects. In addition, HLB01 was also found as a scavenger of free radicals, thereby performing the antioxidant ability. Lifespan extension by HLB01 was also dependent on DAF-16 and HSF-1 via oxidative stress resistance and heat stress resistance. Taken together, overall data suggested that HLB01 could extend the lifespan and healthspan of C. elegans and resist Doxo-induced senescence in mice via promoting the expression of collagen, antioxidant potential, and stress resistance.

The first complete chloroplast genome of Haymondia wallichii (Fabaceae) and its phylogenetic analysis.

Haymondia wallichii DC. was a scandent shrub. In this study, we sequenced the complete chloroplast (cp) genome of H. wallichii to investigate its phylogenetic relationship in Fabaceae. The total length of the cp genome was 153,668 bp, consisted of a large single copy (LSC) region of 84,310 bp, a small single copy (SSC) region of 17,918 bp, and a pair of inverted repeat regions (IRs) of 25,720 bp. The genome contained 132 genes, namely 37 tRNA genes, 87 protein-coding genes, and 8 rRNA genes. The overall GC content was 35.4%. The phylogenetic analysis indicated H. wallichii was closely related to Pueraria montana var. thomsonii and Pueraria montana var. lobata.