Search

Your search keyword '"Feng, Ming‐Qian"' showing total 8 results
Start Over Author "Feng, Ming‐Qian"
8 results on '"Feng, Ming‐Qian"'

2. Black rice diet alleviates colorectal cancer development through modulating tryptophan metabolism and activating AHR pathway.

Author

Wang, Ling, Tu, Yi‐Xuan, Chen, Lu, Yu, Ke‐Chun, Wang, Hong‐Kai, Yang, Shu‐Qiao, Zhang, Yuan, Zhang, Shuai‐Jie, Song, Shuo, Xu, Hong‐Li, Yin, Zhu‐Cheng, Feng, Ming‐Qian, Yue, Jun‐Qiu, Huang, Xiang‐Hong, Tang, Tang, Wei, Shao‐Zhong, Liang, Xin‐Jun, and Chen, Zhen‐Xia

Subjects
COLORECTAL cancer, WESTERN diet, ARYL hydrocarbon receptors, CARCINOGENESIS, TRYPTOPHAN, DIET
Abstract

Consumption of dietary fiber and anthocyanin has been linked to a lower incidence of colorectal cancer (CRC). This study scrutinizes the potential antitumorigenic attributes of a black rice diet (BRD), abundantly rich in dietary fiber and anthocyanin. Our results demonstrate notable antitumorigenic effects in mice on BRD, indicated by a reduction in both the size and number of intestinal tumors and a consequent extension in life span, compared to control diet‐fed counterparts. Furthermore, fecal transplants from BRD‐fed mice to germ‐free mice led to a decrease in colonic cell proliferation, coupled with maintained integrity of the intestinal barrier. The BRD was associated with significant shifts in gut microbiota composition, specifically an augmentation in probiotic strains Bacteroides uniformis and Lactobacillus. Noteworthy changes in gut metabolites were also documented, including the upregulation of indole‐3‐lactic acid and indole. These metabolites have been identified to stimulate the intestinal aryl hydrocarbon receptor pathway, inhibiting CRC cell proliferation and colorectal tumorigenesis. In summary, these findings propose that a BRD may modulate the progression of intestinal tumors by fostering protective gut microbiota and metabolite profiles. The study accentuates the potential health advantages of whole‐grain foods, emphasizing the potential utility of black rice in promoting health. Highlights: The black rice diet (BRD) can slow down the development of colorectal tumors in ApcMin/+ and azoxymethane/dextran sulfate sodium (AOM/DSS) colorectal cancer (CRC) model mice.The BRD increases the abundance of intestinal probiotics, such as Bacteroides uniformis and Lactobacillus, while reducing potential intestinal pathogens.The upregulated metabolites indole and indole‐3‐lactic acid in BRD are ligands of the aryl hydrocarbon receptor (AHR) pathway, which slow down the development of CRC by activating intestinal AHR receptor gene expression.A moderate consumption of BRD is expected to become a potential strategy for the prevention and treatment of CRC by improving gut microbiota and metabolites. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

4. Systematic position of Cyathocline Cass. (Asteraceae): evidences from molecular, cytological and morphological data

Author

Wei-Ping Li, Feng-Ming Qian, Xiu-Lin Yang, and San-Mao Chen

Subjects
biology, Phylogenetic tree, Inuleae, Blumea, Botany, Astereae, Plant Science, Cyathocline, Blumea balsamifera, Asteraceae, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Maximum parsimony
Abstract

Cyathocline, a small genus, has been treated as a member of subtribe Grangeinae of tribe Astereae (Asteraceae), but has been neglected in molecular phylogenetic analyses of Astereae. Plastid trnL-F and nuclear ribosomal DNA ITS sequences were used to carry out phylogenetic analyses of Cyathocline (represented by C. purpurea) through maximum parsimony and Bayesian analyses. In addition, its karyotype, morphology and micromorphology were also investigated. The results show that in our three phylogenetic trees, C. purpurea is deeply nested within the Blumea clade and/or the Inulinae clade, and is closest to Blumea balsamifera (Inuleae, Inulinae). C. purpurea is similar to Blumea in chromosome size bimodality and to Inulinae in one single large oxalate crystal within each cell of the cypsela epidermis, which, together with molecular evidences, suggests strongly that Cyathocline should be transferred from Astereae to Inuleae subtribe Inulinae. Although C. purpurea has many anomalous features, its most characters still are within a wide range of morphological variations of Blumea. DNA data and the karyotypic character support to merge C. purpurea into Blumea. As a result, the new combination Blumea purpurea (O. Kuntze) W.P. Li was made.

Published
2013

Catalog

Books, media, physical & digital resources
See catalog results