Wang Jun/Song Mozhi/Zhang Fafang collaborate to reveal that gut microbiota metabolites affect host rhythms

The metabolic balance of the body is affected by a variety of factors, and a number of studies have reported that rhythm disturbances contribute to various metabolic diseases such as obesity and diabet. Recent studies have shown that gut microbiota based on mouse models also experience circadian rhythms, which may affect the body's metabolic balance through metabolites that affect the gastrointestinal tract or other orga. A few studies have also investigated the rhythm of the human gut microbio. Recently, an in situ investigation published by Wang Jun's research group at the Institute of Microbiology, Chinese Academy of Sciences, in collaboration with Zhang's research group at the Second Affiliated Hospital of Nanjing Medical University, found that many bacteria with diurnal oscillations and metabolic pathwa. However, whether and how these oscillations affect the body's circadian rhythm and metabolic balance remains to be studi. Recently, Wang Jun's research group of Institute of Microbiology, Chinese Academy of Sciences, Song Mozhi's research group of Institute of Zoology, Chinese Academy of Sciences, and Zhang Mingfa's research group of the Second Affiliated Hospital of Nanjing Medical University jointly published a paper entitled: Gut microbial methionine impacts circadian clock gene in the journal Protein & Ce. Research paper on expression and reactive oxygen species level in host gastrointestinal tra. This study first identified an important metabolic pathway (S-adeno-L-methionine cycle I) with the same diurnal pattern in the human and mouse gut microbiota, and then investigated the important diurnal differential metabolites involved in this metabolic pathway (Methionine) possible effects on the host that methionine has dual roles in regulating the expression of core clock genes and reactive oxygen species (ROS) levels in the host g. In addition, the study also found that dietary methionine supplementation can alleviate sleep deprivation-induced metabolic disturbances, inflammation, and gut dysbios. This study provides evidence and mechanistic insights into the potential role of gut microbiota-derived methionine, especially its potential application in regulating host metaboli. Potential effects of diurnal differential gut microbiota metabolites (methionine) on the host Article link: https://d. org/11093/procel/pwac021   Disclaimer: This article only represents the author's personal opinion and has nothing to do with China Probiotics Netwo. Its originality and the text and content stated in the text have not been verified by this site, and this site does not make any guarantee or commitment to the authenticity, completeness and timeliness of this text and all or part of its content and te. Readers are only for reference and please Verify the relevant content yourse. Copyright Notice Some articles reproduced on this site are not original, and their copyright and responsibility belong to the original auth. All reprinted articles, links and pictures on this website are for the purpose of conveying more information, and the source and author are clearly indicat. Media or individuals who do not wish to be reprinted can contact us for infringing information that can provide sufficient eviden. , bio149 will be deleted within 12 hours after confirmati. Users are welcome to submit original articles to 86371366@. com, which will be published on the homepage after review, and the copyright and responsibility of the articles belong to the send.

The metabolic balance of the body is affected by a variety of factors, and a number of studies have reported that rhythm disturbances contribute to various metabolic diseases such as obesity and diabet.

Recent studies have shown that gut microbiota based on mouse models also experience circadian rhythms, which may affect the body's metabolic balance through metabolites that affect the gastrointestinal tract or other orga.

A few studies have also investigated the rhythm of the human gut microbio.

Recently, an in situ investigation published by Wang Jun's research group at the Institute of Microbiology, Chinese Academy of Sciences, in collaboration with Zhang's research group at the Second Affiliated Hospital of Nanjing Medical University, found that many bacteria with diurnal oscillations and metabolic pathwa.

However, whether and how these oscillations affect the body's circadian rhythm and metabolic balance remains to be studi.

Recently, Wang Jun's research group of Institute of Microbiology, Chinese Academy of Sciences, Song Mozhi's research group of Institute of Zoology, Chinese Academy of Sciences, and Zhang Mingfa's research group of the Second Affiliated Hospital of Nanjing Medical University jointly published a paper entitled: Gut microbial methionine impacts circadian clock gene in the journal Protein & Ce.

Research paper on expression and reactive oxygen species level in host gastrointestinal tra.
This study first identified an important metabolic pathway (S-adeno-L-methionine cycle I) with the same diurnal pattern in the human and mouse gut microbiota, and then investigated the important diurnal differential metabolites involved in this metabolic pathway (Methionine) possible effects on the host that methionine has dual roles in regulating the expression of core clock genes and reactive oxygen species (ROS) levels in the host g.

In addition, the study also found that dietary methionine supplementation can alleviate sleep deprivation-induced metabolic disturbances, inflammation, and gut dysbios.

This study provides evidence and mechanistic insights into the potential role of gut microbiota-derived methionine, especially its potential application in regulating host metaboli.

Article link: https://d.

org/11093/procel/pwac021

---

　　The metabolic balance of the body is affected by a variety of factors, and a number of studies have reported that rhythm disturbances contribute to various metabolic diseases such as obesity and diabet.

Recent studies have shown that gut microbiota based on mouse models also experience circadian rhythms, which may affect the body's metabolic balance through metabolites that affect the gastrointestinal tract or other orga.

　　A few studies have also investigated the rhythm of the human gut microbio.

Recently, an in situ investigation published by Wang Jun's research group at the Institute of Microbiology, Chinese Academy of Sciences, in collaboration with Zhang's research group at the Second Affiliated Hospital of Nanjing Medical University, found that many bacteria with diurnal oscillations and metabolic pathwa.

However, whether and how these oscillations affect the body's circadian rhythm and metabolic balance remains to be studi.

　　Recently, Wang Jun's research group of Institute of Microbiology, Chinese Academy of Sciences, Song Mozhi's research group of Institute of Zoology, Chinese Academy of Sciences, and Zhang Mingfa's research group of the Second Affiliated Hospital of Nanjing Medical University jointly published a paper entitled: Gut microbial methionine impacts circadian clock gene in the journal Protein & Ce.

Research paper on expression and reactive oxygen species level in host gastrointestinal tra.
　　This study first identified an important metabolic pathway (S-adeno-L-methionine cycle I) with the same diurnal pattern in the human and mouse gut microbiota, and then investigated the important diurnal differential metabolites involved in this metabolic pathway (Methionine) possible effects on the host that methionine has dual roles in regulating the expression of core clock genes and reactive oxygen species (ROS) levels in the host g.

　　In addition, the study also found that dietary methionine supplementation can alleviate sleep deprivation-induced metabolic disturbances, inflammation, and gut dysbios.

This study provides evidence and mechanistic insights into the potential role of gut microbiota-derived methionine, especially its potential application in regulating host metaboli.

Article link: https://d.

org/11093/procel/pwac021

---

　　　　

---