Additional file 1 of Obese rats intervened with Rhizoma coptidis revealed differential gene expression and microbiota by serum metabolomics

Additional file 1 of Obese rats intervened with Rhizoma coptidis revealed differential gene expression and microbiota by serum metabolomics

Additional file 1: Supplementary Materials and Methods. Supplementary Table 1. The diet composition on normal chow diet and high-fat diet. Supplementary Table 2. UPLC elution gradient for optimized UPLC-MS methods, ESI+. A is 99.9/0.1 water/formic acid and B is 99.9/0.1 acetonitrile/formic acid. Sup...

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Hauptverfasser: Ji, Yanhua, Luo, Kexin, Zhang, Jiri Mutu, Ni, Peng, Xiong, Wangping, Luo, Xiaoquan, Xu, Guoliang, Liu, Hongning, Zeng, Zhijun
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Genetics
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creator Ji, Yanhua
Luo, Kexin
Zhang, Jiri Mutu
Ni, Peng
Xiong, Wangping
Luo, Xiaoquan
Xu, Guoliang
Liu, Hongning
Zeng, Zhijun
description Additional file 1: Supplementary Materials and Methods. Supplementary Table 1. The diet composition on normal chow diet and high-fat diet. Supplementary Table 2. UPLC elution gradient for optimized UPLC-MS methods, ESI+. A is 99.9/0.1 water/formic acid and B is 99.9/0.1 acetonitrile/formic acid. Supplementary Table 3. Pre-administration: the of results the apparent indexes and serum biochemical indexes ( $$\overline{x} \pm s$$ x ¯ ± s ). Supplementary Table 4. After dosing: the of results the apparent indexes and serum biochemical indexes ( $$\overline{x} \pm s$$ x ¯ ± s ). Supplementary Table 5. After dosing: the of results amount of food ingested. Supplementary Table 6. The differences metabolites and association pathways of the Control and Model groups. Supplementary Table 7. The differences metabolites and association pathways of the RC and Model groups. Supplementary Figure 1. HPLC fingerprint of the RC decoction. (A) HPLC-UV chromatogram of Batch A. (B) HPLC-UV chromatogram of Batch B. Peaks were detected at 345nm (1, coptisine; 2, palmatine; 3, berberine hydrochloride). Supplementary Figure 2. The chromatograms of the serum sample of the rats in positive mode. (A) Typical TIC chromatogram obtained from the same serum sample of the rats with positive mode. (B) Typical BPI chromatogram obtained from the same serum sample of the rats with positive mode. Supplementary Figure 3. Identification of a potential marker. MS/MS spectrum; the collision energy was 20eV~30eV. Supplementary Figure 4. The pathway enrichment of differentially expressed genes of the liver tissue. Supplementary Figure 5. The relationship between the biochemical indicators and gut microbiota. (A) The results of TC. (B) The results of HDL-C.
doi_str_mv 10.6084/m9.figshare.15153835
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Peaks were detected at 345nm (1, coptisine; 2, palmatine; 3, berberine hydrochloride). Supplementary Figure 2. The chromatograms of the serum sample of the rats in positive mode. (A) Typical TIC chromatogram obtained from the same serum sample of the rats with positive mode. (B) Typical BPI chromatogram obtained from the same serum sample of the rats with positive mode. Supplementary Figure 3. Identification of a potential marker. MS/MS spectrum; the collision energy was 20eV~30eV. Supplementary Figure 4. The pathway enrichment of differentially expressed genes of the liver tissue. Supplementary Figure 5. The relationship between the biochemical indicators and gut microbiota. (A) The results of TC. 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Peaks were detected at 345nm (1, coptisine; 2, palmatine; 3, berberine hydrochloride). Supplementary Figure 2. The chromatograms of the serum sample of the rats in positive mode. (A) Typical TIC chromatogram obtained from the same serum sample of the rats with positive mode. (B) Typical BPI chromatogram obtained from the same serum sample of the rats with positive mode. Supplementary Figure 3. Identification of a potential marker. MS/MS spectrum; the collision energy was 20eV~30eV. Supplementary Figure 4. The pathway enrichment of differentially expressed genes of the liver tissue. Supplementary Figure 5. The relationship between the biochemical indicators and gut microbiota. (A) The results of TC. 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Supplementary Table 1. The diet composition on normal chow diet and high-fat diet. Supplementary Table 2. UPLC elution gradient for optimized UPLC-MS methods, ESI+. A is 99.9/0.1 water/formic acid and B is 99.9/0.1 acetonitrile/formic acid. Supplementary Table 3. Pre-administration: the of results the apparent indexes and serum biochemical indexes ( $$\overline{x} \pm s$$ x ¯ ± s ). Supplementary Table 4. After dosing: the of results the apparent indexes and serum biochemical indexes ( $$\overline{x} \pm s$$ x ¯ ± s ). Supplementary Table 5. After dosing: the of results amount of food ingested. Supplementary Table 6. The differences metabolites and association pathways of the Control and Model groups. Supplementary Table 7. The differences metabolites and association pathways of the RC and Model groups. Supplementary Figure 1. HPLC fingerprint of the RC decoction. (A) HPLC-UV chromatogram of Batch A. (B) HPLC-UV chromatogram of Batch B. Peaks were detected at 345nm (1, coptisine; 2, palmatine; 3, berberine hydrochloride). Supplementary Figure 2. The chromatograms of the serum sample of the rats in positive mode. (A) Typical TIC chromatogram obtained from the same serum sample of the rats with positive mode. (B) Typical BPI chromatogram obtained from the same serum sample of the rats with positive mode. Supplementary Figure 3. Identification of a potential marker. MS/MS spectrum; the collision energy was 20eV~30eV. Supplementary Figure 4. The pathway enrichment of differentially expressed genes of the liver tissue. Supplementary Figure 5. The relationship between the biochemical indicators and gut microbiota. (A) The results of TC. (B) The results of HDL-C.</abstract><pub>figshare</pub><doi>10.6084/m9.figshare.15153835</doi><orcidid>https://orcid.org/0000-0002-8437-6712</orcidid><oa>free_for_read</oa></addata></record>
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subjects Biochemistry
Biological Sciences not elsewhere classified
Chemical Sciences not elsewhere classified
FOS: Biological sciences
FOS: Chemical sciences
Genetics
Microbiology
Physiology
title Additional file 1 of Obese rats intervened with Rhizoma coptidis revealed differential gene expression and microbiota by serum metabolomics
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