Data for Metabolite and gene expression profiles suggest a putative mechanism through which high dietary carbohydrates reduce the content of hepatic betaine in Megalobrama amblycephala (Study ST000966)
(Analysis AN001580)Values for each metabolite have been scaled by dividing by the mean across all factors Run Hierarchial cluster analysis on this study | Run Heatmap cluster analysis on this studyMetabolite | F1 | F2 | F3 | F4 |
---|---|---|---|---|
Acylcarnitine | 0.9761 | 0.7414 | 1.3429 | 0.9396 |
Betaine | 0.8742 | 0.8758 | 1.2767 | 0.9733 |
Carnitine | 1.1555 | 0.9742 | 1.1068 | 0.7634 |
Choline | 1.2078 | 0.7541 | 0.9973 | 1.0408 |
Dimethylglycine | 1.2279 | 0.8394 | 0.8830 | 1.0497 |
Glycine | 1.1255 | 0.8183 | 1.0776 | 0.9786 |
Homocysteine | 1.3427 | 1.0595 | 0.8217 | 0.7761 |
Methionine | 1.1015 | 0.8379 | 1.2272 | 0.8333 |
S-adenosylhomocysteine | 1.3019 | 1.3559 | 0.7268 | 0.6154 |
S-adenosylmethionine | 1.8534 | 1.1034 | 0.3445 | 0.6986 |
Sarcosine | 0.9292 | 0.8109 | 1.4053 | 0.8546 |
Serine | 1.1025 | 0.9291 | 1.0846 | 0.8838 |
Factors:
F1 | Experimental variables:Betaine group with 16 weeks |
F2 | Experimental variables:Betaine group with 4 weeks |
F3 | Experimental variables:Control group |
F4 | Experimental variables:High carbohydrates group |