The differential metabolites in the plasma between G6PDx-FB and G6PDx control mice.

<p>The differential metabolites in the plasma between G6PDx-FB and G6PDx control mice.</p

The differential metabolites in liver between C3H-FB and C3H control mice.

<p>The differential metabolites in liver between C3H-FB and C3H control mice.</p

OPLS-DA scatter plots of GC/MS data of extracts from plasma of mice.

<p>Orthogonal partial least-squares discriminant analysis (OPLS-DA) score plots (t(1)P/ t(2)O) of the plasma of C3H group (A) and G6PDx group (B).</p

The differential metabolites in the plasma between C3H-FB and C3H control mice.

<p>The differential metabolites in the plasma between C3H-FB and C3H control mice.</p

The differential metabolites in liver between G6PDx-FB and G6PDx control mice.

<p>The differential metabolites in liver between G6PDx-FB and G6PDx control mice.</p

Effects of fava beans on metabolic pathways according to the KEGG PATHWAY database.

<p>Putative metabolic pathways were inferred from changes of the intermediates levels in the liver and plasma of the G6PDx-FB mice. Red indicates the significantly elevated metabolites relative to those in the controls. Green shows significantly reduced metabolites relative to those in the controls.</p

OPLS-DA scatter plots of GC/MS data of extracts from the liver of mice.

<p>Orthogonal partial least-squares discriminant analysis (OPLS-DA) score plots (t(1)P/ t(2)O) of the liver of C3H group (A) and G6PDx group (B).</p

The alteration of cysteine and its relevant metabolic pathways according to the KEGG PATHWAY database.

<p>Putative metabolic pathways were inferred from changes in the intermediates levels in the liver of the G6PDx-FB mice. Red indicates the significantly elevated metabolites relative to those in the controls. Green shows significantly reduced metabolites relative to those in the controls.</p

Relative levels of metabolites detected with significant changes in the liver of the C3H-FB vs.

<p>C3H group and the G6PDx-FB vs. G6PDx group. Seven and 25 differential metabolites were significantly altered in C3H-FB mice compared with C3H control mice (A) and G6PDx-FB mice compared with G6PDx control mice (B) respectively.</p

Effects of fava beans on metabolic pathways of the urea cycle and creatine according to the KEGG PATHWAY database.

<p>Putative metabolic pathways were inferred from changes in the plasma and liver levels of intermediates in the G6PDx-FB mice. Red indicates the significantly elevated metabolites relative to those in the controls. Green indicates significantly reduced metabolites relative to those of the controls.</p