Category:FL
| Line 12: | Line 12: | ||
|rowspan="4"|FL1 | |rowspan="4"|FL1 | ||
|rowspan="4"|[[:Category:FL1|Aurone and Chalcone]]<br>[[Image:Fl1.png|100px]] | |rowspan="4"|[[:Category:FL1|Aurone and Chalcone]]<br>[[Image:Fl1.png|100px]] | ||
| − | |FL1A||[[:Category:FL1A|Aurone]]<br>[[Image:Fl1a.png| | + | |FL1A||[[:Category:FL1A|Aurone]]<br>[[Image:Fl1a.png|145px]] |
|- | |- | ||
|FL1B||[[:Category:FL1B|Auronol]] | |FL1B||[[:Category:FL1B|Auronol]] | ||
Revision as of 19:57, 6 March 2008
FL: Flavonoid
Structural Characteristics
Flavonoid is a class of plant secondary metabolites that have two benzene rings (each called A-ring and B-ring) connected by a chain of three carbons (Figure 1).
The carbon chain, corresponding to the numbers 2,3,4 in Figure 1, is linked to a hydroxyl group in the A-ring to form the C-ring. The class of flavonoids are usually determined by the modification pattern of the C-ring (Table 1).
| 1st Class | 2nd Class | ||
|---|---|---|---|
| FL1 | Aurone and Chalcone
|
FL1A | Aurone
|
| FL1B | Auronol | ||
| FL1C | Chalcone | ||
| FL1D | Dihydrochalcone | ||
| FL2 | Flavanone |
FL2F | Flavanone
|
| FL3 | Flavone |
FL3F | Flavone
|
| FL4 | Dihydroflavonol |
FL4D | Dihydroflavonol
|
| FL5 | Flavonol |
FL5F | Flavonol
|
| FL6 | Flavan
|
FL6F | Flavan |
| FL63 | Flavan 3-ol | ||
| FL64 | Flavan 4-ol | ||
| FL6D | Flavan 3,4-diol | ||
| FL7 | Anthocyanin
|
FL7A | Anthocyanin |
| FL7D | 3-Desoxyanthocyanin | ||
| FLI | Isoflavonoid
|
FLIA | Isoflavone |
| FLIB | Isoflavanone | ||
| FLIC | Isoflavan | ||
| FLID | Pterocarpane | ||
| FLIE | Coumestan | ||
| FLIF | Rotenoid | ||
| FLIG | Coumaranochromone | ||
| FLIH | 3-Arylcoumarin | ||
| FLII | 2-Arylbenzofuran | ||
| FLIJ | alpha-Methoxynbenzoin | ||
| FLN | Neoflavonoid
|
FLNA | 4-Arylcoumarin |
| FLNB | 4-Arylchroman | ||
| FLNC | Dalbergiquinol | ||
| FLND | Dalbergione | ||
| FLNE | Neoflavene | ||
| FLNF | Coumarinic acid | ||
Biosynthesis
Flavonoid is synthesized through the phenylpropanoid-acetate pathway in all higher plants. It is responsible for many biological activities including pigments, anti-oxidative or anti-allergic agents, and signaling elements in nodule formation. Some of them are quite familiar in our daily life.
Familiar examples.
anthocyanin (blueberry), isoflavone (soybean), rutin (soba noodle), catechin (tea), flavan-diol (tea), naringeninchalcone (tomato), polyphenol (wine, cacao)
Subcategories
This category has the following 10 subcategories, out of 10 total.
