Regulation of Ferulate-5-Hydroxylase Expression in Arabidopsis in the Context of Sinapate Ester Biosynthesis

F5H transcript accumulation in tissues of wild-type Arabidopsis. Total RNA was extracted from the tissues indicated and probed with the F5H cDNA in RNA-blot analysis. The bottom panel illustrates ethidium-bromide staining of rRNA as a loading control.  

Transcript accumulation of phenylpropanoid genes during seedling development. Arabidopsis seedlings were germinated and grown under aseptic conditions on modified Murashige-Skoog agar plates (Lorenzen et al., 1996) in light (L; 16-h light/8-h dark photoperiod), in darkness (D), or in darkness for 4 d before being shifted to light conditions (D→L). Total RNA was extracted on the days indicated and RNA analysis was performed using probes from cDNAs of the indicated genes. A, Total RNA from wild-type seedlings probed with theF5H cDNA. The lower panel illustrates ethidium-bromide staining of rRNA as a loading control. B, Total RNA from wild-type seedlings probed with cDNAs corresponding to the phenylpropanoid genes indicated. C, Total RNA from a fah1-2: F5H(HX) transgenic line probed with the F5H cDNA. All blots were exposed to film for 24 h except PAL2, which was exposed for 48 h.  

Accumulation of sinapate esters in wild-type and transgenic fah1 Arabidopsis seedlings. Wild-type seedlings and transgenic fah1-2 seedlings were grown on modified Murashige-Skoog agar plates as described for Figure 3. Sinapate esters were fractionated by HPLC, detected at 335 nm, and quantitated using the extinction coefficient of sinapic acid. Each point represents the average of three replicates of 10 seedlings each ± se. Top row, Seedlings grown in the light (open symbols). Bottom row, Seedlings grown in the dark (solid lines, solid symbols) or shifted from dark to light on d 4 (dotted lines, open symbols). Circles, Sinapoylcholine; triangles, sinapoylglucose; squares, sinapoylmalate.

Diagrammatic representation of theF5H gene and F5H transgenes used in this study. Exons are represented by open rectangles. A, F5Hgenomic region. An inverted triangle indicates the location of a T-DNA insertion in the fah1-9 mutant. B, Constructs used forF5H expression analysis in the fah1-2mutant background. 35S, CaMV 35S promoter; E, EcoRI; H,HindIII; K, KpnI; S,SacI; X, XhoI.

Leaves of wild type, fah1-2, and transgenic lines as viewed under visible and UV light. Top panel, Adaxial leaf surfaces illuminated by visible light; middle panel, adaxial leaf surfaces illuminated by UV light; bottom panel, abaxial leaf surfaces illuminated by UV light (peak wavelength = 302 nm).

Accumulation of F5H transcript in developing siliques. Siliques were collected in pairs from 5-week-old plants of the lines indicated, beginning with the first expanding silique. Total RNA was extracted and probed with the F5HcDNA in RNA analysis. Blots were exposed to film for 24 h (fah1-2:35S-F5H and fah1-2:C4H-F5H) or 48 h. The bottom panel illustrates ethidium-bromide staining of rRNA as a loading control. Col, Arabidopsis ecotype Columbia.

Accumulation of sinapoylcholine in developing siliques. Siliques were collected in pairs as described for Figure 7and extracted in acidic 50% methanol. Sinapoylcholine was quantified by HPLC as described for Figure 4. Each point represents the average of three replicates of three silique pairs ± se. Col, Arabidopsis ecotype Columbia.