Changes in Fruit Quality Phytochemicals of Late-Mature Peach 'Yonglian No.1' during Storage.

In this study, the changes in quality parameters and sensory-influencing parameters from the peel, red flesh, and white flesh of 'Yonglian No.1' peach fruits were analyzed during cold storage. The results indicated that the contents of total soluble solids (TSS), soluble sugar, organic acid, vitamin C, total anthocyanin, phenol, and flavonoids, as well as the good fruit rate varied depending on the storage stages and storage treatments. The peach fruits in MAP stored for 50 days had favorable exterior qualities, a good fruit rate of 100%, and a higher content of total soluble solids (TSS) at 12.6%. MAP was significantly effective at maintaining fruit firmness, the content of TSS, soluble sugar, organic acid, vitamin C, total anthocyanin, phenol, and flavonoids. Among the derivatives of anthocyanin, both cyanidin and pelargonidin were found in the peel, with a content of 33.45 mg/kg FW and 1.82 mg/kg FW, respectively. However, cyanidin was detected in the flesh with a content of 40.42 mg/kg FW. In the present work, the differences regarding phytochemical profiles and physical properties were mainly correlated with the storage stages and storage treatments of peach fruit. 'Yonglian No.1' had higher levels of health-promoting compounds during storage and maintained favorable quality.

Cloning and Expression Analysis of Flavonoid 3', 5'-Hydroxylase Gene from Brunfelsia acuminata.

The full-length cDNA sequence of F3'5'H gene from the Brunfelsia acuminata was obtained by RT-PCR and RACE, whose GenBank accession number is JQ678765. The sequence contains a 1521 bp open reading frame, 120 bp 5'UTR and 61 bp 3'UTR, encoding a total of 506 amino acids. The molecular mass of the predicted protein is 56.47 kDa with an estimated pI of 8.78, respectively. Sequence alignment showed that the amino acid sequence of F3'5'H was 91%, 87% and 84% with that of Petunia × hybrida, Nierembergia sp., Solanum tuberosum, respectively. Real-time quantitative PCR analysis showed that the expression of F3'5'H gene was different in petals of different days, which was the highest expression level on day 0 and significantly higher than other days. The results indicated that F3'5'H might play key role in flower color regulation and provide a theoretical reference for blue flower molecular breeding.