[Objective] This study aimed to explore the molecular mechanism of mulberry pigment metabolism regulation. [Method] Chalconesynthase(CHS) gene was cloned from Morus(Moraceae) in silico. The amino acid sequence, physical and chemical properties, transmembrane structural domain, hydrophobicity/hydrophilicity,subcellular localization, secondary and tertiary structure of protein were predicted and analyzed by bioinformatics tools. [Result] The cDNA sequence of CHS gene was 1 365bp by splicing using the software DNAstar and it contained a complete ORF including 1 170 bp which encoded 389 amino acids. Bioinformatic analysis showed that CHS gene included specific peptide sequence RLMMYQQGCFAGGTVLR of chalcone synthase superfamily, but has no signal peptide, belonging to the non-secretory proteins, located inside of cytoplasm. Its molecular evolution is more conservative.[Conclusion] The results above provided foundation for the further studies of structure and function of CHS protein.
[Objective] This study aimed to explore the proteins related to pistillate flower development in different mulberry cultivars. [Method] The total proteins of the pistillate flowers of two mulberry cultivars Dal0 (Morus atropurpurea Roxb.) and SG01 (Morus muIticaulis Perr.) were extracted, separated and detected through two- dimensional electrophoresis (2-DE) and mass spectrometry. [Result] There was sig- nificant difference in the expression of proteins from the pistillate flowers of different mulberry cultivars. From the 2-DE images of Dal0 and SG01, 445_+17 and 425_+12 protein spots were respectively detected. The expression levels of 75 protein spots differed significantly. Thirteen spots those were expressed at high levels and well separated were analyzed by mass spectrometry, and nine of them were identified successfully. The nine proteins are involved in the glycometabolism, protein and amino acid metabolism and defense responses during the development of mulberry pistillate flower after they were pollinated. [Conclusion] The findings will provide reference for further study on the molecular mechanism of mulberry pistillate flower de- velopment.
In order to excavate the function genes of stage-specific proteins in the development process of mulberry pistillate flowers, using fruit mulberry cuhivar ' Da 10' as experiment material, two-dimensional electrophoresis and mass-spectrometric technology were used to investigate specifically expressed proteins of mul- berry pistillate flowers in different flowering periods. The results showed that 471 ± 4,450 ± 15 and 446 ± 14 protein spots were determined in mulberry pistil- late flowers at full-bloom stage, initial flowering stage and terminal flowering stage respectively, including nine protein spots with characteristics of stage-specific ex- pression and clear electrophoretic bands.. By mass spectrometry analysis, database retrieval and bioinformatics analysis, five components were successfully identi- fied as lactoylglutathione lyase-like protein, perchloric acid soluble translation inhibitor protein, ubiquitin-conjugating enzyme 1 like protein, putative ethylene re- sponse protein and 3-hydroxyisobutyrate dehychngenase, which were involved in stress resistance reaction, protein catabolism, signal transduction, glycometabolism and other biological processes in plants, which indicated that these proteins might play an important biological function in the normal development and pollination fertilization of mulberry pistillate flowers.
Ruihe NIUYuanyuan CHENPingping ZHANGWei QIBiping ZHENGJianzhong TAN
