ABSTRACT. Embryo abortion in mango severely damages mango production worldwide. The mechanisms by which the mango embryos abort have long been an intriguing question. We used subtractive suppression hybridization to investigate the differentially expressed genes involved in this process. We generated 2 cDNA libraries from normal seed and aborted seed embryos of mango cultivar 'Jinhuang'. One thousand five hundred and seventy-two high-quality expressed sequence tags (ESTs) were obtained, with 1092 from the normal seed tester library and 480 from the aborted seed tester library. These ESTs were assembled into 783 unigenes, including 147 contigs and 636 singletons in contigs; 297 singletons in gene ontology (GO) indicated coverage of a broad range of GO categories. Seven candidate genes from different categories were selected for semi-quantitative PCR 3967 ©FUNPEC-RP www.funpecrp.com.br Genetics and Molecular Research 11 (4): 3966-3974 (2012) Differentially expressed genes in mango embryo abortion analysis, and their possible functions in embryo abortion are discussed. These data provide new insight into the genetic regulation of embryo abortion in mango and may aid in further identification of novel genes and their functions.
A cDNA library was constructed from field pea leaves infected by the downy mildew pathogen, Peronospora viciae f. sp. pisi, using a suppression subtractive hybridisation approach. The library consists of 399 expressed sequence tags, from which 207 unisequences were obtained after sequence assembly. Of the unisequences, six were shown to be of Peronospora viciae f. sp. pisi origin. The remaining unisequences were subjected to gene ontology analysis and their functions were predicted in silico. Eleven of these unisequences (representing 24 clones) shared significant sequence similarities with Arabidopsis genes known to be involved in downy mildew resistance, including the well‐characterised genes RPP5, RPP6 and RPP27. Expression analysis of five selected unisequences by real‐time PCR indicated that all five were up‐regulated during downy mildew pathogenesis, suggesting a significant role for these genes in the host response to downy mildew infection.
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