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W3204205112 abstract "Abstract Background Stone-hardening stage is crucial to the development of grape seed and berry quality. A significant body of evidence supports the important roles of MicroRNAs in grape-berry development, but their specific molecular functions during grape stone-hardening stage remain unclear. Results Here, a total of 161 conserved and 85 species-specific miRNAs/miRNAs* (precursor) were identified in grape berries at stone-hardening stage using Solexa sequencing. Amongst them, 30 VvmiRNAs were stone-hardening stage-specific, whereas 52 exhibited differential expression profiles during berry development, potentially participating in the modulation of berry development as verified by their expression patterns. GO and KEGG pathway analysis showed that 13 VvmiRNAs might be involved in the regulation of embryo development, another 11 in lignin and cellulose biosynthesis, and also 28 in the modulation of hormone signaling, sugar, and proline metabolism. Furthermore, the target genes for 4 novel VvmiRNAs related to berry development were validated using RNA Ligase-Mediated (RLM)-RACE and Poly(A) Polymerase-Mediated (PPM)-RACE methods, and their cleavage mainly occurred at the 9th–11th sites from the 5′ ends of miRNAs at their binding regions. In view of the regulatory roles of GA in seed embryo development and stone-hardening in grape, we investigated the expression modes of VvmiRNAs and their target genes during GA-induced grape seedless-berry development, and we validated that GA induced the expression of VvmiR31-3p and VvmiR8-5p to negatively regulate the expression levels of CAFFEOYL COENZYME A-3-O-METHYLTRANSFERASE ( VvCCoAOMT ), and DDB1-CUL4 ASSOCIATED FACTOR1 ( VvDCAF1 ). The series of changes might repress grape stone hardening and embryo development, which might be a potential key molecular mechanism in GA-induced grape seedless-berry development. Finally, a schematic model of miRNA-mediated grape seed and stone-hardening development was proposed. Conclusion This work identified 30 stone-hardening stage-specific VvmiRNAs and 52 significant differential expression ones, and preliminary interpreted the potential molecular mechanism of GA-induced grape parthenocarpy. GA negatively manipulate the expression of VvCCoAOMT and VvDCAF1 by up-regulation the expression of VvmiR31-3p and VvmiR8-5p, thereby repressing seed stone and embryo development to produce grape seedless berries." @default.
W3204205112 created "2021-10-11" @default.
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W3204205112 date "2021-09-29" @default.
W3204205112 modified "2023-10-16" @default.
W3204205112 title "Identification of miRNAs-mediated seed and stone-hardening regulatory networks and their signal pathway of GA-induced seedless berries in grapevine (V. vinifera L.)" @default.
W3204205112 cites W1481615534 @default.
W3204205112 cites W1915785154 @default.
W3204205112 cites W1973726689 @default.
W3204205112 cites W1999348612 @default.
W3204205112 cites W2001871019 @default.
W3204205112 cites W2005476363 @default.
W3204205112 cites W2007842740 @default.
W3204205112 cites W2009071581 @default.
W3204205112 cites W2017680546 @default.
W3204205112 cites W2023118437 @default.
W3204205112 cites W2025513867 @default.
W3204205112 cites W2028308990 @default.
W3204205112 cites W2032529493 @default.
W3204205112 cites W2039096418 @default.
W3204205112 cites W2043078913 @default.
W3204205112 cites W2043848436 @default.
W3204205112 cites W2044006761 @default.
W3204205112 cites W2052120683 @default.
W3204205112 cites W2052652688 @default.
W3204205112 cites W2052985407 @default.
W3204205112 cites W2057436651 @default.
W3204205112 cites W2067691543 @default.
W3204205112 cites W2068732120 @default.
W3204205112 cites W2072591161 @default.
W3204205112 cites W2080944433 @default.
W3204205112 cites W2088173799 @default.
W3204205112 cites W2088498620 @default.
W3204205112 cites W2089557528 @default.
W3204205112 cites W2091318624 @default.
W3204205112 cites W2096600985 @default.
W3204205112 cites W2103793524 @default.
W3204205112 cites W2110107366 @default.
W3204205112 cites W2115793028 @default.
W3204205112 cites W2116506891 @default.
W3204205112 cites W2118159036 @default.
W3204205112 cites W2123781861 @default.
W3204205112 cites W2136090457 @default.
W3204205112 cites W2137887739 @default.
W3204205112 cites W2142928296 @default.
W3204205112 cites W2147380605 @default.
W3204205112 cites W2149382794 @default.
W3204205112 cites W2150157898 @default.
W3204205112 cites W2162396353 @default.
W3204205112 cites W2169416219 @default.
W3204205112 cites W2279354053 @default.
W3204205112 cites W2333583843 @default.
W3204205112 cites W2428999458 @default.
W3204205112 cites W2560298532 @default.
W3204205112 cites W2567353202 @default.
W3204205112 cites W2592852964 @default.
W3204205112 cites W2606683471 @default.
W3204205112 cites W2620161212 @default.
W3204205112 cites W2735953210 @default.
W3204205112 cites W2750594627 @default.
W3204205112 cites W2751551482 @default.
W3204205112 cites W2782930156 @default.
W3204205112 cites W2807949675 @default.
W3204205112 cites W2908904965 @default.
W3204205112 cites W2924130651 @default.
W3204205112 cites W2940719422 @default.
W3204205112 cites W3080119703 @default.
W3204205112 doi "https://doi.org/10.1186/s12870-021-03188-y" @default.
W3204205112 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8480016" @default.
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