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Chapitre D'ouvrage Année : 2018

Experimental Investigation of Polypropylene Pyrolysis for Fuel Production

Résumé

Unlabelled - Hybrid seed production technology (SPT) is achieved through the utilization of a recessive nuclear male-sterile mutant transformed with a transgenic cassette comprising three essential components: the wild-type gene to restore the fertility of the male-sterile mutant, an α-amylase gene to disrupt transgenic pollen grains, and red fluorescence protein gene to distinguish the transgenic seeds from the nontransgenic male sterile seeds. In rice, we establish the pollen disruption system by introducing an amyloplast targeting signal peptide (ASP) at the N-terminus of maize α-amylase protein ZM-AA1 (ZM-AA1 with the N-terminal signal peptide removed). The ASP facilitates the transport of ZM-AA1 protein into amyloplast where it degrades starch, resulting in disruption of the pollen fertility. To obtain such signal peptides for rice, we searched the rice proteins homologous to the defined wheat amyloplast proteins followed by protein-protein interaction network predictions and targeting signal peptides prediction. These analyses enabled the identification of four candidate ASPs in rice, which were designated as ASP1, ASP2, ASP3, and ASP4, respectively. ASP1 and ASP2, when linked with ZM-AA1, exhibited the capability to disrupt transgenic pollen grains, whereas ASP3 and ASP4 did not produce this effect. Interestingly, the localization experiments showed that ASP3 and ASP4 were able to target the proteins into chloroplast. The ASP1 and ASP2 sequences provide valuable tools for genetic engineering of the rice male-sterile system, which will contribute to the hybrid rice breeding and production. Supplementary information - The online version contains supplementary material available at 10.1007/s11032-024-01471-y.
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Dates et versions

hal-02634670 , version 1 (27-05-2020)

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Emna Berrich, Asma Dhahak, Abdel Aziz Touati, Fethi Aloui. Experimental Investigation of Polypropylene Pyrolysis for Fuel Production. Exergy for A Better Environment and Improved Sustainability, 2, pp.461-470, 2018, ⟨10.1007/978-3-319-62575-1_33⟩. ⟨hal-02634670⟩
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