Hong-Li Zhai

Publications (3)10.62 Total impact

• Source

  Available from: Thomas Hankemeier

  Article: Comparative transcriptional profiling and preliminary study on heterosis mechanism of super-hybrid rice.

  Gui-Sheng Song, Hong-Li Zhai, Yong-Gang Peng, Lei Zhang, Gang Wei, Xiao-Ying Chen, Yu-Guo Xiao, Lili Wang, Yue-Jun Chen, Bin Wu, [......], Xiao-Li Wei, Xiao-Ling Zhao, Pieter B F Ouwerkerk, Thomas Hankemeier, Theo Reijmers, Rob van der Heijden, Cong-Ming Lu, Mei Wang, Jan van der Greef, Zhen Zhu
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  ABSTRACT: Heterosis is a biological phenomenon whereby the offspring from two parents show improved and superior performance than either inbred parental lines. Hybrid rice is one of the most successful apotheoses in crops utilizing heterosis. Transcriptional profiling of F(1) super-hybrid rice Liangyou-2186 and its parents by serial analysis of gene expression (SAGE) revealed 1183 differentially expressed genes (DGs), among which DGs were found significantly enriched in pathways such as photosynthesis and carbon-fixation, and most of the key genes involved in the carbon-fixation pathway exhibited up-regulated expression in F(1) hybrid rice. Moreover, increased catabolic activity of corresponding enzymes and photosynthetic efficiency were also detected, which combined to indicate that carbon fixation is enhanced in F(1) hybrid, and might probably be associated with the yield vigor and heterosis in super-hybrid rice. By correlating DGs with yield-related quantitative trait loci (QTL), a potential relationship between differential gene expression and phenotypic changes was also found. In addition, a regulatory network involving circadian-rhythms and light signaling pathways was also found, as previously reported in Arabidopsis, which suggest that such a network might also be related with heterosis in hybrid rice. Altogether, the present study provides another view for understanding the molecular mechanism underlying heterosis in rice.
  Molecular Plant 11/2010; 3(6):1012-25. · 5.55 Impact Factor
• Article: Cell-wall invertases from rice are differentially expressed in Caryopsis during the grain filling stage.

  Yong-Qin Wang, Xiao-Li Wei, Hong-Lin Xu, Cheng-Lin Chai, Kun Meng, Hong-Li Zhai, Ai-Jun Sun, Yong-Gang Peng, Bin Wu, Gui-Fang Xiao, Zhen Zhu
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  ABSTRACT: Cell-wall invertase plays an important role in sucrose partitioning between source and sink organs in higher plants. To investigate the role of cell-wall invertases for seed development in rice (Oryza sativa L.), cDNAs of three putative cell-wall invertase genes OsCIN1, OsCIN2 and OsCIN3 were isolated. Semi-quantitative reverse transcription-polymerase chain reaction analysis revealed different expression patterns of the three genes in various rice tissues/organs. In developing caryopses, they exhibited similar temporal expression patterns, expressed highly at the early and middle grain filling stages and gradually declined to low levels afterward. However, the spatial expression patterns of them were very different, with OsCIN1 primarily expressed in the caryopsis coat, OsCIN2 in embryo and endosperm, and OsCIN3 in embryo. Further RNA in situ hybridization analysis revealed that a strong signal of OsCIN2 mRNA was detected in the vascular parenchyma surrounding the xylem of the chalazal vein and the aleurone layer, whereas OsCIN3 transcript was strongly detected in the vascular parenchyma surrounding the phloem of the chalazal vein, cross-cells, the aleurone layer and the nucellar tissue. These data indicate that the three cell-wall invertase genes play complementary/synergetic roles in assimilate unloading during the grain filling stage. In addition, the cell type-specific expression patterns of OsCIN3 in source leaf blades and anthers were also investigated, and its corresponding physiological roles were discussed.
  Journal of Integrative Plant Biology 05/2008; 50(4):466-74. · 2.53 Impact Factor
• Article: Cloning and expression analysis of rice sucrose transporter genes OsSUT2M and OsSUT5Z.

  Ai-Jun Sun, Hong-Lin Xu, Wan-Kui Gong, Hong-Li Zhai, Kun Meng, Yong-Qin Wang, Xiao-Li Wei, Gui-Fang Xiao, Zhen Zhu
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  ABSTRACT: Two sucrose transporter (SUT) cDNAs, OsSUT2M and OsSUT5Z, were isolated from rice (Oryza sativa L.) by reverse transcription polymerase chain reaction (RT-PCR). Sequencing results indicate they are 1,531 bp and 1,635 bp in length including complete open reading frame 1,506 bp and 1,608 bp, which encode 502 amino acids and 536 amino acids, respectively. The TopPred program suggested that both sucrose transporter proteins, OsSUT2M and OsSUT5Z, consist of potentially 12 transmembrane domains. Semi-quantitative RT-PCR was carried out to investigate the gene expression patterns of OsSUT2M and OsSUT5Z. In vegetative organs, transcripts of OsSUT2M were higher in source leaf blades than in other organs at the same development stage, whereas transcripts of OsSUT5Z were less traceable in all organs investigated. In reproductive organs, both transcripts of these two genes were high in panicles from the booting stage to 7 days after flowering (DAF) and then sharply declined. The potential physiology functions of these two sucrose transporters are discussed.
  Journal of Integrative Plant Biology 02/2008; 50(1):62-75. · 2.53 Impact Factor