Profile of Dr. Yao-Guang Liu

• Chen, L., and Liu, Y.G. (2014). Male sterility and fertility restoration in crops. Annu Rev Plant Biol 65, 579–606.

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• Luo, D., Xu, H., Liu, Z., Guo, J., Li, H., Chen, L., Fang, C., Zhang, Q., Bai, M., Yao, N., et al. (2013). A detrimental mitochondrial-nuclear interaction causes cytoplasmic male sterility in rice. Nat Genet 45, 573–577.

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• Long, Y., Zhao, L., Niu, B., Su, J., Wu, H., Chen, Y., Zhang, Q., Guo, J., Zhuang, C., Mei, M., et al. (2008). Hybrid male sterility in rice controlled by interaction between divergent alleles of two adjacent genes. Proc Natl Acad Sci USA 105, 18871–18876.

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• Lin, L., Liu, Y.G., Xu, X., and Li, B. (2003). Efficient linking and transfer of multiple genes by a multigene assembly and transformation vector system. Proc Natl Acad Sci USA 100, 5962–5967.

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• Liu, Y.G., and Whittier, R.F. (1995). Thermal asymmetric interlaced PCR: automatable amplification and sequencing of insert end fragments from P1 and YAC clones for chromosome walking. Genomics 25, 674–681.

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• Liu, Y.G., Mitsukawa, N., Oosumi, T., and Whittier, R.F. (1995). Efficient isolation and mapping of Arabidopsis thaliana T-DNA insert junctions by thermal asymmetric interlaced PCR. Plant J 8, 457–463.

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• Liu, Y.G., Shirano, Y., Fukaki, H., Yanai, Y., Tasaka, M., Tabata, S., and Shibata, D. (1999). Complementation of plant mutants with large genomic DNA fragments by a transformation-competent artificial chromosome vector accelerates positional cloning. Proc Natl Acad Sci USA 96, 6535–6540.

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• Liu, Z.L., Xu, H., Guo, J.X., and Liu, Y.G. (2007). Structural and expressional variations of the mitochondrial genome conferring the Wild Abortive type of cytoplasmic male sterility in rice. J Integr Plant Biol 49, 908–914.

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• Ma, X., Zhang, Q., Zhu, Q., Liu, W., Chen, Y., Qiu, R., Wang, B., Yang, Z., Li, H., Lin, Y., et al. (2015). A robust CRISPR/Cas9 system for convenient, high-efficiency multiplex genome editing in monocot and dicot plants. Mol Plant 8, 1274–1284.

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• Shen, R., Wang, L., Liu, X., Wu, J., Jin, W., Zhao, X., Xie, X., Zhu, Q., Tang, H., Li, Q., et al. (2017). Genomic structural variation-mediated allelic suppression causes hybrid male sterility in rice. Nat Commun 8, 1310.

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• Tang, H., Luo, D., Zhou, D., Zhang, Q., Tian, D., Zheng, X., Chen, L., and Liu, Y.G. (2014). The rice restorer Rf4 for wild-abortive cytoplasmic male sterility encodes a mitochondrial-localized PPR protein that functions in reduction of WA352 transcripts. Mol Plant 7, 1497–1500.

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• Tang, H., Xie, Y., Liu, Y.G., and Chen, L. (2017). Advances in understanding the molecular mechanisms of cytoplasmic male sterility and restoration in rice. Plant Reprod 30, 179–184.

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• Wang, Z., Zou, Y., Li, X., Zhang, Q., Chen, L., Wu, H., Su, D., Chen, Y., Guo, J., Luo, D., et al. (2006). Cytoplasmic male sterility of rice with Boro II cytoplasm is caused by a cytotoxic peptide and is restored by two related PPR motif genes via distinct modes of mRNA silencing. Plant Cell 18, 676–687.

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• Xie, X., Ma, X., Zhu, Q., Zeng, D., Li, G., and Liu, Y.G. (2017). CRISPR-GE: A convenient software toolkit for CRISPR-based genome editing. Mol Plant 10, 1246–1249.

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• Xie, Y., Xu, P., Huang, J., Ma, S., Xie, X., Tao, D., Chen, L., and Liu, Y.G. (2017). Interspecific hybrid sterility in rice is mediated by OgTPR1 at the S1 locus encoding a peptidase-like protein. Mol Plant 10, 1137–1140.

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• Xie, Y., Tang, J., Xie, X., Li, X., Huang, J., Fei, Y., Han J., Chen, S., Tang, H., Zhao, X., et al. (2019). An asymmetric allelic interaction drives allele transmission bias in interspecific 1 rice hybrids. Nat Commun, doi: https://doi.org/10.1038/s41467-019-10488-3.

• Zhou, H., Liu, Q., Li, J., Jiang, D., Zhou, L., Wu, P., Lu, S., Li, F., Zhu, L., Liu, Z., et al. (2012). Photoperiod- and thermo-sensitive genic male sterility in rice are caused by a point mutation in a novel noncoding RNA that produces a small RNA. Cell Res 22, 649–660.

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• Zhu, Q., Yu, S., Zeng, D., Liu, H., Wang, H., Yang, Z., Xie, X., Shen, R., Tan, J., Li, H., et al. (2017). Development of “Purple Endosperm Rice” by engineering anthocyanin biosynthesis in the endosperm with a high-efficiency transgene stacking system. Mol Plant 10, 918–929.

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• Zhu, Q., Zeng, D., Yu, S., Cui, C., Li, J., Li, H., Chen, J., Zhang, R., Zhao, X., Chen, L., et al. (2018). From Golden Rice to aSTARice: bioengineering astaxanthin biosynthesis in rice endosperm. Mol Plant 11, 1440–1448.

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