Yan Liu scite author profile

Yan Liu

3Publications

5Citation Statements Received

323Citation Statements Given

How they've been cited

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368

320

Affiliations

Institute of Crop Sciences, Chinese Academy of Agricultural Sciences

Publications

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Bacterium-enabled transient gene activation by artificial transcription factors for resolving gene regulation in maize

Zhao

Peng

Qin

et al. 2023

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Understanding gene regulatory networks is essential to elucidate developmental processes and environmental responses. Here, we studied regulation of a maize (Zea mays) transcription factor gene using designer Transcription Activator-Like effectors (dTALes), which are synthetic type III TALes of the bacterial genus Xanthomonas and serve as inducers of disease susceptibility gene transcription in host cells. The maize pathogen Xanthomonas vasicola pv. vasculorum was used to introduce two independent dTALes into maize cells to induced expression of the gene glossy3 (gl3), which encodes a MYB transcription factor involved in biosynthesis of cuticular wax. RNA-seq analysis of leaf samples identified, in addition to gl3, 146 genes altered in expression by the two dTALes. Nine of the ten genes known to be involved in cuticular wax biosynthesis were up-regulated by at least one of the two dTALes. A gene previously unknown to be associated with gl3, Zm00001d017418, which encodes aldehyde dehydrogenase, was also expressed in a dTALe-dependent manner. A chemically induced mutant and a CRISPR-Cas9 mutant of Zm00001d017418 both exhibited glossy leaf phenotypes, indicating that Zm00001d017418 is involved in biosynthesis of cuticular waxes. Bacterial protein delivery of dTALes proved to be a straightforward and practical approach for the analysis and discovery of pathway-specific genes in maize.

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RNA-cleaving DNAzymes for accurate biosensing and gene therapy

Gao¹,

Liu²,

Huo³

et al. 2023

Nanoscale

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RNA polymerase common subunit ZmRPABC5b is transcriptionally activated by Opaque2 and essential for endosperm development in maize

Chen

Guo

Zhang

et al. 2023

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Maize (Zea mays) kernel size is an important factor determining grain yield; although numerous genes regulate kernel development, the roles of RNA polymerases in this process are largely unclear. Here, we characterized the defective kernel 701 (dek701) mutant that displays delayed endosperm development but normal vegetative growth and flowering transition, compared to its wild type. We cloned Dek701, which encoded ZmRPABC5b, a common subunit to RNA polymerases I, II and III. Loss-of-function mutation of Dek701 impaired the function of all three RNA polymerases and altered the transcription of genes related to RNA biosynthesis, phytohormone response and starch accumulation. Consistent with this observation, loss-of-function mutation of Dek701 affected cell proliferation and phytohormone homeostasis in maize endosperm. Dek701 was transcriptionally regulated in the endosperm by the transcription factor Opaque2 through binding to the GCN4 motif within the Dek701 promoter, which was subjected to strong artificial selection during maize domestication. Further investigation revealed that DEK701 interacts with the other common RNA polymerase subunit ZmRPABC2. The results of this study provide substantial insight into the Opaque2–ZmRPABC5b transcriptional regulatory network as a central hub for regulating endosperm development in maize.

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Yan Liu

Bacterium-enabled transient gene activation by artificial transcription factors for resolving gene regulation in maize

RNA-cleaving DNAzymes for accurate biosensing and gene therapy

RNA polymerase common subunit ZmRPABC5b is transcriptionally activated by Opaque2 and essential for endosperm development in maize

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