Your search keyword '"Hu, Kaiqiang"' showing total 3 results

1. High-Efficient and Transient Transformation of Moso Bamboo (Phyllostachys edulis) and Ma Bamboo (Dendrocalamus latiflorus Munro)

Author

Chen, Kai, Hu, Kaiqiang, Xi, Feihu, Wang, Huihui, Kohnen, Markus V., Gao, Pengfei, Liao, Jiakai, Wei, Wentao, Liu, Xuqing, Zhang, Hangxiao, and Gu, Lianfeng

Published

2023

2. Genome-Wide Profiling of Circular RNAs in the Rapidly Growing Shoots of Moso Bamboo (Phyllostachys edulis).

Author

Wang, Yongsheng, Gao, Yubang, Zhang, Hangxiao, Wang, Huihui, Liu, Xuqing, Xu, Xi, Zhang, Zeyu, Kohnen, Markus V, Hu, Kaiqiang, Wang, Huiyuan, Xi, Feihu, Zhao, Liangzhen, Lin, Chentao, and Gu, Lianfeng

Subjects

Genetics, Biotechnology, Gene Expression Regulation, Plant, Genome-Wide Association Study, Plant Shoots, Poaceae, RNA, RNA, Circular, RNA, Plant, Transcriptome, Circular RNAs, Hub genes, miRNAs, Phyllostachys edulis, Phyllostachys edulis, Biochemistry and Cell Biology, Plant Biology, Plant Biology & Botany

Abstract

Circular RNAs, including circular exonic RNAs (circRNA), circular intronic RNAs (ciRNA) and exon-intron circRNAs (EIciRNAs), are a new type of noncoding RNAs. Growing shoots of moso bamboo (Phyllostachys edulis) represent an excellent model of fast growth and their circular RNAs have not been studied yet. To understand the potential regulation of circular RNAs, we systematically characterized circular RNAs from eight different developmental stages of rapidly growing shoots. Here, we identified 895 circular RNAs including a subset of mutually inclusive circRNA. These circular RNAs were generated from 759 corresponding parental coding genes involved in cellulose, hemicellulose and lignin biosynthetic process. Gene co-expression analysis revealed that hub genes, such as DEFECTIVE IN RNA-DIRECTED DNA METHYLATION 1 (DRD1), MAINTENANCE OF METHYLATION (MOM), dicer-like 3 (DCL3) and ARGONAUTE 1 (AGO1), were significantly enriched giving rise to circular RNAs. The expression level of these circular RNAs presented correlation with its linear counterpart according to transcriptome sequencing. Further protoplast transformation experiments indicated that overexpressing circ-bHLH93 generating from transcription factor decreased its linear transcript. Finally, the expression profiles suggested that circular RNAs may have interplay with miRNAs to regulate their cognate linear mRNAs, which was further supported by overexpressing miRNA156 decreasing the transcript of circ-TRF-1 and linear transcripts of TRF-1. Taken together, the overall profile of circular RNAs provided new insight into an unexplored category of long noncoding RNA regulation in moso bamboo.

Published

2019

3. Whole‐genome characterization of chronological age‐associated changes in methylome and circular RNAs in moso bamboo (Phyllostachys edulis) from vegetative to floral growth.

Author

Zhang, Zeyu, Wang, Huihui, Wang, Yongsheng, Xi, Feihu, Wang, Huiyuan, Kohnen, Markus V., Gao, Pengfei, Wei, Wentao, Chen, Kai, Liu, Xuqing, Gao, Yubang, Han, Ximei, Hu, Kaiqiang, Zhang, Hangxiao, Zhu, Qiang, Zheng, Yushan, Liu, Bo, Ahmad, Ayaz, Hsu, Yau‐Heiu, and Jacobsen, Steven E.

Subjects

PHYLLOSTACHYS, DNA methylation, BAMBOO, CIRCULAR RNA, AGE, NUCLEOTIDE sequencing, P16 gene

Abstract

Summary: In mammals, DNA methylation is associated with aging. However, age‐related DNA methylation changes during phase transitions largely remain unstudied in plants. Moso bamboo (Phyllostachys edulis) requires a very long time to transition from the vegetative to the floral phase. To comprehensively investigate the association of DNA methylation with aging, we present here single‐base‐resolution DNA methylation profiles using both high‐throughput bisulfite sequencing and single‐molecule nanopore‐based DNA sequencing, covering the long period of vegetative growth and transition to flowering in moso bamboo. We discovered that CHH methylation gradually accumulates from vegetative to reproductive growth in a time‐dependent fashion. Differentially methylated regions, correlating with chronological aging, occurred preferentially at both transcription start sites and transcription termination sites. Genes with CG methylation changes showed an enrichment of Gene Ontology (GO) categories in 'vegetative to reproductive phase transition of meristem'. Combining methylation data with mRNA sequencing revealed that DNA methylation in promoters, introns and exons may have different roles in regulating gene expression. Finally, circular RNA (circRNA) sequencing revealed that the flanking introns of circRNAs are hypermethylated and enriched in long terminal repeat (LTR) retrotransposons. Together, the observations in this study provide insights into the dynamic DNA methylation and circRNA landscapes, correlating with chronological age, which paves the way to study further the impact of epigenetic factors on flowering in moso bamboo. Significance Statement: Moso bamboo requires a very long time to transition from the vegetative to the floral phase. Here, we found that the DNA methylation level varies with chronological age in moso bamboo. This study also provides insights into flanking introns of circRNAs, which are hypermethylated and enriched in LTR retrotransposons. [ABSTRACT FROM AUTHOR]

Published

2021