Search

Your search keyword '"Chan, Zhulong"' showing total 323 results
Start Over Author "Chan, Zhulong"
323 results on '"Chan, Zhulong"'

7. SPAAC-NAD-seq, a sensitive and accurate method to profile NAD+-capped transcripts

Author

Hu, Hao, Flynn, Nora, Zhang, Hailei, You, Chenjiang, Hang, Runlai, Wang, Xufeng, Zhong, Huan, Chan, Zhulong, Xia, Yiji, and Chen, Xuemei

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Chemical Sciences, Genetics, Arabidopsis, Cycloaddition Reaction, Gene Expression Profiling, NAD, RNA Caps, RNA-Seq, Transcription, Genetic, NAD captureSeq, SPAAC-NAD-seq, NAD-RNA, m(7)G-RNA, m7G-RNA
Abstract

Nicotinamide adenine diphosphate (NAD+) is a novel messenger RNA 5' cap in Escherichia coli, yeast, mammals, and Arabidopsis Transcriptome-wide identification of NAD+-capped RNAs (NAD-RNAs) was accomplished through NAD captureSeq, which combines chemoenzymatic RNA enrichment with high-throughput sequencing. NAD-RNAs are enzymatically converted to alkyne-RNAs that are then biotinylated using a copper-catalyzed azide-alkyne cycloaddition (CuAAC) reaction. Originally applied to E. coli RNA, which lacks the m7G cap, NAD captureSeq was then applied to eukaryotes without extensive verification of its specificity for NAD-RNAs vs. m7G-capped RNAs (m7G-RNAs). In addition, the Cu2+ ion in the CuAAC reaction causes RNA fragmentation, leading to greatly reduced yield and loss of full-length sequence information. We developed an NAD-RNA capture scheme utilizing the copper-free, strain-promoted azide-alkyne cycloaddition reaction (SPAAC). We examined the specificity of CuAAC and SPAAC reactions toward NAD-RNAs and m7G-RNAs and found that both prefer the former, but also act on the latter. We demonstrated that SPAAC-NAD sequencing (SPAAC-NAD-seq), when combined with immunodepletion of m7G-RNAs, enables NAD-RNA identification with accuracy and sensitivity, leading to the discovery of new NAD-RNA profiles in Arabidopsis Furthermore, SPAAC-NAD-seq retained full-length sequence information. Therefore, SPAAC-NAD-seq would enable specific and efficient discovery of NAD-RNAs in prokaryotes and, when combined with m7G-RNA depletion, in eukaryotes.

Published
2021

18. The R2R3-MYB Transcriptional Repressor TgMYB4 Negatively Regulates Anthocyanin Biosynthesis in Tulips (Tulipa gesneriana L.).

Author

Hu, Xianmei, Liang, Zehui, Sun, Tianxiao, Huang, Ling, Wang, Yanping, Chan, Zhulong, and Xiang, Lin

Subjects
ANTHOCYANINS, BIOSYNTHESIS, ORNAMENTAL plants, TULIPS, BASIC proteins, VALUE (Economics), CULTIVARS
Abstract

Anthocyanins play a paramount role in color variation and significantly contribute to the economic value of ornamental plants. The conserved activation complex MYB-bHLH-WD40 (MBW; MYB: v-myb avian myeloblastosis viral oncogene homolog; bHLH: basic helix–loop–helix protein; WD40:WD-repeat protein) involved in anthocyanin biosynthesis has been thoroughly researched, but there have been limited investigations into the function of repressor factors. In this study, we characterized TgMYB4, an R2R3-MYB transcriptional repressor which is highly expressed during petal coloration in red petal cultivars. TgMYB4-overexpressing tobaccos exhibited white or light pink petals with less anthocyanin accumulation compared to control plants. TgMYB4 was found to inhibit the transcription of ANTHOCYANIDIN SYNTHASE (TfANS1) and DIHYDRO-FLAVONOL-4-REDUCTASE (AtDFR), although it did not bind to their promoters. Moreover, the TgMYB4 protein was able to compete with the MYB activator to bind to the :bHLHprotein, thereby suppressing the function of the activator MBW complex. These findings demonstrate that TgMYB4 plays a suppressive role in the regulation of anthocyanin synthesis during flower pigmentation. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

20. ABA receptor PYL9 promotes drought resistance and leaf senescence

Author

Zhao, Yang, Chan, Zhulong, Gao, Jinghui, Xing, Lu, Cao, Minjie, Yu, Chunmei, Hu, Yuanlei, You, Jun, Shi, Haitao, Zhu, Yingfang, Gong, Yuehua, Mu, Zixin, Wang, Haiqing, Deng, Xin, Wang, Pengcheng, Bressan, Ray A., and Zhu, Jian-Kang

Published
2016

38. Genome‐wide identification of heat shock transcription factor families in perennial ryegrass highlights the role of LpHSFC2b in heat stress response.

Author

Sun, Tianxiao, Wang, Weiliang, Hu, Xianmei, Fang, Zhengfu, Wang, Yanping, Xiang, Lin, and Chan, Zhulong

Subjects
HEAT shock factors, RYEGRASSES, PERENNIALS, IMMOBILIZED proteins, LOLIUM perenne, TURFGRASSES
Abstract

Perennial ryegrass (Lolium perenne) is a cool‐season turf and forage grass. Heat shock transcription factors (HSFs) play an important role in regulating plant abiotic stress. However, HSFs in perennial ryegrass have rarely been characterized. Here, 25 LpHSFs were identified from the perennial ryegrass genome. Phylogenetic analysis showed that the LpHSFs could be classified into 12 subclasses. Gene structure analysis showed that 22 LpHSFs have only one intron. Cis‐acting elements analysis revealed that the promoter of 15 LpHSFs contained hormone‐responsive and abiotic stress‐responsive elements. Expression profile analysis indicated that 24 LpHSFs were differentially expressed under submerge, drought, heat, and cold stresses. In addition, a subclass C2 gene, LpHSFC2b, was significantly induced by abiotic stresses. The LpHSFC2b protein is localized to the nucleus, and heterologous expression of LpHSFC2b in Arabidopsis improves plant thermotolerance. This study provides insights useful for the breeding of stress tolerance in perennial ryegrass. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results