Your search keyword '"m6A sequencing"' showing total 9 results

1. Exogenous MgH2-derived hydrogen alleviates cadmium toxicity through m6A RNA methylation in rice

Author

Wang, Peiran, Cao, Junfeng, Lu, Jiayu, Xu, Xue, Wu, Shuang, Liu, Hongru, and Wang, Xiufeng

Published

2024

2. Detection, distribution, and functions of RNA N6-methyladenosine (m6A) in plant development and environmental signal responses.

Author

Yang Xiang, Dian Zhang, Lei Li, Yi-Xuan Xue, Chao-Yang Zhang, Qing-Feng Meng, Jin Wang, Xiao-Li Tan, and Yu-Long Li

Subjects

PLANT RNA, CARRIER proteins, STOP codons, PLANT development, PLANT growth

Abstract

The epitranscriptomic mark N6-methyladenosine (m6A) is the most common type of messenger RNA (mRNA) post-transcriptional modification in eukaryotes. With the discovery of the demethylase FTO (FAT MASS AND OBESITYASSOCIATED PROTEIN) in Homo Sapiens, this modification has been proven to be dynamically reversible. With technological advances, research on m6A modification in plants also rapidly developed. m6A modification is widely distributed in plants, which is usually enriched near the stop codons and 3'-UTRs, and has conserved modification sequences. The related proteins of m6A modification mainly consist of three components: methyltransferases (writers), demethylases (erasers), and reading proteins (readers). m6A modification mainly regulates the growth and development of plants by modulating the RNA metabolic processes and playing an important role in their responses to environmental signals. In this review, we briefly outline the development of m6A modification detection techniques; comparatively analyze the distribution characteristics of m6A in plants; summarize the methyltransferases, demethylases, and binding proteins related to m6A; elaborate on how m6A modification functions in plant growth, development, and response to environmental signals; and provide a summary and outlook on the research of m6A in plants. [ABSTRACT FROM AUTHOR]

Published

2024

3. Multi-omics sequencing revealed endostar combined with cisplatin treated non small cell lung cancer via anti-angiogenesis

Author

Wang, Yufei and Ren, Hong

Published

2024

4. Detection, distribution, and functions of RNA N6-methyladenosine (m6A) in plant development and environmental signal responses

Author

Yang Xiang, Dian Zhang, Lei Li, Yi-Xuan Xue, Chao-Yang Zhang, Qing-Feng Meng, Jin Wang, Xiao-Li Tan, and Yu-Long Li

Subjects

N6-methyladenosine (m6A), m6A sequencing, conserved m6A motifs, m6A-related proteins, m6A functions, Plant culture, SB1-1110

Abstract

The epitranscriptomic mark N6-methyladenosine (m6A) is the most common type of messenger RNA (mRNA) post-transcriptional modification in eukaryotes. With the discovery of the demethylase FTO (FAT MASS AND OBESITY-ASSOCIATED PROTEIN) in Homo Sapiens, this modification has been proven to be dynamically reversible. With technological advances, research on m6A modification in plants also rapidly developed. m6A modification is widely distributed in plants, which is usually enriched near the stop codons and 3′-UTRs, and has conserved modification sequences. The related proteins of m6A modification mainly consist of three components: methyltransferases (writers), demethylases (erasers), and reading proteins (readers). m6A modification mainly regulates the growth and development of plants by modulating the RNA metabolic processes and playing an important role in their responses to environmental signals. In this review, we briefly outline the development of m6A modification detection techniques; comparatively analyze the distribution characteristics of m6A in plants; summarize the methyltransferases, demethylases, and binding proteins related to m6A; elaborate on how m6A modification functions in plant growth, development, and response to environmental signals; and provide a summary and outlook on the research of m6A in plants.

Published

2024

5. Characteristics of N6-methyladenosine Modification During Sexual Reproduction of Chlamydomonas reinhardtii

Author

Ying Lv, Fei Han, Mengxia Liu, Ting Zhang, Guanshen Cui, Jiaojiao Wang, Ying Yang, Yun-Gui Yang, and Wenqiang Yang

Subjects

N6-methyladenosine, m6A sequencing, Sexual reproduction, Microtubule-associated pathway, Photosynthesis, Chlamydomonas reinhardtii, Biology (General), QH301-705.5, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

The unicellular green alga Chlamydomonas reinhardtii (hereafter Chlamydomonas) possesses both plant and animal attributes, and it is an ideal model organism for studying fundamental processes such as photosynthesis, sexual reproduction, and life cycle. N6-methyladenosine (m6A) is the most prevalent mRNA modification, and it plays important roles during sexual reproduction in animals and plants. However, the pattern and function of m6A modification during the sexual reproduction of Chlamydomonas remain unknown. Here, we performed transcriptome and methylated RNA immunoprecipitation sequencing (MeRIP-seq) analyses on six samples from different stages during sexual reproduction of the Chlamydomonas life cycle. The results show that m6A modification frequently occurs at the main motif of DRAC (D = G/A/U, R = A/G) in Chlamydomonas mRNAs. Moreover, m6A peaks in Chlamydomonas mRNAs are mainly enriched in the 3′ untranslated regions (3′UTRs) and negatively correlated with the abundance of transcripts at each stage. In particular, there is a significant negative correlation between the expression levels and the m6A levels of genes involved in the microtubule-associated pathway, indicating that m6A modification influences the sexual reproduction and the life cycle of Chlamydomonas by regulating microtubule-based movement. In summary, our findings are the first to demonstrate the distribution and the functions of m6A modification in Chlamydomonas mRNAs and provide new evolutionary insights into m6A modification in the process of sexual reproduction in other plant organisms.

Published

2023

6. METTL16-mediated translation of CIDEA promotes non-alcoholic fatty liver disease progression via m6A-dependent manner.

Author

Jinhong Tang, Xiangyun Zhao, Wei Wei, Weiwei Liu, Huining Fan, Xiu ping Liu, Yungai Li, Long Wang, and Jinghui Guo

Subjects

NON-alcoholic fatty liver disease, DISEASE progression, FATTY liver, COLLISION broadening, RNA sequencing, NUCLEOTIDE sequencing

Abstract

Background: As the most prevalent chemical modifications on eukaryotic mRNAs, N6-methyladenosine (m6A) methylation was reported to participate in the regulation of various metabolic diseases. This study aimed to investigate the roles of m6A methylation and methyltransferase-like16 (METTL16) in non-alcoholic fatty liver disease (NAFLD). Methods: In this study, we used a model of diet-induced NAFLD, maintaining six male C57BL/6J mice on high-fat diet (HFD) to generate hepatic steatosis. The high-throughput sequencing and RNA sequencing were performed to identify the m6A methylation patterns and differentially expressed mRNAs in HFD mice livers. Furthermore, we detected the expression levels of m6A modify enzymes by qRT-PCR in liver tissues, and further investigated the potential role of METTL16 in NAFLD through constructing overexpression and a knockdown model of METTL16 in HepG2 cells. Results: In total, we confirmed 15,999 m6A recurrent peaks in HFD mice and 12,322 in the control. Genes with differentially methylated m6A peaks were significantly associated with the dysregulated glucolipid metabolism and aggravated hepatic inflammatory response. In addition, we identified five genes (CIDEA, THRSP, OSBPL3, GDF15 and LGALS1) that played important roles in NAFLD progression after analyzing the differentially expressed genes containing differentially methylated m6A peaks. Intriguingly, we found that the expression levels ofMETTL16 were substantially increased in the NAFLD model in vivo and in vitro, and further confirmed that METTL16 upregulated the expression level of lipogenic genes CIDEA in HepG2 cells. Conclusions: These results indicate the critical roles of m6A methylation and METTL16 in HFD-induced mice and cell NAFLD models, which broaden people's perspectives on potential m6A-related treatments and biomarkers for NAFLD. [ABSTRACT FROM AUTHOR]

Published

2022

7. m6A and miRNA jointly regulate the development of breast muscles in duck embryonic stages

Author

Lihong Gu, Shunjin Zhang, Boling Li, Qicheng Jiang, Tieshan Xu, Yongzhen Huang, Dajie Lin, Manping Xing, Lili Huang, Xinli Zheng, Feng Wang, Zhe Chao, and Weiping Sun

Subjects

ducks, embryo, breast muscles, m6A sequencing, miRNAs sequencing, Veterinary medicine, SF600-1100

Abstract

N6-methyladenosine (m6A) is an abundant internal mRNA modification and plays a crucial regulatory role in animal growth and development. In recent years, m6A modification has been found to play a key role in skeletal muscles. However, whether m6A modification contributes to embryonic breast muscle development of Pekin ducks has not been explored. To explore the role of m6A in embryonic breast muscle development of ducks, we performed m6A sequencing and miRNA sequencing for the breast muscle of duck embryos on the 19th (E19) and 27th (E27) days. A total of 12,717 m6A peaks were identified at E19, representing a total of 7,438 gene transcripts. A total of 14,703 m6A peaks were identified, which overlapped with the transcripts of 7,753 genes at E27. Comparing E19 and E27, we identified 2,347 differential m6A peaks, which overlapped with 1,605 m6A-modified genes (MMGs). Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses revealed that MMGs were enriched in multiple muscle- or fat-related pathways, which was also revealed from our analysis of differentially expressed genes (DEGs). Conjoint analysis of m6A-seq and RNA-seq data showed that pathways related to β-oxidation of fatty acids and skeletal muscle development were significantly enriched, suggesting that m6A modification is involved in the regulation of fat deposition and skeletal muscle development. There were 90 upregulated and 102 downregulated miRNAs identified between the E19 and E27 stages. Through overlapping analysis of genes shared by MMGs and DEGs and the targets of differentially expressed miRNAs (DEMs), we identified six m6A-mRNA-regulated miRNAs. Finally, we found that m6A modification can regulate fat deposition and skeletal muscle development. In conclusion, our results suggest that m6A modification is a key regulator for embryonic breast muscle development and fat deposition of ducks by affecting expressions of mRNAs and miRNAs. This is the first study to comprehensively characterize the m6A patterns in the duck transcriptome. These data provide a solid basis for future work aimed at determining the potential functional roles of m6A modification in adipose deposition and muscle growth.

Published

2022

8. The m6A RNA Modification Modulates Gene Expression and Fibrosis-Related Pathways in Hypertrophic Scar

Author

Si-Yu Liu, Jun-Jie Wu, Zhong-hua Chen, Ming-Li Zou, Ying-ying Teng, Kai-Wen Zhang, Yue-Yue Li, Dang-yang Guo, and Feng-Lai Yuan

Subjects

hypertrophic scar, m6A sequencing, modification patterns, N6-methyladenosine, MeRIP-seq, Biology (General), QH301-705.5

Abstract

Purpose: To systematically analyze the overall m6A modification pattern in hyperplastic scars (HS).Methods: The m6A modification patterns in HS and normal skin (NS) tissues were described by m6A sequencing and RNA sequencing, and subsequently bioinformatics analysis was performed. The m6A-related RNA was immunoprecipitated and verified by real-time quantitative PCR.Results: The appearance of 14,791 new m6A peaks in the HS sample was accompanied by the disappearance of 7,835 peaks. The unique m6A-related genes in HS were thus associated with fibrosis-related pathways. We identified the differentially expressed mRNA transcripts in HS samples with hyper-methylated or hypo-methylated m6A peaks.Conclusion: This study is the first to map the m6A transcriptome of human HS, which may help clarify the possible mechanism of m6A-mediated gene expression regulation.

Published

2021

9. The m

Author

Si-Yu, Liu, Jun-Jie, Wu, Zhong-Hua, Chen, Ming-Li, Zou, Ying-Ying, Teng, Kai-Wen, Zhang, Yue-Yue, Li, Dang-Yang, Guo, and Feng-Lai, Yuan

Subjects

Cell and Developmental Biology, N6-methyladenosine, MeRIP-seq, m6A sequencing, hypertrophic scar, modification patterns, Original Research

Abstract

Purpose: To systematically analyze the overall m6A modification pattern in hyperplastic scars (HS). Methods: The m6A modification patterns in HS and normal skin (NS) tissues were described by m6A sequencing and RNA sequencing, and subsequently bioinformatics analysis was performed. The m6A-related RNA was immunoprecipitated and verified by real-time quantitative PCR. Results: The appearance of 14,791 new m6A peaks in the HS sample was accompanied by the disappearance of 7,835 peaks. The unique m6A-related genes in HS were thus associated with fibrosis-related pathways. We identified the differentially expressed mRNA transcripts in HS samples with hyper-methylated or hypo-methylated m6A peaks. Conclusion: This study is the first to map the m6A transcriptome of human HS, which may help clarify the possible mechanism of m6A-mediated gene expression regulation.

Published

2021