Proteomics

Dataset Information

0

Oryza sativa,Global proteome,LC-MSMS


ABSTRACT: Rice is one of the most important global food crops, and is also a model organism for cereal research 31 . Complete genome sequencing of rice, together with advances in transcriptomics and proteomics, has had a dramatic impact on plant growth and 5 breeding programs 32 . Genomic analysis of DNA methylation in rice has revealed methylation patterns associated with gene bodies and promoters, and the occurrence of high levels of DNA methylation in the centromeric domain 33 . A genome-wide investigation of acetylation in rice revealed that H3K9ac and H3K27ac are mainly enriched at transcription start sites associated with active transcription 34 . Furthermore, global proteome analysis has shown that phosphorylation and succinylation are involved in diverse cellular and metabolic processes 35, 36 . However, despite these considerable advances in our knowledge, additional large-scale analysis of the lysine acetylome in rice is expected to identify many more Kac sites and acetylated proteins in this improtant crop plant. In this study, affinity enrichment and high-resolution LC-MS/MS were used for large-scale analysis of the lysine acetylome in rice variety Nipponbare. In total, 1353 lysine acetylation sites were detected in 866 protein groups in rice seedlings. Proteomic analysis showed that Kac occurs in proteins involved in diverse biological processes with varied cellular functions and subcellular localization.

INSTRUMENT(S): LTQ Orbitrap

ORGANISM(S): Oryza Sativa (rice)

TISSUE(S): Plant Cell, Leaf

SUBMITTER: Gong zhi yun  

LAB HEAD: Gong zhi yun

PROVIDER: PXD004870 | Pride | 2017-11-13

REPOSITORIES: Pride

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Publications

Global Proteome Analysis Links Lysine Acetylation to Diverse Functions in Oryza Sativa.

Xue Chao C   Liu Shuai S   Chen Chen C   Zhu Jun J   Yang Xibin X   Zhou Yong Y   Guo Rui R   Liu Xiaoyu X   Gong Zhiyun Z  

Proteomics 20180101 1


Lysine acetylation (Kac) is an important protein post-translational modification in both eukaryotes and prokaryotes. Herein, we report the results of a global proteome analysis of Kac and its diverse functions in rice (Oryza sativa). We identified 1353 Kac sites in 866 proteins in rice seedlings. A total of 11 Kac motifs are conserved, and 45% of the identified proteins are localized to the chloroplast. Among all acetylated proteins, 38 Kac sites are combined in core histones. Bioinformatics ana  ...[more]

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