肽基转移酶
核糖体
生物化学
木质部
化学
核糖体RNA
细胞生物学
翻译(生物学)
核糖核酸
多胺
核糖体蛋白
甲基化
生物
转移RNA
蛋白质生物合成
环己酰亚胺
平动调节
A站点
核酶
核糖体结合位点
结合位点
转移酶
甲基转移酶
虫草素
真核翻译
细胞
真核核糖体
酶
组蛋白
作者
Ko, Donghwi,Raili Ruonala,Alexandre Faille,Eva Hellmann,Hanna Help,Huili Liu,Ronni Nielsen,Anders Haakonsson,Nuria De Diego,Anja Paatero,Mariia Shcherbii,Karolina Stefanowicz,Sanja Cavar Zeljkovic,Tine Drud Lundager Rasmussen,Ondrej Novak,Zsuzsanna Bódi,Gugan Eswaran,Brecht Wybouw,Matthieu Bourdon,Cristina Úrbez
摘要
Polyamines are often associated with ribosomes and are thought to stabilize their integrity. In Arabidopsis, the polyamine thermospermine (tSpm) affects xylem cell fate. tSpm induces translation of SUPPRESSOR-OF-ACAULIS51 (SAC51) and SAC51-LIKEs (SACLs), which inhibit heterodimerization of the xylem development proteins LONESOME-HIGHWAY (LHW) and TARGET-OF-MONOPTEROS5. Here, we report a methyltransferase, OVERACHIEVER, that methylates the peptidyl transferase center of the 25S ribosomal RNA (rRNA). Residue m3U2952 promotes functional tSpm binding to a specific site connecting the P-site transfer RNA (tRNA) with rRNA residues in the peptidyl transferase center. This interaction enhances the translation of SACLs but inhibits that of LHW. Our study uncovers the dependency between a conserved rRNA base methylation and a polyamine in orchestrating cell fate decisions, highlighting a role for the ribosome chemical landscape in translational regulation.
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