A distinct assembly pathway of the human 39S late pre-mitoribosome

Cheng, Jingdong; Berninghausen, Otto; Beckmann, Roland

doi:10.1101/2021.03.17.435838

Cited by 9 publications

(16 citation statements)

References 58 publications

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“…The studies, however, differ notably in the precise step during assembly, the biogenesis factors recruited, and finally, the GTPase in control. The deleterious consequences of manipulating NSUN4 or MTERF4 binding to the mitoribosome in vivo illustrate the importance of these proteins in mediating not only the exact step during PTC maturation that we have trapped, but also the prior and subsequent steps described in Cheng et al, 2021 ; Cipullo et al, 2021 ; Hillen et al, 2021 .…”

Section: Discussionmentioning

confidence: 89%

“…A comprehensive review of GTPases in human mitoribosomal assembly ( Maiti et al, 2021 ) and four studies describing cryo-EM structures of mtLSU late assembly intermediates distinct from ours and from each other ( Cheng et al, 2021 ; Cipullo et al, 2021 ; Hillen et al, 2021 ; Lenarčič et al, 2021 ), appeared during manuscript preparation. All five studies, including ours, have trapped MALSU1·L0R8F8·mt-ACP and NSUN4·MTERF4 at the same location on the mtLSU.…”

Section: Discussionmentioning

confidence: 99%

“…When taken together, these cryo-EM structures permit piecing together the order of events during the late-stage maturation of the mtLSU ( Figure 4 ). The anti-association factors MALSU1, L0R8F8, and mt-ACP engage the mtLSU during early assembly of the mtLSU ( Brown et al, 2017 ; Cheng et al, 2021 ). At this stage, ribosomal proteins bL27m and uL16m have already been incorporated (state I ).…”

Section: Discussionmentioning

confidence: 99%

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Visualizing formation of the active site in the mitochondrial ribosome

Chandrasekaran

Desai

Burton

et al. 2021

eLife

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Ribosome assembly is an essential and conserved process that is regulated at each step by specific factors. Using cryo-electron microscopy (cryo-EM), we visualize the formation of the conserved peptidyl transferase center (PTC) of the human mitochondrial ribosome. The conserved GTPase GTPBP7 regulates the correct folding of 16S ribosomal RNA (rRNA) helices and ensures 2ʹ-O-methylation of the PTC base U3039. GTPBP7 binds the RNA methyltransferase NSUN4 and MTERF4, which sequester H68-71 of the 16S rRNA and allow biogenesis factors to access the maturing PTC. Mutations that disrupt binding of their Caenorhabditis elegans orthologs to the large subunit potently activate mitochondrial stress and cause viability, development, and sterility defects. Next-generation RNA sequencing reveals widespread gene expression changes in these mutant animals that are indicative of mitochondrial stress response activation. We also answer the long-standing question of why NSUN4, but not its enzymatic activity, is indispensable for mitochondrial protein synthesis.

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Section: Discussionmentioning

confidence: 89%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Visualizing formation of the active site in the mitochondrial ribosome

Chandrasekaran

Desai

Burton

et al. 2021

eLife

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“…Analysis of the methylation of 16S mt-rRNA nucleotides in MRM1-3 knock-out models showed that the 2'-O-methylation of U1369 by MRM2 depends on the prior modification of U1370, substrate of MRM3 (Figure 1). This implies that MRM3 exerts its activity over the assembling mtLSU prior to MRM2, adding molecular evidence to support structural findings (Chandrasekaran et al, 2021;Cheng et al, 2021;Hillen et al, 2021;Lenarčič et al, 2021).…”

Section: Discussionmentioning

confidence: 55%

“…The late stages of mtLSU assembly involve almost exclusively the remodelling of interfacial RNA elements of otherwise complete particles, as shown by recent structural studies (Chandrasekaran et al, 2021;Cheng et al, 2021;Hillen et al, 2021;Lenarčič et al, 2021). Key players include the helicase DDX28, which dislocates the central protuberance to increase solvent exposure of the intersubunit interface, the MTERF4:NSUN4 complex, which holds H68-71 of domain IV of 16S mt-rRNA in an immature conformation to allow access of assembly factors to the PTC, and the GTPases GTPBP5, GTPBP6, GTPBP7 and GTPBP10, which coordinate the maturation of the PTC through a series of conformational rearrangements.…”

Section: Discussionmentioning

confidence: 94%

A late-stage assembly checkpoint of the human mitochondrial ribosome large subunit

Rebelo-Guiomar

Pellegrino

Dent

et al. 2021

Preprint

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SUMMARYThe epitranscriptome plays a key regulatory role in cellular processes in health and disease, including ribosome biogenesis. Here, analysis of the human mitochondrial transcriptome shows that 2’-O-methylation is limited to residues of the mitoribosomal large subunit (mtLSU) 16S mt-rRNA, modified by MRM1, MRM2, and MRM3. Ablation of MRM2 leads to a severe impairment of the oxidative phosphorylation system, caused by defective mitochondrial translation and accumulation of mtLSU assembly intermediates. Structures of these particles (2.58 Å) present disordered RNA domains, partial occupancy of bL36m and bound MALSU1:L0R8F8:mtACP anti-association module. Additionally, we present five mtLSU assembly states with different intersubunit interface configurations. Complementation studies demonstrate that the methyltransferase activity of MRM2 is dispensable for mitoribosome biogenesis. The Drosophila melanogaster orthologue, DmMRM2, is an essential gene, with its knock-down leading to developmental arrest. This work identifies a key late-stage quality control step during mtLSU assembly, ultimately contributing to the maintenance of mitochondrial homeostasis.

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