| 1992 |
The yeast SUV3 gene encodes an 84-kDa protein with a mitochondrial targeting presequence and conserved sequence motifs of ATP-dependent RNA helicases; the SUV3-1 gain-of-function mutation is a Val→Leu substitution in a conserved helicase motif block, causing accumulation of excised group I introns in mitochondria. |
Gene cloning by colony Northern hybridization, sequence analysis, and mutant allele identification |
Proceedings of the National Academy of Sciences of the United States of America |
High |
1379722
|
| 1990 |
The SUV3-1 mutation causes over-accumulation of excised group I intron RNAs, lowers levels of cob and cox1 mRNAs, and blocks dodecamer cleavage in yeast mitochondria, establishing SUV3 as a key regulator of mitochondrial post-transcriptional processes including RNA stability and splicing. |
Northern hybridization survey of mitochondrial RNAs in SUV3-1 and suv3 deletion strains |
Nucleic acids research |
High |
2158076
|
| 1995 |
SUV3 is required for stability of intron-containing mitochondrial transcripts in a cumulative manner depending on intron number; loss of SUV3 decreases mRNA levels without accumulating high-molecular-weight precursors or affecting transcription. |
Northern hybridization of mitochondrial RNAs in strains with defined combinations of cytb and cox1 introns combined with SUV3 gene disruption |
Current genetics |
High |
8529267
|
| 1995 |
The suv3 protein is required for proper processing of r1 intron-containing 21S rRNA transcripts; in its absence, the excised r1 intron pattern is altered and mature 21S rRNA is ~50-fold reduced. |
Northern analysis of mitochondrial RNA in suv3 disruption strain carrying r1-only intron genome |
Current genetics |
Medium |
7736607
|
| 1998 |
The PET127 gene (involved in 5'-end processing of mitochondrial mRNAs) can suppress SUV3 or DSS1 gene disruptions, suggesting functional coupling between 5' and 3' ends of mitochondrial mRNAs and placing SUV3/DSS1 degradosome activity in a pathway coordinated with 5'-end processing. |
Genetic suppression by PET127 on low- and high-copy vectors in SUV3/DSS1 disruption strains |
Acta biochimica Polonica |
Medium |
10397341
|
| 1999 |
Human SUPV3L1 (hSUV3) encodes a protein with a mitochondrial leader sequence that is the human homologue of yeast Suv3 helicase, conserved across eukaryotes and Rhodobacter sphaeroides. |
cDNA cloning, sequencing, Northern blot, and EST database analysis |
Acta biochimica Polonica |
Medium |
10453991
|
| 2002 |
Overexpression of the yeast mitochondrial helicase Mss116 can partially suppress the loss of SUV3, restoring respiratory competence and normalizing COB and ATP6/8 mRNA levels, indicating functional overlap between these two distinct RNA helicase classes in mitochondrial RNA metabolism. |
Multicopy plasmid suppression, respiratory growth assays, and Northern blotting in SUV3-deleted strains |
Yeast (Chichester, England) |
Medium |
12402239
|
| 2007 |
Human SUV3 localizes not only to mitochondria but also to the nucleus; siRNA-mediated knockdown in HeLa cells causes cell cycle perturbations, p53 induction, and both AIF-dependent and caspase-dependent apoptosis. |
siRNA knockdown, cell cycle analysis, apoptosis assays (AIF and caspase pathway), subcellular fractionation/localization |
Biology of the cell |
Medium |
17352692
|
| 2007 |
Human SUV3 protein physically interacts with BLM helicase (Kd ~0.5 nM) and WRN helicase (Kd ~5 nM) as measured by ELISA binding assay; SUV3 knockdown in HeLa cells elevates sister chromatid exchange frequency, indicating a role in homologous recombination suppression. |
ELISA binding assay for protein-protein interaction, sister chromatid exchange assay after siRNA knockdown |
Mechanisms of ageing and development |
Medium |
17961633
|
| 2008 |
Knockdown of hSUV3 in mammalian cells causes accumulation of shortened polyadenylated mitochondrial RNA species, impaired mitochondrial protein synthesis, increased reactive oxygen species, decreased membrane potential and ATP production, reduced mtDNA copy number, and shift of mitochondrial morphology from tubular to granular, leading to senescence or cell death. |
siRNA knockdown, mitochondrial RNA analysis, protein synthesis assay, ROS measurement, membrane potential assay, mtDNA copy number quantification, fluorescence microscopy of mitochondrial morphology |
The Journal of biological chemistry |
High |
18678873
|
| 2009 |
Purified human SUV3 dimer and PNPase trimer form a 330-kDa heteropentamer (2 SUV3 + 3 PNPase) that degrades double-stranded RNA with 3'-to-5' directionality and preference for substrates with 3' overhang, in an ATP-dependent manner; deletion of SUV3 residues 510-514 abolishes stable complex formation and dsRNA degradation but not helicase activity; ATPase-dead or RNA-binding-dead SUV3 mutants can still bind PNPase but the resulting complexes fail to degrade dsRNA, establishing that intact helicase activity is essential for degradosome function. |
Purified protein reconstitution, gel filtration molecular sizing, in vitro RNA degradation assays, site-directed mutagenesis, biochemical interaction assays |
The Journal of biological chemistry |
High |
19509288
|
| 2009 |
Conditional disruption of Supv3L1 in the mouse (using Mx1-Cre or tamoxifen-inducible Esr1/Cre) causes postnatal growth delay, loss of adipose tissue and muscle mass, severe skin abnormalities (ichthyosis, epidermal thickening, dermal atrophy), premature aging, and death; keratinocyte-specific ablation confirms atrophic skin changes, establishing Supv3L1 as essential for skin barrier maintenance. |
Conditional gene disruption (Cre/lox), histology, and phenotypic analysis in mice |
Mammalian genome : official journal of the International Mammalian Genome Society |
High |
19145458
|
| 2010 |
Yeast Suv3p acts indirectly through the degradosome (with Dss1p) to promote splicing of the aI5beta group I intron by degrading excised aI5beta ribonucleoprotein (RNP), thereby recycling the limiting splicing cofactor Mrs1p; sequestration of Mrs1p in stable excised intron RNPs accounts for reduced splicing in suv3 mutants. |
Genetic epistasis using suv3-1 allele (retains stable mtDNA), overexpression/depletion of Mrs1p, intron RNP analysis, and RNA metabolic assays |
The Journal of biological chemistry |
High |
20064926
|
| 2011 |
SUV3 ATPase-dead (K245A) and CC-region deletion (ΔCC, residues ~511-518) mutants lose both degradosome activity and mtDNA maintenance; V272L (RNA-binding mutant) loses degradosome activity but retains mtDNA maintenance under intronless background; wild-type SUV3 and V272L, but not K245A or ΔCC, associate with active mtDNA replication origins and facilitate mtDNA replication, establishing a direct role for SUV3 in mtDNA maintenance independent of intron turnover that requires intact ATPase activity and the CC region. |
Inducible knockdown with structure-function mutagenesis in yeast, intronless mtDNA genetic backgrounds, chromatin immunoprecipitation at mtDNA replication origins |
The Journal of biological chemistry |
High |
21911497
|
| 2011 |
Human hSuv3 physically interacts with RPA (replication protein A) and FEN1 (flap endonuclease 1) in the nucleus; low amounts of RPA inhibit hSuv3 helicase activity on forked substrates in vitro (while mitochondrial SSB does not, indicating specificity); hSuv3 stimulates FEN1 flap endonuclease activity in vitro independently of flap length. |
Co-immunoprecipitation of hSuv3 complexes, in vitro helicase activity assays with RPA or mtSSB, in vitro FEN1 endonuclease stimulation assay |
The Biochemical journal |
Medium |
21846330
|
| 2011 |
X-ray crystal structures of human Suv3 in complex with the non-hydrolysable ATP analog AMPPNP (2.08 Å) and with a 5-nucleotide RNA strand (2.9 Å) reveal a four-domain architecture: two RecA-like domains (typical of SF2 helicases) forming a ring with a C-terminal all-helical domain through which the nucleotide strand threads, and an N-terminal helical domain positioned externally; unique structural features suggest Suv3 constitutes a separate helicase subfamily. |
X-ray crystallography with functional validation |
Acta crystallographica. Section D, Biological crystallography |
High |
22101826
|
| 2012 |
Heterozygous mSuv3+/− mice accumulate increased mitochondrial DNA mutations and have decreased mtDNA copy numbers, leading to tumor development at multiple sites and shortened lifespan; these phenotypes are transmitted maternally, demonstrating a causative mitochondrial etiology. |
Mouse genetics (heterozygous knockout), mtDNA mutation analysis, mtDNA copy number quantification, tumor histology, maternal transmission analysis |
Oncogene |
High |
22562243
|
| 2014 |
SUV3·PNPase complex interacts with mitochondrial polyadenylation polymerase (mtPAP) under low inorganic phosphate (Pi) conditions; SUV3 bridges mtPAP (via SUV3 N-terminal residues ~100-104) and PNPase (via SUV3 C-terminal residues ~510-514) simultaneously; SUV3 enhances mtPAP polyadenylation activity through its ssRNA binding domain; the reconstituted SUV3·PNPase·mtPAP complex (SUV3 dimer + mtPAP dimer + PNPase trimer) can lengthen or shorten mt-mRNA poly(A) tails depending on Pi/ATP ratios; poly(A) tail lengths in cells are modulated by altering mitochondrial matrix Pi via selective inhibition of respiratory chain or ATP synthase. |
Purified protein reconstitution, in vitro binding assays with defined SUV3 mutants, molecular sizing, in vitro polyadenylation and RNA degradation assays, cellular Pi manipulation with respiratory chain inhibitors |
The Journal of biological chemistry |
High |
24770417
|
| 2014 |
Human hSuv3 helicase and ATPase activities are strictly dependent on specific divalent cations; multiple NTPs and dNTPs can support helicase activity at low concentrations (cofactor-dependent), but only ATP supports helicase activity at higher nucleotide concentrations, suggesting that hSuv3 DNA unwinding capacity is sensitive to local inorganic cofactor availability. |
In vitro biochemical helicase and ATPase assays with varied divalent cations and nucleotide cofactors |
Biochimie |
Medium |
25446650
|
| 2015 |
Loss of dmsuv3 (Drosophila SUV3) causes accumulation of mitochondrial mRNAs without increasing rRNA levels, severe decrease in mitochondrial tRNAs with accumulation of unprocessed polycistronic precursor transcripts, reduced mitochondrial translation, respiratory chain complex deficiency, and pupal lethality; these processing defects occur independently of PNPase, establishing SUV3 as predominantly required for processing of mitochondrial polycistronic transcripts in metazoans. |
Drosophila loss-of-function genetics, Northern blotting, mitochondrial translation assay, respiratory chain complex activity measurement |
Nucleic acids research |
High |
26152302
|
| 2017 |
Human SUV3 helicase localizes to HeLa cell nucleoli (in addition to mitochondria); nuclear-targeted SUV3 constructs establish that the cell growth rate impairment upon SUV3 depletion is due to nuclear (not mitochondrial) SUV3 function; SUV3 is not detectable in DNA-repair foci. |
Fluorescence microscopy with nuclear-targeted SUV3 constructs, siRNA knockdown with cell growth assays, co-localization with nucleolar markers |
Acta biochimica Polonica |
Medium |
28291845
|
| 2018 |
The mitochondrial degradosome (SUV3·PNPase) together with the G-quadruplex-melting protein GRSF1 restricts mitochondrial antisense RNAs, including those forming G-quadruplex structures. |
Molecular and biochemical characterization of SUV3-PNPase-GRSF1 complex activity on antisense mt-RNAs |
Molecular & cellular oncology |
Low |
30525095
|
| 2022 |
Dimeric assembly of human Suv3 via its C-terminal tail (CTT) is required for efficient RNA unwinding: CTT-truncated monomeric Suv3 (Suv3ΔC) has ~6-7-fold lower RNA binding and unwinding activities, cannot bind RNA independently of ATP/ADP, and fails to interact with PNPase; crystal structure of apo-Suv3ΔC and SAXS structures of dimeric Suv3 and PNPase-Suv3 complex show dimeric Suv3 caps on top of PNPase via S1 domain interactions forming a dumbbell-shaped degradosome. |
Mutagenesis of CTT domain, in vitro RNA binding and unwinding assays, crystal structure of truncation mutant, SAXS of native complexes, PNPase binding assay |
Protein science : a publication of the Protein Society |
High |
35481630
|
| 2022 |
A homozygous truncating SUPV3L1 mutation in two siblings causes mitochondrial RNA processing defects including reduction of mature ND6 mRNA and accumulation of double-stranded RNA in patient fibroblasts; lentiviral complementation with full-length SUPV3L1 cDNA partly restores these RNA phenotypes, confirming pathogenicity. |
Patient fibroblast analysis, RT-PCR/Northern blot for mt-RNA processing, dsRNA immunostaining, lentiviral cDNA complementation |
Journal of inherited metabolic disease |
Medium |
35023579
|
| 2025 |
SUPV3L1 and endoribonuclease ELAC2 form a conserved complex that rapidly degrades mitochondria-encoded circular RNAs (mecciRNAs); SUV3 knockdown leads to accumulation of mitochondrial dsRNAs that escape to the cytosol and activate PKR, triggering type I IFN signaling and proinflammatory cytokine production; this PKR activation accounts for impaired innate immune functions (migration, phagocytosis, ATP synthesis) in SUV3-deficient monocytes, reversible by PKR co-knockdown. |
Protein complex identification, siRNA knockdown, fCLIP-qPCR for dsRNA-PKR interaction, TEM for subcellular localization of dsRNAs, cytokine assays, functional assays (migration, phagocytosis, ATP synthesis), rescue by PKR co-knockdown |
Circulation / Rheumatology (Oxford, England) |
Medium |
39973625 40268748
|
| 2024 |
SUV3 knockdown in hepatocellular carcinoma cells reduces mtDNA copy number, causes mtDNA leakage into the cytoplasm, and elevates PD-L1 expression; TREX1 overexpression in SUV3-knockdown cells reduces cytoplasmic mtDNA and suppresses the PD-L1 induction, establishing that cytoplasmic mtDNA accumulation mediates the PD-L1 upregulation. |
siRNA knockdown, subcellular fractionation for mtDNA quantification, qRT-PCR for PD-L1, TREX1 overexpression rescue experiment |
Zhonghua gan zang bing za zhi |
Medium |
39267568
|
| 2026 |
Cryo-EM structures of human Suv3 in four functional states (apo, ADP-bound, ssRNA-bound, ssRNA+AMP-PNP-bound) at near-atomic resolution reveal an asymmetric dimeric organization in which only one protomer engages ADP, ssRNA, or both ssRNA and AMP-PNP in initial binding; biochemical analyses confirm that dimerization enhances RNA-binding and unwinding efficiency in an ATP-hydrolysis-dependent manner, establishing the mechanistic basis for processive RNA unwinding. |
Cryo-EM structure determination in four functional states, biochemical RNA-binding and unwinding assays with wild-type and mutant Suv3 |
Nature communications |
High |
41986356
|
| 2024 |
Depletion of SUV3 helicase triggers formation of distinct mitochondrial RNA granules (termed inhibition granules) that differ from canonical mitochondrial RNA granules; these granules stabilize certain mt-mRNAs and appear to serve a protective function during transcription inhibition. |
Single-molecule RNA-FISH after SUV3 depletion, comparison with canonical MRG markers |
bioRxiv (preprint)preprint |
Low |
bio_10.1101_2024.09.25.614902
|