Defective splicing of the first nad4 intron is associated with lack of several complex I subunits in the Nicotiana sylvestris NMS1 nuclear mutant

Brangeon, Judy; Sabar, Mohammed; Gutierres, Sophie; Combettes, Bruno; Bove, Jérôme; Gendy, Cyrille; Chétrit, P.; Francs‐Small, Catherine Colas des; Pla, Magali; Vedel, F.; Paepe, Rosine De

doi:10.1046/j.1365-313x.2000.00679.x

Cited by 77 publications

(60 citation statements)

References 59 publications

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“…The nuclear gene affected in this mutant has a high similarity to group II intron maturases, and the affected plants show impaired splicing of the mitochondrial nad4 transcript. The molecular phenotype of this mutant resembles that of the NMS1 mutant from N. sylvestris, also specifically defective in splicing of nad4 transcripts (Brangeon et al, 2000). Complex I activity was not measured in the css1 mutant, but like the other previously described Arabidopsis Complex I mutants, the overall phenotype appears to be milder than the otp43 mutant described here.…”

Section: Plant Complex I Mutantsmentioning

confidence: 43%

“…A nuclear mutant almost lacking Complex I was observed in N. sylvestris (Brangeon et al, 2000), while three nuclear mutants affected in Complex I have been identified in Arabidopsis (Lee et al, 2002;Perales et al, 2005;Nakagawa and Sakurai, 2006). Each of these mutants is defective in a different gene, and the phenotypes of these mutants are quite varied.…”

Section: Introductionmentioning

confidence: 99%

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The Pentatricopeptide Repeat GeneOTP43Is Required fortrans-Splicing of the Mitochondrialnad1Intron 1 inArabidopsis thaliana

et al. 2007

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The mitochondrial NADH:ubiquinone oxidoreductase complex (Complex I) is a large protein complex formed from both nuclearly and mitochondrially encoded subunits. Subunit ND1 is encoded by a mitochondrial gene comprising five exons, and the mature transcript requires four RNA splicing events, two of which involve trans-splicing independently transcribed RNAs. We have identified a nuclear gene (OTP43) absolutely required for trans-splicing of intron 1 (and only intron 1) of Arabidopsis thaliana nad1 transcripts. This gene encodes a previously uncharacterized pentatricopeptide repeat protein.Mutant Arabidopsis plants with a disrupted OTP43 gene do not present detectable mitochondrial Complex I activity and show severe defects in seed development, germination, and to a lesser extent in plant growth. The alternative respiratory pathway involving alternative oxidase is significantly induced in the mutant.

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Section: Plant Complex I Mutantsmentioning

confidence: 43%

Section: Introductionmentioning

confidence: 99%

The Pentatricopeptide Repeat GeneOTP43Is Required fortrans-Splicing of the Mitochondrialnad1Intron 1 inArabidopsis thaliana

et al. 2007

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“…Complex I dysfunctions have been previously associated with plants having growth to flowering developmental defects (Gutierres et al 1997;Brangeon et al 2000;Sabar et al 2000;Pineau et al 2005;Garmier et al 2008). Accordingly, nMat2 plants demonstrated slow growth, late flowering, and were partially sterile ( Fig.…”

Section: Discussionmentioning

confidence: 88%

“…A nuclear mutation in Nicotiana sylvestris (nms1) was shown to disrupt the splicing of the first intron in the nad4 transcript (Brangeon et al 2000), however the identity of this gene remains unknown. Recently, a pentatricopeptide repeat protein (OPT43) was found to function specifically in the trans-splicing activity of nad1 intron1 in Arabidopsis mitochondria (de Longevialle et al 2007).…”

Section: Introductionmentioning

confidence: 99%

AtnMat2, a nuclear-encoded maturase required for splicing of group-II introns in Arabidopsis mitochondria

Keren¹,

Bezawork-Geleta²,

Kolton³

et al. 2009

RNA

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Mitochondria (mt) in plants house about 20 group-II introns, which lie within protein-coding genes required in both organellar genome expression and respiration activities. While in nonplant systems the splicing of group-II introns is mediated by proteins encoded within the introns themselves (known as ''maturases''), only a single maturase ORF (matR) has retained in the mitochondrial genomes in plants; however, its putative role(s) in the splicing of organellar introns is yet to be established. Clues to other proteins are scarce, but these are likely encoded within the nucleus as there are no obvious candidates among the remaining ORFs within the mtDNA. Intriguingly, higher plants genomes contain four maturase-related genes, which exist in the nucleus as self-standing ORFs, out of the context of their evolutionary-related group-II introns ''hosts.'' These are all predicted to reside within mitochondria and may therefore act ''in-trans'' in the splicing of organellar-encoded introns. Here, we analyzed the intracellular locations of the four nuclear-encoded maturases in Arabidopsis and established the roles of one of these genes, At5g46920 (AtnMat2), in the splicing of several mitochondrial introns, including the single intron within cox2, nad1 intron2, and nad7 intron2.

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“…The expression of the nad genes involves a combination of cis-and trans-splicing events that remove group II introns from the transcripts (Bonen, 2008). Several RNA-binding proteins are known to be involved in mitochondrial splicing events in nad transcripts: ORGANELLE TRANSCRIPT PROCESS-ING43 (OTP43; trans-splicing of nad1 intron 1; Falcon de Longevialle et al, 2007), ABSCISIC ACID OVERLY SENSITIVE5 (cis-splicing of nad2 intron 3; Liu et al, 2010), RCC1/UV-B RESISTANCE8/GUANINE NUCLEOTIDE EXCHANGE FACTOR3 (RUG3; (trans-splicing of nad2 intron 2 and cis-splicing of intron 3; Kühn et al, 2011), NUCLEAR MALE STERILE1 (cis-splicing of nad4 intron 1; Brangeon et al, 2000), BUTHIONINE SULFOMIXINE-INSENSITIVE ROOTS6 (BIR6; cis-splicing of nad7 intron 1; Koprivova et al, 2010), and other less-specific factors such as PUTATIVE MITOCHONDRIAL RNA HELI-CASE2 (PMH2; Köhler et al, 2010), maturases (nMAT1, nMAT2, and nMAT4; Keren et al, 2009Keren et al, , 2012Brown et al, 2014;Cohen et al, 2014), and the MITOCHONDRIAL CHLOROPLAST RNA SPLICING ASSOCIATED FACTORlike SPLICING FACTOR1 (mCSF1; Zmudjak et al, 2013) affecting numerous introns.…”

mentioning

confidence: 99%

The Pentatricopeptide Repeat Proteins TANG2 and ORGANELLE TRANSCRIPT PROCESSING439 Are Involved in the Splicing of the Multipartite nad5 Transcript Encoding a Subunit of Mitochondrial Complex I

Francs‐Small

Longevialle²,

Li³

et al. 2014

Plant Physiol.

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Defective splicing of the first nad4 intron is associated with lack of several complex I subunits in the Nicotiana sylvestris NMS1 nuclear mutant

Cited by 77 publications

References 59 publications

The Pentatricopeptide Repeat GeneOTP43Is Required fortrans-Splicing of the Mitochondrialnad1Intron 1 inArabidopsis thaliana

The Pentatricopeptide Repeat GeneOTP43Is Required fortrans-Splicing of the Mitochondrialnad1Intron 1 inArabidopsis thaliana

AtnMat2, a nuclear-encoded maturase required for splicing of group-II introns in Arabidopsis mitochondria

The Pentatricopeptide Repeat Proteins TANG2 and ORGANELLE TRANSCRIPT PROCESSING439 Are Involved in the Splicing of the Multipartite nad5 Transcript Encoding a Subunit of Mitochondrial Complex I

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