Characterization of Raphanus sativus Pentatricopeptide Repeat Proteins Encoded by the Fertility Restorer Locus for Ogura Cytoplasmic Male Sterility

Maize S-type cytoplasmic male sterility (CMS-S) is a maternally inherited trait that prevents pollen grains from developing to maturity. CMS-S is associated with the high levels of a novel mitochondrial transcript, orf355/orf77. Cleavage of this RNA, mediated by the nuclear restorer Rf3, reverses the sterility. Rf3 was previously mapped on the long arm of chromosome 2. The goals of this research were to fine-map the locus and to identify Rf3 using a candidate gene approach. Genotyping of nearisogenic lines (NILs) mapped Rf3 to a 1.98 Mb region of 2L. Six candidate genes, all predicted to code for mitochondrially targeted pentatricopeptide repeat proteins (PPR), were PCR-amplified, sequenced, and compared from multiple Rf3-containing NILs and non-restoring rf3 inbreds. One PPR-Rf3 candidate gene had two consistent differences between multiple restoring and non-restoring lines. Gene expression in pre-emergent tassels from the fertility-restored and non-restored plants was compared. Within the 3 Mb region surrounding Rf3, 9 genes were differentially expressed between restoring and non-restoring lines, including genes that could code for an ATP-binding protein, an ATPase, and four PPR proteins. Although Rf3 has not yet been identified, this study has revealed five promising candidates.

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Molecular cloning and characterization of five genes encoding pentatricopeptide repeat proteins from Upland cotton (Gossypium hirsutum L.)

Molecular Biology Reports ◽

10.1007/s11033-009-9610-7 ◽

2009 ◽

Vol 37 (2) ◽

pp. 801-808 ◽

Cited By ~ 9

Author(s):

Luming Yang ◽

Huayu Zhu ◽

Wangzhen Guo ◽

Tianzhen Zhang

Keyword(s):

Gossypium Hirsutum ◽

Molecular Cloning ◽

Upland Cotton ◽

Pentatricopeptide Repeat ◽

Gossypium Hirsutum L ◽

Repeat Proteins ◽

Genes Encoding ◽

Pentatricopeptide Repeat Proteins

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Molecular characterization of latent fertility restorer loci for Honglian cytoplasmic male sterility in Oryza species

Molecular Breeding ◽

10.1007/s11032-012-9753-4 ◽

2012 ◽

Vol 30 (4) ◽

pp. 1699-1706 ◽

Cited By ~ 2

Author(s):

Yanping Tan ◽

Hongwei Xie ◽

Nengwu Li ◽

Shaoqing Li ◽

Yingguo Zhu

Keyword(s):

Cytoplasmic Male Sterility ◽

Male Sterility ◽

Molecular Characterization ◽

Oryza Species ◽

Fertility Restorer

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Identification of promoter exchange at a male fertility restorer locus for cytoplasmic male sterility in radish (Raphanus sativus L.)

Molecular Breeding ◽

10.1007/s11032-017-0683-z ◽

2017 ◽

Vol 37 (6) ◽

Cited By ~ 2

Author(s):

Zhi Wei Wang ◽

Chuan De Wang ◽

Qing Ze Cai ◽

Shi Yong Mei ◽

Lei Gao ◽

...

Keyword(s):

Cytoplasmic Male Sterility ◽

Male Sterility ◽

Male Fertility ◽

Raphanus Sativus ◽

Fertility Restorer ◽

Raphanus Sativus L

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P-class pentatricopeptide repeat proteins are required for efficient 5′ end formation of plant mitochondrial transcripts

RNA Biology ◽

10.4161/rna.26129 ◽

2013 ◽

Vol 10 (9) ◽

pp. 1511-1519 ◽

Cited By ~ 15

Author(s):

Stefan Binder ◽

Katrin Stoll ◽

Birgit Stoll

Keyword(s):

Pentatricopeptide Repeat ◽

Repeat Proteins ◽

Mitochondrial Transcripts ◽

Pentatricopeptide Repeat Proteins

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In Arabidopsis thaliana mitochondria 5′ end polymorphisms of nad4L-atp4 and nad3-rps12 transcripts are linked to RNA PROCESSING FACTORs 1 and 8

Plant Molecular Biology ◽

10.1007/s11103-021-01153-9 ◽

2021 ◽

Author(s):

Sarah Schleicher ◽

Stefan Binder

Keyword(s):

Arabidopsis Thaliana ◽

Rna Processing ◽

Degradation Products ◽

Underlying Mechanism ◽

Transcriptional Level ◽

Pentatricopeptide Repeat ◽

Repeat Proteins ◽

P Type ◽

Pentatricopeptide Repeat Proteins ◽

Processing Factors

Abstract Key message RNA PROCESSING FACTORs 1 AND 8 (RPF1 and RPF8), both restorer of fertility like pentatricopeptide repeat proteins, are required for processing of dicistronic nad4L-atp4 and nad3-rps12 transcripts in Arabidopsis mitochondria. Abstract In mitochondria of Arabidopsis thaliana (Arabidopsis), the 5′ termini of many RNAs are generated on the post-transcriptional level. This process is still poorly understood in terms of both the underlying mechanism as well as proteins required. Our studies now link the generation of polymorphic 5′ extremities of the dicistronic nad3-rps12 and nad4L-atp4 transcripts to the function of the P-type pentatricopeptide repeat proteins RNA PROCESSING FACTORs 8 (RPF8) and 1 (RPF1). RPF8 is required to generate the nad3-rps12 -141 5′ end in ecotype Van-0 whereas the RPF8 allele in Col has no function in the generation of any 5′ terminus of this transcript. This observation strongly suggests the involvement of an additional factor in the generation of the -229 5′ end of nad3-rps12 transcripts in Col. RPF1, previously found to be necessary for the generation of the -228 5′ end of the major 1538 nucleotide-long nad4 mRNAs, is also important for the formation of nad4L-atp4 transcripts with a 5′ end at position -318 in Col. Many Arabidopsis ecotypes contain inactive RPF1 alleles resulting in the accumulation of various low abundant nad4L-atp4 RNAs which might represent precursor and/or degradation products. Some of these ecotypes accumulate major, but slightly smaller RNA species. The introduction of RPF1 into these lines not only establishes the formation of the major nad4L-atp4 dicistronic mRNA with the -318 5′ terminus, the presence of this gene also suppresses the accumulation of most alternative nad4L-atp4 RNAs. Beside RPF1, several other factors contribute to nad4L-atp4 transcript formation.

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