<i>Dek42</i> encodes an RNA‐binding protein that affects alternative pre‐mRNA splicing and maize kernel development

Zuo, Yi; Feng, Fan; Qi, Weiwei; Song, Rentao

doi:10.1111/jipb.12798

Cited by 43 publications

(26 citation statements)

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“…RNA binding proteins (RBPs) function in post‐transcriptional gene regulation and are involved in seed development. For example, Dek42 encodes an RBP that affects alternative pre‐mRNA splicing and regulates maize kernel development (Zuo et al 2019). PPR proteins, which represent a type of RBP, are also essential for seed development (Sosso et al 2012; Xiu et al 2016; Li et al 2019).…”

Section: Discussionmentioning

confidence: 99%

DEK43 is a P‐type pentatricopeptide repeat (PPR) protein responsible for the Cis‐splicing of nad4 in maize mitochondria

Ren

Wang

Zhang

et al. 2019

JIPB

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Mitochondria, the main energy transducers in plant cells, require the proper assembly of respiratory chain complexes I–V for their function. The NADH dehydrogenase 4 (nad4) gene encodes mitochondrial respiratory chain complex I subunit IV, but the mechanism underlying nad4 transcript splicing is unclear. Here, we report that the P‐type pentatricopeptide repeat (PPR) protein DEFECTIVE KERNEL 43 (DEK43) is responsible for cis‐splicing of the nad4 transcript in maize. We demonstrate that DEK43 localizes to both the nucleus and mitochondria. The mutation of Dek43 resulted in embryo‐lethal and light‐colored defective kernels. Among the 22 mitochondrial group II introns, the splicing efficiency of nad4 introns 1 and 3 was reduced by up to 50% compared to the wild type. The levels of complex I and supercomplex I+III2 were also reduced in dek43. Furthermore, in‐gel NADH dehydrogenase assays indicated that the activities of these complexes were significantly reduced in dek43. Further, the mitochondrial ultrastructure was altered in the mutant. Together, our findings indicate that DEK43, a dual‐localized PPR protein, plays an important role in maintaining mitochondrial function and maize kernel development.

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Section: Discussionmentioning

confidence: 99%

DEK43 is a P‐type pentatricopeptide repeat (PPR) protein responsible for the Cis‐splicing of nad4 in maize mitochondria

Ren

Wang

Zhang

et al. 2019

JIPB

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“…For example, the indirect phenotypic affects were reported for the maize RBP Dek42 that regulates pre-mRNA splicing. The dek42 mutant predominantly affects starch metabolic processes, but perturbation of this process resulted in seedling lethality (Zuo et al, 2019). The dek42 mutant caused differential expression to approximately 6% of the transcriptome (Zuo et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

“…The dek42 mutant predominantly affects starch metabolic processes, but perturbation of this process resulted in seedling lethality (Zuo et al, 2019). The dek42 mutant caused differential expression to approximately 6% of the transcriptome (Zuo et al, 2019). Similarly, other examples of mutations of RBPs resulted in global changes to the transcriptome.…”

Section: Discussionmentioning

confidence: 99%

The ALBA RNA-binding proteins function redundantly to promote growth and flowering in Arabidopsis

Wang

Jalajakumari

Miller

et al. 2019

Preprint

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26RNA-binding proteins (RBPs) are critical regulators of gene expression, but have 27 been poorly studied relative to other classes of gene regulators. Recently, 28 mRNA-interactome capture identified many Arabidopsis RBPs of unknown function, 29including a family of ALBA domain containing proteins. Arabidopsis has three 30 short-form ALBA homologues (ALBA1-3) and three long-form ALBA homologues 31 (ALBA4-6), both of which are conserved throughout the plant kingdom. Despite this 32 ancient origin, ALBA-GUS translational fusions of ALBA1, ALBA2, ALBA4, and 33 ALBA5 had indistinguishable expression patterns, all being preferentially expressed in 34 young, rapidly dividing tissues. Likewise, all four ALBA proteins had 35indistinguishable ALBA-GFP subcellular localizations in roots, all being preferentially 36 located to the cytoplasm, consistent with being mRNA-binding. Genetic analysis 37 demonstrated redundancy within the long-form ALBA family members; in contrast to 38 single alba mutants that all appeared wild-type, a triple alba456 mutant had slower 39 rosette growth and a strong delay in flowering-time. RNA-sequencing found most 40 differentially expressed genes in alba456 were related to metabolism, not 41 development. Additionally, changes to the alba456 transcriptome were subtle, 42 suggesting ALBA4-6 participates in a process that does not strongly affect 43 transcriptome composition. Together, our findings demonstrate that ALBA protein 44 function is highly redundant, and is essential for proper growth and flowering in 45 Arabidopsis. 46

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“…Two kernel mutant genes were identified and verified (Song et al ; Zuo et al ). OS1 ( opaque endosperm and small germ 1 ), encoding a putative RWP‐RK transcription factor, expresses highly in the nutrient‐allocation cell types of maize endosperm (Song et al ).…”

mentioning

confidence: 99%

“…A similar finding was also recently reported for the same gene (Mimura et al ). Dek42 is a new gene, encoding an RRM_RBM48 type RNA binding protein, and mainly functions in intron‐alternative splicing particularly for the U12‐type introns (Zuo et al ). The study provides evidence that DEK42 regulates alternative intron splicing via interacting with the spliceosome components SF3a1 and U1–70K.…”

mentioning

confidence: 99%

Maize biology: From functional genomics to breeding application

Yan

Tan

2019

JIPB

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Dek42 encodes an RNA‐binding protein that affects alternative pre‐mRNA splicing and maize kernel development

Cited by 43 publications

References 84 publications

DEK43 is a P‐type pentatricopeptide repeat (PPR) protein responsible for the Cis‐splicing of nad4 in maize mitochondria

DEK43 is a P‐type pentatricopeptide repeat (PPR) protein responsible for the Cis‐splicing of nad4 in maize mitochondria

The ALBA RNA-binding proteins function redundantly to promote growth and flowering in Arabidopsis

Maize biology: From functional genomics to breeding application

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