Literature DB >> 26195569

Elevation of Pollen Mitochondrial DNA Copy Number by WHIRLY2: Altered Respiration and Pollen Tube Growth in Arabidopsis.

Qiang Cai1, Liang Guo1, Zhao-Rui Shen1, Dan-Yang Wang1, Quan Zhang2.   

Abstract

In plants, the copy number of the mitochondrial DNA (mtDNA) can be much lower than the number of mitochondria. The biological significance and regulatory mechanisms of this phenomenon remain poorly understood. Here, using the pollen vegetative cell, we examined the role of the Arabidopsis (Arabidopsis thaliana) mtDNA-binding protein WHIRLY2 (AtWHY2). AtWHY2 decreases during pollen development, in parallel with the rapid degradation of mtDNA; to examine the importance of this decrease, we used the pollen vegetative cell-specific promoter Lat52 to express AtWHY2. The transgenic plants (LWHY2) had very high mtDNA levels in pollen, more than 10 times more than in the wild type (ecotype Columbia-0). LWHY2 plants were fertile, morphologically normal, and set seeds; however, reciprocal crosses with heterozygous plants showed reduced transmission of LWHY2-1 through the male and slower growth of LWHY2-1 pollen tubes. We found that LWHY2-1 pollen had significantly more reactive oxygen species and less ATP compared with the wild type, indicating an effect on mitochondrial respiration. These findings reveal that AtWHY2 affects mtDNA copy number in pollen and suggest that low mtDNA copy numbers might be the normal means by which plant cells maintain mitochondrial genetic information.
© 2015 American Society of Plant Biologists. All Rights Reserved.

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Year:  2015        PMID: 26195569      PMCID: PMC4577393          DOI: 10.1104/pp.15.00437

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  62 in total

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2.  The Significance of Microspore Division and Division Symmetry for Vegetative Cell-Specific Transcription and Generative Cell Differentiation.

Authors:  C. Eady; K. Lindsey; D. Twell
Journal:  Plant Cell       Date:  1995-01       Impact factor: 11.277

3.  Composition and dynamics of human mitochondrial nucleoids.

Authors:  Nuria Garrido; Lorena Griparic; Eija Jokitalo; Jorma Wartiovaara; Alexander M van der Bliek; Johannes N Spelbrink
Journal:  Mol Biol Cell       Date:  2003-04       Impact factor: 4.138

4.  The alternative oxidase lowers mitochondrial reactive oxygen production in plant cells.

Authors:  D P Maxwell; Y Wang; L McIntosh
Journal:  Proc Natl Acad Sci U S A       Date:  1999-07-06       Impact factor: 11.205

5.  Isolation and expression of an anther-specific gene from tomato.

Authors:  D Twell; R Wing; J Yamaguchi; S McCormick
Journal:  Mol Gen Genet       Date:  1989-06

6.  TWINKLE Has 5' -> 3' DNA helicase activity and is specifically stimulated by mitochondrial single-stranded DNA-binding protein.

Authors:  Jenny A Korhonen; Martina Gaspari; Maria Falkenberg
Journal:  J Biol Chem       Date:  2003-09-15       Impact factor: 5.157

7.  NAD+ accumulation during pollen maturation in Arabidopsis regulating onset of germination.

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Journal:  Mol Plant       Date:  2012-08-20       Impact factor: 13.164

8.  Human mitochondrial RNA polymerase primes lagging-strand DNA synthesis in vitro.

Authors:  Sjoerd Wanrooij; Javier Miralles Fusté; Géraldine Farge; Yonghong Shi; Claes M Gustafsson; Maria Falkenberg
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9.  Pollen-specific gene expression in transgenic plants: coordinate regulation of two different tomato gene promoters during microsporogenesis.

Authors:  D Twell; J Yamaguchi; S McCormick
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10.  Pollen tube energetics: respiration, fermentation and the race to the ovule.

Authors:  Caleb M Rounds; Lawrence J Winship; Peter K Hepler
Journal:  AoB Plants       Date:  2011-09-08       Impact factor: 3.276
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  11 in total

1.  3D Imaging of Tapetal Mitochondria Suggests the Importance of Mitochondrial Fission in Pollen Growth.

Authors:  Pei-Ying Chen; Chia-Chen Wu; Chung-Chih Lin; Wann-Neng Jane; Der-Fen Suen
Journal:  Plant Physiol       Date:  2019-03-21       Impact factor: 8.340

2.  Triple-localized WHIRLY2 Influences Leaf Senescence and Silique Development via Carbon Allocation.

Authors:  Chenxing Huang; Jinfa Yu; Qian Cai; Yuxiang Chen; Yanyun Li; Yujun Ren; Ying Miao
Journal:  Plant Physiol       Date:  2020-09-08       Impact factor: 8.340

3.  Plant-Specific Preprotein and Amino Acid Transporter Proteins Are Required for tRNA Import into Mitochondria.

Authors:  Monika W Murcha; Szymon Kubiszewski-Jakubiak; Pedro F Teixeira; Irene L Gügel; Beata Kmiec; Reena Narsai; Aneta Ivanova; Cyrille Megel; Annette Schock; Sabrina Kraus; Oliver Berkowitz; Elzbieta Glaser; Katrin Philippar; Laurence Maréchal-Drouard; Jürgen Soll; James Whelan
Journal:  Plant Physiol       Date:  2016-10-27       Impact factor: 8.340

4.  The Mitochondrial Endonuclease M20 Participates in the Down-Regulation of Mitochondrial DNA in Pollen Cells.

Authors:  Fei Ma; Hui Qi; Yu-Fei Hu; Qian-Ru Jiang; Li-Guang Zhang; Peng Xue; Fu-Quan Yang; Rui Wang; Yan Ju; Hidenobu Uchida; Quan Zhang
Journal:  Plant Physiol       Date:  2018-10-09       Impact factor: 8.340

5.  WHIRLY2 plays a key role in mitochondria morphology, dynamics, and functionality in Arabidopsis thaliana.

Authors:  Serena Golin; Yuri L Negroni; Bationa Bennewitz; Ralf B Klösgen; Maria Mulisch; Nicoletta La Rocca; Francesca Cantele; Gianpiero Vigani; Fiorella Lo Schiavo; Karin Krupinska; Michela Zottini
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Review 6.  Genome communication in plants mediated by organelle-n-ucleus-located proteins.

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7.  Copy numbers of mitochondrial genes change during melon leaf development and are lower than the numbers of mitochondria.

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9.  Transcriptional trajectories of anther development provide candidates for engineering male fertility in sorghum.

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Journal:  Sci Rep       Date:  2020-01-21       Impact factor: 4.379

10.  Potential Association of Reactive Oxygen Species With Male Sterility in Peach.

Authors:  Yaming Cai; Zhishen Ma; Collins Otieno Ogutu; Lei Zhao; Liao Liao; Beibei Zheng; Ruoxi Zhang; Lu Wang; Yuepeng Han
Journal:  Front Plant Sci       Date:  2021-04-14       Impact factor: 5.753
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