Kevin Pyke scite author profile

Replication of chloroplasts is essential for achieving and maintaining optimal plastid numbers in plant cells. The plastid division machinery contains components of both endosymbiotic and host cell origin, but little is known about the regulation and molecular mechanisms that govern the division process. The Arabidopsis mutant arc6 is defective in plastid division, and its leaf mesophyll cells contain only one or two grossly enlarged chloroplasts. We show here that arc6 chloroplasts also exhibit abnormal localization of the key plastid division proteins FtsZ1 and FtsZ2. Whereas in wild-type plants, the FtsZ proteins assemble into a ring at the plastid division site, chloroplasts in the arc6 mutant contain numerous short, disorganized FtsZ filament fragments. We identified the mutation in arc6 and show that the ARC6 gene encodes a chloroplast-targeted DnaJ-like protein localized to the plastid envelope membrane. An ARC6-green fluorescent protein fusion protein was localized to a ring at the center of the chloroplasts and rescued the chloroplast division defect in the arc6 mutant. The ARC6 gene product is related closely to Ftn2, a prokaryotic cell division protein unique to cyanobacteria. Based on the FtsZ filament morphology observed in the arc6 mutant and in plants that overexpress ARC6 , we hypothesize that ARC6 functions in the assembly and/or stabilization of the plastid-dividing FtsZ ring. We also analyzed FtsZ localization patterns in transgenic plants in which plastid division was blocked by altered expression of the division site-determining factor AtMinD. Our results indicate that MinD and ARC6 act in opposite directions: ARC6 promotes and MinD inhibits FtsZ filament formation in the chloroplast.

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Plastids unleashed: their development and their integration in plant development

López‐Juez

Pyke²

2005

Int. J. Dev. Biol.

301

221

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A comparison of the Thlaspi caerulescens and Thlaspi arvense shoot transcriptomes

et al. 2006

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Summary• Whole-genome transcriptome profiling is revealing how biological systems are regulated at the transcriptional level. This study reports the development of a robust method to profile and compare the transcriptomes of two nonmodel plant species, Thlaspi caerulescens , a zinc (Zn) hyperaccumulator, and Thlaspi arvense , a nonhyperaccumulator, using Affymetrix Arabidopsis thaliana ATH1-121501 GeneChip® arrays (Affymetrix, Santa Clara, CA, USA).• Transcript abundance was quantified in the shoots of agar-and compost-grown plants of both species. Analyses were optimized using a genomic DNA (gDNA)-based probe-selection strategy based on the hybridization efficiency of Thlaspi gDNA with corresponding A. thaliana probes. In silico alignments of GeneChip® probes with Thlaspi gene sequences, and quantitative real-time PCR, confirmed the validity of this approach.• Approximately 5000 genes were differentially expressed in the shoots of T. caerulescens compared with T. arvense , including genes involved in Zn transport and compartmentalization.• Future functional analyses of genes identified as differentially expressed in the shoots of these closely related species will improve our understanding of the molecular mechanisms of Zn hyperaccumulation.

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A homologue of the bacterial cell division site-determining factor MinD mediates placement of the chloroplast division apparatus

et al. 2000

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Kevin Pyke

ARC6 Is a J-Domain Plastid Division Protein and an Evolutionary Descendant of the Cyanobacterial Cell Division Protein Ftn2[W]

Plastids unleashed: their development and their integration in plant development

A comparison of the Thlaspi caerulescens and Thlaspi arvense shoot transcriptomes

A homologue of the bacterial cell division site-determining factor MinD mediates placement of the chloroplast division apparatus

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