Add to ORKG© 2016 The Authors As metabolic centers, plant organelles participate in maintenance, defense, and signaling. MSH1 is a plant-specific protein involved in organellar genome stability in mitochondria and plastids. Plastid depletion of MSH1 causes heritable, non-genetic changes in development and DNA methylation. We investigated the msh1 phenotype using hemi-complementation mutants and transgene-null segregants from RNAi suppression lines to sub-compartmentalize MSH1 effects. We show that MSH1 expression is spatially regulated, specifically localizing to plastids within the epidermis and vascular parenchyma. The protein binds DNA and localizes to plastid and mitochondrial nucleoids, but fractionation and protein–protein interactions data indi...
Dynamic transcriptional and epigenetic changes enable rapid adaptive benefit to environmental fluctu...
Multicellular eukaryotes demonstrate nongenetic, heritable phenotypic versatility in their adaptatio...
Plant mitochondrial genomes are much larger and complex in structure than in other eukaryotes. The h...
As metabolic centers, plant organelles participate in maintenance, defense, and signaling. MSH1 is a...
The plant-specific gene MSH1 is a dual-targeted protein localized to both plastids and mitochondria ...
Plastid and mitochondria function are critical for plant growth and development, and require the act...
Mitochondrial-plastid interdependence within the plant cell is presumed to be essential, but measura...
Background: Proper regulation of nuclear-encoded, organelle-targeted genes is crucial for plastid an...
BACKGROUND: Proper regulation of nuclear-encoded, organelle-targeted genes is crucial for plastid an...
MUTS HOMOLOGUE 1 (MSH1) is a nuclear gene unique to plants that functions in mitochondria and plasti...
MUTS HOMOLOGUE 1 (MSH1) is a nuclear gene unique to plants that functions in mitochondria and plasti...
Dynamic transcriptional and epigenetic changes enable rapid adaptive benefit to environmental fluctu...
Multicellular eukaryotes demonstrate nongenetic, heritable phenotypic versatility in their adaptatio...
Plant mitochondrial genomes are much larger and complex in structure than in other eukaryotes. The h...
As metabolic centers, plant organelles participate in maintenance, defense, and signaling. MSH1 is a...
The plant-specific gene MSH1 is a dual-targeted protein localized to both plastids and mitochondria ...
Plastid and mitochondria function are critical for plant growth and development, and require the act...
Mitochondrial-plastid interdependence within the plant cell is presumed to be essential, but measura...
Background: Proper regulation of nuclear-encoded, organelle-targeted genes is crucial for plastid an...
BACKGROUND: Proper regulation of nuclear-encoded, organelle-targeted genes is crucial for plastid an...
MUTS HOMOLOGUE 1 (MSH1) is a nuclear gene unique to plants that functions in mitochondria and plasti...
MUTS HOMOLOGUE 1 (MSH1) is a nuclear gene unique to plants that functions in mitochondria and plasti...
Dynamic transcriptional and epigenetic changes enable rapid adaptive benefit to environmental fluctu...
Multicellular eukaryotes demonstrate nongenetic, heritable phenotypic versatility in their adaptatio...
Plant mitochondrial genomes are much larger and complex in structure than in other eukaryotes. The h...