Add to ORKGThe genomes of mitochondria and plastids are testimony to their evolutionary origin as bacterial endosymbionts during the emergence of eukaryotic cells. The two organellar genomes differ markedly from the nuclear genome and between each another. They are smaller in size, can have a more complex genome organization and feature multiple copies per cell. Moreover, distinct modes of replication and inheritance of the organellar genomes define their unique evolutionary dynamics. Cross-species phylogenetic studies demonstrate lower evolutionary rates of the plant organelles in comparison to the nucleus. However, the fundamental principles governing organellar evolution remain understudied and the population genetics theory is lacking suitable mod...
The nuclear genome of eukaryotes contains large amounts of cytoplasmic organelle DNA (nuclear integr...
Genome size and complexity vary tremendously among eukaryotic species and their organelles. Comparis...
One of the fundamental goals of evolutionary genomics is to identify the forces that shape genome ar...
Mitochondrial genomes (mitogenomes) of flowering plants are composed of multiple chromosomes. Recomb...
The order Alismatales is a hotspot for evolution of plant mitochondrial genomes characterized by rem...
Plastids and mitochondria are endosymbiotic organelles that store genetic information. The genomes o...
Within the siphonous green algal order Bryopsidales, the size and gene arrangement of chloroplast ge...
Organellar genomes serve as useful models for genome evolution and contain some of the most widely u...
BACKGROUND: The red algae (Rhodophyta) diverged from the green algae and plants (Viridiplantae) over...
The mitochondrial genome (mitogenome) and plastid genome (plastome) of plants vary immensely in geno...
The mitochondrial genome (mitogenome) and plastid genome (plastome) of plants vary immensely in geno...
The order Alismatales is a hotspot for evolution of plant mitochondrial genomes characterized by rem...
Plastids and mitochondria derive from prokaryotic symbionts that lost most of their genes after the ...
Background: The nucleomorphs associated with secondary plastids of cryptomonads and...
Cells in multicellular organisms are genetically heterogeneous owing to somatic mutations. The accum...
The nuclear genome of eukaryotes contains large amounts of cytoplasmic organelle DNA (nuclear integr...
Genome size and complexity vary tremendously among eukaryotic species and their organelles. Comparis...
One of the fundamental goals of evolutionary genomics is to identify the forces that shape genome ar...
Mitochondrial genomes (mitogenomes) of flowering plants are composed of multiple chromosomes. Recomb...
The order Alismatales is a hotspot for evolution of plant mitochondrial genomes characterized by rem...
Plastids and mitochondria are endosymbiotic organelles that store genetic information. The genomes o...
Within the siphonous green algal order Bryopsidales, the size and gene arrangement of chloroplast ge...
Organellar genomes serve as useful models for genome evolution and contain some of the most widely u...
BACKGROUND: The red algae (Rhodophyta) diverged from the green algae and plants (Viridiplantae) over...
The mitochondrial genome (mitogenome) and plastid genome (plastome) of plants vary immensely in geno...
The mitochondrial genome (mitogenome) and plastid genome (plastome) of plants vary immensely in geno...
The order Alismatales is a hotspot for evolution of plant mitochondrial genomes characterized by rem...
Plastids and mitochondria derive from prokaryotic symbionts that lost most of their genes after the ...
Background: The nucleomorphs associated with secondary plastids of cryptomonads and...
Cells in multicellular organisms are genetically heterogeneous owing to somatic mutations. The accum...
The nuclear genome of eukaryotes contains large amounts of cytoplasmic organelle DNA (nuclear integr...
Genome size and complexity vary tremendously among eukaryotic species and their organelles. Comparis...
One of the fundamental goals of evolutionary genomics is to identify the forces that shape genome ar...