Understanding genome and chromosome evolution is important for understanding genetic inheritance and evolution. Universal events comprising DNA replication, transcription, repair, mobile genetic element transposition, chromosome rearrangements, mitosis, and meiosis underlie inheritance and variation of living organisms. Although the genome of a species as a whole is important, chromosomes are the basic units subjected to genetic events that coin evolution to a large extent. Now many complete genome sequences are available, we can address evolution and variation of individual chromosomes across species. For example, ‘‘How are the repeat and nonrepeat proportions of genetic codes distributed among different chromosomes in a multichromosome sp...
Eukaryotic genome evolution integrates processes behind (i) chromosome plasticity (change in chromos...
This study aims to examine the expected scaling relationships between chromosome size and number acr...
Chromosome number is perhaps the most basic characteristic of a genome, yet generalizations that can...
Understanding the distribution of crossovers along chromosomes is crucial to evolutionary genomics b...
Understanding the distribution of crossovers along chromosomes is crucial to evolutionary genomics b...
BACKGROUND: Segmental duplication is widely held to be an important mode of genome growth and evolut...
It is known that chromosome number tends to decrease as genome size increases in angiosperm plants. ...
<div><p>This study aims to examine the expected scaling relationships between chromosome size and nu...
Background: Segmental duplication is widely held to be an important mode of genome growth and evolut...
Evolutionary chromosome change involves significant variation in DNA amount in diploids and genome d...
Cell size is highly variable among different species across the Tree of Life. For decades, biologist...
In eukaryotes, the haploid DNA content (C-value) varies widely across lineages without an apparent c...
In eukaryotes, chromosomal rearrangements, such as inversions, translocations and duplications, are ...
Background and aims: Genome size varies considerably across the diversity of plant life. Although ge...
This dissertation focus on one fundamental question: Does it matter where a gene reside on a chromos...
Eukaryotic genome evolution integrates processes behind (i) chromosome plasticity (change in chromos...
This study aims to examine the expected scaling relationships between chromosome size and number acr...
Chromosome number is perhaps the most basic characteristic of a genome, yet generalizations that can...
Understanding the distribution of crossovers along chromosomes is crucial to evolutionary genomics b...
Understanding the distribution of crossovers along chromosomes is crucial to evolutionary genomics b...
BACKGROUND: Segmental duplication is widely held to be an important mode of genome growth and evolut...
It is known that chromosome number tends to decrease as genome size increases in angiosperm plants. ...
<div><p>This study aims to examine the expected scaling relationships between chromosome size and nu...
Background: Segmental duplication is widely held to be an important mode of genome growth and evolut...
Evolutionary chromosome change involves significant variation in DNA amount in diploids and genome d...
Cell size is highly variable among different species across the Tree of Life. For decades, biologist...
In eukaryotes, the haploid DNA content (C-value) varies widely across lineages without an apparent c...
In eukaryotes, chromosomal rearrangements, such as inversions, translocations and duplications, are ...
Background and aims: Genome size varies considerably across the diversity of plant life. Although ge...
This dissertation focus on one fundamental question: Does it matter where a gene reside on a chromos...
Eukaryotic genome evolution integrates processes behind (i) chromosome plasticity (change in chromos...
This study aims to examine the expected scaling relationships between chromosome size and number acr...
Chromosome number is perhaps the most basic characteristic of a genome, yet generalizations that can...