The imprinted Dlk1–Gtl2 region of the mammalian genome — which in sheep encompasses the callipyge locus, known for its unusual mode of inheritance — encodes a number of maternally expressed miRNAs. Five of these miRNAs, hosted by the antisense transcript antiPeg11, have now been shown to target degradation of the paternally expressed Peg11 mRNA by an RNAi-mediated mechanism
Meiotic crossover creates new combinations of genetic variation and ensures balanced chromosome tran...
Meiotic recombination produces crossovers from SPO11-mediated DSBs by diverse interhomolog repair pa...
Meiotic crossovers shuffle parental genetic information, providing novel combinations of alleles on ...
New evidence suggests that the model plant Arabidopsis has two biochemically distinct pathways that ...
SummaryBackground: Crossovers are essential for the completion of meiosis. Recently, two pathways of...
During meiosis homologous chromosomes undergo crossover recombination. Sequence differences between ...
Crossovers involve the reciprocal exchange of large fragments of genetic material between homologous...
AbstractRecent studies have shown that the Arabidopsis MEDEA gene is imprinted, so that paternally a...
The crossover distribution in meiotic tetrads of Arabidopsis thaliana differs from those previously ...
Meiotic recombination results in the heritable rearrangement of DNA, primarily through reciprocal ex...
The frequency and distribution of meiotic crossovers are tightly controlled; however, variation in t...
The frequency and distribution of meiotic crossovers are tightly controlled; however, variation in t...
Acknowledgements: We thank Raphael Mercier (Max Planck Institute for Plant Breeding Research, Cologn...
Acknowledgements: We thank Raphael Mercier (Max Planck Institute for Plant Breeding Research, Cologn...
In most eukaryotes, crossovers are not independently distributed along the length of a chromosome. I...
Meiotic crossover creates new combinations of genetic variation and ensures balanced chromosome tran...
Meiotic recombination produces crossovers from SPO11-mediated DSBs by diverse interhomolog repair pa...
Meiotic crossovers shuffle parental genetic information, providing novel combinations of alleles on ...
New evidence suggests that the model plant Arabidopsis has two biochemically distinct pathways that ...
SummaryBackground: Crossovers are essential for the completion of meiosis. Recently, two pathways of...
During meiosis homologous chromosomes undergo crossover recombination. Sequence differences between ...
Crossovers involve the reciprocal exchange of large fragments of genetic material between homologous...
AbstractRecent studies have shown that the Arabidopsis MEDEA gene is imprinted, so that paternally a...
The crossover distribution in meiotic tetrads of Arabidopsis thaliana differs from those previously ...
Meiotic recombination results in the heritable rearrangement of DNA, primarily through reciprocal ex...
The frequency and distribution of meiotic crossovers are tightly controlled; however, variation in t...
The frequency and distribution of meiotic crossovers are tightly controlled; however, variation in t...
Acknowledgements: We thank Raphael Mercier (Max Planck Institute for Plant Breeding Research, Cologn...
Acknowledgements: We thank Raphael Mercier (Max Planck Institute for Plant Breeding Research, Cologn...
In most eukaryotes, crossovers are not independently distributed along the length of a chromosome. I...
Meiotic crossover creates new combinations of genetic variation and ensures balanced chromosome tran...
Meiotic recombination produces crossovers from SPO11-mediated DSBs by diverse interhomolog repair pa...
Meiotic crossovers shuffle parental genetic information, providing novel combinations of alleles on ...