Marius Rohner
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View article: Fine-Mapping and Comparative Genomic Analysis Reveal the Gene Composition at the <i>S</i> and <i>Z</i> Self-incompatibility Loci in Grasses
Fine-Mapping and Comparative Genomic Analysis Reveal the Gene Composition at the <i>S</i> and <i>Z</i> Self-incompatibility Loci in Grasses Open
Self-incompatibility (SI) is a genetic mechanism of hermaphroditic plants to prevent inbreeding after self-pollination. Allogamous Poaceae species exhibit a unique gametophytic SI system controlled by two multi-allelic and independent loci…
View article: S and Z loci nucleotide sequences of Lolium multiflorum cultivar Rabiosa
S and Z loci nucleotide sequences of Lolium multiflorum cultivar Rabiosa Open
Nucleotide sequences of two scaffolds spanning the S-locus and two scaffolds the Z-locus in Lolium multiflorum cultivar Rabiosa
View article: S and Z loci nucleotide sequences of Lolium multiflorum cultivar Rabiosa
S and Z loci nucleotide sequences of Lolium multiflorum cultivar Rabiosa Open
Nucleotide sequences of two scaffolds spanning the S-locus and two scaffolds the Z-locus in Lolium multiflorum cultivar Rabiosa
View article: Coding sequences of S- and Z- locus genes
Coding sequences of S- and Z- locus genes Open
Coding sequences of S- and Z- locus genes identified within Lolium species
View article: Coding sequences of S- and Z- locus genes
Coding sequences of S- and Z- locus genes Open
Coding sequences of S- and Z- locus genes identified within Lolium species
View article: Lolium multiflorum cultivar Rabiosa annotation
Lolium multiflorum cultivar Rabiosa annotation Open
Annotation file for multiple scaffolds spanning the S- and Z-locus in Lolium multiflorum cultivar Rabiosa.
View article: Callus Induction from Diverse Explants and Genotypes Enables Robust Transformation of Perennial Ryegrass (Lolium perenne L.)
Callus Induction from Diverse Explants and Genotypes Enables Robust Transformation of Perennial Ryegrass (Lolium perenne L.) Open
Genetic transformation of perennial ryegrass (Lolium perenne L.) is critical for fundamental and translational research in this important grass species. It often relies on Agrobacterium-mediated transformation of callus tissue. However, ca…
View article: Fine-mapping and comparative genomic analysis reveal the gene composition at the<i>S</i>and<i>Z</i>self-incompatibility loci in grasses
Fine-mapping and comparative genomic analysis reveal the gene composition at the<i>S</i>and<i>Z</i>self-incompatibility loci in grasses Open
Self-incompatibility (SI) is a genetic mechanism of hermaphroditic plants to prevent inbreeding after self-pollination. Allogamous Poaceae species exhibit a unique gametophytic SI system controlled by two multi-allelic and independent loci…
View article: Understanding forage grass genomes beyond single nucleotide variation - an example on self-incompatibility
Understanding forage grass genomes beyond single nucleotide variation - an example on self-incompatibility Open
The genera Lolium and Festuca comprise the most important forage and turf grass species of temperate regions worldwide. Despite tremendous advancements in DNA sequencing technologies and genome assembly methods, genome sequences of highest…