The growing demand for food with limited arable land available necessitates that the yield of
major food crops continues to increase over time. Advances in marker technology, predictive …

Self-incompatibility (SI) is a prezygotic mechanism that prevents self-pollination in flowering
plants by distinguishing between nonself-and self-pollen. It controls sexual reproduction by …

Petunia possesses self-incompatibility, by which pistils reject self-pollen but accept non-self-
pollen for fertilization. Self-/non-self-recognition between pollen and pistil is regulated by the …

Pyrus species display a gametophytic self-incompatibility (GSI) system that actively prevents
fertilization by self-pollen. The GSI mechanism in Pyrus is genetically controlled by a single …

Selective protein degradation through the ubiquitin–26S proteasome system is a key
mechanism for post-translational control of regulatory proteins in all eukaryotes. The pivotal …

Key message Function of Petunia PiSSK1. Abstract Self-incompatibility (SI), an inbreeding-
preventing mechanism, is regulated in Petunia inflata by the polymorphic S-locus, which …

S-RNase-based self-incompatibility in Petunia is a self/non-self recognition system that
allows the pistil to reject self-pollen to prevent inbreeding and to accept non-self pollen for …

Prunus fruit tree species exhibit S-ribonuclease (S-RNase)-based gametophytic self-
incompatibility (GSI). This system is also present in the families Plantaginaceae and …

Abstract In Petunia (Solanaceae family), self-incompatibility (SI) is regulated by the
polymorphic S-locus, which contains the pistil-specific S-RNase and multiple pollen-specific …

Self-incompatibility (SI) in Petunia is regulated by a polymorphic S-locus. For each S-
haplotype, the S-locus contains a pistil-specific S-RNase gene and multiple pollen-specific S …