The majority of flowering plants produce perfect flowers that contain both the male and
female reproductive organs in close proximity; consequently, they would have a strong …

Self-incompatibility (SI) mechanisms prevent self-fertilization in flowering plants based on
specific discrimination between self-and non-self pollen. Since this trait promotes …

PCR-based identification of all 13 known self-incompatibility (S) alleles of sweet cherry is
reported. Two pairs of consensus primers were designed from our previously published …

Many Prunus species, including sweet cherry and Japanese apricot, of the Rosaceae,
display an S‐RNase‐based gametophytic self‐incompatibility (GSI). The specificity of this …

This study describes a novel F-box protein gene in the S-locus of sour cherry (Prunus
cerasus) and sweet cherry (P. avium). The gene showed an S-haplotype-specific sequence …

Most Prunus fruit tree species exhibit a homomorphic gametophytic self-incompatibility (GSI)
system, in which specificity of self/nonself-recognition is controlled by products encoded …

Reverse transcription of stylar RNA from three cherry cultivars representing six self-
incompatibility (S) alleles, Early Rivers (S 1 S 2), Napoleon (S 3 S 4) and Colney (S 5 S 6) …

In almond, gametophytic self-incompatibility is controlled by a single multiallelic locus (S-
locus). In styles, the products of S-alleles are ribonucleases, the S-RNases. Cultivated …

A genetic linkage map of apricot (Prunus armeniaca L.) was constructed using AFLP and
SSR markers. The map is based on an F 2 population (76 individuals) derived from self …

The gene SFB encodes an F-box protein that has appropriate S-haplotype-specific variation
to be the pollen determinant in the S-RNase-based gametophytic self-incompatibility (GSI) …