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- Ortega, E., et al. Show all 6 Authors
- Journal of horticultural science & biotechnology 2015 v.90 no.1 pp. 71-77
- Prunus dulcis; almonds; biotechnology; computer software; databases; gel electrophoresis; gene expression; gene expression regulation; homozygosity; horticulture; liquid chromatography; pistil; pollen; protein synthesis; proteins; proteome; quantitative analysis; self-pollination; tandem mass spectrometry
- ... Self-incompatibility (SI) in almond [Prunus dulcis (Miller) D.A.Webb] is of the gametophytic-type and is controlled by the S-locus, which is highly polymorphic and includes two tightly-linked genes expressed in the pistil (as an S-RNase) and in the pollen [as an S haplotype-specific F-box (SFB) protein]. Experimental evidence indicates that other proteins are also needed for the functioning of sel ...
- Ortega, E., et al. Show all 3 Authors
- Journal of horticultural science & biotechnology 2011 v.86 no.3 pp. 284-290
- Prunus dulcis; alleles; almonds; biotechnology; buds; cultivars; fruit set; fruits; horticulture; microscopy; parentage; phenotype; pistil; plant ovary; pollen; pollen tubes; polymerase chain reaction; progeny; reproductive behavior; ribonucleases; seedlings; seeds; self-pollination
- ... Several pollination studies carried out on different, self-incompatible almond cultivars and seedlings have shown the presence of variable levels of fruit set following self-pollination that could be attributed to partial self-incompatibility (PSI). PSI is an intermediate reproductive behaviour, described in some angiosperm species, which indicates that selfincompatibility is a quantitative and ...