Results summary | View all lists in GO:BiolProc | View all genes in H02AB.profile.ud50 |
The regular alternation, in the life cycle of haplontic, diplontic and diplohaplontic organisms, of meiosis and fertilization which provides for the production offspring. In diplontic organisms there is a life cycle in which the products of meiosis behave directly as gametes, fusing to form a zygote from which the diploid, or sexually reproductive polyploid, adult organism will develop. In diplohaplontic organisms a haploid phase (gametophyte) exists in the life cycle between meiosis and fertilization (e.g. higher plants, many algae and Fungi); the products of meiosis are spores that develop as haploid individuals from which haploid gametes develop to form a diploid zygote; diplohaplontic organisms show an alternation of haploid and diploid generations. In haplontic organisms meiosis occurs in the zygote, giving rise to four haploid cells (e.g. many algae and protozoa), only the zygote is diploid and this may form a resistant spore, tiding organisms over hard times. enrichment: 2.35-fold |
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Probe ID | Name | G | T | D | X | E | P | R | C | S | Description | ||
219963_AT | DUSP13 | P | dual specificity phosphatase 13 | ||||||||||
203140_AT | BCL6 | G | D | X | R | C | S | B-cell CLL/lymphoma 6 (zinc finger protein 51) | |||||
201614_S_AT | RUVBL1 | R | RuvB-like 1 (E. coli) | ||||||||||
205486_AT | TESK2 | G | P | C | S | testis-specific kinase 2 |