Difference between revisions of "Appreciation"
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Crossing with Nut's Essence can produce: | Crossing with Nut's Essence can produce: | ||
| − | * a child identical to the parents (50% of the time) | + | * a child identical to the parents (50% of the time), 22/44 |
| − | * a child that is 15 genes long (25% of the time) | + | * a child that is 15 genes long (25% of the time), 11/44 |
| − | * a child that is 17 genes long (25% of the time) | + | * a child that is 17 genes long (25% of the time), 11/44 |
Of the children which have changes in their gene length, half can be detected through vineyard tends. The other half will require analysis through molecular balance (not yet researched) or revelation solvents. | Of the children which have changes in their gene length, half can be detected through vineyard tends. The other half will require analysis through molecular balance (not yet researched) or revelation solvents. | ||
First attempt! | First attempt! | ||
| − | *Peacefulness#8 | + | *Peacefulness#8 early tends match tends for QQQ. Statistical chances are |
| + | **16 genes, Same length as parents, 22/44 | ||
| + | **15 genes, Lost a gene, 5/44 | ||
| + | **17 genes, Gained a gene, 7/44 | ||
Revision as of 19:13, 16 August 2020
Current Project: Attempting to shorten the genome for Appreciation vines
Starting points
Appreciation, 16 genes long
- KGYRYRYYRYYRYYRK
Appreciation Original (same genome, renamed), 16 genes long
- KGYRYRYYRYYRYYRK
Crossing with Nut's Essence can produce:
- a child identical to the parents (50% of the time), 22/44
- a child that is 15 genes long (25% of the time), 11/44
- a child that is 17 genes long (25% of the time), 11/44
Of the children which have changes in their gene length, half can be detected through vineyard tends. The other half will require analysis through molecular balance (not yet researched) or revelation solvents.
First attempt!
- Peacefulness#8 early tends match tends for QQQ. Statistical chances are
- 16 genes, Same length as parents, 22/44
- 15 genes, Lost a gene, 5/44
- 17 genes, Gained a gene, 7/44