Chemoplast: Difference between revisions
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A eukaryotic organelle used to perform '''Chemosynthesis''', the process of converting '''Hydrogen Sulfide''' {{CompoundIcon|image=HydrogenSulfideIcon.png|internalName=hydrogenSulfide}} into '''ATP''' {{CompoundIcon|image=ATPIcon.png|internalName=atp}} using environmental '''CO2''' {{CompoundIcon|image=CarbonDioxideIcon.png|internalName=carbonDioxide}}. It performs this process more efficiently than its prokaryotic counterpart: [[Chemosynthesizing Proteins]]. | |||
== Requirements == | == Requirements == | ||
A cell must have a [[Nucleus]] to evolve '''Chemoplasts'''. | |||
== Processes == | == Processes == | ||
'''Chemosynthesis''': '''Hydrogen Sulfide''' {{CompoundIcon|image=HydrogenSulfideIcon.png|internalName=hydrogenSulfide}} + '''CO2''' {{CompoundIcon|image=CarbonDioxideIcon.png|internalName=carbonDioxide}} → '''ATP''' {{CompoundIcon|image=ATPIcon.png|internalName=atp}} | |||
A method of energy generation. Requires '''Hydrogen Sulfide''' {{CompoundIcon|image=HydrogenSulfideIcon.png|internalName=hydrogenSulfide}} and sufficient environmental '''CO2''' {{CompoundIcon|image=CarbonDioxideIcon.png|internalName=carbonDioxide}} to function. It is superior to the process performed in [[Chemosynthesizing Proteins]]. | |||
== Modifications == | == Modifications == | ||
None | |||
== Effects == | == Effects == | ||
None | |||
== Upgrades == | == Upgrades == | ||
None | |||
== Strategy == | == Strategy == | ||
Revision as of 19:20, 21 February 2024
| Organelle Details | |
|---|---|
| Chemoplast |  |
| |
| Base Cost (MP) | 45 |
| Requires Nucleus | Yes |
| Processes | Chemosynthesis |
| Enzymes | None |
| Size (Hexes) | 2 |
| Osmoregulation Cost | 2 |
| Storage | 1 |
| Unique | No |
| Upgrades | None |
| Internal Name | chemoplast |
A eukaryotic organelle used to perform Chemosynthesis, the process of converting Hydrogen Sulfide 
into ATP 
using environmental CO2 
. It performs this process more efficiently than its prokaryotic counterpart: Chemosynthesizing Proteins.
Requirements
A cell must have a Nucleus to evolve Chemoplasts.
Processes
Chemosynthesis: Hydrogen Sulfide + CO2 → ATP
A method of energy generation. Requires Hydrogen Sulfide and sufficient environmental CO2 to function. It is superior to the process performed in Chemosynthesizing Proteins.
Modifications
None
Effects
None
Upgrades
None
Strategy
TBA
Scientific Background
TBA