Chemosynthesizing Proteins: Difference between revisions
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Chemosynthesizing proteins are small clusters of protein in the cytoplasm that are able to convert ''' | Chemosynthesizing proteins are small clusters of protein in the cytoplasm that are able to convert '''Hydrogen Sulfide''', gaseous '''Carbon Dioxide''' and water into '''Glucose''' in a process called '''Hydrogen Sulfide Chemosynthesis'''. The rate of its '''Glucose''' production scales with the concentration of '''Carbon Dioxide'''. Since the chemosynthesizing proteins are suspended directly in the cytoplasm, the surrounding fluid performs some '''Glycolysis'''. | ||
== Requirements == | == Requirements == | ||
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== Processes == | == Processes == | ||
'''Bacterial Chemosynthesis:''' '''Hydrogen Sulfide + Carbon Dioxide''' → '''Glucose''' | '''Bacterial Chemosynthesis:''' '''Hydrogen Sulfide''' + '''Carbon Dioxide''' → '''Glucose''' | ||
'''Glycolysis''': '''Glucose''' → '''ATP''' | '''Glycolysis''': '''Glucose''' → '''ATP''' |
Revision as of 01:30, 20 December 2023
Organelle Details | |
---|---|
Chemosynthesizing Proteins | |
File:ChemoProteinsOrganelle.png | |
Base Cost (MP) | 45 |
Requires Nucleus | No |
Processes | Bacterial Chemosynthesis, Glycolysis |
Enzymes | None |
Size (Hexes) | 1 |
Osmoregulation Cost | 1 |
Storage | 0.5 |
Unique | No |
Upgrades | None |
Internal Name | chemoSynthesizingProteins |
Chemosynthesizing proteins are small clusters of protein in the cytoplasm that are able to convert Hydrogen Sulfide, gaseous Carbon Dioxide and water into Glucose in a process called Hydrogen Sulfide Chemosynthesis. The rate of its Glucose production scales with the concentration of Carbon Dioxide. Since the chemosynthesizing proteins are suspended directly in the cytoplasm, the surrounding fluid performs some Glycolysis.
Requirements
No requirements.
Processes
Bacterial Chemosynthesis: Hydrogen Sulfide + Carbon Dioxide → Glucose
Glycolysis: Glucose → ATP
Modifications
No modifications.
Effects
No special effects.
Upgrades
No upgrades.
Strategy
With chemosynthesizing proteins, cells gain access to one of the most abundant and reliable sources of energy in the volcanic vents; Hydrogen sulfide. Being a storable compound, hydrogen sulfide can be stockpiled in excess within the cell as it is steadily processed into glucose, allowing for more overall energy stores to be held at one time.
To build an effective chemosynthesizing bacteria, one need only enough proteins to generate a net increase of glucose within the cell. A great way to start is by placing two chemosynthesizing proteins on the first generation, and then a metabolosome and whichever part you would prefer to power in the generation after. From there on, it is typically safe practice to only place an additional chemosynthesizing protein per every two other parts.
Be wary however, as 'hydrogen sulfide is only present in a select few biomes in the world. Evolving yourself to rely on it as your primary energy source will effectively prevent you from safely traveling to many other environments should the need arise.
Scientific Background
TBA