Chemolithoautotrophy: Difference between revisions

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[[Category:Processes|4]]
[[Category:Processes|C]]
Chemolithoautotrophy, or just "iron synthesis" is exclusively performed by the Rusticyanin part.
Chemolithoautotrophy, or just "iron synthesis" is exclusively performed by the Rusticyanin part.


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Chemolithoautotrophy, otherwise known as iron synthesis is a fairly reliable source of energy for prokaryotes so long as atmospheric conditions support it. However; due to lacking any kind of eukaryotic counterpart iron synthesis can make for a challenging, but not impossible choice should the player desire to progress to later stages of the game. It is suggested that the player make full use of rusticyanin and completely reject any other energy producing process should they choose to commit to iron synthesis. This is because iron synthesis directly produces ATP, making it detrimental to pair with any other processes involving things such as glucose. Otherwise, the player will need to search for two separate resources instead of just one, which is ultimately inefficient.
Chemolithoautotrophy, otherwise known as iron synthesis is a fairly reliable source of energy for prokaryotes so long as atmospheric conditions support it. However; due to lacking any kind of eukaryotic counterpart iron synthesis can make for a challenging, but not impossible choice should the player desire to progress to later stages of the game. It is suggested that the player make full use of rusticyanin and completely reject any other energy producing process should they choose to commit to iron synthesis. This is because iron synthesis directly produces ATP, making it detrimental to pair with any other processes involving things such as glucose. Otherwise, the player will need to search for two separate resources instead of just one, which is ultimately inefficient.


This process is ultimately less efficient than respiration, but the occurance of compound-rich iron chunks provides a semi-reliable source of large amounts of resources at once. In order to capitalize on these large caches of iron, You must place as many rusticyanin as necessary to produce the ATP you need to acquire important parts such as the nucleus and flagella. Using parts that provide larger storage capacity are helpful here, so placing some cytoplasm and vacuole parts when you can afford them can allow you to survive more easily.
This process is ultimately less efficient than [[respiration]], but the occurance of compound-rich iron chunks provides a semi-reliable source of large amounts of resources at once. In order to capitalize on these large caches of iron, You must place as many rusticyanin as necessary to produce the ATP you need to acquire important parts such as the nucleus and flagella. Using parts that provide larger storage capacity are helpful here, so placing some [[Gylcolysis|cytoplasm]] and vacuole parts when you can afford them can allow you to survive more easily.


== Function in Reality ==
== Function in Reality ==
TODO
TODO

Latest revision as of 21:00, 28 February 2021

Chemolithoautotrophy, or just "iron synthesis" is exclusively performed by the Rusticyanin part.

Summary

Chemolithoautotrophy is a process utilized most often by prokaryotes to produce raw ATP from the synthesis of iron, carbon dioxide, and oxygen. It is important to make sure that any patches you occupy possess a reasonable ratio of the two atmospheric gasses, as well as sufficient iron, before making use of this protein.

Use and Strategy

Chemolithoautotrophy, otherwise known as iron synthesis is a fairly reliable source of energy for prokaryotes so long as atmospheric conditions support it. However; due to lacking any kind of eukaryotic counterpart iron synthesis can make for a challenging, but not impossible choice should the player desire to progress to later stages of the game. It is suggested that the player make full use of rusticyanin and completely reject any other energy producing process should they choose to commit to iron synthesis. This is because iron synthesis directly produces ATP, making it detrimental to pair with any other processes involving things such as glucose. Otherwise, the player will need to search for two separate resources instead of just one, which is ultimately inefficient.

This process is ultimately less efficient than respiration, but the occurance of compound-rich iron chunks provides a semi-reliable source of large amounts of resources at once. In order to capitalize on these large caches of iron, You must place as many rusticyanin as necessary to produce the ATP you need to acquire important parts such as the nucleus and flagella. Using parts that provide larger storage capacity are helpful here, so placing some cytoplasm and vacuole parts when you can afford them can allow you to survive more easily.

Function in Reality

TODO