Changes: Organelles

Revision as of 07:58, 20 January 2021

Organelles are components of microbes that allow them to complete certain processes. Organelles can be added and removed from microbes through the editor.

Structural Organelles

Structural organelles give cells shape. The cytoplasm is the only organelle in this category.

22 MP	Cytoplasm

Glycolysis
Cytoplasmic Glycolisis
0,01 Glucose → 5 ATP
+4 Storage +1 Osmoregulation Cost
The material or protoplasm within a living cell. The gooey innards of a cell.

Prokaryotic Structures

Proteins found on prokaryotic cells, most of them are inferior versions of Internal Organelles.

45 MP	Metabolosome

Turns Glucose into ATP . Rate scales with concentration of Oxygen
Respiration
0,04 → 7,98 @ 21% Oxygen
+4 Storage +1 Osmoregulation Cost
Clusters of proteins wrapped in protein shells.It uses oxygen to convert glucose into ATP in a process called Aerobic Respiration. Lower levels of oxygen will slow the rate of ATP production.

50 MP	Thylakoids

Produces Glucose . Rate scales with concentration of Carbon Dioxide and intensity of Light
Glycolisis
0,006 → 2 /second
Photosynthesis
+0,01 @ 9% , 100%
+1 Storage +1 Osmoregulation Cost
Clusters of proteins and photosensitive pigments. The pigments use sunlight as energy to produce glucose from water and gaseous CO2 through Photosynthesis. They are also what give them their distinctive green color.

45 MP	Chemosynthesing Proteins

Turns Hydrogen Sulfide into Glucose . Rate scales with concentration of Carbon Dioxide Also turns Glucose into ATP
Glycolisis
0,006 → 2 /second
Chemo Synthesis
0,03 → 0,03 /second @ 9%
+1 Storage +1 Osmoregulation Cost
Small clusters of protein in the cytoplasm. They can convert hydrogen sulfide, water and CO2 into glucose in a process called Hydrogen Sulfide Chemosynthesis

45 MP	Rusticyanin

Turns Iron into ATP . Rate scales with concentration of Carbon Dioxide and Oxygen
Iron Respiration
0,24 20 /second @ 9% 21%
+1 Storage +1 Osmoregulation Cost
A protein that uses gaseous Oxygen and CO2 to oxidize Iron from one chemical state to another, in a process called Iron Respiration. This process releases energy in the form of ATP which the cell can harvest.

55 MP	Nitrogenase

Turns ATP into Ammonia . Rate scales with concentration of Nitrogen
Glycolisis
0,006 → 2 /second
Anaerobic Nitrogen Fixation
1,75 → 0,01 /second @ 70%
+2 Storage +1 Osmoregulation Cost
A protein that can use gaseous nitrogen and ATP to produce ammonia. in a process called Aenaerobic Nitrogen FIxation.

55 MP	Oxytoxisome

Turns ATP into OxyToxy . Rate scales with concentration of Oxygen
Glycolisis
0,006 → 2 /second
OxyToxy Synthesis
5 → 0,15 /second @ 21%
+4 Storage +1 Osmoregulation Cost
A modified metabolosome which produces a primitive version of the toxic agent OxyToxy NT. Press E to release toxins.

External Organelles

Organelles that go on the outside of the cell.

20 MP	Flagellum

Uses ATP to increase the movement speed of the cell.
+0.7 Speed +4 Storage +1 Osmoregulation Cost
The flagellum (plural: flagella) is a whip-like bundle of protein fibers extending from the cell's membrane. It uses ATP to undulate and propel the cell.

30 MP	Predatory Pillus

Stab other cells with it.
A hair-like appendage made of protein found on the surface of certain microbes. It inflicts damage to other microbes.

Internal Organelles

Organelles placed on the inside of the cell. Many of these organelles perform processes, which take some compounds as input and return different compounds as output. Except the nucleus, they are locked until the cell become a eukaryote.

100 MP	Nucleus

Allows for the evolution of more complex membrane-bound organelles. Costs a lot of ATP to mantain. This is an irreversible evolution.


+15 Storage +10 Osmoregulation Cost
The defining feature of eukaryotic cells and where their DNA is stored. It allows cells to develop a system of internal membranes, allowing for more complex, efficient and specialized membrane-bound oganelles.

40 MP	Mitochondrion

Turns Glucose into ATP . Rate scales with concentration of Oxygen
Respiration
0,02 → 10,5 /second @ 21%
+2 Storage +2 Osmoregulation Cost
The powerhouse of the cell. The mitochondrion is a double membrane structure with enzymes inside. It is an assimilated prokaryote used by its eukaryotic host to produce energy. It uses oxygen to convert glucose into ATP.

30 MP	Chloroplast

Produces Glucose . Rate scales with concentration of Carbon Dioxide and intensity of Light
Photosynthesis
+0,05 /second @ 9% , 100%
+2 Storage +3 Osmoregulation Cost
A double membrane structure with photosensitive pigments stacked together in membranous sacks. A prokaryote assimilated by an eukaryotic host. Its pigments use sunlight to convert water and CO2 into glucose through Photosynthesis. These pigments also give it its distinctive green color.

40 MP	Thermoplast (WIP)

Produces Glucose . Rate scales with concentration of Carbon Dioxide and Temperature


+4 Storage +1 Osmoregulation Cost
A double membrane structure with thermosensitive pigments stacked together in membranous sacks. A prokaryote assimilated by an eukaryotic host. Its pigments uses the energy of heat differences in the surroundings to convert water and CO2 into glucose in a process called Thermosynthesis.

45	Chemoplast

Turns Hydrogen Sulfide into Glucose . Rate scales with concentration of Carbon Dioxide
Chemo Synthesis
0,03 → 0,04 /second @ 21%
+1 Storage +1 Osmoregulation Cost
A double membrane structure with proteins that can hydrogen sulfide, water and CO2 into glucose, in a process called Hydrogen Sulfide Chemo Synthesis.

50	Nitrogen Fixing Plastid

Converts ATP into Ammonia . Scales with concentration of Oxygen and Nitrogen
Aerobic Nitrogen Fixing
1,75 → 0,02 /second @ 70% , 21%
+2 Storage +2 Osmoregulation Cost
A protein capable of using gaseous nitrogen and oxygen with ATP to produce ammonia. This process is know as Aerobic Nitrogen Fixation.

30 MP	Vacuole

Increases the storage space of the cell.


+15 Storage +1 Osmoregulation Cost
A membranous organelle used for storage in teh cell. It is composed of several vesicles, smaller membrous structures widely used in cells for storage, which have fused together. It is filed with water which is used to contain molecules, enzymes, solids and other substances.

80 MP	Toxin Vacuole

Turns ATP into OxyToxy . Rate scales with concentration of Oxygen
OxyToxy Synthesis
1,05 → 0,31 /second @ 21%
+5 Storage +1 Osmoregulation Cost
A vacuole modified specifically to produce, store and secrete of OxyToxy toxins. More toxin vacuoles will increase the rate at which toxins can be released.

TBD	Bioluminescent Vacuole

Bioluminescence.


Storage Osmoregulation Cost

@@ Line 1: / Line 1: @@
-'''Organelles''' are components of [[Microbe Stage|microbes]] that allow them to complete certain processes. Organelles can be added and removed from microbes through the [[Microbe Editor|editor]]. There are currently 7 organelles in Thrive. Each individual organelle placed in the cell increases its health by 10 units.
+'''Organelles''' are components of [[Microbe Stage|microbes]] that allow them to complete certain [[processes]]. Organelles can be added and removed from microbes through the [[Microbe Editor|editor]].
 == Structural Organelles ==
 Structural organelles give cells shape. The cytoplasm is the only organelle in this category.
+{{Organelles
-{{Organelles1
-|name=Chloroplast
+|name=Cytoplasm
+|icon=[[file:CytoplasmIcon.png|center|60px]]
-|icon=No image available atm
-|size=1 hex
+|cost= 22 MP
+|uses=Glycolysis
-|cost= 10MP
+|desc=The material or protoplasm within a living cell.
-|uses=Shapes the cell.
+The gooey innards of a cell.
-|desc=Cytoplasm is the solvent medium in which chemical reactions in the cell take place. It works as an empty and cheap structural material for shaping the cell.
-|process = [[Compounds|(Sunlight + CO2 → Oxygen + Glucose)]]}}
+|process = [[Compounds|(Sunlight + CO2 → Oxygen + Glucose)]]
+}}
+== Prokaryotic Structures ==
+Proteins found on prokaryotic cells, most of them are inferior versions of Internal Organelles.
+{{Organelles
+|name = Metabolosome
+|icon = [[File:MetabolosomeIcon.png|60px]]
+|cost = 45 MP
+|uses = Turns Glucose [[File:GlucoseIcon.png|20px]] into ATP [[File:ATP.png|20px]]. Rate scales with concentration of Oxygen|desc = Clusters of proteins wrapped in protein shells.It uses oxygen to convert glucose into ATP in a process called Aerobic Respiration. Lower levels of oxygen will slow the rate of ATP production.
+|pname = Respiration
+|p1 = 0,04 [[File:GlucoseIcon.png|20px]] → 7,98 [[File:ATP.png|20px]] @ 21% Oxygen
+}}
+{{Organelles/1|cost = 50 MP|desc = Clusters of proteins and photosensitive pigments. The pigments use sunlight as energy to produce glucose from water and gaseous CO2 through Photosynthesis. They are also what give them their distinctive green color.|osmoreg=+1|storage=+1}}
+{{Organelles/1
+|name = Chemosynthesing Proteins
+|icon = [[File:ChemoproteinsIcon.png|60px]]
+|cost = 45 MP
+|uses = Turns Hydrogen Sulfide into Glucose [[File:GlucoseIcon.png|20px]] . Rate scales with concentration of Carbon Dioxide [[File:CO2.png|22px]]
+Also turns Glucose [[File:GlucoseIcon.png|20px]] into ATP [[File:ATP.png|20px]]
+|desc = Small clusters of protein in the cytoplasm. They can convert
+hydrogen sulfide, water and CO2 into glucose in a process called Hydrogen Sulfide Chemosynthesis
+|pname = Chemo Synthesis
+|p1 = 0,03 [[File:HydrogenSulfide.png|20px]] → 0,03 [[File:GlucoseIcon.png|20px]] /second @ 9% [[File:CO2.png|22px]]
+|storage=+1
+}}
+{{Organelles
+|name = Rusticyanin|icon = [[File:RusticyaninIcon.png|60px]]|cost = 45 MP
+|uses = Turns Iron [[File:Iron.png|20px]] into ATP [[File:ATP.png|20px]] . Rate scales with concentration of Carbon Dioxide [[File:CO2.png|22px]] and Oxygen [[File:OxygenIcon.png|22px]]
+|pname= Iron Respiration
+|p1 = 0,24 [[File:Iron.png|20px]] 20 [[File:ATP.png|20px]] /second @ 9% [[File:CO2.png|22px]] 21% [[File:OxygenIcon.png|22px]]
+|desc = A protein that uses gaseous Oxygen and CO2 to oxidize Iron from one chemical state to another, in a process called Iron Respiration. This process releases energy in the form of ATP which the cell can harvest.
+|storage = +1}}
+{{Organelles/1
+|name = Nitrogenase
+|icon = [[File:NitrogenaseIcon.png|60px]]
+|cost = 55 MP
+|uses = Turns ATP [[File:ATP.png|20px]] into Ammonia [[File:AmmoniaIcon.png|20px]] . Rate scales with concentration of Nitrogen [[File:Nitrogen.png|22px]]
+|pname=Anaerobic Nitrogen Fixation
+|p1= 1,75 [[File:ATP.png|20px]] → 0,01 [[File:AmmoniaIcon.png|20px]] /second @ 70% [[File:Nitrogen.png|22px]]
+|desc = A protein that can use gaseous nitrogen and ATP to produce ammonia. in a process called Aenaerobic Nitrogen FIxation.
+|storage=+2
+}}
+{{Organelles/1
+|name = Oxytoxisome
+|icon = [[File:ToxinVacuoleIcon.png|60px]]
+|cost = 55 MP
+|uses = Turns ATP [[File:ATP.png|20px]] into OxyToxy [[FIle:OxyToxy.png|20px]] . Rate scales with concentration of Oxygen [[File:OxygenIcon.png|22px]]
+|desc = A modified metabolosome which produces a primitive version of the toxic agent OxyToxy NT. Press E to release toxins.
+|storage=+4
+|pname = OxyToxy Synthesis|p1 = 5 [[File:ATP.png|20px]] → 0,15 [[File:OxyToxy.png|20px]] /second @ 21% [[File:OxygenIcon.png|22px]]}}
+== External Organelles ==
+Organelles that go on the outside of the cell.
+{{Organelles/2
+|cost=20 MP
+}}
+{{Organelles/0
+|name=Predatory Pillus
+|icon=[[file:PredatoryPillus.png|center]]|cost= 30 MP|uses=Stab other cells with it.
+|desc=A hair-like appendage made of protein found on the surface of certain microbes.
+It inflicts damage to other microbes.
+|pname=
+|p1=
+}}
 == Internal Organelles ==
-Organelles placed on the inside of the cell. Many of these organelles perform processes, which take some compounds as input and return different compounds as output.
+Organelles placed on the inside of the cell. Many of these organelles perform processes, which take some compounds as input and return different compounds as output. Except the nucleus, they are locked until the cell become a eukaryote.
 {{Organelles
+|name=Nucleus
-|size=2 hexes
+|icon=[[File:Nucleus.png|center|60px]]
+|cost= 100 MP|uses=Allows for the evolution of more complex membrane-bound organelles. Costs a lot of ATP to mantain. This is an irreversible evolution.|process=
+|desc=The defining feature of eukaryotic cells and where their DNA is stored. It allows cells to develop a system of internal membranes, allowing for more complex, efficient and specialized membrane-bound oganelles.
+|p1 = |storage = +15|osmoreg = +10|pname = }}
+{{Organelles
+|size=
 |cost= 40 MP
+|process=|name = Mitochondrion|icon = [[file:Mito.png|center]]|uses = Turns Glucose [[File:GlucoseIcon.png|20px]] into ATP [[File:ATP.png|20px]] . Rate scales with concentration of Oxygen [[File:OxygenIcon.png|22px]]|desc = The powerhouse of the cell. The mitochondrion is a double membrane structure with enzymes inside. It is an assimilated prokaryote used by its eukaryotic host to produce energy. It uses oxygen to convert glucose into ATP.|pname = Respiration|p1 = 0,02 [[File:GlucoseIcon.png|20px]] → 10,5 [[File:ATP.png|20px]] /second @ 21% [[File:OxygenIcon.png|22px]]|storage = +2|osmoreg = +2}}
-|process=[[Compounds|(Glucose + Oxygen → CO2 + 36 ATP)]]}}
 {{Organelles
 |name=Chloroplast
 |icon=[[file:thermoplast.png|center]]
-|size=3 hexes
-|cost= 30MP
-|uses=Photosynthesis
-|desc=Chloroplasts are capable of producing glucose and oxygen through sunlight and CO2.
-|process = [[Compounds|(Sunlight + CO2 → Oxygen + Glucose)]]}}
-{{Organelles
-|name=Thermoplast
-|icon=[[file:chloro.png|center]]
-|size= ? hexes
-|cost= 40 Mutation Points
-|uses=Thermosynthesis
-|desc=Thermoplasts are a theoretical organelle capable of producing energy through heat.
-|process = [[Compounds|(Heat → Energy)]]}}
-{{Organelles1
-|row1=1
-|name=Vacuole
-|icon=[[file:vacuole.png|center]]
-|size= 1 hex
 |cost= 30 MP
+|uses=Produces Glucose [[File:GlucoseIcon.png|20px]]. Rate scales with concentration of Carbon Dioxide [[File:CO2.png|22px]] and intensity of Light [[File:Light.png|22px]]
-|uses=Stores compounds for the cell to use later
+|desc=A double membrane structure with photosensitive pigments stacked together in membranous sacks. A prokaryote assimilated by an eukaryotic host. Its pigments use sunlight to convert water and CO2 into glucose through Photosynthesis. These pigments also give it its distinctive green color.
-|desc=Vacuoles are where compounds are stored. Having more means more compounds can be stored at once.
+|process = [[Compounds|(Sunlight + CO2 → Oxygen + Glucose)]]|pname = Photosynthesis|p1 = +0,05 [[File:GlucoseIcon.png|20px]] /second @ 9% [[File:CO2.png|22px]] , 100% [[File:Light.png|22px]]|storage = +2|osmoreg = +3}}
-}}
+{{Organelles
+|name=Thermoplast (WIP)
+|icon=[[file:chloro.png|center|60px]]|cost= 40 MP|uses=Produces Glucose [[File:GlucoseIcon.png|20px]]. Rate scales with concentration of Carbon Dioxide [[File:CO2.png|22px]] and Temperature [[File:Temperature.png|22px]]
+|desc=A double membrane structure with thermosensitive pigments stacked together in membranous sacks. A prokaryote assimilated by an eukaryotic host. Its pigments uses the energy of heat differences in the surroundings to convert water and CO2 into glucose in a process called Thermosynthesis.
+|process = [[Compounds|(Heat → Energy)]]|pname = |p1 = }}
+{{Organelles|name = Chemoplast|cost = 45|uses = Turns Hydrogen Sulfide [[File:HydrogenSulfide.png|20px]] into Glucose [[File:GlucoseIcon.png|20px]] . Rate scales with concentration of Carbon Dioxide [[File:CO2.png|22px]]|desc = A double membrane structure with proteins that can hydrogen sulfide, water and CO2 into glucose, in a process called Hydrogen Sulfide Chemo Synthesis.|icon = [[File:ChemoplastIcon.png|center|60px]]|pname = Chemo Synthesis|p1 = 0,03 [[File:HydrogenSulfide.png|20px]] → 0,04 [[File:GlucoseIcon.png|20px]] /second @ 21% [[File:CO2.png|22px]]|storage = +1}}
+{{Organelles|name = Nitrogen Fixing Plastid|icon = [[File:NitroplastidIcon.png|center|60px]]|cost = 50|uses = Converts ATP [[File:ATP.png|20px]] into Ammonia [[File:AmmoniaIcon.png|20px]] . Scales with concentration of Oxygen [[File:OxygenIcon.png|22px]] and Nitrogen [[File:Nitrogen.png|22px]]|desc = A protein capable of using gaseous nitrogen and oxygen with ATP to produce ammonia. This process is know as Aerobic Nitrogen Fixation.|pname = Aerobic Nitrogen Fixing|p1 = 1,75 [[File:ATP.png|20px]] → 0,02 [[File:AmmoniaIcon.png|20px]] /second @ 70%  [[File:OxygenIcon.png|22px]] , 21% [[File:Nitrogen.png|22px]]|storage = +2|osmoreg = +2}}
+{{Organelles
+|row1=
+|name=Vacuole|icon=[[file:vacuole.png|center]]|cost= 30 MP|uses=Increases the storage space of the cell.
+|desc=A membranous organelle used for storage in teh cell. It is composed of several vesicles, smaller membrous structures widely used in cells for storage, which have fused together. It is filed with water which is used to contain molecules, enzymes, solids and other substances.
+|pname = |p1 = |storage = +15}}
 {{Organelles
 |row1=1
 |name=Toxin Vacuole
-|icon=[[file:ToxinVacuole.png|center]]
+|icon=[[file:ToxinVacuoleIcon.png|60px]]|cost= 80 MP
+|uses=Turns ATP [[File:ATP.png|20px]] into OxyToxy [[FIle:OxyToxy.png|20px]] . Rate scales with concentration of Oxygen [[File:OxygenIcon.png|22px]]
-|size= 2 hexes
+|desc=A vacuole modified specifically to produce, store and secrete of OxyToxy toxins. More toxin vacuoles will increase the rate at which toxins can be released.
-|cost= 80 MP
-|uses=[[OxyToxy_Synthesis| OxyToxy Synthesis]]
+|pname= OxyToxy Synthesis
+|p1= 1,05 [[File:ATP.png|20px]] → 0,31 [[FIle:OxyToxy.png|20px]] /second @ 21% [[File:OxygenIcon.png|22px]]
-|process=[[Compounds|(3 Oxygen → OxyToxy)]]
+|storage = +5}}
-|desc=Produces the toxin OxyToxyNT. By pressing E, you'll release a single OxyToxy which damages other cells.
+{{Organelles
-}}
-{{Organelles1
 |name=Bioluminescent Vacuole
-|icon=[[file:Biolumescent_Org.png|center]]
+|icon=[[file:Biolumescent_Org.png|center]]|cost= TBD|uses=Bioluminescence.|pname=
-|size= ? hexes
-|cost= N/A MP
-|uses=Bioluminescence
 |desc=
+|storage=
-}}
+|osmoreg=
-== External Organelles ==
+|p1 = }}
-Organelles that go on the outside of the cell.
-{{Organelles1
-|name=Flagellum
-|icon=[[file:Flagella.png|center]]
-|size= 1 hex (external)
-|cost= 30 MP
-|uses=Movement
-|desc=Flagella are the basic movement parts of microbes. They allow your microbe to move faster, but also take up more ATP for each consecutively added flagella.
-}}
-{{Organelles1
-|name=Predatory Pillus
-|icon=[[file:PredatoryPillus.png|center]]
-|size= 1 hex (external)
-|cost= 30 MP
-|uses=Attacking other cells.
-|desc=The predatory pilus is an appendage found on the surface of certain microbes. It inflicts damage to other microbes.
-}}
-== Nucleus ==
-The Nucleus is the centre of the cell, and is responsible for containing the genetic information of eukaryotic cells as well as producing proteins. Every eukaryotic has has exactly one nucleus; additional nuclei can not be added. Prokaryotes such as bacteria don't have a nucleus.
-{{Organelles
-|name=Nucleus
-|icon=No image available
-|size= 10 hexes
-|cost= N/A MP
-|uses=[[Amino Acid Synthesis]]
-|process=[[Compounds|(Glucose + Ammonia → CO2 + 2 ATP + Amino Acids)]]
-|desc=The nucleus carries the genetic information of the cell. It comes with two attached organelles: the endoplasmic reticulum, and the golgi apparatus
-}}
 [[Category:Mechanics]]
 [[Category:Microbe Stage]]