Difference between revisions of "Saunvare"
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== Domains == | == Domains == | ||
[[File:Saunvare_domain_cladogram.png|400px|thumb|left|The distance from the left roughly indicates how old each split is.]] | [[File:Saunvare_domain_cladogram.png|400px|thumb|left|The distance from the left roughly indicates how old each split is.]] | ||
− | Saunvare has | + | Saunvare has five main domains of life, two of which have multicellular creatures within them. A very large split is present in lifeforms on Saunvare, being divided into DNA-using life and RNA-using life. They live mostly in seclusion from each other, giving Saunvare the appearance as if it is two different planets on one. |
=== Bacterons === | === Bacterons === | ||
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Archaeons are similar to bacterons in that they also are unicellular and have few organelles. But, they use RNA to store genetic information and perform enzymatic work. They often have few proteins but these proteins are consistent across species as they are used in processing waste. They exist in a variety of environments toxic to all higher life on Saunvare and are the main source of Saunvare's large proportions of methane in its atmosphere. | Archaeons are similar to bacterons in that they also are unicellular and have few organelles. But, they use RNA to store genetic information and perform enzymatic work. They often have few proteins but these proteins are consistent across species as they are used in processing waste. They exist in a variety of environments toxic to all higher life on Saunvare and are the main source of Saunvare's large proportions of methane in its atmosphere. | ||
− | === | + | === Edgiocia === |
− | + | Pronunciation: (English Phonetic: e-jē-'ō-kī-uh IPA/GA: ɛdʒiː'oʊkiːə). The edgiocia domain uses PNA to store genetic information and reproduces by asexual reproduction. All edgiocia organisms are unicellular and contain no organelles. They can live anywhere in the world due to the stable nature of PNA, and are common in the guts of peptidoseukaryotes. | |
− | === | + | === Peptidoseukaryota === |
− | + | Genetic information in peptidoseukaryota is carried by PNA. These cells often have more organelles than archaeons and bacterons, but some species do lack organelles, especially those more adapted for parasitism. Peptidoseukaryota contains almost all multicellular life on Saunvare, containing all photosynthetic multicellular creatures along with several other kingdoms, some of which have photosynthetic clades within them. They are the most common in the tropics and in the oceans and are often more dependent on water than deoxsyeukaryota. | |
+ | |||
+ | === Deoxyseukaryota === | ||
+ | |||
+ | Deoxyseukaryota uses DNA to carry genetic information, the equivalent of bacterons. Their forms between the northern and southern hemisphere are wildly different, especially for those who cannot fly. Their cells are often much larger than peptidoseukaryotae with larger genomes, but they are limited in their distribution. A number of them are multicellular creatures. They are much less numerous than peptidoseukaryota and mainly occupy polar regions and the air. | ||
= Solar System = | = Solar System = | ||
[[Heavna system]] | [[Heavna system]] |
Revision as of 12:40, 10 November 2015
Saunvare is a planet with life, but is uninhabitable by humans except for on high peaks. Its temperatures are very warm compared with Earth, with an average global temperature around 51 degrees Celsius (124°F). Most of its life is bizarrely unlike our own, with a variety of adaptations to the extreme global heat.
Contents
Climate
Lifeforms
Domains
Saunvare has five main domains of life, two of which have multicellular creatures within them. A very large split is present in lifeforms on Saunvare, being divided into DNA-using life and RNA-using life. They live mostly in seclusion from each other, giving Saunvare the appearance as if it is two different planets on one.
Bacterons
All bacterons are unicellular, have few organelles, and use DNA to code genetic information. They are generally small, simple cells which live mainly high in the atmosphere, on mountain peaks, and in polar regions due to the temperatures of the tropics being so high as to denature DNA, especially in deserts. A few species of bacterons can function properly with single-stranded DNA, but they have much smaller genomes than those with double-stranded DNA.
Archaeons
Archaeons are similar to bacterons in that they also are unicellular and have few organelles. But, they use RNA to store genetic information and perform enzymatic work. They often have few proteins but these proteins are consistent across species as they are used in processing waste. They exist in a variety of environments toxic to all higher life on Saunvare and are the main source of Saunvare's large proportions of methane in its atmosphere.
Edgiocia
Pronunciation: (English Phonetic: e-jē-'ō-kī-uh IPA/GA: ɛdʒiː'oʊkiːə). The edgiocia domain uses PNA to store genetic information and reproduces by asexual reproduction. All edgiocia organisms are unicellular and contain no organelles. They can live anywhere in the world due to the stable nature of PNA, and are common in the guts of peptidoseukaryotes.
Peptidoseukaryota
Genetic information in peptidoseukaryota is carried by PNA. These cells often have more organelles than archaeons and bacterons, but some species do lack organelles, especially those more adapted for parasitism. Peptidoseukaryota contains almost all multicellular life on Saunvare, containing all photosynthetic multicellular creatures along with several other kingdoms, some of which have photosynthetic clades within them. They are the most common in the tropics and in the oceans and are often more dependent on water than deoxsyeukaryota.
Deoxyseukaryota
Deoxyseukaryota uses DNA to carry genetic information, the equivalent of bacterons. Their forms between the northern and southern hemisphere are wildly different, especially for those who cannot fly. Their cells are often much larger than peptidoseukaryotae with larger genomes, but they are limited in their distribution. A number of them are multicellular creatures. They are much less numerous than peptidoseukaryota and mainly occupy polar regions and the air.