4B. Microbial Diversity - Archaea Flashcards

1
Q

Eukarchaeota (phylum)

A

extreme halophiles

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2
Q

Haloarchaea (genus) - phylum, old name, example, location, pH

A
  • PHYLUM: euryarchaeota
  • OLD: halobacteria
    ex) halobacterium salinarum
  • needs high salt concentration
  • 9% of NaCl for growth (can’t even grow in mannitol salt cuz it’s only 7.5%)
  • LOCATION: solar salt evaporation ponds and salt lakes
  • pH: alkaliphiles because these ponds and lakes are high in alkaline
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3
Q

adaptations for haloarchaea (genus)

A
  • needed for highly ionic environments
  • usually achieved by accumulation or synthesis of compatible solutes
  • pumps large amounts of K+ into the cell from the environment
  • intracellular K+ concentration exceeds extracellular Na+ concentration
  • water flows into the cell in hypersaline environments
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4
Q

Energy system in haloarchaea (genus)

A
  • light driven synthesis of ATP without the use of chlorophylls
    they use a pigment instead (bacteriorhodopsin):
  • integral membrane protein
  • absorbs light energy and pumps protons across the membrane to make a PMF
  • PMF used to generate ATP
  • do not fix CO2 therefore photoheterotrophy (gets energy from light and pre-existing carbon)
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5
Q

Methanogenic archaea (genus) - phylum, oxygen, energy, defining features

A
  • PHYLUM: euryarchaeota
  • ENERGY: chemolithoautotrops
  • OXYGEN: strict anaerobes (cows gut, sewage sludge)
  • only microbes capable of significant methane production
  • produce the bulk CH4 in the atmosphere - GHG
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6
Q

Cell wall in methanogenic archaea (genus)

A
  • pseudomurein
  • methanobacterium - only they have this
  • most other types of methanogens have S-layer made of protein or glycoprotein as their cell wall
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7
Q

thaumarchaeota (genus) - defining features, example, oxygen, energy, location

A
  • accomplishes nitrification
  • converts NH3 into NO2 for energy
  • uses CO2 for carbon
    ex) nitrosopumilus maritimus
    OXYGEN: aerobic
    ENERGY: ammonia oxidizing chemolithoautotroph (gets energy from inorganic chemicals)
    LOCATION: abundant in open ocean water
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8
Q

nanoarchaeota (phylum) - example, defining features

A

nanoarchaeum equitans
- smallest cellular organism
- obligate parasite of the crenarchaeote - ignicoccus
- contains one of the smallest genomes known - lacks genes for all but core molecular processes
- depends upon host for most of it’s cellular needs

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9
Q

korarchaeota (phylum): example, oxygen, energy, location, defining features

A

Korarchaeum cryptofilum
- OXYGEN: obligately anaerobic
- ENERGY: chemoorganotroph
- LOCATION: - depends on other members of hot springs community
- still can’t be grown in pure culture
- hyperthermophile
- cells are long, thin filaments
- lack many core genes

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10
Q

crenarchaeota (phylum): energy, defining features

A

ENERGY: chemoorganotrophs or chemolithotrophs - most use sulfur in their metabolism
- most are hyperthermophiles (hot springs, deep ocean vents
- other representatives are found in extremely cold environments

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11
Q

crenarchaeota (phylum): example, oxygen, energy, defining features

A

sulfolobus acidocaldarius grows in sulfur-rich acidic hot springs
- hyperthermophile and acidophile
- OXYGEN: aerobic
- ENERGY: chemolithotroph (inorganic chemicals for energy) that oxidizes reduces sulfur or iron

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12
Q

asgard superphylum of archaea

A
  • only known from sequence of metagenomes
  • version of genes previously thought to be euk-specific
  • first time cultured in a lab in 2020
  • 10 years to isolate and grow
  • syntrophic growth: will only grow in the presence of another bacteria
  • amorphus
  • leads to hypothetical eukaryogenesis theory
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