Chapter 11 - The Diversity of Prokaryotic Organisms
fruiting body
(1) In myxobacteria, a complex aggregate of cells, visible to the naked eye, produced when nutrients or water are depleted; (2) in fungi, a specialized spore-producing structure.
enterics
A common name for members of the family Enterobacteriaceae. gram - rods, faculative anaerobes that ferment glucose and if motile,generally have peritrichous flagella
anoxygenic phototrophs
Photosynthetic organisms that do not produce O2
anoxygenic phototrophs
Photosynthetic organisms that do not produce O2.
prosthecate bacteria
a diverse group of gram - bacteria that have projections called prosthecae, which are extensions of the cytoplasm and cell wall
nitrifiers
a diverse group of gram - bacteria that obtain energy by oxidizing inorganic nitrogen compounds such as ammonium or nitrite
myxobacteria
a group pf gram- rods that have a unique development cycle as well as a resting stage. can digest bacteria and certain algae and fungi
what are propionibacterium valuable for ?
dairy industry because their fermentation end products are important in Swiss cheese production
nitrogenase
enzyme comples that catalyzes nitrogen fixation
rhizobium
form a mutually beneficial relationship with certain types of plants. gram - rod shaped bacteria that often fix nitrogen and form intimate relationships with legumes
agrobacterium
plant pathogens that cause tumor-like growths. gram- rod shaped bacteria that have unusual mechanism of gaining a competitive advantage in soil
caulobacter
serve as a model for research on cellular differentiation . have a single polar prostheca
hyphomicrobium
similar to caulobacter species, but have a distinct method of reproduction
bordetella
small, gram- coccobacilli that only grow aerobically
methanogens
a group of archaea that generate ATP by oxidizing hydrogen gas using CO2 as a terminal electron acceptor. generate methane
spirochetes
a group of gram- bacteria with a spiral shape and a unique motility mechanis, that allows them to move through thick, viscous substances such as mud
nitrogen fixation
ability to convert nitrogen gas to ammonia, which can the be incorporated into cell material.
extreme halophiles
aerobic or facultatively anaerobic chemoheterotrophs but some also obtain additional energy from light. found in high numbers in salty environments
neisseria
gram- bacteria, typically kidney-bean shaped cocci in pairs, typically aerobes but some an grow anaerobically if suitable terminal electron acceptor such as nitrite is present
haemophilus
gram- coccobacilli, "blood loving"
purple bacteria
gram- organisms that appear red, orange, or purple due to their light-harvesting pigments
green bacteria
gram- organisms that are typically green or brownish in color
azotobacter
gram- pleomorphic rod-shaped bacteria that live in soil
cyanobacteria
gram-negative oxygenic phototrophs; genetically related to chloroplasts
cyanobacteria
a diverse group of photosynthetic gam- bacteria that inhabit a wide range of environments, including freshwater and marine habitats, soils, and the surfaces of rocks
nitrite oxidizers
Nitrobacter and Nitrococcus convert nitrite to nitrate
ammonia oxidizers
Nitrosomonas and Nitrosococcus convert ammonium to nitrite
primary producers
Organisms that convert CO2 into organic compounds, sustaining other forms of life.
obligate intracellular parasites
Organisms that grow only inside living cells.
Chemolithotrophs
Organisms that harvest energy by oxidizing inorganic chemicals
chemoorganotrophs
Organisms that harvest energy by oxidizing organic chemicals
spirillum species
large gram- spiral shaped microaerophilic bacteria
thioploca and thimargarita
live in marine environments and store both sulfur and nitrate
spirochetes
long, helical bacteria that have flexible cell walls and endoflagella
methane-generating hyperthermophiles
methanothermus, an extreme thermophile
chemoorganotrophs
oxidize organic compounds such as glucose to obtain energy
bioluminescent bacteria
Bacteria that are capable of emitting light (luminescence), a reaction catalysed by the enzyme luciferase. They are predominantly marine, usually associated with fish or squid. Light emission is regulated by quorum sensing.
diseases caused by clostridium
C. tetani, C. perfringens, C. botulinum
coliforms
Facultative, non-spore-forming, Gram-negative rods that ferment lactose, producing acid and gas within 48 hours at 35°C; most reside in the intestine, so they are used as indicators of fecal pollution;
lactic acid bacteria
Gram-positive bacteria that generate lactic acid as a major end product of their fermentative metabolism.
methanogens
archaea that obtain energy by oxidizing hydrogen gas, using CO2 as a terminal electron acceptor, thereby generating methane
campylobacter and helicobacter
are microaerophilic curved gram- rods
endospore formers
bacillus and clostridia are most common gram + rod-shaped bacteria
genera of green sulfur bacteria
chlorobium and pelodictyon
clostridium and clostridiodes are members of what genera?
clostridia and are gram + that can form endospores
legionella
common in aquatic environments where they often live within protozoa. gram - obligate aerobes that us amino acids, but not carbohydrates as a source of carbon and energy
megnetotactic bacteria
contain a string of magnetic crystals that align cells with the earth's magentism. gram- spiral shaped organisms
sheathed bacteria
form chains of cells encases within a tube or sheath. sheath plays a protective role helping bacteria attach to solid objects in favorable habitats while sheltering them from attack by predators
filamentous anoxygenic phototrophic bacteria
form multicellular arrangements and exhibit gliding motility. members of the genus chloroflexus, particularly thermophilic strains that grow in hot springs. have chromosomes; diverse metabolically.
acidithiobacillus
found in both terrestrial and aquatic habitats, where their ability to oxidize metal sulfides can be used to recover metals
green sulfur bacteria
found in habitats similar to those preferred by purple sulfur bacteria
extreme thermophiles
found near volcanic vents and fissures that release sulfurous gases.
genus Micrococcus
gram + cocci found in soil and on dust particles, inaminate objects, and skin
hydrogen-oxidizing bacteria
gram - genera Aquifex and Hydrogenobacter; obligate chemolithotrophs, thermophilic
sulfur-oxidizing bacteria
gram - rods or spirals, which sometimes grow in filaments. obtain energy by oxidizing elemental sulfur and reduced sulfur compounds, including hydrogen sulfide and thiosulfate. O2 serves as a terminal electron acceptor, generating sulfuric acid
purple non-sulfur bacteria
grow as phototrophs using organic molecules as a source of electrons, and many can use a metabolism similar to purple sulfur bacteria, using hydrogen gas or hydrogen sulfide as an electron source
purple sulfur bacteria
grown as colored masses in sulfur-rich aquatic habitats. are large and some are motile by flagella. preferentially use hydrogen sulfide to generate reducing power, or some can use other inorganic molecules or organic compounds such as pyruvate
Bdellovibrio
highly motile gram negative curved rods that prey on E. coli and other gram - bacteria
bacillus
include both obligate anaerobes and facultative anaerobes
streptomyces
includes more than 500 species of aerobic gram+ bacteria that resemble fungi in their pattern of growth. form mycelium. are prokaryotes
nitrogren-fixating cyanobacteria
incorporate both N2 and CO2 into organic material, so they generate a form of these nutrients that can be used by other organisms
wolbachia
infect anthropods and parasitic worms. transmitted maternally through eggs of infected females to offspring
chlamydia and chlamydophila
initially exist as non-infectious reticulate bodies, which reproduce by binary fission.
mycoplasma
lack a cell wall
anoxic
lacked O2
clostridia
obligate anaerobes
coxiella
obligate intracellular bacterium that survives well outside the host cell. forms spore-like structures called small-cell variants. resistant to heat and disinfectants
many types of anaerobic bacteria...
obtain energy by fermentation, producing ATP only by substrate-level phosphorylation
chemolithotrophs
obtain energy by oxidizing inorganic chemicals such as H2
aerobic chemolithotrophs
obtain energy by oxidizing reduced inorganic chemicals, using O2 as a terminal electron acceptor
obligate aerobes
obtain energy using respiration exclusively; none of them can ferment
Bdellovibrio species, bioluminescnet bacteria, epulopiscium species, and legionella species
obtain nutrients from other organisms
chemotrophs
organisms that harvest energy by oxidizing chemicals
bacteroides
small, strictly anaerobic, gram- rods and coccobacilli
treponema and borrelia
spirochetes that typically inhabit body fluids and mucous membranes of humans and other animals, gram - cell wall.
genera lactic acid bacteria
streptococcus, enterococcus, lactococcus, lactobacillus, and leuconostoc
thermus (genera)
thermophilic, unusual cell wall and stain gram -
when sulfur compounds are used as terminal electron acceptors...
they become reduced to form hydrogen sulfide
vibrio
typically found in marine environments, gram- straint or clightly curved rods and are facultative anaerobes. pathogens include V. cholerae, V. parahaemolyticus, and V. vulnifcus
deinococcus
unusual cell wall has multiple layers and stain gram +, resistant to damaging effects of gamma radiation
facultative anaerobes
use aerobic respiration if O2 is available, as an alternative they can ferment
oxygenic phototrophs
use water as a source of electrons for reducing power, generating O2
nitrifiers
gram- bacteria that obtain energy by oxidizing inorganic nitrogen compounds such as ammonium or nitrite
staphylococcus
facultatively anaerobic gram+ cocci, catalase positive
beggiatoa and thiothrix
filamentous sulfur oxidizers that live in sulfur springs, in sewage-polluted waters, and on surface of marine and freshwater sediments
pseudomonas
gram - rods that have polar flagella and often produce pigments. do not ferment and are oxidase-positive. resistant to many disinfectants and antimicrobial medications
lactic acid bacteria
gram+ bacteria that produce lactic acid as a major and product of their fermentative metabolism
Epulopiscium
gram+ cigar shaped bacteria that live in the intestinal tract of surgeonfish. larger than prokaryotes and each cell has thousands of copies of the chromosome scattered throughout the cell
heliobacterium
gram+ endospore forming rods related to members of the genus clostridium
Corynebacterium
gram+ pleomorphic rids (club shaped) and arranged to form V shapes or palisades (coryneforms)
propionibacterium
gram+ pleomorphic rods that produce propionic acid as their main fermentation end product
bifidobacterium
gram+, irregular, rod-shaped anaerobes that reside primarily in the intestinal tract of humans and other animals
myxobacteria
gram- bacteria that form complex multicellular structures called fruiting bodies
sulfur-oxidizing bacteria
gram- bacteria that obtain energy by oxidizing elemental sulfur and reduced sulfur compunds, generating sulfuric acid
aerobic chemoorganotrophs
oxidize organic compounds to obtain energy, using O2 as a terminal electron acceptor
oxygenic phototrophs
photosynthetic organisms that produce O2
rickettsia, orientia and ehrlichia
responisble for several serious human diseases spread by blood sucking arthropods such as ticks and lice
filamentous cyanobacteria
responsible for maintaining the structure and productivity of soils in cold desert areas. provide an important source of nitrogen and organic carbon
genera of purple non-sulfur bacteria
rhodobacter and rhodopseudomonas
Mycobacterium
widespread in nature and include harmless saprotrophs, which use nutrients from dead and decaying organic matter, as well as pathogens. needs acid-fast procedure