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Chloroflexi

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Forms massive accumulations as mats in ... like purple bacteria, but with one BChl replaced by BPhe ... BChl c, d, e (a little BChl a is attached) Carotenes ... – PowerPoint PPT presentation

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Title: Chloroflexi


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Chloroflexi
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Chloroflexus aurantiacus
  • Filamentous gliding phototroph
  • Thermophilic (50-60 C)
  • higher temperatures than any other anoxygenic
    phototroph
  • Forms massive accumulations as mats in neutral to
    alkaline hot springs
  • usually found as lower layer of microbial
    mat,with cyanobacteria growing in layers above
    it
  • may be found alone in springs high in sulfide

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Chloroflexus aurantiacus
  • Grows primarily as a photoheterotroph
  • Electron donors
  • organic products of cyanobacteria
  • hydrogen
  • sulfide
  • The CO2 fixation mechanism
  • lack ribulose bisphosphate carboxylase activity
  • 3-hydroxypropionate pathway
  • unique among all phototrophs
  • The light-harvesting apparatus chlorosomes
  • like green sulfur bacteria, but smaller
  • Reaction center type 2
  • like purple bacteria, but with one BChl replaced
    by BPhe
  • lack internal membranes typical of the purple
    bacteria.

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Types of (Bacterio)Chlorophyll
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Chlorosomes
  • Big bags of lipid pigment
  • BChl c, d, e (a little BChl a is attached)
  • Carotenes
  • Lipids glycolipids, phospholipids, wax esters
  • Very little protein (10 different polypeptides,
    not required for spectral properties)
  • Seem to self-assemble
  • Not a lipid bilayer
  • Very fast efficient energy transfer
  • A single chlorosome may be attached to as many as
    100 reaction centers.

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Chlorosome model (Chlorobium)
Don Bryant
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Alfred Holzwarth
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Bacterial photosynthesis
  • Except for the cyanobacteria, all other
    photosynthetic bacteria are anoxygenic (they do
    not produce oxygen).
  • They contain a reaction center of either type 1
    or type 2 and a cytochrome bc complex.
  • With this arrangement, they are able to perform
    cyclic electron flow to produce a H
    electrochemical gradient.
  • This is sufficient to produce ATP, but there is
    no net reduction of NAD(P)H.
  • The ways in which the 2 types of organisms carry
    out cyclic electron flow are different, depending
    upon the type of reaction center (RC).

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Bacterial photosynthesis
  • Type 2 RC
  • reduces the mobile quinone
  • Quinol is oxidized by cyt bc
  • Electrons passed to cyt c
  • cyt c re-reduces the primary donor of the RC

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Bacterial photosynthesis
  • Type 1 RC
  • RC reduces ferredoxin
  • FdNAD oxidoreductase (FNR) passes electrons to
    NAD
  • Type 2 RC
  • also contain a NADHquinone oxidoreductase
    (a.k.a. NADH dehydrogenase).
  • Oxidation of quinones drives proton pumping.
  • When the proton gradient gets large enough, the
    reverse reaction becomes favorable with
    dissipation of the proton gradient.

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Comparing type 1 and type 2 RCs

BPhe
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Comparing type 1 and type 2 RCs

BPhe
H2
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