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Anoxygenic Phototrophic Bacteria01:28

Anoxygenic Phototrophic Bacteria

63
Anoxygenic phototrophic bacteria are a diverse group of microorganisms that perform photosynthesis without producing oxygen. They primarily include purple sulfur bacteria, purple nonsulfur bacteria, green sulfur bacteria, and green nonsulfur bacteria. These bacteria are classified into the Gammaproteobacteria, Alphaproteobacteria, Betaproteobacteria, Chlorobi, and Chloroflexi lineages, each with distinct physiological and ecological adaptations.Purple sulfur bacteria belong to the...
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Anoxygenic Photosynthesis01:30

Anoxygenic Photosynthesis

54
Anoxygenic photosynthesis is a phototrophic process that captures light energy to drive carbon fixation without producing molecular oxygen. Unlike oxygenic photosynthesis, which utilizes water as an electron donor and releases oxygen, anoxygenic phototrophs use alternative electron donors such as hydrogen sulfide (H₂S), elemental sulfur (S⁰), or thiosulfate (S₂O₃²⁻). This process is carried out by diverse groups of bacteria, including purple bacteria, green...
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Bacterial Phylum Cyanobacteria01:30

Bacterial Phylum Cyanobacteria

45
Cyanobacteria are a diverse group of oxygenic, phototrophic bacteria that played a pivotal role in converting Earth’s atmosphere from anoxic to oxygen-rich billions of years ago. They exhibit remarkable morphological diversity, ranging from unicellular forms to filamentous types, with cell sizes varying between 0.5 μm and 100 μm. Cyanobacteria are classified into five groups: Chroococcales (unicellular, dividing by binary fission), Pleurocapsales (unicellular, dividing by...
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Oxygenic Photosynthesis01:26

Oxygenic Photosynthesis

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Oxygenic photosynthesis is a fundamental process in which light energy is harnessed to drive the oxidation of water, leading to the production of molecular oxygen (O₂), adenosine triphosphate (ATP), and nicotinamide adenine dinucleotide phosphate (NADPH). This process is essential for sustaining aerobic life on Earth and is primarily carried out by cyanobacteria, algae, and plants. The core of oxygenic photosynthesis lies in the thylakoid membranes, where chlorophyll pigments facilitate...
47
Microbial Nutrition01:28

Microbial Nutrition

117
Organisms exhibit remarkable metabolic diversity, categorized based on how they acquire energy and carbon. These strategies enable survival in various ecological niches and are essential for maintaining energy flow and nutrient cycling within ecosystems.Energy and Carbon SourcesOrganisms are classified as phototrophs or chemotrophs based on energy acquisition. Phototrophs use light as their energy source, while chemotrophs rely on oxidizing chemical compounds. Further differentiation arises...
117
Hyperthermophilic Bacteria01:21

Hyperthermophilic Bacteria

37
Domain Bacteria includes some unique hyperthermophilic species. They exhibit remarkable adaptations that enable survival in extreme environments.Thermotoga species are rod-shaped, gram-negative, non-sporulating hyperthermophiles that form a sheath-like envelope called a toga. They ferment sugars or starch, producing lactate, acetate, CO₂, and H₂, and can also grow via anaerobic respiration using H₂ and ferric iron. Found in hot springs and hydrothermal vents, over 20% of their...
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Related Experiment Video

Updated: Jul 27, 2025

Photobleaching Enables Super-resolution Imaging of the FtsZ Ring in the Cyanobacterium Prochlorococcus
10:09

Photobleaching Enables Super-resolution Imaging of the FtsZ Ring in the Cyanobacterium Prochlorococcus

Published on: November 6, 2018

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The phototrophic bacteria

Eric M Conners, Karthikeyan Rengasamy, Arpita Bose

    Biorxiv : the Preprint Server for Biology
    |June 9, 2023
    PubMed
    Summary

    This study explores sustainable bioplastics production by identifying novel bacterial chassis. Rhodomicrobium bacteria efficiently produce polyhydroxybutyrate (PHB) under various conditions, offering a promising alternative to petroleum plastics.

    Area of Science:

    • Microbiology
    • Biotechnology
    • Sustainable Materials

    Background:

    • Polyhydroxybutyrate (PHB) is a biodegradable bioplastic, but industrial-scale production faces challenges with yield and cost.
    • Novel biological chassis are needed to improve PHB production efficiency using sustainable resources.

    Approach:

    • This study investigates PHB production in two previously uncharacterized prosthecate photosynthetic purple non-sulfur bacteria (PNSB): Rhodomicrobium vannielii and Rhodomicrobium udaipurense.
    • PHB production was assessed across four distinct growth conditions: photoheterotrophic, photoautotrophic, photoferrotrophic, and photoelectrotrophic.

    Key Points:

    • Both Rhodomicrobium species successfully produced PHB under all tested growth conditions.
    • The highest PHB titers (44.08 mg/L) were achieved during photoheterotrophic growth using butyrate and dinitrogen gas.

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    Photobleaching Enables Super-resolution Imaging of the FtsZ Ring in the Cyanobacterium Prochlorococcus
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  • Electron yields were notably high during photoautotrophic growth with hydrogen or ferrous iron, exceeding those in Rhodopseudomonas palustris TIE-1.
  • Conclusions:

    • Rhodomicrobium species represent promising, underexplored biological chassis for sustainable PHB production.
    • Exploring non-model organisms is crucial for advancing bioplastic manufacturing and overcoming current production limitations.