Q.4 Bacterial species showing several flagella at one pole are called: Monotrichous Lophotrichous Amphitrichous Peritrichous

Q.4 Bacterial species showing several flagella at one pole are called:

  1. Monotrichous
  2. Lophotrichous
  3. Amphitrichous
  4. Peritrichous

    Lophotrichous bacteria have several flagella clustered at one pole, enabling rapid directional motility through bundled rotation.

    Question Breakdown

    Bacterial flagella arrangements classify motility patterns based on number and position, crucial for taxis (chemotaxis/phototaxis) in microbiology. The query specifies “several flagella at one pole,” distinguishing polar tuft arrangements from others.

    Option Analysis

    Monotrichous

    Monotrichous bacteria bear a single flagellum at one pole (e.g., Vibrio cholerae). It propels via simple rotation, not a tuft of multiple flagella.

    Lophotrichous

    Lophotrichous describes multiple flagella (tuft or bundle) at one pole (sometimes both), as in Spirillum volutans or Pseudomonas. Bundling allows high-speed swimming by synchronized waves.

    Amphitrichous

    Amphitrichous bacteria have one flagellum (or rarely more) at each pole (e.g., Alcaligenes faecalis), enabling push-pull movement, not several at one end.

    Peritrichous

    Peritrichous feature flagella distributed over the entire cell surface (e.g., Escherichia coli, Salmonella). They run/tumble via random bundling.

    Correct Answer: Lophotrichous – Matches “several flagella at one pole” precisely.

    Bacterial species showing several flagella at one pole are classified as lophotrichous, featuring a polar tuft for enhanced motility in aquatic environments. This arrangement optimizes chemotaxis, vital for microbial ecology and pathogenesis studies.

    Flagella Arrangement Types

    Bacterial motility hinges on flagellar distribution:

    • Monotrichous: Single polar flagellum.

    • Lophotrichous: Tuft at one pole (e.g., Helicobacter).

    • Amphitrichous: Flagella at both poles.

    • Peritrichous: All over body.

    Lophotrichous bundles rotate clockwise/counterclockwise for smooth runs.

    Biological Significance

    Polar tufts enable faster speeds than monotrichous (up to 100 μm/s), aiding evasion or nutrient seeking. Relevant to your microbiology focus, observed via electron microscopy post-staining.

    Type Flagella Position Examples
    Monotrichous One at one pole Vibrio cholerae
    Lophotrichous Several at one pole Spirillum
    Amphitrichous One at each pole Alcaligenes
    Peritrichous All over surface E. coli

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