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Flagella

microbiology Notes
microbiology Notes

Detailed study of Bactrial Flagella

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ULTRA STRUCTURE OF FLAGELLA SUBMITTED BY Vivek kumar MSc . MICROBIOLOGY Bangalore university
FLAGELLAR ULTRA STRUCTURE  Bacterial flagellum is composed of three parts.  1) FILAMENT The longest and most obvious portion, which extends from the cell surface to the tip.  2) BASAL BODY The portion embedded in the cell.  3) HOOK A short, curved segment ,links the filament to its basal body and act as a flexible coupling.
FILAMENT  It is a hollow, rigid cylinder constructed of a single protein called flagellin.  Flagellin have a molecular weight ranging from 30,000 to 60,000.  The filament ends with a capping protein.  Some bacteria have sheaths surrounding their flagella.
BASAL BODY  It is the most complex part of a flagellum.  In gram negative bacteria, the body has 4 rings connected to a central rod.  The outer L ring is associate with lipopolysaccharide.  The P ring is associate with the peptidoglycan layers.  The inner M ring connects the plasma membrane.
HOOK  It is quite different from filament.  It is slightly wider than the filament.  Hook is made up of different protein subunits.
 Gram positive bacteria have only 2 basal body rings.  An inner ring is connected to the plasma membrane.  An outer ring probably attached to the peptidoglycan layer.
 Sometimes the flagellum will have lateral hairs called flimmer filaments.  The thicker, stiffer hair are called mastigonemes.  These filaments change the flagella action.  so that a wave moving down the filament towards the tip pulls the cell along instead of pushing it.  Such a flagellum is called tinsel flagellum.  The naked flagellum is called whiplash flagellum.
FLAGELLAAND MOTILITY  Most motile bacteria move by use of flagella.  Its a thread like locomotor appendages extending outward from the plasma membrane and the cell wall.  They are slender, rigid structures, about 20 μm long.  Flagella can be observed by using special staining techniques.
FLAGELLAR ARRANGEMENTS MONOTRCHOUS FLAGELLA Having one flagellum. If it is located at an end it is called polar flagellum. AMPHITRICHOUS FLAGELLA Have a single flagellum at each pole. LOPHOTRICHOUS FLAGELLA Have a cluster of flagella at one or both ends. PERITRICHOUS FLAGELLA Flagella are spread fairly evenly over the whole surface
STRUCTURE OF FLAGELLA  Flagella are membrane bound cylinders about 0.2 μm in diameter.  Located in the matrix of the organelle is a complex, the axoneme.  The axoneme consists of 9 pairs of microtubule doublets arranged in a circle around 2 central tubules.  This is called 9+2 pattern of microtubules.
 Each doublet also has pair of arms projecting from subtubule A towards a neighbouring doublet.  A radial spoke extends from subtubule A towards the internal pair of microtubule with their central sheath.  The microtubules are similar to those found in the cytoplasm.  It is constructed of α and β tubulins subunits.
 The basal body is a short cylinder with 9 microtubule triplets around its periphery, a 9+0 pattern.  Basal body is separated from the rest of the organelle by a basal plate.  The doublet arms, about 15nm long, are made of dynein protein.  Dynein arms interact with the B subtubules of adjacent doublets to cause the sliding.  Radial spokes also participate in sliding motion.
 Flagella beats at a rate of about 10 to 40 strokes of waves per second.  The common euglenoid flagellate, Euglena gracilis travels at around 170 μm per second.  The flagellate Monas stigmatica, swims at a rate of 260 μm / second.
FLAGELLAR SYNTHESIS  It is a complex process involving at least 20 to 30 genes.  Besides the gene for flagellin, 10 or more genes code for hook and basal body proteins.  Filament synthesis is an example of self-assembly.  The information required for filament construction is present in the structure of the flagellin subunit itself.
 The MS ring is synthesised first and inserted into the cytoplasmic membrane, this is followed by the formation of other rings, hook and cap.  These flagellin molecules are then assisted by cap protein which exist at the tip of a growing flagellum.  Self-assembly or aggregation of flagellin proteins lead to the formation of filaments • The flagellin subunits are transported through the filament's hollow internal core.
Self assembly of flagellin filaments
Mechanism of flagellar movement  The filament is in the shape of a rigid helix, and the bacterium moves when this helix rotates.  Flagella act like a propellers of a boat.  The flagellar motor can rotate very rapidly.  the direction of flagellar rotation determines the nature of bacterial movements.
 Polar flagella rotate counter clockwise during normal forward movement.  The cell itself rotates slowly clockwise.  The rotating filament thrusts the cell forward with the flagellum trailing behind.  Monotrichous flagella stop and tumble randomly by reversing the direction of flagellar rotation.
 Peritrichous flagella operate in somewhat similar way.  To move the flagella rotates counter clockwise.  They bend as their hook to form a rotating bundle that propels them forward.  Clock wise rotation of the flagella disrupts the bundle and the cell tumbles
 Because bacteria swim through rotation of their rigid flagella, there must be some sort of motor at the base.  The flagellum rotate because of interactions between the S and M ring, which can rotate freely in the plasma membrane.  Torque generated by the motor is transmitted by the basal body to the hook and the filament
MOTOR  It is composed of two components 1. THE ROTOR 2. THE STATOR  It function like an electrical motor, where the rotor turns in the centre of a ring of electromagnets, the stator.  In gram negative bacteria, the rotor is composed of the MS ring and the C ring.  The flagellar protein FliG is important to interact the rotor with the stator.
The rotor  In gram negative bacteria, the rotor is composed of the MS ring and the C ring.  The flagellar protein FliG is important to interact the rotor with the stator.
The stator  The stator is composed of the proteins MotA and MotB.  Both form a channel through the plasma membrane .  MotB also anchor MotA to cell wall peptidoglycan.
 A proton motive force is used to generate torque.  The channel created by MotA and MotB proteins allow protons to move across the plasma membrane from outside to inside.  They move to the charge and pH gradient.  This movement releases energy that is used to rotate the flagellum.
Mechanism of flagellar movement
PERIPLASMIC FLAGELLA  Certain helical bacteria exhibit swimming motility particularly in highly viscous media.  They lack external flagella but possess flagella like structures located within the cell just beneath the outer cell envelope.  These are called periplasmic flagella or endoflagella or axial flagella.
Periplasmic flagella
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Flagella

  • 1. ULTRA STRUCTURE OF FLAGELLA SUBMITTED BY Vivek kumar MSc . MICROBIOLOGY Bangalore university
  • 2. FLAGELLAR ULTRA STRUCTURE  Bacterial flagellum is composed of three parts.  1) FILAMENT The longest and most obvious portion, which extends from the cell surface to the tip.  2) BASAL BODY The portion embedded in the cell.  3) HOOK A short, curved segment ,links the filament to its basal body and act as a flexible coupling.
  • 3.
  • 4. FILAMENT  It is a hollow, rigid cylinder constructed of a single protein called flagellin.  Flagellin have a molecular weight ranging from 30,000 to 60,000.  The filament ends with a capping protein.  Some bacteria have sheaths surrounding their flagella.
  • 5. BASAL BODY  It is the most complex part of a flagellum.  In gram negative bacteria, the body has 4 rings connected to a central rod.  The outer L ring is associate with lipopolysaccharide.  The P ring is associate with the peptidoglycan layers.  The inner M ring connects the plasma membrane.
  • 6. HOOK  It is quite different from filament.  It is slightly wider than the filament.  Hook is made up of different protein subunits.
  • 7.  Gram positive bacteria have only 2 basal body rings.  An inner ring is connected to the plasma membrane.  An outer ring probably attached to the peptidoglycan layer.
  • 8.
  • 9.  Sometimes the flagellum will have lateral hairs called flimmer filaments.  The thicker, stiffer hair are called mastigonemes.  These filaments change the flagella action.  so that a wave moving down the filament towards the tip pulls the cell along instead of pushing it.  Such a flagellum is called tinsel flagellum.  The naked flagellum is called whiplash flagellum.
  • 10.
  • 11. FLAGELLAAND MOTILITY  Most motile bacteria move by use of flagella.  Its a thread like locomotor appendages extending outward from the plasma membrane and the cell wall.  They are slender, rigid structures, about 20 μm long.  Flagella can be observed by using special staining techniques.
  • 12. FLAGELLAR ARRANGEMENTS MONOTRCHOUS FLAGELLA Having one flagellum. If it is located at an end it is called polar flagellum. AMPHITRICHOUS FLAGELLA Have a single flagellum at each pole. LOPHOTRICHOUS FLAGELLA Have a cluster of flagella at one or both ends. PERITRICHOUS FLAGELLA Flagella are spread fairly evenly over the whole surface
  • 13.
  • 14.
  • 15. STRUCTURE OF FLAGELLA  Flagella are membrane bound cylinders about 0.2 μm in diameter.  Located in the matrix of the organelle is a complex, the axoneme.  The axoneme consists of 9 pairs of microtubule doublets arranged in a circle around 2 central tubules.  This is called 9+2 pattern of microtubules.
  • 16.
  • 17.  Each doublet also has pair of arms projecting from subtubule A towards a neighbouring doublet.  A radial spoke extends from subtubule A towards the internal pair of microtubule with their central sheath.  The microtubules are similar to those found in the cytoplasm.  It is constructed of α and β tubulins subunits.
  • 18.
  • 19.  The basal body is a short cylinder with 9 microtubule triplets around its periphery, a 9+0 pattern.  Basal body is separated from the rest of the organelle by a basal plate.  The doublet arms, about 15nm long, are made of dynein protein.  Dynein arms interact with the B subtubules of adjacent doublets to cause the sliding.  Radial spokes also participate in sliding motion.
  • 20.
  • 21.  Flagella beats at a rate of about 10 to 40 strokes of waves per second.  The common euglenoid flagellate, Euglena gracilis travels at around 170 μm per second.  The flagellate Monas stigmatica, swims at a rate of 260 μm / second.
  • 22. FLAGELLAR SYNTHESIS  It is a complex process involving at least 20 to 30 genes.  Besides the gene for flagellin, 10 or more genes code for hook and basal body proteins.  Filament synthesis is an example of self-assembly.  The information required for filament construction is present in the structure of the flagellin subunit itself.
  • 23.  The MS ring is synthesised first and inserted into the cytoplasmic membrane, this is followed by the formation of other rings, hook and cap.  These flagellin molecules are then assisted by cap protein which exist at the tip of a growing flagellum.  Self-assembly or aggregation of flagellin proteins lead to the formation of filaments • The flagellin subunits are transported through the filament's hollow internal core.
  • 24.
  • 25. Self assembly of flagellin filaments
  • 26. Mechanism of flagellar movement  The filament is in the shape of a rigid helix, and the bacterium moves when this helix rotates.  Flagella act like a propellers of a boat.  The flagellar motor can rotate very rapidly.  the direction of flagellar rotation determines the nature of bacterial movements.
  • 27.  Polar flagella rotate counter clockwise during normal forward movement.  The cell itself rotates slowly clockwise.  The rotating filament thrusts the cell forward with the flagellum trailing behind.  Monotrichous flagella stop and tumble randomly by reversing the direction of flagellar rotation.
  • 28.  Peritrichous flagella operate in somewhat similar way.  To move the flagella rotates counter clockwise.  They bend as their hook to form a rotating bundle that propels them forward.  Clock wise rotation of the flagella disrupts the bundle and the cell tumbles
  • 29.
  • 30.
  • 31.  Because bacteria swim through rotation of their rigid flagella, there must be some sort of motor at the base.  The flagellum rotate because of interactions between the S and M ring, which can rotate freely in the plasma membrane.  Torque generated by the motor is transmitted by the basal body to the hook and the filament
  • 32. MOTOR  It is composed of two components 1. THE ROTOR 2. THE STATOR  It function like an electrical motor, where the rotor turns in the centre of a ring of electromagnets, the stator.  In gram negative bacteria, the rotor is composed of the MS ring and the C ring.  The flagellar protein FliG is important to interact the rotor with the stator.
  • 33. The rotor  In gram negative bacteria, the rotor is composed of the MS ring and the C ring.  The flagellar protein FliG is important to interact the rotor with the stator.
  • 34. The stator  The stator is composed of the proteins MotA and MotB.  Both form a channel through the plasma membrane .  MotB also anchor MotA to cell wall peptidoglycan.
  • 35.  A proton motive force is used to generate torque.  The channel created by MotA and MotB proteins allow protons to move across the plasma membrane from outside to inside.  They move to the charge and pH gradient.  This movement releases energy that is used to rotate the flagellum.
  • 37. PERIPLASMIC FLAGELLA  Certain helical bacteria exhibit swimming motility particularly in highly viscous media.  They lack external flagella but possess flagella like structures located within the cell just beneath the outer cell envelope.  These are called periplasmic flagella or endoflagella or axial flagella.