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Transportation of biogenic magnetic nanoparticles from prey bacteria

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The magnetic bacteria Magnetospirillum magnetotacticum MS-1 (prey) ... 109 J can grow on wide range of gram negative bacteria including the genera Spirillum ... – PowerPoint PPT presentation

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Title: Transportation of biogenic magnetic nanoparticles from prey bacteria


1
Transportation of biogenic magnetic nanoparticles
from prey bacteria
  • 08/03/05
  • ANIL SINDHURAKAR
  • DEPARTMENT OF CHEMISTRY

2
A Brief Overview
  • Research Hypothesis
  • Experimental Tool Atomic Force Microscopy (AFM)
  • The magnetic bacteria Magnetospirillum
    magnetotacticum MS-1 (prey)
  • The predator bacteria Bdellovibrio bacteriovorus
    109J
  • Experimental Procedures
  • Experimental Results
  • Importance and Significance

3
Research Hypothesis
  • Magnetic bacteria MS-1 will be preyed upon by
    predator bacteria 109 J
  • 109 J will transport biogenic magnetic
    nanoparticles from MS-1

4
Atomic Force Microscopy (AFM)
  • Provides topographical images of the sample being
    studied (analogous to Braille)
  • Usually operates on three modes Contact,
    Non-Contact and Tapping Mode
  • The sample need not be conductive and there is no
    need to modify the sample

5
AFM Contd.
Interatomic force vs. distance curve
6
Magnetospirillum magnetotacticum MS-1
  • Obligately microaerophillic gram negative
    bacteria
  • Optimum temperature about 30oC
  • Capable of biomineralization
  • Synthesize nanometer scale minerals called
    magnetosomes

Magnetospirillum magnetotacticum MS-1 bacteria
under optical microscope (100X )
7
Magnetosomes
  • These crystals are deposits of magnetite (Fe3O4)
  • Forms a linear chain of 10-20 crystals
  • Each crystal ranges from 35-120 nm in diameter
  • Helps create magnetic dipoles strong enough to
    render geo-magnetotaxis

DEVOUARD ET AL. BACTERIAL MAGNETITE
8
Magnetosomes contd.
  • AFM Image magnetosomes

Size 3umX3um
9
Bdellovibrio bacteriovorus 109 J
  • Gram-negative, predatory and obligately aerobic
    bacteria
  • Optimal temperature 28-30oC
  • Once inside the prey, forms a swollen structure
    known as bdelloplast
  • 109 J can grow on wide range of gram negative
    bacteria including the genera Spirillum

Source Laurel Cosby (http//commtechlab.msu.edu)
10
Bdellovibrio Contd.
Source lthttp//www.sju.edu/biology/jtudorwebImage
1.jpggt
11
Experimental Procedure
  • Grow DH5a on micro-pore filter
  • Add 109 J on DH5a layer
  • Add MS-1 to the growing layer of 109 J
  • AFM and optical microscopy

Courtesy Jaclyn Schmitt 08
12
Experimental Results
DH5a on small pore filter Size (10umX10 um)
13
Experimental Results Contd
109 J with the bdelloplasts (arrow) Size
(10umX10um)
14
Experimental Results Contd
109 J completely taking over DH5a Size 10 um X
10 um
15
Experimental Results Contd
MS-1 bacteria on filter Size (10umX10um)
109 J on filter Size (10umX10um)
0.2 µm millipore filter
16
Experimental Results Contd
AFM Image 109 J MS-1 on filter paper
17
Project Significance Possible Applications
  • Novel method of nanoparticle trasportation
  • Production of carbon nanotubes
  • http//virag.elte.hu/kurti/rollup.html
  • Magnetic tagging of biochemicals for medical
    purposes
  • Better knowledge of bacterial predation at
    hydrated air-solid interface

18
ACKNOWLEDGEMENTS
  • Dr. Eileen M. Spain
  • Dr. Megan Nuñez, Mount Holyoke College
  • Dr. Mark O. Martin, University of Puget Sound
  • Howard Hughes Medical Institute
  • Camille Henry Dreyfus Foundation
  • Undergraduate Research Center, Occidental College
  • Department of Chemistry, Occidental College
  • Laboratory Colleague Jaclyn Schmitt 08
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