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=3D=3D
                        JAPAN NANONET BULLETIN
               -- 11th Issue --       February 5, 2004
Nanotechnology Researchers Network Center of Japan
Ministry of Education, Culture, Sports, Science and Technology (MEXT)
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=
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=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D


IN THIS ISSUE

  Nanonet Interview:
  Keiichi NAMBA, Professor, Graduate School of Frontier Biosciences,=20
Osaka University

  Young Researchers' Introduction:
  Hisao YANAGI, Research Associate, Department of Chemical Science and=20
Engineering, Faculty of Engineering, Kobe University

  What's in the next issue?


-- NANO CALENDAR --=20
  For information on nanotechnology related symposiums and conferences=20
held in the world,
  <A =
href=3D"http://www.nanonet.go.jp/english/calendar/">http://www.nanonet.go=
.jp/english/calendar/</A>


----------------------------------------------------------------------

NANONET INTERVIEW

Revealing the mystery of the bacterial flagellum
--A self-assembling nanomachine with fine switching capability--
(Issued in Japanese: March 25, 2003)

  Keiichi NAMBA, Professor, Graduate School of Frontier Biosciences,
  Osaka University

Nature created a rotary motor with a diameter of 30 nm. Motility of=20
bacteria, such as "Salmonella" and "E. coli" with a body size of 1 - 2=20
micron, is driven by rapid rotation of a helical propeller by such a=20
tiny little motor at its base. This organelle is called the flagellum,=20
made of a rotary motor and a thin helical filament that grows up to=20
about 15 micron. It rotates at around 20,000 rpm, at energy=20
consumption of only around 10^-16 W and with energy conversion=20
efficiency close to 100%. Prof. Namba's research group is going to=20
reveal the mechanism of this highly efficient flagellar motor that is=20
far beyond the capabilities of artificial motors.

The flagellum is made by self-assembly of about 25 different proteins.=20
The rotor ring made of protein FliF is the first to assemble in the=20
cytoplasmic membrane. Then, other protein molecules attach to the ring=20
one after another from the base to the tip to construct the motor=20
structure. After the motor has been formed, the flagellar filament,=20
which functions as a helical propeller, is assembled. Precise=20
recognition of the template structure by component proteins allows=20
this highly ordered self-assembly process to proceed without error.=20
The flagellar filament is made of 20,000 to 30,000 copies of flagellin=20
polymerized into a helical tube structure. Flagellin molecules are=20
transported through a long narrow central channel of the flagellum=20
from the cell interior to the distal end of the flagellum, where they=20
self-assemble in a helical manner by the help of a cap complex. The=20
cap is pentameric complex made of HAP2 and has a pentagonal plate and=20
five leg domains, whose flexible stepping movements accompanied by=20
rotation of the whole cap is the key mechanism to promote the=20
efficient self-assembly of flagellin molecules by preparing just one=20
binding site of flagellin at a time and guiding the binding.

Even though the filament is a polymer of chemically identical=20
molecules, it conforms a supercoiled structure. By using electron=20
cryomicroscopy and X-ray fiber diffraction, Prof. Namba's group has=20
discovered that the flagellar filament consists of 11 strands of=20
protofilaments with two slightly different conformations, named L and=20
R types. The repeat distance observed in the structure of the L-type=20
protofilament is 5.27 nm, while it is 5.19 nm in the R-type, the=20
difference being only 0.08  nm. The mixture of protofilaments with the=20
different lengths produces the helical tube structure of the filament.

Bacterial cells swim actively by rotating a bundle of flagella. The=20
motor switches its direction every few seconds to change the swimming=20
direction of the cells for bacteria to seek better environments.=20
Reversal of the motor rotation causes a structural change of the=20
flagellar filament from the left-handed to the right-handed helical=20
form. This makes the flagellar bundle fall apart, propelling force=20
imbalanced, leading to changes of the swimming direction. The switch=20
that triggers this change in the helical form of the filament has been=20
found in the atomic structure of flagellin obtained by X-ray=20
crystallographic analysis. When the twisting force produced by quick=20
reversal of the motor rotation is transmitted to the protofilaments,=20
part of flagellin undergoes a slight change in its conformation,=20
thereby making a few of the 11 protofilament strands transform from=20
the L-type into the R-type. As a result, normally left-handed=20
flagellar filament turns into right-handed helical forms. Prof.=20
Namba's group tried to understand the switching mechanism responsible=20
for these structural changes. To analyze the structure in atomic=20
detail by X-ray crystallography, flagellin had to be crystallized.=20
However, its strong tendency of polymerization made the=20
crystallization difficult. It took ten years for them to finally=20
crystallize flagellin and analyze the structure to find out the switch=20
mechanism, for which a super brilliant X-ray beam from SPring-8=20
beamlines was essential.

Prof. Namba first saw an electron micrograph of the bacterial=20
flagellum and its motor when he was a graduate student. He was=20
surprised to see such complex and sophisticated structure exist in=20
living organisms. It impressed him deep enough to switch his research=20
from muscle to flagella after a while. "Looking at the shape of the=20
flagellar basal body, it is obviously designed to rotate. Looking at a=20
picture of the flagellar motor on the wall every day, I feel up=20
towards revealing the mystery by any means." The design concepts of=20
protein molecules to realize various functional mechanisms by their=20
three-dimensional architecture are quite different from those we=20
design by our engineering technique with bulk materials. Folding of=20
single polymer chain into some three-dimensional structures gives a=20
huge amount of freedom and flexibility in both function and structure.=20
Individual atoms are used as functional parts, and this is the=20
essential feature that makes biological macromolecules distinct from=20
artificial machines at present. The design concepts have to be well=20
understood and learned for future nanotechnology applications. So far,=20
for the flagellar motor, the deeper our insights get into the=20
mechanism, the deeper the mystery becomes. Now the mystery of=20
conformational switching of the filament has been solved, and in terms=20
of the number of protein molecules, the filament makes up 99% of the=20
entire flagellum, it does not mean 99% of the mystery is solved. It is=20
the motor mechanism that is even more difficult to understand.

When Prof. Namba's group attached a 40 nm fluorescence bead to the=20
flagellar motor and observed the motor rotation, the group was=20
surprised to see large and rapid fluctuations of the rotation speed.=20
The key to revealing the mystery of the motor must be hidden behind=20
the thermal fluctuation of the protein structure, which is still so=20
far from understanding. "The atoms constituting proteins do fluctuate=20
but the average positions of individual atoms are very precisely=20
determined with an accuracy of sub-angstrom level. That is why=20
individual proteins can properly identify partner molecules to bind=20
and get assembled into the higher order structures of living organisms.=20
The fluctuations of protein structure, that's what makes living=20
organisms function in such sophisticated and well regulated ways. I am=20
willing to dedicate my entire life to the hard work unveiling the=20
mysterious world of protein structure and function."=20

(Interviewer: Kuniko Ishiguro, Cosmopia Inc.)

For more information,=20
<A =
href=3D"http://www.nanonet.go.jp/english/mailmag/2004/011a.html">http://w=
ww.nanonet.go.jp/english/mailmag/2004/011a.html</A>

----------------------------------------------------------------------

YOUNG RESEARCHERS' INTRODUCTION

Molecular nanoelectronics and photonics - Research on organic=20
semiconductor laser and single-molecular switching device -
(Issued in Japanese: March 25, 2003)

  Hisao YANAGI, Research Associate, Department of Chemical Science and=20
  Engineering, Faculty of Engineering, Kobe University and Researcher,=20
  Precursory Research for Embryonic Science and Technology (PRESTO),=20
  Japan Science and Technology Agency (JST)

Electronic band structures play an important role in covalently bound=20
crystals of inorganic semiconductor materials. A variety of=20
optoelectronic devices have been developed based on their quantum=20
effects using bulk downsizing technology. On the other hand, a bottom-
up molecular organization is important for organic materials, in which=20
molecules interact by weak van der Waals force, since their solid-
state properties are basically ascribed to individual molecular=20
characteristics.=20

Moreover, molecular orientation in the solid-state strongly affects=20
their properties due to a low-dimensional anisotropy of chainlike and=20
planar molecules. This study aims at developing novel molecular=20
electronic/photonic materials by low-dimensional ordered structuring=20
of functional molecules across single-molecule, nanoscale and=20
microscale ranges.=20

To date, we have observed lasing actions from self-organized zero-
dimensional microdots and one-dimensional nanoneedles of fluorescent p
-conjugating oligomers based on the microcavity and self-wave guiding=20
effects of light confined in these low-dimensional structures.=20
Furthermore, a reversible flip-flop single-molecular switching=20
phenomenon induced by scanning tunneling microscopy has been observed=20
for two-dimensional monolayer arrays of ansymmetric, and polar=20
subphthalocyanine molecules adsorbed on a metal surface in ultrahigh=20
vacuum.=20

We are now investigating their detailed mechanisms for the practical=20
development of organic semiconductor lasers and high-density molecular=20
information storage devices.

For more information,=20
<A =
href=3D"http://www.nanonet.go.jp/english/mailmag/2004/011b.html">http://w=
ww.nanonet.go.jp/english/mailmag/2004/011b.html</A>


----------------------------------------------------------------------

WHAT=92S IN THE NEXT ISSUE?

  Nanonet Interview:
  Toshio KIMURA, Fellow and General Manager, Central Research=20
Institute, Mitsubishi Materials Corporation

  Young Researchers' Introduction:
  Hidekazu TANAKA, Associate Professor, Atom Scale Science Division,=20
The Institute of Scientific and Industrial Research, Osaka University,=20
and Researcher, Precursory Research for Embryonic Science and=20
Technology (PRESTO), Japan Science and Technology Agency (JST)

The next issue of JAPAN NANONET BULLETIN will be delivered on February=20
19, 2004.


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Nanotechnology Researchers Network Center of Japan distributes
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Content-Type: text/css;
	charset="iso-8859-1"
Content-Transfer-Encoding: quoted-printable
Content-Location: http://www.nanonet.go.jp/css/ie.css

SUB {
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}
SUP {
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.menu1 {
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TEXT-DECORATION: none
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.menu2 {
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}
A:hover {
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A.menu1:hover {
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A.menu2:hover {
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}
.menu3 {
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TEXT-DECORATION: none
}
.menu4 {
	FONT-WEIGHT: bold; FONT-SIZE: 12px; COLOR: #ffcc66; TEXT-DECORATION: =
none
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.menu5 {
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A.menu5:hover {
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.title1 {
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BACKGROUND-IMAGE: url(/images/nanonet_pale.gif); COLOR: #000000; =
BACKGROUND-REPEAT: no-repeat
}
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.mm-cutin {
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}
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BACKGROUND-COLOR: #ccccff
}
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}
.nano1 {
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.nano3 {
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.nano6 {
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}
A.nano1:hover {
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}
A.nano5:hover {
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}

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