Left: A “triad”, the building
block of the COPI coat - / Right: COPI coated vesicle made of an
assembly of triads Dark blue: ?-COP / light blue: ?’-COP / cyan: ?-COP /
dark green: ?-COP / light green: ?-COP / orange: ?-COP / yellow: ?-COP /
pink: Arf1
Credit: Svetlana Dodonova/EMBL
Researchers at EMBL Heidelberg have
produced detailed images of the intricate protein-coats that surround
trafficking vesicles -- the "transport pods" that move material around
within biological cells. The study, published in Science, provides a new understanding of the complex machines that make up the cells' logistics network.
Vesicles are responsible for transporting molecules between the
different compartments within a cell and also for bringing material into
cells from outside. There are several types of vesicle: each has a
specific type of coat which is made up of different proteins and
assembles onto a membrane surrounding the vesicle.
The EMBL team has been taking a close look at a coat called COPI.
This surrounds vesicles that move material around within the Golgi
apparatus and to the endoplasmic reticulum (ER) -- these are regions of
the cell where proteins are made and modified in preparation for
transport to the cell surface.
Using a technique called cryo-electron tomography, in which samples
can be frozen at very low temperatures to avoid fixing or staining them
chemically, the researchers combined data from hundreds of vesicles to
build up a 3D image of the COPI coat. This enabled them to produce the
most detailed pictures yet obtained of a vesicle coat assembled on the
vesicle membrane.
This imaging technique is still in its infancy and although
scientists have been able to gather structural information about parts
of the membrane coats in other types of vesicle, this is the first time a
model of a complete assembled vesicle coat has been produced.
What the images revealed was surprising: unlike other types of
vesicle, where the coat is thought to be made from proteins assembled in
different layers -- each with a specific function -- around the vesicle
membrane, the EMBL team observed that the proteins in the COPI coat all
intertwine together in one big layer, which is curved to fit around the
membrane. More precisely, the COPI coat is made of a repetition of
building blocks, called "triads," that contain all the important
functional elements organised in a precise 3D structure.
"Until now we could see different elements of the vesicle coat, but
not get a complete and detailed picture of the coat assembled onto the
vesicle membrane. This is an important step forward for our
understanding of intracellular transportation," explains John Briggs who
led the study.
"Our images showed us how the proteins that make up the coat are
arranged and it was surprising to discover how different COPI is from,
for example, clathrin or COPII coated vesicles," adds Svetlana Dodonova,
co-author of the paper. "Our next step will be to try to find out how
this coat forms and binds to the vesicle membrane and how it arranges
itself into such complex shapes."
Story Source:
The above post is reprinted from
materials provided by
European Molecular Biology Laboratory (EMBL).
Note: Materials may be edited for content and length.
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