I posted this article for Ewen McPherson. Please direct all
correspondence to the newsgroup or to the author's address
(E.F.Mcpherson at uel.ac.uk).
Greetings Bionet.microbiology. It is, as has been
said, great to see a specific newsgroup for microbiologists. I was
interested in the recent comments on
microbiology vs molecular genetics (What do we call our department?)
I assume that most people here will have seen the Journal of General
Microbiology (Now a.k.a. Microbiology) at some point in their careers ?
Personally speaking, I'm getting increasingy annoyed with it. I've just
reached up to look at May's edition, and a quick flick through reveals
out of 32 papers, 15 are concerned with genetics and molecular biology.
Where have all the microbiologists gone ? I've been studying, and more
recently teachning microbiology in one form or another for about 10
now, and I've seen the science of microbiology change from being the
of small organisms and their ecology to being a factory for churning
gene sequences, and even my recent class of final year students
on this when I gave them a course on Taxonomy and systematics. OK, so
first talk-generating thread, I'm suggesting this as a Title;- Running
we can walk.
And here's the contentious statement to set fire to. I consider myself
to be an environme [
an environmental microbiologist, and one of the things that seems to be
generating a bit of talk amongst my students is the recent planned
of Genetically Engineered Micro-Organisms. And they , without
up with exactly the same sort of fears that I had myself;- That we know
little about the ecology of organisms that are being released into the
environment to actually consider releasing genes that may have
effects on other organisms.
My point is, therefore, are we running before we can walk. It's all
well for a biochemist to merrily go sequencing genes through their nice
and expensive sequencers and then saying.. "OK, we think it's
for THIS, and we can clone it and put it in THIS organism which our
tests (invariably conducted in sterile matrices) says will survive in
environment, it'll then do THIS and we'll all make lots of money
patenting the ide
Life, as we all know, isn't a nice sterile microcosm matrix. Soil is
a flaming aggressive environment and I feel that without detailed study
of the ecology of the soil microbial biomass we're risking it by
"unnatural" gene sequences into the environment because we simply don't
know what's going to happen to them once they're out there, what
may incorporate them, what mutations may occur in that incorporation
the hell we do actually deal with it if anything goes wrong.
OK, so put a suicide gene in the sequence. Great, that convinces the
and the good who sit on the various ethical committees who have to have
explained to them the difference between fungi and bacteria. But, as we
seen recently (i.e. BSE from prions), The organism itself may not
have to be alive to still remain a threat in one form or another (See
Gruinard Island, Curses from Egyptian tombs etc).DNA can and does
in the soil, and may concieveably be "reconverted" to viability by
incorporation in another organism.
Here's another thought. Synergism. The sum of the parts is greater than
sum of the whole. I will freely confess that I do not keep up with the
developments in genetic microbiology. Has anybody considered the
of synergistic effects of an introduced gene not only with the genes of
host organism but of whatever else is out there.
As somebody about to take the great step from Student to Teacher on a
time basis, swimming around the edges of the Great Iron Rice Bowl of
Granting Bodies from whence all support cometh, It seems to
me,perhaps rather cynically, that all you have to do to get your
proposal accepted, particularly by one of the US granting bodies is to
put in Three Buzz-phrases
2/Possible Economic Advantage
3/Novel Technique (and/or Polymerase Chain Reaction)
So, the conclusion;- Too much emphasis is being placed on the genetic
structures of organisms and the sequencing of genes searching for 2./
above without consideration for the possible impact on the ecology of
ecosystems. Let's put a bit of empahsis into some good basic microbial
ecology and get at least a better understanding of what's going on out
there before we start trying to interefere with it.
Microbiology for the Microbiologists;-
Genetics for the Biochemists;-
Microbial Genetics after Microbial Ecology;-
More Money for Microbial Ecology (and microbial ecologists !;-} )
OK, Let's have it.....
University of East London