posttranslational regulation is becoming increasingly valuable as we engineer some plants
to be protein production factories, accumulating high levels of desirable, functional proteins
for numerous applications ranging from industrial to medical.
LIFE BOX 6.1. MAARTEN CHRISPEELSMaarten Chrispeels, Professor of Biology and Director, Center for
Molecular Agriculture, University of California San Diego; Member,
National Academy of ScienceMaarten Chrispeelsgiving a public
lecture on molecular agriculture (2002).I was born in a small Flemish town not
far from Brussels, Belgium, and after
an uneventful youth and a solid classical
education with three foreign languages
and six years of Latin, I enrolled in the
College of Agriculture in Ghent. I
wanted to become a biochemist. In the
fall of 1960, after graduation at the age
of 22, I found myself on the
Mauretania, sailing for America with a
Fulbright travel fellowship and a fellow-
ship from the University of Illinois to
start graduate studies in the Department
of Agronomy. My Ph.D. research and
postdoctoral work (with Joe Varner)
were in plant cell biology. A couple ofpapers inPlant Physiologylanded me
a job as assistant professor of biology
at the then newly founded University
of California San Diego (UCSD).
Upon arriving there I switched from
studyinga-amylase secretion by barley
aleurone cells to the biosynthesis and
secretion of hydroxyproline-rich glyco-
proteins, which had just been discovered
but were little studied. We discovered
that these proteins move from the ER
to the Golgi apparatus where glycosyla-
tion of hydroxyproline residues takes
place. After a sabbatical leave in
England I switched to study the syn-
thesis and intracellular transport of pro-
teases to the protein storage vacuoles
(PSVs) in cotyledons during germina-
tion. We made use of antibodies—
quite a novelty at the time—to demon-
strate by immuno-electrton microscopy
that the protease that digests storage pro-
teins is in the ER before it arrives in the
PSVs. It then occurred to me that if I
wanted to study protein transport to
PSVs I should be looking at developing
seeds and not at germinating seeds,
because seed development is character-
ized by massive protein synthesis and
transport to vacuoles. So, I switched
again and started working on the syn-
thesis, posttranslational modification
and transport of storage glycoproteins
and lectins in developing bean seeds.
About that time others invented gene
cloning and plant transformation and
soon we had bean storage protein and
lectin genes and were expressing them
in tobacco seeds to identify vacuolar tar-
geting domains.LIFE BOX 6.1. MAARTEN CHRISPEELS 153