68 CHAPTER 4
Early experiments on the mechanism of
apical growth in fungiRobertson (1958, 1959) did many of the key early
experiments on apical growth of fungi, using
extremely simple methods coupled with truly remark-
able insight. He grew colonies of Fusarium oxysporumor N. crassaon nutrient-rich agar, flooded them with
water and then observed the behavior of the tips. As
shown in Fig. 4.3, roughly half of the tips stopped
growing immediately and then resumed growth
within a minute, but from a narrower apex than
before. The other tips stopped growing for several
minutes, swelled into a diamond shape during this
time, and eventually regrew by producing one or
more narrow tips just behind the original apex. He then
repeated the experiments, again flooding the colonies
with water but replacing this within 40 seconds by a
solution of the same osmotic potential as the original
agar (an isotonic solution). This caused all the tips to
stop for several minutes, but they swelled during this
time and eventually regrew from narrow subapical
branches (Fig. 4.3).
To interpret these findings, Robertson hypothesized
that the normal pattern of apical growth involves two
independent processes: (i) continuous extension of a
plastic, deformable tip and (ii) rigidification of the
wall behind the extending tip. He envisaged these
two processes as occurring at the same rate, but with
rigidification always slightly behind the tip, like two
cars travelling along two lanes of a motorway at
exactly the same speed but one is always slightly
behind the other. Then, if extension growth is halted
by an osmotic shock (adding water) the process of
rigidification will continue and tend to “overtake” theFig. 4.1(a –i) Sequence of frames from a videotape of Neurospora crassagrowing over a 1-hour period beneath a
coverslip on an agar plate. (Frames (a–c) are shown at higher magnification than the other frames.)
Fig. 4.2Incorporation of radiolabeled wall precursors
during a brief (5-minute) exposure.