As. Clare et al., EFFECT OF TUNICAMYCIN ON GROWTH AND MINERALIZATION OF BALANUS AMPHITRITE AMPHITRITE DARWIN (CIRRIPEDIA), Journal of crustacean biology, 16(2), 1996, pp. 285-290
The effects of the protein glycosylation inhibitor tunicamycin (TM) on
skeletal growth, the rate of formation and morphology of the mineral
growth increments, and the fine structure of the scutal plates of the
barnacle Balanus amphitrite amphitrite Darwin were examined. If glycop
roteins are important in control of crystal form and mineral microstru
cture, then by using TM to reduce the amount of glycoprotein synthesiz
ed by the mineralizing cells, one might expect to observe changes in f
ine structure by electron microscopy. Accordingly, 15-day-old barnacle
s, that had been grown on plastic coverslips, were exposed to various
concentrations of TM for 10 days and the effects then analyzed by scan
ning electron microscopy. TM at 0.1 mu g/ml inhibited shell growth. At
0.01 mu g/ml TM, shell growth was retarded in one experiment but not
in another. The normal rate of formation of a mineral growth increment
, as calculated in two experiments, was 3.6 and 2.8 days, respectively
, at 24 degrees +/- 1 degrees C. This rate was reduced significantly b
y 0.01 mu g/ml and 0.1 mu g/ml TM; 1.0 mu g/ml TM completely blocked i
ncrement formation. The bases of setae on the scuta increased in size,
and the number of setae also increased in barnacles treated with 0.1
mu g/ml TM for 10 days. However, other portions of the scuta revealed
no characteristic differences in crystal microstructure.