A case of Japanese B encephalitis imported into the United Kingdom

A case of acute encephalomyelitis, serologically proven to be due to Japanese B encephalitis virus, is reported. The patient, a 35-year-old woman, contracted the disease whilst in Hong Kong but presented in the United Kingdom. She required ventilatory support and was given high-dose steroids. She recovered from the illness but died after a period of four months from respiratory/cardiac arrest.

Size changes of phosphodiesterase in bovine rod outer segments on illumination

Light activates a 3',5'-cyclic GMP phosphodiesterase (PDE) in bovine retinal rod outer segments. The light is absorbed by rhodopsin situated in the disk membranes. PDE is a three-subunit peripheral protein on the disks and appears to be activated via a guanine nucleotide binding protein (G) in the presence of activated rhodopsin and GTP. Does the activation occur by collision coupling of G and PDE? We have studied the protein-protein interactions of PDE in situ in disk membranes by radiation inactivation. Irradiation of a protein with high-energy electrons leads to loss of activity in proportion to radiation dose and the molecular weight of the protein. We see no change in the size of PDE upon activation by light and 100 microM guanosine 5'-(beta, gamma-imidotriphosphate) (Gpp[NH]p) compared with PDE in dark with 260 microM GTP. Application of statistics to our data shows that a 27 000 change in molecular weight would be significant at the 95% level but that smaller changes would go undetected. The apparent molecular weight is 176 000 +/- 27 000 (mean +/- 95% confidence limit), in agreement with the size determined by polyacrylamide gel electrophoresis. Thus there appears to be either (i) no permanent change in PDE size on activation or (ii) a small change, undetectable by the technique, or (iii) an exchange of subunits such that no net change in molecular weight is seen.

Growth of the skull in the mutant dwarf mouse

By following the development of individual mice from birth to 200 days of age, it was found that the skull of the homozygous mutant (dwdw) was 5% shorter than that of the normal phenotype at birth and some 30% shorter at 200 days of age. During post-natal growth of the skull, the cranium was least altered but the facial skeleton was greatly affected. The differences seen in different parts of the skull are attributed to the peak growth velocities of the various parts occurring at different times.