Temporal regulation of six crystallin transcripts during mouse lens development

Abstract

Using the polymerase chain reaction (PCR) and RNA blot analysis, we have examined the differential expression patterns of the gamma-crystallins during lens development. Since only four of these genes had been previously characterized, the cDNAs for the remaining two genes, gamma C and gamma F, were isolated and sequenced. The steady-state mRNA profiles were then determined by RNA blot analysis of samples from embryonic stages to 180 days after birth, with gene-specific probes for gamma A, gamma B, gamma C, and gamma D, and a common probe for gamma E and gamma F. Due to the paucity of mismatches between the gamma E and gamma F-crystallin genes, the PCR technique was exploited to determine their relative abundance. The data showed that while all six gamma-crystallin genes were expressed in the embryonic lens, they were differentially regulated during development. At early stages, the levels of gamma B and gamma C mRNAs were found to be relatively low in comparison to those for gamma A, gamma D, gamma E and gamma F. After 30-40 days, however, the levels of gamma A, gamma E, and gamma F mRNAs declined rapidly, and the gamma B, gamma C and gamma D transcripts became the major gamma-crystallin mRNA species. The utility of the PCR technique in studying the relative abundance of steady-state gamma-crystallin mRNAs was also investigated.