Abstract
BackgroundWe have previously noted that there were differences in somatic and male germ cell polyadenylation site choices. First, male germ cells showed a lower incidence of the sequence AAUAAA (an important element for somatic polyadenylation site choice) near the polyadenylation site choice. Second, the polyadenylation sites chosen in male germ cells tended to be nearer the 5' end of the mRNA than those chosen in somatic cells. Finally, a number of mRNAs used a different polyadenylation site in male germ cells than in somatic cells. These differences suggested that male germ cell-specific polyadenylation sites may be poor substrates for polyadenylation in somatic cells. We therefore hypothesized that male germ cell-specific polyadenylation sites would be inefficiently used in somatic cells.ResultsWe tested whether pre-mRNA sequences surrounding male germ cell-specific polyadenylation sites (polyadenylation cassettes) could be used to direct polyadenylation efficiently in somatic cells. To do this, we developed a luciferase reporter system in which luciferase activity correlated with polyadenylation efficiency. We showed that in somatic cells, somatic polyadenylation cassettes were efficiently polyadenylated, while male germ cell-specific polyadenylation cassettes were not. We also developed a sensitive, 3' RACE-based assay to analyze polyadenylation site choice. Using this assay, we demonstrated that male germ cell-specific polyadenylation cassettes were not polyadenylated at the expected site in somatic cells, but rather at aberrant sites upstream of the sites used in male germ cells. Finally, mutation of the male germ cell-specific poly(A) signal to a somatic poly(A) signal resulted in more efficient polyadenylation in somatic cells.ConclusionThese data suggest that regulated polyadenylation site choice of male germ cell-specific polyadenylation sites requires one or more factors that are absent from somatic cells.
Highlights
We have previously noted that there were differences in somatic and male germ cell polyadenylation site choices
We showed that introduction of an AAUAAA into a male germ cell-specific pre-mRNA allowed for more efficient polyadenylation of that site in somatic cells
Development of a luciferase reporter system to assay polyadenylation efficiency To test whether male germ cell-specific polyadenylation sites were inefficiently polyadenylated in somatic cells, we developed a system to assay polyadenylation efficiency
Summary
We have previously noted that there were differences in somatic and male germ cell polyadenylation site choices. A number of mRNAs used a different polyadenylation site in male germ cells than in somatic cells. We hypothesized that male germ cell-specific polyadenylation sites would be inefficiently used in somatic cells. Mutation of the pre-mRNA sequence elements involved in polyadenylation site (page number not for citation purposes). A number of pre-mRNA sequences have been proposed to be important in choosing the site of polyadenylation [1620]; two seem to play a prominent role in mammalian somatic cells. The step is cleavage of the pre-mRNA at the polyadenylation site (a process that requires additional factors, possibly including CPSF-73 [24]) followed by addition of the poly(A) tail [1,2]
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