We have determined for the X chromosomes of 10 laboratory strains and the Y chromosomes of 4 of them both the total number of ribosomal units and the relative percentages of uninterrupted (ins-), type 1 (ins1: with distinction between small ins1S and large ins1L) and type 2 (ins2) interrupted ribosomal units. These studies were made with the DNA extracted from third instar larval diploid tissues (brains and imaginal discs) of X/X female lines or XNO-/Y male lineages (devoid of X ribosomal genes) whose members possess copies of the same initial X or Y chromosome. Between the X chromosomes as well as the Y chromosomes an approximately equal to 2-fold variation was observed in the total number of ribosomal genes: from approximately equal to 200 to 420 for the X chromosomes and from approximately equal to 150 to 330 for the Y ones. The Y chromosomes are devoid of insertion 1 interrupted units, but one can observe some variation in the percentage and hence the absolute numbers of uninterrupted and insertion 2 interrupted units. Among the X chromosomes a very large variation exists between the percentage and absolute number of all the ribosomal unit types; it is to be noted especially that the number of uninterrupted units, which are the only kind of ribosomal genes actively transcribed, can vary from about 20 to 140 without any differences in the development of the different strains.
The infection of E. coli cells with different lambdoïd prophages triggers a stimulation of galactokinase synthesis when cells are grown in a medium giving rise to a mild catabolite repression (tryptone broth) with an inducer of the gal operon (fucose). These results show that during phage infection (or induction) some factor acting in trans is produced which is able to overcome efficiently catabolite repression of the kinase cistron. Using different strains of lambdapbio252 (pam, qam, "hl), lambdapbio256Hl and lambdaNNS7 we have concluded that the factor is the N gene product which is known for its anti- p(rho) action. Studies of the whole gal operon in the same conditions show that epimerase unlike transferase and galactokinase is practically insensitive to catabolite repression by tryptone broth and that viral development has a low effect on it. This indicates that there is an internal modulation of gal operon expression. A mRNA termination site sensitive to the p factor is known in the gal operon between galE and galT. Another site weaker than this one might exist between galE and operator-promoter region.
The molecular characteristics of nucleolar organizers from X and Y chromosomes of different Drosophila melanogaster lines have previously been studied (17). By analysis of appropriate genetic crosses we show in the present study that the X and Y chromosomes of these lines can confer different degrees of resistance on an inhibitor of ribosomal RNA synthesis (beta exotoxin or thuringiensin) present in the thermostable supernatant of Bacillus thuringiensis cultures. None of the lines studied gives rise to any particular phenotype under normal culture conditions; variations in the degree of supernatant resistance of these lines provide a relative measure of what can be called the potential activity of the nucleolar organizers of the different X and/or Y chromosomes. The potential activity of the Y nucleolar organizers is found to be generally higher than that of the X organizers. This result can be correlated with the fact that the number of uninterrupted ribosomal units is much greater on the Y chromosomes than on the Xs. Significant variations in potential activity have been shown to occur among the X as also among the Y nucleolar organizers. Comparison between the molecular characteristics of the nucleolar organizers and their level of activity shows that among the different ribosomal units, only those devoid of insertion interfere with the level of activity. However, some of our results could also indicate that not all the uninterrupted units have the same level of activity; this level could be related to the size of the nontranscribed spacer of the ribosomal units.(ABSTRACT TRUNCATED AT 250 WORDS)
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