Sense and antisense transcripts of the maize MuDR regulatory transposon localized by in situ hybridization.

Activity of the Mutator transposons of Zea mays varies in different tissues and at different stages of development. In the soma, Mu elements excise at a high frequency late in tissue development. In germ cells, Mu elements rarely excise, but they amplify and insert at high levels around the time of meiosis. At all other times, Mu elements can duplicate and insert at a low frequency. To determine whether the patterns of Mutator activity correlate with tissue or cell-specific transcription of the regulatory transposon MuDR, we used in situ hybridization to localize the sense MuDR transcripts, mudrA and mudrB, in pistillate florets and embryos of four different maize Mutator stocks. We found mudrA and mudrB transcripts uniformly distributed in all tissues of immature, meristem-rich florets and in both somatic and germinal tissues of mature florets. In mature flowers, transcripts of both genes accumulate to high levels in the tapetal (endothelium) layer surrounding the embryo sac. We also found transcripts from the antisense strand of the mudrA gene in all cell types in the florets. In developing embryos, all MuDR transcripts were present in all tissues. Different Mutator stocks had characteristic accumulation patterns that were maintained throughout embryo development.

cDNA nucleotide sequence and expression of a maize cytoplasmic ribosomal protein S13 gene.

The complete amino acid sequence of a cytoplasmic ribosomal protein S13 of maize was deduced from the cDNA isolated from a maize cDNA library. The encoded protein is 151 amino acids long and shows a homology of 73% with the corresponding protein S13 of rat. Southern blots analysis shows that the maize protein S13 is encoded by a small multigene family conserved in plant species closely related to maize. The S13 RNAs accumulate preferentially in proliferating tissues and cells and their transcription occurs in parallel to the DNA synthesis.

Nucleotide sequence and expression of two cDNA coding for two histone H2B variants of maize.

The complete amino acid sequences of two variants of histone H2B of maize were deduced from the cDNAs isolated from a maize cDNA library. The two encoded proteins are 150 (H2B(1)) and 149 (H2B(2)) amino acids long and shows the classical organization of H2B histones. The hydrophobic C-terminal region is highly conserved as compared to that of the animal counterparts with only 21 changes (13 conservative) among the 90 residues. Between the N-terminal part and the C-terminal region we note the presence of a basic cluster (9 residues) characteristic of histones H2B. The N-terminal third is extended as compared to the animal consensus H2B and has the same size as the H2B histone of wheat. Up to 9 acidic residues and a five time repeated pentapeptide PA/KXE/KK are present in this region. Southern-blot hybridization showed that the H2B histones are encoded by a multigenic family like the other core histones (H3 and H4) of plants. The general expression pattern of these genes was not significantly different from that of the H3 and H4 genes neither in germinating seeds nor in different tissues of adult maize.