Abstract
The precursor messenger RNA (pre-mRNA) three-prime cleaved-off region (3′COR) and the mRNA three-prime untranslated region (3′UTR) play critical roles in regulating gene expression. The differences in base composition between these regions and the corresponding genomes are still largely uncharacterized in animals and plants. In this study, the base compositions of non-redundant 3′CORs and 3′UTRs were compared with the corresponding whole genomes of eleven animals, four dicotyledonous plants, and three monocotyledonous (cereal) plants. Among the four bases (A, C, G, and U for adenine, cytosine, guanine, and uracil, respectively), U (which corresponds to T, for thymine, in DNA) was the most frequent, A the second most frequent, G the third most frequent, and C the least frequent in most of the species in both the 3′COR and 3′UTR regions. In comparison with the whole genomes, in both regions the U content was usually the most overrepresented (particularly in the monocotyledonous plants), and the C content was the most underrepresented. The order obtained for the species groups, when ranked from high to low according to the U contents in the 3′COR and 3′UTR was as follows: dicotyledonous plants, monocotyledonous plants, non-mammal animals, and mammals. In contrast, the genomic T content was highest in dicotyledonous plants, lowest in monocotyledonous plants, and intermediate in animals. These results suggest the following: 1) there is a mechanism operating in both animals and plants which is biased toward U and against C in the 3′COR and 3′UTR; 2) the 3′UTR and 3′COR, as functional units, minimized the difference between dicotyledonous and monocotyledonous plants, while the dicotyledonous and monocotyledonous genomes evolved into two extreme groups in terms of base composition.
Highlights
After transcription, the three-prime (39)-most segment of the newly made precursor RNA is usually cleaved off [1,2]
Among the eleven animal genomes analyzed in this study, the Apis mellifera and Caenorhabditis elegans genomes had the highest A and T contents, and the Drosophila melanogaster genome had the lowest
Mapping using Illumina RNA-Seq reads was found to be very likely more sensitive to internal priming than mapping using nondeep sequencing-generated messenger RNA (mRNA) sequences as shown in Figures 4 and 5
Summary
The three-prime (39)-most segment of the newly made precursor RNA (pre-RNA) is usually cleaved off [1,2]. This 39 cleaved-off region is referred to as ‘‘39COR’’ for the sake of simplicity. The 39UTR is the untranslated 39 region in the mature messenger RNA (mRNA), because there is no information about the 39COR in most mRNA sequences. The function that the pre-mRNA 39COR performs after transcription termination is unclear, that region is believed to have an important influence on pre-mRNA length and folding as well as on pre-mRNA cleavage. The 39UTR is known to be very gene-specific, to play a critical role in regulating mRNA export, stability, and functionality, and to be critical for the development of living organisms [4,5,6]
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