Tj. Crease et Jk. Colbourne, THE UNUSUALLY LONG SMALL-SUBUNIT RIBOSOMAL-RNA OF THE CRUSTACEAN, DAPHNIA-PULEX - SEQUENCE AND PREDICTED SECONDARY STRUCTURE, Journal of molecular evolution, 46(3), 1998, pp. 307-313
The small-subunit (SSU) ribosomal RNA (rRNA) gene of the Branchiopod c
rustacean, Daphnia pulex, was isolated from a phage library and subclo
ned into the plasmid pBluescript. Determination of the complete nucleo
tide sequence of this gene revealed it to be 2293 nt in length with a
G+C content of 53.7%. This is the longest SSU rRNA gene yet reported f
rom a crustacean. The predicted secondary structure of the rRNA is qui
te typical for eukaryotes except for length expansion in four regions
that are known to be highly variable: V2, V4, V7, and V9. Increases in
V4 and V7 were most notable. RT-PCR analysis of these two variable re
gions showed that they are present in the mature rRNA molecule. Potent
ial secondary structures for these regions are proposed based on energ
etic criteria. Sequence simplicity analysis of V4 and V7 did not revea
l the occurrence of clustered simple sequence motifs. This suggests th
at replication slippage may not be an important mechanism generating t
he length expansion in these regions as has been proposed for unusuall
y long regions in insect SSU rRNA genes. On the other hand, there was
a pronounced bias in nucleotide composition in the variable regions (G
+C = 56.6% in V4 and 60% in V7) which is typical of long SSU rRNA gene
s in insects. Comparison of the lengths of regions V2, V4, V7, and V9
among diverse arthropods revealed that substantial increases in V4 and
V7 tend to co-occur. This suggests the possibility of a functional re
lationship between these variable regions.