Characterization of the hidden break in giant clam 28S ribosomal RNA

Abstract

ABSTRACT The molluscan 28S ribosomal RNA (rRNA) naturally cleaves into two fragments of similar size as 18S rRNA. This phenomenon, known as the hidden break, has been described in many other protostome species. Here, we characterize the 28S rRNA hidden break region in seven giant clam species, Tridacna gigas, T. derasa, T. maxima, T. noae, T. crocea, Hippopus hippopus and H. porcellanus. We confirm that the break consistently occurs in giant clams and is observed in all tissues and developmental stages. The region of the giant clam 28S rRNA break is located at a position homologous to the well-characterized 28S rRNA break in insects. High AU content and a stem–loop secondary structure in the region may contribute to fragmentation of the 28S rRNA molecule. An awareness of the existence of the hidden break in molluscs, such as the giant clams, which are emerging systems for understanding how environmental change affects life in the ocean, will facilitate progress of RNA sequencing-based analyses that currently rely on standard RNA profiles as a measure of sample integrity.