Vertebrate U17 RNA is an intron-encoded H/CA box containing snoRNA, which has been intensively studied in the last decade, though its precise role in ribosome biogenesis is not yet clear. A consensus secondary structure for the U17 RNA molecule has been derived from the comparative sequence and structural evolution analysis of U17 snoRNA among vertebrates. Its phylogenetic congruence above class level has been tested and preliminary data on chelonians suggest that also in this order, U17 snoRNA evolved congruently with phylogeny. We herein extend our analysis to other components of this reptile group. According to the sequence data that have also emerged from chelonians, the U17 RNA molecule can be divided into two main domains: the 50-variable domain, which presents the sequence motifs capable of base-pairing with the 18S rRNA target and spanning STEM1, -2, and -3, and the 30-conserved domain, consisting of STEM4. In vertebrates, the latter RNA region shows a high conservation both in secondary structure and in the presence of the three sequence motifs 50-AUUCCUA-30, 50-U(G/U)ACU-30, and 50- AACCC-30.We tested the phylogenetic congruence of U17 evolution with chelonian relationships: Our results are significantly similar to those emerging from mtDNA and morphological systematics. Some discrepancies (e.g., the position of Platysternon) need to be addressed in greater depth.
Cervelli, M., Oliverio, M., Bellini, A., Bologna, M.A., Cecconi, F., Mariottini, P. (2003). Structural and sequence evolution of U17 small nucleolar RNA (snoRNA) and its phylogenetic congruence in Chelonians. JOURNAL OF MOLECULAR EVOLUTION, 56, 1-12 [10.1007/s00239-003-2453-2].
Structural and sequence evolution of U17 small nucleolar RNA (snoRNA) and its phylogenetic congruence in Chelonians
CERVELLI, MANUELA;BOLOGNA, Marco Alberto;MARIOTTINI, Paolo
2003-01-01
Abstract
Vertebrate U17 RNA is an intron-encoded H/CA box containing snoRNA, which has been intensively studied in the last decade, though its precise role in ribosome biogenesis is not yet clear. A consensus secondary structure for the U17 RNA molecule has been derived from the comparative sequence and structural evolution analysis of U17 snoRNA among vertebrates. Its phylogenetic congruence above class level has been tested and preliminary data on chelonians suggest that also in this order, U17 snoRNA evolved congruently with phylogeny. We herein extend our analysis to other components of this reptile group. According to the sequence data that have also emerged from chelonians, the U17 RNA molecule can be divided into two main domains: the 50-variable domain, which presents the sequence motifs capable of base-pairing with the 18S rRNA target and spanning STEM1, -2, and -3, and the 30-conserved domain, consisting of STEM4. In vertebrates, the latter RNA region shows a high conservation both in secondary structure and in the presence of the three sequence motifs 50-AUUCCUA-30, 50-U(G/U)ACU-30, and 50- AACCC-30.We tested the phylogenetic congruence of U17 evolution with chelonian relationships: Our results are significantly similar to those emerging from mtDNA and morphological systematics. Some discrepancies (e.g., the position of Platysternon) need to be addressed in greater depth.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.