The International Journal of Developmental Biology

Int. J. Dev. Biol. 44: 851 - 859 (2000)

Vol 44, Issue 8

Sequence and translation initiation properties of the xenopus TGFbeta5, PDGF-A, and PDGF-alpha receptor 5' untranslated regions

Published: 1 December 2000

A W van der Velden, A Los, H O Voorma and A A Thomas

Department of Developmental Biology, Utrecht University, The Netherlands.

Abstract

The properties of the architecturally complex Xenopus laevis TGFbeta5, PDGF-A and PDGF-alpha receptor 5'UTRs were investigated. 5' extended cDNAs were obtained by 5'RACE, resulting in long 5'UTRs (478-710 nt) with multiple upstream AUGs (3-13), andthe potential to fold into stable structures. Injection studies suggested that the cloned PDGF-alphaR 5'UTR contains an intron. Splicing at potential 5' and 3' splice sites would result in a non-complex 5'UTR of 142 nt. The above mentioned 5'UTR characteristics are inhibitory for ribosomal scanning. Indeed, relative to the beta-globin 5'UTR, the complex 5'UTRs strongly repressed initiation of protein synthesis in pre-MBT Xenopus embryos. However, later in embryogenesis, the inhibition was partly relieved. The results show temporal translational control by these 5'UTRs. Transgenic embryos showed that the 5'UTRs allowed translation throughout the embryo; spatial control could not be observed. Interestingly, a fragment in the PDGF-A 5'UTR highly similar to an element in the human PDGF-A 5'UTR is complementary to Xenopus 18S ribosomal RNA. None of these Xenopus 5'UTRs contains an IRES, as determined by injecting bicistronic constructs.

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