Function of RRM Domains of Drosophila melanogaster ELAV: RNP1 Mutations and RRM Domain Replacements With ELAV Family Proteins and SXL

Function of RRM Domains of Drosophila melanogaster ELAV: RNP1 Mutations and RRM Domain Replacements With ELAV Family Proteins and SXL

Michael J. Lisbin^a, Marshall Gordon^a, Yvonne M. Yannoni^a, and Kalpana White^a
^a Department of Biology and Center for Complex Systems, Brandeis University, Waltham, Massachusetts 02454

Corresponding author: Kalpana White, Biology Department, MS 008, Brandeis University, Waltham, MA 02454., white{at}brandeis.edu (E-mail)

Communicating editor: J. A. BIRCHLER

Members of the ELAV family of proteins contain three RNA recognitionmotifs (RRMs), which are highly conserved. ELAV, a Drosophilamelanogaster member of this family, provides a vital functionand exhibits a predominantly nuclear localization. To investigateif the RNA-binding property of each of the ELAV RRMs is requiredfor ELAV's in vivo function, amino acid residues critical inRNA binding for each RRM were individually mutated. A stringentgenetic complementation test revealed that when the mutant proteinwas the sole source of ELAV, RNA-binding ability of each RRMwas essential to ELAV function. To assess the degree to whicheach domain was specific for ELAV function and which domainsperhaps performed a function common to related ELAV proteins,we substituted an ELAV RRM with the corresponding RRM from RBP9,the D. melanogaster protein most homologous to ELAV; HuD, ahuman ELAV family protein; and SXL, which, although evolutionarilyrelated, is not an ELAV family member. This analysis revealedthat RRM3 replacements were fully functional, but RRM1 and RRM2replacements were largely nonfunctional. Under less stringentconditions RRM1 and RRM2 replacements from SXL and RRM1 replacementfrom RBP9 were able to provide supplemental function in thepresence of a mutant hypomorphic ELAV protein.

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