Characterisation of fission yeast alp11 mutants defines three functional domains within tubulin-folding cofactor B

The proper folding of tubulins prior to their incorporation into microtubules requires a group of conserved proteins called cofactors A to E. In fission yeast, homologues of these cofactors (at least B, D and E) are necessary for the biogenesis of microtubules and for cell viability. Here we show that the temperature-sensitive alp11-924 mutant, which is defective in the cofactor B homologue, contains an opal nonsense mutation, which results in the production of a truncated Alp11^B protein (Alp11_1–118). We isolated a tRNA^Trp gene as a multicopy suppressor of this mutation, which rescues alp11-924 by read-through of the nonsense codon. The truncated Alp11_1–118 protein lacks the C-terminal half of Alp11^B, consisting of a central coiled-coil region and the distal CLIP-170 domain found in a number of proteins involved in microtubule functions. Both of these domains are required for the maintenance of microtubule architecture in vivo. Detailed functional analyses lead us to propose that Alp11^B comprises three functional domains: the N-terminal half executes the essential function, the central coiled-coil region is necessary for satisfactory maintenance of cellular α-tubulin levels, and the C-terminal CLIP-170 domain is required for efficient binding to α-tubulin. Received: 29 November 1999 / Accepted: 18 April 2000