Progress on
unc-119 Morris Maduro and David Pilgrim, Department of Biological Sciences, University of Alberta, Edmonton, Alberta, Canada unc-l l 9 mutant animals are strongly uncoordinated and capable of only little head movement. Transverse electron micrographs of body-wall muscle show no ultrastructural defects in assembly or attachment. Polarized light and antibody staining with anti-vinculin show that muscle is normal; animals also hypercontract in the presence of levamisole. The basis for the unc phenotype is apparently presynaptic. (Thanks to Mary Gilbert and the Moerman lab for help.) eDf2; eDp6, a strain homozygous for a break/gap in LGm, has a phenotype similar to unc-l l 9 (
e2498). We had previously located the breakpoint of eDf2 relative to the physical map (WBG 13#2) and have since located the breakpoint of eDp6. Both breakpoints are contained on M142, a cosmid recently placed on the physical map. This cosmid rescues the unc phenotype of unc-
ll9 (
e2498) as well as eDf2; eDp6. M142 also rescues
vab-7 (J. Ahringer, WBG 13#2), which maps less than 0.1 m.u. to the right of unc-l l 9 and is complemented by eDp6. -- The smallest rescuing subclone, DP#MM019, does not cross- hybridize to Southern blots of eDf2; eDp6 DNA. Only ~8 kbp are deleted, so it is likely that unc-l l 9 is the only gene missing in this strain. DP#MM019 was used to screen the Barstead cDNA library. Three clones were pulled out, one of which appears to be full-length at 980 bp. Two of the three cDNAs contain 5' ends that extend beyond the rescuing fragment. Rescue may occur because of an in-frame ATG at the beginning of the third exon (shown in lower case), which lies just inside DP#MM019. The sequence of the upstream genomic region has not yet been completely determined, so it is possible that the first exon is further to the left. The Tc l element in
e2498 is located in exon IV. The first ATG does not appear to be used since there are stop codons in all frames just upstream of the ORF. The three stop codons are preceded by a region that is 84% A=T over 37 base pairs, so this part does not appear to be coding. The ~220 a.a. ORF (shown shaded) predicts a protein that has no significant similarity to others in the databases. (Thanks to Richard Durbin for sequence information in the region.) A ~Charon4 clone of C. briggsae also rescues unc-l l 9, so this gene is functionally conserved between the two species. This clone cross-hybridizes the cDNA at low stringency.