Abstract
The sqt-1 gene encodes a C. elegans cuticle collagen that when defective can cause dramatic alterations of organismal morphology. Specific antisera were used to examine the assembly of wild-type and mutant SQT-1 in the cuticle. Wild-type SQT-1 chains associate into dimer, tetramer, and higher oligomers that are cross-linked by non-reducible, presumably tyrosine-derived, covalent bonds. The SQT-1 pattern differs from the bulk of cuticle collagens which are found in trimer and larger forms. sqt-1 mutations that cause left-handed helical twisting of animals remove a conserved carboxyl-domain cysteine and inhibit formation of these non-reducible bonds. SQT-1 monomers accumulate and novel trimer-sized products form. A conserved tyrosine immediately adjacent to the affected cysteine suggests that disulfide bond formation is required for this tyrosine to form a cross-link. sqt-1 mutations that cause right-handed helical twisting affect conserved arginines in a predicted cleavage site for a subtilisin-like protease. These mutant SQT-1 molecules retain residues on the amino side of the predicted cleavage site and are larger than wild-type by the amount expected if cleavage failed to occur. The conservation of this site in all nematode cuticle collagens indicates that they are all synthesized as procollagens that are processed by subtilisin-like proteases.
Highlights
Dicted to encode polypeptides of about 30 kDa
This paper is available on line at http://www.jbc.org sqt-1 and rol-6 showed that alteration of either cysteine results in a LRol phenotype, the phenotype is weaker for rol-6 than sqt-1
The sc103 mutation generates a nonsense codon near the beginning of the sqt-1 gene that would block production of the SQT-1 protein [10]. These results demonstrate that the anti-s1c antiserum is specific for SQT-1, and does not cross-react with other cuticle collagens
Summary
Dumpy; Lon, long; Rol, roller; Tal, abnormal tail structure; PAGE, polyacrylamide gel electrophoresis; HBA, homology domain A. This paper is available on line at http://www.jbc.org sqt-1 and rol-6 showed that alteration of either cysteine results in a LRol phenotype, the phenotype is weaker for rol-6 than sqt-1. To analyze the effects of these mutations on the SQT-1 polypeptide we have generated antibodies specific for the SQT-1 collagen chain. We present evidence supporting the suggestion that HBA is a protease cleavage site and that the RRol mutations inhibit cleavage at that site. We present evidence that the LRol cysteine substitutions interfere with tyrosine-based cross-linking of the SQT-1 cuticle collagen
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