A yeast gene MYO1 that contains regions of substantial sequence homology with the nematode muscle myosin gene (unc54) has been isolated and sequenced. Although the disruption of MYO1 is not lethal, it leads to aberrant nuclear migration and cytokinesis. The 200‐kd myosin heavy chain‐like protein, the product of MYO1, cross‐reacts with anti‐nematode myosin heavy chain IgG and is present in wild‐type strains but not in strains carrying the disrupted gene. Instead, a truncated polypeptide with a molecular mass of 120 kd can be detected in some myo1 mutants.
Novobiocin-Sepharose was prepared by coupling of novobiocin to Epoxy-activated Sepharose 6B and used as an affinity adsorbent. Four novobiocin-binding proteins were isolated from crude extracts of Escherichia coli with molecular weights of 105, 92, 85 and 40 kdal. The two larger proteins were identified as the A subunit (gyrA protein) and the B subunit (gyrB protein) of DNA gyrase topoisomerase II). By this method the two gyrase components can be easily separated and purified in high yield. Although both proteins are involved in the ATP-dependent supercoiling of relaxed plasmid DNA, only the gyrB protein is required for catalyzing the cleavage of ATP. The gyrB protein ATPase activity is competitively inhibited by novobiocin and related coumarin antibiotics. ATP hydrolysis is unaffected by the addition of either gyrA protein or DNA but stimulated in the presence of both.
A strain which carries a mutation conferring clorobiocin resistance and temperature sensitivity for growth was isolated from Escherichia coli K12. Genetic mapping and the molecular weight of the gene product suggest that the mutation is in the cou gene, specifying a sub-unit of DNA gyrase. Nuclear organisation and segregation and placement of septa are grossly abnormal in the mutant at 42 degrees C. RNA synthesis and initiation of DNA replication are also affected at the restrictive temperature but the rate of DNA chain elongation continues almost undisturbed.
A gene (VRP1) encoding a novel proline-rich protein (verprolin) has been isolated from the yeast Saccharomyces cerevisiae as a result of its hybridization to a chick vinculin cDNA probe. The deduced protein sequence contains 24% proline residues present as proline-rich motifs throughout the verprolin sequence. Several of these motifs resemble recently identified sequences shown to bind Src homology 3 (SH3) domains in vitro. Replacement of the wild-type VRP1 allele with a mutant allele results in strains that grow slower than wild-type strains and are temperature sensitive. The vrp1 mutants are impaired in both cell shape and size and display aberrant chitin and actin localization. We propose that verporlin is involved in the maintenance of the yeast actin cytoskeleton, through interactions with other proteins, possibly containing SH3 domains.
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