A fimbrial adhesin, designated F1845, was found to be responsible for the diffuse HEp-2 cell adherence of a diarrheal Escherichia coli isolate. The genetic determinant of F1845 was cloned, and the order of the genes necessary for production of F1845 was determined by maxicell analysis. Five polypeptides with apparent sizes of 10, 95, 27, 15.5, and 14.3 kilodaltons (kDa) were found to be encoded in that order by the F1845 determinant. The nucleotide sequence of the 14.3-kDa subunit gene was determined and found to share extensive homology in its signal sequence with the gene encoding the structural subunit of the AFA-1 hemagglutinin of a uropathogenic E. coli strain (A. Labigne-Roussel, M.A. Schmidt, W. Walz, and S. Falkow, J. Bacteriol. 162:1285-1292, 1985) but not in the region encoding the mature protein. Southern blot hybridizations indicated that the F1845 determinants are of chromosomal origin. Hybridization studies using a probe from the region encoding the 95-kDa polypeptide indicated that related sequences may be plasmid associated in some strains and chromosomal in others. Additional hybridization studies of E. coli isolates possessing sequence homology to the F1845 determinant suggest that the sequences in the 5' region of the F1845 structural subunit gene are more highly conserved than sequences in the 3' region.
A protein kinase phosphorylation site in chicken gizzard myosin light chain kinase (MLCK) has been identified, and a synthetic peptide analogue of this site has been shown to be a high-affinity calmodulin binding peptide as well as a substrate for cyclic AMP dependent protein kinase. Phosphorylation of the site in MLCK is diminished when reactions are done in the presence of calmodulin. A fragment of MLCK containing the phosphorylation site was shown to have the amino acid sequence Ala-Arg-Arg-Lys-Trp-Gln-Lys-Thr-Gly-His-Ala-Val-Arg-Ala-Ile-Gly-Arg-Leu- Ser-Ser. The interaction of calmodulin with a synthetic peptide based on this sequence was characterized by using circular dichroism and fluorescence spectroscopies and inhibition of calmodulin activation of MLCK. The peptide-calmodulin complex had an estimated dissociation constant in the range of 1 nM, underwent spectroscopic changes in the presence of calmodulin consistent with the induction of an alpha-helical structure, and interacted with calmodulin with an apparent 1:1 stoichiometry. Studies with other synthetic peptide analogues indicated that the phosphorylation of the serine residues diminished the ability of the peptide to interact with calmodulin even though the serines are not required for calmodulin binding. On the basis of the primary and secondary structural characteristics of these peptide analogues, a potential calmodulin binding region in another calmodulin binding protein, the gamma subunit of rabbit skeletal muscle phosphorylase kinase, was identified.(ABSTRACT TRUNCATED AT 250 WORDS)
The first primary structure for a nonmuscle myosin light chain kinase (nmMLCK) has been determined by elucidation of the cDNA sequence encoding the protein kinase from chicken embryo fibroblasts, and insight into the molecular mechanism of calmodulin (CaM) recognition and activation has been obtained by the use of site-specific mutagenesis and suppressor mutant analysis. Treatment of chicken and mouse fibroblasts with antisense oligodeoxynucleotides based on the cDNA sequence results in an apparent decrease in MLCK levels, an altered morphology reminiscent of that seen in v-src-transformed cells, and a possible effect on cell proliferation. nmMLCK is distinct from and larger than smooth muscle MLCK (smMLCK), although their extended DNA sequence identity is suggestive of a close genetic relationship not found with skeletal muscle MLCK. The analysis of 20 mutant MLCKs indicates that the autoinhibitory and CaM recognition activities are centered in distinct but functionally coupled amino acid sequences (residues 1,068-1,080 and 1,082-1,101, respectively). Analysis of enzyme chimeras, random mutations, inverted sequences, and point mutations in the 1,082-1,101 region demonstrates its functional importance for CaM recognition but not autoinhibition. In contrast, certain mutations in the 1,068-1,080 region result in a constitutively active MLCK that still binds CaM. These results suggest that CaM/protein kinase complexes use similar structural themes to transduce calcium signals into selective biological responses, demonstrate a direct link between nmMLCK and non-muscle cell function, and provide a firm basis for genetic studies and analyses of how nmMLCK is involved in development and cell proliferation.
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