Y-chromosomal STRs haplotypes in the Taiwanese Paiwan population

The distribution of Y-chromosomal short tandem repeat (Y-STR) haplotypes was determined in a population of Taiwanese Paiwan aboriginals. Using 17 Y-STR markers, a total of 135 haplotypes were observed, 102 of which were unique. The overall haplotype diversity for the 17 Y-STR loci tested was 0.9922 and the discrimination capacity was 0.6490. In addition, three novel intermediate alleles at the DYS448 locus were also found

In vitro reconstitution of a hexagonal array with a surface layer protein synthesized by Bacillus subtilis harboring the surface layer protein gene from Bacillus brevis 47.

Bacillus brevis 47 contains two surface layer proteins, termed the outer wall protein and the middle wall protein (MWP), which form a hexagonal array in the cell wall. Introduction of the MWP structural gene into Bacillus subtilis by using a low-copy-number plasmid led to the synthesis of an immunoreactive polypeptide with a molecular mass almost the same as that of the MWP synthesized by B. brevis 47. Biochemical analysis indicated that most of the MWP synthesized by B. subtilis was localized in the cytoplasmic fraction. This was further confirmed by using immunogold electron microscopy. The amino-terminal amino acid sequence of the MWP purified from the cytoplasm of B. subtilis indicated that the MWP was precursor with a signal peptide of 23 amino acid residues to the amino terminus of the mature protein. The precursor of the MWP possessed the ability to reassemble in vitro on the B. brevis 47 peptidoglycan layer, resulting in the formation of almost the same hexagonal arrays as with the mature MWP purified from B. brevis 47, judging from images averaged at a resolution of about 2.5 nm. Furthermore, a center-to-center distance of the hexagonal lattice on the envelope reconstituted by using the precursor MWP was calibrated as 18.3 nm, which was almost identical to the value of 17.8 nm obtained with the mature protein

Characterization of the genes for the hexagonally arranged surface layer proteins in protein-producing Bacillus brevis 47: complete nucleotide sequence of the middle wall protein gene.

Bacillus brevis 47 contains two surface (S)-layer proteins, termed the outer wall protein (OWP) and the middle wall protein (MWP), which form a hexagonal array in the cell wall. The MWP and OWP genes are contained in the 9-kilobase-pair (kbp) BclI fragment and constitute an operon under coordinate control of their expression. The nucleotide sequence of a 3.8-kbp EcoRI-SacI fragment containing the entire MWP gene has been determined in this study. Together with the DNA sequence of the promoter region for the MWP-OWP gene operon (H. Yamagata, T. Adachi, A. Tsuboi, M. Takao, T. Sasaki, N. Tsukagoshi, and S. Udaka, J. Bacteriol. 169:1239-1245, 1987) and that of the OWP gene (A. Tsuboi, R. Uchihi, R. Tabata, Y. Takahashi, H. Hashiba, T. Sasaki, H. Yamagata, N. Tsukagoshi, and S. Udaka, J. Bacteriol. 168:365-373, 1986), the complete nucleotide sequence of the MWP-OWP gene operon has been determined. The MWP gene encodes a secretory precursor of the MWP, consisting of a total of 1,053 amino acid residues with a signal peptide of 23 amino acid residues at its amino-terminal end. Bacillus subtilis harboring the MWP gene synthesized an immunoreactive polypeptide with almost the same molecular weight as the authentic MWP, as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The amino acid compositions deduced from the MWP and OWP genes were similar to the chemical amino acid compositions of other S-layer proteins in the predominance of acidic amino acids compared with basic amino acids and in the very low content of sulfur-containing amino acids. The acidic nature of the MWP and OWP was confirmed by isoelectric focusing on polyacrylamide gels. In addition, circular dichroism spectra indicated that the S-layer proteins in B. brevis 47 were composed of approximately 30% beta-sheet and 5% alpha-helical structures, with the remainder of the polypeptide backbone being aperiodic in nature