A circular loop of the 16-residue repeating unit in ice nucleation protein.

Ice nucleation protein (INP) from Gram-negative bacteria promotes the freezing of supercooled water. The central domain of INPs with 1034-1567 residues consists of 58-81 tandem repeats with the 16-residue consensus sequence of AxxxSxLTAGYGSTxT. This highly repetitive domain can also be represented by tandem repeats of 8-residues or 48-residues.

3(10)-helices in proteins are parahelices.

The 3(10)-helix is characterized by having at least two consecutive hydrogen bonds between the main-chain carbonyl oxygen of residue i and the main-chain amide hydrogen of residue i + 3. The helical parameters--pitch, residues per turn, radius, and root mean square deviation (rmsd) from the best-fit helix--were determined by using the HELFIT program. All 3(10)-helices were classified as regular or irregular based on rmsd/(N - 1)1/2 where N is the helix length.

The binding of copper ions to glycine-rich proteins (GRPs) from Cicer arietinum.

Cicer arietinum GRP1 and GRP2 are rich in glycine interposed with histidine and tyrosine. In order to study whether or not these proteins bind Cu(2+), circular dichroism (CD) and nuclear magnetic resonance (NMR) were measured for three synthetic peptides corresponding to sections of the protein's sequences including 1, N(1)Y(2)G(3)H(4)G(5)G(6)G(7)N(8)Y(9)G(10)N(11), where all peptides were chemically blocked with an acetyl group at the N-terminus and an -NH(2) group at the C-terminus. The visible CD spectra for 1 showed a positive peak near 590 nm not at pH 6.

Atomic force microscopic studies on the structure of bovine femoral cortical bone at the collagen fibril-mineral level.

The structure of cortical bone at the collagen-mineral level was investigated by means of atomic force microscopy. Surfaces of the specimens treated with collagenase and ethylenediaminetetraacetic acid (EDTA) were examined. Images of blob-like objects observed in intact specimen became clearly outlined after collagenase treatment; the sizes of the blob decreased, suggesting that each blob had been fragmented by the collagenase treatment.

Side chain-side chain interactions of arginine with tyrosine and aspartic acid in Arg/Gly/Tyr-rich domains within plant glycine-rich RNA binding proteins.

Plant glycine-rich RNA-binding proteins (GRRBPs) contain a glycine-rich region at the C-terminus whose structure is quite unknown. The C-terminal glycine-rich part is interposed with arginine and tyrosine (arginine/glycine/tyrosine (RGY)-rich domain). Comparative sequence analysis of forty-one GRRBPs revealed that the RGY-rich domain contains multiple repeats of Tyr-(Xaa)h-(Arg)k-(Xaa)l, where Xaa is mainly Gly, "k" is 1 or 2, and "h" and "l" range from 0 to 10.

Copper binding to plant ozone-inducible proteins (OI2-2 and OI14-3).

Ozone-inducible proteins (OI2-2 and OI14-3) from Atriplex canescens whose structure and function are unknown are rich in glycine intercepted with histidine and tyrosine with putative signal peptides at the N-terminus. OI2-2 and OI14-3 contain 8 and 10 tandem repeats of YGHGGG, respectively. In order to study whether these proteins bind Cu(2+), circular dichroism (CD), and nuclear magnetic resonance (NMR) were measured for four synthetic peptides corresponding to sections of the sequences of these proteins; 1 (HGGGY), 2 (HGGGYGH), 3 (YGHGGGY), and 4 (YGHGGGYGHGGGY), where all peptides were chemically blocked with an acetyl group at the N-terminus and an -NH(2) group at the C-terminus.

The solution structure of apocalmodulin from Saccharomyces cerevisiae implies a mechanism for its unique Ca2+ binding property.

We have determined the solution structure of calmodulin (CaM) from yeast (Saccharomyces cerevisiae) (yCaM) in the apo state by using NMR spectroscopy. yCaM is 60% identical in its amino acid sequence with other CaMs, and exhibits its unique biological features. yCaM consists of two similar globular domains (N- and C-domain) containing three Ca(2+)-binding motifs, EF-hands, in accordance with the observed 3 mol of Ca(2+) binding.

1H, 15N and 13C resonance assignments of yeast Saccharomyces cerevisiae calmodulin in the Ca2+-free state.

Calmodulin (CaM) is a small Ca2+-binding protein, which has been found in all of eucaryotic cells examined. CaMs isolated from various species have highly conserved amino acid sequence (more than 90% identical), and show the same biological functions. CaM isolated from the baker's yeast (Saccharomyces cerevisiae) (yCaM), however, shares only 60% identity in the amino acid sequence with CaM from vertebrate, and shows quite distinct conformational and biochemical properties compared with those of CaM from other species.