Publications by authors named "Nahomi Atuchi"

The interaction between growth inhibition and chirality, especially of diastereomers, has an important modifying effect on cancer cell proliferation. Previously, we have reported on the design, synthesis, and chemical properties of a series of novel, double-stranded peptides, (y-AA-x-AA)(2)-(CH(2))(12), with -y-AA-x-AA- and -z-AA-y-AA-x-AA- sequences conjugated to the spacer. Here, we extend those results by showing that (D-, L-) and (L-, D-) diastereomers are more potent inhibitors of tyrosine phosphorylation than (L-, L-).

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Our aim in this study is to elucidate the correlations between inhibition and chirality, especially, diastereomer, against cell proliferation of double-stranded peptides. In previous studies, we reported on the design, synthesis, and chemical properties on a series of novel double-stranded peptides, (y-AA-x-AA)(2)-spacer(S) (AA=amino acid, S=spacer, symbols x and y represent L- or D-forms, and (y-, x-) as represent of the symbol) conjugated with -y-AA-x-AA- and -z-AA-y-AA-x-AA- sequences to a spacer of carbon number n. The inhibition of A431 and src(ts)NRK cells growth by four diastereomers of the N(1),N(12)-bis(y-Phe-x-Phe)dodecanediamines (n=12) increased in the following order: (L-, L-)<(D-, D-)<(L-, D-)<(D-, L-).

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The synthesis of a series of mini double-stranded peptides containing chiral-x-Phe-y-Phe-peptide residues and the diastereomeric selective effects of these compounds on Escherichia coli NIHJ JC-2 and Staphylococcus aureus FDA 209P growth are described. In the case of bis(y-Phe-x-Phe)-N,N-ethane-1,2-diamine, bis(y-Phe-x-Phe)-N,N-buthane-1,4-diamine, bis(y-Phe-x-Phe)-N,N-hexane-1,6-diamine, and bis(y-Phe-x-Phe)-N,N-dodecane-1,12-diamine, etc., the four configurations, (L-, L-), (D-, L-), (L-, D-) and (D-, D-), where the symbols x- and y- represent optical isomers with L- and D- forms, were used to investigate the relationship between chirality and antibacterial activity.

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