Masanobu Chinami scite author profile

NMR signals from all four histidine ring C epsilon protons and three of the four histidine C delta protons in the protein staphylococcal nuclease have been assigned by comparing spectra of the wild-type (Foggi strain) protein to spectra of three variants that each lack a different histidine residue. All proteins studied were cloned and overproduced in Escherichia coli. The NMR spectra of the three mutant proteins (H8R, H46Y, and H124L) used to make these assignments were similar to one another and to those of the wild type, except for signals from the mutated residues. The pKa values of those histidines conserved between the wild type and the mutants remained essentially unchanged. Multiple histidine C epsilon proton resonances due to non-native forms of nuclease were observed in both thermally induced and acid-induced unfolding. Residue-specific assignments of H epsilon protons in the thermally denatured forms of the mutant H46Y were obtained from connectivities to the native state by saturation transfer.

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X-Ray Crystalline Structures of Pyrrolidone Carboxyl Peptidase from a Hyperthermophile, Pyrococcus furiosus, and Its Cys-Free Mutant

Tanaka

Chinami

Mizushima

et al. 2001

Journal of Biochemistry

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In order to elucidate the mechanism of the thermostability of proteins from hyperthermophiles, X-ray crystalline structures of pyrrolidone carboxyl peptidase from a hyperthermophile, Pyrococcus furiosus (PfPCP), and its mutant protein with Ser substituted at Cys142 and Cys188 were determined at 2.2 and 2.7 A resolution, respectively. The obtained structures were compared with those previously reported for pyrrolidone carboxyl peptidases from a hyperthermophilie, Thermococcus litoralis (TlPCP), and from a mesophile, Bacillus amyloliquefaciens (BaPCP). The PfPCP structure is a tetramer of four identical subunits similar to that of the TlPCP and BaPCP. The largest structural changes among the three PCPs were detected in the C-terminal protrusion, which interacts with that of another subunit. A comparison of the three structures indicated that the high stability of PfPCP is caused by increases in hydrophobic interactions and hydrogen bonds, the formation of an intersubunit ion-pair network, and improvement to an ideal conformation. On the basis of the structures of the three proteins, it can be concluded that PfPCP does not have any special factors responsible for its extremely high stability and that the conformational structure of PfPCP is superior in its combination of positive and negative stabilizing factors compared with BaPCP.

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Binding of HTm4 to Cyclin-dependent Kinase (Cdk)-associated Phosphatase (KAP)·Cdk2·Cyclin A Complex Enhances the Phosphatase Activity of KAP, Dissociates Cyclin A, and Facilitates KAP Dephosphorylation of Cdk2

Chinami

Yano

Yang

et al. 2005

Journal of Biological Chemistry

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Cyclin-dependent kinase 2 (cdk2) activation requires phosphorylation of Thr 160 and dissociation from cyclin A. The T-loop of cdk2 contains a regulatory phosphorylation site at Thr 160 . An interaction between cdc-associated phosphatase (KAP) and cdk2 compromises the interaction between cdk2 and cyclin A, which permits access of KAP, a Thr 160 -directed phosphatase, to its substrate, cdk2. We have reported that KAP is bound and activated by a nuclear membrane protein, HTm4. Here, we present in vitro data showing the direct interaction between the HTm4 C terminus and KAP Tyr 141 . We show that this interaction not only facilitates access of KAP to Thr 160 and accelerates KAP kinetics, but also forces exclusion of cyclin A from the KAP⅐cdk2 complex.HTm4 (MS4A3) is the third member of subfamily A in an extensive membrane-spanning four-domain gene family. These genes are only loosely related at the sequence level, but their encoded proteins share a common four-transmembrane topology, including CD20 (MS4A1) and Fc⑀RI (MS4A2). To date, few functions for the MS4 family of proteins have been ascribed. However, a diverse functionality is beginning to emerge. These functions include roles such as cell surface signaling receptors and intracellular adapter proteins (1)(2)(3)(4)(5)22).Cell cycle progression is regulated by the sequential activation, and inactivation, of the cyclin-dependent kinases (cdks).

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The cell cycle associated protein, HTm4, is expressed in differentiating cellsof the hematopoietic and central nervous system in mice

et al. 2005

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HTm4 is a member of a newly defined family of human and murine proteins, the MS4 (membrane-spanning four) protein group, which has a distinctive four-transmembrane structure. MS4 protein functions include roles as cell surface signaling receptors and intracellular adapter proteins. We have previously demonstrated that HTm4 regulates the function of the KAP phosphatase, a key regulator of cell cycle progression. In humans, the expression of HTm4 is largely restricted to cells of the hematopoietic lineage, possibly reflecting a causal role for this molecule in differentiation/proliferation of hematopoietic lineage cells. In this study, we show that, like the human homologue, murine HTm4 is also predominantly a hematopoietic protein with distinctive expression patterns in developing murine embryos and in adult animals. In addition, we observed that murine HTm4 is highly expressed in the developing and adult murine nervous system, suggesting a previously unrecognized role in central and peripheral nervous system development.

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Therapeutic Effects of Bovine Enterovirus Infection on Rabbits with Experimentally Induced Adult T Cell Leukaemia

Shingu

Chinami²,

Taguchi³

1991

Journal of General Virology

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