H. Shimizu scite author profile

The rice low-temperature-induced lip19 gene encodes a 148-amino-acid basic region/leucine zipper (bZIP) protein, termed LIP19. In this study we characterized LIP19 and showed that it lacks the usual ability of bZIP proteins to homodimerize and to bind DNA, as does the Fos protein in mammals. Using a yeast two-hybrid system, the cDNA clones whose products interact with LIP19 were screened. This search revealed a clone termed OsOBF1 (Oryza sativa OBF1) that encodes a new bZIP protein (OsOBF1). This protein forms a homodimer and binds to the hexamer motif sequence (5'-ACGTCA-3'). The protein-protein interaction in homo- and hetero-combinations between LIP19 and OsOBF1 was confirmed in vitro and in planta. LIP19 and OsOBF1 most likely interact with each other more strongly than OsOBF1 interacts with itself, and the resulting heterodimer binds to the C/G hybrid sequence but not to the hexamer sequence. Whereas the expression patterns of lip19 and OsOBF1 in response to low temperatures were totally opposite, the locations of their expression were almost identical. Based upon the presented data, we propose a model describing the low-temperature signal switching mediated by LIP19 in rice.

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Structures of Trypanosoma cruzi Dihydroorotate Dehydrogenase Complexed with Substrates and Products: Atomic Resolution Insights into Mechanisms of Dihydroorotate Oxidation and Fumarate Reduction

Inaoka

Sakamoto

Shimizu

et al. 2008

Biochemistry

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Dihydroorotate dehydrogenase (DHOD) from Trypanosoma cruzi (TcDHOD) is a member of family 1A DHOD that catalyzes the oxidation of dihydroorotate to orotate (first half-reaction) and then the reduction of fumarate to succinate (second half-reaction) in the de novo pyrimidine biosynthesis pathway. The oxidation of dihydroorotate is coupled with the reduction of FMN, and the reduced FMN converts fumarate to succinate in the second half-reaction. TcDHOD are known to be essential for survival and growth of T. cruzi and a validated drug target. The first-half reaction mechanism of the family 1A DHOD from Lactococcus lactis has been extensively investigated on the basis of kinetic isotope effects, mutagenesis and X-ray structures determined for ligand-free form and in complex with orotate, the product of the first half-reaction. In this report, we present crystal structures of TcDHOD in the ligand-free form and in complexes with an inhibitor, physiological substrates and products of the first and second half-reactions. These ligands bind to the same active site of TcDHOD, which is consistent with the one-site ping-pong Bi-Bi mechanism demonstrated by kinetic studies for family 1A DHODs. The binding of ligands to TcDHOD does not cause any significant structural changes to TcDHOD, and both reduced and oxidized FMN cofactors are in planar conformation, which indicates that the reduction of the FMN cofactor with dihydroorotate produces anionic reduced FMN. Therefore, they should be good models for the enzymatic reaction pathway of TcDHOD, although orotate and fumarate bind to TcDHOD with the oxidized FMN and dihydroorotate with the reduced FMN in the structures determined here. Cys130, which was identified as the active site base for family 1A DHOD (Fagan, R. L., Jensen, K. F., Bjornberg, O., and Palfey, B. A. (2007) Biochemistry 46, 4028-4036.), is well located for abstracting a proton from dihydroorotate C5 and transferring it to outside water molecules. The bound fumarate is in a twisted conformation, which induces partial charge separation represented as C 2 (delta-) and C 3 (delta+). Because of this partial charge separation, the thermodynamically favorable reduction of fumarate with reduced FMN seems to proceed in the way that C 2 (delta-) accepts a proton from Cys130 and C 3 (delta+) a hydride (or a hydride equivalent) from reduced FMN N 5 in TcDHOD.

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Significance of Platelet-Derived Microparticles and Activated Platelets in Diabetic Nephropathy

Omoto¹,

Nomura²,

Shouzu³

et al. 1999

Nephron

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We measured levels of platelet-derived microparticles (PMP), which have coagulative activity and are produced by platelet activation or physical stimulation, and CD62P/CD63-positive platelets in patients with diabetes mellitus to determine their clinical significance and effects on complications of diabetes including diabetic nephropathy. We also compared these levels before and after administration of the antiplatelet drug cilostazol. Plasma PMP and CD62P/CD63-positive platelet levels were significantly higher in patients with diabetes mellitus than normal controls. CD62P-positive platelet levels were significantly higher in patients with nephropathy than in patients without complications. After administration of cilostazol, PMP and CD62P/CD63-positive platelet levels were significantly decreased. The increases in platelet activity and its related procoagulant activity appear to account in part for the hypercoagulability observed in diabetes mellitus. Our findings suggest that activated platelets might play a role in the development of diabetic nephropathy. Furthermore, antiplatelet therapy with cilostazol for diabetic patients may be useful as antithrombin therapy including antiplatelet therapy, since it suppresses the production of intrinsic coagulants produced by platelet activation.

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H. Shimizu

LIP19, a Basic Region Leucine Zipper Protein, is a Fos-like Molecular Switch in the Cold Signaling of Rice Plants

Structures of Trypanosoma cruzi Dihydroorotate Dehydrogenase Complexed with Substrates and Products: Atomic Resolution Insights into Mechanisms of Dihydroorotate Oxidation and Fumarate Reduction

Significance of Platelet-Derived Microparticles and Activated Platelets in Diabetic Nephropathy

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