Publications by authors named "Takahisa Ikegami"

Bacteria that have acquired resistance to most antibiotics, particularly those causing nosocomial infections, create serious problems. Among these, the emergence of vancomycin-resistant enterococci was a tremendous shock, considering that vancomycin is the last resort for controlling methicillin-resistant Staphylococcus aureus. Therefore, there is an urgent need to develop an inhibitor of VanX, a protein involved in vancomycin resistance.

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Sirtuin 2 (SIRT2) is a class III histone deacetylase that is highly conserved from bacteria to mammals. We prepared and characterized the wild-type (WT) and mutant forms of the histone deacetylase (HDAC) domain of human SIRT2 (hSIRT2) using various biophysical methods and evaluated their deacetylation activity. We found that WT hSIRT2 HDAC (residues 52-357) forms a homodimer in a concentration-dependent manner with a dimer-monomer dissociation constant of 8.

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Hepatocyte nuclear factor 1β (HNF1β) is a transcription factor that plays a key role in the development and function of the liver, pancreas, and kidney. HNF1β plays a key role in early vertebrate development and the morphogenesis of these organs. In humans, heterozygous mutations in the HNF1B gene can result in organ dysplasia, making it the most common cause of developmental renal diseases, including renal cysts, renal malformations, and familial hypoplastic glomerular cystic kidney disease.

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Orexin neuropeptides have many physiological roles in the sleep-wake cycle, feeding behavior, reward demands, and stress responses by activating cognitive receptors, the orexin receptors (OX1R and OX2R), distributed in the brain. There are only subtle differences between OX1R and OX2R in the orthosteric site, which has hindered the rational development of subtype-selective antagonists. In this study, we utilized solution-state NMR to capture the structural plasticity of OX2R labeled with CH-ε-methionine in complex with antagonists.

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Glioma amplified sequence 41 (GAS41), which has the Yaf9, ENL, AF9, Taf14, and Sas5 (YEATS) domain that recognizes lysine acetylation (Kac), regulates gene expression as a subunit of the SRCAP (SNF2-related CREBBP activator protein) complex that deposits histone H2A.Z at promoters in eukaryotes. The YEATS domains of the proteins AF9 and ENL recognize Kac by hydrogen bonding the aromatic cage to arginine situated just before K9ac or K27ac in the N-terminal tail of histone H3.

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The relaxation dispersion (rd) of nuclear magnetic resonance provides thermodynamic and kinetic information regarding molecules for which the conformations are exchanging in equilibrium. Experiments have often been implemented with Carr-Purcell-Meiboom-Gill (CPMG) pulse sequences for heteronuclear S-spin in SI and SI spin systems. One of the most common CPMG sequences contains a sequence called a P-element in the middle to average the different relaxation rates of anti-phase and in-phase coherences; however, its drawback is that the artifacts that can be compensated for are only those in one of the two S-spin doublet magnetization components, for example, SI or SI in an SI spin system.

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Ubiquitin-like with PHD and RING finger domain-containing protein 1 (UHRF1)-dependent DNA methylation is essential for maintaining cell fate during cell proliferation. Developmental pluripotency-associated 3 (DPPA3) is an intrinsically disordered protein that specifically interacts with UHRF1 and promotes passive DNA demethylation by inhibiting UHRF1 chromatin localization. However, the molecular basis of how DPPA3 interacts with and inhibits UHRF1 remains unclear.

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Proton translocation through the membrane-embedded F component of F-type ATP synthase (FF) is facilitated by the rotation of the F -subunit ring (-ring), carrying protons at essential acidic amino acid residues. Cryo-electron microscopy (Cryo-EM) structures of FF suggest a unique proton translocation mechanism. To elucidate it based on the chemical conformation of the essential acidic residues of the -ring in FF, we determined the structure of the isolated thermophilic F (tF) -ring, consisting of 10 subunits, in membranes by solid-state NMR.

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Heme oxygenase (HO) converts heme to carbon monoxide, biliverdin, and free iron, products that are essential in cellular redox signaling and iron recycling. In higher plants, HO is also involved in the biosynthesis of photoreceptor pigment precursors. Despite many common enzymatic reactions, the amino acid sequence identity between plant-type and other HOs is exceptionally low (∼19.

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SeviL is a recently isolated lectin found to bind to the linear saccharides of the ganglioside GM1b (Neu5Ac[Formula: see text](2-3)Gal[Formula: see text](1-3)GalNAc[Formula: see text](1-4)Gal[Formula: see text](1-4)Glc) and its precursor, asialo-GM1 (Gal[Formula: see text](1-3)GalNAc[Formula: see text](1-4)Gal[Formula: see text](1-4)Glc). The crystal structures of recombinant SeviL have been determined in the presence and absence of ligand. The protein belongs to the [Formula: see text]-trefoil family, but shows only weak sequence similarity to known structures.

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C-direct detection NMR has several advantages compared to proton detection, including a tendency to relax slower and wider chemical shift range. However, the sensitivity of C-direct detection is much lower than that of proton detection because of its lower gyromagnetic ratio. In addition, a virtual decoupling procedure is often performed to remove peak splitting in the C-direct detection axis, which further reduces the sensitivity to 1/√2.

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A convenient analytical system for protein-ligand interactions under crude conditions was developed using native mass spectrometry (MS). As a model protein, Escherichia coli (E. coli) dihydrofolate reductase (DHFR) with and without a histidine tag was used for the study.

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Calcium (Ca) and redox signaling enable cells to quickly adapt to changing environments. The signaling protein calredoxin (CRX) from the green alga is a chloroplast-resident thioredoxin having Ca-dependent activity and harboring a unique combination of an EF-hand domain connected to a typical thioredoxin-fold. Using small-angle X-ray scattering (SAXS), FRET, and NMR techniques, we found that Ca-binding not only induces a conformational change in the EF-hand domain, but also in the thioredoxin domain, translating into the onset of thioredoxin redox activity.

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Photosynthetic complex I enables cyclic electron flow around photosystem I, a regulatory mechanism for photosynthetic energy conversion. We report a 3.3-angstrom-resolution cryo-electron microscopy structure of photosynthetic complex I from the cyanobacterium The model reveals structural adaptations that facilitate binding and electron transfer from the photosynthetic electron carrier ferredoxin.

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: The tight junction is an intercellular adhesion complex composed of claudins (CLDs), occludin, and the scaffolding proteins zonula occludens 1 (ZO-1) and its two paralogs ZO-2 and ZO-3. ZO-1 is a multifunctional protein that contains three PSD95/Discs large/ZO-1(PDZ) domains. A key functional domain of ZO-1 is the first PDZ domain (ZO-1(PDZ1)) that recognizes the conserved C-termini of CLDs.

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Chitin-binding domain of chitinase A1 (ChBD ) is characteristic because it binds only to insoluble crystalline chitin. While binding sites of major carbohydrate-binding modules carry multiple aromatic rings aligned on a surface, lethal mutations for ChBD were reported only at W687, a location completely different from the site mentioned above, in spite of their similar main-chain folds. Here, the structural mechanism underlying its crystalline chitin binding was uncovered by solid-state NMR.

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Photosystem I (PSI), a large protein complex located in the thylakoid membrane, mediates the final step in light-driven electron transfer to the stromal electron carrier protein ferredoxin (Fd). Here, we report the first structural description of the PSI-Fd complex from Thermosynechococcus elongatus. The trimeric PSI complex binds three Fds in a non-equivalent manner.

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Ferredoxins (FDX) and the FDX:NADP oxidoreductase (FNR) represent a key junction of electron transport downstream of photosystem I (PSI). Dynamic recruitment of FNR to the thylakoid membrane has been considered as a potential mechanism to define the fate of photosynthetically derived electrons. In this study, we investigated the functional importance of the association of FNR with the photosynthetic apparatus in Chlamydomonas reinhardtii.

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Although electrostatic interactions between negatively charged ferredoxin (Fd) and positively charged sulfite reductase (SiR) have been predominantly highlighted to characterize complex formation, the detailed nature of intermolecular forces remains to be fully elucidated. We investigated interprotein forces for the formation of an electron transfer complex between Fd and SiR and their relationship to SiR activity using various approaches over NaCl concentrations between 0 and 400 mM. Fd-dependent SiR activity assays revealed a bell-shaped activity curve with a maximum ∼40-70 mM NaCl and a reverse bell-shaped dependence of interprotein affinity.

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PetP is a peripheral subunit of the cytochrome b(6)f complex (b(6)f) present in both, cyanobacteria and red algae. It is bound to the cytoplasmic surface of this membrane protein complex where it greatly affects the efficiency of the linear photosynthetic electron flow although it is not directly involved in the electron transfer reactions. Despite the crystal structures of the b(6)f core complex, structural information for the transient regulatory b(6)f subunits is still missing.

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Here, we have compiled a nuclear magnetic resonance (NMR)-derived set of nuclear Overhauser enhancement (NOE) distance and dihedral angle restraints that allow for the calculation of the structure of the NDH-1 complex subunit CupS from Thermosynechococcus elongatus in solution. These restraints to calculate the structure in solution of CupS have been deposited to the Protein Data Bank (www.rcsb.

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The conformational fluctuation in the minimum DNA-binding domain of c-Myb, repeats 2 and 3 (R2R3), was studied under closely physiological conditions. A global unfolding transition, involving both the main chain and the side chains, was found to take place at the approximate temperature range 30-70 °C, with a transition temperature of approximately 50 °C. In addition, the observation of simultaneous shift change and broadening of NMR signals in both (1)H one-dimensional and (15)N/(1)H two-dimensional NMR spectra indicated the occurrence of locally fluctuating state at physiological temperature.

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In chloroplasts, ferredoxin (Fd) is reduced by Photosystem I (PSI) and oxidized by Fd-NADP(+) reductase (FNR) that is involved in NADP(+) reduction. To understand the structural basis for the dynamics and efficiency of the electron transfer reaction via Fd, we complementary used X-ray crystallography and nuclear magnetic resonance (NMR) spectroscopy. In the NMR analysis of the formed electron transfer complex with Fd, the paramagnetic effect of the [2Fe-2S] cluster of Fd prevented us from detecting the NMR signals around the cluster.

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Intrinsically disordered proteins (IDPs) that lack stable conformations and are highly flexible have attracted the attention of biologists. Therefore, the development of a systematic method to identify polypeptide regions that are unstructured in solution is important. We have designed an "indirect/reflected" detection system for evaluating the physicochemical properties of IDPs using nuclear magnetic resonance (NMR).

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Although acidic residues of ferredoxin (Fd) are known to be essential for activities of various Fd-dependent enzymes, including ferredoxin NADP(+) reductase (FNR) and sulfite reductase (SiR), through electrostatic interactions with basic residues of partner enzymes, non-electrostatic contributions such as hydrophobic forces remain largely unknown. We herein demonstrated that intermolecular hydrophobic and charge-charge interactions between Fd and enzymes were both critical for enzymatic activity. Systematic site-directed mutagenesis, which altered physicochemical properties of residues on the interfaces of Fd for FNR /SiR, revealed various changes in activities of both enzymes.

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