277 research outputs found

    X-ray diffraction study on interdigitated structure of phosphatidylcholines in glycerol

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    X-ray diffraction was used to study the interdigitated structure of phosphatidylcholines in glycerol. In this study, we investigated five different saturated diacyl phosphatidylcholines with carbon number from 14 to 18 in their acyl chains. It was found that lamellar spacings increase linearly as increasing the carbon number in the chains and that the increment is 0.10 ± 0.01 nm per one carbon atom. The lamellar diffraction intensity data were analyzed, by applying a method proposed by Adachi [Chem. Phys. Lipids 107 (2000) 93-97]. The results indicate that the moiety around polar headgroup regions is almost unchanged, being independent of the carbon number

    A limitation on security evaluation of cryptographic primitives with fixed keys

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    In this paper, we discuss security of public‐key cryptographic primitives in the case that the public key is fixed. In the standard argument, security of cryptographic primitives are evaluated by estimating the average probability of being successfully attacked where keys are treated as random variables. In contrast to this, in practice, a user is mostly interested in the security under his specific public key, which has been already fixed. However, it is obvious that such security cannot be mathematically guaranteed because for any given public key, there always potentially exists an adversary, which breaks its security. Therefore, the best what we can do is just to use a public key such that its effective adversary is not likely to be constructed in the real life and, thus, it is desired to provide a method for evaluating this possibility. The motivation of this work is to investigate (in)feasibility of predicting whether for a given fixed public key, its successful adversary will actually appear in the real life or not. As our main result, we prove that for any digital signature scheme or public key encryption scheme, it is impossible to reduce any fixed key adversary in any weaker security notion than the de facto ones (i.e., existential unforgery against adaptive chosen message attacks or indistinguishability against adaptive chosen ciphertext attacks) to fixed key adversaries in the de facto security notion in a black‐box manner. This result means that, for example, for any digital signature scheme, impossibility of extracting the secret key from a fixed public key will never imply existential unforgery against chosen message attacks under the same key as long as we consider only black‐box analysis

    Polar-Nonpolar Interfaces of Normal Bicontinuous Cubic Phases in Nonionic Surfactant/Water Systems Are Parallel to the Gyroid Surface

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    We investigated the structures of normal (type I) bicontinuous cubic phases in hexa-, hepta-, and octaethylene glycol dodecyl ether/water mixtures by small-angle X-ray crystallography of single-crystal domains. Reconstructed electron densities showed that the hydrophilic chains with high electron density are confined to a film centered on the surface of the Gyroid (a triply periodic minimal surface), while hydrophobic chains with low electron density are distributed within the pair of interwoven labyrinths carved out by the Gyroid. Further, the local minimum within the high electron density region, due to bulk water, coincides precisely with the Gyroid. This minimum is less pronounced in mixtures with longer ethylene glycol chains, consistent with their decreased water content. Our analysis clearly shows that the polar-nonpolar interfaces are parallel to the Gyroid surface in all mixtures. The repulsive hydration or overlapping force between the pair of facing monolayers of ethylene glycol chains on either side of the Gyroid surface is the likely origin of the parallel interfaces.This work was supported by JSPS KAKENHI Grant Numbers 15K05243 and 18K03557. Part of this research was based on a Cooperative Research Project of the Research Institute of Electronics, Shizuoka University. The synchrotron radiation experiments were performed using BL40B2 at SPring-8 with the approval of the Japan Synchrotron Radiation Research Institute (JASRI) (Proposal Nos. 2016A1174, 2016B1339, 2017A1352)

    Formation of gamma-glutamylpropargylglycylglycine from propargylglycine in human blood and erythrocytes

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    Gamma-Glutamylpropargylglycylglycine (gamma-Glu-PPG-Gly) was isolated as a metabolite of propargylglycine (2-amino-4-pentynoic acid, a natural and synthetic inhibitor of cystathionine gamma-lyase) from human blood incubated with D,L-propargylglycine in the presence of L-glutamate and glycine, and identified by fast-atom-bombardment mass spectrometry, indicating that human blood can metabolize propargylglycine to gamma-Glu-PPG-Gly. When whole blood was incubated with 2 mM D,L-propargylglycine in the presence of 10 mM L-glutamate and 10 mM glycine at 37 degrees C for 16h, 0.094+/-0.013 micromol of gamma-Glu-PPG-Gly was formed per ml of whole blood. When erythrocytes were incubated under the same conditions for 16h, 0.323+/-0.060 micromol of gamma-Glu-PPG-Gly was formed per ml of erythrocytes, suggesting a large contribution of erythrocytes to gamma-Glu-PPG-Gly formation in whole blood. The apparent Km value of gamma-Glu-PPG-Gly formation in human erythrocytes for D,L-propargylglycine was 0.32 mM. The observed rate of gamma-Glu-PPG-Gly formation and the Km value for D,L-propargylglycine suggest that metabolism of propargylglycine to gamma-Glu-PPG-Gly can play a definite biological role in human subjects who are loaded with propargylglycine.</p

    Towards corneal structure mapping in the living eye using a combined X-ray scattering, biomedical imaging and machine learning approach

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    Corneal blindness is a leading cause of vision loss worldwide. Corneal curvature and transparency depend on the cornea’s unique collagen fibril architecture and, while much progress has been made in mapping collagen structure in cadaveric corneas, there is currently no way of imaging collagen fibril organization in the living eye. Our ultimate goal is to develop new artificial intelligence (AI)-assisted bioimaging technology to map collagen structure in live patient corneas. Here we present results from SPring-8 beamline BL40B2 in the form of wide-angle X-ray scattering (WAXS) maps of corneal structure from ex-vivo porcine eyes, which were previously scanned via optical coherence tomography (OCT), and will be used as a platform to train machine learning algorithms to “read” the equivalent in-vivo data from OCT images obtained from human patients

    An X-ray diffraction study on a single rod outer segment from frog retina

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    X-ray diffraction was recorded from retinal rod outer segments of frog using a microbeam

    Message Modification for Step 21-23 on SHA-0

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    In CRYPTO 2005, Xiaoyun Wang, Hongbo Yu and Yiqun Lisa Yin proposed an efficient collision attack on SHA-0. Collision messages are found with complexity 2392^{39} SHA-0 operations by using their method. Collision messages can be obtained when a message satisfying all sufficient conditions is found. In their paper, they proposed message modifications that can satisfy all sufficient conditions of step 1-20. However, they didn\u27t propose message modifications for sufficient conditions after step 21. In this paper, we propose message modifications for sufficient conditions of step 21-23. By using our message modifications, collision messages are found with complexity 2362^{36} SHA-0 operations

    Comprehensive investigation of areae gastricae pattern in gastric corpus using magnifying narrow band imaging endoscopy in patients with chronic atrophic fundic gastritis.

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    Background:  Barium radiographic studies have suggested the importance of evaluating areae gastricae pattern for the diagnosis of gastritis. Significance of endoscopic appearance of areae gastricae in the diagnosis of chronic atrophic fundic gastritis (CAFG) was investigated by image-enhanced endoscopy. Materials and Methods:  Endoscopic images of the corpus lesser curvature were studied in 50 patients with CAFG. Extent of CAFG was evaluated with autofluorescence imaging endoscopy. The areae gastricae pattern was evaluated with 0.2% indigo carmine chromoendoscopy. Micro-mucosal structure was examined with magnifying chromoendoscopy and narrow band imaging. Results:  In patients with small extent of CAFG, polygonal areae gastricae separated by a narrow intervening part of areae gastricae was observed, whereas in patients with wide extent of CAFG, the size of the areae gastricae decreased and the width of the intervening part of areae gastricae increased (p < 0.001). Most areae gastricae showed a foveola-type micro-mucosal structure (82.7%), while intervening part of areae gastricae had a groove-type structure (98.0%, p < 0.001). Groove-type mucosa had a higher grade of atrophy (p < 0.001) and intestinal metaplasia (p < 0.001) compared with foveola type. Conclusions:  As extent of CAFG widened, multifocal groove-type mucosa that had high-grade atrophy and intestinal metaplasia developed among areae gastricae and increased along the intervening part of areae gastricae. Our observations facilitate our understanding of the development and progression of CAFG

    Oxidative stress causes enhanced endothelial cell injury in human heme oxygenase-1 deficiency

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    金沢大学医薬保健研究域医学系The first known human case of heme oxygenase-1 (HO-1) deficiency is presented in this report. The patient is a six-year-old boy with severe growth retardation. He has been suffering from persistent hemolytic anemia characterized by marked erythrocyte fragmentation and intravascular hemolysis, with paradoxical increase of serum haptoglobin and low bilirubin. An abnormal coagulation/fibrinolysis system, associated with elevated thrombomodulin and von Willebrand factor, indicated the presence of severe, persistent endothelial damage. Electron microscopy of renal glomeruli revealed detachment of endothelium, with subendothelial deposition of an unidentified material. Iron deposition was noted in renal and hepatic tissue. Immunohistochemistry of hepatic tissue and immunoblotting of a cadmium- stimulated Epstein-Barr virus-transformed lymphoblastoid cell line (LCL) revealed complete absence of HO-1 production. An LCL derived from the patient was extremely sensitive to hemin-induced cell injury. Sequence analysis of the patient\u27s HO-1 gene revealed complete loss of exon-2 of the maternal allele and a two-nucleotide deletion within exon3 of the paternal allele. Growth retardation, anemia, iron deposition, and vulnerability to stressful injury are all characteristics observed in recently described HO-1 targeted mice. This study presents not only the first human case of HO-1 deficiency but may also provide clues to the key roles played by this important enzyme in vivo
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