A Potent and Site-Selective Agonist of TRPA1 / TRPA1の強力かつサイト選択的なアゴニスト

Takaya, Junichiro

23 March 2016

This document is the Accepted Manuscript version of a Published Work that appeared in final form in the Journal of the American Chemical Society, copyright ©American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see http://dx.doi.org/10.1021/jacs.5b10162. / 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第19611号 / 医博第4118号 / 新制||医||1015(附属図書館) / 32647 / 京都大学大学院医学研究科医学専攻 / (主査)教授 齊藤 博英, 教授 渡邊 直樹, 教授 松原 和夫 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

TRPA1

Cation channel

Chemical biology

Chemical library

Electron microscopy

490

Atomic Scale Characterization of Point Defects in the Ultra-Wide Band Gap Semiconductor β-Ga2O3

Johnson, Jared M.

January 2020

No description available.

Materials Science

wide band gap semiconductor

point defects

electron microscopy

Transmission Electron Microscopy Study of Listeria Monocytogenes Serotype 1/2A Cells Exposed to Sublethal Heat Stress and Carvacrol

Saha, Sulagna

09 May 2015

Previous findings showed that Listeria monocytogenes exhibits higher heat tolerance to thermal exposure at 60°C when pre-exposed to sublethal heat stress at 48°C for 30/60 min. The objective of this study was to investigate the morphological changes that occurred in L. monocytogenes serotype 1/2a cells as visualized by transmission electron microscopy (TEM) after exposure to sublethal heat stress at 48°C for 60 min and in combination with lethal concentration of carvacrol for 30 min. The TEM micrographs revealed thickening of cell wall and cell membrane, and clumping of cytoplasm when subjected to sublethal heat stress followed by carvacrol treatment. These studies indicate that L. monocytogenes cells when adapted to heat stress may alter its morphology to protect themselves against carvacrol. Further studies will investigate the effect of increased contact time with carvacrol and with other essential oils on the ultrastructural changes in L. monocytogenes cells adapted to heat stress.

Listeria monocytogenes

sublethal heat stress

carvacrol

electron microscopy

Comparison and Analysis of a Lignite Seam in the Wilcox Group, Choctaw and Kemper County, Mississippi

Johns, Joshua M

01 May 2010

The Wilcox Group includes the most abundant lignite bearing strata in Mississippi. Currently, the only lignite mine in Mississippi is located in Choctaw County with a proposed mine in Kemper County. Six lignite seams are currently mined in Choctaw County. One of those seams is believed to be continuous, from SE Choctaw County through central Winston County, NE Neshoba County into SW Kemper County (roughly 50 miles). Establishing a cross section from Choctaw to Kemper County verifying a continuous lignite seam would provide a stratigraphic marker horizon in correlation along strike, which is uncommon in the Wilcox Group sediments. Through observation of over 60 geophysical logs from test wells along strike, SEM and petrographic microscopy, the lignite seam was verified as being continuous from the mine in Choctaw County to the new proposed site in Kemper County and should be used as stratigraphic marker horizon for correlation along strike.

depositional environment

coal scanning electron microscopy

coal correlation

Study Of Food Digestion And Morphology Of Subterranean Termites From Mississippi

Arquette, Timothy Joseph

09 December 2011

The overall aim of this study was to provide new and updated information about subterranean termite morphology and digestive physiology. Scanning electron microscopy was used to obtain high resolution images of morphological features of the termite cuticle not discernable by light microscopy. In addition, digital scanning electron micrographs clearly show the appearance of wood particles recovered from the termite digestive tract at different stages of digestion. The ability of termites to obtain and conserve nitrogen in their diet was demonstrated by establishing whether the insect can digest chitin, as well as from determination of levels of soluble proteins and uric acid in the feces. Finally, a technique for determining the efficiency of cellulosic food digestion was tested. Scanning electron microscope images of alate abdomens showed similar appearance of cuticular structures between two subterranean termite species. In addition, the high magnification of electron microscopy allowed for identification of a pair of cuticular structures in the vicinity of the female genitalia that had not been reported from previous light microscope studies. Scanning electron microscopy also revealed the appearance of wood undergoing degradation as it traverses worker termite digestive tract, showing detail not possible from light microscope images. Adult workers of a native termite species were found to produce the enzymes needed to digest chitin, a nitrogen containing polysaccharide ingested by termites. Specific activity of chitinase was subsequently determined to establish the efficiency of chitin digestion for the termite species tested. As termites are coprophagous, significant levels of proteins measured from the feces demonstrated an additional potential dietary nitrogen source. Uric acid was generally found to be absent from termite feces, however. Digestive efficiency of wood cellulose could not be determined for Formosan termites due to the inability to obtain sufficient feces for quantification of undigested food contained in it. Previous studies of Formosan termite digestive efficiency did not address difficulty in obtaining feces for assay. Therefore, interpretation of data from earlier studies of Formosan termite digestive efficiency should be viewed with caution.

termites

chitin

cellulose

protozoa

symbiosis

electron microscopy

nitrogen

digestion

Telencephalic Terminals in the Major Retinal Synaptic Lamina of the Goldfish Optic Tectum

Airhart, Mark J., Kriebel, Richard M.

17 June 1985

Light and electron microscopic degeneration studies were used to examine the telencephalotectal pathway in goldfish. Both techniques showed that each telencephalic lobe sent bilateral projections to several tectal laminae. Degenerating synaptic terminals and fibers were observed in the major retinal projection lamina as well as in other tectal laminae. The terminals contained round to oval synaptic vesicles, asymmetric synapses and contacted relatively small postsynaptic profiles.

degeneration

electron microscopy

goldfish optic tectum

telencephalotectal terminals

Nucleation Mechanisms of Refined Alpha Microstructure in Beta Titanium Alloys

Zheng, Yufeng

25 July 2013

No description available.

Materials Science

titanium alloys

microstructure evolution

phase transformation

electron microscopy

Morphology and Internal Structure of Polymeric and Carbon Nanofibers

Zhenxin, Zhong

22 April 2011

No description available.

Polymers

Carbon Fiber

Electrospinning

Morphology

Nanofiber

Structure

Transmission Electron Microscopy

Structural and Compositional Analysis of Pristine and Cycled Li Ion Battery Cathode Material LiwMnxCoyNizO2

Yang, Fei

January 2015

Rechargeable lithium ion batteries are common materials in everyday applications. The most frequently used cathode material, LiCoO2, provides high energy density and stable charge/discharge performance. However, LiCoO2 is toxic and relatively expensive, therefore, other alternatives are being sought after in the development of battery materials, such as LiMn0.33Ni0.33Co0.33O2 (identified commonly as 333 compound). The 333 compound is now popular due to its comparable performance with LiCoO2, lower price, enhanced stability, and more environmentally friendly characteristics. In addition, Li1.2Mn0.54Ni0.13Co0.13O2 (HENMC) is still on the stage of testing and it attracts wide attention due to its higher rechargeable capacity and thermal stability. However, there are still challenges confronted: cycle stability and low rate capability. In order to verify all the roles played by different elements shown in NMC materials and explore the corresponding performance with different formula units, compositional analysis is needed. ICP-MS (inductively coupled plasma mass spectrometry) can provide bulk compositional information and has been used in recent work, giving a general idea of the composition of NMC materials. However, compositional inhomogeneity analysis has usually been neglected in these studies. Therefore, the objective of this work was to explore this variation in composition locally with higher spatial resolution, at the NMC particle level. This work was carried out through the use of scanning electron microscopy – energy dispersive spectroscopy (SEM-EDS) and Auger electron spectroscopy (AES). Furthermore, nano-scale quantitative analysis was done with transmission electron microscopy – energy dispersive spectroscopy (TEM-EDS). Moreover, an optimal approach and procedure of compositional analysis by using EDS and AES was explored with proper standards and operation conditions to provide consistent and stable results. The optimal quantification method was applied to investigate the compositions of 333 compound before and after ball milling and HENMC specimen before and after cycling. The results support the structural changes and in turn the electrochemical performance of the battery material. In the 333 compound, the electrochemical performance of the battery was deteriorated due to ball milling, during which Zr was introduced and particles were more compact. In HENMC, during cycling, the Mn distribution was homogeneous at the beginning, then inhomogeneous and homogeneous again, supporting the hypothesis of the transformation of phases: formation of spinel phase and potential SEI layer. In-depth structural analysis of different NMC materials has been reported previously by other groups. However, the structural effects due to cycling, within particles still needs investigation. Therefore, X-ray diffraction (XRD) was used to investigate the bulk material crystalline structure. Local nano-scale level structural variations amongst different isolated primary particles were investigated by the electron diffraction pattern based on TEM. The 333 compound and HENMC cycling was examined before and after cycling. After cycling, in the 333 compound, the O1 phase domains with P-3m1 space group appear inside the O3 phase with R-3m lattice. With more cycling, more domains appear. For HENMC, the original pristine samples exhibit the rhombohedral and monoclinic phases. After cycling, more and more spinel phase appear. Finally, after 100 cycles, we observe evidence of the potential solid electrolyte interphase (SEI) formation. In all, all the results above support the phase changes of 333 compound and HENMC. More investigations are needed to understand the degradation process of both compounds. / Thesis / Master of Materials Science and Engineering (MMatSE)

Li-ion battery

Cathode NMC material

Electron microscopy characterization

A Study of Sporulation and Spore Germination in Two-Spored Yeasts

Grewal, Narinder Singh

January 1971

Nuclear divisions during sporulation of 15 predominantly two-spored and 2 predominantly four-spored yeasts were followed by Giemsa staining and light microscopy. The number of nuclei present per ascus was related to the presence or absence of conjugation at the time of germination of the spores. Plating experiments and a modification of the Finder Slide technique were used to determine whether progeny cells that developed from single spores of 2 two-spored and one four-spored strain could sporulate. The ploidy of these yeasts at different stages of their life cycles was estimated by DNA extractions. The spores of the two-spored yeasts were very difficult to separate following removal of their ascus walls, and electron microscopy was employed in an attempt to account for this. / Thesis / Master of Science (MSc)

sporulation

yeast

nuclear division

germination

Finder Slide technique

electron microscopy