Atom probe tomographic assessment of the distribution of germanium atoms implanted in a silicon matrix through nano-apertures

Ion implantation through nanometer-scale apertures (nano-apertures) is a promising method to precisely position ions in silicon matrices, which is a requirement for next generation electronic and quantum computing devices. This paper reports the application of atom probe tomography (APT) to investigate the three-dimensional distribution of germanium atoms in silicon after implantation through nano-aperture of 10 nm in diameter, for evaluation of the amount and spatial distribution of implanted dopants. The experimental results obtained by APT are consistent with a simple simulation with consideration of several effects during lithography and ion implantation, such as channeling and resist flow.

Performance enhancement of semiconductor devices by control of discrete dopant distribution

As semiconductor devices are scaled down to the nanometre level, random dopant fluctuation in the conducting channel caused by the small number of dopant atoms will significantly affect device performance. We fabricated semiconductor devices with random discrete dopant distribution in the drain side and then evaluated how well we could control the drain current of the devices. The results showed that the drain current in devices with the dopant distribution in the drain side was several per cent higher than that in devices with the dopant distribution in the source side. We believe that this increase in current is caused by the suppression of injection velocity degradation in the source side. The capability to control the location of individual dopant atoms enhances drain current and, therefore, the performance of nanodevices. Accurately controlling both the amount and the positioning of dopant atoms is critical for the advancement of true nanoelectronics.

A reliable method for the counting and control of single ions for single-dopant controlled devices

By 2016, transistor device size will be just 10 nm. However, a transistor that is doped at a typical concentration of 10(18) atoms cm(-3) has only one dopant atom in the active channel region. Therefore, it can be predicted that conventional doping methods such as ion implantation and thermal diffusion will not be available ten years from now. We have been developing a single-ion implantation (SII) method that enables us to implant dopant ions one-by-one into semiconductors until the desired number is reached. Here we report a simple but reliable method to control the number of single-dopant atoms by detecting the change in drain current induced by single-ion implantation. The drain current decreases in a stepwise fashion as a result of the clusters of displaced Si atoms created by every single-ion incidence. This result indicates that the single-ion detection method we have developed is capable of detecting single-ion incidence with 100% efficiency. Our method potentially could pave the way to future single-atom devices, including a solid-state quantum computer.

Rapid and efficient identification of cysteine-rich peptides by random screening of a venom gland cDNA library from the hexathelid spider Macrothele gigas

We identified novel 10 multi-cysteine peptides, namely Magi 7-16, from the spider Macrothele gigas by simple random cDNA screening of the venom gland. Mass analysis of the crude venom detected the mass numbers of the cross-linked forms of all peptides, confirming their presence in the venom. Magi 11, a C-terminus amidated peptide, was chemically synthesized and was indistinguishable from the native peptide proving the feasibility of the method for peptide identification. Moreover, toxicological assays showed diverse lethal or paralytic activities of these peptide toxins on mice and/or insects.

Synthesis and paralytic activities of squaryl amino acid-containing polyamine toxins

Eight analogs 4A-7A and 4B-7B of philanthotoxin (PhTX) from wasp venom and nephilatoxin-8 (NPTX-8) from spider venom whose tyrosine or asparagine linker is replaced by squaryl (sq) amino acid or 4-amino squaryl (4-asq) amino acid have been synthesized in an efficient manner via coupling of N-acyl squaryl amino acid intermediate 19 or 26 with the corresponding polyamine part. Preliminary bioassay using crickets revealed that the analogs substituted by glutamate-type squaryl amino acid-containing NPTX 7A and 7B showed more potent paralytic activities than that of NPTX-8.

[Effects of the peripheral vision on visually induced vertigo]

Visually induced vertigo, or motion sickness, is thought to be mainly influenced by motion perception, not by shape perception. We examined this point by comparing the effect of the foveal vision on the visually induced vertigo with that of the peripheral vision. We set up three kinds of display conditions: Foveal vision (F), peripheral vision (P), and foveal + peripheral vision (F + P). Videotaped motion was presented on the display. The results showed that a drifting eye movement was larger after the experiment than before the experiment in the (P) and the (F + P) conditions, but not in the (F) condition. In addition, the mirror drawing was improved only in the (F) condition. Subjective ratings for the vertigo were higher in both the (P) and the (F + P) conditions than in the (F) condition. These results indicate that some visual units concerning low spatial frequencies participate in the visually induced vertigo.

Biosynthesis of phytosiderophores, mugineic acids, associated with methionine cycling

The biosynthesis of 2'-deoxymugineic acid, a key phytosiderophore, was examined in association with the putative methionine recycling pathway in the roots of wheat using labeling experiments and structural analysis. Feeding with D-[1-13C]ribose did not result in 13C enrichment of 2'-deoxymugineic acid, while D-[2-13C]ribose resulted in 13C enrichment at the C-4", -1, -4' positions, and D-[5-13C]ribose did in C-1', -4, and -1" positions of 2'-deoxymugineic acid, respectively. Furthermore, two isotope-labeled intermediates of the methionine recycling pathway, 5-[5-2H2]methylthioribose and 2-[1-13C]keto-4-methylthiobutyric acid, were synthesized, and their incorporation into 2'-deoxymugineic acids was investigated. Six deuterium atoms at the C-4, -1', and -1" positions of 2'-deoxymugineic acid were observed after feeding with 5-[5-2H2]methylthioribose. Feeding with 2-[1-13C]keto-4-methylthiobutyric acid yielded 2'-deoxymugineic acid enriched with 13C at the C-4', -1, and -4" positions. These results demonstrated for the first time that the biosynthesis of 2'-deoxymugineic acid is associated with the methionine recycling pathway. This association system functions to recycle methionine required for continued synthesis of mugineic acids in the roots of gramineous plants.

Interaction of tryptophan-182 with the retinal 9-methyl group in the L intermediate of bacteriorhodopsin

An intense indole N-H stretching vibrational band at 3486 cm-1 in the difference Fourier transform infrared spectrum is one of the characteristic features of the L intermediate of bacteriorhodopsin [Maeda, Sasaki, Ohkita, Simpson, & Herzfeld (1992) Biochemistry 31, 12543]. This band is now assigned to tryptophan-182. The Trp182-->Phe (W182F) protein shows specific features in the difference spectrum in the visible region upon L formation, and exhibits great delay in the L-M conversion. Fourier transform infrared difference spectra further indicate that while the intensity of the C-methyl in-plane bending vibration at 1009 cm-1 is lost in the L intermediate of the wild type, its intensity remains high in the W182F protein. The intensity of the N-H stretching vibration upon L formation is diminished considerably in an artificial bacteriorhodopsin containing 9-desmethylretinal. It also exhibits delayed M formation. These results suggest that Trp182 interacts with the retinal side chain through the 9-methyl group, and thereby affects the L-to-M conversion.

Synthesis of fluorine analogues of protoporphyrin potentially useful for diagnosis and therapy of tumors

With the aim of obtaining a porphyrin derivative useful for diagnosis and therapy of cancer, fluorine analogues of protoporphyrin, in which the vinyl group(s) were replaced by difluorovinyl group(s), were synthesized by the reaction of the formylporphyrins with sodium chlorodifluoroacetate in the presence of triphenylphosphine. Some improvements in the reported procedures for the synthesis of formylporphyrins are also described. Preliminary results of biological tests of the products showed that 8(2),8(2)-difluoroprotoporphyrin accumulates to gastric cancer more selectively than other fluorine analogues and that 3(2),3(2),8(2),8(2)-tetrafluoroprotoporphyrin is taken up by rat hepatoma cells more readily than the others.

Inhibitory effect of various gestagens upon the pregnenolone 3 beta-ol-dehydrogenase-delta 5-4-isomerase system in human corpora lutea of menstrual cycles

The inhibitory effect of various gestagens upon the pregnenolone 3 beta-ol-dehydrogenase-delta5-4-isomerase system in 10,000 X g supernatants of human corpora lutea of the menstrual cycle has been investigated in in vitro experiments. The Km value for pregnenolone was 1.3 X 10(-6) M. All gestations reduced the rate of conversion of pregnenolone to progesterone. As compared with controls, average relative rates of reaction with additives were as follows: progesterone, 47%; 17-hydroxyprogesterone, 64% norethisterone, 33%; chlormadinone acetate, 47% medroxyprogesterone acetate, 53%; dydrogesterone, 62%; and allylestrenol, 74%. The data substantiate that natural or synthetic gestagens, at least in vitro, inhibit the conversion of pregnenolone to progesterone by human corpora lutea and that natural progesterone itself is a potent inhibitor which appears to acut noncompetitively (K1 =2.2 X 10(-5) M).

The conversion of pregnenolone-7alpha-3H and progesterone-4-14C to estrogens by corpora lutea of menstrual cycles and pregnancy

The metabolism of pregnenolone-7alpha-3H and progesterone-4-14C by human corpora lutea tissue of menstrual cycles and pregnancy was studied. In the incubations, equimolar mixtures of pregnenolone-7alpha-3H and progesterone-4-14C were used as substrates. Three corpora lutea of cycles were used as minced tissue. From those corpora lutea progesterone, 17-hydroxyprogesterone and androstenedione were formed, although no estrogens were formed. One corpus luteum of cycle and one corpus luteum of pregnancy were used as homogenated tissue, and those formed estrone and estradiol as well as the same three delta4-metabolites. The corpus luteum of cycle also formed testosterone. All metabolites including estrogens showed the lower 3H to 14C ratio than the starting ratio. 17-hydroxypregnenolone in only one corpus luteum, and no delta5-metabolites in the other four corpus luteum were identified. It is therefore proposed that the major pathway for estrogen formation in human corpus luteum is pregnenolone yields progesterone yields 17-hydroxyprogesterone yields androstenedione (or testosterone) yields estrone and estradiol.