http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
형광분광분석법에 의한 Methylene Blue 와 Thionine 의 Metachromasy
이후설 ( Hoo Seol Lee ) 한국유화학회 1997 한국응용과학기술학회지 Vol.14 No.2
Metachromatic properties of admixture of methylene blue(MB) and thionin in aqueous solution has been studied by fluorescence spectroscopy. In spite of nonfluorescence character has been MB itself, mixing MB to monomeric concentration of thionine, new coaggregation band has been formed in shorter wave length than fluorescence of thionine because of MB was redistributed to thionine aggregate. It suggested that coaggregate of MB and thionine were more tightly formed than the each dye aggregate.
L-${\alpha}$-lecithin 이중층막에서 Methylene Blue의 회합
이홍,이후설,Lee, Hong,Lee, Hoo-Seol 대한화학회 1991 대한화학회지 Vol.35 No.6
Sodium dodecyl sulfate(SDS), chondroitin sulfate 그리고 L-${\alpha}$-lecithin vesicle의 각각의 수용액에서 methylene blue (MB)의 metachromatic 성질을 $18^{\circ}$C에서 $52^{\circ}$C까지 흡수분광법으로 측정했다. MB는 지질이 고농도일 때 vesicle 매트릭스에 뭉치를 형성했다. MB의 metachromasy는 vesicle의 상전이 온도에 무관하게 나타났으며, 이것은 색소가 vesicle의 친수성 표면에서 회합함을 의미한다. Vesicle에서 MB의 metachromasy 현상은 hexadecyltrimethylammonium bromide(CTAB)를 첨가할 때보다 SDS를 첨가할 때 매우 약하게 관측되었다. 이것은 vesicle 표면에서 계면활성제들의 끼어드는 위치가 다른 것으로 보이며, CTAB가 SDS보다 색소뭉치 사이에 더욱 잘 끼어드는 것으로 사료된다. Metachromatic behavior of methylene blue (MB) in solutions of aqueous sodium dodecyl sulfate (SDS), chondroitin sulfate and L-${\alpha}$-lecithin vesicle at $18~52^{\circ}$C has been studied by absorption spectroscopy. MB was clustered in the matrix of the vesicle with high concentration of L-${\alpha}$-lecithin. The metachromasy of MB was found to be independent of phase transition temperature of vesicles. These results suggest that the dyes were aggregated on the hydrophilic surfaces of vesicle. In the vesicular system, the metachromatic effect of MB was dramatically decreased in the presence of hexadecyltrimethylammonium bromide (CTAB) than SDS. It is estimated that the intercalation site of these surfactants on vesicle surfaces was different, that is, the intercalation of CTAB was more effective than that of SDS.
Phospholipid 이중층막에서 Methylene Blue 와 Thionine 의 Metachromasy
김기준,이후설 ( Ki Jun Kim,Hoo Seol Lee ) 한국유화학회 1996 한국응용과학기술학회지 Vol.13 No.3
Metachromatic properties of admixture of thionine and methylene blue(MB) in aqueous solution and phospholipid bilayer membrane have been studied by absorption spectroscopy. When thionine and MB were mixed, new coaggregate has been formed because of MB was redistributed to thionine aggregate. In phosphlipid bilayer membrane system, the highly concentrated thionine was easily formed the coaggregation with MB moiety independent of MB concentration, and absorption band of admixture were more transferred to short wavelength than aqueous system. In monomeric thionine concentration, the coaggregation band was observed at the middle wavelength between the site of monomeric thionine and the site of dimeric MB in the presence of lipid bilayer membrane.
광순환 에너지를 갖는 Halobacterium Halobium 에서 마취제의 혼합에 따른 Membrane 의 부피 변화
김기준,성기천,이후설 ( Ki Jun Kim,Ki Chun Sung,Hoo Seol Lee ) 한국유화학회 1996 한국응용과학기술학회지 Vol.13 No.3
The excess volumes of mixing of benzyl alcohol, ethyl alcohol, halothane, and procaine in vesicle and suspensions of several lipids have been determined at 25℃ using a excess volume dilatometer. The potency of general anesthetics has long been known to be correlated with lipid solubility. Denaturations of the bacteriorhodopsin, which is a sole membrane protein in the purple membrane of Halobacteriun Halobium, were studied by UV/Vis absorption changes. The excess volumes of mixing of benzyl alcohol and procaine in egg lecithin were all found to be negative and this result was confirmed as Miller`s supposition.
성기천,김기준,이후설 ( Ki Chun Sung,Ki Jun Kim,Hoo Seol Lee ) 한국유화학회 1997 한국응용과학기술학회지 Vol.14 No.1
It is the problem point of stability for this study to produce cosmetics and to occur in the circulation process, and specially in a case of alcoholic toilet water the precipitation materials to float on content materials has study on the solubility of perfume, and it has practiced in order to examine the problem point whether the raw materials of plastic vessel is or not harmful in content materials. In testing result, A study on stability of alcoholic toilet water is above all the precipitation materials which floats in content materials, and It is appeared by combination ratio to the raw materials of perfume, ethanol, solubilizer and refining water etcs, and in second the alkali degree which has gushed out of glass vessel can understand the thing that the change of PH is largely increased following to the passage of time, and in third the harmful component of content materials out of raw material in plastics vessel must certainly consider a stability and a safety in quality control of products.
김기준,성기천,이후설 ( Ki Jun Kim,Ki Chun Sung,Hoo Seol Lee ) 한국유화학회 1996 한국응용과학기술학회지 Vol.13 No.3
Thermograms of methylene blue(MB) in L-α- lecithin vesicle and incorporated purple membrane vesicle(InPM) systems have been studied by photochemical reaction differential scanning calorimetry at 25∼55℃. Phase transition temperatures of lecithin vesicle, purple membrane(PM), and InPM were found to be independent of illumination of light(436nm) at 39∼40℃, but endothermic phase transition was found in InPM vesicle. In MB-InPM system, endothermic phase transition was found on unillumination of light at 40∼42℃, but exothermic phase transition was found on steady illumination of light at 48∼52. It was estimated that the light energy absorbed from MB on vesicular surface was transferred to PM, and the transferred energy was redistributed to hydrophobic site of membrane. Therefore, the exothermic phase transition was measured at high temperature because of the increased hydrophobicity of acyl chain.
김기준,성기천,이후설,Kim, Ki-Jun,Sung, Ki-Chun,Lee, Hoo-Seol 한국응용과학기술학회 1996 한국응용과학기술학회지 Vol.13 No.3
Thermograms of methylene blue(MB) in $L-{\alpha}-lecithin$ vesicle and incorporated purple membrane vesicle(InPM) systems have been studied by photochemical reaction differential scanning calorimetry at $25{\sim}55^{\circ}C$. Phase transition temperatures of lecithin vesicle, purple membrane(PM), and InPM were found to be independent of illumination of light(436nm) at $39{\sim}40^{\circ}C$, but endothermic phase transition was found in InPM vesicle. In MB-InPM system, endothermic phase transition was found on unillumination of light at $40{\sim}42^{\circ}C$, but exothermic phase transition was found on steady illumination of light at $48{\sim}52^{\circ}C$. It was estimated that the light energy absorbed from MB on vesicular surface was transferred to PM, and the transferred energy was redistributed to hydrophobic site of membrane. Therefore, the exothermic phase transition was measured at high temperature because of the increased hydrophobicity of acyl chain.
L-${\alpha}$-lecithin으로 재구성된 Bacteriorhodopsin Vesicle에서 Methylene Blue의 Metachromasy
이홍,배현옥,임춘옥,이후설,Hong Lee,Huyn-Ock Pae,Chun-Ock Lim,Hoo-Seol Lee 대한화학회 1992 대한화학회지 Vol.36 No.4
L-${\alpha}$-lecithin vesicle, bacteriorhodopsin(BR) 그리고 인지질로 재구성된 BR vesicle(InBR vesicle)의 각각의 수용액에서 methylene blue(MB)의 흡수성질을 $20^{\circ}C$에서 $60^{\circ}C$까지 흡수분광법으로 측정하였다. 인지질 vesicle에서 묽은 농도의 MB는 단위체와 이합체 사이에 평형을 이루었고, 고농도의 MB는 oligomer를 형성하였다. 대부분의 경우에 지질(vesicle)의 농도가 매우 높아지면 점점 단위체로 재분배 되었다. 일정한 MB 농도에 BR를 첨가할 때 흡광도비(${\alpha}/{\beta}$)는 감소되며 oligomer가 형성되었다. MB는 InBR vesicle의 상전이 온도 부근에서 흡광도비(${\alpha}/{\beta}$)가 증가했으나 인지질 vesicle에서는 상전이에 무관했다. 이것은 InBR vesicle 표면 위에서 회합하는 MB 분자들은 지질의 상전이에 영향을 받아 단위체로 재분배되는 것으로 사료된다. Absorption properties of methylene blue (MB) in L-${\alpha}$-lecithin vesicle, bacteriorhodopsin and incorporated bacteriorhodopsin (InBR) vesicle systems at 20∼$60^{\circ}C$ has been studied by adsorption spectroscopy. The equilibrium of MB between monomer and dimer in lecithin vesicles has been existed at low concentration of MB, but oligomer has been formed in vesicle at higher concentration of MB. In most cases, the MB cluster was redistributed to monomer at the concentration of lecithin vesicles. Adding BR to constanr concentration of MB deceased the adsorption ratio (${\alpha}/{\beta}$) of MB, and MB was formed oligomeric aggregate. Absorption ratio (${\alpha}/{\beta}$) of MB was increased during phase transition of InBR vesicles, but independent of phase transition of lecithin vesicles. It suggested that aggregate of MB on the surfaces of InBR vesicles were redistributed to monomer under the influence of lipid phase transition.