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    • 2. 发明申请
    • Process for recovering serine
    • 回收丝氨酸的方法
    • US20050250189A1
    • 2005-11-10
    • US11117489
    • 2005-04-29
    • Tsuneo YamaneYugo IwasakiNamiko TakahashiTakaya YamamotoTakahiro Okada
    • Tsuneo YamaneYugo IwasakiNamiko TakahashiTakaya YamamotoTakahiro Okada
    • C12P13/06C07F9/10C12P13/04
    • C07F9/10
    • Particularly in the recovery and reuse of unreacted serine after the synthesis of phosphatidylserine by the transfer reaction of a phosphatidyl group with phospholipase D, a simple process for recovering serine in which a material inhibitory to the synthesis of phosphatidylserine can be efficiently removed is provided. The present invention provides the following processes for recovering serine. A process for recovering unreacted serine from a reaction system after the synthesis of phosphatidylserine by the transfer reaction of a phosphatidyl group with phospholipase D, comprising adding a polar organic solvent or a mixture of a polar organic solvent and water to the unreacted serine containing water-soluble fraction in which the phosphatidylserine has been removed from a reaction mixture in the reaction system and washing the fraction with the added solvent or the mixture of the solvent and water to obtain the serine. A process for recovering the serine described above, wherein the synthesis of phosphatidylserine by the transfer reaction of a phosphatidyl group with phospholipase D is performed in an aqueous system in the absence of an organic solvent. A process for recovering the serine described above, wherein the synthesis of phosphatidylserine by the transfer reaction of a phosphatidyl group with phospholipase D is performed in a two-phase system with an organic solvent and water.
    • 特别是在通过磷脂酰基与磷脂酶D的转移反应合成磷脂酰丝氨酸后的未反应丝氨酸的回收和再利用中,提供了一种简单的回收丝氨酸的方法,其中可以有效地除去抑制磷脂酰丝氨酸合成的材料。 本发明提供以下回收丝氨酸的方法。 通过磷脂酰基与磷脂酶D的转移反应合成磷脂酰丝氨酸后,从反应体系中回收未反应的丝氨酸的方法,其包括将极性有机溶剂或极性有机溶剂与水的混合物添加到含有水溶性聚合物的未反应的丝氨酸中, 其中已经从反应体系中的反应混合物中除去磷脂酰丝氨酸并用添加的溶剂或溶剂和水的混合物洗涤级分以获得丝氨酸的可溶性级分。 一种回收上述丝氨酸的方法,其中通过磷脂酰基与磷脂酶D的转移反应合成磷脂酰丝氨酸是在不存在有机溶剂的情况下在水性体系中进行的。 一种回收上述丝氨酸的方法,其中通过磷脂酰基与磷脂酶D的转移反应合成磷脂酰丝氨酸在具有有机溶剂和水的两相体系中进行。
    • 3. 发明授权
    • Ignition timing correcting system for internal combustion engine
    • 内燃机点火正时校正系统
    • US4409943A
    • 1983-10-18
    • US421581
    • 1982-09-22
    • Satoshi KomurasakiAtsushi UedaTsuneo Yamane
    • Satoshi KomurasakiAtsushi UedaTsuneo Yamane
    • F02P5/145F02P5/155F02P5/04
    • F02P5/1455F02P5/1555Y02T10/46
    • An ignition timing correcting system for generating a reference signal at a reference angular position of a rotating internal combustion engine, and having an ignition signal leading it by a constant phase. In response to a control signal from a movable tap on a potentiometer, the ignition signal is retarded in phase to form a retarded ignition signal. The phase comparison of the two signals produces an advance or a retardation signal formed of a pulse train having a pulse width corresponding to the phase difference there-between. During the idling of the engine, the correcting signal drives an electric reversible motor in either a forward or reverse direction so as to move the tap on the potentiometer to adjust the control signal after the correcting signal has been converted to a driving pulse having a longer pulse width when correcting in a direction to correct an advance of said signal than the pulse width when correcting in a direction to correct a retardation of said signal with respect to the phase difference.
    • 一种点火正时校正系统,用于在旋转内燃机的基准角度位置处产生参考信号,并且具有使恒定相位引导的点火信号。 响应于来自电位器上的可动抽头的控制信号,点火信号被相位延迟以形成延迟点火信号。 两个信号的相位比较产生由具有对应于其之间的相位差的脉冲宽度的脉冲串形成的提前或延迟信号。 在发动机怠速期间,校正信号沿正向或反向驱动电动可逆电动机,以便在电位计上移动水龙头以在校正信号已被转换成具有较长时间的驱动脉冲之后调节控制信号 当在校正所述信号相对于所述相位差的延迟的方向进行校正时,在校正所述信号的前进方向上的脉冲宽度的脉冲宽度。
    • 4. 发明授权
    • Throttle return spring assembly for an engine intake throttle valve
return device
    • 节气门返回装置的发动机回油弹簧组件
    • US5168852A
    • 1992-12-08
    • US798584
    • 1991-11-26
    • Teruhiko MoriguchiYutaka OkaueManabu HiraiOsamu MatsumotoTsuneo Yamane
    • Teruhiko MoriguchiYutaka OkaueManabu HiraiOsamu MatsumotoTsuneo Yamane
    • F02D9/02
    • F02D9/02F02D2009/0269
    • A return spring assembly for use in an engine intake throttle valve return device comprising a spring holder sleeve (17) including an inner and outer sleeves (18,20) placed over a throttle valve shaft (3) and connected at one end to each other so that the inner and outer sleeves (18,20) are spacedly and concentrically held. Inner and outer torsion coil springs (8,9) are supported on the inner and outer sleeves (18,20), respectively, and connected between an intake barrel (1) and the valve shaft (3) for urging the throttle valve (2) to its closed position. An eccentric radial flange (22) which may be circular, oval or polygonal is provided on the outer sleeve (20) for holding the outer torsion coil spring (9). The eccentric flange (22) extends continuously over the entire circumference of the outer sleeve (20) and has a maximum outer diametrical dimension substantially equal to the inner diameter of the outer torsion coil spring (9). The eccentric flange (22) is eccentric with respect to the outer sleeve (20) by an amount effective to prevent the outer coil spring (9) from being disclocated from the outer sleeve (20).
    • 一种用于发动机进气节流阀返回装置中的复位弹簧组件,包括弹簧保持器套筒(17),弹簧保持器套筒(17)包括放置在节流阀轴(3)上并且一端彼此连接的内部和外部套筒(18,20) 使得内部和外部套筒(18,20)间隔和同心地保持。 内外扭力螺旋弹簧(8,9)分别支撑在内套筒和外套筒(18,20)上,连接在进气筒(1)和阀轴(3)之间,用于推动节流阀(2) )到其关闭位置。 在外套筒(20)上设置可以是圆形,椭圆形或多边形的偏心径向凸缘(22),用于保持外扭力螺旋弹簧(9)。 偏心凸缘(22)在外套筒(20)的整个圆周上连续延伸,并具有基本上等于外扭力螺旋弹簧(9)的内径的最大外直径尺寸。 偏心凸缘(22)相对于外套筒(20)偏心一定量,以有效地防止外螺旋弹簧(9)与外套筒(20)分离。
    • 5. 发明授权
    • Ignition timing correcting system for internal combustion engine
    • 内燃机点火正时校正系统
    • US4373487A
    • 1983-02-15
    • US249459
    • 1981-03-31
    • Satoshi KomurasakiTsuneo Yamane
    • Satoshi KomurasakiTsuneo Yamane
    • F02P5/155F02P5/04
    • F02P5/1551F02P5/1558Y02T10/46
    • An ignition timing correcting system generate a reference signal at a reference angular position of a rotating internal combustion engine and an ignition signal leading it by a constant phase. A phase shifter normally responds to a control signal from a movable tap on a potentiometer, to retard the ignition signal to form a retarded ignition signal. The phase comparison of the two signals produces an advance or a retardation correcting signal formed of a pulse train having a pulse-width corresponding to a phase difference between the two ignition signals. During the idling of the engine, the correcting signal drives forwardly or reversely an electric reversible motor to move the tap on the potentiometer to adjust the control signal. During the warm-up of the engine, the phase shifter is supplied with the sum of the control signal and a signal with a predetermined voltage to further retard the ignition signal.
    • 点火正时校正系统在旋转内燃机的基准角度位置产生参考信号,并将点火信号引导到恒定相位。 移相器通常响应来自电位器上的可动抽头的控制信号,以延迟点火信号以形成延迟的点火信号。 两个信号的相位比较产生由具有对应于两个点火信号之间的相位差的脉冲宽度的脉冲串形成的提前或延迟校正信号。 在发动机怠速期间,校正信号向前或向后驱动电动可逆电动机以使电位器上的水龙头移动以调节控制信号。 在发动机的预热期间,向移相器提供控制信号和具有预定电压的信号之和,以进一步延迟点火信号。
    • 6. 发明授权
    • Method for amplifying nucleic acid molecules and method for synthesizing proteins
    • 扩增核酸分子的方法和合成蛋白质的方法
    • US06207378B1
    • 2001-03-27
    • US09136411
    • 1998-08-19
    • Tsuneo YamaneHideo NakanoMasashi OuchiReiko OkumuraSatoshi Sekiguchi
    • Tsuneo YamaneHideo NakanoMasashi OuchiReiko OkumuraSatoshi Sekiguchi
    • C12Q168
    • C12P21/02C12Q1/686C12Q2527/143
    • A method for amplifying desired nucleic acid molecules by PCR which comprises the steps of isolating and purifying a group of nucleic acid molecules including desired nucleic acid molecules to be amplified, then carrying out PCR while establishing such a condition that the nucleic acid molecules capable of being amplified, except for primers, present in a PCR reaction solution are constituted by only the desired nucleic acid molecules and that the concentration of each primer used is limited to a level of not more than 100 nM; a method for producing a protein in a cell-free protein-synthesis system containing a cell-free extract which comprises using the nucleic acid of a single kind produced by the method described above and a method for establishing a protein library which comprises the steps of separately carrying out the method for amplifying desired nucleic acid molecules by PCR to obtain at least two kinds of nucleic acid molecules and separately carrying out the foregoing method for producing a protein using each of the at least two kinds of the amplified nucleic acids as a template to thus establish a protein library which comprises at least two kinds of proteins encoded by the resulting at least two nucleic acids respectively.
    • 一种通过PCR扩增所需核酸分子的方法,该方法包括以下步骤:分离和纯化包括要扩增的所需核酸分子的核酸分子组,然后进行PCR,同时建立这样的条件,使得核酸分子能够 存在于PCR反应溶液中的引物除了扩增,仅由所需的核酸分子构成,使用的引物的浓度限制在不超过100nM的水平; 一种含有无细胞提取物的无细胞蛋白质合成系统中的蛋白质的制备方法,该方法包括使用通过上述方法制备的单一种核酸和建立蛋白质文库的方法,该方法包括以下步骤: 分别进行通过PCR扩增所需核酸分子的方法,以获得至少两种核酸分子,并且使用所述至少两种扩增的核酸作为模板分别进行上述制备蛋白质的方法 从而建立蛋白质文库,该蛋白质文库分别包含由所得至少两个核酸编码的至少两种蛋白质。
    • 7. 发明授权
    • Ignition timing correcting system for internal combustion engine
    • 内燃机点火正时校正系统
    • US4374510A
    • 1983-02-22
    • US249458
    • 1981-03-31
    • Satoshi KomurasakiAtsushi UedaTsuneo Yamane
    • Satoshi KomurasakiAtsushi UedaTsuneo Yamane
    • F02P5/155F02P5/152F02P5/153
    • F02P5/152Y02T10/46
    • An ignition timing correcting system generates a reference signal at a reference angular position of a rotating internal combustion engine and an ignition signal leading it by a constant phase. In response to a control signal from a movable tap on a potentiometer, the ignition signal is normally retarded in phase to form a retarded ignition signal. The phase comparison of the two signals produces an advance or a retardation signal formed of a pulse train having a pulse-width corresponding to a phase difference between the two ignition signals. During the idling of the engine, the correcting signal drives forwardly or reversely an electric reversible motor to move the tap on the potentiometer to adjust the control signal. During the knocking of the engine, a knocking sensed signal is added to the control signal from the potentiometer to further retard the ignition signal. During the idling of the engine, the knocking sensed signal is disabled to retard the ignition signal.
    • 点火正时校正系统在旋转内燃机的基准角度位置产生参考信号,并且使点火信号通过恒定相位产生。 响应于来自电位器上的可动抽头的控制信号,点火信号通常相位延迟以形成延迟点火信号。 两个信号的相位比较产生由具有对应于两个点火信号之间的相位差的脉冲宽度的脉冲串形成的提前或延迟信号。 在发动机怠速期间,校正信号向前或向后驱动电动可逆电动机以使电位器上的水龙头移动以调节控制信号。 在发动机爆震期间,将来自电位器的控制信号中加入一个爆震感测信号,以进一步延迟点火信号。 在发动机怠速期间,敲击感测信号被禁止以延迟点火信号。
    • 9. 发明授权
    • Process for the production of glycerides with lipases
    • 用脂肪酶生产甘油酯的方法
    • US06905850B2
    • 2005-06-14
    • US10311350
    • 2001-07-02
    • Roxana IrimescuKiyomi FurihataKazuhiko HataTsuneo Yamane
    • Roxana IrimescuKiyomi FurihataKazuhiko HataTsuneo Yamane
    • C11C3/08C11C3/10C12P7/64
    • C12P7/6445C12P7/6472
    • The invention provides a process for producing 2-monoglycerides (2-MG) or triglycerides (TG), particularly triglycerides having polyunsaturated fatty acid (PUFA) residues in the sn-2 positions, at an extremely high purity and a high efficiency.The 2-MG is produced by conducting alcoholysis of a starting TG with a first 1,3-lipase. Then, the TG is produced by introducing fatty acid residues to the 1- and 3-positions of the produced 2-MG by using a second 1,3-lipase. The fatty acid residue in the 2-posiiton is preferably a residue of DHA, EPA or ARA. The “first lipase” refers to one which is selective for the 1- and 3-positions and can act even on a long-chain fatty acid in alcoholysis, while the “second lipase” refers to one which is selective for the 1- and 3-positions and can produce a TG through the reaction of a 2-MG with a fatty acid ester or a free fatty acid.
    • 本发明提供了以非常高的纯度和高效率生产2-单甘油酯(2-MG)或甘油三酸酯(TG),特别是在sn-2位具有多不饱和脂肪酸(PUFA)残基的甘油三酯)的方法。 通过用第一种1,3-脂肪酶进行起始TG的醇解来制备2-MG。 然后,通过使用第二种1,3-脂肪酶将所产生的2-MG的1-和3-位引入脂肪酸残基来产生TG。 2-位的脂肪酸残基优选为DHA,EPA或ARA的残基。 “第一脂肪酶”是指对于1-和3-位选择性的那些,并且甚至可以在醇解中的长链脂肪酸上起作用,而“第二脂肪酶”是指对于1-和 3-位,并且可以通过2-MG与脂肪酸酯或游离脂肪酸的反应产生TG。