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本文引用的文献

1
Identification and Characterization of the Ca-ATPase which Drives Active Transport of Ca at the Plasma Membrane of Radish Seedlings.鉴定并描述驱动萝卜幼苗质膜上钙离子主动运输的 Ca-ATP 酶。
Plant Physiol. 1989 Aug;90(4):1429-34. doi: 10.1104/pp.90.4.1429.
2
Characterization of Ca Transport in Purified Endoplasmic Reticulum Membrane Vesicles from Lepidium sativum L. Roots.纯化的来自萝卜属植物根内质网膜囊泡中的钙转运的特征描述。
Plant Physiol. 1984 Dec;76(4):962-7. doi: 10.1104/pp.76.4.962.
3
Distribution of calmodulin-stimulated ca transport into membrane vesicles from green spinach leaves.钙调蛋白刺激的钙离子转运至菠菜绿叶膜囊泡中的分布情况。
Plant Physiol. 1983 Aug;72(4):1136-8. doi: 10.1104/pp.72.4.1136.
4
Calcium messenger system in plants.植物中的钙信使系统。
CRC Crit Rev Plant Sci. 1987;6(1):47-103. doi: 10.1080/07352688709382247.
5
Enzyme kinetics and substrate stabilization of detergent-solubilized and membraneous (Ca2+ + Mg2+)-activated ATPase from sarcoplasmic reticulum. Effect of protein-protein interactions.肌浆网中去污剂增溶的及膜状(Ca2+ + Mg2+)激活的ATP酶的酶动力学和底物稳定性。蛋白质-蛋白质相互作用的影响。
J Biol Chem. 1980 Mar 10;255(5):1912-20.
6
Purification of the proton pumping ATPase from plant plasma membranes.从植物质膜中纯化质子泵ATP酶。
Biochem Biophys Res Commun. 1984 Jun 15;121(2):735-40. doi: 10.1016/0006-291x(84)90243-2.
7
The Ca2+-pumping ATPase of plasma membranes. Purification, reconstitution and properties.质膜的钙离子泵ATP酶。纯化、重组及性质
Biochim Biophys Acta. 1982 Dec 31;683(3-4):279-301. doi: 10.1016/0304-4173(82)90004-0.
8
Interaction of the purified Ca2+, Mg2+-ATPase from human erythrocytes with phospholipids and calmodulin.人红细胞纯化的钙镁 -ATP 酶与磷脂和钙调蛋白的相互作用。
Acta Biol Med Ger. 1981;40(4-5):437-42.
9
Purified (Ca2+-Mg2+)-ATPase of the erythrocyte membrane. Reconstitution and effect of calmodulin and phospholipids.红细胞膜纯化的(Ca2+-Mg2+)-ATP酶。钙调蛋白和磷脂的重组及作用。
J Biol Chem. 1981 Jan 10;256(1):395-401.
10
Determination of microgram quantities of protein in the presence of milligram levels of lipid with amido black 10B.在存在毫克级脂质的情况下,用酰胺黑10B测定微克级蛋白质。
Anal Biochem. 1985 Oct;150(1):97-104. doi: 10.1016/0003-2697(85)90445-2.

玉米叶片质膜上钙泵的增溶与重组

Solubilization and reconstitution of ca pump from corn leaf plasma membrane.

作者信息

Kasai M, Muto S

机构信息

Institute of Applied Microbiology, University of Tokyo, Bunkyo-ku, Tokyo 113, Japan.

出版信息

Plant Physiol. 1991 Jun;96(2):565-70. doi: 10.1104/pp.96.2.565.

DOI:10.1104/pp.96.2.565
PMID:16668222
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1080807/
Abstract

The Ca(2+) transport system of corn (Zea mays) leaf plasma membrane is composed of Ca(2+) pump and Ca(2+)/H(+) antiporter driven by H(+) gradient imposed by a H(+) pump (M Kasai, S Muto [1990] J Membr Biol 114: 133-142). It is necessary for characterization of these Ca(2+) transporters to establish the procedure for their solubilization, isolation, and reconstitution into liposomes. We attempted to solubilize and reconstitute the Ca(2+) pump in the present study. A nonionic detergent octaethyleneglycol monododecyl ether (C(12)E(8)) was the most effective detergent for a series of extraction and functional reconstitution of the Ca(2+) pump among seven detergents examined. This was judged from activities of ATP-dependent (45)Ca(2+) uptake into liposomes reconstituted with the respective detergent-extract of the plasma membrane by the detergent dilution method. C(12)E(8)-extract of the plasma membrane was subjected to high performance liquid chromatography using a DEAE anion exchange column. Ca(2+)-ATPase was separated from VO(4) (3-)-sensitive Mg(2+)-ATPase. These ATPases were separately reconstituted into liposomes, and their ATP-dependent Ca(2+) uptake was measured. The liposomes reconstituted with the Ca(2+)-ATPase, but not with the VO(4) (3-)-sensitive Mg(2+)-ATPase, showed ATP-dependent Ca(2+) uptake. Nigericin-induced pH gradient (acid inside) caused only a little Ca(2+) uptake into liposomes reconstituted with the Ca(2+)-ATPase, suggesting that the Ca(2+)/H(+) antiporter was not present in the preparation. These results indicate that the Ca(2+)-ATPase actually functions as Ca(2+) pump in the corn leaf plasma membrane.

摘要

玉米(Zea mays)叶片质膜的Ca(2+)转运系统由Ca(2+)泵和由H(+)泵产生的H(+)梯度驱动的Ca(2+)/H(+)反向转运体组成(M Kasai,S Muto [1990] J Membr Biol 114: 133 - 142)。为了表征这些Ca(2+)转运体,建立其溶解、分离并重组到脂质体中的方法是必要的。在本研究中,我们尝试溶解并重组Ca(2+)泵。在检测的七种去污剂中,非离子去污剂八乙二醇单十二烷基醚(C(12)E(8))是对Ca(2+)泵进行一系列提取和功能重组最有效的去污剂。这是通过去污剂稀释法,根据用各自去污剂提取的质膜重组到脂质体中的ATP依赖性(45)Ca(2+)摄取活性来判断的。质膜的C(12)E(8)提取物用DEAE阴离子交换柱进行高效液相色谱分析。Ca(2+)-ATP酶与VO(4)(3 - )敏感的Mg(2+)-ATP酶分离。这些ATP酶分别重组到脂质体中,并测量其ATP依赖性Ca(2+)摄取。用Ca(2+)-ATP酶重组的脂质体,而不是用VO(4)(3 - )敏感的Mg(2+)-ATP酶重组的脂质体,表现出ATP依赖性Ca(2+)摄取。尼日利亚菌素诱导的pH梯度(内部酸性)仅导致用Ca(2+)-ATP酶重组的脂质体摄取少量Ca(2+),这表明该制剂中不存在Ca(2+)/H(+)反向转运体。这些结果表明,Ca(2+)-ATP酶在玉米叶片质膜中实际发挥Ca(2+)泵的功能。