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1
Electron-paramagnetic-resonance studies of leghaemoglobins from soya-bean and cowpea root nodules. Identification of nitrosyl-leghaemoglobin in crude leghaemoglobin preparations.大豆和豇豆根瘤中豆血红蛋白的电子顺磁共振研究。粗制豆血红蛋白制剂中亚硝酰豆血红蛋白的鉴定。
Biochem J. 1977 Nov 1;167(2):435-45. doi: 10.1042/bj1670435.
2
Leghemoglobin. An electron paramagnetic resonance and optical spectral study of the free protein and its complexes with nicotinate and acetate.豆血红蛋白。游离蛋白及其与烟酸酯和乙酸酯复合物的电子顺磁共振和光谱研究。
J Biol Chem. 1976 Oct 10;251(19):6090-6.
3
Leghaemoglobin from Trifolium subterraneum. Purification and characterization.来自地下三叶草的豆血红蛋白。纯化与特性分析。
Biochim Biophys Acta. 1979 Jun 19;578(2):476-83. doi: 10.1016/0005-2795(79)90177-6.
4
1H-NMR studies of ferric soybean leghemoglobin: assignment of hyperfine shifted resonances of complexes with cyanide, nicotinate, pyridine and azide.高铁大豆豆血红蛋白的1H-NMR研究:与氰化物、烟酸盐、吡啶和叠氮化物形成的配合物的超精细位移共振的归属
Biochim Biophys Acta. 1980 Oct 21;625(2):202-20. doi: 10.1016/0005-2795(80)90284-6.
5
Oxidation of glycine by Phaseolus leghaemoglobin with associated catabolic reactions at the haem.菜豆根瘤血红蛋白对甘氨酸的氧化作用以及在血红素处的相关分解代谢反应。
Biochem J. 1978 Nov 15;176(2):351-8. doi: 10.1042/bj1760351.
6
The heme environment of leghemoglobins. Absorption and circular dichroism spectra of artificial leghemoglobins and myoglobins.豆血红蛋白的血红素环境。人工豆血红蛋白和肌红蛋白的吸收光谱与圆二色光谱。
Biochim Biophys Acta. 1980 Jul 24;624(1):316-28. doi: 10.1016/0005-2795(80)90250-0.
7
Structural rearrangements due to ligand binding and haem replacement in myoglobin and leghaemoglobins.肌红蛋白和豆血红蛋白中由于配体结合和血红素置换导致的结构重排。
Eur J Biochem. 1977 Aug 15;78(1):133-40. doi: 10.1111/j.1432-1033.1977.tb11722.x.
8
The reactivity of thiol compounds with different redox states of leghaemoglobin: evidence for competing reduction and addition pathways.硫醇化合物与豆血红蛋白不同氧化还原状态的反应活性:还原与加成途径竞争的证据
Biochim Biophys Acta. 1995 Jan 5;1246(1):74-81. doi: 10.1016/0167-4838(95)00184-v.
9
The structure of deoxy- and oxy-leghaemoglobin from lupin.羽扇豆脱氧血红蛋白和氧合血红蛋白的结构。
J Mol Biol. 1995 Aug 4;251(1):104-15. doi: 10.1006/jmbi.1995.0419.
10
Bile-pigment formation from different leghaemoglobins. Methine-bridge specificity of coupled oxidation.不同豆血红蛋白的胆色素形成。偶联氧化的次甲基桥特异性。
Biochem J. 1978 Nov 15;176(2):359-64. doi: 10.1042/bj1760359.

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1
Multiple Ways of Nitric Oxide Production in Plants and Its Functional Activity under Abiotic Stress Conditions.植物中一氧化氮的多种产生方式及其在非生物胁迫条件下的功能活性。
Int J Mol Sci. 2023 Jul 19;24(14):11637. doi: 10.3390/ijms241411637.
2
Integrated Proteomics and Metabolomics Analysis of Nitrogen System Regulation on Soybean Plant Nodulation and Nitrogen Fixation.氮素系统调控大豆结瘤固氮的蛋白质组学和代谢组学综合分析。
Int J Mol Sci. 2022 Feb 25;23(5):2545. doi: 10.3390/ijms23052545.
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Medicago truncatula Phytoglobin 1.1 controls symbiotic nodulation and nitrogen fixation via the regulation of nitric oxide concentration.蒺藜苜蓿植物血红蛋白1.1通过调节一氧化氮浓度来控制共生结瘤和固氮作用。
New Phytol. 2020 Jul;227(1):84-98. doi: 10.1111/nph.16462. Epub 2020 Mar 14.
4
Redefining nitric oxide production in legume nodules through complementary insights from electron paramagnetic resonance spectroscopy and specific fluorescent probes.通过电子顺磁共振波谱和特定荧光探针的互补见解,重新定义豆科植物根瘤中的一氧化氮生成。
J Exp Bot. 2018 Jun 27;69(15):3703-3714. doi: 10.1093/jxb/ery159.
5
Short-term inhibition of legume N2 fixation by nitrate : I. Nitrate effects on nitrate-reductase activities of bacteroids and nodule cytosol.短期抑制豆类共生固氮:I. 硝酸盐对类菌体硝酸还原酶活性和根瘤细胞质的影响。
Planta. 1989 Dec;180(1):40-5. doi: 10.1007/BF02411408.
6
Flavin-mediated reduction of ferric leghemoglobin from soybean nodules.黄素介导的大豆根瘤中铁氧还蛋白的还原。
Planta. 1991 Mar;183(4):575-83. doi: 10.1007/BF00194279.
7
Control of NO level in rhizobium-legume root nodules: not only a plant globin story.控制根瘤菌-豆科植物根瘤中的 NO 水平:不仅仅是植物球蛋白的故事。
Plant Signal Behav. 2013 Oct;8(10):doi: 10.4161/psb.25923. doi: 10.4161/psb.25923.
8
Effect of pO(2) on the Formation and Status of Leghemoglobin in Nodules of Cowpea and Soybean.氧分压对豇豆和大豆根瘤中豆血红蛋白形成及状态的影响。
Plant Physiol. 1991 Mar;95(3):723-30. doi: 10.1104/pp.95.3.723.
9
Oxyleghemoglobin scavenges nitrogen monoxide and peroxynitrite: a possible role in functioning nodules?氧合血红蛋白清除一氧化氮和过氧亚硝酸盐:在功能结节中可能起的作用?
J Biol Inorg Chem. 2005 Dec;10(8):935-45. doi: 10.1007/s00775-005-0046-9. Epub 2005 Nov 3.
10
Kinetics and mechanistic studies of the reactions of metleghemoglobin, ferrylleghemoglobin, and nitrosylleghemoglobin with reactive nitrogen species.高铁血红蛋白、高铁血红素和亚硝酰血红蛋白与活性氮物质反应的动力学及机理研究
J Biol Inorg Chem. 2005 Dec;10(8):946-57. doi: 10.1007/s00775-005-0047-8. Epub 2005 Nov 3.

本文引用的文献

1
Ruminant Mineral Nutrition. The Effect of Copper Injections on Weight Gains and Haemoglobin Levels of Cattle Pastured on Ground-Water Soils in The British Columbia Interior.反刍动物矿物质营养。铜注射对不列颠哥伦比亚省内陆地区以地下水土壤为牧场的牛体重增加和血红蛋白水平的影响。
Can J Comp Med Vet Sci. 1964 May;28(5):108-12.
2
The role of peroxidase isozymes in resistance to wheat stem rust disease.过氧化物酶同工酶在小麦条锈病抗性中的作用。
Plant Physiol. 1971 Sep;48(3):353-60. doi: 10.1104/pp.48.3.353.
3
Propionate in heme biosynthesis in soybean nodules.大豆根瘤中卟啉生物合成中的丙酸。
Plant Physiol. 1966 Dec;41(10):1673-80. doi: 10.1104/pp.41.10.1673.
4
DISC ELECTROPHORESIS. II. METHOD AND APPLICATION TO HUMAN SERUM PROTEINS.圆盘电泳。II. 方法及其在人血清蛋白中的应用。
Ann N Y Acad Sci. 1964 Dec 28;121:404-27. doi: 10.1111/j.1749-6632.1964.tb14213.x.
5
A magnetic study of acidic ferric hemoglobin.酸性高铁血红蛋白的磁性研究。
Biochim Biophys Acta. 1971 Dec 28;251(3):303-13. doi: 10.1016/0005-2795(71)90116-4.
6
Analysis of the principal g-tensors in single crystals of ferrimyoglobin complexes.铁肌红蛋白配合物单晶中主要g张量的分析。
Biochim Biophys Acta. 1971 Nov 19;251(2):227-35. doi: 10.1016/0005-2795(71)90106-1.
7
Reduction of methaemoglobin in haemoglobin samples using gel filtration for continuous removal of reaction products.使用凝胶过滤法降低血红蛋白样本中的高铁血红蛋白,以持续去除反应产物。
Nature. 1967 Jan 28;213(5074):399-400. doi: 10.1038/213399a0.
8
Analysis of thermal equilibrium between high-spin and low-spin states in ferrimyoglobin complexes.亚铁肌红蛋白复合物中高自旋态与低自旋态之间的热平衡分析。
Biochim Biophys Acta. 1969 May;181(1):275-86. doi: 10.1016/0005-2795(69)90250-5.
9
A magnetic resonance study of sperm whale ferrimyoglobin and its complex with 1 cupric ion.抹香鲸高铁肌红蛋白及其与1个铜离子复合物的磁共振研究。
J Biol Chem. 1967 Dec 25;242(24):5724-30.
10
The use of ferricyanide for the preparation of methaemoglobin.使用铁氰化物制备高铁血红蛋白。
Biochim Biophys Acta. 1971 Jan 19;229(1):284-5. doi: 10.1016/0005-2795(71)90346-1.

大豆和豇豆根瘤中豆血红蛋白的电子顺磁共振研究。粗制豆血红蛋白制剂中亚硝酰豆血红蛋白的鉴定。

Electron-paramagnetic-resonance studies of leghaemoglobins from soya-bean and cowpea root nodules. Identification of nitrosyl-leghaemoglobin in crude leghaemoglobin preparations.

作者信息

Maskall C S, Gibson J F, Dart P J

出版信息

Biochem J. 1977 Nov 1;167(2):435-45. doi: 10.1042/bj1670435.

DOI:10.1042/bj1670435
PMID:23110
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1183675/
Abstract
  1. Leghaemoglobins from soya-bean (Glycine max) and cowpea (Vigna unguiculata) root nodules were purified by chromatography on DEAE-cellulose phosphate columns at pH8.0 and pH5.8, to avoid the relatively low pH (5.2) commonly used to purify these proteins. 2. E.p.r. (electron-paramagnetic-resonance) spectra of the fluoride, azide, hydroxide and cyanide complexes of these ferric leghaemoglobins were very similar to the spectra of the corresponding myoglobin derivatives, indicating that the immediate environment of the iron in leghaemoglobin and myoglobin is similar, an imidazole moiety of histidine being the proximal ligand to the haem iron [cf. Appleby, Blumberg, Peisach, Wittenberg & Wittenberg (1976) J. Biol. Chem.251, 6090-6096]. 3. E.p.r. spectra of the acid-metleghaemoglobins showed prominent high-spin features very near g=6 and g=2 and, unlike myoglobin, small low-spin absorptions near g=2.26, 2.72 and 3.14. The width of the g=6 absorption derivative at 10-20K was about 4-4.5mT, similar to the value for acid-methaemoglobin. In contrast, a recently published (Appleby et al., 1976) spectrum of acid-metleghaemoglobin a had less high-spin character and a much broader absorption derivative around g=6. 4. E.p.r. spectra of ferric leghaemoglobin nicotinate and imidazole complexes suggest that the low-spin absorption near g=3.14 can be attributed to a trace of ferric leghaemoglobin nicotinate, and those near g=2.26 and 2.72 are from an endogenous dihistidyl haemichrome. 5. A large e.p.r. signal at g=2 in all samples of crude leghaemoglobin was shown to be from nitrosyl-leghaemoglobin. A soya-bean sample contained 27+/-3% of the latter. A previously unidentified form of soya-bean ferrous leghaemoglobin a was shown to be its nitrosyl derivative. If this is not an artifact, and occurs in the root nodule, the nitrosyl radical may interfere with the function of leghaemoglobin.
摘要
  1. 通过在pH8.0和pH5.8的磷酸二乙氨基乙醇纤维素柱上进行色谱分离,纯化了来自大豆(大豆属)和豇豆(豇豆属)根瘤的豆血红蛋白,以避免通常用于纯化这些蛋白质的相对较低的pH值(5.2)。2. 这些高铁豆血红蛋白的氟化物、叠氮化物、氢氧化物和氰化物配合物的电子顺磁共振(E.p.r.)光谱与相应肌红蛋白衍生物的光谱非常相似,这表明豆血红蛋白和肌红蛋白中铁的直接环境相似,组氨酸的咪唑部分是血红素铁的近端配体[参见Appleby、Blumberg、Peisach、Wittenberg和Wittenberg(1976年)《生物化学杂志》251, 6090 - 6096]。3. 酸性高铁豆血红蛋白的E.p.r.光谱在g = 6和g = 2附近显示出突出的高自旋特征,并且与肌红蛋白不同,在g = 2.26、2.72和3.14附近有小的低自旋吸收。在10 - 20K时,g = 6吸收导数的宽度约为4 - 4.5mT,与酸性高铁血红蛋白的值相似。相比之下,最近发表的(Appleby等人,1976年)酸性高铁豆血红蛋白a的光谱具有较少的高自旋特征,并且在g = 6附近有更宽的吸收导数。4. 高铁豆血红蛋白烟酸酯和咪唑配合物的E.p.r.光谱表明,g = 3.14附近的低自旋吸收可归因于痕量的高铁豆血红蛋白烟酸酯,而g = 2.26和2.72附近的吸收来自内源性二组氨酸血红素半色素。5. 所有粗豆血红蛋白样品在g = 2处的大E.p.r.信号显示来自亚硝酰豆血红蛋白。一个大豆样品中含有27±3%的亚硝酰豆血红蛋白。一种先前未鉴定的大豆亚铁豆血红蛋白a形式被证明是其亚硝酰衍生物。如果这不是人为现象,并且发生在根瘤中,亚硝酰自由基可能会干扰豆血红蛋白的功能。