Ammonia from Iron(II) Reduction of Nitrite and the Strecker Synthesis: Do Iron(II) and Cyanide Interfere with Each Other?

被引:0
|
作者
David P. Summers
Narcinda Lerner
机构
[1] SETI Institute and NASA-Ames Research Center,
[2] M/S 239-4,undefined
来源
Origins of life and evolution of the biosphere | 1998年 / 28卷
关键词
Iron; Ammonia; Formaldehyde; Organic Chemistry; Glycine;
D O I
暂无
中图分类号
学科分类号
摘要
The question of whether the production of ammonia, from the reduction of nitrite by iron(II), is compatible with its use in the Strecker synthesis of amino acids, or whether the iron and the cyanide needed for the Strecker synthesis interfere with each other, is addressed. Results show that the presence of iron(II) appears to have little, or no, effect on the Strecker synthesis. The presence of cyanide does interfere with reduction of nitrite, but the reduction proceeds at cyanide/iron ratios of less than 4:1. At ratios of about 2:1 and less there is only a small effect. The reduction of nitrite and the Strecker can be combined to proceed in each other's presence, to yield glycine from a mixture of nitrite, Fe+2, formaldehyde, and cyanide.
引用
收藏
页码:1 / 11
页数:10
相关论文
共 50 条
  • [21] Synthesis and characterization of macroinitiator polystyrene and block copolymerization in the presence of sodium nitrite and iron(II) sulfate
    Xu, MQ
    Huang, JY
    Yan, MF
    Lin, MH
    Lin, Q
    Chen, YH
    Zou, YS
    CHEMICAL JOURNAL OF CHINESE UNIVERSITIES-CHINESE, 2005, 26 (08): : 1544 - 1547
  • [22] Nitrate and nitrite reduction by adsorbed Fe(II) generated from ligand-promoted dissolution of biogenic iron minerals in groundwater
    Liu, Lecheng
    Zheng, Tianyuan
    Ma, Haoran
    Hao, Yujie
    Liu, Guangfei
    Guo, Bo
    Shi, Qing
    Zheng, Xilai
    SCIENCE OF THE TOTAL ENVIRONMENT, 2024, 951
  • [23] Enhancement of Iron(II)-Dependent Reduction of Nitrite to Nitric Oxide by Thiocyanate and Accumulation of Iron(II)/Thiocyanate/Nitric Oxide Complex under Conditions Simulating the Mixture of Saliva and Gastric Juice
    Takahama, Umeo
    Hirota, Sachiko
    CHEMICAL RESEARCH IN TOXICOLOGY, 2012, 25 (01) : 207 - 215
  • [24] SYNTHESIS AND ANALYTICAL APPLICATIONS OF THE IRON (II)-HYDROXYLAMINE-HYDRAZINE-CYANIDE QUATERNARY COLORED COMPLEX SYSTEM
    KAVLENTIS, E
    ANALUSIS, 1988, 16 (06) : 350 - 352
  • [25] The detection of glycine from the treatment of glyoxylic acid with iron(II) sulfate and ammonia in water
    Plater, M. John
    Vassiliev, Ken
    JOURNAL OF CHEMICAL RESEARCH, 2011, (03) : 129 - 132
  • [26] Denitrification and dissimilatory nitrate reduction to ammonia in long-term lake sediment microcosms with iron(II)
    Li, Shengjie
    Liao, Yinhao
    Pang, Yunmeng
    Dong, Xiaoli
    Strous, Marc
    Ji, Guodong
    SCIENCE OF THE TOTAL ENVIRONMENT, 2022, 807
  • [27] Investigation of the roles of several iron(II) chelators in the release of iron from ferrioxamine B via reduction by NADH
    Bair, Julia
    Mies, Kassy A.
    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2013, 245
  • [28] Iron(II)-Catalyzed Direct Synthesis of NH Sulfoximines from Sulfoxides
    Yu, Hao
    Li, Zhen
    Bolm, Carsten
    ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2018, 57 (01) : 324 - 327
  • [29] REACTIVITY CHARACTERISTICS OF IRON PROTEINS ADDUCED FROM THEIR REDUCTION BY HEXAMMINERUTHENIUM(II) ION
    BENNETT, LE
    EWALL, RX
    JACKS, CA
    CALVERT, J
    WALTON, J
    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 1974, : 193 - 193
  • [30] Synthesis and properties of iron(II) and manganese(II) complexes derived from a topologically constrained pentadentate ligand
    Collinson, S
    Alcock, NW
    Raghunathan, A
    Kahol, PK
    Busch, DH
    INORGANIC CHEMISTRY, 2000, 39 (04) : 757 - 764
12345