2npk Citations

An unusual twin-his arrangement in the pore of ammonia channels is essential for substrate conductance.

Javelle A, Lupo D, Zheng L, Li XD, Winkler FK, Merrick M
J Biol Chem 281 39492-8 (2006)
Related entries: 2nmr, 2nop, 2now, 2npc, 2npd, 2npe, 2npg, 2npj

Cited: 51 times
EuropePMC logo PMID: 17040913

Abstract

Amt proteins constitute a class of ubiquitous integral membrane proteins that mediate movement of ammonium across cell membranes. They are homotrimers, in which each subunit contains a narrow pore through which substrate transport occurs. Two conserved histidine residues in the pore have been proposed to be necessary for ammonia conductance. By analyzing 14 engineered polar and non-polar variants of these histidines, in Escherichia coli AmtB, we show that both histidines are absolutely required for optimum substrate conductance. Crystal structures of variants confirm that substitution of the histidine residues does not affect AmtB structure. In a subgroup of Amt proteins, found only in fungi, one of the histidines is replaced by glutamate. The equivalent substitution in E. coli AmtB is partially active, and the structure of this variant suggests that the glutamate side chain can make similar interactions to those made by histidine.

Articles - 2npk mentioned but not cited (1)

  1. Long-Term Adaptation of Acidophilic Archaeal Ammonia Oxidisers Following Different Soil Fertilisation Histories. Zhao J, Wang B, Zhou X, Alam MS, Fan J, Guo Z, Zhang H, Gubry-Rangin C, Zhongjun J. Microb Ecol 83 424-435 (2022)


Reviews citing this publication (10)

  1. Nitrogen assimilation in Escherichia coli: putting molecular data into a systems perspective. van Heeswijk WC, Westerhoff HV, Boogerd FC. Microbiol Mol Biol Rev 77 628-695 (2013)
  2. Molecular mechanisms of ammonium transport and accumulation in plants. Ludewig U, Neuhäuser B, Dynowski M. FEBS Lett 581 2301-2308 (2007)
  3. Structures of membrane proteins. Vinothkumar KR, Henderson R. Q Rev Biophys 43 65-158 (2010)
  4. Modeling and simulation of ion channels. Maffeo C, Bhattacharya S, Yoo J, Wells D, Aksimentiev A. Chem Rev 112 6250-6284 (2012)
  5. The Amt/Mep/Rh family of ammonium transport proteins. Andrade SL, Einsle O. Mol Membr Biol 24 357-365 (2007)
  6. Structural and mechanistic aspects of Amt/Rh proteins. Javelle A, Lupo D, Li XD, Merrick M, Chami M, Ripoche P, Winkler FK. J Struct Biol 158 472-481 (2007)
  7. The Rh protein family: gene evolution, membrane biology, and disease association. Huang CH, Ye M. Cell Mol Life Sci 67 1203-1218 (2010)
  8. Switching substrate specificity of AMT/MEP/ Rh proteins. Neuhäuser B, Dynowski M, Ludewig U. Channels (Austin) 8 496-502 (2014)
  9. Nutrient and Stress Sensing in Pathogenic Yeasts. Rutherford JC, Bahn YS, van den Berg B, Heitman J, Xue C. Front Microbiol 10 442 (2019)
  10. Biological ammonium transporters from the Amt/Mep/Rh superfamily: mechanism, energetics, and technical limitations. Williamson G, Bizior A, Harris T, Pritchard L, Hoskisson PA, Javelle A. Biosci Rep 44 BSR20211209 (2024)

Articles citing this publication (40)



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