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Journal Abstract Search

226 related items for PubMed ID: 30158366

  • 21. Distinct Expression of the Two NO-Forming Nitrite Reductases in Thermus antranikianii DSM 12462T Improved Environmental Adaptability.
    Liu RR, Tian Y, Zhou EM, Xiong MJ, Xiao M, Li WJ.
    Microb Ecol; 2020 Oct; 80(3):614-626. PubMed ID: 32474659
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  • 23. Analysis of denitrification genes and comparison of nosZ, cnorB and 16S rDNA from culturable denitrifying bacteria in potato cropping systems.
    Dandie CE, Burton DL, Zebarth BJ, Trevors JT, Goyer C.
    Syst Appl Microbiol; 2007 Mar; 30(2):128-38. PubMed ID: 16793234
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  • 24. Presence of two different active nirS nitrite reductase genes in a denitrifying Thauera sp. from a high-nitrate-removal-rate reactor.
    Etchebehere C, Tiedje J.
    Appl Environ Microbiol; 2005 Sep; 71(9):5642-5. PubMed ID: 16151169
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  • 26. [Differential Responses of Rhizospheric nirK- and nirS-type Denitrifier Communities to Different Phosphorus Levels in Paddy Soil].
    Zhan Y, Gao DD, Sheng R, Wei WX, Qin HL, Zhang WZ, Hou HJ, Tang YF.
    Huan Jing Ke Xue; 2019 Jul 08; 40(7):3304-3312. PubMed ID: 31854732
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  • 28. Silver (Ag+) reduces denitrification and induces enrichment of novel nirK genotypes in soil.
    Throbäck IN, Johansson M, Rosenquist M, Pell M, Hansson M, Hallin S.
    FEMS Microbiol Lett; 2007 May 08; 270(2):189-94. PubMed ID: 17250758
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  • 31. Agricultural soil denitrifiers possess extensive nitrite reductase gene diversity.
    Coyotzi S, Doxey AC, Clark ID, Lapen DR, Van Cappellen P, Neufeld JD.
    Environ Microbiol; 2017 Mar 08; 19(3):1189-1208. PubMed ID: 27943515
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  • 32. Distinct Community Composition of Previously Uncharacterized Denitrifying Bacteria and Fungi across Different Land-Use Types.
    Fujimura R, Azegami Y, Wei W, Kakuta H, Shiratori Y, Ohte N, Senoo K, Otsuka S, Isobe K.
    Microbes Environ; 2020 Mar 08; 35(1):. PubMed ID: 31996500
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  • 33. Abundance of narG, nirS, nirK, and nosZ genes of denitrifying bacteria during primary successions of a glacier foreland.
    Kandeler E, Deiglmayr K, Tscherko D, Bru D, Philippot L.
    Appl Environ Microbiol; 2006 Sep 08; 72(9):5957-62. PubMed ID: 16957216
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  • 35. Ecological and evolutionary factors underlying global and local assembly of denitrifier communities.
    Jones CM, Hallin S.
    ISME J; 2010 May 08; 4(5):633-41. PubMed ID: 20090785
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  • 36. Copper-containing nitrite reductase from Pseudomonas aureofaciens is functional in a mutationally cytochrome cd1-free background (NirS-) of Pseudomonas stutzeri.
    Glockner AB, Jüngst A, Zumft WG.
    Arch Microbiol; 1993 May 08; 160(1):18-26. PubMed ID: 8352648
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  • 37. Molecular diversity of denitrifying genes in continental margin sediments within the oxygen-deficient zone off the Pacific coast of Mexico.
    Liu X, Tiquia SM, Holguin G, Wu L, Nold SC, Devol AH, Luo K, Palumbo AV, Tiedje JM, Zhou J.
    Appl Environ Microbiol; 2003 Jun 08; 69(6):3549-60. PubMed ID: 12788762
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  • 38. NifA is required for maximal expression of denitrification genes in Bradyrhizobium japonicum.
    Bueno E, Mesa S, Sanchez C, Bedmar EJ, Delgado MJ.
    Environ Microbiol; 2010 Feb 08; 12(2):393-400. PubMed ID: 19840105
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  • 39. Detection and diversity of copper containing nitrite reductase genes (nirK) in prokaryotic and fungal communities of agricultural soils.
    Long A, Song B, Fridey K, Silva A.
    FEMS Microbiol Ecol; 2015 Feb 08; 91(2):1-9. PubMed ID: 25764542
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