| 1 |
Environmental factors shaping the abundance and distribution of laccase-encoding bacterial community with potential phenolic oxidase capacity during composting
Lu LH, Zeng GM, Fan CZ, Guo JS, Zhang JC, Chen M, Wu HP, Yuan YJ, He XX, He Y
Applied Microbiology and Biotechnology, 99(21), 9191, 2015 |
| 2 |
Characterization of a novel high-pH-tolerant laccase-like multicopper oxidase and its sequence diversity in Thioalkalivibrio sp
Ausec L, Crnigoj M, Snajder M, Ulrih NP, Mandic-Mulec I
Applied Microbiology and Biotechnology, 99(23), 9987, 2015 |
| 3 |
Unfolding pathway of CotA-laccase and the role of copper on the prevention of refolding through aggregation of the unfolded state
Fernandes AT, Lopes C, Martins LO, Melo EP
Biochemical and Biophysical Research Communications, 422(3), 442, 2012 |
| 4 |
Approaches for multicopper oxidases in the design of electrochemical sensors for analytical applications
Matos IO, Ferreira TL, Paixao TRLC, Lima AS, Bertotti M, Alves WA
Electrochimica Acta, 55(18), 5223, 2010 |
| 5 |
Trinuclear N,N-bridged copper(II) complexes involving a Cu3OH core: [Cu-3(mu(3)-OH)L(3)A(H2O)(2)]A center dot(H2O)(x) {L=3-acetylamino-1,2,4-triazolate; a = CF3SO3, NO3, ClO4; x = 0, 2} synthesis, X-ray structures, spectroscopy, and magnetic properties
Ferrer S, Haasnoot JG, Reedijk J, Muller E, Cingi MB, Lanfranchi M, Lanfredi AMM, Ribas J
Inorganic Chemistry, 39(9), 1859, 2000 |
| 6 |
Effect of protonation on peroxo-copper bonding : Spectroscopic and electronic structure study of [Cu-2((UN-O-)(OOH)](2+)
Root DE, Mahroof-Tahir M, Karlin KD, Solomon EI
Inorganic Chemistry, 37(19), 4838, 1998 |
| 7 |
Electronic and geometric structure of a trinuclear mixed-valence copper(II,II,III) cluster
Root DE, Henson MJ, Machonkin T, Mukherjee P, Stack TDP, Solomon EI
Journal of the American Chemical Society, 120(20), 4982, 1998 |
