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Literature DB >> 26354020

Laccase activity is proportional to the abundance of bacterial laccase-like genes in soil from subtropical arable land.

Shuzhen Feng^1,2,3, Yirong Su^1,3,4, Mingzhe Dong^1,2,3, Xunyang He^1,3, Deepak Kumaresan^4,5, Anthony G O'Donnell^4,5, Jinshui Wu^1,4, Xiangbi Chen^6,7,8,9.

Abstract

Laccase enzymes produced by both soil bacteria and fungi play important roles in refractory organic matter turnover in terrestrial ecosystems. We investigated the abundance and diversity of fungal laccase genes and bacterial laccase-like genes in soil from subtropical arable lands, and identified which microbial group was associated with laccase activity. Compared with fungal laccase genes, the bacterial laccase-like genes had greater abundance, richness and Shannon-Wiener diversity. More importantly, laccase activity can be explained almost exclusively by the bacterial laccase-like genes, and their abundance had significant linear relationship with laccase activity. Thus, bacterial laccase-like gene has great potential to be used as a sensitive indicator of laccase enzyme for refractory organic matter turnover in subtropical arable lands.

Keywords: Arable land; Bacteria; Fungi; Laccase

Mesh：

Substances：

Year: 2015 PMID： 26354020 DOI： 10.1007/s11274-015-1944-9

Source DB: PubMed Journal: World J Microbiol Biotechnol ISSN： 0959-3993 Impact factor: 3.312

15 in total

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Journal: Appl Microbiol Biotechnol Date: 2011-12-09 Impact factor: 4.813

5. Transformation of Quercus petraea litter: successive changes in litter chemistry are reflected in differential enzyme activity and changes in the microbial community composition.

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6. Effects of olive mill wastewater on soil carbon and nitrogen cycling.

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7. Molecular analysis of fungal communities and laccase genes in decomposing litter reveals differences among forest types but no impact of nitrogen deposition.

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9. Diversity of laccase-like multicopper oxidase genes in Morchellaceae: identification of genes potentially involved in extracellular activities related to plant litter decay.

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