A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä
Mu transposition complex mutagenesis in Lactococcus lactis- identification of genes affecting nisin production
Tekijät: Wu Z, Xuanyuan Z, Li R, Jiang D, Li C, Xu H, Bai Y, Zhang X, Turakainen H, Saris PEJ, Savilahti H, Qiao M
Kustantaja: WILEY
Julkaisuvuosi: 2009
Lehti:Journal of Applied Microbiology
Tietokannassa oleva lehden nimiJOURNAL OF APPLIED MICROBIOLOGY
Lehden akronyymi: J APPL MICROBIOL
Vuosikerta: 106
Numero: 1
Aloitussivu: 41
Lopetussivu: 48
Sivujen määrä: 8
ISSN: 1364-5072
DOI: https://doi.org/10.1111/j.1365-2672.2008.03962.x
Tiivistelmä
This paper describes optimization of electrotransformation of Mu transposition complexes into Lactococcus lactis cells and identification of genes affecting nisin production.The highest transformation efficiency, 1.1 x 10(2) transformants mu g(-1) of input transposon DNA, was achieved when cells were grown to an OD600 of 0.5 in the presence of 1.5% of glycine and treated with 20 mu g ml(-1) ampicillin for 60 min. Three insertions affecting nisin production, which were identified at nisB, fhuR, and rpiA genes, were screened from a library of similar to 2000 erythromycin-resistant transformants using a nisin bioassay method. NisB is part of the nisin biosynthetic machinery, explaining the loss of nisin production in nisB mutant. FhuR is a transcription regulator involved in sulphur acquisition. Inactivation of fhuR presumably results in a low cellular cystein level, which affects nisin biosynthesis that involves utilization of cystein. RpiA is involved in pentose phosphate pathway and carbon fixation. The rpiA mutant showed reduction in nisin production and slow growth rate.The results showed that Mu transposition complex mutagenesis can be used to identify genes in L. lactis. Three genes involved in nisin production were identified.Expanding the Mu transposition-based mutagenesis to Lactococci adds a new tool for studies of industrially important bacteria.
This paper describes optimization of electrotransformation of Mu transposition complexes into Lactococcus lactis cells and identification of genes affecting nisin production.The highest transformation efficiency, 1.1 x 10(2) transformants mu g(-1) of input transposon DNA, was achieved when cells were grown to an OD600 of 0.5 in the presence of 1.5% of glycine and treated with 20 mu g ml(-1) ampicillin for 60 min. Three insertions affecting nisin production, which were identified at nisB, fhuR, and rpiA genes, were screened from a library of similar to 2000 erythromycin-resistant transformants using a nisin bioassay method. NisB is part of the nisin biosynthetic machinery, explaining the loss of nisin production in nisB mutant. FhuR is a transcription regulator involved in sulphur acquisition. Inactivation of fhuR presumably results in a low cellular cystein level, which affects nisin biosynthesis that involves utilization of cystein. RpiA is involved in pentose phosphate pathway and carbon fixation. The rpiA mutant showed reduction in nisin production and slow growth rate.The results showed that Mu transposition complex mutagenesis can be used to identify genes in L. lactis. Three genes involved in nisin production were identified.Expanding the Mu transposition-based mutagenesis to Lactococci adds a new tool for studies of industrially important bacteria.
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