Menu

Douwe Van Sinderen

An efficient and reproducible method for transformation of genetically recalcitrant bifidobacteria

Typeset version

 

 

TY  - GEN
  - Published Letters
  - Serafini, F,Turroni, F,Guglielmetti, S,Gioiosa, L,Foroni, E,Sanghez, V,Bartolomucci, A,Motherway, MO,Palanza, P,van Sinderen, D,Ventura, M
  - 2012
  - August
  - An efficient and reproducible method for transformation of genetically recalcitrant bifidobacteria
  - Validated
  - 1
  - Altmetric: 1 ()
  - bifidobacteria genomics transformation genetic manipulation LONGUM BIOVAR LONGUM GENUS BIFIDOBACTERIUM GENOME SEQUENCE BREVE UCC2003 CONSTRUCTION BACTERIA
  - This study describes an efficient transformation system for the introduction of plasmid DNA into Bifidobacterium bifidum PRL2010 and Bifidobacterium asteroides PRL2011, for which to the best of our knowledge no transformation data have been reported previously. The method is based on electroporation of bifidobacterial cells, which were made competent by an optimized methodology based on varying media and growth conditions. Furthermore, the transformation protocol was applied in order to design a PRL2010-derivative, which carries antibiotic resistance against chloramphenicol and which was used to monitor PRL2010 colonization in a murine model.
  - 146
  - 152
  - 10.1111/j.1574-6968.2012.02605.x
DA  - 2012/08
ER  - 
@misc{V243939236,
   = {Published Letters},
   = {Serafini,  F and Turroni,  F and Guglielmetti,  S and Gioiosa,  L and Foroni,  E and Sanghez,  V and Bartolomucci,  A and Motherway,  MO and Palanza,  P and van Sinderen,  D and Ventura,  M },
   = {2012},
   = {August},
   = {An efficient and reproducible method for transformation of genetically recalcitrant bifidobacteria},
   = {Validated},
   = {1},
   = {Altmetric: 1 ()},
   = {bifidobacteria genomics transformation genetic manipulation LONGUM BIOVAR LONGUM GENUS BIFIDOBACTERIUM GENOME SEQUENCE BREVE UCC2003 CONSTRUCTION BACTERIA},
   = {{This study describes an efficient transformation system for the introduction of plasmid DNA into Bifidobacterium bifidum PRL2010 and Bifidobacterium asteroides PRL2011, for which to the best of our knowledge no transformation data have been reported previously. The method is based on electroporation of bifidobacterial cells, which were made competent by an optimized methodology based on varying media and growth conditions. Furthermore, the transformation protocol was applied in order to design a PRL2010-derivative, which carries antibiotic resistance against chloramphenicol and which was used to monitor PRL2010 colonization in a murine model.}},
  pages = {146--152},
   = {10.1111/j.1574-6968.2012.02605.x},
  source = {IRIS}
}
OTHER_PUB_TYPEPublished Letters
AUTHORSSerafini, F,Turroni, F,Guglielmetti, S,Gioiosa, L,Foroni, E,Sanghez, V,Bartolomucci, A,Motherway, MO,Palanza, P,van Sinderen, D,Ventura, M
YEAR2012
MONTHAugust
TITLEAn efficient and reproducible method for transformation of genetically recalcitrant bifidobacteria
RESEARCHER_ROLE
STATUSValidated
PEER_REVIEW1
TIMES_CITEDAltmetric: 1 ()
SEARCH_KEYWORDbifidobacteria genomics transformation genetic manipulation LONGUM BIOVAR LONGUM GENUS BIFIDOBACTERIUM GENOME SEQUENCE BREVE UCC2003 CONSTRUCTION BACTERIA
REFERENCE
ABSTRACTThis study describes an efficient transformation system for the introduction of plasmid DNA into Bifidobacterium bifidum PRL2010 and Bifidobacterium asteroides PRL2011, for which to the best of our knowledge no transformation data have been reported previously. The method is based on electroporation of bifidobacterial cells, which were made competent by an optimized methodology based on varying media and growth conditions. Furthermore, the transformation protocol was applied in order to design a PRL2010-derivative, which carries antibiotic resistance against chloramphenicol and which was used to monitor PRL2010 colonization in a murine model.
PUBLISHER_LOCATION
PUBLISHER
EDITORS
ISBN_ISSN
EDITION
URL
START_PAGE146
END_PAGE152
DOI_LINK10.1111/j.1574-6968.2012.02605.x
FUNDING_BODY
GRANT_DETAILS
Close X