Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end of Tn4652
R Teras, J Jakovleva, M Kivisaar - Microbiology, 2009 - microbiologyresearch.org
Transposition activity in bacteria is generally maintained at a low level. The activity of mobile
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
[PDF][PDF] Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end of Tn4652
R Teras, J Jakovleva, M Kivisaar - Microbiology, 2009 - Citeseer
Transposition activity in bacteria is generally maintained at a low level. The activity of mobile
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end of Tn4652
R Teras, J Jakovleva, M Kivisaar - Microbiology, 2009 - cir.nii.ac.jp
抄録< jats: p> Transposition activity in bacteria is generally maintained at a low level. The
activity of mobile DNA elements can be controlled by bacterially encoded global regulators …
activity of mobile DNA elements can be controlled by bacterially encoded global regulators …
Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end of Tn4652.
R Teras, J Jakovleva, M Kivisaar - Microbiology (Reading, England), 2009 - europepmc.org
Transposition activity in bacteria is generally maintained at a low level. The activity of mobile
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
[PDF][PDF] Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end of Tn4652
R Teras, J Jakovleva, M Kivisaar - Microbiology, 2009 - academia.edu
Transposition activity in bacteria is generally maintained at a low level. The activity of mobile
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end of Tn4652
R Teras, J Jakovleva… - Microbiology (Reading …, 2009 - pubmed.ncbi.nlm.nih.gov
Transposition activity in bacteria is generally maintained at a low level. The activity of mobile
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
[PDF][PDF] Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end of Tn4652
R Teras, J Jakovleva, M Kivisaar - Microbiology, 2009 - scholar.archive.org
Transposition activity in bacteria is generally maintained at a low level. The activity of mobile
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
[引用][C] Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end of Tn4652
R TERAS, J JAKOVLEVA… - Microbiology (Reading …, 2009 - pascal-francis.inist.fr
Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end
of Tn4652 CNRS Inist Pascal-Francis CNRS Pascal and Francis Bibliographic Databases …
of Tn4652 CNRS Inist Pascal-Francis CNRS Pascal and Francis Bibliographic Databases …
[PDF][PDF] Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end of Tn4652
R Teras, J Jakovleva, M Kivisaar - Microbiology, 2009 - academia.edu
Transposition activity in bacteria is generally maintained at a low level. The activity of mobile
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …
DNA elements can be controlled by bacterially encoded global regulators. Regulation of …