| 1 |
Influence of Lactic Acid on Cell Cycle Progressions in Lactobacillus bulgaricus During Batch Culture
Chen SW, Niu HY, Wu YF, Sun JL, Han X, Zhang LW
Applied Biochemistry and Biotechnology, 193(3), 912, 2021 |
| 2 |
Real-time compaction of nanoconfined DNA by an intrinsically disordered macromolecular counterion
Sharma R, Sriram KK, Holmstrom ED, Westerlund F
Biochemical and Biophysical Research Communications, 533(1), 175, 2020 |
| 3 |
The effect of salt on oligocation-induced chromatin condensation
Korolev N, Zhao YQ, Allahverdi A, Eom KD, Tam JP, Nordenskiold L
Biochemical and Biophysical Research Communications, 418(2), 205, 2012 |
| 4 |
Role of DNA-DNA interactions on the structure and thermodynamics of bacteriophages Lambda and P4
Petrov AS, Harvey SC
Journal of Structural Biology, 174(1), 137, 2011 |
| 5 |
Effect of divalent cations on DNA condensed on the surface of rigid cationic membrane
Wu CM, Chen CY, Lin SY, Chen HL
Reactive & Functional Polymers, 71(3), 266, 2011 |
| 6 |
Efficient DNA Binding and Condensation Using Low Molecular Weight, Low Charge Density Cationic Polymer Amphiphiles
Mindemark J, Bowden T
Macromolecular Rapid Communications, 31(15), 1378, 2010 |
| 7 |
Application of DNA condensation for removal of mercury ions from aqueous solutions
Zinchenko AA, Sakai H, Matsuoka S, Murata S
Journal of Hazardous Materials, 168(1), 38, 2009 |
| 8 |
Explanation for the electrophoresis behaviour of DNA condensation induced by pseudopolyrotaxane of different lengths
Hou S, Yang K, Feng XZ
Electrophoresis, 29(21), 4391, 2008 |
| 9 |
Preparation of monomethyl poly (ethylene glycol)-g-chitosan copolymers with various degrees of substitution: Their ability to encapsulate and condense plasmid DNA
Zhang W, Pan SR, Zhang X, Luo X, Du Z
Journal of Applied Polymer Science, 108(5), 2958, 2008 |
| 10 |
Shape and compaction of Escherichia coli nucleoids
Zimmerman SB
Journal of Structural Biology, 156(2), 255, 2006 |
