| Pseudomonas aeruginosa Lifestyle: A Paradigm for Adaptation, Survival, and Persistence MF Moradali, S Ghods, BHA Rehm Frontiers in cellular and infection microbiology 7, 39, 2017 | 1111 | 2017 |
| Bacterial polymers: biosynthesis, modifications and applications BHA Rehm Nature Reviews Microbiology 8 (8), 578-592, 2010 | 864 | 2010 |
| A sensitive, viable-colony staining method using Nile red for direct screening of bacteria that accumulate polyhydroxyalkanoic acids and other lipid storage compounds P Spiekermann, BHA Rehm, R Kalscheuer, D Baumeister, A Steinbüchel Archives of microbiology 171, 73-80, 1999 | 820 | 1999 |
| Polyester synthases: natural catalysts for plastics BHA Rehm Biochemical Journal 376 (1), 15-33, 2003 | 807 | 2003 |
| Human host defense peptide LL-37 prevents bacterial biofilm formation J Overhage, A Campisano, M Bains, ECW Torfs, BHA Rehm, ... Infection and immunity 76 (9), 4176-4182, 2008 | 739 | 2008 |
| Role of exopolysaccharides in Pseudomonas aeruginosa biofilm formation and architecture A Ghafoor, ID Hay, BHA Rehm Applied and environmental microbiology 77 (15), 5238-5246, 2011 | 477 | 2011 |
| Biochemical and genetic analysis of PHA synthases and other proteins required for PHA synthesis BHA Rehm, A Steinbüchel International journal of biological macromolecules 25 (1-3), 3-19, 1999 | 476 | 1999 |
| Bacterial exopolysaccharides: biosynthesis pathways and engineering strategies J Schmid, V Sieber, B Rehm Frontiers in microbiology 6, 496, 2015 | 421 | 2015 |
| Bacterial alginates: from biosynthesis to applications U Remminghorst, BHA Rehm Biotechnology letters 28, 1701-1712, 2006 | 418 | 2006 |
| Bacterial alginates: biosynthesis and applications BHA Rehm, S Valla Applied microbiology and biotechnology 48, 281-288, 1997 | 415 | 1997 |
| A New Metabolic Link between Fatty Acid de NovoSynthesis and Polyhydroxyalkanoic Acid Synthesis: THE PHAG GENE FROM PSEUDOMONAS PUTIDAKT2440 ENCODES A 3-HYDROXYACYL-ACYL … BHA Rehm, N Kruger, A Steinbuchel Journal of Biological Chemistry 273 (37), 24044-24051, 1998 | 351 | 1998 |
| Microbial alginate production, modification and its applications ID Hay, ZU Rehman, MF Moradali, Y Wang, BHA Rehm Microbial biotechnology 6 (6), 637-650, 2013 | 306 | 2013 |
| Bacterial polyhydroxyalkanoate granules: biogenesis, structure, and potential use as nano-/micro-beads in biotechnological and biomedical applications K Grage, AC Jahns, N Parlane, R Palanisamy, IA Rasiah, JA Atwood, ... Biomacromolecules 10 (4), 660-669, 2009 | 276 | 2009 |
| Alginates: biology and applications BHA Rehm Springer Science & Business Media, 2009 | 257 | 2009 |
| Pseudomonas aeruginosa Biofilms MTT Thi, D Wibowo, BHA Rehm International journal of molecular sciences 21 (22), 8671, 2020 | 236 | 2020 |
| Bacterial biopolymers: from pathogenesis to advanced materials MF Moradali, BHA Rehm Nature Reviews Microbiology 18 (4), 195-210, 2020 | 213 | 2020 |
| Functional expression of the PHA synthase gene phaC1 from Pseudomonas aeruginosa in Escherichia coli results in poly(3-hydroxyalkanoate) synthesis S Langenbach, BHA Rehm, A Steinbüchel FEMS microbiology letters 150 (2), 303-309, 1997 | 204 | 1997 |
| Microbial production of biopolymers and polymer precursors B Rehm Caister Academic, 2009 | 201 | 2009 |
| Polymer production by two newly isolated extremely halophilic archaea: application of a novel corrosion-resistant bioreactor FF Hezayen, BHA Rehm, R Eberhardt, A Steinbüchel Applied Microbiology and Biotechnology 54, 319-325, 2000 | 190 | 2000 |
| The role of polyhydroxyalkanoate biosynthesis by Pseudomonas aeruginosa in rhamnolipid and alginate production as well as stress tolerance and biofilm formation TH Pham, JS Webb, BHA Rehm Microbiology 150 (10), 3405-3413, 2004 | 189 | 2004 |
