| 1 |
Bioprocess strategies for mass multiplication of and metabolite synthesis by plant growth promoting pseudomonads for agronomical applications
Sarma MVRK, Gautam A, Kumar L, Saharan K, Kapoor A, Shrivastava N, Sahai V, Bisaria VS
Process Biochemistry, 48(9), 1418, 2013 |
| 2 |
Influence of soil reaction on diversity and antifungal activity of fluorescent pseudomonads in crop rhizospheres
Verma R, Naosekpam AS, Kumar S, Prasad R, Shanmugam V
Bioresource Technology, 98(7), 1346, 2007 |
| 3 |
Enhanced Yield and a High Production of Medium-Chain-Length Poly(3-Hydroxyalkanoates) in a 2-Step Fed-Batch Cultivation of Pseudomonas-Putida by Combined Use of Glucose and Octanoate
Kim GJ, Lee IY, Yoon SC, Shin YC, Park YH
Enzyme and Microbial Technology, 20(7), 500, 1997 |
| 4 |
Production of Poly(3-Hydroxyalkanoates) by Pseudomonas-Putida Kt2442 in Continuous Cultures
Huijberts GN, Eggink G
Applied Microbiology and Biotechnology, 46(3), 233, 1996 |
| 5 |
Biosynthesis of Copolyesters Consisting of 3-Hydroxybutyric Acid and Medium-Chain Length 3-Hydroxyalkanoic Acids from 1,3-Butanediol or from 3-Hydroxybutyrate by Pseudomonas Sp A33
Lee EY, Jendrossek D, Schirmer A, Choi CY, Steinbuchel A
Applied Microbiology and Biotechnology, 42(6), 901, 1995 |
| 6 |
A General-Method for Identification of Polyhydroxyalkanoic Acid Synthase Genes from Pseudomonads Belonging to the Ribosomal-RNA Homology Group-I
Timm A, Wiese S, Steinbuchel A
Applied Microbiology and Biotechnology, 40(5), 669, 1994 |
| 7 |
Effects of Culture Conditions on Molecular-Weights of Poly(3-Hydroxyalkanoates) Produced by Pseudomonas-Putida from Octanoate
Hori K, Soga K, Doi Y
Biotechnology Letters, 16(7), 709, 1994 |
| 8 |
A Biodegradable Rubber by Cross-Linking Poly(Hydroxyalkanoate) from Pseudomonas-Oleovorans
Dekoning GJ, Vanbilsen HM, Lemstra PJ, Hazenberg W, Witholt B, Preusting H, Vandergalien JG, Schirmer A, Jendrossek D
Polymer, 35(10), 2090, 1994 |
