Page 93 - Biodegradable Polyesters
P. 93
References 71
for models describing the molecu- pseudomonas aeruginosa biofilm for-
lar architecture of this layer. J. Basic mation and architecture. Appl. Environ.
Microbiol., 37, 45–52. Microbiol., 77, 5238–5246.
60. Chen, G.-Q. (2009) A microbial polyhy- 69. Grage, K. and Rehm, B.H.A. (2008)
droxyalkanoates (PHA) based bio- and In vivo production of scFv-displaying
materials industry. Chem. Soc. Rev., 38, biopolymer beads usin a self-assembly-
2434–2446. promoting fusion partner. Bioconjugate
61. Zhang, X.J., Luo, R.C., Wang, Z., Deng, Chem., 19, 254–262.
Y., and Chen, G.Q. (2009) Applica- 70. Peters, V. and Rehm, B.H.A. (2008) Pro-
tion of (R)-3-hydroxyalkanoate methyl tein engineering of streptavidin for in
esters derived from microbial poly- vivo assembly of streptavidin beads. J.
hydroxyalkanoates as novel biofuels. Biotechnol., 134, 266–274.
Biomacromolecules, 10, 707–711. 71. Li, J., Shang, G., You, M., Peng, P., Wang,
62. Martin, D.P. and Williams, S.F. (2003) Z., Wu, H., and Chen, G.-C. (2011)
Medical applications of poly-4- Endotoxin removing method based on
hydroxybutyrate: a strong flexible lipopolysaccharide binding protein and
absorbable biomaterial. Biochem. Eng. polyhydroxyalkanoate binding protein
J., 16, 97–105. PhaP. Biomacromolecules, 12, 602–608.
63. Steinbuechel,A.and Valentin,H.E. 72. Yao, Y.-C., Zhan, X.-Y., Zhang, J., Zou,
(1995) Diversity of bacterial polyhydrox- X.-H., Wang, Z.-H., Xiong, Y.–.C., Chen,
yalkanoic acids. FEMS Microbiol. Lett., J., and Chen, G.-Q. (2008) A specific
128, 219. drug targeting system based on polyhy-
64. Yamashita, K., Yamada, M., Mumata, droxyalkanoate granule binding protein
K., and Taguchi, S. (2006) Nonspe- PhaP fused with targeted cell ligands.
cific hydrophobic interactions of a Biomaterials, 29, 4823–4830.
repressorprotein,PhaR,withpoly[(R)- 73. Chaturvedi, K., Kulkarni, A.R., and
3-hydroxybutyrate] film studied with a Aminabhavi, T.M. (2011) Blend micro-
quartz crystal microbalance. Biomacro- spheres of poly (3-hydroxybutyrate) and
molecules, 7, 2449. cellulose acetate phthalate for colon
65. Wang, Z.H., Wu, H.N., Chen, J., Zhang, delivery of 5-fluorouracil. Ind. Eng.
J., and Chen, G.Q. (2008) A novel self- Chem. Res., 50, 10414–10423.
cleaving phasin tag for purification 74. Banki, M.R., Gerngross, T.U., and Wood,
of recombinant proteins based on D.W. (2005) Novel and economical
hydrophobic nanoparticles. Lab Chip, purification of recombinant proteins:
8, 1957. Intein-mediated protein purification
66. Bäckström, B.T., Brockelbank, J.A., and using in vivo polyhydroxybutyrate (PHB)
Rehm, B.H.A. (2007) Recombinant matrix association. Protein Sci., 14,
Escherichia coli produces tailor-made 1387–1395.
biopolyester granules for applications 75. Grage, K., Peters, V., and Rehm, B.H.a.
in fluorescence activated cell sorting: (2011) Recombinant protein produc-
functional display of the mouse inter- tion by in vivo polymer inclusion
leukin 2 and myelin oligodendrocyte display. Appl. Environ. Microbiol., 77,
glycoprotein. BMC Biotech., 7,3,Article 6706–6709.
Number: 3. 76. Rasiah, I.A. and Rehm, B.H.A. (2009)
67. Taguchi, S., Yamada, M., Matsumoto, One-step production of immobi-
K., Tajima, K., Satoh, Y., Munekata, lized alpha-amylase in recombinant
M., Ohno, K., Kohda, K., Shimamura, Escherichia coli. Appl. Environ. Micro-
T., Kambe, H., and Obata, S. (2008) biol., 75, 2012–2016.
A microbial factory for lactate-based 77. Blatchford, P.A., Scott, C., French, N.,
polyesters using a lactate polymerizing and Rehm, B.H.A. (2012) Immobi-
enzyme. Proc. Natl. Acad. Sci. U.S.A., lization of organophosphohydrolase
105, 17323–17327. OpdA from Agrobacterium radiobac-
68. Ghafoor, A., Hay, I.D., and Rehm, B.H.A. ter by overproduction at the surface of
(2011) Role of exopolysaccharides in polyester inclusions inside engineered
