Biology Reference
In-Depth Information
Berndt, C., Lillig, C. H., & Holmgren, A. (2008). Thioredoxins and glutaredoxins as facilita-
tors of protein folding.
Biochimica et Biophysica Acta
,
1783
, 641-650.
Bhargava, P., Srivastava, A. K., Urmil, S., & Rai, L. C. (2005). Phytochelatin plays a role
in UV-B tolerance in N2-fixing cyanobacterium Anabaena doliolum.
Journal of Plant
Physiology
,
162
, 1220-1225.
Cameron, J. C., & Pakrasi, H. B. (2010). Essential role of glutathione in acclimation to
environmental and redox perturbations in the cyanobacterium Synechocystis sp. PCC
6803.
Plant Physiology
,
154
, 1672-1685.
Cameron, J. C., & Pakrasi, H. B. (2011). Glutathione facilitates antibiotic resistance and
photosystem I stability during exposure to gentamicin in cyanobacteria.
Applied and
Environmental Microbiology
,
77
, 3547-3550.
Cassier-Chauvat, C., Poncelet, M., & Chauvat, F. (1997). Three insertion sequences from the
cyanobacterium Synechocystis PCC6803 support the occurrence of horizontal DNA
transfer among bacteria.
Gene
,
195
, 257-266.
Chauvat, F., de Vries, L., Van der Ende, A., & Van Arkel, G. A. (1986). A host-vector system
for gene cloning in the cyanobacterium Synechocystis PCC6803.
Molecular and General
Genetics
,
204
, 185-191.
Chauvat, F., Astier, C., Vedel, F., & Joset-Espardellier, F. (1983). Transformation in the
cyanobacterium Synechococcus R2: improvement of efficiency; role of the pUH24
plasmid.
Molecular and General Genetics
,
191
, 39-45.
Clokie, M. R., & Mann, N. H. (2006). Marine cyanophages and light.
Environmental Microbiology
,
8
, 2074-2082.
Copley, S. D., & Dhillon, J. K. (2002). Lateral gene transfer and parallel evolution in the
history of glutathione biosynthesis genes.
Genome Biology
,
3
. research0025.
Couturier, J., Jacquot, J. P., & Rouhier, N. (2009). Evolution and diversity of glutare-
doxins in photosynthetic organisms.
Cellular and Molecular Life Sciences: CMLS
,
66
, 2539-2557.
Dalle-Donne, I., Rossi, R., Colombo, G., Giustarini, D., & Milzani, A. (2009). Protein S-glu-
tathionylation: a regulatory device from bacteria to humans.
Trends in Biochemical Sciences
,
34
, 85-96.
Danielson, U. H., Jiang, F., Hansson, L. O., & Mannervik, B. (1999). Probing the kinetic
mechanism and coenzyme specificity of glutathione reductase from the cyanobacterium
Anabaena PCC 7120 by redesign of the pyridine-nucleotide-binding site.
Biochemistry
,
38
, 9254-9263.
De Philippis, R., Colica, G., & Micheletti, E. (2011). Exopolysaccharide-producing
cyanobacteria in heavy metal removal from water: molecular basis and practical appli-
cability of the biosorption process.
Applied Microbiology and Biotechnology
,
92
, 697-708.
Domain, F., Houot, L., Chauvat, F., & Cassier-Chauvat, C. (2004). Function and regulation
of the cyanobacterial genes lexA, recA and ruvB: LexA is critical to the survival of cells
facing inorganic carbon starvation.
Molecular Microbiology
,
53
, 65-80.
Ducat, D. C., Way, J. C., & Silver, P. A. (2011). Engineering cyanobacteria to generate
high-value products.
Trends in Biotechnology
,
29
, 95-103.
Figge, R. M., Cassier-Chauvat, C., Chauvat, F., & Cerff, R. (2001). Characterization and
analysis of an NAD(P)H dehydrogenase transcriptional regulator critical for the sur-
vival of cyanobacteria facing inorganic carbon starvation and osmotic stress.
Molecular
Microbiology
,
39
, 455-468.
Fleischmann, R. D., Adams, M. D., White, O., Clayton, R. A., Kirkness, E. F., Kerlavage, A. R.,
et al. (1995). Whole-genome random sequencing and assembly of Haemophilus influ-
enzae Rd.
Science
,
269
, 496-512.
Florencio, F. J., Perez-Perez, M. E., Lopez-Maury, L., Mata-Cabana, A., & Lindahl, M. (2006).
The diversity and complexity of the cyanobacterial thioredoxin systems.
Photosynthesis
Research
,
89
, 157-171.