Biology Reference
In-Depth Information
Mogk, A., Tomoyasu, T., Goloubinoff, P., Rüdiger, S., Röder, D., Langen, H., and Bukau, B. (1999) Identifi cation of thermolabile
Escherichia coli
proteins: prevention and reversion of aggregation by DnaK and ClpB.
EMBO J
18:
6934-6949.
Mohamed, A., and Jansson, C. (1989) Infl uence of light on accumulation of photosynthesis-specifi c transcripts in the
cyanobacterium
Synechocystis
.
Plant Mol Biol
13:
693-700.
Mohamed, A., Eriksson, J., Osiewacz, H., and Jansson, C. (1993) Differential expression of the
psbA
genes in the cyanobacterium
Synechocystis
.
Mol Gen Genet
238:
161-168.
Mohamed, A., and Jansson, C. (1989) Infl uence of light on accumulation of photosynthesis-specifi c transcripts in the
cyanobacterium
Synechocystis
.
Plant Mol Biol
13:
693-700.
Mongkolsuk, S., and Helmann
,
J. D. (2002) Regulation of inducible peroxide stress responses.
Mol Microbiol
45:
9-15.
Mori, S., Castoreno, A., Mulligan, M. E., and Lammers, P. J. (2003) Nitrogen status modulates the expression of RNA-binding
proteins in cyanobacteria.
FEMS Microbiol Lett
227:
203-210.
Morsay, F. M., Kuzuha, S., Takani, Y., and Sakamoto, T. (2008) Novel thermostable glycosidases in the extracellular matrix
of the terrestrial cyanobacterium
Nostoc commune
.
J Gen Appl Microbiol
54:
243-252.
Motohashi, K., Watanabe, Y., Yohda, M., and Yoshida, M. (1999) Heat-inactivated proteins are rescued by the DnaJ-GrpE set
and ClpB chaperones.
Proc Natl Acad Sci USA
96:
7184-7189.
Müller, D. R., Vincent, W. F., Bonilla, S., and Laurion, I. (2005) Extremotrophs, extremophiles and broadband pigment strategies
in a high arctic ice shelf system.
FEMS Microb Ecol
53:
73-87.
Muller, E. D. G., and Buchanan, B. B. (1989) Thioredoxin is essential for photosynthetic growth.
J Biol Chem
264:
4008-4014.
Mulligan, M. E., Jackman, D. M., and Murphy, S. T. (1994) Heterocyst forming fi lamentous cyanobacteria encode proteins
that resemble eukaryotic RNA-binding proteins of the RNP family.
J
Mol Biol
235:
1162-1170.
Murata, N. (1989) Low-temperature effects on cyanobacterial membranes.
J Bioenerg Biomembr
21:
61-75.
Murata, N., and Los, D. A. (1997) Membrane fl uidity and temperature perception.
Plant Physiol
115:
875- 879.
Murata, N., and Los, D. A. (2006) Histidine kinase Hik33 is an important participant in cold signal transduction in cyanobacteria.
Physiol Plant
126:
17-27.
Murata, N., and Nishida, I. (1987) Lipids of blue-green algae (cyanobacteria). In:
Stumpf, P. K. (Ed.)
The Biochemistry of Plants
,
Vol. 9. Academic Press, San Diego, CA, USA. pp. 315-347.
Murata, N., and Siegenthaler, P. A. (2004) Lipids in photosynthesis: An overview. In: : Wada, H., and Murata, N. (Eds)
Lipids
in Photosynthesis. Structure, Function and Genetics
. Springer Science + Business Media, B.V. Berlin,
Germany. pp. 1-20.
Murata, N., and Suzuki, I. (2006) Exploitation of genomic sequences in a systematic analysis to access how cyanobacteria
sense environmental stress.
J Exp Bot
57:
235-247.
Murata, N., and Wada, H. (1995) Acyl-lipid desaturases and their importance in the tolerance and acclimatization to cold of
cyanobacteria.
Biochem J
308:
1-8.
Murata, N., Ishizaki-Nishizawa, O., Higashi, H., Hayashi, H., Tasaka, Y., and Nishida, I. (1992a) Genetically engineered
alteration in the chilling sensitivity of plants.
Nature
(London)
356:
710-713.
Murata, N., Ono, T., and Sato, N. (1979) Lipid phase of membrane and chilling injury in the blue-green alga
Anacystis nidulans
.
In: Lyons, J. M., Graham, D., and Raison, J. K. (Eds.)
Low Temperature Stress in Crop Plants
. Academic Press, New York,
NY, USA. pp. 337-345.
Murata, N., Wada, H., and Gombos, Z. (1992b) Modes of fatty-acid desaturation in cyanobacteria.
Plant Cell Physiol
33:
933-941.
Mustardy, L., Los, D. A., Gombos, Z., and Murata, N. (1996) Immunocytochemical localization of acyl-lipid desaturases in
cyanobacterial cells: Evidence that both thylakoid membranes and cytoplasmic membranes are sites of lipid desaturation.
Proc Natl Acad Sci USA
93:
10524-10527.
Mutsuda, M., Ishikawa, T., Takeda, T., and Shigeoka, S. (1996) The catalase-peroxidase of
Synechococcus
PCC 7942: purifi cation,
nucleotide sequence analysis and expression in
Escherichia coli
.
Biochem J
316:
251-257.
Nakamoto, H., and Honma, D. (2006) Interaction of small heat-shock protein with light harvesting cyanobacterial phycocyanins
under stress conditions.
FEBS Lett
580:
3029-3034.
Nakamoto, H., and Vígh, L. (2007) The small heat shock proteins and their clients.
Cell Mol Life Sci
64:
294-306.
Nakamoto, H., Suzuki, N., and Roy, S. K. (2000) Constitutive expression of a small heat-shock protein confers cellular
thermotolerance and thermal properties to the photosynthetic apparatus in cyanobacteria.
FEBS Lett
483:
169-174.
Nakamoto, H., Suzuki, N., and Kojima, K. (2003) Targeted inactivation of the
hrcA
repressor gene in cyanobacteria.
FEBS
Lett
549:
57-62.
Nakamoto, H., Tanaka, N., and Ishikawa, N. (2001) A novel heat shock protein plays an important role in thermal stress
management in cyanobacteria.
J Biol Chem
276:
25088-25095.
Nakamura, K., and Hihara, Y. (2006) Photon fl ux density-dependent gene expression in
Synechocystis
sp. PCC 6803 is regulated
by a small, redox-responsive, LuxR-type regulator.
J Biol Chem
281:
36758-36766.
Nakamura, T., Naito, K., Yokota, N., Sugita, C., and Sugita, M. (2007) A cyanobacterial non-coding RNA, Yfr1, is required
for growth under multiple stress conditions.
Plant Cell Physiol
48:
1309-1318.