Biology Reference
In-Depth Information
Li, C., Chen, X., Wang, P., and Wang, W. (2009) Circadian KaiC phosphorylation. A multilayer network.
PLoS Comput Biol
5:
e1000568. doi: 10.1371/journal.pcbi. 1000568.
Li, R., and Golden, S. S. (1993) Enhancer activity of light-responsive regulatory elements in the untranslated leader regions
of cyanobacterial
psbA
genes.
Proc
Natl Acad Sci USA
90:
11678
-
11682.
Liu, Y., Golden, S. S., Kondo, T., Ishiura, M., and Johnson, C. H. (1995a) Bacterial luciferase as a reporter gene expression in
cyanobacteria.
J Bacteriol
177:
2080
-
2086.
Liu, Y., Tsinoremas, N. F., Johnson, C. H., Lebedeva, N. V., Golden, S. S., Ishiura, M., and Kondo, T. (1995b) Circadian
orchestration of gene expression in cyanobacteria.
Genes Dev
9:
1469
-
1478.
Liu, Y., Tsinoremas, N. F., Golden, S. S., Kondo, T., and Johnson, C. H. (1996) Circadian expression of genes involved in the
purine biosynthetic pathway of the cyanobacterium
Synechococcus
sp. strain PCC 7942.
Mol Microbiol
20:
1071
-
1081.
Lorne, J., Scheffer, J., Lee, A., Painter, M., and Miao, V. P. W. (2000) Genes controlling circadian rhythm are widely distributed
in cyanobacteria.
FEMS Microbiol Lett
189:
129
-
133.
Lozza-Correa, M., Gomez-Valero, L., and Buchrieser, C. (2010) Circadian clock proteins in prokaryotes: hidden rhythms?
Frontiers Microbiol
doi: 10.3388/frmicb.2010.00130
Mackey, S. R., Choi, J.-S., Kitayama, Y., Iwasaki, H., Dong, G., and Golden, S. S. (2008) Proteins found in CikA interaction
assay link the circadian clock, metabolism and cell division in
Synechococcus elongatus
.
J Bacteriol
190:
3738
-
3746.
Mackey, S. R., Ditty, J. L., Clerico, E. M., and Golden, S. S. (2005) Detection of rhythmic bioluminescence from luciferase
reporters in cyanobacteria. In: Rosato, E. (Ed.)
Circadian Rhythms: Methods and Protocols
.
Methods in Molecular Biology
328:
115-129. Humana Press, Totowa, N. J., USA. doi:10.1007/978-1-59745-257-1_8
Matsuda, M., Michel, K.-P., Zhang, X., Montgomery, B. L., and Golden, S. S. (2003) Biochemical properties of CikA an unusual
phytochome-like histidine protein kinase that resets the circadian clock in
Synechococus elongatus
PCC 7942.
J Biol Chem
278:
19102
-
19110.
McClung, C. R. (2007) The cyanobacterial circadian clock is based on the intrinsic ATPase activity.
Proc Natl Acad Sci USA
104:
16727
-
16728.
Mehra, A., Hong, C, I., Shi, M., Loros, J. J., Dunlap, J. C. and, Ruoff, P. (2006) Circadian rhythmicity by autocatalysis.
PLoS
Comput Biol
2:
e96
Millineaux, P. M., Gallon, J. R., and Chaplan, A. E. (1981) Acetylene reduction (nitrogen fi xation) by cyanobacteria grown
under alternating light-dark cycles.
FEMS Microbiol Lett
10:
245
-
247.
Mihalcescu, I., Hsing, W., and Leibler, S. (2004) Resilient circadian oscillator revealed in individual cyanobacteria.
Nature
(London)
430:
81
-
85.
Min, H., and Golden, S. S. (2000) A new circadian Class-2 gene, opcA, whose product is important for reductant production
at night in
Synechococcus elongatus
PCC 7942.
J Bacteriol
182:
6214
-
6221.
Min, H., Liu, Y., Johnson, C. H., and Golden, S. S. (2004) Phase determination of circadian gene expression in
Synechococcus
elongatus
PCC 7942.
J Biol
Rhythms
19:
103
-
112.
Mitsui, A., Kumazawa, S., Takahashi, A., Ikemoto, H., and Arai, T. (1986) Strategy by which nitrogen-fi xing unicellular
cyanobacteria grow photoautotrophically.
Nature
(London)
323:
720
-
722.
Miyoshi, F., Nakayama, Y., Kaizu, K., Iwasaki, H., and Tomita, M. (2007) A mathematical model for the Kai-protein-
based chemical oscillator and clock gene expression rhythms in cyanobacteria.
J Biol Rhythms
22:
69
-
80.
doi:10.1177/0748730406295749.
Mackey, S. R., Ditty, J. L., Clerico, E. M., and Golden, S. S. (2007) Detection of rhythmic luminescence from luciferase reporters
in cyanobacteria. In: Rosato, E. (Ed.)
Circadian Rhythms: Methods and Protocols
.
Methods in Molecular Biology
362
. Humana
Press, Totowa, N. J. USA.
Mori, T., and Johnson, C. H. (2001a) Circadian programming in cyanobacteria.
Seminar Cell Dev Biol
18:
7235
-
7242.
Mori, T., and Johnson, C. H. (2001b) Independence of circadian timing from cell division in cyanobacteria.
J Bacteriol
183:
2439
-
2444.
Mori, T., Binder, B., and Johnson, C. H. (1996) Circadian gating of cell division in cyanobacteria growing with average doubling
times of less than 24 h.
Proc Natl Acad Sci USA
93:
10183
-
10188.
Mori, T., Saveliev, S. V., Xu, Y., Stafford, W. F. Cox, M. M., Inman, R. B., and Johnson, C. H. (2002) Circadian clock protein
KaiC forms ATP-dependent hexameric rings and binds DNA.
Proc Natl Acad Sci USA
99:
17203
-
17208.
Mori, T., Wiliams, D. R., Byrne, M. O., Qin, X., Egli, M., Machab, H. S. Stewart, P. L., and Johnson, C. H. (2007) Elucidating
the ticking of an
in vitro
circadian clock work.
PLoS Biol
5:
e93. doi:10.1371/journal.pbio.0050093.
Naef, F. (2005) Circadian clocks go
in vitro
: Purely post-translational oscillators in cyanobacteria.
Mol Syst Biol
doi:10.1038/
msb4100027-E1-E5.
Nair, U., Ditty, J. L., Min, H., and Golden, S. S. (2002) Roles for sigma factors in global circadian regulation of the cyanobacterial
genome.
J Bacteriol
184:
3530
-
3538.
Nakajima, M., Imai, K., Ito, H., Nishiwaki, T., Murayama, Y., Iwasaki, H., Oyama, T., and Kondo, T. (2005) Reconstitution of
circadian oscillation of cyanobacterial KaiC phosphorylation
in vitro
.
Science
308:
414
-
415.