Biology Reference
In-Depth Information
Lindblad, P., and Sellstedt, A. (1990) Occurrence and localization of an uptake hydrogenase in the fi lamentous heterocystous
cyanobacterium
Nostoc
PCC 73102.
Protoplasma
159:
9-15.
Lindberg, P., Hansel, A., and Lindblad, P. (2000)
hupS
and
hupL
constitute a transcription unit in the cyanobacterium
Nostoc
sp. PCC 73102.
Arch Microbiol
174:
129-133.
Linn, T., and Pierre, R. St. (1990) Improved vector system for constructing transcriptional fusions that ensures independent
translation of
lacZ
.
J Bacteriol
172:
1077-1084.
Liu, D., and Golden, J. W. (2002)
hetL
overexpression stimulates heterocyst formation in
Anabaena
sp. strain PCC 7120.
J
Bacteriol
184:
6873-6881.
Liu, J., and Chen, W.-L. (2009) Characterization of HetN, a protein involved in heterocyst differentiation in the cyanobacterium
Anabaena
sp. strain PCC 7120.
FEMS Microbiol Lett
297:
17-23.
Llama, M. J., Serra, J. L., Rao, K. K., and Hall, D. O. (1979) Isolation and characterization of the hydrogenase activity from
the nonheterocystous cyanobacterium
Spirulina maxima
.
FEBS Lett
98:
342-346.
Lockau, W., Peterson, R. B., Wolk, C. P., and Burris, R. H. (1978) Modes of reduction of nitrogenase in heterocysts isolated
from
Anabaena
species.
Biochim Biophys Acta
502:
298-308.
Lopes Pinto, F. A., Troshina, O., and Lindblad, P. (2002) A brief look at three decades of research on cyanobacterial hydrogen
evolution.
Internl J Hydrogen Energy
27:
1209-1215.
López-Gomollón, S., Hernández, J. A., Wolk, C. P., Peleato, M. L., and Fillat, M. F. (2007) Expression of
furA
is modulated by
NtcA and strongly enhanced in heterocysts of
Anabaena
sp. PCC 7120.
Microbiology
153:
42-50.
López-Igual, R., Flores, E., and Herrero, A. (2010) Inactivation of a heterocyst-specifi c invertase indicates a principal role of
sucrose catabolism in heterocysts of
Anabaena
sp.
J Bacteriol
192:
5526-5533.
Ludwig, M., Schulz-Friedrich, R., and Appel, J. (2006) Occurrence of hydrogenases in cyanobacteria and anoxygenic
photosynthetic bacteria: Implications for the phylogenetic origin of cyanobacterial and algal hydrogenases.
J Mol Evol
63:
758-768.
Luque, I., Flores, E., and Herrero, A. (1994) Molecular mechanism for the operation of nitrogen control in cyanobacteria.
EMBO J
13:
2862-2869.
Luque, I., Ochoa de Alda, J. A. G., Richaud, C., Zabulon, G., Thomas, J.-C., and Houmard, J. (2003) The NblAI protein from
the fi lamentous cyanobacterium
Tolypothrix
PCC 7601: Regulation of its expression and interactions with phycobilisome
components.
Mol Microbiol
50:
1043-1054.
Lunn, J. E. (2002) Evolution of sucrose synthesis.
Plant Physiol
128:
1490-1500.
Lynn, M. E., and Ownby, J. D. (1987) Transcriptional activity of heterocysts isolated from
Anabaena variabilis
.
Arch Microbiol
148:
115-120.
Lynn, M. E., Bantle, J. A., and Ownby, J. D. (1986) Estimation of gene expression in heterocysts of
Anabaena variabilis
by using
DNA-RNA hybridization.
J Bacteriol
167:
940-946.
Lyons, F. M., and Thiel, T. (1995) Characterization of
nifB
,
nifS
and
nifU
genes in the cyanobacterium
Anabaena variabilis
. NifB
is required for the vanadium-dependent nitrogenase.
J Bacteriol
177:
1570-1575.
Mackerras, A. H., De Chazal, N. M., and Smith, G. D.
(
1990) Transient accumulations of cyanophycin in
Anabaena cylindrica
and
Synechocystis
6803.
J Gen Microbiol
136:
2057-2065.
Makarova, K. S., Koonin, E. V., Haselkorn, R., and Galperin, M. Y. (2006) Cyanobacterial response regulator PatA contains a
conserved N-terminal domain (PATAN) with an alpha-helical insertion.
Bioinformatics
22:
1297-1301.
Maldener, I., Fiedler, G., Ernst, A., Fernández-Piñas, F., and Wolk, C. P. (1994) Characterization of
devA
, a gene required for
the maturation of proheterocysts in the cyanobacterium
Anabaena
sp. strain PCC 7120.
J Bacteriol
176:
7543-7549.
Maldener, I., Hannus, S., and Kammerer, M. (2003) Description of fi ve mutants of the cyanobacterium
Anabaena
sp. strain
PCC 7120 affected in heterocyst differentiation and identifi cation of transposon-tagged genes.
FEMS Microbiol Lett
224:
205-213.
Marcozzi, C., Cumino, A. C., and Salerno, G. L. (2009) Role of NtcA, a cyanobacterial global nitrogen regulator, in the regulation
of sucrose metabolism gene expression in
Anabaena
sp. PCC 7120.
Arch Microbiol
191:
255-263.
Mariscal, V., Herrero, A., and Flores, E. (2007) Continuous periplasm in a fi lamentous, heterocyst-forming cyanobacterium.
Mol Microbiol
65:
1139-1145.
Mariscal, V., Herrero, A., Nenninger, A., Mullineaux, C. W., and Flores, E. (2011) Functional dissection of three domain SepJ
protein joining the cells in cyanobacterial trichomes.
Mol Microbiol
79:
1077-1088.
Marqués, S., Florencio, F. J., and Candau, P.
(1992) Purifi cation and characterization of the ferredoxin-glutamate synthase
from the unicellular cyanobacterium
Synechococcus
sp. PCC 6301.
Eur J Biochem
296:
69-77.
Martín-Figueroa, E., Navarro, F., and Florencio, F. J. (2000) The GS-GOGAT pathway is not operative in the heterocysts.
Cloning and expression of
glsF
gene from the cyanobacterium
Anabaena
sp. PCC 7120.
FEBS Lett
476:
282-286.
Masephol, B., Schölisch, K., Görlitz, K., Kutzki, C., and Böhme, H. (1997) The heterocyst-specifi c
fdxH
gene product of
the cyanobacterium
Anabaena
sp. PCC 7120 is important but not essential for nitrogen fi xation.
Mol Gen Genet
253:
770-776.