Biology Reference
In-Depth Information
Mazur, B. J., and Chui, C-F. (1982) Sequence of the gene coding for the β-subunit of dinitrogenase from the blue-green alga
Anabaena
.
Proc Natl Acad Sci USA
79:
6782-6786.
Mazur, B. J., Rice, D., and Haselkorn, R. (1980) Identifi cation of blue-green algal nitrogen fi xation genes by using heterologous
DNA hybridization probes.
Proc Natl Acad Sci USA
77:
186-190.
Meeks, J. C., Campbell, E. L., Summers, M. L., and Wong, F. C. (2002) Cellular differentiation in the cyanobacterium
Nostoc
punctiforme
.
Arch Microbiol
178:
395-403.
Meeks, J. C., Joseph, C. M., and Haselkorn, R. (1988) Organization of the
nif
genes in cyanobacteria in symbiotic association
with
Azolla
and
Anthoceros
.
Arch Microbiol
150:
61-71.
Meeks, J. C., Elhai, J., Thiel, T., Potts, M., Larimer, F., Lamerdin, J., Predki, P., and Atlas, R. (2001) An overview of the genome
of
Nostoc
punctiforme
, a multicellular, symbiotic cyanobacterium.
Photosynth Res
70:
85-106.
Meeks, J. C., Wolk, C. P., Lockau, W., Schilling, N., Shaffer, W., and Chieu, W. S. (1978) Pathways of assimilation of [
13
N]N
2
and
13
NH
4
-by cyanobacteria with and without heterocysts.
J Bacteriol
134:
125-130.
Meeks, J. C., Wolk, C. P., Thomas, J., Lockau, W., Shaffer, P. W., Austin, S. M., Chien, W.-S., and Galonsky, A. (1977) The
pathways of assimilation of
13
NH
4
' by the cyanobacterium,
Anabaena cylindrica
.
J Biol Chem
252:
7894-7900.
Melis, A., and Happe, T. (2001) Hydrogen production: Green algae as a source of energy.
Plant Physiol
127:
740-748.
Mella-Herrera, R. A., Neunuebel, M. R., and Golden, J. W. (2010)
Anabaena
sp. strain PCC 7120 conR contains a LytR-CpsA-
Psr domain, is developmentally regulated, and is essential for diazotrophic growth and heterocyst morphogenesis.
Microbiology
157:
617-626. doi:10.1099/mic.0.046128-0
Mérida, A., Candau, P., and Florencio, F J. (1991) Regulation of glutamine synthetase activity in the unicellular cyanobacterium
Synechocystis
sp. strain PCC 6803 by the nitrogen source: Effect of ammonium.
J Bacteriol
173:
4095-4100.
Merino-Puerto, V., Mariscal, V., Mullineaux, C. W., Herrero, A., and Flores, E. (2010) Fra proteins infl uencing fi lament
integrity, diazotrophy and localization of septal protein SepJ in the heterocyst forming cyanobacterium
Anabaena
sp.
Mol Microbiol
75:
1159-1170.
Metzner, I. (1955) Zur chemie und zum submikroskopischen aufbau der zellwainde, Scheiden und Gallerten von
Cyanophyceen.
Arch Mikrobiol
22:
45-77.
Mickelson, J. C., Davis, E. B., and Tischer, R. G. (1967)
The effect of various nitrogen sources upon heterocyst formation in
Anabaena fl os-aquae
A-37.
J Exp Bot
18:
397-405.
Min, H., and Sherman, L. A. (2010) Hydrogen production by the unicellular diazotrophic cyanobacterium
Cyanothece
sp.
strain ATCC 51142 under continuous light.
Appl Environ Microbiol
76:
4293-4301. doi: 10.1128/AEM.00146-10.
Mishra, A. K., and Tiwari, D. N. (1986) Mutagenesis and isolation of morphological mutants impaired in nitrogen-fi xing
capacity from a cyanobacterium
Gloeotrichia ghosei
.
New Phytol
103:
69-77.
Mitchison, G. J., and Wilcox, M. (1972) Rule governing cell division in
Anabaena.
Nature
(London)
239:
110-111.
Mitchison, G. J., and Wilcox, M. (1973) Alteration in heterocyst pattern of
Anabaena
produced by 7-azatryptophan.
Nat New
Biol
246:
229-233.
Mitchison, G. J., Wilcox, M., and Smith, R. J. (1976) Measurement of an inhibitory zone.
Science
191:
866-868.
Mitra, A. K. (1950) Two new algae from Indian soils.
Ann Bot
14:
457-464.
Miyagishima, S-y., Wolk, C. P., and Osteryoung, K. W. (2005) Identifi cation of cyanobacterial cell division genes by comparative
and mutational analyses.
Mol
Microbiol
56:
126-143.doi: 10.1111/j.1365-2958.2005.04548.x
Montesinos, M. L., Herrero, A., and Flores, E.
(1995) Amino acid transport systems required for diazotrophic growth in the
cyanobacterium
Anabaena
sp. strain PCC 7120.
J Bacteriol
177:
3150-3157.
Montesinos, M. L., Herrero, A., and Flores, E. (1997) Amino acid transport in taxonomically diverse cyanobacteria and
identifi cation of two genes encoding elements of a neutral amino acid permease putatively involved in recapture of
leaked hydrophobic amino acids.
J. Bacteriol.
179
:
853
-
862.
Moslavac, S., Nicolaisen, K., Mirus, O., Dehni, F. A., Pernil, R., Flores, E., Maldener, I., and Schleiff, E. (2007) A TolC-like
protein is required for heterocyst development in
Anabaena
sp. strain PCC 7120.
J Bacteriol
189:
7887-7895.
Mulligan, M. E., and Haselkorn, R. (1989) Nitrogen fi xation (
nif
) genes of the cyanobacterium
Anabaena
sp. strain PCC 7120.
J Biol Chem
264:
19200-19207.
Mullineaux, C. W., Mariscal, V., Nenninger, A., Khanum, H., Herrero, A., Flores, E., and Adams, D. G. (2008) Mechanism of
intercellular molecular exchange in heterocyst-forming cyanobacteria.
EMBO J
27:
1299-1308.
Muro-Pastor, A. M., Flores, E., and Herrero, A. (2009) NtcA-regulated heterocyst differentiation genes
hetC
and
devB
from
Anabaena
sp. strain PCC 7120 exhibit a similar tandem promoter arrangement.
J Bacteriol
191:
5765-5774.
Muro-Pastor, A. M., Olmedo-Verd, F., and Flores, E. (2006)
All4312
, NtcA-regulated two-component response regulator in
Anabaena
sp. strain PCC 7120.
FEMS Microbiol
Lett
256:
171-177.
Muro-Pastor, A. M., Valladares, A., Flores, E., and Herrero, A. (1999) The
hetC
gene is a direct target of the NtcA transcriptional
regulator in cyanobacterial heterocyst development.
J Bacteriol
181:
6664-6669.
