Biology Reference
In-Depth Information
Takashima, Y., Yoshida, T., Yoshida, M., Shirai, Y., Tomaru, Y., Takao, Y., Hiroishi, S., and Nagasaki, K. (2007) Development
and application of quantitative detection of cyanophages phylogenetically related to cyanophages Ma-LMM01 infecting
Microcystis aeruginosa
in freshwater.
Microbes Environ
22:
207
-
213.
Teklemariam, T. A., Demeter, S., Dea, Z., Suranyi, G., and Borbely, G. (1990) AS-1 cyanophage infection inhibits the
photosynthetic electron fl ow of photosystem II in
Synechococcus
sp. PCC 6301, a cyanobacterium.
FEBS Lett
270:
211
-
215.
Tétart, F., Desplats, C.,Kutateladze, M., Monod, C., Ackermann, H-W., and Krisch, H. M. (2001) Phylogeny of the major head
and tail genes of the wide-ranging T4 bacteriophages.
J Bacteriol
183:
358-366.
Thingstad, T. F., and Lignell, R. (1997) A theoretical approach to the question of how trophic interactions control carbon
demand, growth rate, abundance and diversity.
Aquat Microb Ecol
13:
19-27.
Ting, C.S., Rocap, G., King, J., and Chisholm, S.W. (2002) Cyanobacterial photosynthesis in the oceans: The origins and
signifi cance of divergent light-harvesting strategies.
Trends Microbiol
10:
134-142.
Torrella, F., and Morita, R. Y. (1979) Evidence by electron micrographs for a high incidence of bacteriophage particles in the
waters of Yaquina Bay, Oregon: Ecological and taxonomical implications.
Appl Environ Microbiol
37:
774-778.
Trivedi, J. P., and Oza, P. P. (1979) A lytic agent for blue-green alga
Oscillatoria chlorina
from cooling towers.
Comp Physiol
Ecol
4:
207
-
212.
Tucker, S., and Pollard, P. (2005) Identifi cation of cyanophages Ma-LBP and infection of the cyanobacterium
Microcystis
aeruginosa
from an Australian subtropical Lake by the virus.
Appl
Environ Microbiol
71:
629
-
655.
Twort, F.W. (1915) An investigation on the nature of ultra-microscopic viruses.
Lancet ii
: 1241-1243.
van Boekel, W. H. M., Hansen, F. C., Riegman, R., and Bak, R. P. M. (1992) Lysis-induced decline of a
Phaeocystis
spring bloom
coupling with the microbial food web.
Mar Ecol Prog Ser
81:
269
-
276.
Venkataraman, G. S., Kaushik, B. D., Subramanian, G., Shanmugasundaram, G., and Govindarajan, A. (1973) Cyanophage
AC-1: A phage infecting unicellular and colonial blue-green algae.
Curr Sci
42:
104
-
105.
Venter, J. C., Remington, K., Heidelberg, J., Halpern, A. L., Rusch, D., and Eisen, J. A. (2004) Environmental genome shotgun
sequencing of the Sargasso Sea.
Science
304:
66
-
74.
Vrede, K., Stensdotter, U., and Lindstrom, E. (2003) Viral and bacterioplankton dynamics in two lakes with different humic
contents.
Microb Ecol
46:
406
-
415.
Wang, G., Murase, J., Asakawa, S., and Kimura, M. (2010) Unique viral capsid assembly protein gene (
g20
) of cyanophages
in the fl oodwater of a Japanese paddy fi eld.
Biol Fertil Soils
46:
93
-
102. doi:10.1007/s00374-009-0410-y.
Wang, K., and Chen, F. (2004) Genetic diversity and population dynamics of cyanophage communities in the Chesapeake
Bay.
Aquat Microb Ecol
34:
105
-
116.
Wang, K., and Chen, F. (2008) Prevalence of highly host-specifi c cyanophages in the estuarine environment.
Environ Microbiol
10:
300
-
312.
Waterbury, J. B., and Rippka, R. M. (1989) Subsection I. Order Chroococcales Wettstein 1924, emend. Rippka
et al.
, 1979, p.
1728
-
1729. In: Krieg, N. R., and Holt, J. B. (Eds.)
Bergey's Manual of Systematic Bacteriology
. Vol. 3. Williams and Wilkins,
Baltimore, USA.
Waterbury, J. B., and Valois, F. W. (1993) Resistance to co-occurring phages enables marine
Synechococcus
communities to
coexist with cyanophages abundant in seawater.
Appl Environ Microbiol
59:
3393
-
3399.
Waterbury, J. B., Watson, S. W., Guillard, R. R. L., and Brand, L. E. (1979) Widespread occurrence of a unicellular marine
planktonic cyanobacterium.
Nature
(London)
277:
293
-
294.
Waterbury, J. B., Watson, S. W., Valois, F. W., and Franks, D. G. (1986) Biological and ecological characterization of the marine
unicellular cyanobacterium
Synechococcus
.
Can Bull Fish Aquat Sci
214:
71
-
120.
Weigele, P. R., Pope, W. H., Pedulla, M. L., Houtz, J. M., Smith, A. L., Conway, J. F., King, J., Hatfull, G. F., Lawrence, J. G.,
and Hendrix, R. W. (2007) Genomic and structural analysis of Syn9, a cyanophage infecting marine
Prochlorococcus
and
Synechococcus
.
Environ Microbiol
9:
1675
-
1695.
Weinbauer, M. G., Wilhelm, S. W., Suttle, C. A., Pledger, R. J., and Mitchell, D. L. (1999) Sunlight-induced DNA damage and
resistance in natural viral communities.
Aquat Microb Ecol
17:
111
-
120.
Wen, K., Ortamnn, A. C., and Suttle, C. A. (2004) Accurate estimation of viral abundance by epifl uorescence microscopy.
Appl Environ Microbiol
70:
3862
-
3867.
Wharam, S. D., Hall, M. J., and Wilson, W. H. (2007) Detection of virus mRNA within infected host cells using an isothermal
nucleic acid amplifi cation assay: Marine cyanophage gene expression within
Synechococcus
sp.
Virology
J
4:
52
doi:10.1186/1743-422X-4-52
Wilcox, R. M., and Fuhrman, J. A. (1994) Bacterial viruses in coastal seawater: Lytic rather than lysogenic production.
Mar
Ecol Prog Ser
114:
35
-
45.
Wilhelm, S. W., and Suttle, C. A. (1999) Viruses and nutrient cycles in the sea.
BioScience
49:
781
-
788.