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C A Suttle

Showing results (11-20 of 22) with videos related to

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Applied and Environmental Microbiology|August 1, 1996
Genetic diversity in marine algal virus communities as revealed by sequence analysis of DNA polymerase genesF Chen, C A Suttle, S M Short
Microbial Ecology|May 2, 2002
A dilution technique for the direct measurement of viral production: a comparison in stratified and tidally mixed coastal watersS W Wilhelm, S M Brigden, C A Suttle
Limnology and Oceanography|September 7, 2001
Viruses in Antarctic lakesR L Kepner, R A Wharton, C A Suttle
Microbial Ecology|September 23, 2003
The physical environment affects cyanophage communities in British Columbia inletsC M Frederickson, S M Short, C A Suttle
Microbial Ecology|May 23, 2002
Lysogeny and lytic viral production during a bloom of the cyanobacterium Synechococcus sppA C Ortmann, J E Lawrence, C A Suttle
Applied and Environmental Microbiology|March 1, 1991
Use of ultrafiltration to isolate viruses from seawater which are pathogens of marine phytoplanktonC A Suttle, A M Chan, M T Cottrell
Applied and Environmental Microbiology|October 1, 1995
Fluorescently Labeled Virus Probes Show that Natural Virus Populations Can Control the Structure of Marine Microbial CommunitiesK P Hennes, C A Suttle, A M Chan
Applied and Environmental Microbiology|January 22, 1998
Phages infecting Vibrio vulnificus are abundant and diverse in oysters (Crassostrea virginica) collected from the Gulf of MexicoA DePaola, M L Motes, A M Chan, et al.
The ISME Journal|March 31, 2015
Polar freshwater cyanophage S-EIV1 represents a new widespread evolutionary lineage of phagesC Chénard, A M Chan, W F Vincent, et al.
Applied and Environmental Microbiology|June 1, 1997
Photoreactivation compensates for UV damage and restores infectivity to natural marine virus communitiesM G Weinbauer, S W Wilhelm, C A Suttle, et al.
Pageof 3

Showing results (11-20 of 22) with videos related to

Sort By:
Pageof 3
Applied and Environmental Microbiology|August 1, 1996
Genetic diversity in marine algal virus communities as revealed by sequence analysis of DNA polymerase genesF Chen, C A Suttle, S M Short
Microbial Ecology|May 2, 2002
A dilution technique for the direct measurement of viral production: a comparison in stratified and tidally mixed coastal watersS W Wilhelm, S M Brigden, C A Suttle
Limnology and Oceanography|September 7, 2001
Viruses in Antarctic lakesR L Kepner, R A Wharton, C A Suttle
Microbial Ecology|September 23, 2003
The physical environment affects cyanophage communities in British Columbia inletsC M Frederickson, S M Short, C A Suttle
Microbial Ecology|May 23, 2002
Lysogeny and lytic viral production during a bloom of the cyanobacterium Synechococcus sppA C Ortmann, J E Lawrence, C A Suttle
Applied and Environmental Microbiology|March 1, 1991
Use of ultrafiltration to isolate viruses from seawater which are pathogens of marine phytoplanktonC A Suttle, A M Chan, M T Cottrell
Applied and Environmental Microbiology|October 1, 1995
Fluorescently Labeled Virus Probes Show that Natural Virus Populations Can Control the Structure of Marine Microbial CommunitiesK P Hennes, C A Suttle, A M Chan
Applied and Environmental Microbiology|January 22, 1998
Phages infecting Vibrio vulnificus are abundant and diverse in oysters (Crassostrea virginica) collected from the Gulf of MexicoA DePaola, M L Motes, A M Chan, et al.
The ISME Journal|March 31, 2015
Polar freshwater cyanophage S-EIV1 represents a new widespread evolutionary lineage of phagesC Chénard, A M Chan, W F Vincent, et al.
Applied and Environmental Microbiology|June 1, 1997
Photoreactivation compensates for UV damage and restores infectivity to natural marine virus communitiesM G Weinbauer, S W Wilhelm, C A Suttle, et al.
Pageof 3