List of Publications

 

·       Green, S.J. and Minz, D. [In submission]. Suicide Polymerase Endonuclease Restriction (SuPER) PCR – a novel method for targeted elimination of DNA types. Appl. Environ. Microbiol.

·       Green, S.J., Minz, D., Cohen, Y., Rittmann, B., Stahl, D. and Muyzer, G. [In preparation]. Spatial and temporal distribution of Desulfobacteraceae in a cyanobacterial mat: An integration of DNA- and RNA-based analyses.

·       Green, S.J., Inbar, E., Michel, F.C. Jr., Hadar, Y. and D. Minz. [In preparation]. Succession of bacterial communities during early plant development: transition from seed to root and effect of compost amendment.

·       Green, S.J., Michel, F.C. Jr., Hadar, Y. and D. Minz. [In preparation]. Seed and root colonization by bacteria from the genus Chryseobacterium and the family Oxalobacteraceae.

·       Inbar, E., Green, S.J., Hadar, Y. and D. Minz. [In press]. Competing factors of compost concentration and proximity to root affect the distribution of streptomycetes. Microb. Ecol.

·       Green, S.J., Michel, F.C. Jr., Hadar, Y. and D. Minz. 2004. Similarity of bacterial communities in sawdust- and straw-amended cow manure composts. FEMS Microbiol. Lett. 233:115-123.

·       Green, S.J., Freeman, S., Hadar, Y. and D. Minz. 2004. Molecular tools for isolate and community studies of Pyrenomycete fungi. Mycologia. 96(3):439-451.

·       Green, S.J., Minz, D., Stahl, D.A., Chen, Y., Lavin, C.A., and Cohen, Y. 1999. Filamentous cyanobacteria in a microbial mat.  American Society of Microbiology Education Instructional Library. [http://www.microbelibrary.org]

·       Minz, D., Flax, J., Green, S.J., Muyzer, G., Cohen, Y., Wagner, M., Rittmann, B.E. and Stahl, D.A. 1999. Diversity of sulfate-reducing bacteria in oxic and anoxic regions of a microbial mat characterized by comparative analysis of dissimilatory sulfite reductase genes.  Appl. Environ. Microbiol. 65: 4666-4671.

·       Minz, D., Fishbain, S., Green, S.J., Muyzer, G., Cohen, Y., Rittmann, B.E., and Stahl, D.A. 1999. Unexpected population distribution in a microbial mat community: Sulfate-reducing bacteria localized to the highly oxic chemocline in contrast to a Eukaryotic preference for anoxia. Appl. Environ. Microbiol. 65: 4659-4665.