top of page
This site was designed with the
.com
website builder. Create your website today.Start Now

Publications

Research Articles

Reyes, C., Sajó, Z., Lucas, M.S., Sinha, A., Schwarze, F.W.M.R., Ribera, J., Nyström, G. 2022. Cocultivation of white-rot fungi and microalgae in the presence of nanocellulose. Microbiology Spectrum. https://doi.org/10.1128/spectrum.03041-22

​

Tran-Ly, A., De France, K., Rupper, P., Schwarze, F.W.M.R., Reyes, C., Nyström, G., Siqueira, G., Ribera, J. 2021. Melanised-cationic cellulose nanofibers foams for bioinspired removal of cationic dye. Biomacromolecules.https://doi.org/10.1021/acs.biomac.1c00942

 

Reyes,C., Poulin, A., Nyström, G., Schwarze, F.W.M.R., Ribera, J. 2021. Enzyme activities of five white rot fungi in the presence of nanocellulose. Journal of Fungi. 7(3), 222, http://doi.org/10.3390/jof7030222

 

Tran-Ly., Reyes, C., FWMR, Schwarze., J. Ribera. 2020. Microbial production of melanin and its various applications. World Journal of Microbiology and Biotechnology. 36, 170.

 

Reyes, C., Hodgskiss, L.H., Kerou, M., Pribasnig, T., Abby, S.S., Bayer, B., Kraemer, S.M. Schleper, C. Genome wide transcriptomic analysis of the soil ammonia oxidizing archaeon Nitrososphaera viennensis upon exposure to copper limitation. The ISME Journal. https://doi.org/10.1038/s41396-020-0715-2

 

Reyes, C., Hodgskiss, L.H., Baars, O., Kerou, M., Bayer, B., Schleper, C., Kraemer, S.M. Copper limiting threshold in the terrestrial ammonia oxidizing archaeon Nitrososphaera viennensis. 2020. Research in Microbiology. https://doi.org/10.1016/j.resmic.2020.01.003

​

Bayer, B., Vojvoda, J., Reinthaler, T., Reyes, C., Pinto, M., Herndl, G.J. 2019. Nitrosospumilus adriaticus sp. nov. and Nitrosopumilus piranensis sp. nov., two ammonia-oxidizing archaea from the Adriatic Sea and members of the class Nitrososphaeria. IJSEM. doi: 10.1099/ijsem.0.003360

 

Reyes, C., Schneider D, Lipka M, Thürmer A, Böttcher ME, Friedrich MW. 2017. Nitrogen metabolism genes from temperate marine sediments. Marine Biotechnology. DOI: 10.1007/s10126-017-9741-0

 

Reyes, C., Schneider D, Thürmer A, Kulkarni A, Lipka M, Sztejrenszus SY, Böttcher ME, Daniel R, Friedrich MW. 2017. Potentially active iron, sulfur and sulfate reducing bacteria in Skagerrak and Bothnian Bay sediments. Geomicrobiology Journal http://dx.doi.org/10.1080/01490451.2017.1281360

​

Reyes, C., Dellwig, O., Noriega-Ortega, B.E., Dähnke, K., Gehre, M., Böttcher, M.E., Meister, P., Friedrich, M.W. 2016. Bacterial communities potentially involved in iron-cycling in Baltic Sea and North Sea sediments revealed by pyrosequencing. FEMS Microbiol. Ecol. DOI 10.1093/femsec/fiw054

 

Reyes, C., Qian, F., Zhang, A., Bondarev, S., Welch, A., Thelen, M.P., Saltikov, C.W. 2012. Characterization of axial and proximal histidine mutations of the decaheme cytochrome MtrA from Shewanella sp. str. ANA-3: Implications for the electron transport mechanism. Journal of Bacteriology. 194:5840-47.

 

Meister, P., Reyes, C., Beaumont, W., Rincon, M., Collins, L., Berelson, W., Stott, L., Corsetti, F., Nealson, K.H. 2011. Calcium and magnesium-limited dolomite precipitation at Deep Springs Lake, California. Sedimentology. 58: 1810-1830.

 

Reyes, C., Murphy, J. and Saltikov, C.W. 2010. Mutational and gene expression analysis of mtrDEF, omcA and mtrCAB of Shewanella sp. ANA-3 determined during arsenic and iron reduction. Environmental Microbiology. 12: 1878-1888.

 

Turfano, K., Reyes,C, Saltikov, C.W. and Fendorf, S. 2008. Reductive processes controlling arsenic retention: revealing the relative importance of iron and arsenic retention. Environmental Science and Technology. 42: 8283-8289. 

Monographs

Reyes, C. 2011. The role of multiheme cytochromes in iron reduction and arsenic mobilization in Shewanella sp. str. ANA-3. University of California, Santa Cruz. Santa Cruz, California.

 

Reyes, C. 2005. Bacterial abundance and diversity in soils with elevated CO2 concentrations at Horseshoe Lake, Mammoth Mountain, California. California, State University.

Book Chapters

Reyes, C., Meister, P. 2022. Chapter 3: The Role of Microorganisms in Iron Reduction in Marine Sediments. In: Systems Biogeochemistry of Major Marine Biomes. Mazumdar, A. and Ghosh, W. (eds). John Wiley & Sons. https://doi.org/10.1002/9781119554356.ch3

​

Meister, P., Reyes, C. 2019. The carbon-isotope record of the sub-seafloor biosphere. Geosciences.9:507: doi:10.3390/geosciences9120507 (Best Paper Award 2020)

 

Reyes,C., Llyod, J.R. and Saltikov, C.W. September 2008. Geomicrobiology of iron and arsenic in anoxic sediments. In: … (eds.): Arsenic Contamination of Groundwater: Mechanisms, Analysis, and Remediation.

Sequencing Data and Reports

Metagenomics Analysis Server (MG-RAST): Baltic Sea Project

http://metagenomics.anl.gov/linkin.cgi?project=108111

 

16S rRNA sequences Baltic Sea

http://metagenomics.anl.gov/linkin.cgi?project=10898

 

DNA Databank of Japan (DDBJ)

​

Bioproject: PRJDB3913 (DOI: 10.1093/femsec/fiw054) http://trace.ddbj.nig.ac.jp/BPSearch/bioproject?acc=PRJDB3913

​

Bioproject: PRJDB4851 http://trace.ddbj.nig.ac.jp/BPSearch/bioproject?acc=PRJDB4851

​

Bioproject: PRJDB8265 (DOI: 10.1038/s41396-020-0715-2) https://ddbj.nig.ac.jp/BPSearch/bioproject?acc=PRJDB8465

 

Report

Reyes, C., Noriega-Ortega, B.E. 2016. Report: Microbial diversity of Baltic Sea and North Sea sediments based on pyrosequencing results. FigShare. doi:10.6084/m9.figshare.3171442

bottom of page