List of bibliographic references indexed by Métaux (métabolisme)
Number of relevant bibliographic references: 44.
[20-40] [
0 - 20][
0 - 44][
40-43][
40-60]
| Ident. | Authors (with country if any) | Title |
|---|
| 001965 (2012) |
C S Seth [Inde] ; T. Remans ; E. Keunen ; M. Jozefczak ; H. Gielen ; K. Opdenakker ; N. Weyens ; J. Vangronsveld ; A. Cuypers | Phytoextraction of toxic metals: a central role for glutathione. |
| 001A45 (2012) |
Jutta Meier [Canada] ; Angela Piva ; Danielle Fortin | Enrichment of sulfate-reducing bacteria and resulting mineral formation in media mimicking pore water metal ion concentrations and pH conditions of acidic pit lakes. |
| 001C36 (2011) |
Angelo Bolchi [Italie] ; Roberta Ruotolo ; Gessica Marchini ; Emanuela Vurro ; Luigi Sanità Di Toppi ; Annegret Kohler ; Emilie Tisserant ; Francis Martin ; Simone Ottonello | Genome-wide inventory of metal homeostasis-related gene products including a functional phytochelatin synthase in the hypogeous mycorrhizal fungus Tuber melanosporum. |
| 001D78 (2010) |
Geoffrey Michael Gadd [Royaume-Uni] | Metals, minerals and microbes: geomicrobiology and bioremediation. |
| 001D96 (2010) |
Robert Wysocki [Pologne] ; Markus J. Tamás | How Saccharomyces cerevisiae copes with toxic metals and metalloids. |
| 001E04 (2010) |
Lydie Marešová [République tchèque] ; Hana Sychrová | Genetic interactions among the Arl1 GTPase and intracellular Na(+) /H(+) antiporters in pH homeostasis and cation detoxification. |
| 001E64 (2010) |
Elisabetta Bini [États-Unis] | Archaeal transformation of metals in the environment. |
| 001F57 (2009) |
Abdul R. Memon [Turquie] ; Peter Schröder | Implications of metal accumulation mechanisms to phytoremediation. |
| 002064 (2008) |
Klaus Michalke [Allemagne] ; Annette Schmidt ; Britta Huber ; Jörg Meyer ; Margareta Sulkowski ; Alfred V. Hirner ; Jens Boertz ; Frank Mosel ; Philip Dammann ; Gero Hilken ; Hans J. Hedrich ; Martina Dorsch ; Albert W. Rettenmeier ; Reinhard Hensel | Role of intestinal microbiota in transformation of bismuth and other metals and metalloids into volatile methyl and hydride derivatives in humans and mice. |
| 002123 (2008) |
Sharon Lafferty Doty [États-Unis] | Enhancing phytoremediation through the use of transgenics and endophytes. |
| 002237 (2007) |
Alessandro D'Annibale [Italie] ; Vanessa Leonardi ; Ermanno Federici ; Franco Baldi ; Fulvio Zecchini ; Maurizio Petruccioli | Leaching and microbial treatment of a soil contaminated by sulphide ore ashes and aromatic hydrocarbons. |
| 002253 (2007) |
Geoffrey M. Gadd [Royaume-Uni] | Geomycology: biogeochemical transformations of rocks, minerals, metals and radionuclides by fungi, bioweathering and bioremediation. |
| 002408 (2006) |
Mafalda S. Baptista [Portugal] ; M Teresa Vasconcelos | Cyanobacteria metal interactions: requirements, toxicity, and ecological implications. |
| 002574 (2004) |
M M Gharieb [Égypte] ; G M Gadd | Role of glutathione in detoxification of metal(loid)s by Saccharomyces cerevisiae. |
| 002673 (2003) |
O V Singh [Inde] ; S. Labana ; G. Pandey ; R. Budhiraja ; R K Jain | Phytoremediation: an overview of metallic ion decontamination from soil. |
| 002678 (2003) |
Andrea Raab [Royaume-Uni] ; Jörg Feldmann | Microbial transformation of metals and metalloids. |
| 002759 (2002) |
Ronald Bentley [États-Unis] ; Thomas G. Chasteen | Microbial methylation of metalloids: arsenic, antimony, and bismuth. |
| 002849 (2001) |
H. Satofuka [Japon] ; T. Fukui ; M. Takagi ; H. Atomi ; T. Imanaka | Metal-binding properties of phytochelatin-related peptides. |
| 002B40 (1995) |
D F Ortiz [États-Unis] ; T. Ruscitti ; K F Mccue ; D W Ow | Transport of metal-binding peptides by HMT1, a fission yeast ABC-type vacuolar membrane protein. |
| 002B48 (1995) |
D M Montgomery [Royaume-Uni] ; A C Dean ; P. Wiffen ; L E Macaskie | Phosphatase production and activity in Citrobacter freundii and a naturally occurring, heavy-metal-accumulating Citrobacter sp. |
| 002B76 (1994) |
X F Liu [États-Unis] ; V C Culotta | The requirement for yeast superoxide dismutase is bypassed through mutations in BSD2, a novel metal homeostasis gene. |
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