Populations of Noccaea caerulescens show tremendous differences in their capacity to hyperaccumulate and hypertolerate metals. To explore the differences that could contribute to these traits, we undertook SOLiD high-throughput sequencing of the root transcriptomes of three phenotypically well-characterized N. caerulescens accessions, i.e., Ganges, La Calamine, and Monte Prinzera. Genes with possible contribution to zinc, cadmium, and nickel hyperaccumulation and hypertolerance were predicted. The most significant differences between the accessions were related to metal ion (di-, trivalent inorganic cation) transmembrane transporter activity, iron and calcium ion binding, (inorganic) anion transmembrane transporter activity, and antioxidant...
<p><em>Noccaea caerulescens </em>is the only known Zn/Cd/Ni hyperaccumulator. The Ganges accession (...
Metal hyperaccumulator plants are able to accumulate extremely high concentrations of Heavy Metals (...
Metal hyperaccumulator plants are able to accumulate extremely high concentrations of Heavy Metals (...
Populations of Noccaea caerulescens show tremendous differences in their capacity to hyperaccumulate...
Populations of Noccaea caerulescens show tremendous differences in their capacity to hyperaccumulate...
Populations of Noccaea caerulescens show tremendous differences in their capacity to hyperaccumulate...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Noccaea caerulescens is the only known Zn/Cd/Ni hyperaccumulator. The Ganges accession (2n = 14) has...
<p><em>Noccaea caerulescens </em>is the only known Zn/Cd/Ni hyperaccumulator. The Ganges accession (...
Metal hyperaccumulator plants are able to accumulate extremely high concentrations of Heavy Metals (...
Metal hyperaccumulator plants are able to accumulate extremely high concentrations of Heavy Metals (...
Populations of Noccaea caerulescens show tremendous differences in their capacity to hyperaccumulate...
Populations of Noccaea caerulescens show tremendous differences in their capacity to hyperaccumulate...
Populations of Noccaea caerulescens show tremendous differences in their capacity to hyperaccumulate...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Populations of <i>Noccaea caerulescens</i> show tremendous differences in their capacity to hyperacc...
Noccaea caerulescens is the only known Zn/Cd/Ni hyperaccumulator. The Ganges accession (2n = 14) has...
<p><em>Noccaea caerulescens </em>is the only known Zn/Cd/Ni hyperaccumulator. The Ganges accession (...
Metal hyperaccumulator plants are able to accumulate extremely high concentrations of Heavy Metals (...
Metal hyperaccumulator plants are able to accumulate extremely high concentrations of Heavy Metals (...