Abstract
Environmental contamination of arsenic (As) and its accumulation in rice (Oryza sativa L.) is of serious human health concern. In planta speciation of As is an important tool to understand As metabolism in plants. In the present study, we investigated root to shoot As translocation and speciation in rice exposed to inorganic and methylated As. Arsenate (AsV) and methylarsonate (MAV) were efficiently reduced to arsenite (AsIII) and MAIII, respectively in rice root and shoot but no trivalent form of dimethylarsinate (DMAV) was detected. Further, up to 48 and 83% of root As in AsV and MAV exposed plants, respectively were complexed with various thiols showing up to 20 and 16 As species, respectively. Several mixed As- and MA-complexes with hydroxymethyl-phytochelatin, DesGly-phytochelatin, hydroxymethyl-GSH and cysteine were identified in rice. Despite high complexation in roots, more As was translocated to shoots in MAV exposed plants than AsV, with shoot/root As transfer factor being in order DMAV > MAV > AsV. Moreover, in shoots 78% MAIII and 71% AsIII were present as weakly bound species which is alarming, as MAIII has been found to be more cytotoxic than AsIII for human and it could also be an important factor inducing straighthead (spikelet sterility disorder) in rice.
Highlights
Environmental contamination of arsenic (As) and its accumulation in rice (Oryza sativa L.) is of serious human health concern
The results of the present study showed that reduction and thiol complexation in roots are important steps for AsV and MAV metabolism in rice but not for DMAV
Arsenate and MAV both induced the synthesis of thiols in rice and a diversity of AsIII- and MAIII-thiol complexes were formed in rice roots including various homologues of PCs and GSH
Summary
Environmental contamination of arsenic (As) and its accumulation in rice (Oryza sativa L.) is of serious human health concern. We investigated root to shoot As translocation and speciation in rice exposed to inorganic and methylated As. Arsenate (AsV) and methylarsonate (MAV) were efficiently reduced to arsenite (AsIII) and MAIII, respectively in rice root and shoot but no trivalent form of dimethylarsinate (DMAV) was detected. No comprehensive study has been performed to reveal transformation of inorganic and methylated As, extent of their complexation by thiols and nature of complexes in response to various As species in rice plant, and if the complexation of various As species in roots can be correlated with As translocation in shoot. In the present study, accumulation, translocation and speciation of inorganic (AsV) and methylated As (MAV, DMAV) was investigated in roots and shoots of rice variety Triguna
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