SensAr: An arsenic biosensor for drinking water

Based on synthetic biology tools, a biosensor was designed to be specific for arsenic detection in water. It was designed to be cheap and easy to use (image based instructions will be enough). The device has a modular design which enables us to detect other water pollutants, with minor genetic modif...

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Autores principales: Nadra, A.D., Basanta, B., Bonomi, H., Carlotto, N., Giménez, M., Grande, A., Nieto Moreno, N., Barone, F., Dorr, F., Marasco, L., Mildiner, S., Patop, I., Sosa, S., Vattino, L., Vignale, F.
Formato: CONF
Materias:
Arsenic
Pollution detection
Water pollution
Arsenic detection
Building a prototypes
Dose-dependent manner
Genetic modifications
Internal standards
Proof of concept
Synthetic biology
World Health Organization
Biosensors
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_97811380_v_n_p325_Nadra
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_97811380_v_n_p325_Nadra
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spelling todo:paper_97811380_v_n_p325_Nadra2023-10-03T16:42:59Z SensAr: An arsenic biosensor for drinking water Nadra, A.D. Basanta, B. Bonomi, H. Carlotto, N. Giménez, M. Grande, A. Nieto Moreno, N. Barone, F. Dorr, F. Marasco, L. Mildiner, S. Patop, I. Sosa, S. Vattino, L. Vignale, F. Arsenic Pollution detection Water pollution Arsenic detection Building a prototypes Dose-dependent manner Genetic modifications Internal standards Proof of concept Synthetic biology World Health Organization Biosensors Based on synthetic biology tools, a biosensor was designed to be specific for arsenic detection in water. It was designed to be cheap and easy to use (image based instructions will be enough). The device has a modular design which enables us to detect other water pollutants, with minor genetic modifications. In the presence of arsenic, the system develops a red color in a dose dependent manner that can be evaluated by naked eye and compared to an internal standard. Laboratory proof of concept worked nicely and the dynamic range of the assay (between 0 and 500 ppb) covers the critical arsenite concentrations according the World Health Organization. The current effort is focused on building a prototype that could be delivered for domestic use. © 2014 Taylor & Francis Group. CONF info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_97811380_v_n_p325_Nadra
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Arsenic
Pollution detection
Water pollution
Arsenic detection
Building a prototypes
Dose-dependent manner
Genetic modifications
Internal standards
Proof of concept
Synthetic biology
World Health Organization
Biosensors
spellingShingle Arsenic
Pollution detection
Water pollution
Arsenic detection
Building a prototypes
Dose-dependent manner
Genetic modifications
Internal standards
Proof of concept
Synthetic biology
World Health Organization
Biosensors
Nadra, A.D.
Basanta, B.
Bonomi, H.
Carlotto, N.
Giménez, M.
Grande, A.
Nieto Moreno, N.
Barone, F.
Dorr, F.
Marasco, L.
Mildiner, S.
Patop, I.
Sosa, S.
Vattino, L.
Vignale, F.
SensAr: An arsenic biosensor for drinking water
topic_facet Arsenic
Pollution detection
Water pollution
Arsenic detection
Building a prototypes
Dose-dependent manner
Genetic modifications
Internal standards
Proof of concept
Synthetic biology
World Health Organization
Biosensors
description Based on synthetic biology tools, a biosensor was designed to be specific for arsenic detection in water. It was designed to be cheap and easy to use (image based instructions will be enough). The device has a modular design which enables us to detect other water pollutants, with minor genetic modifications. In the presence of arsenic, the system develops a red color in a dose dependent manner that can be evaluated by naked eye and compared to an internal standard. Laboratory proof of concept worked nicely and the dynamic range of the assay (between 0 and 500 ppb) covers the critical arsenite concentrations according the World Health Organization. The current effort is focused on building a prototype that could be delivered for domestic use. © 2014 Taylor & Francis Group.
format CONF
author Nadra, A.D.
Basanta, B.
Bonomi, H.
Carlotto, N.
Giménez, M.
Grande, A.
Nieto Moreno, N.
Barone, F.
Dorr, F.
Marasco, L.
Mildiner, S.
Patop, I.
Sosa, S.
Vattino, L.
Vignale, F.
author_facet Nadra, A.D.
Basanta, B.
Bonomi, H.
Carlotto, N.
Giménez, M.
Grande, A.
Nieto Moreno, N.
Barone, F.
Dorr, F.
Marasco, L.
Mildiner, S.
Patop, I.
Sosa, S.
Vattino, L.
Vignale, F.
author_sort Nadra, A.D.
title SensAr: An arsenic biosensor for drinking water
title_short SensAr: An arsenic biosensor for drinking water
title_full SensAr: An arsenic biosensor for drinking water
title_fullStr SensAr: An arsenic biosensor for drinking water
title_full_unstemmed SensAr: An arsenic biosensor for drinking water
title_sort sensar: an arsenic biosensor for drinking water
url http://hdl.handle.net/20.500.12110/paper_97811380_v_n_p325_Nadra
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AT sosas sensaranarsenicbiosensorfordrinkingwater
AT vattinol sensaranarsenicbiosensorfordrinkingwater
AT vignalef sensaranarsenicbiosensorfordrinkingwater
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