Allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions

In legumes, nitrogen (N) can be stored as ureide allantoin and transported by ureide permease (UPS) from nodules to leaves where it is catabolized to release ammonium and assimilation to amino acids. In non-leguminous plants especially rice, information on its roles in N metabolism is scarce. Here,...

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Main Authors:	Redillas, Mark Christian Felipe R., Bang, Seung Woon, Lee, Dong Keun, Kim, Youn Shic, Jung, Harin, Chung, Pil Joong, Suh, Joo Won, Kim, Ju Kon
Format:	text
Published:	Animo Repository 2019
Subjects:	Allantoin Amino acids Ammonium Nitrogen Rice Biology
Online Access:	https://animorepository.dlsu.edu.ph/faculty_research/1575
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Institution:	De La Salle University

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spelling	oai:animorepository.dlsu.edu.ph:faculty_research-25742021-07-06T07:05:55Z Allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions Redillas, Mark Christian Felipe R. Bang, Seung Woon Lee, Dong Keun Kim, Youn Shic Jung, Harin Chung, Pil Joong Suh, Joo Won Kim, Ju Kon In legumes, nitrogen (N) can be stored as ureide allantoin and transported by ureide permease (UPS) from nodules to leaves where it is catabolized to release ammonium and assimilation to amino acids. In non-leguminous plants especially rice, information on its roles in N metabolism is scarce. Here, we show that OsUPS1 is localized in plasma membranes and are highly expressed in vascular tissues of rice. We further evaluated an activation tagging rice overexpressing OsUPS1 (OsUPS1OX) under several N regimes. Under normal field conditions, panicles from OsUPS1OX plants (14 days after flowering (DAF)) showed significant allantoin accumulation. Under hydroponic system at the vegetative stage, plants were exposed to N-starvation and measured the ammonium in roots after resupplying with ammonium sulphate. OsUPS1OX plants displayed higher ammonium uptake in roots compared to wild type (WT). When grown under low-N soil supplemented with different N-concentrations, OsUPS1OX exhibited better growth at 50% N showing higher chlorophyll, tiller number and at least 20% increase in shoot and root biomass relative to WT. To further confirm the effects of regulating the expression of OsUPS1, we evaluated whole-body-overexpressing plants driven by the GOS2 promoter (OsUPS1GOS2) as well as silencing plants (OsUPS1RNAi). We found significant accumulation of allantoin in leaves, stems and roots of OsUPS1GOS2 while in OsUPS1RNAi allantoin was significantly accumulated in roots. We propose that OsUPS1 is responsible for allantoin partitioning in rice and its overexpression can support plant growth through accumulation of allantoin in sink tissues which can be utilized when N is limiting. © 2018 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd. 2019-07-01T07:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/1575 Faculty Research Work Animo Repository Allantoin Amino acids Ammonium Nitrogen Rice Biology
institution	De La Salle University
building	De La Salle University Library
continent	Asia
country	Philippines Philippines
content_provider	De La Salle University Library
collection	DLSU Institutional Repository
topic	Allantoin Amino acids Ammonium Nitrogen Rice Biology
spellingShingle	Allantoin Amino acids Ammonium Nitrogen Rice Biology Redillas, Mark Christian Felipe R. Bang, Seung Woon Lee, Dong Keun Kim, Youn Shic Jung, Harin Chung, Pil Joong Suh, Joo Won Kim, Ju Kon Allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions
description	In legumes, nitrogen (N) can be stored as ureide allantoin and transported by ureide permease (UPS) from nodules to leaves where it is catabolized to release ammonium and assimilation to amino acids. In non-leguminous plants especially rice, information on its roles in N metabolism is scarce. Here, we show that OsUPS1 is localized in plasma membranes and are highly expressed in vascular tissues of rice. We further evaluated an activation tagging rice overexpressing OsUPS1 (OsUPS1OX) under several N regimes. Under normal field conditions, panicles from OsUPS1OX plants (14 days after flowering (DAF)) showed significant allantoin accumulation. Under hydroponic system at the vegetative stage, plants were exposed to N-starvation and measured the ammonium in roots after resupplying with ammonium sulphate. OsUPS1OX plants displayed higher ammonium uptake in roots compared to wild type (WT). When grown under low-N soil supplemented with different N-concentrations, OsUPS1OX exhibited better growth at 50% N showing higher chlorophyll, tiller number and at least 20% increase in shoot and root biomass relative to WT. To further confirm the effects of regulating the expression of OsUPS1, we evaluated whole-body-overexpressing plants driven by the GOS2 promoter (OsUPS1GOS2) as well as silencing plants (OsUPS1RNAi). We found significant accumulation of allantoin in leaves, stems and roots of OsUPS1GOS2 while in OsUPS1RNAi allantoin was significantly accumulated in roots. We propose that OsUPS1 is responsible for allantoin partitioning in rice and its overexpression can support plant growth through accumulation of allantoin in sink tissues which can be utilized when N is limiting. © 2018 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.
format	text
author	Redillas, Mark Christian Felipe R. Bang, Seung Woon Lee, Dong Keun Kim, Youn Shic Jung, Harin Chung, Pil Joong Suh, Joo Won Kim, Ju Kon
author_facet	Redillas, Mark Christian Felipe R. Bang, Seung Woon Lee, Dong Keun Kim, Youn Shic Jung, Harin Chung, Pil Joong Suh, Joo Won Kim, Ju Kon
author_sort	Redillas, Mark Christian Felipe R.
title	Allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions
title_short	Allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions
title_full	Allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions
title_fullStr	Allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions
title_full_unstemmed	Allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions
title_sort	allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions
publisher	Animo Repository
publishDate	2019
url	https://animorepository.dlsu.edu.ph/faculty_research/1575
_version_	1705153060263690240

Allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions

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