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The indica nitrate reductase gene OsNR2 allele enhances rice yield potential and nitrogen use efficiency
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Journal Article
The indica nitrate reductase gene OsNR2 allele enhances rice yield potential and nitrogen use efficiency
2019
Overview
The
indica
and
japonica
rice (
Oryza sativa
) subspecies differ in nitrate (NO
3
−
) assimilation capacity and nitrogen (N) use efficiency (NUE). Here, we show that a major component of this difference is conferred by allelic variation at
OsNR2
, a gene encoding a NADH/NADPH-dependent NO
3
−
reductase (NR). Selection-driven allelic divergence has resulted in variant
indica
and
japonica OsNR2
alleles encoding structurally distinct OsNR2 proteins, with
indica
OsNR2 exhibiting greater NR activity.
Indica OsNR2
also promotes NO
3
−
uptake via feed-forward interaction with
OsNRT1.1B
, a gene encoding a NO
3
−
uptake transporter. These properties enable
indica OsNR2
to confer increased effective tiller number, grain yield and NUE on
japonica
rice, effects enhanced by interaction with an additionally introgressed
indica OsNRT1.1B
allele. In consequence,
indica OsNR2
provides an important breeding resource for the sustainable increases in
japonica
rice yields necessary for future global food security.
Indica
rice has higher nitrate assimilation and nitrogen use efficiency (NUE) than
japonica
rice, but the mechanism is unclear. Here, the authors reveal that the difference is partly due to allelic variation of a nitrate reductase encoding gene and this
indica
allele can increase yield potential and NUE.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
/ 38/23
/ 38/44
/ 38/88
/ 38/89
/ 42
/ 45
/ 45/77
/ 82/29
/ 82/80
/ Alleles
/ Humanities and Social Sciences
/ NADPH
/ Nicotinamide adenine dinucleotide
/ Nitrate Reductase - chemistry
/ Nitrate Reductase - genetics
/ Nitrate Reductase - metabolism
/ Nitrates
/ Nitrogen
/ Oryza - growth & development
/ Rice
/ Science
