Further insights into the role of NIN-LIKE PROTEIN 7 (NLP7) in root cap cell release

Karve, Rucha; Iyer‐Pascuzzi, Anjali S.

doi:10.1080/15592324.2017.1414122

Cited by 4 publications

(1 citation statement)

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“…Recently, it is reported that in A. thaliana NLPs also take a role in developmentally programmed processes independent of nitrate. AtNLP7 can regulate root cap cell release likely through regulation of CELLULASE5 (Karve and Iyer-Pascuzzi 2018). So further studies are clearly required to understand how OsNLP4 reacts to nitrate signaling with changing from inactive form to active one and the functions of other OsNLPs in rice.…”

Section: Discussionmentioning

confidence: 99%

OsNLP4is required for nitrate assimilation gene expressions and nitrate-dependent growth in rice

Wang

Hasegawa

Hayashi

et al. 2020

Preprint

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In plants, nitrate is important nutrient and signaling molecule that modulates the expression of many genes and regulates growth. In paddy grown rice, nitrogen is mostly supplied in the form of ammonium, but nitrate also shares substantial portion of available nitrogen. A number of nitrogen transporters and nitrate assimilation enzymes have been identified and functionally characterized. However, little is known about the nitrate sensor system and regulatory mechanisms of these nitrate related genes. In recent years, NIN-like proteins (NLPs) have been described as key transcription factors of nitrogen responses in Arabidopsis thaliana. But the functions of OsNLPs in rice are still elusive. Here we report the characterization of OsNLP4 to reveal its function in rice. Growths of OsNLP4 knockout mutants were reduced under the nitrate supply, but not under ammonium supply. The mRNA accumulation of genes involved in nitrate assimilation were declined significantly and nitrate uptake rate and nitrate reductase activity were also impaired in the mutants. Using rice protoplast transient expression system, OsNLP4-GFP fusion was localized to nucleus irrespective of nitrate conditions. OsNLP4 was also required for normal yield under paddy field conditions. We propose the OsNLP4 is essential for regulation of genes involved in nitrate assimilation and nitrate-dependent growth in rice.One sentence summaryThe osnlp4 mutants exhibit abnormal nitrate response and poor growth under nitrate supply and in paddy field conditions.

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Section: Discussionmentioning

confidence: 99%