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MADS-box Transcription Factor OsMADS25 Regulates Root Development through Affection of Nitrate Accumulation in Rice

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MADS-box Transcription Factor OsMADS25 Regulates Root Development through Affection of Nitrate Accumulation in Rice. / Yu, Chunyan; Liu, Yihua; Zhang, Aidong; Su, Sha; Yan, An; Huang, Linli; Ali, Imran; Liu, Yu; Forde, Brian Gordon; Gan, Yinbo.

In: PLoS ONE, Vol. 10, No. 8, e0135196, 10.08.2015.

Research output: Contribution to journalJournal articlepeer-review

Harvard

Yu, C, Liu, Y, Zhang, A, Su, S, Yan, A, Huang, L, Ali, I, Liu, Y, Forde, BG & Gan, Y 2015, 'MADS-box Transcription Factor OsMADS25 Regulates Root Development through Affection of Nitrate Accumulation in Rice', PLoS ONE, vol. 10, no. 8, e0135196. https://doi.org/10.1371/journal.pone.0135196

APA

Yu, C., Liu, Y., Zhang, A., Su, S., Yan, A., Huang, L., Ali, I., Liu, Y., Forde, B. G., & Gan, Y. (2015). MADS-box Transcription Factor OsMADS25 Regulates Root Development through Affection of Nitrate Accumulation in Rice. PLoS ONE, 10(8), [e0135196]. https://doi.org/10.1371/journal.pone.0135196

Vancouver

Author

Yu, Chunyan ; Liu, Yihua ; Zhang, Aidong ; Su, Sha ; Yan, An ; Huang, Linli ; Ali, Imran ; Liu, Yu ; Forde, Brian Gordon ; Gan, Yinbo. / MADS-box Transcription Factor OsMADS25 Regulates Root Development through Affection of Nitrate Accumulation in Rice. In: PLoS ONE. 2015 ; Vol. 10, No. 8.

Bibtex

@article{fb0789fb247e4ab08dab8a6cbe487220,
title = "MADS-box Transcription Factor OsMADS25 Regulates Root Development through Affection of Nitrate Accumulation in Rice",
abstract = "MADS-box transcription factors are vital regulators participating in plant growth and development process and the functions of most of them are still unknown. ANR1 was reported to play a key role in controlling lateral root development through nitrate signal in Arabidopsis. OsMADS25 is one of five ANR1-like genes in Oryza Sativa and belongs to the ANR1 clade. Here we have investigated the role of OsMADS25 in the plant{\textquoteright}s responses to external nitrate in Oryza Sativa. Our results showed that OsMADS25 protein was found in the nucleus as well as in the cytoplasm. Over-expression of OsMADS25 significantly promoted lateral and primary root growth as well as shoot growth in a nitrate-dependent manner in Arabidopsis. OsMADS25 overexpression in transgenic rice resulted in significantly increased primary root length, lateral root number, lateral root length and shoot fresh weight in the presence of nitrate. Down-regulation of OsMADS25 in transgenic rice exhibited significantly reduced shoot and root growth in the presence of nitrate. Furthermore, over-expression of OsMADS25 in transgenic rice promoted nitrate accumulation and significantly increased the expressions of nitrate transporter genes at high rates of nitrate supply while down-regulation of OsMADS25 produced the opposite effect. Taken together, our findings suggest that OsMADS25 is a positive regulator control lateral and primary root development in rice.",
author = "Chunyan Yu and Yihua Liu and Aidong Zhang and Sha Su and An Yan and Linli Huang and Imran Ali and Yu Liu and Forde, {Brian Gordon} and Yinbo Gan",
year = "2015",
month = aug,
day = "10",
doi = "10.1371/journal.pone.0135196",
language = "English",
volume = "10",
journal = "PLoS ONE",
issn = "1932-6203",
publisher = "Public Library of Science",
number = "8",

}

RIS

TY - JOUR

T1 - MADS-box Transcription Factor OsMADS25 Regulates Root Development through Affection of Nitrate Accumulation in Rice

AU - Yu, Chunyan

AU - Liu, Yihua

AU - Zhang, Aidong

AU - Su, Sha

AU - Yan, An

AU - Huang, Linli

AU - Ali, Imran

AU - Liu, Yu

AU - Forde, Brian Gordon

AU - Gan, Yinbo

PY - 2015/8/10

Y1 - 2015/8/10

N2 - MADS-box transcription factors are vital regulators participating in plant growth and development process and the functions of most of them are still unknown. ANR1 was reported to play a key role in controlling lateral root development through nitrate signal in Arabidopsis. OsMADS25 is one of five ANR1-like genes in Oryza Sativa and belongs to the ANR1 clade. Here we have investigated the role of OsMADS25 in the plant’s responses to external nitrate in Oryza Sativa. Our results showed that OsMADS25 protein was found in the nucleus as well as in the cytoplasm. Over-expression of OsMADS25 significantly promoted lateral and primary root growth as well as shoot growth in a nitrate-dependent manner in Arabidopsis. OsMADS25 overexpression in transgenic rice resulted in significantly increased primary root length, lateral root number, lateral root length and shoot fresh weight in the presence of nitrate. Down-regulation of OsMADS25 in transgenic rice exhibited significantly reduced shoot and root growth in the presence of nitrate. Furthermore, over-expression of OsMADS25 in transgenic rice promoted nitrate accumulation and significantly increased the expressions of nitrate transporter genes at high rates of nitrate supply while down-regulation of OsMADS25 produced the opposite effect. Taken together, our findings suggest that OsMADS25 is a positive regulator control lateral and primary root development in rice.

AB - MADS-box transcription factors are vital regulators participating in plant growth and development process and the functions of most of them are still unknown. ANR1 was reported to play a key role in controlling lateral root development through nitrate signal in Arabidopsis. OsMADS25 is one of five ANR1-like genes in Oryza Sativa and belongs to the ANR1 clade. Here we have investigated the role of OsMADS25 in the plant’s responses to external nitrate in Oryza Sativa. Our results showed that OsMADS25 protein was found in the nucleus as well as in the cytoplasm. Over-expression of OsMADS25 significantly promoted lateral and primary root growth as well as shoot growth in a nitrate-dependent manner in Arabidopsis. OsMADS25 overexpression in transgenic rice resulted in significantly increased primary root length, lateral root number, lateral root length and shoot fresh weight in the presence of nitrate. Down-regulation of OsMADS25 in transgenic rice exhibited significantly reduced shoot and root growth in the presence of nitrate. Furthermore, over-expression of OsMADS25 in transgenic rice promoted nitrate accumulation and significantly increased the expressions of nitrate transporter genes at high rates of nitrate supply while down-regulation of OsMADS25 produced the opposite effect. Taken together, our findings suggest that OsMADS25 is a positive regulator control lateral and primary root development in rice.

U2 - 10.1371/journal.pone.0135196

DO - 10.1371/journal.pone.0135196

M3 - Journal article

VL - 10

JO - PLoS ONE

JF - PLoS ONE

SN - 1932-6203

IS - 8

M1 - e0135196

ER -