Overexpression of the Maize ZmNLP6 and ZmNLP8 Can Complement the Arabidopsis Nitrate Regulatory Mutant nlp7 by Restoring Nitrate Signaling and Assimilation

Overexpression of the Maize ZmNLP6 and ZmNLP8 Can Complement the Arabidopsis Nitrate Regulatory Mutant nlp7 by Restoring Nitrate Signaling and Assimilation

Nitrate is a key nutrient that affects maize growth and yield, and much has yet to be learned about nitrate regulatory genes and mechanisms in maize. Here, we identified nine ZmNLP genes in maize and analyzed the functions of two ZmNLP members in nitrate signaling. qPCR results revealed a broad patt...

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Main Authors: Huairong Cao, Shengdong Qi, Mengwei Sun, Zehui Li, Yi Yang, Nigel M. Crawford, Yong Wang
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-10-01
Series:Frontiers in Plant Science
Subjects:
Maize
nitrate assimilation
nitrate regulatory gene
nitrate signaling
ZmNLP6 and ZmNLP8
Online Access:http://journal.frontiersin.org/article/10.3389/fpls.2017.01703/full
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spelling doaj-6467830a3996463fa154ee75bc3aac4b2020-11-25T01:23:53ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2017-10-01810.3389/fpls.2017.01703296037Overexpression of the Maize ZmNLP6 and ZmNLP8 Can Complement the Arabidopsis Nitrate Regulatory Mutant nlp7 by Restoring Nitrate Signaling and AssimilationHuairong Cao0Shengdong Qi1Mengwei Sun2Zehui Li3Yi Yang4Nigel M. Crawford5Yong Wang6State Key Laboratory of Crop Biology, College of Life Sciences, Shandong Agricultural University, Tai’an, ChinaState Key Laboratory of Crop Biology, College of Life Sciences, Shandong Agricultural University, Tai’an, ChinaState Key Laboratory of Crop Biology, College of Life Sciences, Shandong Agricultural University, Tai’an, ChinaState Key Laboratory of Crop Biology, College of Life Sciences, Shandong Agricultural University, Tai’an, ChinaState Key Laboratory of Crop Biology, College of Life Sciences, Shandong Agricultural University, Tai’an, ChinaSection of Cell and Developmental Biology, Division of Biological Sciences, University of California, San Diego, La Jolla, CA, United StatesState Key Laboratory of Crop Biology, College of Life Sciences, Shandong Agricultural University, Tai’an, ChinaNitrate is a key nutrient that affects maize growth and yield, and much has yet to be learned about nitrate regulatory genes and mechanisms in maize. Here, we identified nine ZmNLP genes in maize and analyzed the functions of two ZmNLP members in nitrate signaling. qPCR results revealed a broad pattern of expression for ZmNLP genes in different stages and organs with the highest levels of transcript expression of ZmNLP6 and ZmNLP8. When ZmNLP6 and ZmNLP8 were overexpressed in the Arabidopsis nitrate regulatory gene mutant nlp7-4, nitrate assimilation and induction of nitrate-responsive genes in the transgenic plants were recovered to WT levels, indicating that ZmNLP6 and ZmNLP8 can replace the essential roles of the master nitrate regulatory gene AtNLP7 in nitrate signaling and metabolism. ZmNLP6 and ZmNLP8 are localized in the nucleus and can bind candidate nitrate-responsive cis-elements in vitro. The biomass and yield of transgenic Arabidopsis lines overexpressing ZmNLP6 and ZmNLP8 showed significant increase compared with WT and nlp7-4 mutant line in low nitrate conditions. Thus, ZmNLP6 and ZmNLP8 regulate nitrate signaling in transgenic Arabidopsis plants and may be potential candidates for improving nitrogen use efficiency of maize.http://journal.frontiersin.org/article/10.3389/fpls.2017.01703/fullMaizenitrate assimilationnitrate regulatory genenitrate signalingZmNLP6 and ZmNLP8
collection DOAJ
language English
format Article
sources DOAJ
author Huairong Cao
Shengdong Qi
Mengwei Sun
Zehui Li
Yi Yang
Nigel M. Crawford
Yong Wang
spellingShingle Huairong Cao
Shengdong Qi
Mengwei Sun
Zehui Li
Yi Yang
Nigel M. Crawford
Yong Wang
Overexpression of the Maize ZmNLP6 and ZmNLP8 Can Complement the Arabidopsis Nitrate Regulatory Mutant nlp7 by Restoring Nitrate Signaling and Assimilation
Frontiers in Plant Science
Maize
nitrate assimilation
nitrate regulatory gene
nitrate signaling
ZmNLP6 and ZmNLP8
author_facet Huairong Cao
Shengdong Qi
Mengwei Sun
Zehui Li
Yi Yang
Nigel M. Crawford
Yong Wang
author_sort Huairong Cao
title Overexpression of the Maize ZmNLP6 and ZmNLP8 Can Complement the Arabidopsis Nitrate Regulatory Mutant nlp7 by Restoring Nitrate Signaling and Assimilation
title_short Overexpression of the Maize ZmNLP6 and ZmNLP8 Can Complement the Arabidopsis Nitrate Regulatory Mutant nlp7 by Restoring Nitrate Signaling and Assimilation
title_full Overexpression of the Maize ZmNLP6 and ZmNLP8 Can Complement the Arabidopsis Nitrate Regulatory Mutant nlp7 by Restoring Nitrate Signaling and Assimilation
title_fullStr Overexpression of the Maize ZmNLP6 and ZmNLP8 Can Complement the Arabidopsis Nitrate Regulatory Mutant nlp7 by Restoring Nitrate Signaling and Assimilation
title_full_unstemmed Overexpression of the Maize ZmNLP6 and ZmNLP8 Can Complement the Arabidopsis Nitrate Regulatory Mutant nlp7 by Restoring Nitrate Signaling and Assimilation
title_sort overexpression of the maize zmnlp6 and zmnlp8 can complement the arabidopsis nitrate regulatory mutant nlp7 by restoring nitrate signaling and assimilation
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2017-10-01
description Nitrate is a key nutrient that affects maize growth and yield, and much has yet to be learned about nitrate regulatory genes and mechanisms in maize. Here, we identified nine ZmNLP genes in maize and analyzed the functions of two ZmNLP members in nitrate signaling. qPCR results revealed a broad pattern of expression for ZmNLP genes in different stages and organs with the highest levels of transcript expression of ZmNLP6 and ZmNLP8. When ZmNLP6 and ZmNLP8 were overexpressed in the Arabidopsis nitrate regulatory gene mutant nlp7-4, nitrate assimilation and induction of nitrate-responsive genes in the transgenic plants were recovered to WT levels, indicating that ZmNLP6 and ZmNLP8 can replace the essential roles of the master nitrate regulatory gene AtNLP7 in nitrate signaling and metabolism. ZmNLP6 and ZmNLP8 are localized in the nucleus and can bind candidate nitrate-responsive cis-elements in vitro. The biomass and yield of transgenic Arabidopsis lines overexpressing ZmNLP6 and ZmNLP8 showed significant increase compared with WT and nlp7-4 mutant line in low nitrate conditions. Thus, ZmNLP6 and ZmNLP8 regulate nitrate signaling in transgenic Arabidopsis plants and may be potential candidates for improving nitrogen use efficiency of maize.
topic Maize
nitrate assimilation
nitrate regulatory gene
nitrate signaling
ZmNLP6 and ZmNLP8
url http://journal.frontiersin.org/article/10.3389/fpls.2017.01703/full
work_keys_str_mv AT huairongcao overexpressionofthemaizezmnlp6andzmnlp8cancomplementthearabidopsisnitrateregulatorymutantnlp7byrestoringnitratesignalingandassimilation
AT shengdongqi overexpressionofthemaizezmnlp6andzmnlp8cancomplementthearabidopsisnitrateregulatorymutantnlp7byrestoringnitratesignalingandassimilation
AT mengweisun overexpressionofthemaizezmnlp6andzmnlp8cancomplementthearabidopsisnitrateregulatorymutantnlp7byrestoringnitratesignalingandassimilation
AT zehuili overexpressionofthemaizezmnlp6andzmnlp8cancomplementthearabidopsisnitrateregulatorymutantnlp7byrestoringnitratesignalingandassimilation
AT yiyang overexpressionofthemaizezmnlp6andzmnlp8cancomplementthearabidopsisnitrateregulatorymutantnlp7byrestoringnitratesignalingandassimilation
AT nigelmcrawford overexpressionofthemaizezmnlp6andzmnlp8cancomplementthearabidopsisnitrateregulatorymutantnlp7byrestoringnitratesignalingandassimilation
AT yongwang overexpressionofthemaizezmnlp6andzmnlp8cancomplementthearabidopsisnitrateregulatorymutantnlp7byrestoringnitratesignalingandassimilation
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