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Results: 1 to 20 of 100

1.

Two young MicroRNAs originating from target duplication mediate nitrogen starvation adaptation via regulation of glucosinolate synthesis in Arabidopsis thaliana.

He H, Liang G, Li Y, Wang F, Yu D.

Plant Physiol. 2014 Feb;164(2):853-65. doi: 10.1104/pp.113.228635. Epub 2013 Dec 23.

PMID:
24367020
[PubMed - in process]
2.

Identification of nitrogen starvation-responsive microRNAs in Arabidopsis thaliana.

Liang G, He H, Yu D.

PLoS One. 2012;7(11):e48951. doi: 10.1371/journal.pone.0048951. Epub 2012 Nov 14.

PMID:
23155433
[PubMed - indexed for MEDLINE]
Free PMC Article
3.

The characterisation of AOP2: a gene associated with the biosynthesis of aliphatic alkenyl glucosinolates in Arabidopsis thaliana.

Neal CS, Fredericks DP, Griffiths CA, Neale AD.

BMC Plant Biol. 2010 Aug 11;10:170. doi: 10.1186/1471-2229-10-170.

PMID:
20699011
[PubMed - indexed for MEDLINE]
Free PMC Article
4.

Arabidopsis roots and shoots show distinct temporal adaptation patterns toward nitrogen starvation.

Krapp A, Berthomé R, Orsel M, Mercey-Boutet S, Yu A, Castaings L, Elftieh S, Major H, Renou JP, Daniel-Vedele F.

Plant Physiol. 2011 Nov;157(3):1255-82. doi: 10.1104/pp.111.179838. Epub 2011 Sep 7.

PMID:
21900481
[PubMed - indexed for MEDLINE]
Free PMC Article
5.

Gene duplication in the diversification of secondary metabolism: tandem 2-oxoglutarate-dependent dioxygenases control glucosinolate biosynthesis in Arabidopsis.

Kliebenstein DJ, Lambrix VM, Reichelt M, Gershenzon J, Mitchell-Olds T.

Plant Cell. 2001 Mar;13(3):681-93.

PMID:
11251105
[PubMed - indexed for MEDLINE]
Free PMC Article
6.

Involvement of miR169 in the nitrogen-starvation responses in Arabidopsis.

Zhao M, Ding H, Zhu JK, Zhang F, Li WX.

New Phytol. 2011 Jun;190(4):906-15. doi: 10.1111/j.1469-8137.2011.03647.x. Epub 2011 Feb 23.

PMID:
21348874
[PubMed - indexed for MEDLINE]
Free PMC Article
7.

A miRNA involved in phosphate-starvation response in Arabidopsis.

Fujii H, Chiou TJ, Lin SI, Aung K, Zhu JK.

Curr Biol. 2005 Nov 22;15(22):2038-43.

PMID:
16303564
[PubMed - indexed for MEDLINE]
Free Article
8.

Transcriptional responses of Arabidopsis thaliana ecotypes with different glucosinolate profiles after attack by polyphagous Myzus persicae and oligophagous Brevicoryne brassicae.

Kusnierczyk A, Winge P, Midelfart H, Armbruster WS, Rossiter JT, Bones AM.

J Exp Bot. 2007;58(10):2537-52. Epub 2007 Jun 1.

PMID:
17545220
[PubMed - indexed for MEDLINE]
Free Article
9.

Comparative analysis of a Brassica BAC clone containing several major aliphatic glucosinolate genes with its corresponding Arabidopsis sequence.

Gao M, Li G, Yang B, McCombie WR, Quiros CF.

Genome. 2004 Aug;47(4):666-79.

PMID:
15284871
[PubMed - indexed for MEDLINE]
10.

Phosphate starvation root architecture and anthocyanin accumulation responses are modulated by the gibberellin-DELLA signaling pathway in Arabidopsis.

Jiang C, Gao X, Liao L, Harberd NP, Fu X.

Plant Physiol. 2007 Dec;145(4):1460-70. Epub 2007 Oct 11.

PMID:
17932308
[PubMed - indexed for MEDLINE]
Free PMC Article
11.

Uncovering small RNA-mediated responses to phosphate deficiency in Arabidopsis by deep sequencing.

Hsieh LC, Lin SI, Shih AC, Chen JW, Lin WY, Tseng CY, Li WH, Chiou TJ.

Plant Physiol. 2009 Dec;151(4):2120-32. doi: 10.1104/pp.109.147280. Epub 2009 Oct 23.

PMID:
19854858
[PubMed - indexed for MEDLINE]
Free PMC Article
12.

Genome-wide identification of soybean microRNAs and their targets reveals their organ-specificity and responses to phosphate starvation.

Xu F, Liu Q, Chen L, Kuang J, Walk T, Wang J, Liao H.

BMC Genomics. 2013 Jan 31;14:66. doi: 10.1186/1471-2164-14-66.

PMID:
23368765
[PubMed - indexed for MEDLINE]
Free PMC Article
13.

Characterization of transgenic Arabidopsis thaliana with metabolically engineered high levels of p-hydroxybenzylglucosinolate.

Petersen BL, Andréasson E, Bak S, Agerbirk N, Halkier BA.

Planta. 2001 Mar;212(4):612-8.

PMID:
11525519
[PubMed - indexed for MEDLINE]
14.

Physiological and genetic analysis of Arabidopsis thaliana anthocyanin biosynthesis mutants under chronic adverse environmental conditions.

Misyura M, Colasanti J, Rothstein SJ.

J Exp Bot. 2013 Jan;64(1):229-40. doi: 10.1093/jxb/ers328. Epub 2012 Nov 16.

PMID:
23162120
[PubMed - indexed for MEDLINE]
Free PMC Article
15.

Transcriptome response to nitrogen starvation in rice.

Cai H, Lu Y, Xie W, Zhu T, Lian X.

J Biosci. 2012 Sep;37(4):731-47.

PMID:
22922198
[PubMed - indexed for MEDLINE]
Free Article
16.

Regulation of phosphate homeostasis by MicroRNA in Arabidopsis.

Chiou TJ, Aung K, Lin SI, Wu CC, Chiang SF, Su CL.

Plant Cell. 2006 Feb;18(2):412-21. Epub 2005 Dec 30.

PMID:
16387831
[PubMed - indexed for MEDLINE]
Free PMC Article
17.

BZR1 and BES1 participate in regulation of glucosinolate biosynthesis by brassinosteroids in Arabidopsis.

Guo R, Qian H, Shen W, Liu L, Zhang M, Cai C, Zhao Y, Qiao J, Wang Q.

J Exp Bot. 2013 May;64(8):2401-12. doi: 10.1093/jxb/ert094. Epub 2013 Apr 11.

PMID:
23580754
[PubMed - indexed for MEDLINE]
Free PMC Article
18.

Characterisation of the wheat (Triticum aestivum L.) transcriptome by de novo assembly for the discovery of phosphate starvation-responsive genes: gene expression in Pi-stressed wheat.

Oono Y, Kobayashi F, Kawahara Y, Yazawa T, Handa H, Itoh T, Matsumoto T.

BMC Genomics. 2013 Feb 4;14:77. doi: 10.1186/1471-2164-14-77.

PMID:
23379779
[PubMed - indexed for MEDLINE]
Free PMC Article
19.

The R2R3-MYB transcription factor HAG1/MYB28 is a regulator of methionine-derived glucosinolate biosynthesis in Arabidopsis thaliana.

Gigolashvili T, Yatusevich R, Berger B, Müller C, Flügge UI.

Plant J. 2007 Jul;51(2):247-61. Epub 2007 May 23.

PMID:
17521412
[PubMed - indexed for MEDLINE]
20.

MicroRNA gene evolution in Arabidopsis lyrata and Arabidopsis thaliana.

Fahlgren N, Jogdeo S, Kasschau KD, Sullivan CM, Chapman EJ, Laubinger S, Smith LM, Dasenko M, Givan SA, Weigel D, Carrington JC.

Plant Cell. 2010 Apr;22(4):1074-89. doi: 10.1105/tpc.110.073999. Epub 2010 Apr 20.

PMID:
20407027
[PubMed - indexed for MEDLINE]
Free PMC Article

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