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Literature DB >> 16384900

Global patterns of gene expression in the aleurone of wild-type and dwarf1 mutant rice.

Paul C Bethke¹, Yong-Sic Hwang, Tong Zhu, Russell L Jones.

Abstract

The cereal aleurone layer is a model system for studying the regulation of transcription by gibberellin (GA) and abscisic acid (ABA). GA stimulates and ABA prevents the transcription of genes for alpha-amylases and other secreted hydrolytic enzymes, but how GA and ABA affect the transcription of other genes is largely unknown. We characterized gene expression in rice (Oryza sativa) aleurone using a half-genome rice microarray. Of the 23,000 probe sets on the chip, approximately 11,000 hybridized with RNA from rice aleurone treated with ABA, GA, or no hormone. As expected, GA regulated the expression of many genes, and 3 times as many genes were up-regulated by GA at 8 h than were down-regulated. Changes in gene expression resulting from ABA treatment were not consistent with the hypothesis that the role of ABA in this tissue is primarily to repress gene expression, and 10 times more genes were up-regulated by ABA at 8 h than were down-regulated by ABA. We also measured transcript abundance in aleurone of dwarf1 (d1) mutant rice. The d1 protein is the sole alpha-subunit of heterotrimeric G-proteins in rice. Genes up-regulated by GA or ABA had higher expression in wild type than in d1 aleurone, and genes down-regulated by GA had lower expression in wild type relative to d1 aleurone. The d1 mutation did not result in a decrease in sensitivity to GA at the level of transcription. Rather, changes in transcript abundance were smaller in the d1 mutant than in wild type.

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Year: 2005 PMID： 16384900 PMCID： PMC1361318 DOI： 10.1104/pp.105.074435

Source DB: PubMed Journal: Plant Physiol ISSN： 0032-0889 Impact factor: 8.340

19 in total

1. Rice dwarf mutant d1, which is defective in the alpha subunit of the heterotrimeric G protein, affects gibberellin signal transduction.

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2. Microarray analysis of brassinosteroids- and gibberellin-regulated gene expression in rice seedlings.

Authors: G-X Yang; A Jan; S-H Shen; J Yazaki; M Ishikawa; Z Shimatani; N Kishimoto; S Kikuchi; H Matsumoto; S Komatsu
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3. Monitoring large-scale changes in transcript abundance in drought- and salt-stressed barley.

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4. Differential expression of rice alpha-amylase genes during seedling development under anoxia.

Authors: Y S Hwang; B R Thomas; R L Rodriguez
Journal: Plant Mol Biol Date: 1999-08 Impact factor: 4.076

5. A draft sequence of the rice genome (Oryza sativa L. ssp. japonica).

Authors: Stephen A Goff; Darrell Ricke; Tien-Hung Lan; Gernot Presting; Ronglin Wang; Molly Dunn; Jane Glazebrook; Allen Sessions; Paul Oeller; Hemant Varma; David Hadley; Don Hutchison; Chris Martin; Fumiaki Katagiri; B Markus Lange; Todd Moughamer; Yu Xia; Paul Budworth; Jingping Zhong; Trini Miguel; Uta Paszkowski; Shiping Zhang; Michelle Colbert; Wei-lin Sun; Lili Chen; Bret Cooper; Sylvia Park; Todd Charles Wood; Long Mao; Peter Quail; Rod Wing; Ralph Dean; Yeisoo Yu; Andrey Zharkikh; Richard Shen; Sudhir Sahasrabudhe; Alun Thomas; Rob Cannings; Alexander Gutin; Dmitry Pruss; Julia Reid; Sean Tavtigian; Jeff Mitchell; Glenn Eldredge; Terri Scholl; Rose Mary Miller; Satish Bhatnagar; Nils Adey; Todd Rubano; Nadeem Tusneem; Rosann Robinson; Jane Feldhaus; Teresita Macalma; Arnold Oliphant; Steven Briggs
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6. Gene expression profiles during the initial phase of salt stress in rice.

Authors: S Kawasaki; C Borchert; M Deyholos; H Wang; S Brazille; K Kawai; D Galbraith; H J Bohnert
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7. Abscisic acid, phaseic acid and gibberellin contents associated with dormancy and germination in barley.

Authors: John V Jacobsen; David W Pearce; Andrew T Poole; Richard P Pharis; Lewis N Mander
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8. A new resource for cereal genomics: 22K barley GeneChip comes of age.

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Journal: Plant Physiol Date: 2004-03 Impact factor: 8.340

9. Monitoring expression profiles of rice genes under cold, drought, and high-salinity stresses and abscisic acid application using cDNA microarray and RNA gel-blot analyses.

Authors: M Ashiq Rabbani; Kyonoshin Maruyama; Hiroshi Abe; M Ayub Khan; Koji Katsura; Yusuke Ito; Kyoko Yoshiwara; Motoaki Seki; Kazuo Shinozaki; Kazuko Yamaguchi-Shinozaki
Journal: Plant Physiol Date: 2003-11-26 Impact factor: 8.340

10. Transcriptional profiling of genes responsive to abscisic acid and gibberellin in rice: phenotyping and comparative analysis between rice and Arabidopsis.

Authors: Junshi Yazaki; Zenpei Shimatani; Akiko Hashimoto; Yuko Nagata; Fumiko Fujii; Keiichi Kojima; Kohji Suzuki; Toshiki Taya; Mio Tonouchi; Charles Nelson; Allen Nakagawa; Yasuhiro Otomo; Kazuo Murakami; Kenichi Matsubara; Jun Kawai; Piero Carninci; Yoshihide Hayashizaki; Shoshi Kikuchi
Journal: Physiol Genomics Date: 2004-04-13 Impact factor: 3.107

12 in total

1. Expression profile of the α subunit of the heterotrimeric G protein in rice.

Authors: Yuki Izawa; Miho Minami; Shizuka Ohki; Yukimoto Iwasaki
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2. Identification and characterization of a gibberellin-regulated protein, which is ASR5, in the basal region of rice leaf sheaths.

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Review 3. Gibberellin signaling.

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4. Transcriptome analysis during seed germination of elite Chinese bread wheat cultivar Jimai 20.

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5. Gibberellin mobilizes distinct DELLA-dependent transcriptomes to regulate seed germination and floral development in Arabidopsis.

Authors: Dongni Cao; Hui Cheng; Wei Wu; Hui Meng Soo; Jinrong Peng
Journal: Plant Physiol Date: 2006-08-18 Impact factor: 8.340

6. Barley grain maturation and germination: metabolic pathway and regulatory network commonalities and differences highlighted by new MapMan/PageMan profiling tools.

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Journal: Plant Physiol Date: 2008-02-15 Impact factor: 8.340

7. A negative regulator encoded by a rice WRKY gene represses both abscisic acid and gibberellins signaling in aleurone cells.

Authors: Zhong-Lin Zhang; Margaret Shin; Xiaolu Zou; Jianzhi Huang; Tun-hua David Ho; Qingxi J Shen
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