Literature DB >> 22101345

A study of phytohormone biosynthetic gene expression using a circadian clock-related mutant in rice.

Hironori Itoh1, Takeshi Izawa.   

Abstract

We have recently isolated a rice circadian clock-related mutant carrying a null mutation in Os-GIGANTEA(GI) gene, the solo ortholog of Arabidopsis GI. Time-course global transcriptome analyses of leaves from wild-type and osgi mutant grown in the field have revealed that Os-GI affects gene expression of more than half of genes on rice 44k microarray. To better understand the biological significance of circadian clock function in growth and development of rice, we here investigated the gene expression involved in phytohormone biosynthesis. Here we found that mRNA levels of a few major genes encoding GA2-oxidase which can inactivate bioactive gibberellins (GAs) were remarkably increased in osgi-1 plants. This suggests that Os-GI functions to maintain bioactive GA level through the regulation of the GA-deactivating enzyme genes in rice. Consistently, osgi-1 plants showed semi-dwarf phenotype with reduced internode and leaf sheath elongation.
© 2011 Landes Bioscience

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Year:  2011        PMID: 22101345      PMCID: PMC3337181          DOI: 10.4161/psb.6.12.18207

Source DB:  PubMed          Journal:  Plant Signal Behav        ISSN: 1559-2316


  25 in total

1.  A pair of floral regulators sets critical day length for Hd3a florigen expression in rice.

Authors:  Hironori Itoh; Yasunori Nonoue; Masahiro Yano; Takeshi Izawa
Journal:  Nat Genet       Date:  2010-06-13       Impact factor: 38.330

Review 2.  Four easy pieces: mechanisms underlying circadian regulation of growth and development.

Authors:  Bryan Thines; Frank G Harmon
Journal:  Curr Opin Plant Biol       Date:  2010-10-11       Impact factor: 7.834

3.  Os-GIGANTEA confers robust diurnal rhythms on the global transcriptome of rice in the field.

Authors:  Takeshi Izawa; Motohiro Mihara; Yuji Suzuki; Meenu Gupta; Hironori Itoh; Atsushi J Nagano; Ritsuko Motoyama; Yuji Sawada; Masahiro Yano; Masami Yokota Hirai; Amane Makino; Yoshiaki Nagamura
Journal:  Plant Cell       Date:  2011-05-13       Impact factor: 11.277

4.  The involvement of gibberellin 20-oxidase genes in phytochrome-regulated petiole elongation of Arabidopsis.

Authors:  Tamotsu Hisamatsu; Rod W King; Chris A Helliwell; Masaji Koshioka
Journal:  Plant Physiol       Date:  2005-05-27       Impact factor: 8.340

5.  A novel class of gibberellin 2-oxidases control semidwarfism, tillering, and root development in rice.

Authors:  Shuen-Fang Lo; Show-Ya Yang; Ku-Ting Chen; Yue-Ie Hsing; Jan A D Zeevaart; Liang-Jwu Chen; Su-May Yu
Journal:  Plant Cell       Date:  2008-10-24       Impact factor: 11.277

Review 6.  Gibberellin receptor and its role in gibberellin signaling in plants.

Authors:  Miyako Ueguchi-Tanaka; Masatoshi Nakajima; Ashikari Motoyuki; Makoto Matsuoka
Journal:  Annu Rev Plant Biol       Date:  2007       Impact factor: 26.379

7.  Genetic Regulation of Development in Sorghum bicolor (IX. The ma3R Allele Disrupts Diurnal Control of Gibberellin Biosynthesis).

Authors:  K. R. Foster; P. W. Morgan
Journal:  Plant Physiol       Date:  1995-05       Impact factor: 8.340

8.  TAA1-mediated auxin biosynthesis is essential for hormone crosstalk and plant development.

Authors:  Anna N Stepanova; Joyce Robertson-Hoyt; Jeonga Yun; Larissa M Benavente; De-Yu Xie; Karel Dolezal; Alexandra Schlereth; Gerd Jürgens; Jose M Alonso
Journal:  Cell       Date:  2008-04-04       Impact factor: 41.582

9.  Rapid synthesis of auxin via a new tryptophan-dependent pathway is required for shade avoidance in plants.

Authors:  Yi Tao; Jean-Luc Ferrer; Karin Ljung; Florence Pojer; Fangxin Hong; Jeff A Long; Lin Li; Javier E Moreno; Marianne E Bowman; Lauren J Ivans; Youfa Cheng; Jason Lim; Yunde Zhao; Carlos L Ballaré; Göran Sandberg; Joseph P Noel; Joanne Chory
Journal:  Cell       Date:  2008-04-04       Impact factor: 41.582

10.  Comprehensive transcriptome analysis of phytohormone biosynthesis and signaling genes in microspore/pollen and tapetum of rice.

Authors:  Ko Hirano; Koichiro Aya; Tokunori Hobo; Hitoshi Sakakibara; Mikiko Kojima; Rosalyn Angeles Shim; Yasuko Hasegawa; Miyako Ueguchi-Tanaka; Makoto Matsuoka
Journal:  Plant Cell Physiol       Date:  2008-08-20       Impact factor: 4.927
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  7 in total

1.  Genome-wide identification and analysis of Catharanthus roseus RLK1-like kinases in rice.

Authors:  Quynh-Nga Nguyen; Yang-Seok Lee; Lae-Hyeon Cho; Hee-Jeong Jeong; Gynheung An; Ki-Hong Jung
Journal:  Planta       Date:  2014-11-16       Impact factor: 4.116

Review 2.  The circadian regulation of photosynthesis.

Authors:  Antony N Dodd; Jelena Kusakina; Anthony Hall; Peter D Gould; Mitsumasa Hanaoka
Journal:  Photosynth Res       Date:  2013-03-26       Impact factor: 3.573

3.  gigantea suppresses immutans variegation by interactions with cytokinin and gibberellin signaling pathways.

Authors:  Aarthi Putarjunan; Steve Rodermel
Journal:  Plant Physiol       Date:  2014-10-27       Impact factor: 8.340

4.  Salt overly sensitive pathway members are influenced by diurnal rhythm in rice.

Authors:  Praveen Soni; Gautam Kumar; Neelam Soda; Sneh L Singla-Pareek; Ashwani Pareek
Journal:  Plant Signal Behav       Date:  2013-05-13

Review 5.  Circadian Regulation of the Plant Transcriptome Under Natural Conditions.

Authors:  Paige E Panter; Tomoaki Muranaka; David Cuitun-Coronado; Calum A Graham; Aline Yochikawa; Hiroshi Kudoh; Antony N Dodd
Journal:  Front Genet       Date:  2019-11-29       Impact factor: 4.599

6.  Ascribing Functions to Genes: Journey Towards Genetic Improvement of Rice Via Functional Genomics.

Authors:  Ananda Mustafiz; Sumita Kumari; Ratna Karan
Journal:  Curr Genomics       Date:  2016-06       Impact factor: 2.236

7.  Mutation of OsGIGANTEA Leads to Enhanced Tolerance to Polyethylene Glycol-Generated Osmotic Stress in Rice.

Authors:  Shuai Li; Wenhao Yue; Min Wang; Wenmin Qiu; Lian Zhou; Huixia Shou
Journal:  Front Plant Sci       Date:  2016-04-18       Impact factor: 5.753
  7 in total

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