Os06g0493100

From RiceWiki
Jump to: navigation, search

The rice Os06g0493100 was reported as Bphi008a in 2011 [1] by researchers from China.

Annotated Information

Gene Symbol

  • Os06g0493100 <=> BpHi008A, OsRALF-22, OsRALF22, RALF-22, RALF22, bphi008a

Function

  • The Bphi008a Gene Interacts with the Ethylene Pathway and Transcriptionally Regulates MAPK Genes in the Response of Rice to Brown Planthopper Feeding. [1]

Expression

  • In a previous study, Bphi008a expression was found to be induced by both BPH feeding and spraying plants with ethephon, which slowly releases Et [2].
  • Measurement of the expression levels of ethylene synthases and of ethylene emissions showed that BPH feeding rapidly initiated the ethylene signaling pathway and up-regulated Bphi008a transcript levels after 6 to 96 h of feeding. In contrast, blocking ethylene transduction (using 1-methylcyclopropene) reduced Bphi008a transcript levels in wild-type plants fed upon by BPH.[2].[3].[4].

Evolution

  • In transgenic lines, changes in the expression levels of several enzymes that are important components of the defenses against the BPH were also observed.
  • Yeast two-hybrid screening results showed that Bphi008a is able to interact with a b-ZIP transcription factor (OsbZIP60) and a RNA polymerase polypeptide (SDRP).

You can also add sub-section(s) at will.

Labs working on this gene

  • State Key Laboratory of Hybrid Rice, College of Life Sciences, Wuhan University, Wuhan 430072, People’s Republic of China
  • College of Life Sciences, Xinyang Normal University, Xinyang 464000, People’s Republic of China

References

  1. 1.0 1.1 Jing Hu, Jiangbo Zhou, Xinxin Peng, Henghao Xu, Caixiang Liu, Bo Du, Hongyu Yuan, Lili Zhu, and Guangcun He. The Bphi008a Gene Interacts with the Ethylene Pathway and Transcriptionally Regulates MAPK Genes in the Response of Rice to Brown Planthopper Feeding1[C][W][OA][J].Plant Physiology, 2011, 156: 856-872.
  2. 2.0 2.1 Yuan H, Chen X, Zhu L, He G. Isolation and characterization of a novel rice gene encoding a putative insect-inducible protein homologous to wheat Wir1[J].Plant Physiol, 2004, 161: 79-85.
  3. Iwai T, Miyasaka A, Seo S, Ohashi Y. Contribution of ethylene biosynthesis for resistance to blast fungus infection in young rice plants[J]. Plant Physiol, 2006, 142: 1202-1215.
  4. Yang SF, Hoffman NE. Ethylene biosynthesis and its regulation in higher plants[J]. Annu Rev Plant Physiol, 1984, 35: 155-189.

Structured Information