Chin Bull Bot ›› 2010, Vol. 45 ›› Issue (03): 307-318.doi: 10.3969/j.issn.1674-3466.2010.03.002

• 特邀综述 • Previous Articles     Next Articles

Regulation of Plant Anthocyanin Synthesis and Pigmentation by Environmental Factors

Ke Hu; Keting Han; Silan Dai*   

  1. College of Landscape Architecture, Beijing Forestry University, Beijing 100083, China
  • Received:2009-11-05 Revised:2009-12-14 Online:2010-05-01 Published:2010-03-01
  • Contact: Silan Dai

Abstract: Anthocyanin is one of the most important plant pigments for the color of flowers, fruits and seedlings. Anthocyanin synthesis and accumulation are closely related to plant growth and development and are subject to internal and external factors. Activation of the anthocyanin pathway and accumulation of the pigment require many environmental signals. Many studies have shown that environmental factors induce anthocyanin accumulation via the activation of anthocyanin biosynthetic genes. This paper reviews the effect of major environmental factors on gene expression patterns of anthocyanin synthesis and regulation of anthocyanin accumulation and stability. Light is one of the most important stimulators, and light quality is more important than light intensity. Low temperatures increase and high temperatures decrease anthocyanin concentration. Most of the structural and regulation genes involved in anthocyanin biosynthesis can be regulated by different sugars. Three aspects demand further research: the relationship between flower development and flower pigmentation, the response of flower color to environmental factors, and the resistance mechanism of anthocyanin to stress. Controlling flower color by environmental factors will greatly improve the quality of ornamentals.

No related articles found!
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
[1] Lu Zhong-shu. Plant Growth Regutators in Relation to Plant Water Status[J]. Chin Bull Bot, 1985, 3(04): 1 -6 .
[2] Li Da Jue;Han Yun-zhou and Wan Li-ping. Studies on Germplasm Collections of Carthamus tinctorius IV Screening of the characterization of Seed Domancy[J]. Chin Bull Bot, 1990, 7(02): 50 -52 .
[3] . [J]. Chin Bull Bot, 1999, 16(增刊): 45 -46 .
[4] Yang Hong-yuan. Basic Principle and Method of Fluorescence Microscopy[J]. Chin Bull Bot, 1984, 2(06): 45 -48 .
[5] LU Jin-Yao;LUO Ai-Ling and LIANG Zheng. Some Improvement of TD-PAGE Technology[J]. Chin Bull Bot, 1998, 15(03): 69 -72 .
[6] LI Ling-Hao and CHEN Zuo-Zhong. The Global Carbon Cycle in Grassland Ecosystems and Its Responses to Global Change I . Carbon Flow Compartment Model, Inputs and Storage[J]. Chin Bull Bot, 1998, 15(02): 14 -22 .
[7] Huanhuan Xu, Jian Kang, Mingxiang Liang. Research Advances in the Metabolism of Fructan in Plant Stress Resistance[J]. Chin Bull Bot, 2014, 49(2): 209 -220 .
[8] . [J]. Chin Bull Bot, 2013, 48(1): 4 -5 .
[9] . [J]. Chin Bull Bot, 1996, 13(专辑): 45 .
[10] SHU Qun-Fang;ZHOU Lu;LI Wen-Bin;ZHANG LI-Ming and SUN Yong-Ru. Study on Gel Electrophoresis of Protein from Plant and Our Improved Methods[J]. Chin Bull Bot, 1998, 15(06): 73 -78 .