《基部真雙子葉植物中A,B,C和E類MADS-box基因的進化》是孔宏智為項目負責人,中國科學院植物研究所為依託單位的重點項目。
基本介紹
- 中文名:基部真雙子葉植物中A,B,C和E類MADS-box基因的進化
- 項目類別:重點項目
- 項目負責人:孔宏智
- 依託單位:中國科學院植物研究所
科研成果,項目摘要,
科研成果
序號 | 標題 | 類型 | 作者 |
---|---|---|---|
1 | Patterns of gene duplication and functional diversification during the evolution of the AP1/SQUA subfamily of plant MADS-box genes | 期刊論文 | Liu, Cuijing|Shan, Hongyan|Xu, Guixia|Chen, Zhiduan|Zhan, Ning|Kong, Hongzhi|Zhang, Jian| |
2 | 形態性狀、分子性狀與同源性 | 期刊論文 | 山紅艷| |
3 | Evolution of Plant MADS Box Transcription Factors: Evidence for Shifts in Selection Associated with Early Angiosperm Diversification and Concerted Gene Duplications | 期刊論文 | Ma, Hong|Guindon, Stephane|Kong, Hongzhi|Leebens-Mack, Jim|Wall, P. Kerr|Shan, Hongyan|Zahn, Laura|dePamphilis, Claude W.| |
4 | 植物進化發育生物學的形成與研究進展 | 期刊論文 | 張劍|徐桂霞|胡瑾|薛皓月| |
5 | Patterns of gene duplication in the plant SKP1 gene family in angiosperms: evidence for multiple mechanisms of rapid gene birth | 期刊論文 | dePamphilis, Claude W.|Leebens-Mack, Jim|Frohlich, Michael W.|Kong, Hongzhi|Landherr, Lena L.|Ma, Hong| |
6 | Two AGAMOUS-like MADS-box genes from Taihangia rupestris (Rosaceae) reveal independent trajectories in the evolution of class C and class D floral homeotic functions | 期刊論文 | Du, Xiaoqiu|Meng, Zheng|Lu, Wenliang|Lu, Shanhua|Chong, Kang| |
7 | Evolution of F-box genes in plants: Different modes of sequence divergence and their relationships with functional diversification | 期刊論文 | Xu, Guixia|Ma, Hong|Nei, Masatoshi|Kong, Hongzhi| |
8 | Duplication and divergence of floral MADS-box genes in grasses: Evidence for the generation and modification of novel regulators | 期刊論文 | Kong, Hongzhi|Xu, Guixia| |
9 | The MIK region rather than the C-terminal domain of AP3-like class B floral homeotic proteins determines functional specificity in the development and evolution of petals | 期刊論文 | Meng, Zheng|Zhao, Suzhen|Kong, Hongzhi|Chen, Zhiduan|Lu, Wenliang|Theissen, Guenter|Shan, Hongyan|Su, Kunmei| |
10 | F-box proteins regulate ethylene signaling and more | 期刊論文 | Ma, Hong|Kong, Hongzhi|Wang, Xuelu| |
11 | Functional divergence of the duplicated AtKIN14a and AtKIN14b genes: critical roles in Arabidopsis meiosis and gametophyte development | 期刊論文 | Li, Wuxing|Xiao, Rong|Malcos, Jennelle L.|Ma, Hong|Kong, Hongzhi|Twell, David|Ambrose, J. Christian|Oh, Sung-Aeong|Quan, Li|Cyr, Richard| |
12 | TrMADS3, a new MADS-box gene, from a perennial species Taihangia rupestris (Rosaceae) is upregulated by cold and experiences seasonal fluctuation in expression level | 期刊論文 | Du, Xiaoqiu|Meng, Zheng|Zhao, Ran|Chong, Kang|Xu, Qijiang|Xiao, Qiying|Wu, Feng| |
13 | Conservation and divergence of candidate class B genes in Akebia trifoliata (Lardizabalaceae) | 期刊論文 | Su, Kunmei|Chen, Zhiduan|Kong, Hongzhi|Shan, Hongyan|Meng, Zheng|Lu, Wenliang| |
項目摘要
基部真雙子葉植物是聯繫核心真雙子葉植物和基部被子植物的橋樑和紐帶。對基部真雙子葉植物中花的發育和進化機制的研究是探討真雙子葉植物特別是核心真雙子葉植物起源和分化的鑰匙。本項目擬在申請者已有工作的基礎上,在基部真雙子葉植物中選擇代表類群,採用多種先進的實驗手段和技術,研究控制花部器官發生和發育的A、B、C和E類MADS-box基因的拷貝數目、序列結構、表達式樣、基因功能和系統發育關係,探討關鍵花發育基因的序列結構、表達式樣和基因功能的進化,揭示基部真雙子葉植物中新基因、新基因功能乃至新調控體系產生的基本式樣及其與花部結構發育和進化的關係,闡明真雙子葉植物的多樣化機制和核心真雙子葉植物的起源機制。本項目的實施不僅能夠取得許多具有國際先進水平的研究成果,還能培養進化發育遺傳學領域的優秀研究人才,推動我國植物進化發育遺傳學研究的發展。