Genetic analysis and fine mapping of the LOBED-LEAF 1 (BnLL1) gene in rapeseed (Brassica napus L.)
详细信息 查看全文
- 作者:Xiyuan Ni ; Jixiang Huang ; Basharat Ali ; Weijun Zhou ; Jianyi Zhao
- 关键词:Brassica napus ; Leaf margin ; LOBED ; LEAF 1 gene ; Fine mapping
- 刊名:Euphytica
- 出版年:2015
- 出版时间:July 2015
- 年:2015
- 卷:204
- 期:1
- 页码:29-38
- 全文大小:1,738 KB
- 参考文献:Andres RJ, Bowman DT, Lawrence KS et al (2013) Effect of leaf shape on boll rot incidence in upland cotton (Gossypium hirsutum). Int J Plant Breed Genet 7(2):132鈥?38View Article
Cavell AC, Lydiate DJ, Parkin IAP, Dean C, Trick M (1998) Co-linearity between a 30-centimorgan segment of Arabidopsis thaliana chromosome 4 and duplicated regions within the Brassica napus genome. Genome 41:62鈥?9PubMed View Article
Chen FX, Hu BC, Li C et al (1998) Genetic studies on GMS in Brassica napus L. I. Inheritance of recessive GMS line 9012A. Acta Agron Sin 24:431鈥?38
Goliber T, Kessler S, Chen JJ, Bharathan G, Sinha N (1999) Genetic, molecular and morphological analysis of compound leaf development. Curr Top Dev Biol 43:259鈥?90PubMed
Hasson A, Plessis A, Blein T et al (2011) Evolution and diverse roles of the CUP-SHAPED COTYLEDON genes in Arabidopsis leaf development. Plant Cell 23:54鈥?8PubMed Central PubMed View Article
Hibara K, Karim MR, Takada S et al (2006) Arabidopsis CUP-SHAPED COTYLEDON3 regulates postembryonic shoot meristem and organ boundary formation. Plant Cell 18:2946鈥?957PubMed Central PubMed View Article
Hui MX (2011) Fine mapping of lobe-leafed gene and cloning and functional analysis of boundary-specific BcCUC1 and BcCUC3 genes from non-heading Chinese cabbage (Brassica campeatris ssp. chinensis). Dissertation, Northwest A&F University, China
Koyama T, Mitsuda N, Seki M, Shinozaki K, Ohme-Takagib M (2010) TCP transcription factors regulate the activities of ASYMMETRIC LEAVES1 and miR164, as well as the auxin response, during differentiation of leaves in Arabidopsis. Plant Cell 22:3574鈥?588PubMed Central PubMed View Article
Lincoln SE, Daly MJ, Lander ES (1993) Constructing genetic linkage maps with MAPMARKER/EXP 3.0. A tutorial and reference manual. Whitehead Institute for Biomedical Research, Cambridge
Michelmore RW, Paran I, Kesseli RV (1991) Identification of markers linked to disease-resistance genes by bulked segregant analysis鈥撯€揳 rapid method to detect markers in specific genomic regions by using segregating populations. Proc Natl Acad Sci USA 88:9828鈥?832PubMed Central PubMed View Article
Mika V, Nerusil P, Koprna R, Kucera V (2003) Fast prediction of quality parameters in whole seeds of oilseed rape (Brassica napus). Plant Soil Environ 49:141鈥?45
Nikovics K, Blein T, Peaucelle A et al (2006) The balance between the MIR164A and CUC2 genes controls leaf margin serration in Arabidopsis. Plant Cell 18:2929鈥?945PubMed Central PubMed View Article
Pu HM, Fu SZ, Qi CK et al (2001) Inheritance of divided leaf trait of rapeseed (Brassica napus) and application in hybrid breeding. Chin J Oil Crop Sci 23(3):60鈥?2
Rahman H, Bibi A, Latif M (2005) Okra-leaf accessions of the upland cotton (Gossypium hirsutum L.): genetic variability in agronomic and fibre traits. J Appl Genet 46(2):149鈥?55
Saddic LA, Huvermann B, Bezhani S et al (2006) The LEAFY target LMI1 is a meristem identity regulator and acts together with LEAFY to regulate expression of CAULIFLOWER. Development 133:1673鈥?682PubMed View Article
Sanguinetti C, Simpson NE (1994) A rapid silver staining and recovery of PCR products separated on polyacrylamide gels. Biotechniques 17:915鈥?19
Tsukaya H (2005) Leaf shape: genetic controls and environmental factors. Int J Dev Biol 49:547鈥?55PubMed View Article
Tu YQ, Sun J, Dai XL, Tang J, Tu WF, Shao HQ (2013) Character and genetic analysis of lobed-leaf traits in Brassica napus. Chin J Oil Crop Sci 35:93鈥?6
Yan ZY (2011) Inheritance of mosaic-leaf trait in Brassica napus and its gene mapping. Dissertation, Huazhong Agricultural University, China
Yang GS, Fu TD (1997) Genetic investigation of three lines with recessive genie male sterility in Brassica napus L. Plant Breed 116:296鈥?98View Article
Zhao JY, Becker HC, Zhang DQ, Zhang YF, Wolfgang E (2005) Oil content in a European聽脳聽Chinese rapeseed population: QTL with additive and epistatic effects and their genotype-environment interactions. Crop Sci 45:51鈥?9View Article
Zhao JY, Huang JX, Chen F et al (2012) Molecular mapping of Arabidopsis thaliana lipid-related orthologous genes in Brassica napus. Theor Appl Genet 124(2):407鈥?21PubMed View Article
Zhuang J, Zhou XR, Li SL, Gu LD (2003) Breeding of divided leaf two-type line of recessive genic male sterility in Brassica napus L. Acta Agric Shanghai 19(2):17鈥?9 - 作者单位:Xiyuan Ni (1) (2)
Jixiang Huang (2)
Basharat Ali (1)
Weijun Zhou (1)
Jianyi Zhao (2)
1. Institute of Crop Science and Zhejiang Key Laboratory of Crop Germplasm, Zhejiang University, Hangzhou, 310058, China
2. Institute of Crop Science and Nuclear Technology Utilization, Zhejiang Academy of Agricultural Sciences, Hangzhou, 310021, China - 刊物类别:Biomedical and Life Sciences
- 刊物主题:Life Sciences
Plant Physiology
Plant Sciences
Ecology - 出版者:Springer Netherlands
- ISSN:1573-5060
文摘
The lobed-leaf character is a clearly recognizable morphologic trait in rapeseed (Brassica napus L.) that has potential advantages in hybrid production. The present study was carried out to analyze the effect of lobed-leaf trait on agronomic traits and to fine map the LOBED-LEAF 1 (BnLL1) gene in B. napus. The lobed-leaf line Yuye 87 and entire-leaf cultivar Zheyou 50 were used to produce four F2 and eight BC1 populations for genetic analysis. Multiple comparison analysis between lobed-leaf character and agronomic traits was carried out in two F2 populations of reciprocal crosses between Yuye 87 and Zheyou 50. Results show that the lobed-leaf phenotype is controlled by a single an incomplete dominant gene and has no significant adverse effects on 10 main agronomic traits. The location of BnLL1 gene was narrowed down to a 36.7-kb homologous region of B. rapa between genes Bra009506 and Bra009511. On the basis of the annotation of orthologous genes in Arabidopsis, Bra009510 is considered to be a promising candidate for BnLL1 gene. The AT5G03790 is the orthologous gene of Bra009510 in Arabidopsis thaliana, with known functions in the formation of simple serrated leaves and in the suppression of bract formation. It is suggested that previously described lobed-leaf gene BnMOSAICLEAF (BnML) and the BnLL1 are the same genes controlling the lobed-leaf phenotype in B. napus, whereas the lobed-leaf gene BcLEAFLOBED 1 (BcLL1) is their homologue in Brassica campestris ssp. chinensis. These findings will facilitate the cloning and functional identification of the BnLL1 gene in future studies.