Advances in Arachis genomics for peanut improvement

文献类型: 外文期刊

第一作者: Pandey, Manish K.

作者: Pandey, Manish K.;Nigam, Shyam N.;Upadhyaya, Hari D.;Janila, Pasupuleti;Varshney, Rajeev K.;Monyo, Emmanuel;Ozias-Akins, Peggy;Liang, Xuanquiang;Guimaraes, Patricia;Zhang, Xinyou;Guo, Baozhu;Cook, Douglas R.;Michelmore, Richard;Bertioli, David J.;Varshney, Rajeev K.;Varshney, Rajeev K.

作者机构:

关键词: Groundnut;Molecular markers;Molecular breeding;Genomic resources;Genetic improvement

期刊名称:BIOTECHNOLOGY ADVANCES ( 影响因子:14.227; 五年影响因子:16.301 )

ISSN: 0734-9750

年卷期: 2012 年 30 卷 3 期

页码:

收录情况: SCI

摘要: Peanut genomics is very challenging due to its inherent problem of genetic architecture. Blockage of gene flow from diploid wild relatives to the tetraploid; cultivated peanut, recent polyploidization combined with self pollination, and the narrow genetic base of the primary genepool have resulted in low genetic diversity that has remained a major bottleneck for genetic improvement of peanut. Harnessing the rich source of wild relatives has been negligible due to differences in ploidy level as well as genetic drag and undesirable alleles for low yield. Lack of appropriate genomic resources has severely hampered molecular breeding activities, and this crop remains among the less-studied crops. The last five years, however, have witnessed accelerated development of genomic resources such as development of molecular markers, genetic and physical maps, generation of expressed sequenced tags (ESTs), development of mutant resources, and functional genomics platforms that facilitate the identification of QTLs and discovery of genes associated with tolerance/resistance to abiotic and biotic stresses and agronomic traits. Molecular breeding has been initiated for several traits for development of superior genotypes. The genome or at least gene space sequence is expected to be available in near future and this will further accelerate use of biotechnological approaches for peanut improvement. (C) 2011 Elsevier Inc. All rights reserved.

分类号:

  • 相关文献

[1]Genetic improvement of cotton tolerance to salinity stress. Ma, Xinrong,Dong, Hezhong,Li, Weijiang,Ma, Xinrong. 2011

[2]Achievements and prospects of genomics-assisted breeding in three legume crops of the semi-arid tropics. Varshney, Rajeev K.,Mohan, S. Murali,Gaur, Pooran M.,Pandey, Manish K.,Sawargaonkar, Shrikant L.,Chitikineni, Annapurna,Janila, Pasupuleti,Saxena, K. B.,Sharma, Mamta,Rathore, Abhishek,Mallikarjuna, Nalini,Gowda, C. L. L.,Varshney, Rajeev K.,Varshney, Rajeev K.,Varshney, Rajeev K.,Liang, Xuanqiang,Gangarao, N. V. P. R.,Pandey, Manish K.,Bohra, Abhishek,Pratap, Aditya,Datta, Subhojit,Chaturvedi, S. K.,Nadarajan, N.,Kimurto, Paul K.,Fikre, Asnake,Tripathi, Shailesh,Bharadwaj, Ch.,Anuradha, G.,Babbar, Anita,Choudhary, Arbind K.,Mhase, M. B.,Mannur, D. M.. 2013

[3]Genetic and genomic analyses for economically important traits and their applications in molecular breeding of cultured fish. Tong JinGou,Sun XiaoWen. 2015

[4]Genomic Tools in Groundnut Breeding Program: Status and Perspectives. Janila, P.,Variath, Murali T.,Pandey, Manish K.,Manohar, Surendra S.,Varshney, Rajeev K.,Desmae, Haile,Motagi, Babu N.,Okori, Patrick,Rathnakumar, A. L.,Radhakrishnan, T.,Liao, Boshou. 2016

[5]Differentiation of peanut seedborne potyviruses and cucumoviruses by RT-PCR. Dietzgen, RG,Callaghan, B,Higgins, CM,Birch, RG,Chen, KR,Xu, ZY. 2001

[6]Creation of targeted inversion mutations in plants using an RNA-guided endonuclease. Zhang, Congsheng,Liu, Changlin,Weng, Jianfeng,Liu, Fang,Li, Xinhai,Xie, Chuanxiao,Zhang, Congsheng,Cheng, Beijiu. 2017

[7]Genetic improvement of grain yield and associated traits in the southern China winter wheat region: 1949 to 2000. Zhu, H. Z.,Cai, S. B.,He, Z. H.,Zhang, X. K.,Xia, X. C.,Zhang, G. S.. 2007

[8]Calreticulin: conserved protein and diverse functions in plants. Jia, Xiao-Yun,He, Li-Heng,Li, Run-Zhi,Jia, Xiao-Yun,Jing, Rui-Lian.

[9]Identification of quantitative trait loci for leaf area and chlorophyll content in maize (Zea mays) under low nitrogen and low phosphorus supply. Cai, Hongguang,Chu, Qun,Yuan, Lixing,Liu, Jianchao,Chen, Xiaohui,Chen, Fanjun,Mi, Guohua,Zhang, Fusuo,Cai, Hongguang.

[10]Effect of environment and genotype on bread-making quality of spring-sown spring wheat cultivars in China. Zhang, Y,He, ZH,Ye, GY,Aimin, Z,Van Ginkel, M. 2004

[11]Genetic Improvement of Japonica Rice Variety Wuyujing 3 for Stripe Disease Resistance and Eating Quality by Pyramiding Stv-b(i) and Wx-mq. Chen Tao,Wu Hao,Zhang Ya-dong,Zhu Zhen,Zhao Qi-yong,Zhou Li-hui,Yao Shu,Zhao Ling,Yu Xin,Zhao Chun-fang,Wang Cai-lin,Chen Tao. 2016

[12]Genetic improvement and breeding of tea plant (Camellia sinensis) in China: from individual selection to hybridization and molecular breeding. Chen, Liang,Zhou, Zhi-Xiu,Yang, Ya-Jun. 2007

[13]Pedigree-based analysis of derivation of genome segments of an elite rice reveals key regions during its breeding. Zhou, Degui,Wang, Chongrong,Li, Hong,Li, Kanghuo,Zhou, Shaochuan,Chen, Wei,Lin, Zechuan,Chen, Haodong,Yu, Renbo,Zhen, Gang,He, Hang,Deng, Xing Wang,Chen, Wei,Lin, Zechuan,Chen, Haodong,Yu, Renbo,Zhen, Gang,He, Hang,Deng, Xing Wang,Chen, Wei,Chen, Haodong,Yu, Renbo,Zhen, Gang,Tang, Xiaoyan,He, Hang,Deng, Xing Wang,Zhang, Fengyun,Yi, Junliang,Zhou, Shaochuan,Liu, Yaoguang,Terzaghi, William,He, Hang,Deng, Xing Wang.

[14]Genetic gains in grain yield, net photosynthesis and stomatal conductance achieved in Henan Province of China between 1981 and 2008. Xia, X. C.,He, Z. H.,Zheng, T. C.,Yin, G. H.,Wang, L. N.,Han, Y. L.,Huang, F.,Tang, J. W.,Zhang, X. K.,Chen, L.,He, Z. H..

[15]Advances and Developing Tendency of Water Use Efficiency in Plant Biology. Chen Zhao-bo,Chen Zhao-bo,Tang Jiao-wen,Zhang Fu. 2009

[16]Genetic evaluation of a selective breeding program for common carp Cyprinus carpio conducted from 2004 to 2014. Dong, Zaijie,Zhu, Wenbin,Nguyen, Nguyen Hong. 2015

[17]Progress in improving stem lodging resistance of Chinese wheat cultivars. Zhang, Yu,Zhang, Yu,Xu, Weigang,Wang, Huiwei,Fang, Yuhui,Dong, Haibin,Qi, Xueli.

[18]Progress in genetic improvement of grain yield and related physiological traits of Chinese wheat in Henan Province. Zhang, Yu,Zhang, Yu,Xu, Weigang,Wang, Huiwei,Dong, Haibin,Qi, Xueli,Zhao, Mingzhong,Fang, Yuhui,Gao, Chong,Hu, Lin.

[19]Genetic linkage maps of barfin flounder (Verasper moseri) and spotted halibut (Verasper variegatus) based on AFLP and microsatellite markers. Ma, Hongyu,Chen, Songlin,Yang, Jingfeng,Chen, Siqing,Ma, Hongyu,Liu, Hanwen.

[20]Haploid plant production in Zantedeschia aethiopica 'Hong Gan' using anther culture. Zhang, Xiyan,Wu, Qingqing,Li, Xiaolu,Wang, Shimin,Guo, Lihong,Zhang, Lemin,Zhang, Xiyan,Wu, Qingqing,Li, Xiaolu,Wang, Shimin,Guo, Lihong,Zhang, Lemin,Wu, Qingqing,Zheng, Sixiang,Custers, Jan B. M.,Zhang, Xiyan.

作者其他论文 更多>>

微信小程序