Delhaize E, Ryan P R. Aluminum toxicity and tolerance in plants. Plant Physiology, 1995, 107(2): 315-321. 王晓锋, 罗珍, 刘晓燕, 等. 钙磷对酸铝胁迫后紫花苜蓿-根瘤菌体系结瘤固氮的修复效应. 草业学报, 2012, 21(6): 108-116. Sledge M K, Pechter P, Payton M E. Aluminum tolerance in Medicago truncatula germplasm. Crop Science, 2005, 45(5): 2001-2004. 张芬琴, 于金兰. 铝处理对苜蓿种子萌发及其幼苗生理生化特性的影响. 草业学报, 1999, 8(3): 61-65. 华卫东, 夏卓盛, 李进军, 等. 紫花苜蓿耐铝的分子基础研究进展. 草业科学, 2008, 25(2): 64-68. 邱晓, 张兴兴, 闫雯, 等. 二十七个紫花苜蓿品种耐铝性能评价. 上海交通大学学报(农业科学版), 2010, 28: 269-274. Cook D R. Medicago truncatula - a model in the making!. Current Opinion in Plant Biology, 1999, 2(4): 301-304. Young N D, Udvardi M. Translating Medicago truncatula genomics to crop legumes. Current Opinion in Plant Biology, 2009, 12(2): 193-201. Choi H K, Kim D, Uhm T, et al. A sequence-based genetic map of Medicago truncatula and comparison of marker colinearity with M. sativa. Genetics, 2004, 166(3): 1463-1502. The International HapMap Consortium. The international HapMap project. Nature, 2003, 426: 789-796. Conrad D F, Jakobsson M, Coop G, et al. A worldwide survey of haplotype variation and linkage disequilibrium in the human genome. Nature Genetics, 2006, 38(11): 1251-1260. The International HapMap Consortium. A second generation human haplotype map of over 3.1 million SNPs. Nature, 2007, 449: 851-861. Kaiser J. A plan to capture human diversity in 1000 genomes. Science, 2008, 319: 395. McNally K L, Bruskiewich R, Mackill D, et al. Sequencing multiple and diverse rice varieties. connecting whole-genome variation with phenotypes. Plant Physiology, 2006, 141(1): 26-31. McNally K L, Childs K L, Bohnert R, et al. Genomewide SNP variation reveals relationships among landraces and modern varieties of rice. Proceedings of the National Academy of Sciences USA, 2009, 106(30): 12273-12278. Huang X, Wei X, Sang T, et al. Genome-wide association studies of 14 agronomic traits in rice landraces. Nature Genetics, 2010, 42(11): 961-967. Gore M A, Chia J M, Elshire R J, et al. A first-generation haplotype map of maize. Science, 2009, 326: 1115-1117. Weigel D, Mott R. The 1001 genomes project for Arabidopsis thaliana. Genome Biology, 2009, 10(5): 107. Cao J, Schneeberger K, Ossowski S, et al. Whole-genome sequencing of multiple Arabidopsis thaliana populations. Nature Genetics, 2011, 43(10): 956-963. Branca A, Paape T D, Zhou P, et al. Whole-genome nucleotide diversity, recombination, and linkage disequilibrium in the model legume Medicago truncatula. Proceedings of the National Academy of Sciences USA, 2011, 108(42): E864-E870. Brachi B, Faure N, Horton M, et al. Linkage and association mapping of Arabidopsis thaliana flowering time in nature. PLoS Genetics, 2010, 6(5): e1000940. Kang H M, Zaitlen N A, Wade C M, et al. Efficient control of population structure in model organism association mapping. Genetics, 2008, 178(3): 1709-1723. Thimm O, Blsing O, Gibon Y, et al. MAPMAN: a user-driven tool to display genomics data sets onto diagrams of metabolic pathways and other biological processes. Plant Journal, 2004, 37(6): 914-939. Endelman J B. Ridge regression and other kernels for genomic selection with R package rrBLUP. Plant Genome, 2011, 4(3): 250-255. Famoso A N, Zhao K, Clark R T, et al. Genetic architecture of aluminum tolerance in rice (Oryza sativa) determined through genome-wide association analysis and QTL mapping. PLoS Genetics, 2011, 7(8): e1002221. Krill A M, Kirst M, Kochian L V, et al. Association and linkage analysis of aluminum tolerance genes in maize. PLoS ONE, 2010, 5(4): e9958. Niedziela A, Bednarek P, Cichy H, et al. Aluminum tolerance association mapping in triticale. BMC Genomics, 2012, 13(1): 67. 甘智才, 陈东颖, 张丽, 等. 转柠檬酸合成酶基因苜蓿耐铝性研究. 中国农业科学, 2010, 43(16): 3461-3466. Heslot N, Yang H P, Sorrells M E, et al. Genomic selection in plant breeding: a comparison of models. Crop Science, 2012, 52(1): 146-160. Nakaya A, Isobe S N. Will genomic selection be a practical method for plant breeding. Annals of Botany, 2012, 110(6): 1303-1316.
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