[1] Steele K P, Ickert-Bond S M, Zarre S, et al . Phylogeny and character evolution in Medicago (Leguminosae): Evidence from analyses of plastid trnK/matK and nuclear GA3ox1 sequences. American Journal of Botany, 2010, 97(7): 1142-1155. [2] Brummer E C, Bouton J H, Kochert G. Analysis of annual Medicago species using RAPD markers. Genome, 1995, 38(2): 362-367. [3] Chen A M, Lian R L, Sun J, et al . Leguminous model plant- Medicago truncatula . Plant Physiology Communications, 2006, 42(5): 997-1003. 陈爱民, 连瑞丽, 孙杰, 等. 豆科模式植物——蒺藜苜蓿. 植物生理学报, 2006, 42(5): 997-1003. [4] Wei Z W, Gai J Y. Model legume: Medicago truncatula . Acta Prataculturae Sinica, 2008, 17(1): 114-120. 魏臻武, 盖钧镒. 豆科模式植物——蒺藜苜蓿. 草业学报, 2008, 17(1): 114-120. [5] Young N D, Cannon S B, Sato S, et al . Sequencing the genespaces of Medicago truncatula and Lotus japonicus . Plant Physiology, 2005, 137(4): 1174-1181. [6] 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. [7] Gupta S, Prasad M. Development and characterization of genic SSR markers in Medicago truncatula and their transferability in leguminous and non-leguminous species. Genome, 2009, 52(9): 761-771. [8] Gupta D, Taylor P W J, Inder P, et al . Integration of EST-SSR markers of Medicago truncatula into intraspecific linkage map of lentil and identification of QTL conferring resistance to ascochyta blight at seedling and pod stages. Molecular Breeding, 2012, 30(1): 429-439. [9] Feng Y Q, Cao Z Z. Advanced studies on Medicago lupulina utilization. Pratacultural Science, 2005, 22(2): 16-20. 冯毓琴, 曹致中. 天蓝苜蓿栽培利用的研究进展. 草业科学, 2005, 22(2): 16-20. [10] Hively W D, Cox W J. Interseeding cover crops into soybean and subsequent corn yields. Agronomy Journal, 2001, 93(2): 308-313. [11] Feng Y Q, Cao Z Z, Jin J F. Analysis on Correlation Traits Affecting Single Yield of Medicago lupulina L[C]. Hohhot: The Second Conference of The Chinese Society of Grass and The International Symposium, 2004. 冯毓琴, 曹致中, 金巨芳. 影响天蓝苜蓿单株产量诸因素的相关性分析[C]. 呼和浩特: 中国草学会二次会议暨国际学术研讨会, 2004. [12] Bullitta S, Floris R, Hayward M D, et al . Morphological and biochemical variation in Sardinian populations of Medicago polymorpha L. suitable for rainfed Mediterranean conditions . Euphytica, 1994, 77(3): 263-268. [13] Khaef N, Sadeghi H, Taghvaei M. Effects of new strategies for breaking dormancy of two annual medics ( Medicago scutellata and Medicago polymorpha ). American-Eurasian Journal of Agricultural and Environmental Sciences, 2011, 11: 626-632. [14] Denton M D, Hill C R, Bellotti W D, et al . Nodulation of Medicago truncatula and Medicago polymorpha in two pastures of contrasting soil pH and rhizobial populations. Applied Soil Ecology, 2007, 35(2): 441-448. [15] Nichols P G H, Loi A, Nutt B J, et al . New annual and short-lived perennial pasture legumes for Australian agriculture-15 years of revolution. Field Crops Research, 2007, 104(1): 10-23. [16] Graziano D, Di Giorgio G, Ruisi P, et al . Variation in pheno-morphological and agronomic traits among burr medic ( Medicago polymorpha L.) populations collected in Sicily, Italy. Crop and Pasture Science, 2010, 61(1): 59-69. [17] Ewing M A, Robson A D. The effect of nitrogen supply on the early growth and nodulation of several annual Medicago species. Crop and Pasture Science, 1990, 41(3): 489-497. [18] Loi A, Howieson J G, Cocks P S, et al . The adaptation of Medicago polymorpha to a range of edaphic and environmental conditions: effect of temperature on growth, and acidity stress on nodulation and nod gene induction. Animal Production Science, 1993, 33(1): 25-30. [19] Scarpa G M, Pupilli F, Damiani F, et al . Plant regeneration from callus and protoplasts in Medicago polymorpha . Plant Cell, Tissue and Organ Culture, 1993, 35(1): 49-57. [20] Wang J, Luo M C, Chen Z, et al . Aegilops tauschii single nucleotide polymorphisms shed light on the origins of wheat D-genome genetic diversity and pinpoint the geographic origin of hexaploid wheat. New Phytologist, 2013, 198(3): 925-937. [21] Kumar S, Banks T W, Cloutier S. SNP discovery through next-generation sequencing and its applications. International Journal of Plant Genomics, 2012, doi:10.1155/2012/831460. [22] Etter P D, Bassham S, Hohenlohe P A, et al . SNP discovery and genotyping for evolutionary genetics using RAD sequencing. Molecular Methods for Evolutionary Genetics, 2011, 772: 157-178. [23] Sun X, Liu D, Zhang X, et al . SLAF-seq: an efficient method of large-scale de novo SNP discovery and genotyping using high-throughput sequencing. PLoS One, 2013, 8(3): e58700. [24] Zhang Y, Wang L, Xin H, et al . Construction of a high-density genetic map for sesame based on large scale marker development by specific length amplified fragment (SLAF) sequencing. BMC Plant Biology, 2013, 13(1): 141. doi:10.1186/1471-2229-13-141. [25] Li B, Tian L, Zhang J, et al . Construction of a high-density genetic map based on large-scale markers developed by specific length amplified fragment sequencing (SLAF-seq) and its application to QTL analysis for isoflavone content in Glycine max . BMC Genomics, 2014, 15(1):1086. doi:10.1186/1471-2164-15-1086. [26] Wei Q, Wang Y, Qin X, et al . An SNP-based saturated genetic map and QTL analysis of fruit-related traits in cucumber using specific-length amplified fragment (SLAF) sequencing. BMC Genomics, 2014, 15(1): 1158. doi:10.1186/1471-2164-15-1158. [27] Su W J, Zhao N, Lei J, et al . SNP sites developed by specific length amplification fragment sequencing (SLAF-seq) in sweet potato. Scientia Agricultura Sinica, 2016, 49(1): 27-34. 苏文瑾, 赵宁, 雷剑, 等. 基于SLAF-seq技术的甘薯SNP位点开发. 中国农业科学, 2016, 49(1): 27-34. [28] Murray M G, Thompson W F. Rapid isolation of high molecular weight plant DNA. Nucleic Acids Research, 1980, 8(19): 4321-4326. [29] Lu X S. The exploration and classification of genetic resources of genus Medicago in China. Chinese Journal of Grassland, 2009, 31(5): 17-22. 卢欣石. 中国苜蓿属植物遗传资源分类整理探究. 中国草地学报, 2009, 31(5): 17-22. [30] Deng C H, Cui D F, Yang H J, et al . Studies on morphological characters and numerical classification of Medicago L. and Trigonella L. species. Journal of Plant Resources and Environment, 2010, 19(4): 1-11. 邓超宏, 崔大方, 羊海军, 等. 苜蓿属和胡卢巴属植物的形态特征及数量分类研究. 植物资源与环境学报, 2010, 19(4): 1-11. [31] Lu X S. Status of germplasm classifications for genus Medicago . Acta Agrestia Sinica, 2009, 17(5): 680-685. 卢欣石. 苜蓿属植物分类研究进展分析. 草地学报, 2009, 17(5): 680-685. [32] Yoder J B, Briskine R, Mudge J, et al . Phylogenetic signal variation in the genomes of Medicago (Fabaceae). Systematic Biology, 2013, 62(3): 424-438. [33] Hannachi A S, Boussaid M, Marrakchi M. Genetic variability organisation and gene flow in natural populations of Medicago polymorpha L. prospected in Tunisia. Genetics Selection Evolution, 1998, 30(1): 121-135. [34] Paredes M, Becerra V, Correa P, et al . Isozymatic diversity in accesions of Medicago polymorpha collected along an environmental gradient in Chile, and its relationship with other species of Medicago . Revista Chilena de Historia Natural, 2000, 73(3): 479-488. [35] Paredes M, Becerra V, Rojo C, et al . Ecotypic differentiation in Medicago polymorpha L. along an environmental gradient in central Chile. RAPDs studies show little genetic divergence. Euphytica, 2002, 123(3): 431-439. [36] Chu H J, Yan J, Hu Y, et al . Cross-species amplification of 92 microsatellites of Medicago truncatula . Molecular Ecology Resources, 2010, 10(1): 150-155. [37] Thoquet P, Ghérardi M, Journet E P, et al . The molecular genetic linkage map of the model legume Medicago truncatula : an essential tool for comparative legume genomics and the isolation of agronomically important genes. BMC Plant Biology, 2002, 2(2): 385-391. [38] Li X, Wei Y, Acharya A, et al . A saturated genetic linkage map of autotetraploid alfalfa ( Medicago sativa L.) developed using genotyping-by-sequencing is highly syntenous with the Medicago truncatula genome. G3: Genes|Genomes|Genetics, 2014, 4(10): 1971-1979. [39] Zhao J R. Study on Cross-species Markers Related to Disease Resistance Between Soybean and Medicago truncatula [D]. Nanning: Guangxi University, 2007. 赵金荣. 大豆与豆科模式物种蒺藜苜蓿间与抗病相关的穿梭标记研究[D]. 南宁: 广西大学, 2007. [40] Bena G, Prosperi J M, Lejeune B, et al . Evolution of annual species of the genus Medicago : a molecular phylogenetic approach. Molecular Phylogenetics & Evolution, 1998, 9(3): 552-559. |