[1] 白凤莹, 曾青青, 康宁, 等.毛白杨基因库优树倍性检测及性状对比分析[J].北京林业大学学报, 2015, 37(4):113-119.Bai F Y, Zeng Q Q, Kang N, et al. Ploidy level and contrast analysis of the traits for superior trees of Populus tomentosa Carr. in gene pool[J]. Journal of Beijing Forestry University, 2015, 37(4):113-119.
[2] 康向阳.毛白杨细胞遗传与三倍体选育的研究[D].北京: 北京林业大学, 1996.Kang X Y. Study on cytogenetic and allotriploid breeding of Populus tomentosa[D]. Beijing: Beijing Forestry University, 1996.
[3] Liao T, Cheng S P, Zhu X H, et al. Effects of triploid status on growth, photosynthesis, and leaf area in Populus[J]. Trees, 2016, 30(4):1137-1147. doi: 10.1007/s00468-016-1352-2
[4] Nilsson-Ehle H. Note regarding the gigas form of Populus tremula found in nature[J]. Hereditas, 1936, 21(2-3): 379-382.
[5] 朱之悌, 康向阳, 张志毅.毛白杨天然三倍体选种研究[J].林业科学, 1998, 34(4):22-31. doi: 10.3321/j.issn:1001-7488.1998.04.004Zhu Z T, Kang X Y, Zhang Z Y. Studies on selection of natural triploids of Populus tomentosa[J]. Scientia Silvae Sinicae, 1998, 34(4):22-31. doi: 10.3321/j.issn:1001-7488.1998.04.004
[6] Einspahr D W, Benson M K, Harder M L. Within-tree variation specific gravity of young quaking Aspen[J]. Genetics and Physiology Notes, Institute of Paper Chemistry, 1972, 15(13):8.
[7] 朱之悌, 林惠斌, 康向阳.毛白杨异源三倍体B301等无性系选育的研究[J].林业科学, 1995, 31(6):499-505.Zhu Z T, Lin H B, Kang X Y. Studies on allotriploid breeding of Populus tomentosa B301 clones[J]. Scientia Silvae Sinicae, 1995, 31(6):499-505.
[8] 康向阳.林木多倍体育种研究进展[J].北京林业大学学报, 2003, 25(4):70-74. doi: 10.3321/j.issn:1000-1522.2003.04.015Kang X Y. Advances in researches on polyploid breeding of forest trees[J]. Journal of Beijing Forestry University, 2003, 25(4):70-74. doi: 10.3321/j.issn:1000-1522.2003.04.015
[9] 康向阳.关于杨树多倍体育种的几点认识[J].北京林业大学学报, 2010, 32(5):149-153.Kang X Y. Some understandings on polyploid breeding of poplars[J]. Journal of Beijing Forestry University, 2010, 32(5):149-153.
[10] Ng D W K, Zhang C, Miller M, et al. Proteomic divergence in Arabidopsis autopolyploids and allopolyploids and their progenitors[J]. Heredity, 2012, 108:419-430. doi: 10.1038/hdy.2011.92
[11] Wang S Z, Chen W Y, Yang C D, et al. Comparative proteomic analysis reveals alterations in development and photosynthesis-related proteins in diploid and triploid rice[J]. BMC Plant Biology, 2016, 16(1):199.
[12] Koh J, Chen S X, Zhu N, et al. Comparative proteomics of the recently and recurrently formed natural allopolyploid Tragopogon mirus (Asteraceae) and its parents[J]. New Phytologist, 2012, 196(1): 292-305. doi: 10.1111/j.1469-8137.2012.04251.x
[13] Suo Y J, Dong C B, Kang X Y, et al. Inheritance and variation of cytosine methylation in three Populus allotriploid populations with different heterozygosity[J/OL]. Plos One, 2015, 10(4): e0126491[2017-09-25]. http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0126491.
[14] Suo Y J, Dong C B, Min Y, et al. MicroRNA expression changes following synthesis of three full-sib Populus triploid populations with different heterozygosities[J]. Plant Molecular Biology, 2017, 95(1):215-225.
[15] Cheng S P, Yang J, Liao T, et al. Transcriptomic changes following synthesis of a Populus full-sib diploid and allotriploid population with different heterozygosities driven by three types of 2n female gamete[J]. Plant Molecular Biology, 2015, 89(4-5):493-510. doi: 10.1007/s11103-015-0384-0
[16] Wang J, Li D L, Kang X Y. Induction of unreduced megaspores with high temperature during megasporogenesis in Populus[J]. Annals Forest Science, 2012, 69(1):59-67. doi: 10.1007/s13595-011-0152-5
[17] Dong C B, Suo Y J, Kang X Y. Assessment of the genetic composition of triploid hybrid Populus using SSR markers with low recombination frequencies[J]. Canadian Journal of Forest Research, 2014, 44:692-699. doi: 10.1139/cjfr-2013-0360
[18] Dong C B, Mao J F, Suo Y J, et al. A strategy for characterization of persistent heteroduplex DNA in higher plants[J]. Plant Journal, 2014, 80(2):282-291. doi: 10.1111/tpj.12631
[19] 旻昱, 康宁, 索玉静, 等.毛白杨杂种三倍体的2n雌配子形成途径鉴定[J].北京林业大学学报, 2017, 39(5):17-24.Min Y, Kang N, Suo Y J, et al. Origin identification of 2n female gamete of Populus tomentosa triploid hybrids[J]. Journal of Beijing Forestry University, 2017, 39(5):17-24.
[20] 谢进, 田晓明, 刘淑欣, 等.适用于毛白杨芽双向电泳分析的蛋白质提取方法[J].北京林业大学学报, 2013, 35(4):114-148.Xie J, Tian X M, Liu S X, et al. Optimal protein extracting methods of Populus tomentosa buds for two-dimensional gel electrophoresis[J]. Journal of Beijing Forestry University, 2013, 35(4):144-148.
[21] Bradford M M. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding[J]. Analytical Biochemistry, 1976, 72(1-2):248-254. doi: 10.1016/0003-2697(76)90527-3
[22] Pandey A, Mann M. Proteomics to study genes and genomes[J]. Nature, 2000, 405:837-846. doi: 10.1038/35015709
[23] Thiellement H, Bahrman N, Damerval C, et al. Proteomics for genetic and physiological studies in plants[J]. Electrophoresis, 1999, 20(10):2013-2026. doi: 10.1002/(ISSN)1522-2683
[24] Burstin J, Charcosset A, Barriere Y, et al. Molecular markers and protein quantities as genetic descriptors in maize[J]. Plant Breeding, 1995, 114(5):427-433.
[25] Dong C B, Suo Y J, Wang J, et al. Analysis of transmission of heterozygosity by 2n gametes in Populus (Salicaceae)[J]. Tree Genetics and Genomes, 2015, 11(1):1-7. doi: 10.1007/s11295-014-0804-3
[26] Wang Y, Li Y, Suo Y J, et al. Proteomic changes between Populus allotriploids and diploids revealed using an iTRAQ-based quantitative approach[J]. Current Proteomics, 2017, 14(3):166-174.
[27] 马进, 郑钢, 裴翠明, 等.基于iTRAQ质谱分析技术筛选南方型紫花苜蓿根部响应盐胁迫差异表达蛋白[J].农业生物技术学报, 2016, 24(4): 497-509.Ma J, Zheng G, Pei C M, et al. Screening differentially expressed proteins in southern type alfalfa (Medicago sativa 'Millenium') root upon salt stress by iTRAQ protein mass spectrometry[J]. Journal of Agricultural Biotechnology, 2016, 24(4):497-509.
[28] Smith A M, Zeeman S C, Smith S M. Starch degradation[J]. Annual Review of Plant Biology, 2005, 56(1):73-98.
[29] Qin J, Gu F, Liu D, et al. Proteomic analysis of elite soybean Jidou17 and its parents using iTRAQ-based quantitative approaches[J]. Proteome Science, 2013, 11(1):1-11.
[30] Shen Y, Zhang Y, Zou J, et al. Comparative proteomic study on Brassica hexaploid and its parents provides new insights into the effects of polyploidization[J]. Journal of Proteomics, 2015, 112:274-284. doi: 10.1016/j.jprot.2014.10.006
[31] Dong Y P, Deng M J, Zhao Z L, et al. Quantitative proteomic and transcriptomic study on Autotetraploid paulownia and its diploid parent reveal key metabolic processes associated with paulownia autotetraploidization[J/OL]. Frontier in Plant Science, 2016, 7: 892[2017-08-23].https://www.frontiersin.org/articles/10.3389/fpls.2016.00892/full.