[1] |
崔克明.植物发育生物学[M]. 北京:北京大学出版社,2007 |
[2] |
Du S, Yamamoto F. An overview of the biology of reaction wood formation [J]. Journal of Integrative Plant Biology, 2007, 49(2): 131-143 |
[3] |
崔克明. 木质部细胞分化的程序 [J].西北植物学报, 2006, 26(8):1735-1748 |
[4] |
Koutaniemi S, Warinowski T, Karkonen A, et al. Expression profiling of the lignin biosynthetic pathway in Norway spruce using EST sequencing and real-time RT-PCR[J].Plant Molecular Biology,2007,65(3): 311-328 |
[5] |
Saori Yamashita, Masato Yoshida, Hiroyuki Yamamoto, et al.Screening genes that change expression during compression wood formation in Chamaecyparis obtuse[J].Tree Physiology,2008,28(9): 1331-1340 |
[6] |
Yamashita S, Yoshida M, Yamamoto H. Relationship between development of compression wood and gene expression[J].Plant Science,2009,176:729-735 |
[7] |
Plomion C, Pionneau C, Brach J, et al.Compression wood-responsive proteins in developing xylem of maritime pine (Pinus pinaster Ait.)[J].Plant Physiol,2000,123:959-969 |
[8] |
Mast S, Peng L, Jordan T W, et al. Proteomic analysis of membrane preparations from developing Pinus radiate compression wood [J]. Tree Physiology,2010,30(11):1456-1468 |
[9] |
Yeh T, Morris C, Goldfarb B, et al. Utilization of polar metabolite profiling in the comparison of juvenile wood and compression wood in loblolly pine (Pinus taeda)[J].Tree Physiology, 2010,269(11): 1497-1503 |
[10] |
石江涛, 李 坚. 红松正常木与应力木木材形成组织中极性代谢物对比分析 [J].北京林业大学学报, 2011, 33(6): 196-200 |
[11] |
Iiyama K, Wallis A F A. An improved acetyl bromide procedure for determining lignin in woods and wood pulps [J]. Wood Science and Technology, 1988, 22:271-280 |
[12] |
Foster C E, Martin T M, Pauly M. Comprehensice compositional analysis of plant cell walls (Lignocellulosic biomass) part I [J]. Lignin, 2010, 37(10) :3791-1745 |
[13] |
陈钧辉.生物化学实验[M]. 北京: 科学出版社,2003 |
[14] |
Lisec J, Schauer N, Kopka J, et al. Gas chromatography mass spectrometry-based metabolite profiling in plants [J]. Nature Protocols, 2006 (1): 387-396 |
[15] |
Nicolas S, Steinhauser D, Strelkov S, et al. GC-MS libraries for the rapid identification of metabolites in complex biological samples [J]. FEBS Letters, 2005, 579: 1332-1337 |
[16] |
Vanhaverbeke D E, Barber J C. Less growth and no increased flowering from changing slash Pine branch angle[J]. Southeast Forestry Experimental Sta., Researh Note. 1961, 167: 2 |
[17] |
Sinnott E W. Reaction wood and the regulation of tree form[J]. Amer J Bot, 1952, 39: 69-78 |
[18] |
刘亚梅. 人工倾斜树干应力木形成机理研究 . 合肥:安徽农业大学,2010, 18-19 |
[19] |
李 坚.木材波谱学[M].北京:科学出版社,2003 |
[20] |
秦特夫,黄洛华, 李改云.慈竹,毛竹木质素的化学官能团和化学键特征研究[J].北京林业大学学报,2010,32(3):161-165 |
[21] |
Donaldson L A, Grace J C, Downes G. Within tree variation in anatomical properties of compression wood in radiata Pine [J]. IAWA J, 2004, 25: 253-271 |
[22] |
Déjardin A, Leplé J C,Lesage-Descauses M C, et al. Expressed sequence tags from poplar wood tissues—a comparative analysis from multiple libraries [J]. Plant Biology, 2004, 6: 55-64 |
[23] |
Whetten R, Sun Y H, Zhang Y, et al. Functional genomics and cell wall biosynthesis in loblolly pine [J]. Plant Molecular Biology, 2001, 47: 275-291 |
[24] |
Zhang Y, Sederoff R R, Allona I. Differential expression of genes encoding cell wall proteins in vascular tissues from vertical and bent loblolly Pine trees [J]. Tree Physiol, 2000, 20: 457-466 |