树木木质部细胞凋亡及心材形成机理研究进展
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摘要
概述有关木纤维、管状分子与薄壁细胞等木质部细胞凋亡和心材形成方面的研究成果,探讨木质部细胞凋亡与心材形成之间的信号通路及调控机理,并基于当前研究现状,提出几点建议。
This study summarized the research results on xylem cells such as wood fibers, tracheary elements and parenchyma cells apoptosis and heartwood formation, and discussed the signal pathway and regulation mechanism between xylem cell apoptosis and heartwood formation. Based on the current research status, some suggestions and prospects for further research were proposed.
This study summarized the research results on xylem cells such as wood fibers, tracheary elements and parenchyma cells apoptosis and heartwood formation, and discussed the signal pathway and regulation mechanism between xylem cell apoptosis and heartwood formation. Based on the current research status, some suggestions and prospects for further research were proposed.
引文
[1]张贵友,田瑞华,戴尧仁.植物细胞凋亡的研究进展[J].中国生物工程杂志,2001,21(6):22-27.
[2]刘松龄.木材学[M].长沙:湖南科技出版社.1984:23-24.
[3]徐峰,谢福慧.广西金花茶木材解剖研究[J].广西植物,1989,9(3):249-254.
[4]Jane F W.The structure of wood[M].A.&C.Black,1956:53-55.
[5]Macdougal.D.T.Smith,G.M.Long-lived cells of the Redwood[J].Science,1927,66(1715):456-457.
[6]Funada R.Microtubules and the control of wood formation[M].Plant Microtubules.Springer Berlin Heidelberg,2008:83-119.
[7]Yin Z,Fan R.Uhrastmctural analysis of the differentiation process of secondary xylem vessel element in Populus deltoids[J].Frontiers of Forestry in China,2009,4(4):484-488.
[8]Chen S Y,Yen P L,Chang T C.Distribution of living ray parenchyma cells and major bioactive compounds during the heartwood formation of taiwania cryptomerioides hayata[J].Journal of Wood Chemistry and Technology,2018,38(2):84-95.
[9]Hugh M,Craig B,Schwarze F W M R.The parenchyma of secondary xylem and its critical role in tree defense against fungal decay in relation to the CODIT model[J].Frontiers in Plant Science,2016,(7):1665.
[10]Dayan J,Voronin N,Gong F,et al.Leaf-induced gibberellin signaling is essential for internode elongation,cambial activity,and fiber differentiation in tobacco stems[J].Plant Cell,2012,24(1):66-79.
[11]Smith R A,Schuetz M,Roach M,et al.Neighboring parenchyma cells contribute to Arabidopsisxylem lignification,while lignification of interfascicular fibers iscell autonomous[J].Plant Cell,2013,25(10):3988-3999.
[12]Courtois-Moreau C L,Pesquet E,Sj?din,Andreas,et al.A unique program for cell death in xylem fibers of Populus stem[J].Plant Journal,2009,58(2):260-274.
[13]Nakaba S,Sano Y,Kubo T,et al The positional distribution of cell death of ray parenchyma in a conifer,Abies sachalinensis[J].Plant Cell Reports,2006,25(11):1143-1148.
[14]Nakaba S,Kubo T,Funada R.Differences in patterns of cell death between ray parenchyma cells and ray tracheids in the conifers Pinus densiflora and Pinus rigida[J].Trees,2008,22(5):623-630.
[15]李娜,白兰,郭学民.百日草离体叶肉细胞分化为管状分子概述[J].河北科技师范学院学报,2016,30(4):61-67.
[16]Srivastava L M,Singh A P.Certain aspects of xylem differentiation in corn[J].Canadian Journal of Botany,1972,50(9):1795-1804.
[17]Mittler R,Lam E.In situ detection of nDNA fragmentation during the differentiation of tracheary elements in higher plants[J].Plant Physiology,1995,108(2):489-493.
[18]Pesquet E,Zhang B,Gorzsas A,et al Noncell-autonomous postmortem lignification of tracheary elements in Zinnia elegans[J].Plant Cell,2013,25(4):1314-1328.
[19]Terrazas T,Wheeler E,Wiedenhoeft A,et al IAWA list of microscopic features for softwood identification[J].IAWA Journal,2004,25(1):1-70.
[20]Nakaba S,Kubo T,Funada R.Nuclear DNA fragmentation during cell death of short-lived ray tracheids in the conifer Pinus densiflora[J].Journal of Plant Research,2011,124(3):379-384.
[21]Satoshi N,Joto Y,Takafumi K,et al Morphological changes in the cytoskeleton,nuclei,and vacuoles during cell death of short-lived ray tracheids in the conifer Pinus densiflora[J].Journal of Wood Science,2008,54(6):509-514.
[22]Obara K,Kuriyama H,Fukuda H.Direct evidence of active and rapid nuclear degradation triggered by vacuole rupture during programmed cell death in Zinnia[J].Plant Physiology,2001,125(2):615-626.
[23]陆时万.植物学.上册[M].高等教育出版社,1991:16-18.
[24]Nakaba S,Begum S,Yamagishi Y,et al.Differences in the timing of cell death,differentiation and function among three different types of ray parenchyma cells in the hardwood P.grandidentata[J].Trees,2012,26(3):743-750.
[25]Spicer R,Holbrook N M.Parenchyma cell respiration and survival in secondary xylem:does metabolic activity decline with cell age?[J].Plant Cell&Environment,2010,30(8):934-943.
[26]张蓉.基于DNA的木材鉴别方法初步研究[D].南京:南京林业大学,2015.
[27]徐峰.成熟木材细胞中存在细胞核的研究[J].四川农业大学学报,1998,16(1):122-128.
[28]Chaffey N,Barlow P.The cytoskeleton facilitates a three-dimensional symplasmic continuum in the long-lived ray and axial parenchyma cells of angiosperm trees[J].Planta,2001,213(5):811-823.
[29]Nakaba S,Sano Y,Funada R.Disappearance of microtubules,nuclei an starch during cell death of ray parenchyma in Abies sAchAlinensis[J].IAWA Journal,2013,34(2):135-146.
[30]Hertzberg M,Aspeborg H,Schrader J,et al A transcriptional roadmap to wood formation[J].Proceedings of the National Academy of Sciences of the United States of America,2001,98(25):14732-14737.
[31]Monastyrska I,Rieter E,Klionsky D J,et al Multiple roles of the cytoskeleton in autophagy[J].Biological Reviews,2010,84(3):431-448.
[32]Ketelaar T,Voss C,Dimmock S A,et al.Arabidopsis homologues of the autophagy protein Atg8 are a novel family of microtubule binding proteins[J].Febs Letters,2004,567(2):302-306.
[33]Arakawa I,Funada R,Nakaba S.Changes in the morphology and functions of vacuoles during the death of ray parenchyma cells in Cryptomeria japonica[J].Journal of Wood Science,2018,64(3):177-185.
[34]Frey-Wyssling A,Bosshard H H.Cytology of the ray cells in sapwood and heartwood[J].Holzforschung,1959,13(5):129-137.
[35]Gartner B L,Baker D C,Spicer R.Distribution and vitality of xylem rays in relation to tree leaf area in Douglas-fir[J].Iawa Journal,2000,21(4):389-401.
[36]Yang K C.Survival rate and nuclear irregularity index of sapwood ray parenchyma[J].Canadian Journal of Forest Research,1994,23(4):673-679.
[37]Nobuchi T,Harada H.Ultrastructural changes in parenchyma cells of sugi(Cryptomeria japonica D.Don)associated with heartwood formation[J].Mokuzai Gakkaishi,1985,31(12):965-973.
[38]Ménard,Delphine,Pesquet E.Cellular interactions during tracheary elements formation and function[J].Current Opinion in Plant Biology,2015,23:109-115.
[39]李明月,沈华杰,何海珊,等.白木香解剖构造及抽提物化学成分分析[J].西南林业大学学报,2017,37(5):208-213.
[40]张婵娟,张月婷,徐守楠,等.基于扫描图像法的尾巨桉自由干缩率测定[J].家具,2018,39(6):31-34.
[41]刘建霞,李亚玲,王喜明,等.木材热压干燥过程中内部温度和水蒸气压力的变化规律[J].林产工业,2018,45(4):12-14,21.
[42]高珣,庞久寅.木纤维的定向制备及其几何尺寸对木塑复合材力学性能的影响[J].林产工业,2018,45(7):18-23.
[2]刘松龄.木材学[M].长沙:湖南科技出版社.1984:23-24.
[3]徐峰,谢福慧.广西金花茶木材解剖研究[J].广西植物,1989,9(3):249-254.
[4]Jane F W.The structure of wood[M].A.&C.Black,1956:53-55.
[5]Macdougal.D.T.Smith,G.M.Long-lived cells of the Redwood[J].Science,1927,66(1715):456-457.
[6]Funada R.Microtubules and the control of wood formation[M].Plant Microtubules.Springer Berlin Heidelberg,2008:83-119.
[7]Yin Z,Fan R.Uhrastmctural analysis of the differentiation process of secondary xylem vessel element in Populus deltoids[J].Frontiers of Forestry in China,2009,4(4):484-488.
[8]Chen S Y,Yen P L,Chang T C.Distribution of living ray parenchyma cells and major bioactive compounds during the heartwood formation of taiwania cryptomerioides hayata[J].Journal of Wood Chemistry and Technology,2018,38(2):84-95.
[9]Hugh M,Craig B,Schwarze F W M R.The parenchyma of secondary xylem and its critical role in tree defense against fungal decay in relation to the CODIT model[J].Frontiers in Plant Science,2016,(7):1665.
[10]Dayan J,Voronin N,Gong F,et al.Leaf-induced gibberellin signaling is essential for internode elongation,cambial activity,and fiber differentiation in tobacco stems[J].Plant Cell,2012,24(1):66-79.
[11]Smith R A,Schuetz M,Roach M,et al.Neighboring parenchyma cells contribute to Arabidopsisxylem lignification,while lignification of interfascicular fibers iscell autonomous[J].Plant Cell,2013,25(10):3988-3999.
[12]Courtois-Moreau C L,Pesquet E,Sj?din,Andreas,et al.A unique program for cell death in xylem fibers of Populus stem[J].Plant Journal,2009,58(2):260-274.
[13]Nakaba S,Sano Y,Kubo T,et al The positional distribution of cell death of ray parenchyma in a conifer,Abies sachalinensis[J].Plant Cell Reports,2006,25(11):1143-1148.
[14]Nakaba S,Kubo T,Funada R.Differences in patterns of cell death between ray parenchyma cells and ray tracheids in the conifers Pinus densiflora and Pinus rigida[J].Trees,2008,22(5):623-630.
[15]李娜,白兰,郭学民.百日草离体叶肉细胞分化为管状分子概述[J].河北科技师范学院学报,2016,30(4):61-67.
[16]Srivastava L M,Singh A P.Certain aspects of xylem differentiation in corn[J].Canadian Journal of Botany,1972,50(9):1795-1804.
[17]Mittler R,Lam E.In situ detection of nDNA fragmentation during the differentiation of tracheary elements in higher plants[J].Plant Physiology,1995,108(2):489-493.
[18]Pesquet E,Zhang B,Gorzsas A,et al Noncell-autonomous postmortem lignification of tracheary elements in Zinnia elegans[J].Plant Cell,2013,25(4):1314-1328.
[19]Terrazas T,Wheeler E,Wiedenhoeft A,et al IAWA list of microscopic features for softwood identification[J].IAWA Journal,2004,25(1):1-70.
[20]Nakaba S,Kubo T,Funada R.Nuclear DNA fragmentation during cell death of short-lived ray tracheids in the conifer Pinus densiflora[J].Journal of Plant Research,2011,124(3):379-384.
[21]Satoshi N,Joto Y,Takafumi K,et al Morphological changes in the cytoskeleton,nuclei,and vacuoles during cell death of short-lived ray tracheids in the conifer Pinus densiflora[J].Journal of Wood Science,2008,54(6):509-514.
[22]Obara K,Kuriyama H,Fukuda H.Direct evidence of active and rapid nuclear degradation triggered by vacuole rupture during programmed cell death in Zinnia[J].Plant Physiology,2001,125(2):615-626.
[23]陆时万.植物学.上册[M].高等教育出版社,1991:16-18.
[24]Nakaba S,Begum S,Yamagishi Y,et al.Differences in the timing of cell death,differentiation and function among three different types of ray parenchyma cells in the hardwood P.grandidentata[J].Trees,2012,26(3):743-750.
[25]Spicer R,Holbrook N M.Parenchyma cell respiration and survival in secondary xylem:does metabolic activity decline with cell age?[J].Plant Cell&Environment,2010,30(8):934-943.
[26]张蓉.基于DNA的木材鉴别方法初步研究[D].南京:南京林业大学,2015.
[27]徐峰.成熟木材细胞中存在细胞核的研究[J].四川农业大学学报,1998,16(1):122-128.
[28]Chaffey N,Barlow P.The cytoskeleton facilitates a three-dimensional symplasmic continuum in the long-lived ray and axial parenchyma cells of angiosperm trees[J].Planta,2001,213(5):811-823.
[29]Nakaba S,Sano Y,Funada R.Disappearance of microtubules,nuclei an starch during cell death of ray parenchyma in Abies sAchAlinensis[J].IAWA Journal,2013,34(2):135-146.
[30]Hertzberg M,Aspeborg H,Schrader J,et al A transcriptional roadmap to wood formation[J].Proceedings of the National Academy of Sciences of the United States of America,2001,98(25):14732-14737.
[31]Monastyrska I,Rieter E,Klionsky D J,et al Multiple roles of the cytoskeleton in autophagy[J].Biological Reviews,2010,84(3):431-448.
[32]Ketelaar T,Voss C,Dimmock S A,et al.Arabidopsis homologues of the autophagy protein Atg8 are a novel family of microtubule binding proteins[J].Febs Letters,2004,567(2):302-306.
[33]Arakawa I,Funada R,Nakaba S.Changes in the morphology and functions of vacuoles during the death of ray parenchyma cells in Cryptomeria japonica[J].Journal of Wood Science,2018,64(3):177-185.
[34]Frey-Wyssling A,Bosshard H H.Cytology of the ray cells in sapwood and heartwood[J].Holzforschung,1959,13(5):129-137.
[35]Gartner B L,Baker D C,Spicer R.Distribution and vitality of xylem rays in relation to tree leaf area in Douglas-fir[J].Iawa Journal,2000,21(4):389-401.
[36]Yang K C.Survival rate and nuclear irregularity index of sapwood ray parenchyma[J].Canadian Journal of Forest Research,1994,23(4):673-679.
[37]Nobuchi T,Harada H.Ultrastructural changes in parenchyma cells of sugi(Cryptomeria japonica D.Don)associated with heartwood formation[J].Mokuzai Gakkaishi,1985,31(12):965-973.
[38]Ménard,Delphine,Pesquet E.Cellular interactions during tracheary elements formation and function[J].Current Opinion in Plant Biology,2015,23:109-115.
[39]李明月,沈华杰,何海珊,等.白木香解剖构造及抽提物化学成分分析[J].西南林业大学学报,2017,37(5):208-213.
[40]张婵娟,张月婷,徐守楠,等.基于扫描图像法的尾巨桉自由干缩率测定[J].家具,2018,39(6):31-34.
[41]刘建霞,李亚玲,王喜明,等.木材热压干燥过程中内部温度和水蒸气压力的变化规律[J].林产工业,2018,45(4):12-14,21.
[42]高珣,庞久寅.木纤维的定向制备及其几何尺寸对木塑复合材力学性能的影响[J].林产工业,2018,45(7):18-23.
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