Research Progress on the Regulation of Telomeres in Plant Senescence

doi:10.11733/j.issn.1007-0435.2022.11.003

Acta Agrestia Sinica ›› 2022, Vol. 30 ›› Issue (11): 2865-2874.DOI: 10.11733/j.issn.1007-0435.2022.11.003

Research Progress on the Regulation of Telomeres in Plant Senescence

SUN Shou-jiang, SUN Ming, MA Wen, LI Man-li, MAO Pei-sheng

College of Grassland Science and Technology, China Agricultural University, Beijing 100193, China

Received:2022-08-30 Revised:2022-09-13 Published:2022-12-02

染色体端粒与植物衰老及调控研究进展

孙守江, 孙铭, 马馼, 李曼莉, 毛培胜

中国农业大学草业科学与技术学院/草业科学北京市重点实验室, 北京 100193

通讯作者: 毛培胜,E-mail:maops@cau.edu.cn
作者简介:孙守江(1990-)，男，汉族，甘肃景泰人，博士研究生，E-mail:931620185@qq.com
基金资助:
国家自然科学基金面上项目(31971754)；现代农业产业技术体系(CARS-34)；草业科学北京市重点实验室共建项目资助

Abstract

Abstract: Plant senescence has a great impact on agricultural production. Premature senescence of crops leads to a decrease in yield,and premature senescence of forages leads to a decrease in grassland productivity,which limits the development of the grass industry. Deeply revealing the characteristics and regulatory mechanisms of plant senescence is not only of great value to clarify the ecological adaptability and population stability of plants but also of great practical significance to the selection of anti-aging technologies and regulatory measures. Plant senescence is a relatively complex process,which is determined by internal genetic factors and the external environment. This study summarizes the concept,research history,and plant senescence theory of plant senescence,focuses on the telomere theory of plant senescence,and summarizes the research progress of telomere in plant senescence,so as to provide a theoretical reference for the follow-up analysis of plant senescence mechanism from the perspective of telomere system.

Key words: Plant senescence, Telomere length, Telomerase activity, Regulation of plant senescence

摘要： 植物衰老在农业生产中产生巨大的影响，牧草提前衰老导致草地生产力下降，限制草产业的发展。深入揭示植物衰老特性和调控机制，不仅对于阐明植物生态适应性及种群稳定性具有重要价值，而且对于延缓衰老技术和调控措施的选择具有重要实践意义。植物衰老是一个相对复杂的过程，由内部遗传因子和外部环境共同决定。本文综述了植物衰老的概念、研究历史和植物衰老学说，重点论述了植物衰老的端粒学说，并总结了端粒在植物衰老中的研究进展，以为后续从端粒系统角度解析植物衰老机理提供理论参考依据。

关键词: 植物衰老, 端粒长度, 端粒酶活性, 植物衰老调控

CLC Number:

Q345+.22

SUN Shou-jiang, SUN Ming, MA Wen, LI Man-li, MAO Pei-sheng. Research Progress on the Regulation of Telomeres in Plant Senescence[J]. Acta Agrestia Sinica, 2022, 30(11): 2865-2874.

孙守江, 孙铭, 马馼, 李曼莉, 毛培胜. 染色体端粒与植物衰老及调控研究进展[J]. 草地学报, 2022, 30(11): 2865-2874.

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References

[1] THIMANN K V. Senescence in Plants[M]. Florda:CRC Press,Boca Raton,1978:3
[2] QIAN Y,CAO L,ZHANG Q,et al. SMRT and Illumina RNA Sequencing Reveal Novel Insights into the Heat Stress Response and Crosstalk with Leaf Senescence in Tall Fescue[J]. BMC Plant Biology,2020,20(1):1-19
[3] 张嵩午. 小麦叶片的逆向衰老[J]. 中国农业科学,2010,43(11):2229-2231
[4] YANG J,WORLEY E,TORRES-JEREZ I,et al. PvNAC1 and PvNAC2 are Associated with Leaf Senescence and Nitrogen Use Efficiency in Switchgrass[J]. BioEnergy Research,2015,8(2):868-880
[5] XIE Z,YU G,LEI S,et al. STRONG STAYGREEN Inhibits DNA Binding of PvNAP Transcription Factors During Leaf Senescence in Switchgrass[J]. Plant Physiology,2022,190(3):2045-2058
[6] YU G,XIE Z,LEI S,et al. The NAC Factor LpNAL Delays Leaf Senescence by Repressing Two Chlorophyll Catabolic Genes in Perennial Ryegrass[J]. Plant Physiology,2022,189(2):595-610
[7] EBERHARD S,VALUCHOVA S,RAVAT J,et al. Molecular Characterization of Chlamydomonas Reinhardtii Telomeres and Telomerase Mutants[J]. Life science alliance,2019,2(3):896-996
[8] FLANARY B E,KLETETSCHKA G. Analysis of Telomere Length and Telomerase Activity in Tree Species of Various Lifespans,and with Age in the Bristlecone Pine Pinus longaeva[J]. Biogerontology,2005,6(2):101-111
[9] 刘頔,宋涵,李凤兰,等. 植物端粒与端粒酶研究进展[J]. 北京林业大学学报,2010,32 (5):163-167
[10] LEOPOLD A C. Aging,Senesence and Turnover in Plants[J]. Bioscience,1975,25:659-662
[11] LEOPOLD A C. Senescence in Plant Development:The Death of Plants or Plant Parts May be of Positive Ecological or Physiological Value[J]. Science,1961,134:1727-1732
[12] BEHFAR Q,ZUNIGA A R,MARTINO-ADAMI P V. Aging,Senescence,and Dementia[J]. The Journal of Prevention of Alzheimer's Disease,2022,9(3):523-531
[13] 宝蕊. 植物衰老与老化[J]. 硅谷,2009(8):5
[14] 张丹词. 干旱胁迫对紫花苜蓿叶片衰老的影响[D]. 广州:仲恺农业工程学院,2017:12
[15] 贾志锋,马祥,琚泽亮,等. 氮肥和种植密度对燕麦叶片衰老特性及细胞结构的影响[J]. 草地学报,2021,29(1):80-87
[16] 赵思涵. 红三叶叶片衰老生理生化及转录组分析[D]. 北京:北京林业大学,2019:60
[17] 周玲芳,尚骁尧,张铁军,等. 蒺藜苜蓿(Medicago truncatula)叶片衰老的转录组分析[J]. 草地学报,2021,29(10):2158-2168
[18] MOLISCH H,DER LEBENSDAWER DERPFEAMZE. The Longevity of plants[M]. New York:Translator,Science Press Printing Co.,1938:23
[19] WOOLHOUSE H W. The Biochemistry and Regulation of Senescence in Chloroplasts[J]. Canadian Journal of Botany,1984,62(12):2934-2942
[20] FLANARY B E,KLETETSCHKA G. Analysis of Telomere Length and Telomerase Activity in Tree Species of Various Life-spans,and with Age in the Bristlecone Pine Pinus longaeva[J]. Biogerontology,2005,6(2):101-111
[21] SADE N,RUBIO-WILHELMI M D,UMNAJKITIKORN K,et al. Stress-induced Senescence and Plant Tolerance to Abiotic stress[J]. Journal of Experimental Botany,2018,69(4):845-853
[22] ORGEL L E. The Maintenance of the Accuracy of Protein Synthesis and Its Relevance to Aging[J]. Proceedings of the National Academy of Sciences of the United States of America,1963,49:517-521
[23] 赵保路. 自由基、营养、天然抗氧化剂与衰老[J]. 生物物理学报,2010,26(1):26-36
[24] 王虹,姜玉萍,师恺,等. 光质对黄瓜叶片衰老与抗氧化酶系统的影响[J]. 中国农业科学,2010,43(3):529-534
[25] 陈睿. 植物衰老机理研究进展探讨[J]. 绿色科技,2012(5):6-9
[26] 刘碧容,甄畅迪,萧洪东,等. 硼对草坪草超氧化物歧化酶活性、超氧阴离子产生速率和丙二醛含量的影响[J]. 华中农业大学学报,2008(3):378-381
[27] 王时雨,李明华,薛姗姗,等. 氮氧自由基的应用研究进展[J]. 化学通报,2017,80(11):1002-1008
[28] 胡艳红,张凡,张楚焌,等. 程序性细胞死亡形式研究进展[J]. 辽宁中医药大学学报,2018,20(12):85-89
[29] 周建平. 植物衰老相关基因的克隆与分析[D]. 成都:电子科技大学,2007:23
[30] DELORME V G R,MCCABE P F,KIM D J,et al. A Matrix Metalloproteinase Gene is Expressed at the Boundary of Senescence and Programmed Cell Death in Cucumber[J]. Plant physiology,2000,123(3):917-928
[31] OLOVNIKOV A M. A Theory of Marginotomy:The Incomplete Copying of Template Margin in Enzymic Synthesis of Polynucleotides and Biological Significance of the Phenomenon[J]. Journal of theoretical biology,1973,41(1):181-190
[32] 郭曼,欧阳芳茜,王玉刚. 端粒和端粒酶与衰老研究[J]. 生命科学研究,2006(S3):30-36
[33] 营孙阳,熊加秀,麦洪旭,等. 端粒酶调控研究进展[J]. 遗传,2016,38(4):289-299
[34] VAISERMAN A,KRASNIENKOV D. Telomere Length as a Marker of Biological Age:State-of-the-Art,Open Issues,and Future Perspectives[J]. Frontiers in Genetics,2021,11:630186
[35] POLYAKOV A Y,TIETJE W D,SRIVATHSA A,et al. Multiple Coping Strategies Maintain Stability of a Small Mammal Population in a Resource-restricted Environment[J]. Ecology and Evolution,2021,11(18):12529-12541
[36] MULLER H L. The Diagnosis and Treatment of Craniopharyngioma[J]. Neuroendocrinology,2020,110(9):753-766
[37] WATSON J D, CRICK F. Molecular Structure of Nucleic Acids:A Structure for Deoxyribose Nucleic Acid[J]. Nature, 1974, 248(5451):737-738
[38] HARLEY C B,FUTCHER A B, GREIDER C W. Telomeres Shorten during Ageing of Human Fibroblasts[J]. Nature,1990,345(6274):458-460
[39] BLACKBURN E,GREIDER C, SZOSTAK J. Telomeres and Telomerase:The Path From Maize,Tetrahymena and Yeast to Human Cancer and Aging[J]. Nature Medicine,2006,12:1133-1138
[40] 赵明. 端粒和端粒酶在植物生长发育中的调控作用[J]. 生物学通报,2005(10):52-54
[41] 张迎春. 人参皂苷调控植物干细胞活性和端粒长度的研究[D]. 北京:中国中医科学院,2015:96
[42] FLANARY B E,SAMMONS N W,NGUYEN C,et al. Evidence That Aging anf Amyloid Promote Microglial Cell Senescence[J]. Rejuvenation Research,2007,10(1):61-74
[43] 慕莹,赵晓燕,景丹龙,等.银杏不同组织器官及愈伤组织培养中端粒酶活性[J]. 北京林业大学学报,2014,36(3):95-99
[44] SONG H,LIU D,LI F,et al. Season-and Age-associated Telomerase Activity in Ginkgo biloba[J]. Molecular Biology Reports,2011,38:1799-1805
[45] 郑广顺. 古树快繁及端粒长度与树木年龄关系的研究[D]. 北京:北京林业大学,2012:36
[46] FOJTOVÁ M,FULNEČKOVÁ J,FAJKUS J,et al. Recovery of Tobacco Cells from Cadmium Stress is Accompanied by DNA Repair and Increased Telomerase Activity[J]. Journal of Experimental Botany,2002,53(378):2151-2158
[47] 吴晓飞,王瑾瑜,张徐俞,等. 盐胁迫下胡杨和合作杨悬浮细胞端粒酶与抵御氧化损伤的关系[J]. 生物技术通报,2017,33(8):111-119
[48] 王瑾瑜,张徐俞,王雅群,等. 用改进的TRAP法测定树木端粒酶活性[J]. 应用与环境生物学报,2012,18(4):682-686
[49] LIU D,QIAO N,SONG H,et al. Comparative Analysis of Telomeric Restriction Fragment Lengths in Different Tissues of Ginkgo biloba Trees of Different Age[J]. Journal of Plant Research,2007,120(4):523-528
[50] FITZGERALD M S,RIHA K,GAO F,et al. Disruption of the Telomerase Catalytic Subunit Gene from Arabidopsis Inactivates Telomerase and Leads to a Slow Loss of Telomeric DNA[J]. Proceedings of the National Academy of Sciences of the United States of America,1999,96(26):14813-14818
[51] 秦宏伟. 植物衰老机理研究进展[J]. 生物学教学,2007(7):10-12
[52] 陈昆松,张上隆,Gavin S. Ross. β-半乳糖苷酶基因在猕猴桃果实成熟过程的表达[J]. 植物生理与分子生物学学报,2000,26(2):117-122
[53] BRESSON J,BIEKER S,RIESTER L,et al. A Guideline for Leaf Senescence Analyses:From Quantification to Physiological and Molecular Investigations[J]. Journal of Experimental Botany,2018,69(4):769-786
[54] AVICE J C,ETIENNE P. Leaf Senescence and Nitrogen Remobilization Efficiency in Oilseed Rape (Brassica napus L.)[J]. Journal of Experimental Botany,2014,65(14):3813-3824
[55] WATANABE M,BALAZADEH S,TOHGE T,et al. Comprehensive Dissection of Spatiotemporal Metabolic Shifts in Primary,Secondary,and Lipid Metabolism during Developmental Senescence in Arabidopsis[J]. Plant physiology,2013,162(3):1290-1310
[56] LÓPEZ-JUÁREZ Z M,AGUILAR-HENONIN L,GUZMÁN P. The ATXN2 Orthologs CID3 and CID4,Act Redundantly to In-Fluence Developmental Pathways throughout the Life Cycle of Arabidopsis thaliana[J]. International journal of molecular sciences,2021,22(6):3068
[57] LIM P O,KIM H J,GIL NAM H. Leaf Senescence[J]. Annual Review of Plant Biology,2007,58:115-136
[58] KIM N W,WU F. Advances in Quantification and Characterization of Telomerase Activity by the Telomeric Repeat Amplification Protocol (TRAP)[J]. Nucleic Acids Research,1997,25(13):2595-2597
[59] THOMPSON C A H,WONG J M Y. Non-canonical Functions of Telomerase Reverse Transcriptase:Emerging Roles and Biological Relevance[J]. Current Topics in Medicinal Chemistry,2020,20(6):498-507
[60] CHIODI I,MONDELLO C. Telomere-independent Functions of Telomerase in Nuclei,Cytoplasm,and Mitochondria[J]. Frontiers in oncology,2012,2:133

Research Progress on the Regulation of Telomeres in Plant Senescence

染色体端粒与植物衰老及调控研究进展

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