种子耐贮藏性生理机制和遗传机制研究进展
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摘要
综述了种子耐贮藏的生理机制(脂肪氧化酶、抗氧化酶和非酶类抗氧化剂)和遗传机制(QTL定位、耐贮藏相关基因)以及与种子耐贮藏性相关蛋白质组学方面的研究进展,并对存在的问题进行了展望。
The paper summarized the progress of the physiological mechanism(lipoxygenase,antioxidant enzymes and nonenzymatic antioxidants),genetic mechanism(QTL mapping and storage related genes) of seed storability and proteomics related to seed storability,and the existing problems were prospected.
The paper summarized the progress of the physiological mechanism(lipoxygenase,antioxidant enzymes and nonenzymatic antioxidants),genetic mechanism(QTL mapping and storage related genes) of seed storability and proteomics related to seed storability,and the existing problems were prospected.
引文
[1]胡晋.种子生物学[M].北京:高等教育出版社,2006.
[2]CHRISTINA W,LANA M W,JUDITH M G.Longevity of seeds stored in a gene bank:species characteristics[J].Seed Science Research,2005,15:1-20.
[3]邹冬梅,郭素霞,潘永波,等.柱花草种子超干贮藏的效果及其遗传稳定性[J].农业工程学报,2015,31(增刊1):361-366.
[4]陈晓玲,卢新雄,陈叔平.豇豆种子耐贮藏性的三种人工老化方法的比较研究[J].中国农业科学,2001,34(2):219-222.
[5]RAJJOU L,LOVIGNY Y,GROOT S P C,et al.Proteome-wide characterization of seed aging in Arabidopsis:acomparison between artificial and natural aging protocols[J].Plant Physiology,2008,148:620-641.
[6]FEUSSNERI,KUHN H.WASTERNACK C.Lipoxygenase-dependent degradation of storage lipids[J].Trends Plant Science,2001,6(6):268-273.
[7]汪仁,沈文飚,翟虎渠,等.植物种子脂氧合酶[J].植物生理学通讯,2005,41(3):388-395.
[8]PORTA H,ROCHA-SOSA M.Plant lipoxygenase physiological and molecular features[J].Plant physiology,2002,130:15-21.
[9]TILDEN R L,WESTS H.Reversal of the effects of aging in soybean seeds[J].PlantPhysiology,1985,77:584-586.
[10]PARRISH D J.LEOPOLD A L.On the Mechanism of aging in soybean seeds[J].Plant Physiology,1978,61:365-368.
[11]PRIESTLEY D A.LEOPOLD A C.Absence of lipid oxidation during accelerated aging of soybean seeds[J].Plant Physiology,1979,63:726-729.
[12]BAILLY C,BOGATEK-LESZCZYNSKA R,CO^ME D,et al.Changes in activities of antioxidant enzymes and lipoxygenase during growth of sunflower seedlings from seeds of different vigour[J].Seed Science Research,2002,12:47-55.
[13]吴跃进,卢义宣,吴敬德,等.耐储藏专用型水稻选育及相关技术研究[J].中国稻米,2004(3):6-7.
[14]刘明久,王铁固,陈士林,等.玉米种子人工老化过程中生理特性与种子活力的变化[J].核农学报,2008,22(4):510-513.
[15]LEHNER A,MAMADOU N,POELS P,et al.Changes in soluble carbohydrates,lipid peroxidation and antioxidant enzyme activities in the embryo during aging in wheat grainsf J].Journal of Cereal Science,2008,47:555-565.
[16]薄丽萍,吴震,蒋芳玲,等.不结球大白菜种子活力及抗氧化特性在人工老化过程中的变化[J].西北植物学报,2011,31(4):724-730.
[17]王镜岩,朱圣康,徐长法.生物化学[M].北京:高等教育出版社,2002.
[18]刘国安,李杰林,李双越,等.维生素C和维生素E的联合抗氧化活性研究[J].西北师范大学学报(自然科学版),2015,51(2):66-72.
[19]SATTLER S E,GILLILAND L U,MAGALLANES-LUNDBACK M.Vitamin E is essential for seed longevity and for preventing Lipid peroxidation during germination[J].Plant Cell,2004,16:1419-1432.
[20]SIMONTACCHI M,CARO A,FRAGA C G,et al.Oxidative stress affectsα-tocopherol content in soybean embryonic axes upon imbibition and following germination[J].Plant Physiology,1993,103:949-953.
[21]BASRA A S,SINGH B,MALIK C P.Amelioration of the effects of aging in onion seeds by osmotic priming and associated changes in oxidative metabolism[J].Biologia Plantarum,1994,36(3):365-371.
[22]严敏.玉米种子超干贮藏最适含水量研究[J].中国粮油学报,2013,28(10):71-73.
[23]WALTERS C,HILL LM,WHEELER L J.Dying while dry;kinetics andmechanisms of deterioration in desiccated organisms[J].Integrative andComparative Biology,2005,45:751-758.
[24]SINNIAH U R,ELLIS R H,JOHN P.Irrigation and seed quality development in rapid-cycling brassica:soluble carbohydrates and heat-stable proteins.Annals of Botany[J],1998,82(5):647-655.
[25]OGe L,BOURDAIS G,BOVE J,et al.Protein repair L-isoaspartyl methyltransferasel is involved in both seed longevity and germination vigor in Arabidopsis[J].The plant cell,2008,20:3022-3037.
[26]BENTSINK L,ALONSO-BLANCO C,VREUGDENHIL D,et al.Genetic analysis of seed-soluble oligosaccharides in relation to seed storability of Arabidopsis[J].Plant Physiology,2000,124:1595-1604.
[27]CLERKX E J M.EL-LITHY M E.VIERLING E,et al.Analysis of naturalallelic variation of Arabidopsis seed germination and seed longevity traitsbetween the accessions Landsberg erecta and Shakdara,using a newrecombinant inbred line population[J].Plant Physiology,2004,135:432-443.
[28]NGUYEN T P,KEIZER P,VAN EEUWIJK F,et al.Natural variation for seed longevity and seed dormancy are negatively correlated in Arabidopsis[J].Plant Physiology,2012,160:2083-2092.
[29]MIURA K,LIN S Y,YANO M,et al.Mapping quantitative trait loci controlling seed longevity in rice(Oryza sativa L)[J].Theoreticaland Genetics,2002,104:981-986.
[30]柳武革,王丰,李金华,等.水稻耐储藏性相关QTL及上位性分析[J].作物学报,2005,31(12):1672-1675.
[31]XUE Y,ZHANG S Q,YAO Q H,et al.Identification of quantitative trait loci for seed storability in rice(Oryza sativa L.)[J]Euphytica,2008,164(3):739-744.
[32]HANG T N,LIN Q,LIU L,et al.Mapping QTLs related to rice seed storability undernatural and artificial aging storage conditions[J].Euphytica,2015,203(3):673-681.
[33]LANDJEVA S,LOHWASSER U.Genetic mapping within the wheat D genome reveals QTL for germination,seed vigor and longevity,and early seedling growth[J].Euphytica,2010,171(1):129-143.
[34]NAGEL M,VOGEL H,LANDJEVA S,et al.Seed conservation in ex situ genebanks-geneticstudies on longevity in barley[J].Euphytica,2009,170(1):5-14.
[35]CHENG X X,GEN G H,LIU Z.QTL analysis of grain storage duiability for maize under controlleddeterioration conditions using SSR markers[J].Agricultural science and technology,2012,13(6):1222-1225.
[36]NAGEL M,ROSENHAUER M,WILLNER E,et al.Seed longevity in oilseed rape(Brassica napus L.):genetic variation and QTL mapping[J].Plant Genetic Resources,2011,9(2):260-263.
[37]SCHWEMBER A R.BRADFORD K J.Quantitative trait loci associatedwith longevity of lettuce seeds under conventional and controlled deterioration storage conditions[J].Journal of experimental Botany,2010,61:4423-4436.
[38]CLERKX E J M,BLANKESTIJN-DE VRIES H,RUYS G J,et al.Genetic differences in seed longevity of variousArabidopsis mutants[J].Physiologia Plantarum,2004,121:448-461.
[39]DANA J,BETANIA F,QUIRINO,et al.Analysis of the Arabidopsis Histidine Kinase ATHK1 Reveals a Connection between vegetative Osmotic Stress Sensing and Seed Maturation[J].The Plant Cell,2008,20(4):1101-1117.
[40]BUESO E.MUnOZ-BERTOMEU J,CAMPOS F,et al.Arabidopsis thaliana HOMEOBOX25 uncovers a role for Gibberellins in seed longevity[J].Plant Physiology,2014,164:999-1010.
[41]JUN-HYE S,SUNG-RYUL K,GYNHEUNG.An rice Aldehyde Dehydrogenase7 is needed for seed maturation and viability[J].Plant physiology,2009,149(2):905-915.
[42]DEVAIAH S P,PAN X Q,HONG Y Y,et al.Enhancing seed quality and viability by suppressing phospholipase D in Arabidopsis[J].Plant Journal,2007,50(6):950-957.
[43]ISABELLE D,MAARTEN K.Gibberellin requirement for Arabidopsis seed germination is Determined Both by testa Characteristics and Embryonic Abscisic Acid[J].Plant Physiology,2000,122:415-424.
[44]BENTSINK L,JOWETT J,HANHART C J.Cloning of DOG1,a quantitative trait locus controlling seed dormancy in Arabidopsis[J].Proceedings of the National Academy of Sciences,2006,103:17042-17047.
[45]NGUYEN T P,KEIZER P,VAN EEUWIJK F,et al.Natural variation for seed longevity and seed dormancy are negativelycorrelated in Arabidopsis[J].Plant physiology,2012,160:2083-2092.
[46]WATERWORTH W M,MASNAVI G,BHARDWAJ R M,et al.A plant DNA ligase is an important determinant of seedlongevity[J].Plant Journal,2010,63:848-860.
[47]KIBINZA S,VINEL D,CO^ME D,et al.Sunflower seeddeterioration as related to moisture content during ageing,energy metabolismand active oxygen species scavenging[J].Physiol Plant,2006,128:496-506.
[48]杨翠翠,王凤德,邱念伟,等.植物载脂蛋白研究进展[J].植物生理学报,2013,49(11):1138-1142.
[49]SIMONA B,FLEUR K,BRIGITTE K,et al.Arabidopsis lipocalins AtCHL and AtTTL have distinct butoverlapping functions essential for lipid protection and seed longevity.Plant[J].Cell and Environment,2014,37:368-381.
[2]CHRISTINA W,LANA M W,JUDITH M G.Longevity of seeds stored in a gene bank:species characteristics[J].Seed Science Research,2005,15:1-20.
[3]邹冬梅,郭素霞,潘永波,等.柱花草种子超干贮藏的效果及其遗传稳定性[J].农业工程学报,2015,31(增刊1):361-366.
[4]陈晓玲,卢新雄,陈叔平.豇豆种子耐贮藏性的三种人工老化方法的比较研究[J].中国农业科学,2001,34(2):219-222.
[5]RAJJOU L,LOVIGNY Y,GROOT S P C,et al.Proteome-wide characterization of seed aging in Arabidopsis:acomparison between artificial and natural aging protocols[J].Plant Physiology,2008,148:620-641.
[6]FEUSSNERI,KUHN H.WASTERNACK C.Lipoxygenase-dependent degradation of storage lipids[J].Trends Plant Science,2001,6(6):268-273.
[7]汪仁,沈文飚,翟虎渠,等.植物种子脂氧合酶[J].植物生理学通讯,2005,41(3):388-395.
[8]PORTA H,ROCHA-SOSA M.Plant lipoxygenase physiological and molecular features[J].Plant physiology,2002,130:15-21.
[9]TILDEN R L,WESTS H.Reversal of the effects of aging in soybean seeds[J].PlantPhysiology,1985,77:584-586.
[10]PARRISH D J.LEOPOLD A L.On the Mechanism of aging in soybean seeds[J].Plant Physiology,1978,61:365-368.
[11]PRIESTLEY D A.LEOPOLD A C.Absence of lipid oxidation during accelerated aging of soybean seeds[J].Plant Physiology,1979,63:726-729.
[12]BAILLY C,BOGATEK-LESZCZYNSKA R,CO^ME D,et al.Changes in activities of antioxidant enzymes and lipoxygenase during growth of sunflower seedlings from seeds of different vigour[J].Seed Science Research,2002,12:47-55.
[13]吴跃进,卢义宣,吴敬德,等.耐储藏专用型水稻选育及相关技术研究[J].中国稻米,2004(3):6-7.
[14]刘明久,王铁固,陈士林,等.玉米种子人工老化过程中生理特性与种子活力的变化[J].核农学报,2008,22(4):510-513.
[15]LEHNER A,MAMADOU N,POELS P,et al.Changes in soluble carbohydrates,lipid peroxidation and antioxidant enzyme activities in the embryo during aging in wheat grainsf J].Journal of Cereal Science,2008,47:555-565.
[16]薄丽萍,吴震,蒋芳玲,等.不结球大白菜种子活力及抗氧化特性在人工老化过程中的变化[J].西北植物学报,2011,31(4):724-730.
[17]王镜岩,朱圣康,徐长法.生物化学[M].北京:高等教育出版社,2002.
[18]刘国安,李杰林,李双越,等.维生素C和维生素E的联合抗氧化活性研究[J].西北师范大学学报(自然科学版),2015,51(2):66-72.
[19]SATTLER S E,GILLILAND L U,MAGALLANES-LUNDBACK M.Vitamin E is essential for seed longevity and for preventing Lipid peroxidation during germination[J].Plant Cell,2004,16:1419-1432.
[20]SIMONTACCHI M,CARO A,FRAGA C G,et al.Oxidative stress affectsα-tocopherol content in soybean embryonic axes upon imbibition and following germination[J].Plant Physiology,1993,103:949-953.
[21]BASRA A S,SINGH B,MALIK C P.Amelioration of the effects of aging in onion seeds by osmotic priming and associated changes in oxidative metabolism[J].Biologia Plantarum,1994,36(3):365-371.
[22]严敏.玉米种子超干贮藏最适含水量研究[J].中国粮油学报,2013,28(10):71-73.
[23]WALTERS C,HILL LM,WHEELER L J.Dying while dry;kinetics andmechanisms of deterioration in desiccated organisms[J].Integrative andComparative Biology,2005,45:751-758.
[24]SINNIAH U R,ELLIS R H,JOHN P.Irrigation and seed quality development in rapid-cycling brassica:soluble carbohydrates and heat-stable proteins.Annals of Botany[J],1998,82(5):647-655.
[25]OGe L,BOURDAIS G,BOVE J,et al.Protein repair L-isoaspartyl methyltransferasel is involved in both seed longevity and germination vigor in Arabidopsis[J].The plant cell,2008,20:3022-3037.
[26]BENTSINK L,ALONSO-BLANCO C,VREUGDENHIL D,et al.Genetic analysis of seed-soluble oligosaccharides in relation to seed storability of Arabidopsis[J].Plant Physiology,2000,124:1595-1604.
[27]CLERKX E J M.EL-LITHY M E.VIERLING E,et al.Analysis of naturalallelic variation of Arabidopsis seed germination and seed longevity traitsbetween the accessions Landsberg erecta and Shakdara,using a newrecombinant inbred line population[J].Plant Physiology,2004,135:432-443.
[28]NGUYEN T P,KEIZER P,VAN EEUWIJK F,et al.Natural variation for seed longevity and seed dormancy are negatively correlated in Arabidopsis[J].Plant Physiology,2012,160:2083-2092.
[29]MIURA K,LIN S Y,YANO M,et al.Mapping quantitative trait loci controlling seed longevity in rice(Oryza sativa L)[J].Theoreticaland Genetics,2002,104:981-986.
[30]柳武革,王丰,李金华,等.水稻耐储藏性相关QTL及上位性分析[J].作物学报,2005,31(12):1672-1675.
[31]XUE Y,ZHANG S Q,YAO Q H,et al.Identification of quantitative trait loci for seed storability in rice(Oryza sativa L.)[J]Euphytica,2008,164(3):739-744.
[32]HANG T N,LIN Q,LIU L,et al.Mapping QTLs related to rice seed storability undernatural and artificial aging storage conditions[J].Euphytica,2015,203(3):673-681.
[33]LANDJEVA S,LOHWASSER U.Genetic mapping within the wheat D genome reveals QTL for germination,seed vigor and longevity,and early seedling growth[J].Euphytica,2010,171(1):129-143.
[34]NAGEL M,VOGEL H,LANDJEVA S,et al.Seed conservation in ex situ genebanks-geneticstudies on longevity in barley[J].Euphytica,2009,170(1):5-14.
[35]CHENG X X,GEN G H,LIU Z.QTL analysis of grain storage duiability for maize under controlleddeterioration conditions using SSR markers[J].Agricultural science and technology,2012,13(6):1222-1225.
[36]NAGEL M,ROSENHAUER M,WILLNER E,et al.Seed longevity in oilseed rape(Brassica napus L.):genetic variation and QTL mapping[J].Plant Genetic Resources,2011,9(2):260-263.
[37]SCHWEMBER A R.BRADFORD K J.Quantitative trait loci associatedwith longevity of lettuce seeds under conventional and controlled deterioration storage conditions[J].Journal of experimental Botany,2010,61:4423-4436.
[38]CLERKX E J M,BLANKESTIJN-DE VRIES H,RUYS G J,et al.Genetic differences in seed longevity of variousArabidopsis mutants[J].Physiologia Plantarum,2004,121:448-461.
[39]DANA J,BETANIA F,QUIRINO,et al.Analysis of the Arabidopsis Histidine Kinase ATHK1 Reveals a Connection between vegetative Osmotic Stress Sensing and Seed Maturation[J].The Plant Cell,2008,20(4):1101-1117.
[40]BUESO E.MUnOZ-BERTOMEU J,CAMPOS F,et al.Arabidopsis thaliana HOMEOBOX25 uncovers a role for Gibberellins in seed longevity[J].Plant Physiology,2014,164:999-1010.
[41]JUN-HYE S,SUNG-RYUL K,GYNHEUNG.An rice Aldehyde Dehydrogenase7 is needed for seed maturation and viability[J].Plant physiology,2009,149(2):905-915.
[42]DEVAIAH S P,PAN X Q,HONG Y Y,et al.Enhancing seed quality and viability by suppressing phospholipase D in Arabidopsis[J].Plant Journal,2007,50(6):950-957.
[43]ISABELLE D,MAARTEN K.Gibberellin requirement for Arabidopsis seed germination is Determined Both by testa Characteristics and Embryonic Abscisic Acid[J].Plant Physiology,2000,122:415-424.
[44]BENTSINK L,JOWETT J,HANHART C J.Cloning of DOG1,a quantitative trait locus controlling seed dormancy in Arabidopsis[J].Proceedings of the National Academy of Sciences,2006,103:17042-17047.
[45]NGUYEN T P,KEIZER P,VAN EEUWIJK F,et al.Natural variation for seed longevity and seed dormancy are negativelycorrelated in Arabidopsis[J].Plant physiology,2012,160:2083-2092.
[46]WATERWORTH W M,MASNAVI G,BHARDWAJ R M,et al.A plant DNA ligase is an important determinant of seedlongevity[J].Plant Journal,2010,63:848-860.
[47]KIBINZA S,VINEL D,CO^ME D,et al.Sunflower seeddeterioration as related to moisture content during ageing,energy metabolismand active oxygen species scavenging[J].Physiol Plant,2006,128:496-506.
[48]杨翠翠,王凤德,邱念伟,等.植物载脂蛋白研究进展[J].植物生理学报,2013,49(11):1138-1142.
[49]SIMONA B,FLEUR K,BRIGITTE K,et al.Arabidopsis lipocalins AtCHL and AtTTL have distinct butoverlapping functions essential for lipid protection and seed longevity.Plant[J].Cell and Environment,2014,37:368-381.