藻类植物多胺研究进展
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摘要
指出了多胺(PAs)是一种脂肪族化合物,广泛存在于生物体内。多胺在生理代谢以及抗胁迫过程中起着重要的作用。近年来,多胺在藻类中的重要性受到关注。综述了国内外藻类多胺的研究进展,探讨了多胺在藻类生理代谢过程以及对抗环境压力(即抗胁迫)方面的作用,并对比了多胺代谢在藻类和高等植物中的相似性和差异性。
Polyamines(PAs)are an aliphatic compound that is widely found in living organisms.Polyamines play an important role in physiological metabolism and stress resistance.In recent years,polyamines have become more and more important in algae.This paper reviews the recent research progress at home and abroad,and briefly introduces the role of polyamines in the physiological metabolism of algae and against environmental stress(ie,stress resistance).The similarities and differences in polyamine metabolism in algae and higher plants were compared.
Polyamines(PAs)are an aliphatic compound that is widely found in living organisms.Polyamines play an important role in physiological metabolism and stress resistance.In recent years,polyamines have become more and more important in algae.This paper reviews the recent research progress at home and abroad,and briefly introduces the role of polyamines in the physiological metabolism of algae and against environmental stress(ie,stress resistance).The similarities and differences in polyamine metabolism in algae and higher plants were compared.
引文
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[2]Tabor C W,Tabor H.Polyamines[J].Ann.Rev.Biochem,1984(53):749~90.
[3]Brachet J,Mamont P,Boloukhere M,et al.Effects duninhibiteur delasynthese despolyamines surlamorphogenesechez l’Oursin,leChetoptere et l’Algue Acetabularia[J].C.R.Hebd.Seanc.Acad.Sci.Paris,Serie D,1978(287):1289.
[4]Badini L,Pistocchi R.Polyamine transport in the seaweed Ulva rigida(Chlorophyta)[J].J.Phycol,1994(30):599~605.
[5]Jantaro S,Maenpaa P,Mulo P et al.Content and biosynthesis of polyamine in salt and osmotically stressed cells of Synechocystis sp.PCC 6803[J].FEMS Microbiol.Lett,2005(228):129.
[6]Nishibori N,Fujihara S,Nishijima T.Changes in intracellular polyamine concentration during growth of Heterosigma akashiwo(Raphidophceae)[J].Fish.Sci.2006(72):350.
[7]Nishibori N,Nishijima T.Changes in polyamine levels during growth of red-tide causing phytoplankton Chatonella antiqua(Raphidophyceae)[J].Eur.J.Phycol.2004(39):51.
[8]Slocum R D,Flores H E.Biochemistry and Physiology of Polyamines in Plants[M].CRC Press,Boca Raton,Florida/Ann Arbor,Michigan/London,1991.
[9]Agrawal S B,Agrawal M,Lee E H,et al.Changes in polyamine and glutathione contents of a green alga,Chlorogonium elongatum(Dang)France exposed to mercury[J].Environ.Exp.Bot.1992(32):145.
[10]朱晓文,赵卫红,苗辉.盐度胁迫下中肋骨条藻和东海原甲藻的生长及内源多胺含量的变化[J].海洋与湖沼,2015,46(1):50~57.
[11]栾红艳,赵卫红,苗辉,等.Cd2+胁迫下中肋骨条藻细胞内多胺的生理响应[J].中国环境科学,2015,35(5):1487~1494.
[12]Lichtenthaler H K.The stress concept in plants:an introduction.In Csermely,P.[Ed.]Stress of Life:From Molecules to Man.Ann.N.Y.Acad.Sci.851[J].New York Academy of Sciences,New York,1998(4):187.
[13]Beigbeder A,Vavadakis M.Influence of polyamine inhibitors on light-independent and light-dependent chlorophyll biosynthesis and on the photosynthetic rate[J].J.Photochem.Photobiol.B.Biol,1995(28):235~42.
[14]Doernemann D,Navakoudis E.Changes in the polyamine content of plastidal membranes in light-and darkgrown wildtype and pigment mutants of the unicellular green alga Scenedesmus obliquus and their possible role in chloroplast photodevelopment[J].J.Photochem.Photobiol.B.Biol,1996(36):293.
[15]Ioannidis N E,Sfichi-Duke L,Kotzabasis K..Polyamines stimulate nonphotochemical quenching of chlorophyll a fluorescence in Scenedesmus obliquus[J].Photosynth.Res,2011(107):169.
[16]Bagni N,Tassoni A.Biosynthesis,oxidation and conjugation of aliphatic polyamines in higher plants[J].Amino Acids,2001(20):301.
[17]Lee C,J gensen N O J.Seasonal cycling of putrescine and aminoacids in relation to biological production in a stratified coastal saltpond[J].Biogeochemistry,1995(29):131~157.
[18]梁丛丛,赵卫红,苗辉,等.生物胺对赤潮藻生长的影响作用初探[J].海洋与湖沼,2013,44(3):709~716.
[19]栾红艳.重金属胁迫下中肋骨条藻的生理响应及多胺的调节作用研究[D].青岛:中国科学院海洋研究所,2015.
[2]Tabor C W,Tabor H.Polyamines[J].Ann.Rev.Biochem,1984(53):749~90.
[3]Brachet J,Mamont P,Boloukhere M,et al.Effects duninhibiteur delasynthese despolyamines surlamorphogenesechez l’Oursin,leChetoptere et l’Algue Acetabularia[J].C.R.Hebd.Seanc.Acad.Sci.Paris,Serie D,1978(287):1289.
[4]Badini L,Pistocchi R.Polyamine transport in the seaweed Ulva rigida(Chlorophyta)[J].J.Phycol,1994(30):599~605.
[5]Jantaro S,Maenpaa P,Mulo P et al.Content and biosynthesis of polyamine in salt and osmotically stressed cells of Synechocystis sp.PCC 6803[J].FEMS Microbiol.Lett,2005(228):129.
[6]Nishibori N,Fujihara S,Nishijima T.Changes in intracellular polyamine concentration during growth of Heterosigma akashiwo(Raphidophceae)[J].Fish.Sci.2006(72):350.
[7]Nishibori N,Nishijima T.Changes in polyamine levels during growth of red-tide causing phytoplankton Chatonella antiqua(Raphidophyceae)[J].Eur.J.Phycol.2004(39):51.
[8]Slocum R D,Flores H E.Biochemistry and Physiology of Polyamines in Plants[M].CRC Press,Boca Raton,Florida/Ann Arbor,Michigan/London,1991.
[9]Agrawal S B,Agrawal M,Lee E H,et al.Changes in polyamine and glutathione contents of a green alga,Chlorogonium elongatum(Dang)France exposed to mercury[J].Environ.Exp.Bot.1992(32):145.
[10]朱晓文,赵卫红,苗辉.盐度胁迫下中肋骨条藻和东海原甲藻的生长及内源多胺含量的变化[J].海洋与湖沼,2015,46(1):50~57.
[11]栾红艳,赵卫红,苗辉,等.Cd2+胁迫下中肋骨条藻细胞内多胺的生理响应[J].中国环境科学,2015,35(5):1487~1494.
[12]Lichtenthaler H K.The stress concept in plants:an introduction.In Csermely,P.[Ed.]Stress of Life:From Molecules to Man.Ann.N.Y.Acad.Sci.851[J].New York Academy of Sciences,New York,1998(4):187.
[13]Beigbeder A,Vavadakis M.Influence of polyamine inhibitors on light-independent and light-dependent chlorophyll biosynthesis and on the photosynthetic rate[J].J.Photochem.Photobiol.B.Biol,1995(28):235~42.
[14]Doernemann D,Navakoudis E.Changes in the polyamine content of plastidal membranes in light-and darkgrown wildtype and pigment mutants of the unicellular green alga Scenedesmus obliquus and their possible role in chloroplast photodevelopment[J].J.Photochem.Photobiol.B.Biol,1996(36):293.
[15]Ioannidis N E,Sfichi-Duke L,Kotzabasis K..Polyamines stimulate nonphotochemical quenching of chlorophyll a fluorescence in Scenedesmus obliquus[J].Photosynth.Res,2011(107):169.
[16]Bagni N,Tassoni A.Biosynthesis,oxidation and conjugation of aliphatic polyamines in higher plants[J].Amino Acids,2001(20):301.
[17]Lee C,J gensen N O J.Seasonal cycling of putrescine and aminoacids in relation to biological production in a stratified coastal saltpond[J].Biogeochemistry,1995(29):131~157.
[18]梁丛丛,赵卫红,苗辉,等.生物胺对赤潮藻生长的影响作用初探[J].海洋与湖沼,2013,44(3):709~716.
[19]栾红艳.重金属胁迫下中肋骨条藻的生理响应及多胺的调节作用研究[D].青岛:中国科学院海洋研究所,2015.