植物细胞壁木质素区域化学紫外显微光谱研究进展

doi:10.3969/j.issn.0253-2417.2016.01.021

Abstract

Abstract: In this review, the configuration of the UV-microspectrophotometry(UMSP) was introduced and its applications on lignin deposition, distribution and dissolution in woody and herbaceous biomass were briefly described.Finally, the prospect on the application of UMSP in biomass pretreatment was given.The approaches established can provide alternatives to the scientific research and industrialization development related to biomass conversion.

Key words: plant cell wall, lignin, topochemistry, UV-microspectrophotometry

CLC Number:

TQ35
O636.1

MA Jian-feng, YANG Shu-min, TIAN Gen-lin, LIU Xing-e, XU Feng. Application of UV-microspectrophotometry on Lignin Topochemistry in Plant Cell Wall[J]. Chemistry and Industry of Forest Products, 2016, 36(1): 147-154.

References

[1] BOERJAN W,RALPH J,BAUCHER M.Lignin biosynthesis[J].Annual Review of Plant Biology,2003,54:519-546.
[2] DING shi-you,LIU Yu-san,ZENG Yi-ning,et al.How does plant cell wall nanoscale architecture correlate with enzymatic digestibility?[J].Science,2012,338(6110):1055-1060.
[3] TERASHIMA N,FUKUSHIMA K.Heterogeneity in formation of lignin.XI:An autoradiographic study of the heterogeneous formation and structure of pine lignin[J].Wood Science and Technology,1988,22(3):259-270.
[4] FROMM J,ROCKEL B,LAUTNERA S,et al.Lignin distribution in wood cell walls determined by TEM and backscattered SEM techniques[J].Journal of Structural Biology,2003,143(1):77-84.
[5] AKERHOLM M,SALMÉN L.The oriented structure of lignin and its viscoelastic by static and dynamic FT-IR spectroscopy[J].Holzforschung,2005,57(5):459-465.
[6] GIERLINGER N,SCHWANNINGER M.Chemical imaging of poplar wood cell walls by confocal Raman microscopy[J].Plant Physiology,2006,140(4):1246-1254.
[7] CHRISTIERNIN M.Lignin composition in cambial tissues of poplar[J].Plant Physiology and Biochemistry,2006,44(11-12):700-706.
[8] COSGROVE D J.Growth of the plant cell wall[J].Nature Reviews Molecular Cell Biology,2005,6:850-861.
[9] KLEIST G,BAUCH J.Cellular UV microspectrophotometric investigation of Sapelli heartwood (Entandrophragma cylindricum Sprague) from natural provenances in Africa[J].Holzforschung,2001,55(2):117-122.
[10] MUSHA Y,GORING D A I.Distribution of syringyl and guaiacyl moieties in hardwood as indicated by ultraviolet microscopy[J].Wood Science and Technology,1975,9(1):45-58.
[11] ZENG Yi-ning,ZHAO Shuai,YANG Shi-hui,et al.Lignin plays a negative role in the biochemical process for producing lignocellulosic biofuels[J].Current Opinion in Biotechnology,2014,27:38-45.
[12] WARDROP A B.The phase of lignification in the differentiation of wood fibers[J].Tappi,1957,40:225-243.
[13] MOLLER R,KOCH G,NANAYAKKARA B,et al.Lignification in cell cultures of Pinus radiata:Activities of enzymes and lignin topochemistry[J].Tree physiology,2006,26(2):201-210.
[14] FUKAZAWA K,IMAGAWA H.Quantitative analysis of lignin using an UV microsocpy image analyzer:Variation within one growth increment[J].Wood Science and Technology,1981,15(1):45-55.
[15] SCHMITT U,GRUNWALD C,GRICAR J,et al.Wall structure of terminal latewood tracheids of healthy and declining silver fir trees in the Dinaric region,Slovenia[J].IAWA Journal,2003,24(1):41-51.
[16] PRISLAN P,KOCH G,CUFAR K,et al.Topochemical investigations of cell walls in developing xylem of beech (Fagus sylvatica L.)[J].Holzforschung,2009,63(4):482-490.
[17] PRISLAN P,KOCH G,SCHMITT U,et al.Cellular and topochemical characteristics of secondary changes in bark tissues of beech (Fagus sylvatica)[J].Holzforschung,2012,66(1):131-138.
[18] DUENISCH O,FLADUNG M,NAKABA S,et al.Influence of overexpression of a gibberellin 20-oxidase gene on the kinetics of xylem cell development in hybrid poplar (Populus tremula L.and P.tremuloides Michx.) [J].Holzforschung,2006,60(6):608-617.
[19] HE L F,TERASHIMA N.Formation and structure of lignin in monocotyledons.4:Deposition process and structural diversity of the lignin in the cell wall of sugarcane and rice plant studied by ultraviolet microscopic spectroscopy[J].Holzforschung,1991,45(3):191-198.
[20] LYBEER B,KOCH G.Lignin distribution in the tropical bamboo species Gigantochloa levis[J].IAWA Journal,2005,26(4):443-456.
[21] LYBEER B,KOCH G,VAN ACKER J,et al.Lignification and cell wall thickening in nodes of Phyllostachys viridiglaucescens and Phyllostachys nigra[J].Annals of Botany,2006,97(4):529-539.
[22] LACAYO C I,HWANG M S,DING S Y,et al.Lignin depletion enhances the digestibility of cellulose in cultured xylem cells[J].Plos One,2013,8(7):1-12.
[23] AKIN D E.Plant cell wall aromatics:Influence on degradation of biomass[J].Biofuels Bioproducts Biorefining,2008,2(4):288-303.
[24] GIERLINGER N.Revealing changes in molecular composition of plant cell walls on the micron-level by Raman mapping and vertex component analysis (VCA)[J].Frontier in Plant Science,2014,5:306.
[25] GIERLINGER N,GOSWAMI L,SCHMIDT M,et al.In situ FT-IR microscopic study on enzymatic treatment of poplar wood cross-sections[J].Biomacromolecules,2008,9(8):2194-2201.
[26] TOBIMATSU Y,WAGNER A,DONALDSON L,et al.Visualization of plant cell wall lignification using fluorescence-tagged monolignols[J].The Plant Journal,2013,76(3):357-366.
[27] SCOTT J A N,PROCTER A R,FERGUS B J,et al.The application of ultraviolet microscopy to the distribution of lignin in wood description and validity of the technique[J].Wood Science and Technology,1969,3(1):73-92.
[28] FERGUS B J,PROCTER A R,SCOTT J A N,et al.Distribution of lignin in sprucewood as determined by ultraviolet microscopy[J].Wood Science and Technology,1969,3(2):117-138.
[29] 许凤,陈嘉川,孙润仓.三倍体毛白杨纤维形态学参数及木质素微区分布的研究[J].林产化学与工业,2003,23(4):66-70. XU Feng,CHEN Jia-chuan, SUN Run-cang. Studies on fiber morphology and lignin distribution of the triploid of Populus tomentosa Carr.[J].Chemistry and Industry of Forest Productrs,2003,23(4):66-70.
[30] LYBEER B,KOCH G.A topochemical and semiquantitative study of the lignification during aging of bamboo culms (Phyllostachys viridiglaucescens)[J].IAWA Journal,2005,26(4):99-109.
[31] FERGUS B J,GORING D A I.Distribution of lignin in birch wood as determined by ultraviolet microscopy[J].Holzforschung,1970,24(4):118-124.
[32] WATANABE Y,KOJIMA Y,ONA T,et al.Histochemical study on heterogeneity of lignin in Eucalyptus species II:The distribution of lignins and polyphenols in the walls of various cell types[J].IAWA Journal,2004,25(3):283-295.
[33] YOSHINAGA A,FUJITA M,SAIKI H.Cellular distribution of guaiacyl and syringyl lignins within an annual ring in oak wood[J].Mokuzai Gakkaishi,1997,43(5):384-390.
[34] YOSHIZAWA N,INAMI A,MIYAKE S,et al.Anatomy and lignin distribution of reaction wood in two Magnolia species[J].Wood Science and Technology,2000,34(3):183-196.
[35] YOSHIDA M,FUJIWARA D,TSUJI Y,et al.Ultraviolet microspectrophotometric investigation of the distribution of lignin in Prunus jamasakura differentiated on a three-dimensional clinostat[J].Journal of Wood Science,2005,51(5):448-454.
[36] FRANKENSTEIN C,SCHMITT U,KOCH G.Topochemical studies on modified lignin distribution in the xylem of poplar (Populus spp.) after wounding[J].Annals of Botany,2006,97(2):195-204.
[37] FRANKENSTEIN C,SCHMITT U.Wound effects in the xylem of poplar:A UV microspectrophotometric study[J].Holzforschung,2006,60(6):595-600.
[38] AKIN D E,HARTLEY R D.UV adsorption microspectrophotometry and digestibility of cell types of Bermuda grass internodes at different stages of maturity[J].Journal of the Science of Food and Agriculture,1992,59(4):437-447.
[39] SIQUEIRA G,MILAGRES A M F,CARVALHO W,et al.Topochemical distribution of lignin and hydroxycinnamic acids in sugar-cane cell walls and its correlation with the enzymatic hydrolysis of polysaccharides[J].Biotechnology for Biofuels,2011,4(1):7-15.
[40] BELMOKAHTAR N,HABRANT A,LOPES F N,et al.Changes in phenolics distribution after chemical pretreatment and enzymatic conversion of miscanthus×giganteus internode[J].Bioenergy Research,2013,6(2):506-518.
[41] CHO C H,LEE K H,KIM J S,et al.Micromorphological characteristics and lignin distribution in bamboo (Phyllostachys pubescens) degraded by the brown rot fungus (Gloeophyllum trabeum)[J].Journal of Wood Science,2008,54(3):261-265.
[42] IRBE I,NOLDT G,KOCH G,et al.Application of scanning UV microspectrophotometry for the topochemical detection of lignin within individual cell walls of brown-rotted Scots pine (Pinus sylvestris L.) sapwood[J].Holzforschung,2006,60(6):601-607.
[43] REHBEIN M,KOCH G,SCHMITT U,et al.Topochemical and transmission electron microscopic studies of bacterial decay in pine (Pinus sylvestris L.) harbour foundation piles[J].Micron,2013,44:150-158.
[44] KIM J S,LEE K H,CHO C H,et al.Micromorphological characteristics and lignin distribution in bamboo (Phyllostachys pubescens) degraded by the white rot fungus Lentinus edodes[J].Holzforschung,2008,62(4):481-487.

Application of UV-microspectrophotometry on Lignin Topochemistry in Plant Cell Wall

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