光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
Spectroscopy and Spectral Analysis
2015年
9期
2553-2557
,共5页
何川%周霞%姚春丽%许凤
何川%週霞%姚春麗%許鳳
하천%주하%요춘려%허봉
奇岗%稀酸预处理%木质素%羟基肉桂酸%共聚焦显微拉曼光谱
奇崗%稀痠預處理%木質素%羥基肉桂痠%共聚焦顯微拉曼光譜
기강%희산예처리%목질소%간기육계산%공취초현미랍만광보
Miscanthus × giganteus%Dilute acid pretreatment%Lignin%Hydroxycinnamic acid%Confocal Raman microspectros-copy
共聚焦拉曼显微光谱技术可有效用于木质纤维生物质细胞壁的区域化学研究。利用该技术探索稀酸预处理过程中奇岗纤维细胞壁木质素和羟基肉桂酸的区域化学变化规律。研究发现预处理前木质素在细胞壁各区域的浓度不同,木质素浓度较高的区域羟基肉桂酸的浓度也较高。稀酸预处理后1600 cm-1(木质素)和1170 cm-1(羟基肉桂酸)的峰值强度降低,表明二者被部分溶出,且溶出率为次生壁>复合胞间层>角隅胞间层。预处理过程中次生壁和复合胞间层的特征峰强度比值(I 1170/I 1600)呈现上升趋势,表明在这两个形态区域中木质素比羟基肉桂酸更易溶出;而在角隅胞间层没有明显变化,表明该形态区域对二者的溶出没有倾向性。通过本研究可以更加深入了解稀酸预处理中化学组分在亚细胞水平的变化规律,同时也进一步拓展了拉曼光谱技术在植物细胞壁研究领域的应用。
共聚焦拉曼顯微光譜技術可有效用于木質纖維生物質細胞壁的區域化學研究。利用該技術探索稀痠預處理過程中奇崗纖維細胞壁木質素和羥基肉桂痠的區域化學變化規律。研究髮現預處理前木質素在細胞壁各區域的濃度不同,木質素濃度較高的區域羥基肉桂痠的濃度也較高。稀痠預處理後1600 cm-1(木質素)和1170 cm-1(羥基肉桂痠)的峰值彊度降低,錶明二者被部分溶齣,且溶齣率為次生壁>複閤胞間層>角隅胞間層。預處理過程中次生壁和複閤胞間層的特徵峰彊度比值(I 1170/I 1600)呈現上升趨勢,錶明在這兩箇形態區域中木質素比羥基肉桂痠更易溶齣;而在角隅胞間層沒有明顯變化,錶明該形態區域對二者的溶齣沒有傾嚮性。通過本研究可以更加深入瞭解稀痠預處理中化學組分在亞細胞水平的變化規律,同時也進一步拓展瞭拉曼光譜技術在植物細胞壁研究領域的應用。
공취초랍만현미광보기술가유효용우목질섬유생물질세포벽적구역화학연구。이용해기술탐색희산예처리과정중기강섬유세포벽목질소화간기육계산적구역화학변화규률。연구발현예처리전목질소재세포벽각구역적농도불동,목질소농도교고적구역간기육계산적농도야교고。희산예처리후1600 cm-1(목질소)화1170 cm-1(간기육계산)적봉치강도강저,표명이자피부분용출,차용출솔위차생벽>복합포간층>각우포간층。예처리과정중차생벽화복합포간층적특정봉강도비치(I 1170/I 1600)정현상승추세,표명재저량개형태구역중목질소비간기육계산경역용출;이재각우포간층몰유명현변화,표명해형태구역대이자적용출몰유경향성。통과본연구가이경가심입료해희산예처리중화학조분재아세포수평적변화규률,동시야진일보탁전료랍만광보기술재식물세포벽연구영역적응용。
Confocal Raman microspectroscopy (CRM)represents a powerful technique that can provide insights into topochemis-try in lignocellulosic biomass cell wall.In this work,CRM was used to explore the impact of dilute acid (DA)pretreatment on the topochemistry of lignin and hydroxycinnamic acid (HCA)in the fiber cell walls of Miscanthus× giganteus internode.Raman spectra extracted from different morphological regions of untreated fiber cell walls indicated the heterogeneous concentration of lignin and HCA.There is a companied trend between them,that is,regions where there is the higher lignin concentration have the higher concentration of HCA.When treated with DA,it was found that the intensity of 16 00 cm-1 (lignin)and 1 170 cm-1 (HCA)were decreased,which could be contributed to the partially removal of lignin and HCA.The removal rate in different morphological areas followed the decreasing order:secondary cell wall (SW)> compound middle lamella (CML)> cell corner middle lamella (CCML).The increase of the Raman band intensity ratio (1 170/1 600)indicated the preferential removal of lig-nin in the SW and CML as a result of DA pretreatment,while the constant of the ratio meant there is no preference between lig-nin and HCA in the CCML.The research will provide the deep understanding of the topochemistry of lignin and HCA at sub-cel-lular level during DA pretreatment,meanwhile,it also expands the application of Raman spectra in the research area of plant cell wall.
