光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2014年
6期
1571-1576
,共6页
李晓丽%罗榴彬%胡小倩%楼兵干%何勇
李曉麗%囉榴彬%鬍小倩%樓兵榦%何勇
리효려%라류빈%호소천%루병간%하용
茶叶%细胞壁%炭疽病%共聚焦显微拉曼%化学成分变化
茶葉%細胞壁%炭疽病%共聚焦顯微拉曼%化學成分變化
다협%세포벽%탄저병%공취초현미랍만%화학성분변화
Tea%Cell wall%Anthracnose%Confocal Raman microscopy%Chemical change
采用共聚焦显微拉曼技术研究了炭疽病感染所致茶叶细胞壁结构和化学成分的变化。对茶叶健康和染病组织细胞进行微米级空间分辨率的显微拉曼光谱扫描,并结合透射电镜观察炭疽病侵染所致的细胞超微结构变化,结果显示染病前后细胞壁的拉曼光谱位移和强度都有明显的差异,表明炭疽病侵染导致细胞壁中化学成分发生了较大的变化。其中由纤维素,果胶,酯类化合物产生的拉曼峰强度都有明显下降,说明细胞壁中这些物质的含量在染病后减少了;而木质素拉曼散射引起的拉曼峰强度有所上升,说明木质素的含量在染病后有所增加。随后基于纤维素的拉曼指纹波数和显微空间结构信息实现了茶叶健康组织和染病组织细胞壁中纤维素的化学成像分析,结果显示炭疽病侵染不仅导致细胞壁中纤维素的含量大大减少,而且纤维素的有序结构被破坏。由此得出结论:在无需对样本进行染色或复杂的化学处理的情况下,共聚焦显微拉曼可以揭示由炭疽病侵染引起的茶叶细胞壁化学成分和结构的变化,本研究是共聚焦显微拉曼技术首次用于植物病理学中寄主-病原物互作机制的研究,将为深入研究寄主-病原物在细胞层面上的互作机制开辟蹊径。
採用共聚焦顯微拉曼技術研究瞭炭疽病感染所緻茶葉細胞壁結構和化學成分的變化。對茶葉健康和染病組織細胞進行微米級空間分辨率的顯微拉曼光譜掃描,併結閤透射電鏡觀察炭疽病侵染所緻的細胞超微結構變化,結果顯示染病前後細胞壁的拉曼光譜位移和彊度都有明顯的差異,錶明炭疽病侵染導緻細胞壁中化學成分髮生瞭較大的變化。其中由纖維素,果膠,酯類化閤物產生的拉曼峰彊度都有明顯下降,說明細胞壁中這些物質的含量在染病後減少瞭;而木質素拉曼散射引起的拉曼峰彊度有所上升,說明木質素的含量在染病後有所增加。隨後基于纖維素的拉曼指紋波數和顯微空間結構信息實現瞭茶葉健康組織和染病組織細胞壁中纖維素的化學成像分析,結果顯示炭疽病侵染不僅導緻細胞壁中纖維素的含量大大減少,而且纖維素的有序結構被破壞。由此得齣結論:在無需對樣本進行染色或複雜的化學處理的情況下,共聚焦顯微拉曼可以揭示由炭疽病侵染引起的茶葉細胞壁化學成分和結構的變化,本研究是共聚焦顯微拉曼技術首次用于植物病理學中寄主-病原物互作機製的研究,將為深入研究寄主-病原物在細胞層麵上的互作機製開闢蹊徑。
채용공취초현미랍만기술연구료탄저병감염소치다협세포벽결구화화학성분적변화。대다협건강화염병조직세포진행미미급공간분변솔적현미랍만광보소묘,병결합투사전경관찰탄저병침염소치적세포초미결구변화,결과현시염병전후세포벽적랍만광보위이화강도도유명현적차이,표명탄저병침염도치세포벽중화학성분발생료교대적변화。기중유섬유소,과효,지류화합물산생적랍만봉강도도유명현하강,설명세포벽중저사물질적함량재염병후감소료;이목질소랍만산사인기적랍만봉강도유소상승,설명목질소적함량재염병후유소증가。수후기우섬유소적랍만지문파수화현미공간결구신식실현료다협건강조직화염병조직세포벽중섬유소적화학성상분석,결과현시탄저병침염불부도치세포벽중섬유소적함량대대감소,이차섬유소적유서결구피파배。유차득출결론:재무수대양본진행염색혹복잡적화학처리적정황하,공취초현미랍만가이게시유탄저병침염인기적다협세포벽화학성분화결구적변화,본연구시공취초현미랍만기술수차용우식물병이학중기주-병원물호작궤제적연구,장위심입연구기주-병원물재세포층면상적호작궤제개벽혜경。
Healthy tea and tea infected by anthracnose were first studied by confocal Raman microscopy to illustrate chemical changes of cell wall in the present paper.Firstly,Raman spectra of both healthy and infected sample tissues were collected with spatial resolution at micron-level,and ultrastructure of healthy and infected tea cells was got from scanning electron microscope. These results showed that there were significant changes in Raman shift and Raman intensity between healthy and infected cell walls,indicating that great differences occurred in chemical compositions of cell walls between healthy and infected samples.In details,intensities at many Raman bands which were closely associated with cellulose,pectin,esters were reduced after infec-tion,revealing that the content of chemical compounds such as cellulose,pectin,esters was decreased after infection.Subse-quently,chemical imaging of both healthy and infected tea cell walls were realized based on Raman fingerprint spectra of cellulose and microscopic spatial structure.It was found that not only the content of cellulose was reduced greatly after infection,but also the ordered structure of cellulose was destroyed by anthracnose infection.Thus,confocal Raman microscopy was shown to be a powerful tool to detect the chemical changes in cell wall of tea caused by anthracnose without any chemical treatment or staining. This research firstly applied confocal Raman microscopy in phytopathology for the study of interactive relationship between host and pathogen,and it will also open a new way for intensive study of host-pathogen at cellular level.
