植物生理与分子生物学学报
植物生理與分子生物學學報
식물생리여분자생물학학보
JOURNAL OF PLANT PHYSIOLOGY AND MOLECULAR BIOLOGY
2006年
2期
169-174
,共6页
蔡霞%王水才%贺俊芳%刘晓%彭菊芳%匡廷云
蔡霞%王水纔%賀俊芳%劉曉%彭菊芳%劻廷雲
채하%왕수재%하준방%류효%팽국방%광정운
光系统Ⅱ核心复合物%光谱特性%温度%激发波长
光繫統Ⅱ覈心複閤物%光譜特性%溫度%激髮波長
광계통Ⅱ핵심복합물%광보특성%온도%격발파장
PSⅡ core complex%spectroscopic property%temperature%excitation wavelength
在83 K和160 K两个温度下,通过激发波长对荧光发射谱的影响研究了光系统Ⅱ中核心复合物的荧光光谱特性.用不同波长的光激发,核心复合物的发射谱的最大发射峰值不变,用480、489、495和507 nm的光分别激发核心复合物,其光谱最大峰值处的荧光强度随不同激发波长下β-胡萝卜素分子的吸收强度的增大而降低,在长波长区域光谱的变化依赖于首先被激发的色素分子.所以,激发波长的不同影响着核心复合物中能量传递的途径.通过高斯解析,分析出核心复合物中至少存在有7组叶绿素a组分,它们是Chl a660,Chl a670,Chl a680,Chl a682,Chl a684,Chl a687和Chl a690.
在83 K和160 K兩箇溫度下,通過激髮波長對熒光髮射譜的影響研究瞭光繫統Ⅱ中覈心複閤物的熒光光譜特性.用不同波長的光激髮,覈心複閤物的髮射譜的最大髮射峰值不變,用480、489、495和507 nm的光分彆激髮覈心複閤物,其光譜最大峰值處的熒光彊度隨不同激髮波長下β-鬍蘿蔔素分子的吸收彊度的增大而降低,在長波長區域光譜的變化依賴于首先被激髮的色素分子.所以,激髮波長的不同影響著覈心複閤物中能量傳遞的途徑.通過高斯解析,分析齣覈心複閤物中至少存在有7組葉綠素a組分,它們是Chl a660,Chl a670,Chl a680,Chl a682,Chl a684,Chl a687和Chl a690.
재83 K화160 K량개온도하,통과격발파장대형광발사보적영향연구료광계통Ⅱ중핵심복합물적형광광보특성.용불동파장적광격발,핵심복합물적발사보적최대발사봉치불변,용480、489、495화507 nm적광분별격발핵심복합물,기광보최대봉치처적형광강도수불동격발파장하β-호라복소분자적흡수강도적증대이강저,재장파장구역광보적변화의뢰우수선피격발적색소분자.소이,격발파장적불동영향착핵심복합물중능량전체적도경.통과고사해석,분석출핵심복합물중지소존재유7조협록소a조분,타문시Chl a660,Chl a670,Chl a680,Chl a682,Chl a684,Chl a687화Chl a690.
Spectroscopic properties within the core complex of photosystem Ⅱ were investigated by studying the influence of the wavelength of excitation on the fluorescence emission spectrum. At two temperatures, when the core complex of PSⅡ isolated from spinach was excited at six different excitation wavelengths ranging from 436nm to 520 nm, there is no difference in the maxima of the emission spectra of the core complex, and when the core complex was excited at 480, 489, 495 and 507 nm respectively, fluorescence intensities of maxima decrease with increasing of the absorbance of the β-carotene mol ecules at the four excitation wavelengths. The extent of change of the shoulder of the spectra beyond 700 nm depends on the kind of pigment molecule excited. The excitation wavelength can influence the way of energy transfer in the core complex of photosystem Ⅱ. By Gaussian deconvolution analysis, at least seven groups of chlorophyll a molecules were discovered. They are Chl a660, Chl a670, Chl a680, Chl a682, Chl a684, Chl a687 and Chl a690.