Abstract:When the thylakoid membranes of blue-green algae were broken by ultrasonic vibrations and subjected to polyacrylamide gel electrophoresis at 4℃, six green zones were resolved. They were designated as CPIa, CPlb, CPI; CPal, CPa2, and FC. The absorption spectrum of CPI had a red maximum at 674 nm and a peak in the blue at 435 nm. It was identified as PS chlorophyll a-protein Complex, but was contaminated with minor PSⅡ which was implied by the appearance of fluorescence emission peak at 680 nm besides the main one at 725 nm at 77 K. The spectral properties of CPIa and CPlb were similar to that of CPl. The absorption spectra of CPa1 and CPa2 were similar, both having red maxima at 667 nm and peaks in the blue at 431.5 nm. Their fluorescence emission had the same peaks at 684 nm at 77 K indicating that they belonged to PSⅡ. It was recognized that CPal of 47 kD is the reaction center complex of photosystem Ⅱ and CPa2 of 40 kD is the internal antenna complex of photosystem Ⅱ. The spectral characteristics of the chlorophyll-protein complexes resolved by ultrasonic method were similar to those of the same complexes resolved by SDS solubilization, except the absorbance positions of CPa1 and CPa2 in the blue peak and the red one which shifted to blue about 3–5 nm. It was calculated that in thylakoid membranes of blue-green algae 40.93% chlorophyll was in PSⅠ, while 38.78% of chlorophyll in PSⅡ. The difference of chlorophyll contents between PSⅠ and PSⅡ was only 2.15%. Concerning the fact that minor PSⅡ compound remained in the part of PSⅠ zones, it might be concluded that the distribution of chlorophyll between PSⅠ and PSⅡ in blue-green algae was equal. This result was in agreement with the hypothesis that PSⅠ and PSⅡ operates in series in photosynthetic electron transport.