We discovered that pigments including carotenoids and (bacterio)chlorophylls in pigment–protein complexes, membrane fragments, and chlorosomes suspended in water could be injected directly into C18 HPLC and analyzed without any other… Click to show full abstract
We discovered that pigments including carotenoids and (bacterio)chlorophylls in pigment–protein complexes, membrane fragments, and chlorosomes suspended in water could be injected directly into C18 HPLC and analyzed without any other treatments. We applied this method to LH1-RC and chromatophores of purple bacteria, chlorosomes of green sulfur bacteria, thylakoid membranes of cyanobacteria, and PSII and thylakoid membranes of spinach. HPLC elution profiles and pigment composition were the same as those of the conventional extraction method. The principle of this method might be that samples are first trapped on top of column, followed by the immediate extraction of the pigments with the HPLC eluent and their separation using the C18 column, as usual. In the conventional extraction method, pigments are first extracted with organic solvents, followed by evaporation of the solvents. The dried pigments are then dissolved in organic solvents and injected into C18 HPLC after filtration. The advantages of this method include the preventions of pigment isomerization and oxidation and the possibility of injecting all samples. Its drawbacks include the accumulation of denatured proteins at the top of column, causing increased HPLC pressure. The use of a guard column might solve this problem. Many factors, such as samples, column, and HPLC systems, may affect this method. Nevertheless, we think that some samples can be analyzed using this method.
               
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