Single-cell pigmentation of Porphyra linearis analyzed by Fourier transform multi-pixel spectroscopy and image analysis

Shlomit Katz, Zvy Dubinsky, Chana Rothmann, Zvi Malik, Michael Friedlander

    Research output: Contribution to journalArticlepeer-review

    6 Scopus citations

    Abstract

    The novel method of Fourier transform multi-pixel spectroscopy was used for the nondestructive analysis of and comparison of pigmentation in different regions of live thalli of the red alga Porphyra linearis. Because the thallus in this alga consists of a monolayer of nonoverlapping cells, we were able to analyze the pigmentation of single cells by combining light absorbance with natural fluorescence data. From the image of each cell in the vegetative male and female reproductive and holdfast regions, more than 4 X 104 fluorescence and absorbance spectra were obtained. Specific pigments in the different regions were localized by the use of a software program of similarity mapping followed by image construction. The reconstructed images revealed subcellular localization of each pigment according to specific spectroscopic fingerprints. The results showed that the vegetative and female reproductive cell types had a significantly higher content of phycoerythrin than of phycocyanin, and quite similar chlorophylla levels. Most of the holdfast cells were poorly pigmented, but had more chlorophyll a than phycoerythrin or phycocyanin. The male reproductive cells contained only traces of pigments. Thus, by using Fourier transform multipixel spectroscopy, we were able to characterize the pigmentation of different regions of the thallus and follow the distribution patterns of the different pigments on the subcellular level along the differentiation gradient of the alga.

    Original languageEnglish
    Pages (from-to)425-432
    Number of pages8
    JournalJournal of Phycology
    Volume33
    Issue number3
    DOIs
    StatePublished - 1997

    Keywords

    • Absorbance
    • Chlorophyll
    • Fluorescene
    • Image analysis
    • In vivo
    • Phycocyanin
    • Phycoerythrin
    • Pigments
    • Porphyra
    • Spectroscopy

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