Cell walls of algae in the volvocales: Their sensitivity to a cell wall lytic enzyme and labeling with an anti-cell wall glycopeptide ofChlamydomonas reinhardtii

Abstract

A cell wall lytic enzyme (gamete wall-autolysin) and a polyclonal antiserum raised against one of the major cell wall glycopeptides ofChlamydomonas reinhardtii were used to study their cross-reactivities with the cell walls of variety of members of the Volvocales. Lytic enzyme was able to digest completely the cell walls of five species ofChlamydomonas (C. reinhardtii group), six species ofGonium and two species ofAstrephomene. The colonial structures ofGonium andAstrephomene were broken into individual cells by exposure to the enzyme and protoplasts were then formed. These organisms also showed a strong cross-reactivity with anti-cell wall glycopeptide by an indirect-immunofluorescence test. The cell walls ofChlamydomonas angulosa, Dysmorphococcus globosus, Pandorina morum, Eudorina elegans, Volvulina steinii, Pleodorina california andVolvox carteri all showed a strong cross-reactivity to the antibody, although they were insensitive to the lytic enzyme. Many other species ofChlamydomonas, Carteria crucifera, Chlorogonium elongatum, Polytoma uvella, Haematococcus lacustris, Lobomonas piriformis, Phacotus lenticularis, Pteromonas angulosa, Stephanosphera pluvialis, andPyrobotrys casinoensis had cell walls which were resistant to the enzyme and showed no or weak cross-reactivity with the antibody. Based on the results, a possible evolutionary sequence from a unicellular relative ofC. reinhardtii to the multicellular algae is discussed.