Archive image from page 113 of Development of cytochemical methods for. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation . developmentofcyt00lusk Year: 1991 '. 104 <::. jH i Figure LFA labeling on A. sphaerospora. A) on an ascospore (1/80 lectin dilution); B) on an ascospore (1/40 lectin dilution); C) sugar negative control (1/80 lectin dilution) on an ascospore. Con A Con A labeling on A. sphaerospora was different than for the previous lectins. In this case the lectin labeled the ascospore walls strongly (fig. A-C) and an inner lay
Archive image from page 113 of Development of cytochemical methods for. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation . developmentofcyt00lusk Year: 1991 '. 104 <::. jH i Figure LFA labeling on A. sphaerospora. A) on an ascospore (1/80 lectin dilution); B) on an ascospore (1/40 lectin dilution); C) sugar negative control (1/80 lectin dilution) on an ascospore. Con A Con A labeling on A. sphaerospora was different than for the previous lectins. In this case the lectin labeled the ascospore walls strongly (fig. A-C) and an inner layer of vegetative cell walls or the plasma membrane of these cells (fig. & OB) and a similar area on the ascus walls (fig. A), but nothing more on these later wall systems (figs. & D, and A & B). Electron transparent areas within vegetative cells and asci were labeled when higher concentrations of the lectin were used (fig. ).
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Keywords: 1990, 1991, archive, ascomycetes, ascospores, book, bookauthor, bookdecade, booksponsor, booksubject, bookyear, drawing, fungi, historical, history, illustration, image, lusk_demaris_e_, page, picture, print, reference, university_of_florida_george_a_smathers_libraries_wi, vintage
