Archive image from page 110 of Development of cytochemical methods for. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation . developmentofcyt00lusk Year: 1991 101 7 . 1 -â Figure WGA labeling on P. niqrella. A) lower region of ascus with ascospore; B) ascus apex; C) buffer negative control. i. . paraphysis walls but did label vegetative cells in the excipular layers below the hypothecium (fig. & C). Paraphyses were not labeled with WGA either. In both species the WGA labeling was increased with what should have been the sugar negative co

---

Archive image from page 110 of Development of cytochemical methods for. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation . developmentofcyt00lusk Year: 1991 101 7 . 1 -â Figure WGA labeling on P. niqrella. A) lower region of ascus with ascospore; B) ascus apex; C) buffer negative control. i. . paraphysis walls but did label vegetative cells in the excipular layers below the hypothecium (fig. & C). Paraphyses were not labeled with WGA either. In both species the WGA labeling was increased with what should have been the sugar negative control (fig. 5-5). EY Labs provided N-acetylglucosamine for this purpose. No other negative control was immediately available and therefore none was tried. In addition to specific labeling of the ascus walls, GS-II lectin also specifically labeled electron transparent areas within both the ascus and vegetative cells (fig. ).

---

Size: 1742px × 1148px
Photo credit: © Actep Burstov / Alamy / Afripics
License: Licensed
Model Released: No

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