Colocalization of Amanitin and a Candidate Toxin-Processing Prolyl Oligopeptidase in Amanita Basidiocarps

Amanitin immunostaining of lamellae (gills) of A. bisporigera observed by confocal laser scanning microscopy (CLSM). (A) Low-magnification CLSM view showing cross-section of two lamellae and part of a third. (B) Higher magnification of a single lamella by CLSM. (C) Same gill section as in panel B viewed by differential interference contrast (DIC). (D) A different basidiocarp, showing a cross-section of three lamellae and parts of two others by CLSM. (E) Antiamanitin immunostaining of basidia (arrows), indicated by the sterigmata (the two slender projections), sterile cells (arrowheads), and the subhymenium (CLSM superimposed on DIC). Sterigmata are the slender projections from the basidia that bear the basidiospores, which are no longer present in these sections. Sterile cells are the cells in the hymenium that, in Amanita, resemble basidia but do not bear spores. (F) Same section as in panel E viewed with DIC alone. (G) Antiamanitin immunostaining of hymenium and subhymenium showing basidia (arrows) with sterigmata and sterile cells containing amanitin (CLSM superimposed on DIC). (H) Same section as in panel G observed by DIC. (I) Basidia (arrows) showing absence of amanitin and adjacent sterile cells (arrowheads) showing presence of amanitin (CLSM superimposed on DIC).

Amanitin immunostaining of different tissues of A. bisporigera by LSM. (A) Section of the pileus of the immature basidiocarp shown in Fig. 1B. (B) Section of a mature pileus. (C) Same view as in panel B with white lines manually drawn to highlight outlines and boundaries of the cells. (D) Higher magnification of an individual hypha of a mature pileus (CLSM superimposed on DIC). (E) Section of stipe (stem) of a mature basidiocarp. (F) Section of a universal veil (volva) of a mature basidiocarp (Fig. 1A).

Dual immunostaining of A. bisporigera lamellae using antiamanitin and antiactin antibodies. (A to C) Lamella cross-sections, showing amanitin staining, actin staining, and the merge of the two, respectively. (D to F) Higher-magnification views of a cross-section of a lamella (same staining order as for panels A to C). (G to I) Higher-magnification views of a cross-section of a mature pileus.

Gene structures of AbPOPA and AbPOPB of A. bisporigera.

DNA blotting of 13 Amanita species probed with AbPOPA (A) or AbPOPB (B). Amanita species: lanes 1, A. aff. suballiacea; lanes 2, A. bisporigera; lanes 3, A. phalloides; lanes 4, A. ocreata; lanes 5, A. novinupta; lanes 6, A. flavoconia; lanes 7, A. porphyria; lanes 8, A. franchetii; lanes 9, A. muscaria; lanes 10, A. gemmata; lanes 11, A. hemibapha; lanes 12, A. velosa; lanes 13, unidentified species of Amanita section Vaginatae. Mushrooms represent sections Phalloideae (lanes 1 to 4), Validae (lanes 5 to 8), Amanita (lanes 9 and 10), Caesareae (lane 11), and Vaginatae (lanes 12 and 13). Approximately the same amount of DNA was loaded in each lane (10).

Gene maps of lambda phage clones containing AbPOPA (A) or AbPOPB (B). Arrows indicate transcriptional direction. Genes were predicted using FGENESH (Softberry Inc.).

Immunoblotting of E. coli inclusion bodies and total extracts of A. bisporigera with anti-AbPOPB antibody. Lanes: 1, BL21 empty vector (PET21) control; 2, inclusion body (1 μl = 0.05 μg) of an E. coli BL21 line expressing AbPOPB; 3 through 6, total soluble protein from A. bisporigera loaded at 24 μg, 47 μg, 94 μg, and 141 μg, respectively. All lanes were from the same gel, but some lanes between lanes 1 and 2 were removed. Size indicators (left) are in kDa.