RMRE3H91–. Bacteriology and the public health. Bacteriology; Public health. Fig. 13.—Diagram of Ascospore Formation. Fig. 14.—Gypsum Block. maltose), and in the chemical changes which they bring about in nutrient liquids. In connection with these variations Professor Hansen has pointed out that, whilst some species can be made use of in fermentation industries, others cannot, and some even produce " diseases " in beer.f One of the most remarkable evidences of the adaptability of the yeasts to their surroundings, and a specific characteristic, occurs in what is termed ascospore formation. If a
RMW1CYYW–Archive image from page 81 of Development of cytochemical methods for. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation . developmentofcyt00lusk Year: 1991 Figure 4.2. Serum labeling and buffer control on A. sphaerospora. A) labeling of immune-mouse serum (from second fusion, diluted 1/1000); B) buffer negative control. « Figure 4.3. 8F11 culture supernatant labeling on A. sphaerospora. A) Labeling on the ascospore wall and sporoplasmic vesicles (pointers); B) Labeling on the vegetative wall, including septum.
RMPG459K–. Diseases of economic plants . Plant diseases. FiG. 208. â Sclerotia of lettuce sclerotini- ose, natural aize. Original, ascospore â ascusmW- ^ emcospores w â , ^-^ ' Uigermmofwrr. Fig. 209. â Perithecium with aaci.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Stevens, Frank Lincoln, 1871-1934; Hall, John Galentine, 1870-. New York : Macmillan
RMRDE67G–. Farm friends and farm foes : a text-book of agricultural science . Agricultural pests; Beneficial insects; Insect pests. THE ASCOSPORE AND OTHER FUNGI 243 Those that fall upon green and tender bark are likely to germinate and start the disease again. As cold weather approaches, the tissues of the outer bark become much harder, with many little cavities inside. The fungus produces within these cavities spores that germinate the following spring and start the disease anew. The Black Knot affects most varie- ties of plum and cherry trees, both wild and cultivated, and the spores are easily carr
RMW1D1BG–Archive image from page 84 of Development of cytochemical methods for. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation . developmentofcyt00lusk Year: 1991 > â¢â¢ â¢:»>« 'V ,..⢠â¢Cj'-r T 75 Figure 4.5. Determinant characterization for 8F11. A & C) positive control, without pretreatment; B) pretreated with periodate; D) pretreated with pronase. accomplished by competing off the anti-wall antibodies with clean wall preparation (such as that used for immunogen) prior to incubation of the section(s). This experiment was not preformed due
RMPG4650–. Farm friends and farm foes : a text-book of agricultural science . Agricultural pests; Beneficial insects; Insect pests. THE ASCOSPORE AND OTHER FUNGI 245 infection do likewise. Consequently it is evident that the threads of the fungus grow along with the new growth of the branch. The best remedy is to cut the branch off, some- what below the point of infection, thus removing the dis- eased tissues. Apple Scab and Pear Scab The Apple Scab is one of the most familiar fungous diseases. It appears as black spots, upon the surface of the apple, and also upon the leaves. The spores of the fungus
RMRFCP8K–. Recent research on conifer needle diseases : conference proceedings, October 14-18, 1984, Gulfport, Mississippi. Conifers Diseases and pests Congresses. Figure 1. Lophodermium ascospore germination types. Postpenetration.—Immediately after penetration differences between species were observed. With L. pinastri, the infecting hyphae were observed to form "bladderlike" hyphae in the cuticles but necrosis of the cells below was not observed (fig. 3). At this stage sectioning of needles inoculated with L. pinastri revealed no further growth of the fungus from the cuticular region and n
RMW153WB–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 5.3. 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. 5.4A & 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
RMPG4657–. Farm friends and farm foes : a text-book of agricultural science . Agricultural pests; Beneficial insects; Insect pests. THE ASCOSPORE AND OTHER FUNGI 243 Those that fall upon green and tender bark are likely to germinate and start the disease again. As cold weather approaches, the tissues of the outer bark become much harder, with many little cavities inside. The fungus produces within these cavities spores that germinate the following spring and start the disease anew. The Black Knot affects most varie- ties of plum and cherry trees, both wild and cultivated, and the spores are easily carr
RMRF310A–. Recent research on conifer needle diseases : conference proceedings, October 14-18, 1984, Gulfport, Mississippi. Conifers Diseases and pests Congresses. Figure 1. Lophodermium ascospore germination types. Postpenetration.—Immediately after penetration differences between species were observed. With L. pinastri, the infecting hyphae were observed to form "bladderlike" hyphae in the cuticles but necrosis of the cells below was not observed (fig. 3). At this stage sectioning of needles inoculated with L. pinastri revealed no further growth of the fungus from the cuticular region and n
RMW1532E–Archive image from page 107 of Development of cytochemical methods for. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation . developmentofcyt00lusk Year: 1991 '.:-;'! 98 Results PNA, DBA and UEA-I PNA, DBA, and UEA-I did not label the fungi and bacteria tested. UEA-I and DBA did not label sections of the appropriate agglutinating blood type. WGA / GS-II Both WGA and GS-II lectins labeled the ascus wall but not the ascospore walls of Ascodesmis sphaerospora mgs fs 1 &5.2). This same labeling pattern was apparent on Pseudoplectania niqrella for both le
RMPG4646–. Farm friends and farm foes : a text-book of agricultural science . Agricultural pests; Beneficial insects; Insect pests. THE ASCOSPORE AND OTHER FUNGI 255 lished that on potatoes this disease may be prevented by rotation of crops and soaking the tubers to be planted in a solution of formalin of the strength of one oimce to two gallons of water. From theviewpointof geographical distribution, the Early Blight of the Potato seems even more important than the Late Blight. The former is distrib- uted throughout the United States, while the latter is chiefly destructive in New York and New England
RMRF3101–. Recent research on conifer needle diseases : conference proceedings, October 14-18, 1984, Gulfport, Mississippi. Conifers Diseases and pests Congresses. Figure 1. Lophodermium ascospore germination types. Postpenetration.—Immediately after penetration differences between species were observed. With L. pinastri, the infecting hyphae were observed to form "bladderlike" hyphae in the cuticles but necrosis of the cells below was not observed (fig. 3). At this stage sectioning of needles inoculated with L. pinastri revealed no further growth of the fungus from the cuticular region and n
RMW154EM–Archive image from page 112 of Development of cytochemical methods for. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation . developmentofcyt00lusk Year: 1991 103 Figure 5.5. WGA labeling with sugar control. A) sugar control on A. sphaerospora: B) sugar control on A. sphaerospora: C) WGA without sugar on A. sphaerospora: D) sugar control on P. nigrella: E) WGA without sugar on P. nigrella. LFA Labeling of LFA was evident over the cytoplasm of ascospores of A. sphaerospora (figs. 5.6). This labeling did not appear to be specific. Specific labeling
RMPFA8J2–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. ;â â¢â â¢*' "⢠0 when a protein and carbohydrate were closely associated, but not covalently bound together. The antigenic determinant must be exposed in section, rather than buried in the wall as no pretreatment of the sections was required for labeling. This antibody preparation labeled ascospores only in the late stages of the developmental sequence (fig. 4.6). â¢1 Anitbody 41-1.1 This monolonal antibody labeled an inner (sporoplasmic) layer of the primary a
RMRE3CNA–. A handbook of cryptogamic botany. Cryptogams. ASCOMYCETES 36s the traces may be seen, and by the time of maturity even the ascus-walls disappear and the perithece contains little but ripe ascospores. When the ascospore germinates it produces a mycele, on which there shortly arise upright sporophores with round swollen apices bearing â numerous short sterigmata over the surface. On the sterigmata chains of acrospores are formed successively, which, proceeding radially from the. Fig. 304.âEiirjtium repens de By. A, branch of mycele with sporophore, c, and sterigmata. st; early stage of carpogo
RMW154R1–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 5.6. 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. 5.8 A-C) and an inner lay
RMPG4CT7–. Diseases of truck crops and their control . Vegetables. Fig. 23. Lettuce Diseases. a Germinating sclerotium of SderoHnia liberliana the'cause of lettuce drop, 6. section of fruiting cup (aoothecium) showing asci. ascospores and fiaraphyses of S. liberliana. c. section through sclerotium of A. /.â¢;.»w.-^«" J r-^-T-.-.-ating ascospore of 5. «Offnia?ia (.a. ':'. ,. r'-. â - - âvens), e. Cercospora leaf spot.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may n
RMRE3CMA–. A handbook of cryptogamic botany. Cryptogams. ASCOMYCETES 36' during growth, to permit the escape of the ascospores, and as new asc are produced (mostly taking the place of older ones), the expansion ofter continues till the hymenial surface becomes convex. Ascobolus, like Gymnoascus, has no intervening acrospores, and thi germinating ascospore gives rise to a thallus which bears the sporocarj directly. It is a saprophyte, and the species abound on dung. 6. Pyronema (Fckl.).—Pyronema confluens (Tul.) (or Peziza con fluens, Pers., as it was formerly called), which, when mature, forms a dis co
RMW1D9B5–Archive image from page 955 of Dictionnaire d'horticulture illustré par. Dictionnaire d'horticulture illustrà / par D. Bois prÃface de Maxime Cornu avec la collaboration de E. Andrà ... [et al.]. . dictionnairedhor00bois Year: 1893 Fig. 681. â Petïlea volubilis L. PEZIZE. Formes de Discomycètes à rÃcep- tacle assez Ãtendu, le plus souvent largement onvert. Quelques esp. sont parasites. Les plus importantes sont les Pezizes à sclÃ- rotes qui appartiennent au genre Ciboria, dont le mycÃlium donne naissance à des sclÃrotes sur lesquels naît la forme ascospore cupulÃe. On peut citer : C.
RMPFA8J7–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. > â¢â¢ â¢:»>« "V ,..⢠â¢Cj'-r * T 75. Figure 4.5. Determinant characterization for 8F11. A & C) positive control, without pretreatment; B) pretreated with periodate; D) pretreated with pronase. accomplished by competing off the anti-wall antibodies with clean wall preparation (such as that used for immunogen) prior to incubation of the section(s). This experiment was not preformed due to the limited quantity of this antibody preparation. The antigen
RMRDTP3J–. Fungi, ascomycetes, ustilaginales, uredinales. Fungi. Ill] EXOASCALES 93 mother-cell during development. Two nuclei can frequently be recognized in the cells of the fertile mycelium, and the young ascus, in all investigated cases, is binucleate. The two nuclei fuse, the fusion nucleus undergoes three successive divisions and eight spores are formed (fig. 48). In many species budding of the ascospore takes place, so that the mature ascus contains numerous minute conidia (fig. 50) by means of which the fungus is distributed. The Exoascales include the single family Exoascaceae; with this is so
RMT1HJH7–Diseases of truck crops and Diseases of truck crops and their control diseasesoftruckc00taubuoft Year: [1918] Fig. 23. LETTL'cii Diseases. a Germinating sclerotium of Silerolinia liherliana the cause of lettuce drop, b. section of fruiting cup (apothecium) showing asci, ascospores and paraphyses of .S'. Uberliana, c. section through sclerotium of 6. librrHanii. d. germinating ascospore of .S'. liherliana (a. to d. after F. S. Stevens), e. Cercospora leaf spot.
RMPG464K–. Farm friends and farm foes : a text-book of agricultural science . Agricultural pests; Beneficial insects; Insect pests. THE ASCOSPORE AND OTHER FUNGI 247 spores are produced. These are scattered by wind and rain and serve to spread the disease to new fruits. The myce- lium gives a bitter taste to the parts of the apple near the decayed spot. This fungus is also able to develop upon the bark of apple trees, where it pro- duces dead blotches called cankers. The fungus apparently passes the winter both in these cankers and in the mummied fruits, from which new crops of spores are pro- duced in
RMRFCP91–. Recent research on conifer needle diseases : conference proceedings, October 14-18, 1984, Gulfport, Mississippi. Conifers Diseases and pests Congresses. Figure 1. Lophodermium ascospore germination types. Postpenetration.—Immediately after penetration differences between species were observed. With L. pinastri, the infecting hyphae were observed to form "bladderlike" hyphae in the cuticles but necrosis of the cells below was not observed (fig. 3). At this stage sectioning of needles inoculated with L. pinastri revealed no further growth of the fungus from the cuticular region and n
RMT1H599–The diseases of the sweet The diseases of the sweet pea .. diseasesofsweetp00taub Year: 1914 27 Figs. 12-15. Showing (12) mycelium of Chaetomiuni spirochaete. 13, hairs, and 15, asci. 16, ascospores. 14 and can only be seen in young cultures. In old cultures the ascus wall readily breaks so that it is difficult to make out the arrangement of the ascospores. There are 8 ascospores to an ascus (Fig. 14-15). The ascospores are apiculate (Fig. 16) at both ends. The wall of the ascospore is smooth, light brown when young and dark when old. The ascospores readily germinate in a sweet pea broth
RMPFA8JF–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. Figure 4.2. Serum labeling and buffer control on A. sphaerospora. A) labeling of immune-mouse serum (from second fusion, diluted 1/1000); B) buffer negative control. «. Figure 4.3. 8F11 culture supernatant labeling on A. sphaerospora. A) Labeling on the ascospore wall and sporoplasmic vesicles (pointers); B) Labeling on the vegetative wall, including septum.. Please note that these images are extracted from scanned page images that may have been digitally enhanced fo
RMREERG9–. Comparative morphology of Fungi. Fungi. Fig. 176.—Limacinia spongiosa. 1. Section of perithecium and subiculum (X200). Teichospora meridionalis. 2. Perithecium with disintegrating subiculum (X200). 3. Ascospore (X 670). {After Arnaud, 1911.) 176, 1, which gives a longitudinal section of a species closely allied to Pleosphaeria Citri, the also epiphytic Limacinia spongiosa; it is to be observed that the perithecia are still normally embedded in the flat subiculum. In other genera there appears a peculiar tendency, as in many Myri- angiales, to raise the perithecia on plectenchymatic protrusio
RMT3YNG4–Archive image from page 473 of Die pilze in morphologischer, physiologischer,. Die pilze in morphologischer, physiologischer, biologischer und systematischer beziehung diepilzeinmorpho00zopf Year: 1890 454 Die Pilze. (B. 754.) Fig. 146. Chaetomium Kunzeanum Zopf. Gemeiner Haarschopfpilz. I Stück eines Strohhalmes, mit Schlauch- früchtchen. II Eine Ascospore har in Mistdecoct ein winziges Mycel und den Conidienträger / getrieben; 300 fach. III Stück eines Mycelfadens aus einer Massencultur auf Brod, mit i- bis 2-zelligen Conidienträgern /, welche z. Th. mit langen Conidienketten verse
RMPFA8HD–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. 101 7 . 1 -â. Figure 5.3. 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. 5.4A & 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. N
RMRDE65J–. Farm friends and farm foes : a text-book of agricultural science . Agricultural pests; Beneficial insects; Insect pests. THE ASCOSPORE AND OTHER FUNGI 255 lished that on potatoes this disease may be prevented by rotation of crops and soaking the tubers to be planted in a solution of formalin of the strength of one oimce to two gallons of water. From theviewpointof geographical distribution, the Early Blight of the Potato seems even more important than the Late Blight. The former is distrib- uted throughout the United States, while the latter is chiefly destructive in New York and New England
RMT3WFPD–Archive image from page 34 of Die Protozoen als Krankheitserreger . Die Protozoen als Krankheitserreger : Nachtraege dieprotozoenalsk00pfei Year: 1895 Ueber Blutparasiten (Serumsporidien) bei blutkörperchenfreien Thieren. 25 beiden Formen fehlt die nadeiförmige Ascospore. Siehe Balbiani: Sur trois ento- phytes nouveaux du tube digestif des, myriapodes, in Journal de l'anat. et. physiol. von Pouchet. XXV. 1889. pag. 30. Fig. 13 a, h. a. Monospora bicuspidata Metschni ko f f (?) mit nadeiförmiger Ascospore, aus Gammarua pulex. b. G-lugeasporoblast von Gammarus, zum Vergleich. Bütschli besch
RMPFA8HR–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. '.:-;'*! 98 Results PNA, DBA and UEA-I PNA, DBA, and UEA-I did not label the fungi and bacteria tested. UEA-I and DBA did not label sections of the appropriate agglutinating blood type. WGA / GS-II Both WGA and GS-II lectins labeled the ascus wall but not the ascospore walls of Ascodesmis sphaerospora mgs fs 1 &5.2). This same labeling pattern was apparent on Pseudoplectania niqrella for both lectins (figs 5.3 & 5.4). Both lectins labeled vegetative cell wall
RMRM8NDA–. Annual report of the Cornell University Agricultural Experiment Station, Ithaca, N.Y. Cornell University. Agricultural Experiment Station; Agriculture -- New York (State). The Black-rot of the Grape, and its Control. 209 ascospore which is widest at the middle, were trying to squeeze through a tight place. At first, it moves slowly, but eventually the widest part passes the constriction and the spore is snapped into the air. It is often thus discharged for a distance of more than a centimetre (J inch). The next spore is pushed up and follows closely after the first, so that all eight spores
RMPG453K–. A text-book of mycology and plant pathology . Plant diseases; Fungi in agriculture; Plant diseases; Fungi. MILDEWS AND RELATED FUNGI l6l. Fig. 57-—.4, Balansia claviceps on car of Paspalum; B—L, Claviceps purpurea; B, sclerotiuin; C, sclerotium with Sphacelia; D, cross-section of sphacelial layer; £, sprouting sclerotiiun; F, head of stroma from sclerotium; G, section of same; H, section of perithecium; J, ascus; /C, germinating ascospore; C, conidiospores pro- duced on myceliiiin. {See Die naturlichen PJianzenfatnili^n I. i, p. 371.). Please note that these images are extracted from scanned
RMRHTKM6–. Better fruit. Fruit-culture. /p/; BETTER FRUIT The Length of Ascospore Activity By Leroy Chllds, Entomologist and Plant Pathologist, Hood River Branch Experiment Station FROM investigations carried on dur- ing the past three years relative to the control of apple scab in the Hood River Valley, Oregon, it has been found that the so-called "pink application" or cluster-bud application as used through- out the Eastern States as the first scab spray is not sufficiently early to obtain complete control of the disease. Jack- son and Winston (1) in their investi- gations of 1914 at Hood R
RMPG44C3–. A text-book of mycology and plant pathology . Plant diseases; Fungi in agriculture; Plant diseases; Fungi. DETAILED ACCOUNT OF SPECIFIC DISEASES OF PLANTS 501 Bhrs. " Siirs.. Fig. 178.—Photograph showing successive stages in the germination of asco- spores and pycnospores of the chestnut blight fungus {Endolhia parasitica). Left, ascospore series from 8 to 22 hours at hourly intervals; right, pycnospore series from 8 to 22 hours, taken every two hours. (After photo by Wm. Currie, Bull. 5, Penna. Chestnut Tree Blight Com., T913.). Please note that these images are extracted from scanned
RMRJNF7B–. Bacteria : especially as they are related to the economy of nature, to industrial processes and to the public health. Bacteriology; Bacteriology. & « & YEAST. (Saccharomyces Cerevisi^e.) X IOOO. ASCOSPORE FORMATION IN YEAST. ( The capsule of the parent cell around the spores is invisible."). T , NITROGEN FIXING BACTERIA FROM ROOTLET NODULES (Subculture). X IOOO. -*â /.⢠d r Â¥ * BACILLUS OF TETANUS. {From broth culture, showing spore formation.) X IOOO. By permission of the Scientific Press, Limited To face page 124.. Please note that these images are extracted from scanned
RMPF9MYK–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. '^. 104 <::.. ^jH i Figure 5.6. 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. 5.8 A-C) and an inner layer of vegetative cell walls or the plasma membrane of these cells (fig. 5.
RMRDE66A–. Farm friends and farm foes : a text-book of agricultural science . Agricultural pests; Beneficial insects; Insect pests. THE ASCOSPORE AND OTHER FUNGI 247 spores are produced. These are scattered by wind and rain and serve to spread the disease to new fruits. The myce- lium gives a bitter taste to the parts of the apple near the decayed spot. This fungus is also able to develop upon the bark of apple trees, where it pro- duces dead blotches called cankers. The fungus apparently passes the winter both in these cankers and in the mummied fruits, from which new crops of spores are pro- duced in
RMPFA8H7–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. 103. Figure 5.5. WGA labeling with sugar control. A) sugar control on A. sphaerospora: B) sugar control on A. sphaerospora: C) WGA without sugar on A. sphaerospora: D) sugar control on P. nigrella: E) WGA without sugar on P. nigrella. LFA Labeling of LFA was evident over the cytoplasm of ascospores of A. sphaerospora (figs. 5.6). This labeling did not appear to be specific. Specific labeling occurred in restricted areas around spent asci and on the outside of older c
RMRE3CK6–. A handbook of cryptogamic botany. Cryptogams. ASCOMYCETES 37S trichogyne is fertilised by the contact with it of one of the young hairs The perithece contains a number of asci, and these eight or twelve double ascospores. The ripe double ascospore attaches itself to a fresh host b) one of its ends, and develops into the new plant.. Fig, 312.—A : 6h, Stigmaiomyces Baeri Peyr. (.5"^. Mitsccs Karsten). A, optical longi- tudinal section of ripe specimen with organ of attachment at base; the asci are seen through wall of perithece. a, everywhere the appendage ', fi, an isolated ascus with s
RMRH80A8–. Botany of the living plant. Botany; Plants. A B Fig. 327. Cladonia furcata. A = vertical section of the thallus showing the inverted gonidial layer below the cortical sheath ( x 330). B =part of the same highly magnified, to show the mode of attachment of the hyphae to the gonidia ( x 950). (After Bornet.) The establishment of a new Lichen from the germination of the ascospore depends upon the presence of the algal partner. This is not left to chance, but is provided for, in some cases at least, by 11 hymenial gonidia " : these are small algal cells which develop in close relation to th
RMRE3CMH–. A handbook of cryptogamic botany. Cryptogams. FUNGI â copiously, and ultimately bear at the ends asci containing each eight ascospores, and the envelope-tissue is contributed by shoots from the neighbouring mycele and from the base of the carpogone. As already mentioned above, no acrospore stage intervenes here between sporocarp and sporocarp, i.e. the ascospore, on germinating, produces a thallus, which again bears the sporocarp directly. Gym- noascus is a saprophyte growing on dung. 5. AscOBOLUS (Pers.).âThe carpogone arises on the mycele in the form of a thick curved sausage-shaped latera
RMRDE0KD–. Diseases of truck crops and their control . Vegetables. Fig. 23. Lettuce Diseases. a Germinating sclerotium of SderoHnia liberliana the'cause of lettuce drop, 6. section of fruiting cup (aoothecium) showing asci. ascospores and fiaraphyses of S. liberliana. c. section through sclerotium of A. /.â¢;.»w.-^«" J r-^-T-.-.-ating ascospore of 5. «Offnia?ia (.a. ':'. ,. r'-. â - - âvens), e. Cercospora leaf spot.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may n
RMRDTNNT–. Fungi, ascomycetes, ustilaginales, uredinales. Fungi. I20 DISCOMYCETES [CH. gave rise to ascogenous hyphae; an investigation sufficiently searching to determine this point might have led to the recognition of nuclear fusions in normal material. The ascospore has a single large nucleus, and gives rise to multi- nucleate germ-tubes in which Ramlow's figures show numerous nuclei in pairs (fig. 16). In Ascophanns ochraceus Dangeard describes eight to fifteen oogonia as taking part in the formation of a single fruit. These, it would appear, are all borne upon the same hypha; they may arise from a
RMRJNFM3–. Bacteria, especially as they are related to the economy of nature. Bacteriology. i Yeast (Saccharomyces Cerevisi.^) X looo AscospoRE Formation in Yeast (The capsule of the parent cell around the spores is invisible). Nitrogen Fixing Bacteria from RoOTLET-NoDL-LES (St-BCL'LTURE) X looo ^ ^ .^'-- f >4 " ¥ f ^-^ '•.f t "•^ 9 ^ -*» t Bacillus of Tetanls (From 1 3roth culture, showing spore formation) X lOoo By permission of the Scientific Press, Limited. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - colo
RMRF3T2A–. Recent research on foliage diseases : conference proceedings : Carlisle, Pennsylvania, May 29-June 2, 1989. Leaves Diseases and pests United States Congresses. Fig. 1. LIFE CYCLE OF ojpj* o ci' e /-jb z mjjwt J>j£ C &« & ON NORWAY SPRUCE. Legend: = inoculation of current year needles II - endophytism for several years, exceptionally for one year III = formation, development and maturity of conidiomata IV = formation and development of apothecia V = maturity of apothecia and ascospore discharge VI = deterioration of apothecia and needles Ap = apothecium As = ascus Asp = ascospores
RMRFCBJ7–. Recent research on foliage diseases : conference proceedings : Carlisle, Pennsylvania, May 29-June 2, 1989. Leaves Diseases and pests United States Congresses. Fig. 1. LIFE CYCLE OF ojpj* o ci' e /-jb z mjjwt J>j£ C &« & ON NORWAY SPRUCE. Legend: = inoculation of current year needles II - endophytism for several years, exceptionally for one year III = formation, development and maturity of conidiomata IV = formation and development of apothecia V = maturity of apothecia and ascospore discharge VI = deterioration of apothecia and needles Ap = apothecium As = ascus Asp = ascospores
RMRDWACG–. Botany for high schools and colleges. Botany. P TRENOMYCETES. 293 â ascus contains eight ovate ascospores, wliicli are two-parted, ^s is the case in many other members of this order (5, Fig. 200). The ascospores escape through a pore in the top of the ascus, and in from three to five days begin to ger- minate by sending out a tube or small hypha; sometimes two or more hyphse start out from a single ascospore (6, Fig. 200). 388.âBesides the perithecia, there are other cavities found which much resemble them, but which contain other supposed reproductive bodies. In one kind are found the stylo
RMRDE1H7–. A text-book of mycology and plant pathology . Plant diseases; Fungi in agriculture; Plant diseases; Fungi. DETAILED ACCOUNT OF SPECIFIC DISEASES OF PLANTS 501 Bhrs. " Siirs.. Fig. 178.—Photograph showing successive stages in the germination of asco- spores and pycnospores of the chestnut blight fungus {Endolhia parasitica). Left, ascospore series from 8 to 22 hours at hourly intervals; right, pycnospore series from 8 to 22 hours, taken every two hours. (After photo by Wm. Currie, Bull. 5, Penna. Chestnut Tree Blight Com., T913.). Please note that these images are extracted from scanned
RMRH8XW5–. Botany for high schools and colleges. Botany. P TBENOMYCETES. 293 ascus contains eiglit ovate ascospores, wliicli are two-parted, as is the case in many other members of this order (5, Fig. 200). The ascospores escape through a pore in the top of the ascus, and in from three to five days begin to ger- minate by sending out a tube or small hypha; sometimes two or more hyphse start out from a single ascospore (6, Fig. 200). 388.—Besides the perithecia, there are other cavities found which much resemble them, but which contain other sui^posed reproductive bodies. In one kind are found the stylo
RMRDXT1P–. A manual of poisonous plants, chiefly of eastern North America, with brief notes on economic and medicinal plants, and numerous illustrations. Poisonous plants. Fig. 81. Tuberaceae. Truffles. 1. Tuber ruhrum. Part of interior of a truffle, show- ing hyphae, asci, and ascospores, greatly magnified.^ 2. T. aestivum, fruiting body. 3. T. brumale, section of truffle. 4. Ascospore of T. Magnatum. 1, 3, 5, after Tulasne. 2 after Wettstein. ing to the lower surface. The spot contains a small pustule called the apothe- cium, which is cup-shaped. This cup-shaped body contains the asci (sacs) in which
RMRDEFJF–. A text-book of mycology and plant pathology . Plant diseases; Fungi in agriculture; Plant diseases; Fungi. MILDEWS AND RELATED FUNGI l6l. Fig. 57-—.4, Balansia claviceps on car of Paspalum; B—L, Claviceps purpurea; B, sclerotiuin; C, sclerotium with Sphacelia; D, cross-section of sphacelial layer; £, sprouting sclerotiiun; F, head of stroma from sclerotium; G, section of same; H, section of perithecium; J, ascus; /C, germinating ascospore; C, conidiospores pro- duced on myceliiiin. {See Die naturlichen PJianzenfatnili^n I. i, p. 371.). Please note that these images are extracted from scanned
RMRDWA1F–. Botany for high schools and colleges. Botany. P YBEN0MT0ETE8. 293 ascus contains eight ovate ascospores, wliioh are two-parted, as is the case in many other members of this order (5, Fig. 200). The ascospores escape through a jDore in the top of the ascus, and in from three to five days begin to ger- minate by sending out a tube or small hypha; sometimes two or more hyphae start out from a single ascospore (6, Fig. 300). 388.—Besides the perithecia, there are other cavities found which much resemble them, but which contain other supposed reproductive bodies. In one kind are found the stylosp
RMREF809–. Comparative morphology of Fungi. Fungi. HYPOCREALES 247. Fig. 162.—Balansia Claviceps. A. Habit. Claviceps purpurea. B. Sclerotia. C. Young sclerotium. D. Section of conidial layer. E. Germinating sclerotia. F. Peri- thecial head. G. Section of perithecial head. H. Section of perithecium. /. Ascus. K. Germinating ascospore. L. Conidial hypha from culture. (A, B, E, natural size; J, K X 350; L X 200, after Tulasne, Brefeld and Lindau.). Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of thes
RMRDXT1G–. A manual of poisonous plants, chiefly of eastern North America, with brief notes on economic and medicinal plants, and numerous illustrations. Poisonous plants. Fig. 81. Tuberaceae. Truffles. 1. Tuber ruhrum. Part of interior of a truffle, show- ing hyphae, asci, and ascospores, greatly magnified.^ 2. T. aestivum, fruiting body. 3. T. brumale, section of truffle. 4. Ascospore of T. Magnatum. 1, 3, 5, after Tulasne. 2 after Wettstein. ing to the lower surface. The spot contains a small pustule called the apothe- cium, which is cup-shaped. This cup-shaped body contains the asci (sacs) in which
RMRH9TK3–. Botanische Untersuchungen ber einige in Java vorkommende Pilze, besonders ber Bltter bewohnende, parasitisch auftretende Arten. Fungi -- Indonesia Java; Phytopathogenic fungi -- Indonesia Java. 180 BOTANISCHE UNTEllSUCHUNGEN, U.S.W. Teilsporen zerfüllencn fadenförmigen Ascosporen; reclits (lanchcii eine noch nicht zerfallene Ascospore. — Fig. 13, 17. Art der P)il- dung der Teilsporen (nach getrocknetem jMaterial; scheniatisirt).— Fig. 13, 18. Teilspore; nach lebendem Material. 3. ÜOTHI DEALES. 1) 0 T II I ) i: A C E A E. TelliiHiia Erjllirinae Raciborski Parasitische Algen w. Pilze 1 (190Ü)
RMRE392D–. Danish fungi as represented in the herbarium of E. Rostrup;. Fungi. 147. Fig. 12. Hypoderma brachysporum on leaves of Pinus strobus, d, perithecium enlarged, b, ascus -j-, c, ascospore -p. From R 02 a. It clearly differs from Lop- hod, pinastri by its shorter asci and sporidia. The descrip- tion does not occur with Sac- cardo nor with Rehm but with Tubeuf (02^^). Rostrup mentions it early (83 d "', 85 a ''^ 6^ 87 j; see also Dalgas 88 ^=5), but he did not de- scribe it till 1889. Specimens of this fungus from Denmark are already contained in Schu- macher's herbarium from the beginning o
RMRJTMK7–. Atti della Accademia gioenia di scienze naturali in Catania. Ricerche intorno al ciclo evolutivo di una interessante forma ecc. 25 Kiassumendo i risultati ottenuti colla seconda forma di Pleo- spora, cimentata nei vari substrati, si ha che : 1. Le ascospore a cimine setti trasversali, di periteci tratti dalle macchie fogliari di Corypha uustralis diedero infallantemente dei conidì piriformi mu- rale-settati , riuniti in catenelle, riferil)ili ad Alternaria (certamente VAlternaria tenuis'NGefi). 2. Le Alternarie ot- tenute da ascospore, ger- minando nello stesso substrato di coltura, die- der
RMRG920J–. Bulletin trimestriel de la Société mycologique de France. Mycology; Fungi; Fungi. ! ES ZOPEIA. RtCHONlA ET CARYOSPORA. 259 Les principaux caractères des Zopfiacées sont : 1° La disposition des asques s'insérant sur une région cen- trale et rayonnant vers la périphérie ;. Figure 2.— Caryospora putaminum (Schw.) de Not. — a) Noyau de pêche portant les conceplacles, 3/2 gr. nat, ; 6) Gonceptacles grossis. ; c) Coupe d'un conceptacle ; d) Ascospore mure ; e) Ascospore jeune anormale montrant les cellules d'une des pointes.. Please note that these images are extracted from scanned page images tha
RMRMX3XJ–. Annales des Sciences Naturelles Botaniques. 346 L. MANGIN dimensions 7,G x 5,G qui présentent sur leur grand diamètre une gouttière bien nette, bordée de deux crêtes circulaires plus ou moins saillantes (fig. 8, As. r, et As. o) et fig. 9, As. ); les. Fig. 8. — Ascospores de diverses formes. As. Ç et As. o de dimensions 7 p. 6 x 5 |»7, vues de face et de profil. As. jx, dimensions 9,4 x 6,6. L'une des formes As. o montre la coupe optique d'une ascospore avec la ligne pointillée de moindre résistance. Fig. 9. — As. fy, ascospores de dimen- sions 7 |a6x5[ji7. As. r), ascospores ayant 9 jx 4 x
RMRCTCM2–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. . Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCK3–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. 106. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCP8–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. CD. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCJH–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. 113. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCKW–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. c^J. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCN4–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. n ': ! ' 79 t. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCJR–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. 111 > •. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCJW–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. 109 i'. 4. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCP4–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. CD. â ^ ^m. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCM7–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. ""'If 100 i. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCNG–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. 74 4. ' -ffi 4 ^. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCMJ–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. * i â ⢠J 85 ^'v>/. ^.^. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCJB–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. -SZi •vj 115. ^^ I ) 4 ^. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCMP–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. 83. â¢â *-â â jE n''^; ^ 1. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCN6–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. p^'-r fi. - ^ '4? ":1 ', ^-.^ r. â rvj. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCC699–. Diseases of economic plants. Plant diseases. — Sclerotia of lettuce sclerotini- ose, natural size. Original. ascospore qermimr/orr. Fig. 209. — Perithecium with asci.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Stevens, Frank Lincoln, 1871-1934; Hall, John Galentine, 1870-. New York, Macmillan
RMRCTCMA–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. knA'^ i Figure 5.1. WGA labeling on A. sphaerospora. A) WGA test; B) buffer negative control. '' !vS. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCDP9P–. Diseases of economic plants. Plant diseases. Fig. 208. — Sclerotia of lettuce sclerotini- ose, natural size. Original. ascospore Wgerm/naf/o/r. Fig. 209. — Perithecium with asci.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Stevens, Frank Lincoln, 1871-1934; Hall, John Galentine, 1870- joint author. New York, The Macmillan Company
RMRCTCKF–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. Tt 102. Figure 5.4. GS-II labeling on P. niqrella. A) ascus, ascospore and paraphysis labeling; B) cells of the excipular layer; C) sugar negative control.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCTCP3–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. Figure 4.2. Serum labeling and buffer control on A. sphaerospora. A) labeling of immune-mouse serum (from second fusion, diluted 1/1000); B) buffer negative control. «. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Lusk, Demaris E..
RMRCCKGH–. Diseases of truck crops and their control. Vegetables. Fig. 23. Lettuce Diseases. a. Germinating sclerotium of Sclerolinia lihertiana the cause of lettuce drop, b. section of fruiting cup (apothecium) showing asci, ascospores and paraphyses of S. liberliana, c. section through sclerotium of .S. lihertiana, d. germinating ascospore of S. lihertiana (a. to d. after F. S. Stevens), e. Cercospora leaf spot.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectl
RMRCCKEA–. Diseases of truck crops and their control. Plants -- Diseases. Fig. 23. LETTL'cii Diseases. a Germinating sclerotium of Silerolinia liherliana the cause of lettuce drop, b. section of fruiting cup (apothecium) showing asci, ascospores and paraphyses of .S'. Uberliana, c. section through sclerotium of 6. librrHanii. d. germinating ascospore of .S'. liherliana (a. to d. after F. S. Stevens), e. Cercospora leaf spot.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may n
RMRCTCNB–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. > â¢â¢ â¢:»>« "V ,..⢠â¢Cj'-r * T 75. Figure 4.5. Determinant characterization for 8F11. A & C) positive control, without pretreatment; B) pretreated with periodate; D) pretreated with pronase. accomplished by competing off the anti-wall antibodies with clean wall preparation (such as that used for immunogen) prior to incubation of the section(s). This experiment was not preformed due to the limited quantity of this antibody preparation. The antigen
RMRCTCN1–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. ;â â¢â â¢*' "⢠0 when a protein and carbohydrate were closely associated, but not covalently bound together. The antigenic determinant must be exposed in section, rather than buried in the wall as no pretreatment of the sections was required for labeling. This antibody preparation labeled ascospores only in the late stages of the developmental sequence (fig. 4.6). â¢1 Anitbody 41-1.1 This monolonal antibody labeled an inner (sporoplasmic) layer of the primary a
RMRCTCNN–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. Figure 4.2. Serum labeling and buffer control on A. sphaerospora. A) labeling of immune-mouse serum (from second fusion, diluted 1/1000); B) buffer negative control. «. Figure 4.3. 8F11 culture supernatant labeling on A. sphaerospora. A) Labeling on the ascospore wall and sporoplasmic vesicles (pointers); B) Labeling on the vegetative wall, including septum.. Please note that these images are extracted from scanned page images that may have been digitally enhanced fo
RMRCTCKN–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. 101 7 . 1 -â. Figure 5.3. 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. 5.4A & 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. N
RMRCCKN9–. The diseases of the sweet pea ... Sweet peas. 27. Figs. 12-15. Showing (12) mycelium of Chaetomiuni spirochaete. 13, hairs, and 15, asci. 16, ascospores. 14 and can only be seen in young cultures. In old cultures the ascus wall readily breaks so that it is difficult to make out the arrangement of the ascospores. There are 8 ascospores to an ascus (Fig. 14-15). The ascospores are apiculate (Fig. 16) at both ends. The wall of the ascospore is smooth, light brown when young and dark when old. The ascospores readily germinate in a sweet pea broth which is made up as follows: Take 15 grams of gro
RMRCTCME–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. '.:-;'*! 98 Results PNA, DBA and UEA-I PNA, DBA, and UEA-I did not label the fungi and bacteria tested. UEA-I and DBA did not label sections of the appropriate agglutinating blood type. WGA / GS-II Both WGA and GS-II lectins labeled the ascus wall but not the ascospore walls of Ascodesmis sphaerospora mgs fs 1 &5.2). This same labeling pattern was apparent on Pseudoplectania niqrella for both lectins (figs 5.3 & 5.4). Both lectins labeled vegetative cell wall
RMRCTCK7–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. '^. 104 <::.. ^jH i Figure 5.6. 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. 5.8 A-C) and an inner layer of vegetative cell walls or the plasma membrane of these cells (fig. 5.
RMRCGG82–. Die Protozoen als Krankheitserreger : Nachtraege. Protozoa -- pathogenicity; Parasitic Diseases. Ueber Blutparasiten (Serumsporidien) bei blutkörperchenfreien Thieren. 25 beiden Formen fehlt die nadeiförmige Ascospore. Siehe Balbiani: Sur trois ento- phytes nouveaux du tube digestif des, myriapodes, in Journal de l'anat. et. physiol. von Pouchet. XXV. 1889. pag. 30. Fig. 13 a, h.. a. Monospora bicuspidata Metschni ko f f (?) mit nadeiförmiger Ascospore, aus Gammarua pulex. b. G-lugeasporoblast von Gammarus, zum Vergleich. Bütschli beschreibt in seinen Studien über die ersten Entwickelungsvor
RMRCTCKC–. Development of cytochemical methods for the study of ascospore wall biogenesis and maturation. Ascomycetes; Ascospores; Fungi. 103. Figure 5.5. WGA labeling with sugar control. A) sugar control on A. sphaerospora: B) sugar control on A. sphaerospora: C) WGA without sugar on A. sphaerospora: D) sugar control on P. nigrella: E) WGA without sugar on P. nigrella. LFA Labeling of LFA was evident over the cytoplasm of ascospores of A. sphaerospora (figs. 5.6). This labeling did not appear to be specific. Specific labeling occurred in restricted areas around spent asci and on the outside of older c
RMRCHD77–. Die pilze in morphologischer, physiologischer, biologischer und systematischer beziehung. Fungi. 454 Die Pilze.. (B. 754.) Fig. 146. Chaetomium Kunzeanum Zopf. Gemeiner Haarschopfpilz. I Stück eines Strohhalmes, mit Schlauch- früchtchen. II Eine Ascospore har in Mistdecoct ein winziges Mycel und den Conidienträger / getrieben; 300 fach. III Stück eines Mycelfadens aus einer Massencultur auf Brod, mit i- bis 2-zelligen Conidienträgern /, welche z. Th. mit langen Conidienketten versehen sind; 54ofach. IV Mycelfaden mit Gemmen, die theilweis septirt erscheinen; 540fach. V Eine Gemme, welch