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Fungi- Cell Wall & Thallus Structure.pdf

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Nistarini College, Purulia (W.B) India

This Presentation has been made to explore the cell wall and range of thallus structure & its modification for academic pleasure.

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MYCOLOGY PRESENTATION BY: Dr. N. Sannigrahi, Associate Professor, Department of Botany, Nistarini College, Purulia, D.B. Road, Purulia ( W.B), 723101, INDIA.
CONTENTS  Fungi as cell,  Cell components,  Thallus organization,  Thallus modifications,  Special structure of thallus,  Cell wall-Structure & Function,  Ultra structure of cell wall & Composition,  Conclusions.
FUNGAL CELL  Fungi as ubiquitous in the form of saprophytes, parasites or symbionts is the eukaryotic in nature with wide diversity as far as the somatic structure is concerned. The fungi enjoys a wide range as far as reproduction is concerned and the cellular organizational beauty has made it unique one in this respect.  Eukaryotic with distinct cell wall. Cytoplasm & nucleus,  Uninucleate or multinucleate as coenocytes,  Heterokaryotic or homokariotic in nature,  Nucleus contains one or more nucleoli,  Cytoplasm colorless and granular to reticulate in appearance,  Cytoplasm contains many big but irregular vacuoles whereas the higher members contain single large vacuole found in central position,  Cells contain mitochondria and complex system of internal membranes including ER, Golgi apparatus,  Cell membrane contain ergo sterol that replace the cholesterol in animal cells.
TYPICAL FUNGAL CELL
THALLUS ORGANISATION  Unicellular Thallus :  In some of the lower fungi such as the chytrids, the thallus is more or less a spherical, single-celled structure . At the time of reproduction, it becomes a reproductive unit. The latter produces the asexual or sexual cells. Such fungi are called holocarpic. In them, the vegetative and reproductive stages do not occur together in the same thallus.  Plasmodiophora has a vegetative phase consisting of a naked, multi- nucleate, amoeboid mass of protoplasm. It is termed Plasmodium. The protoplast of the diploid Plasmodium cleaves to form the resting spores. The yeasts, which are related to the filamentous forms, also have a unicellular thallus. In the unicellular holocarpic forms (Synchytrium) the mycelium is absent.  Filamentous Thallus :  The vast majority of the fungi have a filamentous thallus. It originates through the germination of a spore. The spore germinates as it lands on a suitable substratum where other conditions of life are also favorable. In some species, the spore, on germination, produces only a short, tubular structure of limited growth.
RANGE OF THALLUS STRUCTURE
RANGE OF THALLUS STRUCTURE  It constitutes the thallus and is technically called a hypha. The spores of most of the fungi, however, give rise to a fluffy thallus consisting of a cottony mass of fine, branched filaments. These long, fine filaments are called the hyphae (sing, hypha). Some of these hyphae, at a certain stage of maturity, extend into the air and bear the reproductive bodies.  The rest spread over or within the substratum and continue the normal activities. Such fungi are called eucarpic. Collectively the hyphae comprise the vegetative body (thallus) of a fungus which is called the mycelium. The hypha is thus a structural unit of the mycelium. It consists of a thin, transparent wall filled or lined with a layer of cytoplasm.  The medium upon which the mycelium grows is known as substratum. The mycelium is the food procuring structure in the life cycle. It carries on the general activities of a plant cell such as absorption, digestion, respiration, excretion and growth but not photosynthesis. The hyphae constituting the mycelium branch, spread in all directions within or over the substratum to form a loose and ramifying network.
RANGE OF THALLUS STRUCTURE  The hyphae are usually colourless particularly those embedded in the substratum. The aerial hyphae in some fungi become colored. Black, orange, yellow, red, blue and brown are the usual tints. The color is usually confined to the hyphal wall.  Even when the pigments are present in the protoplasmic contents, they do not form an integral part of the living matter. The pigments play no role in the physiology of the fungus. The growth in length takes place at the tips of the hyphae and is thus termed apical.  The thallus may be grouped into- holocarpic or eucarpic; When the thallus as a whole is vegetative as well as reproductive in function- holocarpic but when the portion of the hyphae of the thallus takes part in reproduction-eucarpic.  Hyphae- aerial or substrate , both are branched; substrate hyphae for nutrients but aerial hyphae for reproductive structures, look black, red, blue , green , brown in color diversity;  Hyphae may be modified- Prosenchyma, Pseudo parenchyma, Rhizomorph, Sclerotia, Sporophore, Stroma etc depending on species diversity.
KINDS OF MYCELIUM  The fungus mycelium in fact, is a multinucleate structure lacking complete internal cell boundaries.  i. Aseptate Mycelium- In algal fungi, it is multinucleate, aseptate, grows terminally by the apical elongation of the hyphae accompanied by increase in the number of nuclei by nuclear division, becomes coenocytes.  Ii. Septate Mycelium- Develop internal cross walls that divide the hyphae into segments at regular intervals behind the hyphal tip, segments uninucleate or multinucleate. Formation of septa is always preceded by the division of nucleus, each has a central pore or rarely more than one pore although complete partitions do not occur during vegetative phase.  Mostly found in the members of Ascomycetes & Basidiomycetes,  In Basidiomycets, further elaboration of the septum to produce a more complex pore called dolipore and it is covered by round bracket like structure – Parenthesome.
AGGREGATION OF HYPHAE  Different types of modifications of hyphae mycelium are found as follows:  PLECTENCHYMA-A kind of false tissue formed by the aggregation of hyphae, may be two types-  A. Prosenchyma - Rather loosely woven hyphae, hyphae do not lose their identity, run more or less parallel to each other composed of elongated cells,  B. Pseudoparenchyma - The hyphae become woven and intertwined into a compact mass, hyphal mass appears to be continuous structure consisting oval cells , resemblance with parenchyma tissue of higher cells  RHIZOMORPH- Interwoven hypae to form rope like structure,  Tightly packed and individual hyphae lose their individual identity,  Outer hard black external layer of the rhizomporph called rind,,  Each rhizomorph contains a growing tip,  Rhizomorphs are perennating structure to withstand adverse conditions.
RANGE OF THALLUS STRUCTURE
AGGREGATION OF HYPHAE  SCLEROTIUM- Specially modified mycelium for storage, perennation and vegetative propagation,  Compact, rounded. Cushion shaped, cylindrical or irregular object,  Dense mass of thick walled short hyphae to form pseudoparenchymatous structure,  polyhedral shape,  Outer surface dark brown black and crest like,  It may be pin head to large with several inches in diameter.  SPOROPHORES- Spore bearing modified into group to form pycnidia, sporodochia, hymenia, acervuli etc,  Aerial, erect and arise from the prostrate hyphae,  Branched or unbranched with sporangia or conidia with them,  Spore bearing sporophores are sporangiosphores and conidia bearing called conidiophores.
AGGREGATION OF HYPHAE  STROMATA: The fungal tissue forms a mass of pseudoparenchymatous tissue like flat or cushion shape structure,  Several fructifications to form reproductive structures,  PESUDOSCLEROTIUM  The sclerotium like bodies are formed at the base of the fruit bodies of higher fungi,  In Polyporous basilapiloides formed below the soil surface  Composed of sand particles surrounded by hyphal aggregations  APPRESORIUM  Common in parasitic fungi mostly found in ectoparasites, Terminal simple or lobed swollen structure of germ tubes or infection hyphal  Adheres to the surface of the host and helps in the penetration of the hyphae of the pathogen,  Found in the parasitic fungi of the orders Erysiphales.
APPRESORIUM
AGGREGATION OF HYPHAE  HAUSTORIUM  Mostly found in the intercellular absorbing structure of obligate parasites,  Usually produced in the fungi in which intercellular mycelium formed,  Vary in shape , may be knob shaped or branched finger shaped,  Secrete certain enzymes which hydrolyses the proteins and carbohydrates of the host cell and absorb the nutrients from the host cell without killing them,  Provide greater surface area for the exchange of materials.  In addition to these above kind of modifications, different other specialized modifications are formed in order to address the stress and other issues appear in course of their survival and reproductive potential.
HAUSTORIUM
CELL WALL COMPOSITION  The fungal cell wall is located outside the plasma membrane and is the cell compartment that mediates all the relationships of the cell with the environment.  It protects the contents of the cell, gives rigidity and defines the cellular structure.  The cell wall is a skeleton with high plasticity that protects the cell from different stresses, among which osmotic changes stand out.  The cell wall allows interaction with the external environment since some of its proteins are adhesions and receptors.  Since, some components have a high immunogenic capacity, certain wall components can drive the host’s immune response to promote fungus growth and dissemination.  The cell wall is a characteristic structure of fungi and is composed mainly of glucans, chitin and glycoprotein.
CELL WALL COMPOSITION
CELL WALL COMPOSITION  The cell wall is a specific and complex cellular organelle composed of glucans, chitin, chitosan, and glycosylated proteins. Proteins are generally associated with polysaccharides resulting in glycoprotein. Together, these components contribute to the cell wall rigidity. The synthesis and maintenance of cell wall involves a large number of biosynthetic and signaling pathways (Casadevall and Perfect, 1998).  The cell wall is structured in different layers where the innermost layer is a more conserved structure on which the remaining layers are deposited and can vary between different species of fungi.  Glucans is the most important structural polysaccharide of the fungal cell wall and represents 50–60% of the dry weight of this structure. Most polymers of glucans are composed of 1,3 linkage glucose units (65–90%), although there are also glucans with β-1,6 (in Candida but not in Aspergillus), β-1,4, α-1,3 and α-1,4 links. The β-1,3-D-glucan is the most important structural component of the wall, to which other components of this structure are covalently linked. The β-1,3-D-glucan is synthesized by a complex of enzymes located in the plasma membrane called glucans synthases.
CELL WALL COMPOSITION  The chitin content of the fungal wall varies according to the morphological phase of the fungus. It represents 1–2% of the dry weight of yeast cell wall while in filamentous fungi, it can reach up to 10–20%. Chitin is synthesized from n- acetyl glucosamine by the enzyme chitin synthase, which deposits chitin polymers in the extracellular space next to the cytoplasmic membrane.  Proteins compose 30–50% of the dry weight of fungal wall in yeast and 20– 30% of the dry weight of the wall of the filamentous fungi. Most proteins are associated to carbohydrates by O or N linkages resulting in glycoprotein. Cell wall proteins have different functions including participation in the maintenance of the cellular shape, adhesion processes, cellular protection against different substances, absorption of molecules, signal transmission, and synthesis and reorganization of wall components (Bowman and Free, 2006; Ponton, 2008).  Lipids are found in small amounts, prevent to desiccation of cells,  Presence of pigments and salts; Melanin is most abundant, important to protect the hyphen, spores and help in pathogenesis , attachment to the surfaces
CELL WALL COMPOSITION  Enzymes cross linking the fibrils in the wall are released through the plasma membrane,  Wall constrictions take place in the apical cap; the synthesis of chitin and glucans take place within in 1 mm. in the apex; the rigidity of the wall; is done by cross linking of polymers,  The wall contains hydrophobins, glomalins ; Hydrophobins constitute 10% of the total wall proteins, the amphoetric nature provides an array of extra ordinary functions and play role biotechnology.  Glycoprotein includes mannoprotein, galactoprotein, xyloproteins etc.  The wide diversity of the cell wall composition observed as far as the diversity of the fungal kingdom as stated below.
COMMON WALL CONSTITUENTS IN EACH DIVISION DIVISION FIBROUS COMPONENTS GEL LIKE POLYMERS BASIDIOMYCOTINA Chitin ,β(1-3),β (1-6) Glucans Xylomannoproteins,α (1-3) Glucans ASCOMYCOTINA Chitin ,β(1-3),β (1-6) Lucan Galactomannoproteins, α (1-3) Glucans ZYGOMYCOTINA Chitin , Chitosan Polygluchonic acid, Glucurosomannoproteins, Polyphosphate CHYTRIDIOMYCOTA Chitin, Glucans Glucans
REVIEW  Fungi are heterotrophic either parasites, saprophytes or symbionts,  Unicellular or multicellular, holocarpic or eucarpic with diverse structural peculiarity as far as thallus is concerned,  Eukaryotic with almost all kind of organizational beauty observed,  Cell wall is diverse type with a fundamental framework in all the aspects,  The reproduction takes place by vegetative, asexual or sexual means following the route of plasmogamy, karyogamy & meiosis with haplontic life cycle pattern.  Play a very significant role in the sustainability of environment and offers raw materials for the industrial wheel,  Play a pivotal role for the deterioration of the productivity of crops both qualitative and quantitative.
THANKS A LOT FOR YOUR CONSIDERATION  References:  Google for images,  Microbiology & Phycology - Mishra & Dash,  Brook Microbiology of Microorganisms-Madigan, Martinko, Bender, Buckley & Stahl,  A Textbook of Microbiology- Chakraborty,  Microbiology- Pelzer, Chan & Krieg,  Botany for degree students- Vasistha & Sinha,  Introduction to Mycology and Phytopathology - Mishra & Dash,  Different WebPages to enrich content.  Disclaimer: This PPT has been designed to enrich the open source of learning. The author does not claim any kind of financial pleasure

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Fungi- Cell Wall & Thallus Structure.pdf

  • 1. MYCOLOGY PRESENTATION BY: Dr. N. Sannigrahi, Associate Professor, Department of Botany, Nistarini College, Purulia, D.B. Road, Purulia ( W.B), 723101, INDIA.
  • 2. CONTENTS  Fungi as cell,  Cell components,  Thallus organization,  Thallus modifications,  Special structure of thallus,  Cell wall-Structure & Function,  Ultra structure of cell wall & Composition,  Conclusions.
  • 3. FUNGAL CELL  Fungi as ubiquitous in the form of saprophytes, parasites or symbionts is the eukaryotic in nature with wide diversity as far as the somatic structure is concerned. The fungi enjoys a wide range as far as reproduction is concerned and the cellular organizational beauty has made it unique one in this respect.  Eukaryotic with distinct cell wall. Cytoplasm & nucleus,  Uninucleate or multinucleate as coenocytes,  Heterokaryotic or homokariotic in nature,  Nucleus contains one or more nucleoli,  Cytoplasm colorless and granular to reticulate in appearance,  Cytoplasm contains many big but irregular vacuoles whereas the higher members contain single large vacuole found in central position,  Cells contain mitochondria and complex system of internal membranes including ER, Golgi apparatus,  Cell membrane contain ergo sterol that replace the cholesterol in animal cells.
  • 5. THALLUS ORGANISATION  Unicellular Thallus :  In some of the lower fungi such as the chytrids, the thallus is more or less a spherical, single-celled structure . At the time of reproduction, it becomes a reproductive unit. The latter produces the asexual or sexual cells. Such fungi are called holocarpic. In them, the vegetative and reproductive stages do not occur together in the same thallus.  Plasmodiophora has a vegetative phase consisting of a naked, multi- nucleate, amoeboid mass of protoplasm. It is termed Plasmodium. The protoplast of the diploid Plasmodium cleaves to form the resting spores. The yeasts, which are related to the filamentous forms, also have a unicellular thallus. In the unicellular holocarpic forms (Synchytrium) the mycelium is absent.  Filamentous Thallus :  The vast majority of the fungi have a filamentous thallus. It originates through the germination of a spore. The spore germinates as it lands on a suitable substratum where other conditions of life are also favorable. In some species, the spore, on germination, produces only a short, tubular structure of limited growth.
  • 6. RANGE OF THALLUS STRUCTURE
  • 7. RANGE OF THALLUS STRUCTURE  It constitutes the thallus and is technically called a hypha. The spores of most of the fungi, however, give rise to a fluffy thallus consisting of a cottony mass of fine, branched filaments. These long, fine filaments are called the hyphae (sing, hypha). Some of these hyphae, at a certain stage of maturity, extend into the air and bear the reproductive bodies.  The rest spread over or within the substratum and continue the normal activities. Such fungi are called eucarpic. Collectively the hyphae comprise the vegetative body (thallus) of a fungus which is called the mycelium. The hypha is thus a structural unit of the mycelium. It consists of a thin, transparent wall filled or lined with a layer of cytoplasm.  The medium upon which the mycelium grows is known as substratum. The mycelium is the food procuring structure in the life cycle. It carries on the general activities of a plant cell such as absorption, digestion, respiration, excretion and growth but not photosynthesis. The hyphae constituting the mycelium branch, spread in all directions within or over the substratum to form a loose and ramifying network.
  • 8. RANGE OF THALLUS STRUCTURE  The hyphae are usually colourless particularly those embedded in the substratum. The aerial hyphae in some fungi become colored. Black, orange, yellow, red, blue and brown are the usual tints. The color is usually confined to the hyphal wall.  Even when the pigments are present in the protoplasmic contents, they do not form an integral part of the living matter. The pigments play no role in the physiology of the fungus. The growth in length takes place at the tips of the hyphae and is thus termed apical.  The thallus may be grouped into- holocarpic or eucarpic; When the thallus as a whole is vegetative as well as reproductive in function- holocarpic but when the portion of the hyphae of the thallus takes part in reproduction-eucarpic.  Hyphae- aerial or substrate , both are branched; substrate hyphae for nutrients but aerial hyphae for reproductive structures, look black, red, blue , green , brown in color diversity;  Hyphae may be modified- Prosenchyma, Pseudo parenchyma, Rhizomorph, Sclerotia, Sporophore, Stroma etc depending on species diversity.
  • 9. KINDS OF MYCELIUM  The fungus mycelium in fact, is a multinucleate structure lacking complete internal cell boundaries.  i. Aseptate Mycelium- In algal fungi, it is multinucleate, aseptate, grows terminally by the apical elongation of the hyphae accompanied by increase in the number of nuclei by nuclear division, becomes coenocytes.  Ii. Septate Mycelium- Develop internal cross walls that divide the hyphae into segments at regular intervals behind the hyphal tip, segments uninucleate or multinucleate. Formation of septa is always preceded by the division of nucleus, each has a central pore or rarely more than one pore although complete partitions do not occur during vegetative phase.  Mostly found in the members of Ascomycetes & Basidiomycetes,  In Basidiomycets, further elaboration of the septum to produce a more complex pore called dolipore and it is covered by round bracket like structure – Parenthesome.
  • 10. AGGREGATION OF HYPHAE  Different types of modifications of hyphae mycelium are found as follows:  PLECTENCHYMA-A kind of false tissue formed by the aggregation of hyphae, may be two types-  A. Prosenchyma - Rather loosely woven hyphae, hyphae do not lose their identity, run more or less parallel to each other composed of elongated cells,  B. Pseudoparenchyma - The hyphae become woven and intertwined into a compact mass, hyphal mass appears to be continuous structure consisting oval cells , resemblance with parenchyma tissue of higher cells  RHIZOMORPH- Interwoven hypae to form rope like structure,  Tightly packed and individual hyphae lose their individual identity,  Outer hard black external layer of the rhizomporph called rind,,  Each rhizomorph contains a growing tip,  Rhizomorphs are perennating structure to withstand adverse conditions.
  • 11. RANGE OF THALLUS STRUCTURE
  • 12. AGGREGATION OF HYPHAE  SCLEROTIUM- Specially modified mycelium for storage, perennation and vegetative propagation,  Compact, rounded. Cushion shaped, cylindrical or irregular object,  Dense mass of thick walled short hyphae to form pseudoparenchymatous structure,  polyhedral shape,  Outer surface dark brown black and crest like,  It may be pin head to large with several inches in diameter.  SPOROPHORES- Spore bearing modified into group to form pycnidia, sporodochia, hymenia, acervuli etc,  Aerial, erect and arise from the prostrate hyphae,  Branched or unbranched with sporangia or conidia with them,  Spore bearing sporophores are sporangiosphores and conidia bearing called conidiophores.
  • 13. AGGREGATION OF HYPHAE  STROMATA: The fungal tissue forms a mass of pseudoparenchymatous tissue like flat or cushion shape structure,  Several fructifications to form reproductive structures,  PESUDOSCLEROTIUM  The sclerotium like bodies are formed at the base of the fruit bodies of higher fungi,  In Polyporous basilapiloides formed below the soil surface  Composed of sand particles surrounded by hyphal aggregations  APPRESORIUM  Common in parasitic fungi mostly found in ectoparasites, Terminal simple or lobed swollen structure of germ tubes or infection hyphal  Adheres to the surface of the host and helps in the penetration of the hyphae of the pathogen,  Found in the parasitic fungi of the orders Erysiphales.
  • 15. AGGREGATION OF HYPHAE  HAUSTORIUM  Mostly found in the intercellular absorbing structure of obligate parasites,  Usually produced in the fungi in which intercellular mycelium formed,  Vary in shape , may be knob shaped or branched finger shaped,  Secrete certain enzymes which hydrolyses the proteins and carbohydrates of the host cell and absorb the nutrients from the host cell without killing them,  Provide greater surface area for the exchange of materials.  In addition to these above kind of modifications, different other specialized modifications are formed in order to address the stress and other issues appear in course of their survival and reproductive potential.
  • 17. CELL WALL COMPOSITION  The fungal cell wall is located outside the plasma membrane and is the cell compartment that mediates all the relationships of the cell with the environment.  It protects the contents of the cell, gives rigidity and defines the cellular structure.  The cell wall is a skeleton with high plasticity that protects the cell from different stresses, among which osmotic changes stand out.  The cell wall allows interaction with the external environment since some of its proteins are adhesions and receptors.  Since, some components have a high immunogenic capacity, certain wall components can drive the host’s immune response to promote fungus growth and dissemination.  The cell wall is a characteristic structure of fungi and is composed mainly of glucans, chitin and glycoprotein.
  • 19. CELL WALL COMPOSITION  The cell wall is a specific and complex cellular organelle composed of glucans, chitin, chitosan, and glycosylated proteins. Proteins are generally associated with polysaccharides resulting in glycoprotein. Together, these components contribute to the cell wall rigidity. The synthesis and maintenance of cell wall involves a large number of biosynthetic and signaling pathways (Casadevall and Perfect, 1998).  The cell wall is structured in different layers where the innermost layer is a more conserved structure on which the remaining layers are deposited and can vary between different species of fungi.  Glucans is the most important structural polysaccharide of the fungal cell wall and represents 50–60% of the dry weight of this structure. Most polymers of glucans are composed of 1,3 linkage glucose units (65–90%), although there are also glucans with β-1,6 (in Candida but not in Aspergillus), β-1,4, α-1,3 and α-1,4 links. The β-1,3-D-glucan is the most important structural component of the wall, to which other components of this structure are covalently linked. The β-1,3-D-glucan is synthesized by a complex of enzymes located in the plasma membrane called glucans synthases.
  • 20. CELL WALL COMPOSITION  The chitin content of the fungal wall varies according to the morphological phase of the fungus. It represents 1–2% of the dry weight of yeast cell wall while in filamentous fungi, it can reach up to 10–20%. Chitin is synthesized from n- acetyl glucosamine by the enzyme chitin synthase, which deposits chitin polymers in the extracellular space next to the cytoplasmic membrane.  Proteins compose 30–50% of the dry weight of fungal wall in yeast and 20– 30% of the dry weight of the wall of the filamentous fungi. Most proteins are associated to carbohydrates by O or N linkages resulting in glycoprotein. Cell wall proteins have different functions including participation in the maintenance of the cellular shape, adhesion processes, cellular protection against different substances, absorption of molecules, signal transmission, and synthesis and reorganization of wall components (Bowman and Free, 2006; Ponton, 2008).  Lipids are found in small amounts, prevent to desiccation of cells,  Presence of pigments and salts; Melanin is most abundant, important to protect the hyphen, spores and help in pathogenesis , attachment to the surfaces
  • 21. CELL WALL COMPOSITION  Enzymes cross linking the fibrils in the wall are released through the plasma membrane,  Wall constrictions take place in the apical cap; the synthesis of chitin and glucans take place within in 1 mm. in the apex; the rigidity of the wall; is done by cross linking of polymers,  The wall contains hydrophobins, glomalins ; Hydrophobins constitute 10% of the total wall proteins, the amphoetric nature provides an array of extra ordinary functions and play role biotechnology.  Glycoprotein includes mannoprotein, galactoprotein, xyloproteins etc.  The wide diversity of the cell wall composition observed as far as the diversity of the fungal kingdom as stated below.
  • 22. COMMON WALL CONSTITUENTS IN EACH DIVISION DIVISION FIBROUS COMPONENTS GEL LIKE POLYMERS BASIDIOMYCOTINA Chitin ,β(1-3),β (1-6) Glucans Xylomannoproteins,α (1-3) Glucans ASCOMYCOTINA Chitin ,β(1-3),β (1-6) Lucan Galactomannoproteins, α (1-3) Glucans ZYGOMYCOTINA Chitin , Chitosan Polygluchonic acid, Glucurosomannoproteins, Polyphosphate CHYTRIDIOMYCOTA Chitin, Glucans Glucans
  • 23. REVIEW  Fungi are heterotrophic either parasites, saprophytes or symbionts,  Unicellular or multicellular, holocarpic or eucarpic with diverse structural peculiarity as far as thallus is concerned,  Eukaryotic with almost all kind of organizational beauty observed,  Cell wall is diverse type with a fundamental framework in all the aspects,  The reproduction takes place by vegetative, asexual or sexual means following the route of plasmogamy, karyogamy & meiosis with haplontic life cycle pattern.  Play a very significant role in the sustainability of environment and offers raw materials for the industrial wheel,  Play a pivotal role for the deterioration of the productivity of crops both qualitative and quantitative.
  • 24. THANKS A LOT FOR YOUR CONSIDERATION  References:  Google for images,  Microbiology & Phycology - Mishra & Dash,  Brook Microbiology of Microorganisms-Madigan, Martinko, Bender, Buckley & Stahl,  A Textbook of Microbiology- Chakraborty,  Microbiology- Pelzer, Chan & Krieg,  Botany for degree students- Vasistha & Sinha,  Introduction to Mycology and Phytopathology - Mishra & Dash,  Different WebPages to enrich content.  Disclaimer: This PPT has been designed to enrich the open source of learning. The author does not claim any kind of financial pleasure