L. 1-G. Biology Mycology Dr. Ibtihal Muiz Introduction to fungi



Yüklə 19,63 Kb.
tarix17.01.2018
ölçüsü19,63 Kb.
#20872


L.1-G.Biology Mycology Dr. Ibtihal Muiz

Introduction to fungi

The fungi (singular fungus ) are a kingdom of eukaryotic organisms . The are heterotrophic and digest their food externally , absorbing nutrient molecules into their cells . Yeasts , molds and mushroom are examples of fungi . The branch of biology involving the study of fungi is knownas mycology (Gr. Mykes mushroom  + logos = discourse).

     Fungi and bacteria are the primary decomposer of organic matter in most terrestrial ecosystem . Fungi are characterized by a life cycle that begins with germination from a spore or resting structure , following by a period of growth as substrate is exploited to produce biomass ..Finally there is a period of sporulation , where propagules are formed that can be disseminated from the parent mycelim.

Fungi are eukaryotic, heterotrophic, absorptive organisms that develop a rather diffuse, branched, tubular body and reproduce by means of spores, that produce extracelluar enzymes and absorb their nutrition.

This describes, not a single phylogenetic line, but rather a way of life shared by organisms of different evolutionary backgrounds. We recognize chromistan fungi as well as eumycotan fungi. Their vegetative cells usually have chitinous cell walls (chitin is a polymer composed of N-actetylglucosamine). Fungi live in their food, secreting digestive enzymes that break food polymers into monomers and oligomers that can be absorbed through the fungal cell wall
For purposes of classification (which is actually a method of information storage and retrieval), related genera are grouped into families, families are grouped into orders, orders into classes, classes into phyla, and phyla into Kingdoms. Here is a sample of how an organism is classified in this hierarchical (boxes within boxes) system. Example:

Kingdom: EUMYCOTA


Phylum: Dikaryomycota
Subphylum: Basidiomycotina
Class: Holobasidiomycctes
Order: Agaricales
Family: Agaricaceae .
Genus: Agaricus
Mycology is the study of fungi
mykes (Gr.) - cap; mushroom
fungus (L:) = sphongos (Gr.) - sponge
Mycology is improperly coined; according to the rules of Greek mycetology. There are approximately 70,000 described species of fungi, however, it is estimated that there are over I million species of fungi on the planet. Some have
Summary of Fungal characteristics

The following attributes can be used to characterize those organisms that we classify as fungi:

1-They are heterotrophs. That is, they cannot manufacture their own food from simple compounds as plants are able to do. So they are dependent on other organisms to produce their foods, e.g., sugars, starches, proteins, fats, etc. Fungi can be further divided into saprobes, parasites, symbionts, facultative parasites and facultative saprobes.

2-The food gathering part of a fungus is made up of either filamentous, hollow, branched tubes called mycelium or are single cells called yeasts.

3-Structures called spores reproduce the fungus in the form of mycelium or yeast cells.

4-They have cell walls. This is a characteristic generally attributed to plants, but unlike plants, most fungal cell walls are composed of chitin, a carbohydrate, and is the same material which makes up the exoskeletons of insects. Plant cell walls are composed of cellulose.

5-Fungi are eukaryotes as are most other organisms with which you are familiar. However, bacteria differ from fungi in that they are prokaryotes.

6-Absorption: The process by which fungi "eat". This differs from the way in which we eat in that a fungus will digest its food before eating it. Bacteria are   the only other group of organisms that eat in this fashion



Humans have utilized/interacted with fungi for thousands of years

A. Religion:
1-Egypt : the god Osiris produced wine as a gift to humans
2-Greece: Dionysus the god of win& (among other things)
3-Rome: Bacchus the god of wine; mushrooms produced by thunderbolts thrown to earth by Jupiter
B:History
1-Ergotism in Europe caused by the fungus Clvaiceps purpurea
2-Irish potato famine caused by the “fungus” Phytophthora infestans

C. Economics & Industry:
1-Food industry: commercial cultivation, cheese, tempeh, food spoilage, mycotoxins
2-Medicine: vitamins, antibiotics
3-Industrial: organic acids
4-Pathogens: animal & plant

D. Major advances in science
1-Neitrospora crassa: discovered by Shearer & Dodge in 1927 initiated the field of haploid genetics led to development of many modern genetic theories, Beadle & Tatum: Nobel prize for one gene-one enzyme; other biochemical pathways
2-discovery of antibiotics
3-theory of symbiosis

Early scientists and mycologists
1-Van Leeuwenhoek - invention of the microscope, 17th century
2-Pier’ Antonio Micheli - “Father” or founder of modern mycology; Italian botanist, 1729 publication “Nova Plantarum Genera”; included his studies on fungi

Phenotypic and ecological characters of fungi:

I) Body plan:
• reduced thallus: unicellular (yeast), filamentous, or both (=dimorphic), or else amoeboid/plasmodial
• hyphae are the basic cellular unit in filamentous fungi; they may be septate or coenocytic (aseptate)
• limited tissue differentiation and division of labor;
somatic (rhizomorphs, stroma and sclerotia) & reproductive structures

plectenchyma: all organized fungal tissue, somatic & reproductive


prosenchyma: loosely woven hyphae, parallel in orientation
pseudoparenchyma: closely packed hyphae, more or less isodiametric

2) Nuclear status:
•eukaryotic; uni, bi- or multinucleate (mono or dikaryons); nucleolus
• may be haploid, diploid (less frequent), homo- or heterokaryotic
• mitosis
intranuclear (except for slime molds); nuclear membrane doesn’t breakdown during mitosis
centric & noncentric
centric in flagellated forms; typical centrioles of eukaryotes; paired, cylinders of 9 triplets of microtublues
noncentric in nonflagellated forms; possess spindle pole bodies (SPBs) differ from centrioles in lacking microtubular component
both centrioles & SPBs are associated with nuclear membrane

3) Organelles:
• mitochondria
•endoplasmic reticulum
• dictyosome cisternae (=golgi apparatus)
•vacuoles
microbodies
• microtubules
typical eukaryote assemblage of organelles + fungal specific ones (especially association with cell wall synthesis)

4)Cell wall:
Well-defined, major carbohydrates are chitin and B-glucans (cellulose in some); know the difference between chitin & cellulose
fungal specific organelles involved in cell wall growth
• Spitzenkorper; associated with growing hyphal tips in septate fungi
• chitosome microvesicular struc containing and transporting chitin syntheses to growing cell wall
• vesicles

5) Nutrition:
a-Heterotrophic, absorptive, produce extrace]lular enzymes
b-Saprobes; pathogens; symbionts (parasites — commensals - mutualists)

c-The role fungi play in their immediate environment is often governed by what extracellular enzymes they can produce



6) Life cycle: simple to complex; wide variety

7) Sexuality:
• sexual and/or asexual reproduction

• mono; or dioecious


•homo— and heterothallic
•mating systems .heterothallic only
bipolar (unifactorial) - compatibility controlled by alleles of a single factor or locus
tetrapolar (bifactorial) - compatibility controlled by alleles of two factors, or loci, located on two different chromosomes
secondary homothallic (bifactorial system) - 2 nuclei with compatible mating types are incorporated into a single spore
asexual reproduction
• arthrospores
•chlamydospores
• conidia

8) Sporocarps microscopic or macroscopic. limited tissue differientiation

9) Habitat: ubiquitous

Characters that separate the Fungi (=the Kingdom Fungi) from ‘fungi”
Kingdom Fungi Protistan fungi
mitochondria: cristae flattened cristae tubular

motile cells: no motile cells or posterior motile cells with

flagella anterior or lateral flagella

cell walls chitin cellulose

carbohydrate:

lysine synthesis : alpha-aminoadepic diaminopimelic

acid (AAA) (DAP)

Oomycota


Phyla: Chytridiomycota Hyphochytriomycota

Zygomycota Labyrinthulomyeota

Basidiomycota Slime molds (Myxomycota,

Ascomycota Acrasioimycota)



Some advantages and disadvantages of fungi

Fungi are the agents responsible for much of disintegration of organic matter , and a such they affect us directly by destroying food , fabrics , leather and other consumers , good manufactured from raw materials subject to fungal attack , they cause the majority of known plant diseases , and many diseases of animals and of man , they are basis of number of industrial processes involving fermentation , such as the making of bread , wines and the preparation of cheeses , and are responsible for the manufacture of number of antibiotic drugs , notably penicillin . Fungi are both destructive and beneficial to agriculture, they are responsible for damage to crops by causing plant disease, while on the other they increase the fertility of the soil by inducing various changes which result in the release of plant nutrients in a form available to green plants.





Yüklə 19,63 Kb.

Dostları ilə paylaş:




Verilənlər bazası müəlliflik hüququ ilə müdafiə olunur ©genderi.org 2024
rəhbərliyinə müraciət

    Ana səhifə