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Hypha
A '''hypha''' (plural '''hyphae''') is a long, branching filamentous cell of a fungus, and also of unrelated Actinobacteria.[Steinberg G. (2007). Hyphal growth: a tale of motors, lipids, and the spitzenkörper. ''Eukaryotic Cell'' '''6'''(3): 351–360.]
As a hypha extends, septa may be formed behind the growing tip to partition each hypha into individual cells. Hyphae can branch through bifurcation of a growing tip, or by the emergence of a new tip from an established hypha.
Hyphae may be modified in many different ways to serve specific functions. Some parasitism|parasitic fungi form haustorium|haustoria that function in absorption within the host cells. The Arbuscular mycorrhiza|arbuscules of mutualism|mutualistic mycorrhizal fungi serve a similar function in nutrient exchange, so are important in assisting nutrient and water absorption by plants. Hyphae are found enveloping the gonidia in lichens, making up a large part of their structure. In nematode-trapping fungi, hyphae may be modified into trapping structures such as constricting rings and adhesive nets. Mycelial cord|Cords can be formed to transfer nutrients over larger distances.
Types of hyphae
Classification based on cell division
- Septate (with septa)
- '''Pseudohyphae''' are not true septate hyphae and are distinguished from "true hyphae" by their method of growth, relative frailty and lack of cytoplasmic connection between the cells. They are most often found in yeasts as the result of a sort of incomplete budding where the cells remain attached after division.
- Aseptate or coenocyte|coenocytic (without septa).
Classification based on cell wall and overall form
Characteristics of hyphae can be important in fungal classification. In Basidiomycota|basidiomycete taxonomy, hyphae that comprise the sporocarp (fungi)|fruiting body can be identified as generative, skeletal, or binding hyphae.
- '''Generative''' hyphae are relatively undifferentiated and can develop reproductive structures. They are typically thin-walled, occasionally developing slightly thickened walls, usually have frequent septa, and may or may not have clamp connections. They may be embedded in mucilage or gelatinized materials.
- '''Skeletal''' hyphae are of two basic types, the classical form is thick-walled and very long in comparison to the frequently septate generative hyphae, unbranched or rarely branched, with little cell content. They have few septa and lack clamp connections.
- '''Fusiform skeletal''' hyphae are the second form of skeletal hyphae. Unlike typical skeletal hyphae these are swollen centrally and often exceedingly broad, hence giving the hypha a fusiform shape.
- '''Binding''' hyphae are thick-walled and frequent branched. Often they resemble deer antlers or defoliated trees because of the many tapering branches.
Based on the generative, skeletal and binding hyphal types, in 1932 E. J. H. Corner applied the terms monomitic, dimitic, and trimitic to hyphal systems, in order to improve the classification of polypores.
- Every fungus must contain generative hyphae. A fungus which only contains this type, as do fleshy mushrooms such as agarics, is referred to as '''monomitic'''.
- Skeletal and binding hyphae give leathery and woody fungi such as polypores their tough consistency. If a fungus contains all three types (example: ''Trametes versicolor|Trametes''), it is called '''trimitic'''.
- If a fungus contains generative hyphae and just one of the other two types, it is called '''dimitic'''. In fact dimitic fungi almost always contain generative and skeletal hyphae; there is one exceptional genus, ''Laetiporus'' that includes only generative and binding hyphae.
- Fungi that form fusiform skeletal hyphae bound by generative hyphae are said to have '''sarcodimitic''' hyphal systems. A few fungi form fusiform skeletal hyphae, generative hyphae, and binding hyphae. These are said to have '''sarcotrimitic''' hyphal systems. These terms were introduced by E.J.H. Corner in 1966 Classification based on refractive appearance
Hyphae are described as '''gloeoplerous''' ('''gloeohyphae''') if their high refractive index gives them an oily or granular appearance under the microscope. These cells may be yellowish or clear (hyaline). They can sometimes selectively be coloured by sulphovanillin or other reagents. Also the specialized cells termed cystidia can be gloeoplerous.[See glossary of Meinhard Moser, translated by Simon Plant: ''Keys to Agarics and Boleti'' (Roger Phillips 1983) ISBN 0-9508486-0-3.][See section "Microscopic features ..." of 2006 Summer Workshop in Fungal Biology for High School Teachers, Hibbett lab, Biology Department, Clark University, "Guidelines for collecting and identifying macrofungi (basidiomycetes)".]
References
See also
- Yeast
External links
- Diagram of branching hyphae, emphasizing septa
- Close-up light micrograph of coenocytic hyphae
- MicrobiologyBytes: Introduction to Mycology
- Hyphal growth and branching movies by P.C. Hickey and N. Read, University of Edinburgh
Category:Fungal morphology and anatomy
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