Identifying Fungi & Actinomycetes in Microscopic Settings PDF

Summary

This document provides a lesson on the microscopic identification of fungi and actinomycetes. The lesson covers the identification characteristics of yeasts, molds, dimorphic fungi, dermatophytes, and actinomycetes. It includes information on microscopic features used for identification, such as hyphae, spores, and conidiophores.

Full Transcript

Identifying Fungi & Actinomycetes in Microscopic Settings

In this lesson, learn how to identify various organisms by examining them under a microscope. This includes yeasts,
mold, fungi, dermatophytes, and actinomycetes.

Microscopic Identi!cation

Microscopic organisms such as fungi and bacteria can be identi!ed using a microscope. Identifying the
organisms requires that you recognize features such as the shape and parts that come o" of the main
body of the organism. We will look at some general features of yeast, mold, dimorphic fungi,
dermatophytes, and actinomycetes.

Identifying Yeast

If you look at yeast under a microscope, you will see several oval shapes. The sample will often also
include a food source (such as sugar), which will lead to fermentation with the yeast, so bubbles will also
be visible. These bubbles are part of the characteristic appearance of the yeast but should not be
confused with the yeast cells themselves.
Di"erentiating between di"erent yeast strains is typically done macroscopically using di"erent food
sources.

Identifying Mold

Under a microscope, mold can also have round or oval, smooth shapes, similar to yeasts, but these only
represent the spore form of the mold. If only spores are present, then the mold can be very di#cult to
identify, as it has not yes sporulated. Once it has sporulated. long !laments can be seen branching o" of
the mold cell.

Some important features of mold that help to identify di"erent strains include:

Hyphae – branching, tube-like structures coming o" of the mold. These determine the thickness and length.

Spores – the dormant phase of the mold that determines if the mold has spores or not, also determines the
structure of the spores, including how the spores are grouped together. The spores are often smooth and round.

Conidiophores – the reproduction method of mold which are often found at the ends of hyphae. These
determine grouping patterns, shape, thickness, and length. Sometimes di"erent areas of the sample will need to
be examined to determine di"erent conidiophore features.

Surface walls – which determine the texture and color.

Identifying Dimorphic Fungi
A dimorphic fungus is a fungus that can be both a mold or yeast depending on which phase it is
presenting. To identify the dimorphic fungi, both phases need to be identi!ed using the method used to
individually identify molds and yeast. There are macroscopic methods of identi!cation that only require
one of the phases to be presented.

Dermatophytes and Actinomycetes

Dermatophytes are a speci!c type of fungi that use keratin as a food source. A characteristic feature of
dermatophytes is the shape of the macroconidia, which can include spindle versus clubbed shapes. It is
also important to note the thickness, size, and cell wall features (such as thin, smooth, etc.) of the
macroconidia.

Actinomycetes are bacteria that act and look like a fungus. To view the actinomycetes, typically the
sample is !rst stained using a Gram-positive stain. The bacteria will appear rod-shaped with hyphae
branching through the sample. The hyphae are often very thin, threadlike structures.

Lesson Summary

Many fungi can be identi!ed microscopically. Yeasts are identi!ed by their characteristic oval or round
shape. Mold is identi!ed using the characteristics of hyphae (branching, tube-like structures), spores
(smooth and round, dormant phase), conidiophores (found at ends of hyphae), and surface walls.

Dimorphic fungi (a fungus that alternates between mold and yeast phases) need to be identi!ed by
identifying both the yeast and mold forms of the fungi.

Dermatophytes (a type of fungus that uses keratin for food) are identi!ed using the characteristics of
the macroconidia. Actinomycetes (a bacteria that acts like a fungus) are identi!ed by !rst using a
Gram-positive stain and then identifying the rod-shaped bacteria with branching hyphae.

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