Microbial Taxonomy PDF

Summary

This document provides an overview of microbial taxonomy, including methods of classification, nomenclature, and identification. It details the hierarchical classification system and discusses different types of organisms, such as prokaryotes, eukaryotes, and archaea. The document also touches on genotypic and phenotypic characteristics for identification.

Full Transcript

REAN STAR PAULINE C. CORTINA, RMT
Taxonomy
area of biologic science comprising three distinct but
highly interrelated disciplines:
üClassification
üNomenclature (naming)
üIdentification of organisms
 orderly classification and grouping of organisms into taxa
(categories)
based on similarities and differences in genotype and
phenotype
Carl von Linne: laid down the basic rules for taxonomic
categories
CLASSIFICATION
 method for organizing microorganisms into groups or
taxa based on similar morphologic, physiologic, and
genetic traits
Hierarchical classification system consists of the following
taxa designations:
a. Domain: Bacteria and Archaebacteria
b. Kingdom: contains similar divisions or phyla
c. Phylum: contains similar classes; equivalent to the
Division taxa
d. Class: contains similar orders
e. Order: contains similar families
f. Family: contains similar genera
group of organisms that may contain multiple
genera and consists of organisms with a
common attribute
Example:Enterobacteriaceae, Streptococcaceae
g. Genus: contains similar species
based on various genetic and phenotypic
characteristics shared among the species
h. Species:
most basic of the taxonomic groups and can
be defined as a collection of bacterial strains
that share common physiologic and genetic
features and differ notably from other microbial
species
 i. Subspecies: taxonomic subgroups within a species
 species subdivided based on phenotypic the
following differences:
a. Biotype considered the same species with
the same characteristic genetic
makeup that displays differential
physiologic characteristics
based on biochemical test result
differences
b. Serotype based on serologic differences

Phage typing (based on susceptibility to specific bacterial
phages) has also been used for this purpose
Note!!!

ØDiagnostic microbiologists traditionally emphasize
placement and naming of bacterial species into three
categories:
üthe family
üa genus
üa species
ØSpecies definitions are distinguished using DNA profiling,
including a nearly complete 16S rRNA sequence in
combination with phenotypic traits
NOMENCLATURE
 naming of microorganisms according to
established rules and guidelines set forth in the
International Code of Nomenclature of Bacteria
(ICNB) or the Bacteriological Code (BC)
Genus designation first letter is always capitalized
Species designation first letter is always lower case
ØTwo components are used simultaneously and are
printed in italics or underlined in script
Example: Streptococcus pneumoniae, Streptococcus
pyogenes, Streptococcus agalactiae, and
Streptococcus bovis
üWhen bacteria are referred to as a group, their names are
neither capitalized nor underlined (e.g., staphylococci)
IDENTIFICATION
process by which a microorganism’s key features
are delineated
Process of discovering and recording the traits of
organisms so that they may be placed in an overall
taxonomic scheme
organism can then be assigned to the most
appropriate taxa (classification) and can be given
appropriate genus and species names
(nomenclature)
IDENTIFICATION METHODS
Genotypic Characteristics
relate to an organism’s genetic makeup, including the
nature of the organism’s genes and constituent nucleic
acids
Examples: base sequencing of DNA or RNA and DNA
base composition ratio to measure the
degree of relatedness of two organisms
Phenotypic characteristics
based on features beyond the genetic level and
include both readily observable characteristics and
characteristics that may require extensive analytic
procedures to be detected
Examples: macroscopic (colony morphology on
media) and microscopic (size, shape,
arrangement into groups or chains of
organisms) morphology,
staining characteristics (gram-positive or
gram-negative), nutritional requirements,
physiologic and biochemical
characteristics, and susceptibility or
resistance to antibiotics or chemicals
Major Characteristics Used in Taxonomy
Classical Characteristics
Useful in routine identification of phylogenetic
information
Example: morphology, physiology and
metabolism, ecology and genetic analysis
 Phylogenetic and phyletic classification is
based on evolutionary relationships instead of
general resemblance
Molecular characteristics
 Based on the study of nucleic acid composition
and proteins
 Classification by Cellular Type:
Prokaryotes, Eukaryotes, and
Archaeobacteria
ØOrganisms fall into three distinct groups based on type of
cell organization and function: prokaryotes, eukaryotes,
and archaeobacteria
ØTaxonomists have placed all organisms into three domains
that have replaced some kingdoms: Bacteria, Archaea,
and Eukarya
ØEach of these domains is divided into kingdoms based on
the similarities of RNA, DNA, and protein sequences
Prokaryotes: Archaea and Bacteria (Eubacteria)
Eukaryotes: fungi, algae, protozoa, animals, and plants
Archaea (Archaeobacteria)
closely related to eukaryotic cells than to prokaryotic
cells
found in microorganisms that grow under extreme
environmental conditions
cell walls lack peptidoglycan but they mostly contain a
protein or glycoprotein wall structure—”S-layer”
can stain gram-positive and gram-negative
C e l l u l a r s t r u c t u r e i n c l u d e t h e c e l l w a l l , p l a s m a
membrane, ribosomes and flagella
Do not contain a nucleus and membrane-bound
orhganelles
Produce through binary fission, fragmentation or budding
Examples: Methanospirillum, Halobacterium, Sulfolobus