LS11 - Taxonomy Microbio STUDENT PDF

Summary

This document provides a general overview of taxonomy, microbiology, and biological classification. It discusses various topics such as taxonomic categories, hierarchical classification, binomial nomenclature, traditional and new domain systems. It also includes information on different kingdoms like Bacteria, Archaea, Protista, Fungi, Plantae, and Animalia, noting their characteristics and roles.

Full Transcript

Unit 3: Taxonomy,
Microscopes & Bacteria
Life Sciences 11 – Ms. Hale
Part I:
Taxonomy
Taxonomy
Taxonomy – the field of biology that deals
with classifying all living things
Biologists have identified and named around
1.7 million species
Estimated 8 million additional unknown
species
Aristotle was the first taxonomist dividing
organisms into land, sea, and air dwellers
Why Classify Organisms?
Organisms need a name and organization
Accurately & uniformly name organisms
Prevents misnomers (=wrong or inaccurate name)
such as “starfish” and “jellyfish” that aren’t really
fish!
Uses same language (Latin) for all names
Each species has only one scientific name
No two different species will have the same scientific
name
Scientific names are recognized worldwide
Shows evolutionary relationships
Taxonomic Categories
Linnaeus placed organisms into related groups called
taxa based on their morphology (similar structure and
function)
There are 8 taxa within taxonomy:
1. Domain
2. Kingdom
3. Phylum
4. Class
5. Order
6. Family
7. Genus
8. Species
“Dr King Phil Came Over For Good Soup”
Hierarchy
Classification is organized
Starting from
smallest to largest
Each level, or taxon,
groups together
organisms that share more
characteristics than the level
before
Binomial nomenclature
Developed by
Carolus Linnaeus
(1707-1778)

System of naming
in which each species
is assigned a
two-part scientific
name
 Binomial nomenclature
1st part of the scientific name identifies the
genus that the organism belongs to
A genus is a group of closely related species
2nd part of the scientific name is
unique to each species within the
genus
This part of the name is a general Latin
description of some important
characteristic of the organism or the name
of an important explorer or scientist
 Binomial nomenclature
The scientific name is ALWAYS written in italics when typed
The first letter in the first word (the GENUS) is CAPITALIZED
The second word (the SPECIES) is in lowercase
Example: Ursus arctos (Grizzly Bear)
When handwriting it is acceptable to underline instead of
italicizing
Each word should be underlined separately
For example: Ursus arctos (be sure to underline this in your notes!)
Binomial nomenclature
Examples:

Panthera tigris (tiger)
Panthera leo (lion)
Panthera onca (jaguar)
Panthera pardus (leopard)
Assignment
Classification Worksheet
Traditional Taxonomy
Linnaeus – 2 Kingdoms
Animalia
Plantae

Then 5 Kingdom System
Monera
Protista
Fungi
Plantae
Animalia
 Was then split into a 6 Kingdom system
Due to large differences within Kingdom Monera, it was
split into two different taxa
Eubacteria
Archaebacteria
Molecular Analysis
A lot of organisms have similarities on the molecular level
Indicates common ancestor
These similarities are used to determine classification and
evolutionary relationships
Can also show how a species has evolved
DNA sequence comparisons can show how different
species are related
The more similar the DNA sequences of two species, the
more recently they have shared a common ancestor
New Domain System
Reflects a greater understanding of molecular and evolutionary
evidence
All organisms placed into 3 broad groups called domains
3 Domains of Life
1. Bacteria
Peptidoglycan in cell walls
Contains all other bacteria including those causing disease
Unicellular
& Prokaryotic
2. Archaea
No peptidoglycan in cell walls
Live in harsh environments

3. Eukarya
Unicellular & multicellular
Eukaryotic organisms
Includes Kingdoms Protista, Fungi, Plantae, & Animalia
1. Kingdom Archaebacteria
“Ancient” bacteria
Prokaryotic
Unicellular
Both autotrophs & heterotrophs
Has a cell wall that lacks peptidoglycan
Reproduce asexually
Some are motile (= can move)
Live in extreme environments (Hot, Salty, Acidic)
Volcanic hot springs, Salt marshes
2. Kingdom Eubacteria
“Recent” bacteria
Prokaryotic
Unicellular
Both autotrophic & heterotrophic
Reproduce asexually
Some are motile
Cell wall has peptidoglycan (thick!)
Live nearly everywhere
3. Kingdom Protista
Organisms that cannot be classified as an Animal, Plant, or
Fungi
Least satisfying of the classifications because members
display the greatest variety

3 Classifications
1. Animal-like Protists: Amoeba, Paramecium
2. Plant-like Protists: Unicellular & Multicellular; Algae
3. Fungi-like Protists: Slime molds & Water molds
3. Kingdom Protista
Eukaryotic
Most are unicellular, some are multicellular
Autotrophs & heterotrophs
Reproduce sexually & asexually
Some are motile
Some have a cell wall (plant-like)
Live in damp or wet habitats
4. Kingdom Fungi
Eukaryotic
Most are multicellular (mushrooms), although
some are unicellular (yeast)
Heterotrophic: Absorb their food from
environment.
Feed on dead/decaying organic matter
Have a cell wall (chitin)
Reproduce sexually & asexually
Non-motile
Live as parasites or saprophytes nearly
everywhere
5. Kingdom Plantae
Eukaryotic
Multicellular
Photosynthetic
Autotrophs
Have a cell wall (cellulose)
Reproduce sexually & asexually
Non-motile
Includes: Cone-bearing and
flowering plants, mosses, & ferns.
6. Kingdom Animalia
Eukaryotic
Multicellular
Heterotrophs
Most reproduce sexually
No cell walls
Motile, except sponges.
Very diverse
Assignment
Domain/Kingdom Worksheet
Dichotomous Key
A tool used for identifying unfamiliar organisms
Is a list of observable traits that eventually lead you to
the name of the organism
“Dichotomous” means “divided into two parts”
Therefore, dichotomous keys always have two choices
in each step
Question must have a yes or no answer
1a It is round ………………………………………………………….. Go to 2
1b It is not round …………………………………………………… Go to 4

2a It is orange ………………………………………………………….. BB
2b It is not orange ……………………………………………………Go to 3

3a It is big ………………………………………………………………… SB
3b It is not big …………………………………………………………..TB

4a It is grey …………………………………………………………………RB
4b It is not grey …………………………………………………………..FB
Assignment!
Using and Constructing a Classification Key
Fun with Fictious Animals
Classification Worksheet!

Please complete this worksheet for the beginning of next
class!
Part II: Microscopes
Please see handout.
Part III:
Bacteria
Bacteria
Classification
General Structure (both domains)
 General Structure (Both Domains)
DNA – Dictates cell function
Plasmid – circular DNA used specifically for sexual reproduction
Ribosomes – Make proteins
Cell wall – give structure to the bacterial cell
Capsule – thick gelatin around the cell wall, which hardens when
exposed to harsh conditions (heat/drought)
protects the bacteria
Pili = for movement
Flagellum = some bacteria have these for movement
Domain Archaea
Ancient organisms, first to live on earth
Live in extremely hot, salty, oxygen
poor, toxic environments (hydrothermal
vents, swamps, salt lakes, volcanic
environments.
1. Methanogens
These Archaebacteria are
chemoautotrophic anaerobes.
They make methane (natural gas) as a
waste product.
They are found in swamp sediments,
sewage, and in buried landfills, guts of
large mammals
In the future, they could be used to
produce methane as a byproduct of
sewage treatment or landfill operation.
2. Halophile
These are salt-loving Archaea
that grow in places like the salt
ponds on the edge of San
Francisco Bay, or the spotted
lake in BC
Large numbers of certain
halophiles can turn these
waters a dark pink.
These archaea
are aerobic.
3. Thermophiles
These are Archaebacteria from hot springs and other high
temperature environments.
Some can grow above the boiling temperature of water.
They are anaerobes
 Some extreme thermohalophiles grow in high temperatures
such as hot sulphur springs (Sulfobus at 60-80 C) and near
deep sea hot vents (105 C)
Domain Bacteria (Eubacteria)
Found EVERYWHERE else.
Fun facts
Each square centimeter of your
skin averages about 100,000
bacteria.
A single teaspoon of topsoil
contains more than
a billion
(1,000,000,000)
bacteria.
Types of Eubacteria
Bacteria can be found in different shapes

Coccus (pl. cocci) Bacillus (pl. bacilli) Spirillum (pl. spirilla)
(spherical shaped) (rod shaped) (spiral/corkscrew
shaped)
 Another morphological trait to classify bacteria is grouping
Diplo- (pairs) Strepto- Staphlyo-
(Filamentous - chains) (Colonial-bunches)
Example: diplococci Example: Streptococci Example: Staphylococci

Example: Streptobacilli
Example: diplobacilli
 Classification
Gram staining helps classify
bacteria based on the structure
of the cell wall

: purple stain, only have one cell layer

Gram negative: pink stain, have a second, outer cell layer
Gram Positive (+ve) Gram Negative (-ve)
Absorb and retain the crystal Do NOT absorb crystal
violet stain – PURPLE violet stain PINK COLOUR
COLOUR Have 3 cell layers:
The cell wall has one very An inner plasma
thick peptidoglycan (sugar membrane
and amino acid) layer that Thin peptidoglycan layer
provides structure, shape Thick lipid layer that
and strength repels the crystal violet
They are more susceptible to stain
antibiotics such as penicillin
Gram Staining
Gram Staining
Gram Staining
Mobility
Some have one or more flagella
Some lash, snake or spiral forward
Some glide on a layer of slime-like material
Reproduction in Bacteria
Bacteria can reproduce very quickly,
some divide every 20 minutes!

Binary Fission
When bacterium is near double in
size, bacterial cell replicates its
DNA and divides in half, producing
two identical daughter cells.
This is asexual reproduction
Bacteria grow into a population
Most common
Sexual Reproduction in Bacteria
Conjugation
the transfer of “PLASMID” from one bacteria to
another.
in some bacterial a bridge between two
individuals allows the transfer of DNA from the
donor cell to the recipient cell.
The plasmid will be incorporated into the DNA
of new bacteria.
It can contain mutations that aid the bacteria in
survival
This sexual reproduction provides
recombination of genes for genetic diversity.
Spore Formation
In unfavorable growth
conditions, an endospore
can form
the bacterium produces a
thick internal wall that
encloses its DNA and some
of its cytoplasm.
Importance of Bacteria
1. Ecological Role:
Some are producers which make oxygen
Some are decomposers
that break down the
nutrients in dead matter.
Some can converting
nitrogen from the air into
a form plants can use
(nitrogen fixation)
Importance of Bacteria

2. Human uses:
Foods and beverages
Sewage treatment
Cleaning up oil spills
Synthesis of drugs and chemicals via genetic
engineering
Production of vitamins in human intestines
3. Pathogenic bacteria (parasites)
Either directly cause damage to cells/tissues
(bacterial pneumonia) or produce toxins
(tetanus)
Defending Against Bacterial Infections

1. Prevention
Wash hands
Active immunity (vaccination)
Passive immunity
2. Food preservation
Use heat or chemicals (salt,
sugar, acids) to slow
down/stop bacterial growth
Includes: sterilization,
refrigeration, cooking
through, canning, freezing,
drying
3. Antibiotics
Organic compounds made by living organisms that can
kill or inhibit the growth of bacteria
What causes antibiotic resistance? - Kevin Wu
https://www.youtube.com/watch?v=znnp-Ivj2ek