Viruses, Parasites, and Fungi PDF

Summary

This document provides an overview of viruses, parasites, and fungi, including their definitions, classifications, and replication. It covers essential concepts such as viral structure, bacteriophages, and parasitology.

Full Transcript

10/7/2024

VIRUSES

Instructional objectives

Knowing the structure of a virus
Knowledge of bacteriophages; their involvement in gene transfer in
bacteria
Classification of parasites

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Definitions

Viruses = very small infectious particles (20-300 nm)
Missing:
energy-producing enzymes
biosynthesis capabilities

Viruses do not grow, cannot divide, are replicated by living cells, for
which they are obligate intracellular parasites
Virion - complete viral particle that is infectious

Dimensions : 20-300 nm

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Definition
Contain only one type of nucleic acid, DNA or RNA

Protected by the capsid, a protein coating

The protein coat may be surrounded by an envelope, a lipoprotein
membrane

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easily break down

non-envelope the outside contain =
structure on the surface have some receptors glycoprotein,structural protein,
viruses outside of any live cell doesn't exist lipid bilayer
and in the inner part is the
naked viruse which contain
nucleoplam
They make metabolism slower

influenza viruses:
they recognize species(humane, plants,...)

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EM
we need antibody in order to recognize antigen viruses to see them in EM

Adenovirus

animal are effected and after bite human are infected and
after that there is no cure and it's prevent with vaccines

filoebola

Rabies virus Ebola virus

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Viral genome they mostly have RNA and fewer have DNA genome
- represented by an RNA molecule (most viruses) or DNA;
- holds the information needed to replicate
- DNA most commonly has a
- double-stranded structure (single-stranded in parvoviruses) parvo
- Linear structure (circular in papovaviruses and hepadnaviruses) papavova and hepadna
- RNA most commonly has a single-stranded structure (double-stranded in
reoviruses), with
positive sense (functions as mRNA) or
negative sense (has an associated RNA polymerase)
segmented (orthomyxoviruses, reoviruses)
e.g influenza viruses

RNA viruses are usually single-stranded. They can have positive-sense RNA (works directly like mRNA) or
negative-sense RNA (needs to be converted before it works).

hepatit ?C viruses are dangers, bc have dramatically high risk

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Viral capsid
- consisting of repetitive protein molecules (capsomeres) encoded by
the viral genome;
- capsomers have a symmetrical arrangement
helical, around the nucleic acid helix (ortho- and para-mixoviruses,
rhabdoviruses);
icosahedral (cubic), being differentiated into
* pentones (at each peak of the icosahedron),
* hexones (on the faces and edges of the icosahedron)
* examples: adenoviruses, herpesviruses, picornaviruses;
mixed - bacteriophages
complex (poxviruses) - one nucleoid, 2 side bodies, lipoprotein envelope
formed by tubules.

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Functions of the viral capsid

⮚protects the viral nucleic acid,
⮚binds the (naked) virus to specific receptors on the cell
surface,
⮚contains antigenic determinants to which the host reacts
by immune response.

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Envelope
- present in viruses with helical symmetry and some viruses with icosahedral
symmetry;
- viruses without an envelope are naked
- derive from the host cell membrane system (cytoplasmic membrane, nuclear
membrane, endoplasmic reticulum);
- includes glycoproteins encoded by the viral genome (peplomeres) with the role of
ligands to cellular receptors (e.g. haemagglutinins)
receptors for Fc and C3b (in herpesviruses)
enzyme (ex hyaluronidase)
fusion with the host cell membrane
point of attack for neutralizing Ac
- naked viruses are more resistant to external environmental factors than enveloped
viruses

Nucleus

Spike Glycoproteins

matrix protein

bud
virion contains= genome viruses, matrix protein, spike glycoprotein

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Viral taxonomy
Family - includes the suffix -viridae in the name;
Subfamily - includes the suffix -virinae in the name;
Genus - includes the suffix -virus in the name.
Classification criteria
the shape and size of the virus,
number and arrangement of capsomeres,
presence or absence of the envelope,
genome structure, site and mode of replication,
antigenic structure,
sensitivity to physical and chemical agents.

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Viral replication
viruses are replicated by living cells
infectivity disappears from the moment of decapsidation of the virion
entering the cell until the appearance of progeny virions = eclipse
period
stages: all of them are going to be extended and you will undrstand them better
adsorption
penetration
decapsidation
early protein biosynthesis
viral genome replication
late protein biosynthesis
morphogenesis
release of virions

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Stages of viral replication

1. adsorption - attachment of ligands (viral surface
structures) to specific cell receptors (cell tropism)

Stages of viral replication

2. penetration
1. naked viruses - receptor-
dependent endocytosis
2. enveloped viruses - fusion of
the envelope with the cyto-
plasmic membrane
3. direct translocation of the cell
membrane (e.g. picornaviruses,
papovaviruses) for small viruses

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Stages of viral replication

3. decapsidation
1. dissolution of the infectious element as a preliminary stage of
multiplication singles out viruses among infectious agents
2. RNA viruses replicate in the cytoplasm (except influenza
virus)
3. DNA viruses replicate in the nucleus (except poxviruses)

Stages of viral replication

4. synthesis of viral components
1. viral genome (cellular/viral polymerases),
2. mRNA,
3. protein synthesis
Early means enzyme in general but they lost when they do there job
Late

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Stages of viral replication

5. morphogenesis
1. possible hollow icosahedral caps, never for those with helical
symmetry
2. excess accumulated viral components → viral inclusions

(herpes) we can see in nucleus DNA viruses
Cytomegalovirus. Intranuclear inclusions shape of inclusions
this cytopathic effect, only amplify by sample

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Rabies virus - Babes – Negri bodies
(acidophilic intracytoplasmic inclusions)

Stages of viral replication

6. release of virions
1. naked viruses-
host cell lysis
2. enveloped
viruses - budding
through modified
cell membranes
(viral
glycoproteins)

in size of nm we can't use light microscopy

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HAV replication

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Evolution of viral infection

Resolution (represent antibodies)
Transformation
(cancer)

Acute infection
Chronic
infection

Persistent
infection

Latent infection Reactivation

can be reactivated and like in acute infection

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Bacteriophages
- viruses that parasitize bacteria;
- are similar in structure to animal viruses;
- T-phages, the most well-known, are made up of
head - nucleocapsid with icosahedral symmetry with dsDNA at the
centre.
tail - with helical symmetry, includes a rigid axial tube and a
contractile sleeve;
hexagonal base plate, each tip with a tail fibre;
- The replication cycle in the bacterial cell is similar to that described
for viruses of medical interest.

Mixed/binary symmetry

tail and basal plate

channel of the grame negative=> Porins (general and specific) allow small molecules to diffuse into the periplasm.
Efflux pumps expel harmful substances, contributing to drug resistance.
TonB-dependent transporters and outer membrane proteins handle the transport
of specific nutrients, like iron and vitamins.
Secretory systems facilitate the transport of proteins and toxins.

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The phage - bacterial cell relationship

▪ Virulent phage = causes lytic infection (lytic phage).
▪ Temperate phage = integrates into the bacterial genome and
replicates at the same time (prophage).
▪ Lysogenic bacterium = cell in which the prophage can evolve into a
lytic phage under the effect of environmental factors (phage
induction).

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DEFINITION AND CLASSIFICATION OF PARASITES

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Parasite

Definition
Organism that lives in association with another organism, of another species,
called "host"
Feeds on it (host provides food and shelter)
It's pathogenic to it

Classification:
Protozoa (unicellular, eukaryotic organisms)
Metazoans (multicellular organisms)
Helminths (parasitic worms)
Arthropod (articulated limbs)

for mobality not
only flaggie they belong to 4 classes
have another
options to use

Legend:
Relationships of the medically important parasites.

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PROTOZOARE
Single-celled microorganisms, eukaryotic, 1-150 μm
Trilaminated cell membrane
Has its own movement organs: pseudopodia, flagella or cilia
One nucleus (rarely 2); multinucleate reproductive forms
Asexual (binary/multiple division) or sexual reproduction
It has 2 forms of existence
Vegetative form (trophozoite) - the form it adopts under favourable living
conditions in some condtion to become resistance they become cyst
Resistance form (cyst) - under unfavourable living conditions

PROTOZOA
Amoebae (mobile by emitting pseudopods)
Entamoeba histolytica, Entamoeba coli
Flagellate (mobile by flagella)
Giardia intestinalis, Trichomonas vaginalis sexual transmitted disease

Sporozoa(without flagella, cilia or pseudopodia; spore → sporozoite =
infecting form)
Class Haematozoa: Plasmodium (P. malariae, P. ovale, P. falciparum,
P. vivax)
Class Coccidia: Toxoplasma gondii, Cryptosporidium
they form toxoplasmosis(worst for pregency)
casue sever malformation, cat are the host for this
Ciliate (mobile by cilia)
Balantidium coli

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HELMINTS
metazoa
2 phylums
Plathelmintes (flatworms) Nemathelminthes (roundworms)
With flattened dorso-ventral Spindle-shaped body
body Differentiated genra
2 classes: o Ascaris lumbricoides
Trematoda - flukes (non-segmented) o Enterobius vermicularis
o Fasciola hepatica o Trichuris trichuria
Cestoda - tapeworms (segmented) o Trichinella spiralis
o Taenia spp.it's a flatworms in meat
o Echinococcus granulosus

Trematodes (flukes)
Most are flat, dorso-ventrally flattened, leaf-shaped worms
Exceptions; e.g., schistosomes – thread-like
Suckers = anchoring organ
Mouth sucker - around the mouth opening, connected to the oesophagus and intestine
Ventral sucker
The body surface forms a syncytial envelope through which nutrients from
the environment can be incorporated
Most species are hermaphroditic; with the exception of schistosomes
In the evolutionary cycle
The first intermediate host is a mollusc
Second intermediate host for some species - arthropods and fishes

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Cestodes (tapeworms)

Body consisting of
Head (scolex)
Neck - non-segmented proliferation zone
Body segments - chain of segments (proglottids)
Genitals are hermaphroditic
No digestive system (nutrients are absorbed through the cuticle)
Evolutionary cycle has 1-2 intermediate hosts
Larval stages (metacestodes, cysticerci) of various cestode species can
colonize human tissues and cause more extensive damage than intestinal
damage

Nematodes (roundworms)

Spindle-shaped, unsegmented metazoans, a few mm to 1 m long, of
differentiated genera
External integument with complex structure
Internal organs (digestive tract, reproductive organs)
Central pseudo-coelomic cavity
Males smaller than females; have genitals with species-typical
characteristics

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ARTHROPODS (parasitic insect)
- have jointed limbs, symmetrical and chitinous body, with development by
metamorphosis (successive molts);
- can act as vectors ensuring the transmission of a pathogen by being involved in the life
cycle or by simply carrying the pathogen.

Class Arachnidae
-arthropods without antennae and 4 pairs of limbs in adults
Family Sarcoptidae
Genus Sarcoptes

Class Insecta
-arthropods with antennae and 3 pairs of limbs in adults
Family Pediculidae
Genus Pediculus
Genus Pthirius

DEFINITION AND CLASSIFICATION OF FUNGI

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Definition
Fungi are microscopic, eukaryotic, unicellular or multicellular,
heterotrophic bioentities containing chitin in the cell wall
Form spores, being the form of resistance, but also of reproduction

Classification of fungi:
Yeasts
Filamentous and
Dimorphic

Fungal spores:

can be part of asexual or sexual reproduction cycles;
have a unique role in fungal life cycles, as they provide the genetic link
between one generation and the next;
can be dispersed - some fungi have partnered with insects, establishing
mutual symbiotic relationships;
have thick walls, energy reserves, low metabolic rate and abilities to
withstand environmental stress that allows them to survive during
dispersal.

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Spore formation and germination

Sporulation (spore-formation) occurs in a narrow range of special nutritional and environmental
conditions and involves:
signal transduction;
gene activation;
metabolic fluctuation.
Germination:
the conditions necessary for germination reflect the particular biological adaptations and
requirements of fungi;
provides additional somatic growth sequence.
Sporulation and germination are coordinated by:
changes in light and temperature that mark the day and night cycles;
seasons;
the life cycles of their host.

YEASTS

single-celled microorganisms;
round or elongated shape;
asexual multiplication by budding or fission.
Candida spp. (C. albicans, C. tropicalis, C. glabrata, C. lusitaniae, etc.)
Cryptococcus neoformans they are species

Trichosporon spp.
Malassezia spp
Rhodotorula spp.

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FILAMENTOUS FUNGI

multicellular microorganisms;
the body (also called thallus) is made of hyphae (tubular filaments, septate or
not)
Aspergillus spp.
Microsporum spp.
Trichophyton spp.
Epydermophyton floccosum

DIMORPHIC FUNGI

microorganisms that occur:
in the form of yeasts in the tissues of parasitized organisms or at 37°C in
vitro;
in filamentous form, when grown at room temperature or at 30° on normal
media.

Histoplasma capsulatum

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Take away messages
Viruses are very small infectious particles with no protein or energy synthesis capacity, so
they are obligate intracellular parasites.
Viruses contain a single type of nucleic acid (DNA or RNA), capsid and, only some of them,
envelope. Naked viruses are more resistant to external environmental factors than enveloped
viruses.
Viruses are replicated by living cells after attachment to specific cell receptors.
Viral infections can be:
Acute infections
Persistent infections: chronic infections or latent infections. Latent infections can reactivate.
Bacteriophages are viruses that parasitize bacteria; they play a role in gene transfer between
bacteria.
Parasites are unicellular (protozoa) or multicellular (helminths, arthropods) organisms.
Fungi are microscopic, eukaryotic, unicellular or multicellular, heterotrophic bioentities that
contain chitin in the cell wall

Figure : (A) Basic shape of bacteria. (B) Fungal spores. (C) Fungal hyphae. (D) Morphology and structure of viruses: 1. Poxvirus, 2.
Orthomyxovirus, 4. Coronavirus, 5. Togaviridae, 6. Adenovirus, 7. Bullet-shaped virus, 8. Herpes virus, 9. T2 bacteriophage, 10.
reovirus, 11. papovavirus, 12. picornavirus, 13. picodnavirus, 14. tobacco mosaic virus.

Chapter 1 - Basic Biology of Oral Microbes Atlas of Oral Microbiology, 2015, 1-14
http://dx.doi.org/10.1016/B978-0-12-802234-4.00001-X

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