Knowt
Structure of bacteria and virus
Bacteria
Bacteria are small, single-celled prokaryotes
Prokaryotic cells are much smaller than eukaryotic cells
They also differ from eukaryotic cells in having
A cytoplasm that lacks membrane-bound organelles
Ribosomes that are smaller (70 S) than those found in eukaryotic cells (80 S)
No nucleus, instead having a single circular bacterial chromosome that is free in the cytoplasm and is not associated with proteins
A cell wall that contains the glycoprotein murein
Murein is sometimes known as peptidoglycan
A cell membrane that contains folds known as mesosomes
In addition, many prokaryotic cells have a few other structures
Loops of DNA known as plasmids
Capsules
This is sometimes called the slime capsule
It helps to protect bacteria from drying out and from attack by cells of the immune system of the host organism
Flagella (singular flagellum)
Long, tail-like structures that rotate, enabling the prokaryote to move
Some prokaryotes have more than one
Pili (singular pilus)
Thread-like structures on the surface of some bacteria that enable the bacteria to attach to other cells or surfaces
Involved in gene transfer during sexual reproduction
Prokaryotic cells are often described as being 'simpler' than eukaryotic cells, and they are believed to have emerged as the first living organisms on Earth
Viruses
Viruses are non-cellular infectious particles
They are relatively simple in structure, and much smaller than prokaryotic cells
Structurally they have
A nucleic acid core
Their genomes are either DNA or RNA, and can be single or double-stranded
A protein coat called a ‘capsid’
They do not possess a plasma membrane, cytoplasm, or ribosomes
Some viruses have an outer layer called an envelope formed from the membrane-phospholipids of the cell they were made in
Some contain proteins inside the capsid which perform a variety of functions
E.g. HIV contains the enzyme reverse transcriptase which converts its RNA into DNA once it's infected a cell
Viruses also contain attachment proteins that sticks out from the capsid or envelope
This enables the virus to attach itself to a host cell
Viruses can only reproduce by infecting living cells and using their protein-building machinery to produce new viral particles
HIV is a virus; it is contains RNA and enzymes surrounded by a protein capsid, as well as having an outer lipid envelope and attachment proteins
Mycobacterium tuberculosis
A disease is an illness or disorder of the body or mind that leads to poor health
Each disease is associated with a set of signs and symptoms
Infectious diseases are caused by pathogens and are transmissible, meaning that they can be spread between individuals within a population
Pathogens may include certain species of bacteria, some fungi and all viruses
Note that not all viruses are pathogenic to humans!
An example of a pathogen is the bacteria Mycobacterium tuberculosis which causes the disease tuberculosis (TB)
Transmission of TB
When infected people with the active form of TB cough or sneeze, the Mycobacterium tuberculosis bacteria enter the air in tiny droplets of liquid released from the lungs
TB is transmitted when uninfected people inhale these droplets
TB spreads more quickly among people living in overcrowded conditions
Once inside the lungs, TB bacteria are engulfed by phagocytes
The bacteria may be able to survive and reproduce while inside phagocytes
Individuals with a healthy immune system will not develop TB at this stage
Over time the infected phagocytes will become encased in structures called tubercles in the lungs where the bacteria will remain dormant
It is possible for the bacteria to become activated and overpower the immune system at a later stage, such as during an HIV infection when the immune system is compromised; the person will then develop TB
This is known as the active phase of TB
The length of time between infection and developing the disease can vary from a few weeks to a few years
The first symptoms of TB will include developing a fever, fatigue, coughing and lung inflammation
If left untreated the bacteria will cause extensive damage to the lungs which can result in death due to respiratory failure
TB may also spread to other parts of the body where it can lead to organ failure if not treated promptly
HIV
Transmission of HIV
HIV is the human immunodeficiency virus
Be careful not to refer to it as the HIV virus, as that would mean that you would be using the word 'virus' twice!
HIV contains RNA and is a retrovirus
HIV can be transmitted in body fluids in the following ways
Sexual intercourse
Blood donation
Sharing of needles used by intravenous drug users
From mother to child across the placenta
Mixing of blood between mother and child during birth
From mother to child through breast milk
Replication of HIV
When the virus enters the bloodstream it infects helper T cells, a type of white blood cell that is normally responsible for activating antibody-producing B cells
It enters the helper T cells by attaching to a receptor molecule on the host cell membrane
The capsid enters the helper T cell and releases the RNA it contains
The viral RNA is used as a template by reverse transcriptase enzymes to produce a complementary strand of DNA
Once this single-stranded DNA molecule is turned into a double-stranded molecule it can be successfully inserted into the host DNA
From here it uses the host cell's enzymes to produce more viral components which are assembled to form new viruses
These bud from the host cell and enter the blood, where they can infect other helper T cells and repeat the process
At this stage, the individual is HIV positive and may experience flu-like symptoms
After the initial infection period, during which HIV replication is rapid, the replication rate drops and the individual enters the latency period
During this period the person will not show any symptoms, often for years
Gradually the virus reduces the number of helper T cells in the immune system
B cells are no longer activated
No antibodies are produced
This decreases the body’s ability to fight off infections, eventually leading to AIDS (Acquired immune deficiency syndrome)
HIV attaches to helper T cells (also called CD4 T-lymphocytes) and uses their cell machinery to replicate. This leads to decreased lymphocyte numbers which then affects the body's ability to respond to infection. Note that HIV should not be referred to as the 'HIV virus' as it is here.
Symptoms of AIDS
Immediately after infection with HIV a patient often suffers mild flu-like symptoms
These symptoms pass and for a period of time infected people might not know they are infected
After several months or years, the viral DNA replicated by the HIV particles becomes active
Virus particles gradually destroy and reduce the number of helper T cells present in a host
This is detrimental as helper T cells play an important role in the specific immune response
They stimulate B cells, the production of antibodies and increased rates of phagocytosis
As a patient can no longer produce antibodies against pathogens, they are immunocompromised and unable to fight off infections
They begin to suffer from diseases that would usually cause very minor issues in healthy individuals
These diseases are described as opportunistic
Tuberculosis (TB) is a common example
An HIV infection will progress to AIDS when
An individual starts suffering from constant opportunistic infections
The helper T cell count drops below a critical level
The length of time that it takes for an HIV infection to progress to AIDS can vary between individuals but the disease will follow a standard sequence of symptoms
Initially an AIDS sufferer will only have mild infections of the mucous membranes due to the low helper T numbers
Over time, however, infections will become more severe e.g. diarrhoea, TB
During the final stages of AIDS a person will suffer from a range of more serious opportunistic infections
It is these opportunistic diseases that cause an individual with advanced AIDS to die
Several factors affect how quickly HIV will progress into AIDS and how long a person with AIDS will survive
The number of existing infections
The strain of HIV the person is infected with
Their age
Access to healthcare
Structure of bacteria and virus
Bacteria
Bacteria are small, single-celled prokaryotes
Prokaryotic cells are much smaller than eukaryotic cells
They also differ from eukaryotic cells in having
A cytoplasm that lacks membrane-bound organelles
Ribosomes that are smaller (70 S) than those found in eukaryotic cells (80 S)
No nucleus, instead having a single circular bacterial chromosome that is free in the cytoplasm and is not associated with proteins
A cell wall that contains the glycoprotein murein
Murein is sometimes known as peptidoglycan
A cell membrane that contains folds known as mesosomes
In addition, many prokaryotic cells have a few other structures
Loops of DNA known as plasmids
Capsules
This is sometimes called the slime capsule
It helps to protect bacteria from drying out and from attack by cells of the immune system of the host organism
Flagella (singular flagellum)
Long, tail-like structures that rotate, enabling the prokaryote to move
Some prokaryotes have more than one
Pili (singular pilus)
Thread-like structures on the surface of some bacteria that enable the bacteria to attach to other cells or surfaces
Involved in gene transfer during sexual reproduction
Prokaryotic cells are often described as being 'simpler' than eukaryotic cells, and they are believed to have emerged as the first living organisms on Earth
Viruses
Viruses are non-cellular infectious particles
They are relatively simple in structure, and much smaller than prokaryotic cells
Structurally they have
A nucleic acid core
Their genomes are either DNA or RNA, and can be single or double-stranded
A protein coat called a ‘capsid’
They do not possess a plasma membrane, cytoplasm, or ribosomes
Some viruses have an outer layer called an envelope formed from the membrane-phospholipids of the cell they were made in
Some contain proteins inside the capsid which perform a variety of functions
E.g. HIV contains the enzyme reverse transcriptase which converts its RNA into DNA once it's infected a cell
Viruses also contain attachment proteins that sticks out from the capsid or envelope
This enables the virus to attach itself to a host cell
Viruses can only reproduce by infecting living cells and using their protein-building machinery to produce new viral particles
HIV is a virus; it is contains RNA and enzymes surrounded by a protein capsid, as well as having an outer lipid envelope and attachment proteins
Mycobacterium tuberculosis
A disease is an illness or disorder of the body or mind that leads to poor health
Each disease is associated with a set of signs and symptoms
Infectious diseases are caused by pathogens and are transmissible, meaning that they can be spread between individuals within a population
Pathogens may include certain species of bacteria, some fungi and all viruses
Note that not all viruses are pathogenic to humans!
An example of a pathogen is the bacteria Mycobacterium tuberculosis which causes the disease tuberculosis (TB)
Transmission of TB
When infected people with the active form of TB cough or sneeze, the Mycobacterium tuberculosis bacteria enter the air in tiny droplets of liquid released from the lungs
TB is transmitted when uninfected people inhale these droplets
TB spreads more quickly among people living in overcrowded conditions
Once inside the lungs, TB bacteria are engulfed by phagocytes
The bacteria may be able to survive and reproduce while inside phagocytes
Individuals with a healthy immune system will not develop TB at this stage
Over time the infected phagocytes will become encased in structures called tubercles in the lungs where the bacteria will remain dormant
It is possible for the bacteria to become activated and overpower the immune system at a later stage, such as during an HIV infection when the immune system is compromised; the person will then develop TB
This is known as the active phase of TB
The length of time between infection and developing the disease can vary from a few weeks to a few years
The first symptoms of TB will include developing a fever, fatigue, coughing and lung inflammation
If left untreated the bacteria will cause extensive damage to the lungs which can result in death due to respiratory failure
TB may also spread to other parts of the body where it can lead to organ failure if not treated promptly
HIV
Transmission of HIV
HIV is the human immunodeficiency virus
Be careful not to refer to it as the HIV virus, as that would mean that you would be using the word 'virus' twice!
HIV contains RNA and is a retrovirus
HIV can be transmitted in body fluids in the following ways
Sexual intercourse
Blood donation
Sharing of needles used by intravenous drug users
From mother to child across the placenta
Mixing of blood between mother and child during birth
From mother to child through breast milk
Replication of HIV
When the virus enters the bloodstream it infects helper T cells, a type of white blood cell that is normally responsible for activating antibody-producing B cells
It enters the helper T cells by attaching to a receptor molecule on the host cell membrane
The capsid enters the helper T cell and releases the RNA it contains
The viral RNA is used as a template by reverse transcriptase enzymes to produce a complementary strand of DNA
Once this single-stranded DNA molecule is turned into a double-stranded molecule it can be successfully inserted into the host DNA
From here it uses the host cell's enzymes to produce more viral components which are assembled to form new viruses
These bud from the host cell and enter the blood, where they can infect other helper T cells and repeat the process
At this stage, the individual is HIV positive and may experience flu-like symptoms
After the initial infection period, during which HIV replication is rapid, the replication rate drops and the individual enters the latency period
During this period the person will not show any symptoms, often for years
Gradually the virus reduces the number of helper T cells in the immune system
B cells are no longer activated
No antibodies are produced
This decreases the body’s ability to fight off infections, eventually leading to AIDS (Acquired immune deficiency syndrome)
HIV attaches to helper T cells (also called CD4 T-lymphocytes) and uses their cell machinery to replicate. This leads to decreased lymphocyte numbers which then affects the body's ability to respond to infection. Note that HIV should not be referred to as the 'HIV virus' as it is here.
Symptoms of AIDS
Immediately after infection with HIV a patient often suffers mild flu-like symptoms
These symptoms pass and for a period of time infected people might not know they are infected
After several months or years, the viral DNA replicated by the HIV particles becomes active
Virus particles gradually destroy and reduce the number of helper T cells present in a host
This is detrimental as helper T cells play an important role in the specific immune response
They stimulate B cells, the production of antibodies and increased rates of phagocytosis
As a patient can no longer produce antibodies against pathogens, they are immunocompromised and unable to fight off infections
They begin to suffer from diseases that would usually cause very minor issues in healthy individuals
These diseases are described as opportunistic
Tuberculosis (TB) is a common example
An HIV infection will progress to AIDS when
An individual starts suffering from constant opportunistic infections
The helper T cell count drops below a critical level
The length of time that it takes for an HIV infection to progress to AIDS can vary between individuals but the disease will follow a standard sequence of symptoms
Initially an AIDS sufferer will only have mild infections of the mucous membranes due to the low helper T numbers
Over time, however, infections will become more severe e.g. diarrhoea, TB
During the final stages of AIDS a person will suffer from a range of more serious opportunistic infections
It is these opportunistic diseases that cause an individual with advanced AIDS to die
Several factors affect how quickly HIV will progress into AIDS and how long a person with AIDS will survive
The number of existing infections
The strain of HIV the person is infected with
Their age
Access to healthcare
