Question 1
Question
Why do we need proteins in the body? Select Three
Answer
-
• Enzymes:
- Those that catalyse the breakdown of macronutrients in the digestive system
- Those that catalyse the breakdown of glucose in cellular respiration
-
• Transport:
- Oxygen transport by haemoglobin in red blood cells and Collagen fibres in connective tissue
-
• Structural proteins:
- Microtubules and microfilaments, which are part of the cell cytoskeleton and are involved in maintenance of cell shape
-
• Structural proteins:
- cytoplasm development
Question 2
Question
What is the name of the process by which DNA is converted into mRNA and where does this event take place within the cell?
Answer
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Transcription, which takes place in the cell’s nucleus.
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Translation, which takes place in the cytoplasm.
Question 3
Question
What is the name of the process by which RNA is converted into protein and where does this event take place within the cell?
Answer
-
Translation, which takes place in the cytoplasm.
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Transcription, which takes place in the cell’s nucleus
Question 4
Question
What happens to DNA before the cell can divide? Why is this so important?
Answer
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It must replicate so that when cells divide, each new cell has the full amount of DNA
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It mustn't replicate so that when cells divide, each new cell has the full amount of DNA
Question 5
Question
How and why does the cell package its DNA ready for division?
Answer
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DNA condenses to form chromatin, which then winds up to form chromosomes. Packaging the DNA in this way means it is protected during cell division and is easier to divide in half
-
Sperm and eggs only have half the amount of DNA (haploid) so that when a sperm fertilizes an egg the resulting embryo has the full correct amount of DNA (diploid).
Question 6
Question
How and why does the cell package its DNA ready for division? -
DNA [blank_start]condenses[blank_end] to form [blank_start]chromatin[blank_end], which then winds up to form [blank_start]chromosomes[blank_end]. Packaging the DNA in this way means it is [blank_start]protected[blank_end] during cell [blank_start]division[blank_end] and is easier to divide in half
Answer
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chromatin
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chromosomes
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protected
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condenses
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division
Question 7
Question
What do the terms diploid and haploid mean? Give an example of a diploid cell and a haploid cell.
- Diploid means a cell has the full amount of DNA e.g. all cells of the body except gametes
- Haploid means a cell has half the amount of DNA e.g. gametes (sperm and egg)
Question 8
Question
- [blank_start]Diploid[blank_end] means a cell has the full amount of DNA e.g. all cells of the body except gametes
- [blank_start]Haploid[blank_end] means a cell has half the amount of DNA e.g. gametes (sperm and egg)
Question 9
Question
Diploid means a cell has the full amount of DNA e.g. all cells of the body except gametes
Question 10
Question
Haploid means a cell has half the amount of DNA e.g. gametes (sperm and egg)
Question 11
Question
Why do gametes only have a haploid amount of DNA?
Answer
-
Sperm and eggs only have half the amount of DNA (haploid) so that when a sperm fertilizes an egg the resulting embryo has the full correct amount of DNA (diploid).
-
Packaging the DNA in this way means it is protected during cell division and is easier to divide in half
Question 12
Question
Number of chromosomes in human cells
Question 13
Question
Number of pairs of chromosomes
Question 14
Question
Number of pairs of autosomal chromosomes
Question 15
Question
Sex chromosomes in men are:
Question 16
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Sex chromosomes in women are:
Question 17
Question
Can you distinguish someone’s gender by seeing only their autosomal chromosomes in a karyotype?
Question 18
Question
What is a gene and what does it do?
Question 19
Question
What is an allele?
Question 20
Question
There are four characteristic functions of a cell:
1. Cell metabolism and energy use
2. Synthesis of molecules
3. Reproduction and inheritance
4. Communication
Question 21
Question
Proteins are all made from chains of amino acids. The sequence of amino acids is called the:
Question 22
Question
Amino acids all have different shapes, charges and side chains. This means proteins have different shapes - they are not just long straight chains of amino acids. This is because the amino acids interact with other amino acids in the chain in different ways, so proteins fold up into different shapes to form specific [blank_start]secondary and tertiary structures[blank_end]. If the mature protein involves more than one polypeptide chain twisted together, the protein is said to have [blank_start]quaternary structure[blank_end].
Question 23
Question
Secondary structure of proteins:
The secondary structure of proteins results from hydrogen bonds (red dotted lines) that join the individual amino acids from the primary structure to form a pleated (folded) sheet or a helix (coil)
Question 24
Question
Secondary structure of proteins:
The secondary structure of proteins results from [blank_start]hydrogen[blank_end] bonds (red dotted lines) that join the individual amino acids from the primary structure to form a pleated (folded) sheet or a helix (coil)
Question 25
Question
Collagen fibril (found in connective tissue) is made up of three polypeptide chains twisted around each other (Figure 11.4) and is called a fibrous protein.
Question 26
Question
What is the difference between a protein, a peptide and a polypeptide?
[blank_start]Peptides[blank_end] are 2 or more amino acids
[blank_start]Polypeptides[blank_end] are 10 - 50 amino acids long
[blank_start]Proteins[blank_end] are > 50 amino acids long.
Answer
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Peptides
-
Polypeptides
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Proteins
Question 27
Question
What is the relationship of DNA to proteins?
Answer
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DNA carries the code for the specific sequence of amino acids that form a particular protein.
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Nothing - DNA does not carry the code for the specific sequence of amino acids that form a particular protein.
Question 28
Question
DNA carries the recipe for each protein. A gene is a segment of DNA that carries the instructions that specify the structure of a specific protein. The production of a protein, using the information stored in DNA, is called gene expression. Gene expression can be divided into two parts:
1. Transcription
2. Translation
Question 29
Question
Both DNA and RNA consist of the basic building blocks called nucleotides
Question 30
Question
Both DNA and RNA consist of the basic building blocks called [blank_start]nucleotides[blank_end].
Each nucleotide is composed of a [blank_start]sugar molecule[blank_end] (monosaccharide) to which a [blank_start]phosphate[blank_end] and nitrogenous base are attached.
Answer
-
nucleotides
-
sugar molecule
-
phosphate
Question 31
Question
How many nucleic acid bases code for one amino acid?
Answer
-
3, this group of 3 is called a CODON
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2, this group of 2 is called a CODON
Question 32
Question
State the major role that each type of RNA plays during protein synthesis:
[blank_start]Messenger RNA (mRNA)[blank_end] : takes the information from the genes (DNA) in the nucleus out to the ribosomes
[blank_start]Transfer RNA (tRNA)[blank_end] : transfers amino acids from the cytoplasm to the ribosome and lines them up opposite their mRNA codon
[blank_start]Ribosomal RNA (rRNA)[blank_end] : major structural component of the ribosome
Answer
-
Messenger RNA (mRNA)
-
Transfer RNA (tRNA)
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Ribosomal RNA (rRNA)
Question 33
Question
DNA is a double-stranded molecule and consists of two stands – the coding strand and the template strand
Question 34
Question
Chromatid:
• When a chromosome replicates ready for cell division, the two bits of replicated chromosomes that form are called chromatids.
• Each of these chromatids is called a chromosome again when they separate and move into the daughter cells.
Question 35
Question
Homologous pair:
• Chromosome pairs are called homologous pairs, each member of the pair is called a homologue.
• One homologue is derived from your mother and one from your father.
• Each chromosome in the pair codes for the same genes, so you have two versions of every gene, these are called alleles.
Question 36
Question
Cytokinesis
• The division of cell organelles and cytoplasm.
• Results in two identical daughter cells.
Question 37
Question
Unlike mitosis: the cell divides and pulls one of each pair of homologous chromosomes into each daughter cell (each chromosome still has two chromatids).
Question 38
Question
What is the purpose of the first meiotic division?
Answer
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Meiosis separates homologous chromosomes, producing two haploid cells (23 chromosomes) which is half the amount of DNA in a “normal” cell. Thus, meiosis I is referred to as a reductional division
-
Meiosis does not separate homologous chromosomes, producing two haploid cells (23 chromosomes) which is half the amount of DNA in a “normal” cell. Thus, meiosis I is referred to as a reductional division
Question 39
Question
The Immune system is divided into two sections called:
Question 40
Question
The lymphatic system helps maintain fluid [blank_start]balance[blank_end], contributes to lipid absorption in the
digestion system, and also plays an important role in immunity. Lymphatic vessels start as
small dead-end tubes called lymphatic [blank_start]capillaries[blank_end], and are found near [blank_start]blood[blank_end] capillaries.
When blood passes through blood capillaries, some of the fluid in the blood moves into the
[blank_start]interstitial[blank_end] space in-between the cells. The fluid that moves out of the blood capillaries is high in
[blank_start]oxygen and nutrients[blank_end], and as it surrounds the cells, this is how nutrient and gas [blank_start]exchange[blank_end] occurs.
Most of this fluid eventually gets [blank_start]reabsorbed[blank_end] into the blood capillaries, but about 10%
doesn’t and is instead absorbed by lymphatic capillaries.
Answer
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balance
-
capillaries
-
blood
-
interstitial
-
oxygen and nutrients
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exchange
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reabsorbed
Question 41
Question
The lymphatic capillaries are very [blank_start]permeable[blank_end] which means anything in the interstitial fluid
can enter the lymphatic system. This includes bacteria or other foreign [blank_start]antigens[blank_end]. So if you have
bacteria that have entered your body (e.g. through broken skin), the bacteria will enter the lymphatic
[blank_start]capillaries[blank_end]. The lymphatic capillaries join together to form larger lymphatic [blank_start]vessels[blank_end]
Answer
-
permeable
-
antigens
-
vessels
-
capillaries
Question 42
Question
Lymph nodes are round or oval shaped bodies found along [blank_start]lymphatic vessels[blank_end]. Fluid enters and leaves the lymph nodes via the lymph vessels. Lymph nodes contain [blank_start]macrophages[blank_end] (e.g. phagocytic cells) and [blank_start]lymphocytes (B and T cells)[blank_end]. As fluid passes through the lymph nodes it comes into contact with these [blank_start]immune cells[blank_end] and if there are bacteria etc. in the lymph they get trapped, [blank_start]recognised[blank_end] by the immune cells and an immune response will occur.
Lymphatic vessels can also transport cancer cells that leave a primary tumour. This is why the “draining lymph nodes” of the region where a tumour is found are often checked to see if they contain cancer cells that have spread around the body.
Lymph nodes are arranged in [blank_start]chains or clusters[blank_end], so lymph passes through one node after another
increasing the chance that all pathogens will be recognised. Some places where there are
many lymph nodes include the neck, under arms (axilla), thorax, and inguinal region.
Question 43
Question
If a pathogen breaches the physical barriers of the body, our next line of defence is an immediate, but non-specific (innate) response such as inflammation.
Question 44
Question
Cell-mediated responses:
• Macrophages and other cells of the innate defences alert T cells that foreign antigens are present in the body.
• In your body you have specific small populations of T cells that recognise different types of antigens. When the antigen is recognised by the specific T cell, the T cell will directly attack the infected cells and release chemicals that further promote innate immune responses e.g. inflammation and phagocytosis.
• T cells also contribute to the activation of B cells (antibody mediated responses)
• A small population of T cells remain after the infection is cleared – memory T cells. The memory T cells means the next time that particular strep bacteria enters Tom’s body he will be able to fight it off faster.
Question 45
Question
Antibody-mediated responses:
• Once B cells are activated by the presence of the foreign antigen and with the help of T cells they differentiate into antibody releasing cells called plasma cells.
• Antibodies have many ways of eliminating the antigen. You don’t need to know all of them, but a few examples are:
- binding to the antigen to inactivate it
- binding to several antigens together to form a “clump” of antigens and make them in effective.
- when an antibody binds to an antigen, the complex is then often phagocytised by macrophages.
• Like T cells, a small population of memory B cells remain after the infection is cleared and will help Tom fight off the strep infection faster next time.