Pregunta 1
Pregunta
What are stem cells?
Respuesta
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They are cells that are specialised to carry out their function.
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They are unspecialised cells that can develop into a different types of cell.
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They are cells that are in plant stems.
Pregunta 2
Pregunta
Where are stem cells found in humans?
Respuesta
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Heart
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Kidney
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Bone Marrow
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Lungs
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Early embryos
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Tissue fluid
Pregunta 3
Pregunta
Stem cells [blank_start]divide[blank_end] to become new cells, which then become [blank_start]specialised[blank_end].
The process by which a cell becomes specialised for its job is called [blank_start]differentiation[blank_end].
Stem cells are able to divide to produce more [blank_start]undifferentiated[blank_end] cells, i.e. they can [blank_start]renew[blank_end] themselves.
In animals, stem cells are used to [blank_start]replace[blank_end] damaged cells.
Respuesta
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divide
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specialised
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differentiation
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undifferentiated
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renew
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replace
Pregunta 4
Pregunta
Bones are living [blank_start]organs[blank_end], containing [blank_start]nerves[blank_end] and [blank_start]blood vessels[blank_end].
The main bones in the body have [blank_start]marrows[blank_end] in their centres.
Here, adult stem cells [blank_start]divide[blank_end] and [blank_start]differentiate[blank_end] to replace worn out blood cells – [blank_start]erythrocytes[blank_end] (red blood cells) and [blank_start]neutrophils[blank_end] (white blood cells to fight infection).
Respuesta
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organs
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systems
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structures
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nerves
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neurons
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neutrophils
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blood vessels
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collagen
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elastic fibres
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marrows
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memory cells
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meristem
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divide
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join
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move
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differentiate
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change
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go
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erythrocytes
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phagocytes
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neutrophils
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neutrophils
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erythrocytes
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phagocytes
Pregunta 5
Pregunta
Plants are always [blank_start]growing[blank_end] so they need new [blank_start]shoots[blank_end] and roots throughout their lives.
Stem cells in plants can [blank_start]differentiate[blank_end] into various plant tissues.
In plants, stem cells are found in [blank_start]meristems[blank_end] (place where [blank_start]growth[blank_end] can take place).
In the root and the stem, stem cells of the [blank_start]vascular cambium[blank_end] divide and differentiate to become [blank_start]xylem[blank_end] vessels and [blank_start]phloem[blank_end] sieve tubes.
Respuesta
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growing
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photosynthesising
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respiring
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shoots
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leaves
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differentiate
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divide
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change
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meristems
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marrow
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mesophyll
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vascular cambium
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ventricle
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veins
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growth
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respiration
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photosynthesis
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xylem
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phloem
Pregunta 6
Pregunta
What are the uses of stem cells in medicine?
Respuesta
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Scientists think they can be used to repair damaged tissue (e.g. heart)
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Scientists think they can be used to treat neurological disorders (like Alzheimer’s and Parkinson’s).
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Scientists think they can be used to cure bacterial diseases like TB.
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Scientists think they can enable doctors to diagnose illnesses instantly.
Pregunta 7
Pregunta
Heart disease means the [blank_start]heart[blank_end] tissue is [blank_start]damaged[blank_end] so the body can’t replace damaged heart cells. Researchers are trying to develop ways of using stem cells to make [blank_start]replacement[blank_end] heart cells to repair the damaged tissue.
Alzheimer’s nerve cells in brain [blank_start]die[blank_end] in increasing numbers causing severe [blank_start]memory[blank_end] loss. Researchers hope to use stem cells to regrow healthy [blank_start]nerve[blank_end] cells in people with Alzheimer’s.
Parkinson’s disease causes uncontrollable tremors. Loss of [blank_start]nerve[blank_end] cells in the brain that produce dopamine, which is needed to [blank_start]control[blank_end] movement. Transplanted stem cells may help to [blank_start]regenerate[blank_end] the dopamine-producing cells.
Respuesta
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heart
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damaged
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replacement
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die
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memory
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nerve
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nerve
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control
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regenerate
Pregunta 8
Pregunta
Red blood cells have the following functions and adaptations:
Respuesta
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They carry oxygen in the blood.
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They have a biconcave disc shape so their is a larger surface area for gas exchange.
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They have no nucleus so there is more room for haemoglobin.
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They have a biconvex disc shape to give a larger surface area.
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They send signals to the central nervous system.
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They defend body against disease.
Pregunta 9
Pregunta
What is the function of a neutrophil?
Pregunta 10
Pregunta
What are the adaptations of a neutrophil?
Respuesta
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Flexible shape allows them to engulf pathogens/foreign particles.
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Many lysosomes in cytoplasm have digestive enzymes to break down engulfed particles
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They have many mitochondria to provide energy for active transport
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They have no nucleus.
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They have multi-lobed nucleus.
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They have cilia on their surface to beat pathogens away.
Pregunta 11
Pregunta
[blank_start]Epithelium[blank_end] cells cover the surfaces of organs.
Cells joined by [blank_start]interlinking[blank_end] membranes and membranes at base.
Ciliated epithelia (airways) have [blank_start]cilia[blank_end] that beat to remove particles away.
Other ones (in [blank_start]small[blank_end] intestine) have [blank_start]microvilli[blank_end] to increase their surface area.
[blank_start]Squamous[blank_end] epithelia (in lungs) are very thin to allow efficient diffusion of [blank_start]gases[blank_end]
Respuesta
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Epithelial
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Skin
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Surface
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interlinking
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plasma
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cilia
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root hairs
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microvilli
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goblet cells
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small
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large
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Squamous
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gases
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water
Pregunta 12
Pregunta
[blank_start]Sperm[blank_end] cells have a flagellum so they can [blank_start]swim[blank_end] to the egg.
Have lots of [blank_start]mitochondria[blank_end] to provide [blank_start]energy[blank_end] to swim.
[blank_start]Acrosome[blank_end] in head contains [blank_start]digestive[blank_end] enzymes to enable sperm to penetrate the surface of the egg.
Respuesta
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Sperm
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Egg
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swim
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jump
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mitochondria
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lysosomes
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energy
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enzymes
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Acrosome
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Phagosome
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digestive
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biological
Pregunta 13
Pregunta
Palisade mesophyll cells are in the roots.
Pregunta 14
Pregunta
[blank_start]Palisade[blank_end] mesophyll cells do most of [blank_start]photosynthesis[blank_end].
They contain many [blank_start]chloroplasts[blank_end] so absorb lots of sunlight.
They have [blank_start]thin[blank_end] walls – so CO2 can easily diffuse into the cell.
Respuesta
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Palisade
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chloroplasts
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thin
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photosynthesis
Pregunta 15
Pregunta
[blank_start]Root hair[blank_end] cells:
absorb water + [blank_start]mineral ions[blank_end] from soil.
have a [blank_start]large[blank_end] surface area for absorption.
Have thin, [blank_start]permeable[blank_end] wall for entry of water and ions.
Have extra [blank_start]mitochondria[blank_end] (energy for active transport) in their [blank_start]cytoplasm[blank_end].
Respuesta
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Root hair
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Epithelium
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Meristem
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mineral ions
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carbon dioxide
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waste
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large
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small
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permeable
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long
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impermeable
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mitochondria
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lysosomes
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ribosomes
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cytoplasm
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plasma membrane
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vacuole
Pregunta 16
Pregunta
[blank_start]Guard[blank_end] cells are found in [blank_start]pairs[blank_end] with gap between them to form [blank_start]stoma[blank_end].
These are tiny pores in surface of leaf for [blank_start]gas[blank_end] exchange.
In light, guard cells take up water and become [blank_start]turgid[blank_end] (swollen).
Thin outer walls and thickened inner walls force them to bend outwards, [blank_start]opening[blank_end] stomata.
Allows gas exchange for [blank_start]photosynthesis[blank_end].
Respuesta
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Guard
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palisade mesophyll
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companion
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pairs
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triplets
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stoma
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stem cells
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gas
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water
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solute
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turgid
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flaccid
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small
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opening
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closing
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photosynthesis
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respiration