Paper 2

Created by

Mariama Caton

Cards (84)

Homeostasis 
An organism's ability to regulate internal conditions even when external conditions change
Importance of homeostasis 
Allows crucial chemical reactions involving enzymes to happen at an Optimum rate
Regulates blood glucose concentration, temperature, and water levels
Nervous system regulation of homeostasis
1. Receptor detects stimulus
2. Electrical signal travels to spine through sensory and relay neurons
3. Signal travels across synapse by neurotransmitter
4. Signal goes to brain
5. Conscious decision to act
6. Signal goes to effector via relay and motor neurons
Reflex 
Signal bypasses the brain and goes straight through the spine to the effector
Effectors 
Glands that produce specific chemicals the body needs
Investigating reaction time 
1. Hold ruler between finger and thumb
2. Drop ruler without warning
3. Measure distance fallen before caught
4. Repeat multiple times and take mean average
Parts of the brain
Cerebral cortex - responsible for higher level functions like memory, speech, and problem solving
Cerebellum - responsible for motor skills, movement, balance, and coordination
Medulla oblongata - controls unconscious actions like heart rate and breathing
MRI scans 
Magnetic resonance imaging - way of seeing brain activity safely
Accommodation in the eye
For far objects: Ciliary muscles relax, suspensory ligaments tighten, lens becomes thin
For near objects: Ciliary muscles contract, suspensory ligaments slacken, lens becomes fatter
Pupil 
Hole in the iris that can change size depending on light intensity
Retina 
Contains rods (detect light intensity) and cones (detect colour)
Myopia 
Shortsightedness - can't focus on far objects
Hyperopia 
Longsightedness - can't focus on near objects
Thermoregulation 
Brain senses blood temperature
Sends nervous and hormonal signals to effectors
Effectors cause body to lose or retain heat
Endocrine system 
System of glands that produce hormones that travel to effectors via the blood
Pituitary gland 
Main or master gland that produces hormones in response to stimuli
Pancreas 
Produces insulin to regulate blood glucose levels
Type 1 diabetes 
Pancreas can't produce enough insulin
Type 2 diabetes 
Cells don't absorb glucose properly
Water and nitrogen balance
Body loses water through exhaling, sweating, urinating
Kidneys filter blood and reabsorb useful substances
ADH regulates water reabsorption in kidneys
Urea produced from excess proteins is excreted
Menstrual cycle 
FSH causes egg maturation and estrogen production
LH causes egg release
Progesterone maintains uterus lining
IVF 
Eggs harvested, fertilized in lab, embryos inserted into uterus
Adrenaline 
Hormone that increases heart and breathing rate in stress
Thyroxin 
Hormone that controls metabolic rate
Plant hormones 
Gibberellins - seed germination, flowering, fruit size
Ethylene - fruit ripening
Auxins - shoot and root growth, phototropism, geotropism
Meiosis 
Chromosomes copied, paired, genes swapped, cell divides twice to form haploid gametes
Asexual reproduction 
Daughter cells genetically identical to parent
Genome 
All the genetic material in an organism
Gene 
Section of DNA that codes for a specific protein
Genotype 
Genetic code stored in DNA
Phenotype 
How the genetic code is expressed in characteristics
Nucleotides 
Monomers that make up DNA
Asexual reproduction 
Only one parent is needed, e.g. a plant on its own can still reproduce to ensure species survival
Parasite that causes malaria
Can do both sexual and asexual reproduction
Genome 
The term given to all the genetic material in an organism
DNA 
A two-stranded polymer in a double helix shape that stores the genetic code
Gene 
A section of DNA that codes for a specific protein
The Human Genome Project completed its initial goal in 2003 when scientists mapped out what every gene is responsible for coding
Genotype 
The code stored in your DNA specifically
Phenotype 
How the genotype is expressed in your characteristics and physiology