arabera Anonymous User 2 years ago
97
Honelako gehiago
Carries photosynthesis products (sugars)
Carries water and minerals
Does photosynthesis (6CO2+H2O -light energy-> C6H12O6 + 6O2 )
Support cells
Protect on surface
Fat
Conserve heat, broken down for cellular respiration
Bone
Provide rigid bodily structure
Blood
White
Fight infection & disease
Red
Carry O2 and CO2
Neurons
Transmit electrochemical messages
Columnar
Secretes things (e.g mucus, stomach acid)
Protect cells underneaths
Cardiac
Pump blood from heart, involuntary
Smooth
Contracts to move things through body (e.g air & food), involuntary
Contract to move bones, under voluntary control
High power objective
40x
.4mm approx. diametre
Medium power objective
2mm approx. diametre
Low power objective
4x
4mm approx. diametre
Not pulled apart properly
Less chromosomes
Not enough genetic information
Doesn't know how to function, dies
More chromosomes
Hard to grow, mutations happen
Deadly mutation cause cell death
Cells die - need replacements
Be big and strong
Plant
Cell plate forms
Permanent neighbors :)
Animal
Cleavage furrow forms and separates
Telophase
Nucleolus reappears
Nuclear membranes start reforming
Spindle fibers dissapears
Cell begins to get stretched
Anaphase
Chromatids arrive at poles
Spindles pull sister chromatids apart forming identical daughter chromosomes
Metaphase
Spindle fibers attach to sister chromatids
Chromatids line up along the metaphase plate (imaginary)
ANIMAL CELLS: Centromeres arrive at poles
Prophase
ANIMAL CELLS: Centromeres start moveing
Nuclear membrane breaks down
Nucleolus dissapears
Spindle fiber created on centromeres
Chromatin coils and turns in to sister chromatids
G2
Makes organelles and proteins
S
Double DNA in nucleus
G1
Checkpoint
Stop and fix, if can't commence apoptosis
Makes organelles and grows
Reproduce
Pollen from stamen to pistil - Reach egg at stigma
Stores sugars, makes colours
Buds, minimal
Fuction
Transport water and nutrients
Support leaves
Phloem
Brings sugars from sources (high conc.) to sinks (low conc.)
Methods
Negative pressure
Transpiration pull
Column of water in xylem, when molecule of water is used it creates a -ve gap. The one underneath fills it's spot
up to the top
Possitive pressure
Capillary action
Water attracted to xylem, stays together with surface tension
up to 1-2m
Root pressure
Osmotic pressure in root cells
up to 30cm
Carry water
Green stems
Keep plant upright and tall to allow it to compete for sunlight
Protect plat
Fuzz with toxin
Spikes
Perform photosynthesis to create fuel
Move produced C6H12O6 to places where growth needed
Brings H2O for photsynthesis
Mesophyll cells
Spongy
Has spaces to keep gases, behind surface
Palisade
Tightly packed, the surface
Minimal
Stomata (pl. stoma) open to release O2 and take in CO2
Cuticle (wax) protect from water loss
Absorb, anchor, and store
Tissues
Pholem
Bring sugar to root
Xylem
Water and mineral to the rest of the shoot
Photosynthetic
N/A (underground)
Support
Supports holding structure of stored materials
Dermal
Control material movement
Cytosine
Guanine
Thymine
Adenine
Always prepared for task less energy wasted preparing
Evolves faster
Focus on fewer tasks at once and do the work more efficiently
Requires complex structure to allow for it to work
Interdependence
Examples
Neural stem cells
Create neurons
Bone marrow cells
Create red blood cells
Highly specialised
Semilimited
Based off location in embryo
Until birth
Can turn into any cell
Purpose to divide
3-4 weeks start specialisation
<2 week old embryo
Remove the cancerous cells
Mutate cells so much they can't do mitosis
Chemicals target fast growing cells
Grows uncontrollably
Causes problems with organ functions
Forms tumour
Fucked up DNA fucks up division
Shitty parents (inherited DNA)
Exposure to carcinogens
Creates xylem and phloem
Outer layer, bark
Camera through an orfice
High energy waves passes through most things except for bone getting an image
Big electromagnets
Can be all of them
CT-scan
X-Ray ring takes slices
Live image
High frequency sounds
Basically echolocation
Movement
Skin
Protection
Lymph nodes
Fight infection
Liver
Kidneys
Remove wastes
Pancreas
Pituitary gland
Chemical messages (hormones)
Testicles ♂
Ovaries ♀
Reproduce (the meaning of life)
Spinal cord
Brain
Sending electrochemical messages
High concentration to low concentration
Fish, amphibians, and mammals
Worms and Insects
Teeth
Mechanical digestion
Spiracles
Stomach
Mechanical and chemical digestion
Intestine
Absorb
Gizzard
Crush with stones (mechanical digestion)
Crop
Store
Break down & absorb nutrients
Lungs -> left side of heart
Lungs (immature) + Cutaneous respiration
Gills
Countercurrent flow
Cutaneous respiration
Diffusion
Lungs
Exchange Gases
O2 in CO2 out
Mammals
Double loop
4 chambered heart
Amphibians
Incomplete loop
3 chambered heart
Fish
2 chambered heart
Insects
Open system Haemolymph
Haemolymoph = insect blood
Worms
Single loop
5 aortic arches
Unicellular
N/A
Blood vessels
Capillaries
Blood from body to heart
Veins
Between arteries and capillaries, move wastes
Arteries
Blood from heart to body
Heart
Ventricle
Move blood (output)
Atrium
Collect blood (input)
Move Materials