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467418
Week 1
Descripción
Undergraduate Degree (week summary) BMSC1110 Mapa Mental sobre Week 1, creado por 06watkinse el 07/01/2014.
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bmsc1110
week summary
bmsc1110
undergraduate degree
Mapa Mental por
06watkinse
, actualizado hace más de 1 año
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Creado por
06watkinse
hace casi 11 años
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Resumen del Recurso
Week 1
What are we made of?
Biomedical Sciences
anatomy - body structure
pharamcology - drugs and their actions
physiology - body functions
neuroscience - nervous system functions
biochemistry - chemistry involved in life
cell biolofy - how cells work
microbiology - microbes and their effects and treatments
nutrition - diet and health effects
pathology - what happens in disease
psychology/psychiatry - ab/normal mental function
Physists' Answer
percent by mass of each element present in the body
Biochemists' Answer
water - 60%
fat - men, 13-17%; women, 20-21%
proteins - 15%
rock - 10%
salts - 0.5%
Cell Biologists' Answer
cell organelles
membrane
nucleus
A Set of Tissues
epithelia
cover surfaces
form interfaces
absorption and secretion
muscle
contractile
movement
connective
package and divide
support
energy storage
space filling
neural
excitable cells
sensory and motor
transmit signals
process incoming information
Set of Regions
head and neck
thorax
abdomen
pelvis
upper limb
lower limb
Set of Systems
Body Fluid Compartments
total mass - 70kg
total body water - 42 L
intracellular fluid - 28 L
extracellular fluid - 14 L
plasma - 3.5 L
extravascular fluid - 10.5 L
highest concentrations in fluids
plasma - Na & Cl
interstitial - Na & Cl
intracellular - K & HPO4
Cell Biology
Membranes
separate 2 areas that need different conditions
phospholipid bilayer
phospholipids
polar head - charge effects whether it is hydrophobic or philic
fatty acid tail(s)
single tail - micelle
2 tails - bilayer
triglycerides
glycerol backbone
3 fatty acids
fatty acids can be saturated or unsaturated
unsaturated - bends in chain, fixed
saturated - floppy and straight
diglycerides
2 fatty acids
third attachment is a phosphate attached to choline for example
cholesterol
stiffens backbone
planar fixed
changes membrane properties
carbohydrates act as signals to passing molecules
Energy
3/4 of all energy used to pump K/Na in and out of cells
active transport - pumps against concentration gradient
cotransport
a substance in pumped in or out and by doing so all moves another molecule in or out
passive diffusion - doesn't require energy, goes down a cencentration gradient
pumps are proteins
Endosymbiotic Hypothesis
the arrival of eukaryotes
evidence
double membranes on mitochondria
mitochondria division isn't controlled by the cell
mitochondria have their own DNA
Nucleus
DNA storage
DNA synthesis
transcription
nuclear pores - allow molecules/DNA in and out
ER
synthesis or the membrane
synthesis of secretory proteins
Ribosomes
protein synthesis
attach to the ER via translocator complexes
Golgi Apparatus
packaging of molecules
Protein Movement
signals sticking into cytoplasm
package into vesicles with targetting signals on
send everywhere are retrieve from where it isn't used
motor proteins on cytoskeleton
Cytoskeleton
microfilaments - actin, cell periphery, microvilli
microtubules - tubulin, structural support, vesicle transport, form cilia, subcellular organisation
intermediate filaments - insoluble protein network, nuclei contain their own intermediate filaments (Lamins)
Proteasome
protein binds with polyubiquitin chain
protein then passes through preasome
protein broken down
Lysosome
breakdown of damaged organelles to be secreted
breakdown of foreign material by phagocytosis
autolysis to kill cell
Homeostasis
The Maintenance of Internal Environments Within the Body
Acts as a Buffer Against External Changes
The Brain
somatic nervous system - conscious
autonomic - unconscious
symapthetic
noradrenaline
parasympathetic
acetylcholine
different receptors change what happens with a signal
Negative Feedback
temperature control
a sensor leads to a reversal of the change in parameter it sensed
the set point is the point at which negative feedback trys to return the parameter to
2 effectors - one for too great and one for too low
Positive Feedback
a sensor leads to an exaggeration of the paramenter it sensed
blood clotting
labour contractions
Local Autoregulation
capillary blood flow
sympathetic input causes dilation of smooth muscle
capillaries only 2/3 open - 20% maximal blood flow
factors that cause dilation
hypoxia
lactic acid
nitric oxide
potassium
vasomotor tone
implications of excerise
vasodilation causes a drop in blood pressure
locally produced acid enters the blood
detected by baro- and chemo- receptors which signal the brainstem nuclei
reflex changes in breathing and heart rate restore homeostasis
Hormones
control long term homeostasis
come in antagonistic pairs
Acid-Base Balance
Challenges
Diet - proteins and fats broken down into acidic products
Metabolism - in/complete carbohydrates, bicarb and lactic acid; incomplete fats, ketoacids
pathology - vomiting,renal failure,retention of CO2 acidosis; diarrhoea, diabetes, loss of CO2 alkalosis
Responses to Challenges
buffering - bicarbonate, protein and phosphate
respiratory compensation - excess CO2 blown off
peripheral
detect CO2 and protons
central
detect CO2
both drive an increase in rate and depth of breathing
renal compensation - acid secretion, bicarb synthesis and phosphate homeostasis
secretion of protons or bicarb into the urine
retention of bicarb
creation of bicarb
excretion of ammonia
regulation of buffers
buffering hides the problem
Disturbances
acidosis
respiratory - CO2 retention, impaired ventilation
metabolic - creation or ingestion of acids, renal failure, diarrhoea
alkalosis
respiratory - CO2 deficit, hyperventilation
metabolic - loss of acid, ingestion of antacids
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