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Removing Int racellular Waste. Kidney Structure & Function. Glucose. H 2 O. Na + Cl -. Amino acids. H 2 O. H 2 O. Na + Cl -. H 2 O. Mg ++ Ca ++. H 2 O. H 2 O. Collecting duct. Loop of Henle. aa. O 2. CH. CHO. CO 2. aa. NH 3. CHO. O 2. CH. O 2. aa. CO 2. CO 2.
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Removing IntracellularWaste Kidney Structure& Function Glucose H2O Na+ Cl- Amino acids H2O H2O Na+ Cl- H2O Mg++ Ca++ H2O H2O Collecting duct Loop of Henle
aa O2 CH CHO CO2 aa NH3 CHO O2 CH O2 aa CO2 CO2 O2 NH3 aa NH3 CO2 NH3 CO2 CO2 NH3 NH3 O2 CO2 CO2 CO2 NH3 aa NH3 NH3 CHO CO2 CO2 aa CH Animal systems evolved to support multicellular life single cell intracellular waste but whatif the cells are clustered? extracellular waste for nutrients in & waste out Diffusion too slow!
CO2 CO2 O2 NH3 aa NH3 CO2 NH3 CO2 CO2 NH3 NH3 O2 CO2 CO2 CO2 NH3 aa NH3 NH3 CHO CO2 CO2 aa CH Overcoming limitations of diffusion • Evolution of exchange systems for • distributing nutrients • _____________________ • removing wastes • _____________________ systems to support multicellular organisms
hypotonic Osmoregulation • Water balance vs. Habitat • freshwater • ___________________________ • water flow into cells & salt loss • saltwater • ___________________________ • water loss from cells • land • dry environment • need to conserve water • may also need to conserve salt hypertonic Why do all land animals have to conserve water? • always lose water (breathing & waste) • may lose life while searching for water
H O H | | | –C– C–OH N | H R Animalspoison themselvesfrom the insideby digestingproteins! Intracellular Waste • What waste products are made inside of cells? • what do we digest our food into… • carbohydrates = CHO • lipids = CHO • proteins = CHON • nucleic acids = CHOPN CO2 +H2O lots! CO2 +H2O verylittle CO2 +H2O + N CO2 +H2O + P + N cellular digestion…cellular waste CO2 + H2O NH2= ammonia
Nitrogenous waste disposal • Ammonia (NH3) • __________________________ • carcinogenic • __________________________ • easily crosses membranes • must dilute it & get rid of it… fast! • How you get rid of___________________depends on • who you are (evolutionary relationship) • where you live (habitat) aquatic terrestrial terrestrial egg layer
Nitrogen waste • _____________________ • can afford to lose water • ___________________ • most toxic • _____________________ • need to conserve water • ___________________ • less toxic • ____________________________________________ • need to conserve water • need to protectembryo in egg • ___________________ • least toxic
Freshwater animals • Hypotonic environment • water diffuses into cells • Manage water & waste together • remove surplus water & waste • use surplus water to dilute ammonia & excrete it • also diffuse ammonia continuously through gills • overcome loss of salts • reabsorb in kidneys or active transport across gills
H H H H N N C O Land animals • Nitrogen waste disposal on land • need to conserve water • must process ammonia so less toxic • _______= larger molecule = less soluble = less toxic • 2NH2+ CO2 = urea • _________________________ • __________________ • filter solutes out of blood • reabsorb H2O (+ any useful solutes) • excrete waste • _______= urea, salts, excess sugar & H2O • urine is very concentrated • concentrated NH3 would be too toxic Ureacosts energyto synthesize,but it’s worth it! mammals
Egg-laying land animals • Nitrogen waste disposal in egg • no place to get rid of waste in egg • need even less soluble molecule • ___________ = BIGGER = less soluble = less toxic • birds, reptiles, insects itty bittyliving space!
O O O N N N N H H H H And that folks, is why mostmale birds don’t have a penis! Uric acid • Polymerized urea • large molecule • ______________________________ • doesn’t harm embryo in egg • white dust in egg • adults still excrete N waste as white paste • no liquid waste • uric acid = white bird “poop”!
Mammalian System blood filtrate • Filter solutes out of blood & reabsorb H2O + desirable solutes • Key functions • ______________________ • fluids (water & solutes) filtered outof blood • ______________________ • selectively reabsorb (diffusion) needed water + solutes back to blood • ______________________ • pump out any other unwanted solutes to urine • ______________________ • expel concentrated urine (N waste + solutes + toxins) from body filtrate filtrate filtrate filtrate concentratedurine
Mammalian Kidney inferiorvena cava aorta adrenal gland kidney nephron ureter renal vein& artery microvilli onepithelialcells bladder urethra
Nephron • Functional units of kidney • 1 million nephronsper kidney • Function • filter out urea & other solutes (salt, sugar…) • blood plasma filteredinto nephron • high pressure flow • selective reabsorption ofvaluable solutes & H2O back into bloodstream • greater flexibility & control whyselective reabsorption& not selectivefiltration? “counter current exchange system”
How candifferent sectionsallow the diffusionof different molecules? Mammalian kidney • Interaction of circulatory & excretory systems Proximal tubule Distal tubule Bowman’s capsule Glomerulus Glucose H2O Na+ Cl- Amino acids H2O H2O Na+ Cl- H2O Mg++ Ca++ H2O H2O Collecting duct Loop of Henle
Nephron:_______________ • At glomerulus H2O &solutes high blood pressure in kidneysforce to push (filter) H2O & solutes out of blood vessel cells &largemolecules BIG problems when you start out with high blood pressure in systemhypertension = kidney damage
Nephron:_______________ • Proximal tubule • reabsorbed back into blood
Nephron: Re-absorption structure fitsfunction! • Loop of Henle • ___________________ • reabsorbed • _________________ • structure
Nephron: Re-absorption structure fitsfunction! • Loop of Henle • ___________________ • reabsorbed • _________________ • structure
Nephron: Re-absorption • Distal tubule • reabsorbed
Nephron: Reabsorption & Excretion • Collecting duct • reabsorbed • ______________________________ • excretion
Osmotic control in nephron • How is all this re-absorption achieved? • tight osmotic control to reduce the energy costof excretion • use diffusioninstead of active transportwherever possible the value of acounter current exchange system