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Bio 101: Harvard

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Proportion of genotype in population
Homeotherms
Bowman's capsule
Lateral gene transfer
Genotype frequency

2. Body temp changes with enviro - BMR measured at standard temp for each species - SMR or standard metabolic rate (fish - ambhibia - reptiles)
Endemic
Absorbed triglycerides
Ectotherms
Allele frequency

3. MR is at minimal level combatible with all physiological functionsfor homestastis (BMR level)
Darwin's book
Genetic Drift
Thermoneutral zone (TNZ)
Basal Metabolic Rate

4. Like in butterfly - often give organism an survival and mating advantage-- however homozygotes will always exist as children of heterozygotes
Basal Metabolic Rate
Heterozygote populations
Darwin's book
Malpighian tubules

5. 20%of plasma leaves capillaries and filters into bowman's space. GFR= Rate of filtrate production (controlled by dilation and constriction of afferent arteriole)
Vasa recta
Glomerular Filtration Rate
Gene Flow
Epithelial tissue

6. Skeletal muscle (major consumer of glucose) - cardiac muscle - smooth muscle (gut - bladder and blood vessels)
Metabolism
Muscle tissue
Population
Bowman's capsule

7. 1. If equal - then amino acid residue drifting neutrally 2. If nonsynon higher than sysnon - positive selection causing change in amino acid residue 3. If sysnon higher than nonsynon then purifying selection resisting change in amino acid residue (ly
Nonsynonymous vs synonymous
Glucose Transporters
Nucleotide Substitution
Macroevolution

8. The differential survival and reproduction of individuals in a population based on variation in their traits
Electrolytes
Malpighian tubules
Deleterious
Natural selection

9. Major cell movement - 3 germ layers form
Stabilizing Selection
Heat budget equation
Gastrulation
Phenotype

10. Harmful mutation
Deleterious
Diploid
Interstitial fluid
Acclimatization

11. Region where species are found (densities are zero elsewhere)
Hypothalamus
Heterotherms
Geographic Range
MR equation

12. Proportion of allele in population
Allele frequency
Size in BMR
Genetic Drift
Allele frequency formula

13. Migration of individuals and movements of gametes between populations (can add new allelles or change Allele frequency)
Gene Flow
Calorie
Post absorptive stage
Brown fat

14. Species change over time - divergent species share a common ancestor - change is produced by natural selection
Three theories of Darwin
Positive feedback
Aldosterone
Evaporation

15. High denisty of mitochodira abnd blood vessels (good at non shivering thermogensis)
Ketones
Brown fat
Endotherms
Muller's Ratchet

16. Creates new genes by inserting exons and flanking introns into a different gene sequence - there by introducing a new domain in the gene product
Honest signal
Heterozygote populations
Exon shuffling
Muller's Ratchet

17. When an organisms phenotype influences ability to attract mates
Brown fat
Adaptation
Sexual selection
Genome size

18. 1. Filtration 2. Reaborption 3. Secretion (Kidney can perform well with only 10% of nephrons functioning)
Metabolism
Excretory organs
Convection
Feedforward information

19. Outcrops of species due to suitable habitats separated by areas of unsuitable habitat
Alleles
Nephron
Ectotherms
Habitat patches

20. Thermostat of the brain (when cooled - constricts blood vessels in skin and increases metabolic heat production= body temp increases)
Tubule
Hypothalamus
Basal Metabolic Rate
Conduction

21. When a few pioneers colonize a new region - they possess fewer alleles than their source population creating a bottleneck effect
Feedforward information
Molecular Evolution
Founder effect
Homeotherms

22. Heat transfer when two objects come into direct contact (icepack on sprained ankle)
Conduction
Disruptive selection
MR equation
Why Hardy Weinberg is Important

23. Human based selection (ie cows with more milk or high fat content)
Artificial directional selection
Three theories of Darwin
Sexual selection
Antidiuretic hormone

24. Fine tuning of adaptive mechanisms (adjusts to climate/temperature- sweating begins sooner and is greater in volume)
Osmoconformers
Geographic Range
Acclimatization
Radiation

25. Below TNZ must increase metabolic heat production (shivering increase four times above BMR)
Homeostasis
Lower critical temperature
Thermal insulation
Hypoglycemia

26. Bicarbonate ions (Co2+H2O= h2Co3= H+ + HCO3-) Co2 removed by lungs - H+ removed by urine
Neutral Theory
Excess Glucose
Major blood buffer
Founder effect

27. Made by pancreas - binds to cell surface receptor and stimulates singaling pathway - faciliates glucose diffusion into cell (secretion rises when blood glucose rises - eating - or parasympathetic stimulation ie negative feedback)
Insulin
Metanephridia
Temperature sensitivity
Epithelial tissue

28. 2NAA + NAa/2N is p and 2aa + NAa/2N is q (however similar frequencies can have very different genotype frequencies)
Excretory system functions
Hypothalamus
Homeostasis
Allele frequency formula

29. Liver converts no carbs into glucose (lipolysis-fatty acids and glycerol to glucose)
Epithelial tissue
Gluconeogenesis
Lateral gene transfer
Malpighian tubules

30. Self fertilization - homozygous genotypes increase - heterozygous genotypes decrease
3 germ layers
Nephron
Absorbed amino acids
Selfing

31. Lack of water --> lack of body water - compromises the circulatory system and regulation of body temperature
Heterochrony
Dehydration
Ammonotelic
Kidney

32. Neurons (generate and conduct electrical signals) and glial cells (release chemical signals)
Intrasexual Selection
Alleles
Feedforward information
Nervous tissue

33. Change in allele frequencies that occur over time in a population
Loop of Henle
Temperature sensitivity
Microevolution
Hemodialysis

34. Populations do
Homeostasis
Absorbed triglycerides
Orthologs
Individuals do not evolve

35. MR= K(Tb-Ta) K is the slope of thermal conductancce - how readily the animal loses heat
MR equation
Genotype frequency
Endotherms
Ectotherms

36. Produced in adipose tissue in proportion to fat mass - leptin reduces appetite through hypothalamus (increases BMR). Decrease in leptin decreases BMR - increases appetite
Hemodialysis
Metabolic rate
Leptin
Other guy who came up with natural selection

37. Prolonged energy source for many tissues - and brain - less protein breakdown required
Ketones
Reabsorption
Individuals do not evolve
Why Hardy Weinberg is Important

38. Product of protein and nucleic acid degradation: 1. Ammonia (NH3) - 2. Urea (lose lots of water)-humans are ureotelic - 3. Uric acid (lose little water)
Macroevolution
Nitrogenous wastes
Ketones
Muscle tissue

39. Short term control of feeding - stretch receptors in stomach and small intestines sens signals to the brain - realease hormones to supress appetite
Satiation
Evolutionary trend
Brown fat
Positive feedback

40. Pxp is genotype for AA qxq is genotype for aa and pq is heterozygotes - model shows scientists what mechanisms are causing evolution (p+q=1 and p2 + 2pq+q2=1)
Habitat
Nervous tissue
Leptin
Why Hardy Weinberg is Important

41. In medulla - run parrallel to loops of Henlue and medullary collecting ducts - minimize excessive loss of solutes via diffusion
Habitat patches
Metabolic rate
Vasa recta
Behavioral thermoregulatory adaptation

42. Environments where species can survive within their geographic range
Population size
Habitat
Metanephridia
Heterochrony

43. Does not change the encoded amino acid. Occurs at highest rate (also synonymous substitution)
Gene duplication
Evolutionary trend
Acclimatization
Silent substitution

44. Rate at which an organism uses energy to power these reactions
Why Hardy Weinberg is Important
Allele frequency formula
Metabolic rate
Thermoneutral zone (TNZ)

45. Change salt water balance: 1. respiration - 2. metabolism - 3. waste elimination - 4. food ingestion 5. body temperature regulation
Fever
Electrolytes
Gene Flow
Obligatory Exchanges

46. Q10= Rt/Rt-10 (rate of process or reaction - and rate at 10 degreed celcius lower)-- If not sensititve - Q10 is usually 1 - generally between 2 and 3
Phenotype
Bowman's capsule
Qualitative
Temperature sensitivity

47. (GLUTS) move to surface - inhibit glycogenolysis and gluconeogensis
Glucose Transporters
Leptin
Interstitial fluid
Ectotherms

48. Hot fish have arteries closer to muscle to warm blood (countercurrent heat exchanger)- allows them to swim faster - catch prey
Cold fish vs hot fish
Osmoconformers
Why Hardy Weinberg is Important
Nitrogenous wastes

49. What organisms look like and how they behave
Phenotype
Qualitative
Metabolism
3 disadvantages of endotherms

50. Conversion of chemical bond energy in nutrients into the chemical bond energy in ATP - and use of ATP to do work produces heat as byproduct
Hemodialysis
Metabolism
Individuals do not evolve
Homeotherms