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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. 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
Evaporation
Natural selection
Temperature sensitivity
Population size

2. Descending loop permeable to waterbut not solutes - ascending not permeable to water and actively transports salts out (desert animals - long Henles - freshwater fish - no Henle)
MR equation
Fitness
Loop of Henle
Silent substitution

3. Any change in the nucleotide sequences of an organism's DNA (deleterious - neutral - beneficial)
Mutation
Osmolarity
Endotherms
Lower critical temperature

4. Time (duration gene active) eg dolphin flipper
Psuedogenes
Metabolic rate
Heterochrony
Macroevolution

5. 1. Must consume more food - run risk of overheating (hyperthermia) - restricted to water plentiful environments
Population density
Glycogenolysis
Other guy who came up with natural selection
3 disadvantages of endotherms

6. Skeletal muscle (major consumer of glucose) - cardiac muscle - smooth muscle (gut - bladder and blood vessels)
Obesity
Chief monomers absorbed
Honest signal
Muscle tissue

7. Amount of heat required to raise the temperature of 1 gram of water 1 degree Celsius
Calorie
Why Hardy Weinberg is Important
Nonsynonymous vs synonymous
Meiosis

8. Cover inner and outer surface areas - secrete substances - selective barriers - transport - cilia or sensory
Artificial selection
Epithelial tissue
Habitat
Metanephridia

9. Much of variation in size lies in non coding DNA as opposed to functional genes. Also in large populations - slightly deleterious sequences more likely to be purged than in small size (thus more noncoding DNA in large population over small)
Heterotopy
Genome size
Heat budget equation
Calorie

10. Heat transfers to a surrounding medium ie air or water via surface
Antidiuretic hormone
Adaptation
Genome size
Convection

11. Harmful mutation
Deleterious
Excretory organs
Gene duplication
Metabolism

12. 1. Regulate volume of fluid in body 2. regulate osmolarity - 3. Maintain Ca2+ - H+ - NA+ (ionic regulation) 4. eliminate nitrogenous wastes produced by protein and nucleic acid catabolism (URINE)
Excretory system functions
Habitat
Allele frequency formula
Basal Metabolic Rate

13. Cluster of interconnected fenestrated capillaries - supplied by afferent arteriole - drained by efferent arteriole - podocytes form filatration slits
3 germ layers
Glucose Transporters
Individuals do not evolve
Glomerulus

14. Occurs when GI tract is empty of nutrients so body's stores are used
Lateral gene transfer
Post absorptive stage
Energy expenditure
Connective tissue

15. 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
Size in BMR
Lower critical temperature
Natural selection
Metabolism

16. Liver converts no carbs into glucose (lipolysis-fatty acids and glycerol to glucose)
Convection
Gluconeogenesis
Metanephridia
Diploid

17. The differential survival and reproduction of individuals in a population based on variation in their traits
Honest signal
Glucose Transporters
Heterozygote populations
Natural selection

18. High denisty of mitochodira abnd blood vessels (good at non shivering thermogensis)
Habitat patches
Convection
Brown fat
Satiation

19. Stored as either glycogen in liver or as triglycerides
Osmoconformers
Mutation
Stabilizing Selection
Excess Glucose

20. Maintenance of stable conditions within the internal environment (temperature - PH level - ion concentrations - 02 levels - co2 levels - fuel molecules ie glucose)
Homeostasis
Genetic Drift
Daily torpor
Nervous tissue

21. In annelids ie earthworms - coelomic fluid is swept through by cilia and tubule cells actively reabsorb good molecules and secret others - exits as urine
Metanephridia
Endotherms
Sexual selection
Qualitative

22. Extracellular fluid - including blood/plasma (Allow cells to take in nutrients and remove waste)
Interstitial fluid
Natural selection
Daily torpor
Evolutionary trend

23. Different form of a gene
Population
Electrolytes
Sexual selection
Alleles

24. Secrete penicillin - toxins - K+ and H+
Positive feedback
Homeostasis
Obesity
Secretion

25. Trait with true indicator of ability to survive in local environment ie bull frogs lifespan can be determined by its size which determines how low it's voice is
Absorbed triglycerides
Honest signal
Population
Interstitial fluid

26. MR= K(Tb-Ta) K is the slope of thermal conductancce - how readily the animal loses heat
Individuals do not evolve
Heterotherms
MR equation
Dobzhansky Muller Model

27. Different form of a gene
Obligatory Exchanges
Nervous tissue
Alleles
Honest signal

28. Deleterious mutations in a non-recombining genome accumulate at each replication (asexual reproductivity)

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29. Change in a single nucleotide in a DnA sequence
Secretion
Nucleotide Substitution
3 germ layers
Insulin

30. Maintenance of stable conditions within the internal environment (temperature - PH level - ion concentrations - 02 levels - co2 levels - fuel molecules ie glucose)
Microevolution
Calorie
Directional selection
Homeostasis

31. Cluster of interconnected fenestrated capillaries - supplied by afferent arteriole - drained by efferent arteriole - podocytes form filatration slits
Glomerulus
Orthologs
Hypoglycemia
3 germ layers

32. If directional selection occurs for generations - however can be stopped due to change in environment or when optimal phenotype reached (then stabilizing)
Evolutionary trend
Thermal insulation
Behavioral thermoregulatory adaptation
P53

33. Like in butterfly - often give organism an survival and mating advantage-- however homozygotes will always exist as children of heterozygotes
3 germ layers
MR equation
Endemic
Heterozygote populations

34. 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
Temperature sensitivity
Hypoglycemia
Missense Substitution
Heat budget equation

35. Inherited but no use (whale pelvis)
Vestigial structures
Reabsorption
Hypoglycemia
Metabolism

36. Cells or organisms having two sets of chromosomes
Nucleotide Substitution
Post absorptive stage
Diploid
Allele frequency formula

37. 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)
Temperature sensitivity
Microevolution
Meiosis
Insulin

38. Some animals move around to increase decrease temperature (pray themselves with water/dust - find shade - put on clothing)
Post absorptive stage
Behavioral thermoregulatory adaptation
Gene pool
Heterotherms

39. 1. No mutation 2. No differential selection among genotypes 3. There is no gene flow 4. Population size is infinite 5. Mating is random
Homeostasis
Sexual selection
Genotype frequency
Hardy Weinberg equilibrium

40. Found in many animals and prevents cancer - an ortholog
P53
Glomerulus
Malpighian tubules
Connective tissue

41. A sudden change to population that causes large changes in allele frequencies over time ie population bottleneck
Nitrogenous wastes
Phenotype
Genetic Drift
Endemic

42. 1. Both copies retain original function 2. Both copies able to produce original gene product - but expression diverges in different tissues or at different times in development 3. One copy may become psuedogene 4. One copy maintains function and seco
Obesity
Gene duplication
Interstitial fluid
Nitrogenous wastes

43. Native to one location and no where else
Endemic
Loop of Henle
Excess Glucose
Silent substitution

44. Stable temperatures
3 germ layers
Homeotherms
Acclimatization
Muscle tissue

45. Stable temperatures
Directional selection
Heterochrony
Loop of Henle
Homeotherms

46. Region where species are found (densities are zero elsewhere)
Geographic Range
Metabolism
Orthologs
Gene pool

47. Copies of genes that are no longer functional
Psuedogenes
Absorbed triglycerides
Heat budget equation
Vasa recta

48. Rate at which an organism uses energy to power these reactions
Absorptive phase
Metabolic rate
Adaptation
Behavioral thermoregulatory adaptation

49. Environments where species can survive within their geographic range
Negative feedback
Heterochrony
Interstitial fluid
Habitat

50. Outcrops of species due to suitable habitats separated by areas of unsuitable habitat
Habitat patches
Negative feedback
Dehydration
Lateral gene transfer