Bio 101: Harvard

Instructions:

• Answer 50 questions in 15 minutes.
• If you are not ready to take this test, you can study here.
• Match each statement with the correct term.
• Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

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. Rate at which an organism uses energy to power these reactions
Phenotype
Metabolic rate
Post absorptive stage
Gene pool


2. Main excretory organ of vertebrates: 1. specialized tubules of epithelial cell - 2. salt and water homeostasis - 3. Nitrogeneous waste elimination 4.Renal cortex= filtration - renal medulla = filtration concentrated 5. milions of nephrons
Gastrulation
Gluconeogenesis
Gene Flow
Kidney


3. Occurs when ingested nutrients enter the blood stream from the GI tract
Absorptive phase
Adaptation
Osmoregulators
MR equation


4. Neurons (generate and conduct electrical signals) and glial cells (release chemical signals)
Habitat patches
Nervous tissue
Thermoneutral zone (TNZ)
Vestigial structures


5. One loci
Qualitative
Hemodialysis
Habitat patches
Sexual selection


6. Too large to diffuse across plasma membrane so they are digested into monoglycerides and fatty acids - diffused through epithelial cells - re-synthesized into triglycerides - packaged into chylomicrons for lymph & blood transport
Alleles
Osmoconformers
Absorbed triglycerides
Allele frequency


7. Functional unit of kidney - millions per - renal corpuscle forms filtrate - tubule performs secretion and reabsorption
Intracellular fluid
Nucleotide Substitution
Nephron
Hypoglycemia


8. Hormone - stimulates active transport of 3 Na+ out for every 2 K+ into tubule
Nervous tissue
Kidney
Aldosterone
Habitat


9. Inherited but no use (whale pelvis)
Homeotherms
Vestigial structures
Excretory organs
Calorie


10. Ability to compete for mates
Mutation
Intrasexual Selection
Metabolic rate
Microevolution


11. The differential survival and reproduction of individuals in a population based on specific traits chosen by humans
Neutral Theory
Homeotherms
Artificial selection
Tubule


12. Some animals move around to increase decrease temperature (pray themselves with water/dust - find shade - put on clothing)
Size in BMR
Behavioral thermoregulatory adaptation
Glomerulus
Missense Substitution


13. In ECM - protein fibers makeup cartilage and bone (mineralized) - ECM of plasma liquid - Adipose=fat cells - energy storing
Aldosterone
Connective tissue
Genotype frequency
Psuedogenes


14. Heat transfers from warmer objects to cooler ones via infrared radiation (radiation absorbed or emitted)
Size in BMR
Diploid
Glycogenolysis
Radiation


15. Amplifies deviation frokm set point
Positive feedback
Endemic
Glomerular Filtration Rate
Electrolytes


16. Occurs when GI tract is empty of nutrients so body's stores are used
Post absorptive stage
Endotherms
Absorptive phase
Ectotherms


17. 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)
Lateral gene transfer
Nervous tissue
Excretory system functions
Leptin


18. Asexual 1. Doesn't need a mate 2. Maintains adaptive genes 3. All kids asexual (able to reproduce) V.S. Sexual 1. Repairs damaged DNA 2. Elimination of deleterious mutations (asexual makes exact copies) 3. Greater genetic variation (genetic combinati
Metabolism
Sexual recombination vs asexual reproduction
Metabolism
Nitrogenous wastes


19. Amount of fuel used during a given time to power all of its metabolic requirement - = MR - sometimes appears as heat
Brown fat
Energy expenditure
Habitat patches
Missense Substitution


20. Prolonged energy source for many tissues - and brain - less protein breakdown required
Ketones
Lipoprotein lipase
Metabolic rate
Intrasexual Selection


21. 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
Intrasexual Selection
Sexual recombination vs asexual reproduction
Energy expenditure
Gene duplication


22. In medulla - run parrallel to loops of Henlue and medullary collecting ducts - minimize excessive loss of solutes via diffusion
Nervous tissue
Why Hardy Weinberg is Important
Vasa recta
Insulin


23. If directional selection occurs for generations - however can be stopped due to change in environment or when optimal phenotype reached (then stabilizing)
Nephron
Gene duplication
Ketones
Evolutionary trend


24. Cells or organisms having two sets of chromosomes
Diploid
Artificial selection
Darwin's book
Reabsorption


25. Cover inner and outer surface areas - secrete substances - selective barriers - transport - cilia or sensory
Microevolution
Osmoregulators
Metabolic rate
Epithelial tissue


26. Rate at which an organism uses energy to power these reactions
Genotype frequency
Adaptation
Vasa recta
Metabolic rate


27. Heat production = volume - but heat loss= Surface Area
Individuals do not evolve
Gene Flow
Energy expenditure
Size in BMR


28. (GLUTS) move to surface - inhibit glycogenolysis and gluconeogensis
Allele frequency formula
3 disadvantages of endotherms
Glucose Transporters
Quantitative


29. Change on scale at or above species - changes in separate gene pools
Silent substitution
Phenotype
Macroevolution
Absorbed amino acids


30. Amount of fuel used during a given time to power all of its metabolic requirement - = MR - sometimes appears as heat
Missense Substitution
Energy expenditure
Geographic Range
Hardy Weinberg equilibrium


31. Bicarbonate ions (Co2+H2O= h2Co3= H+ + HCO3-) Co2 removed by lungs - H+ removed by urine
Population
Gene pool
Major blood buffer
3 disadvantages of endotherms


32. Main excretory organ of vertebrates: 1. specialized tubules of epithelial cell - 2. salt and water homeostasis - 3. Nitrogeneous waste elimination 4.Renal cortex= filtration - renal medulla = filtration concentrated 5. milions of nephrons
Kidney
Metanephridia
Directional selection
Satiation


33. Maintenance of stable conditions within the internal environment (temperature - PH level - ion concentrations - 02 levels - co2 levels - fuel molecules ie glucose)
Disruptive selection
Homeostasis
Obligatory Exchanges
Heterotopy


34. MR= K(Tb-Ta) K is the slope of thermal conductancce - how readily the animal loses heat
Osmolarity
Hypoglycemia
Three theories of Darwin
MR equation


35. Continuous within Bowman's capsule - Loop of Henle
Secretion
Tubule
Obesity
Adaptation


36. 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
Orthologs
Macroevolution
Honest signal
Quantitative


37. 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)
Why Hardy Weinberg is Important
Nitrogenous wastes
Hypothalamus
Lipoprotein lipase


38. Number of individuals per unit of area/volume (dynamic - change over time)
Glucose Transporters
Population density
Three theories of Darwin
Major blood buffer


39. 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
Glomerular Filtration Rate
Nonsynonymous vs synonymous
Energy expenditure
Antidiuretic hormone


40. Two or more homologous genes found in different species
Orthologs
Negative feedback
Population density
Ketones


41. 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)
Loop of Henle
Size in BMR
Habitat patches
Aldosterone


42. Region where species are found (densities are zero elsewhere)
Hemodialysis
Glucose Transporters
Geographic Range
Meiosis


43. Daily decline of body temp to save energy (bouts of torpor last mustiple days in hibernation)
Natural selection
3 disadvantages of endotherms
Daily torpor
Hypoglycemia


44. Releases fatty acids to diffuse into cells of the body - some used during absorptive phase for energy
Muller's Ratchet
Glomerular Filtration Rate
Absorptive phase
Lipoprotein lipase


45. 2/3 of all useful solute reabsorbed ie Na+ - K+ - Cl- - HCO3- - organic molecule - glucose - amino acids (TRANSPORT MAXIMUM based on saturatino of membrane transport proteins)
Three theories of Darwin
Reabsorption
MR equation
3 disadvantages of endotherms


46. A sudden change to population that causes large changes in allele frequencies over time ie population bottleneck
MR equation
Genetic Drift
Quantitative
Energy expenditure


47. Environments where species can survive within their geographic range
Loop of Henle
Habitat
Negative feedback
Non shivering thermogensis


48. Change in relative frequency of the genotype from one generation to the next
Intrasexual Selection
Three theories of Darwin
Fitness
Other guy who came up with natural selection


49. When an organisms phenotype influences ability to attract mates
Sexual selection
Heterochrony
Electrolytes
Nitrogenous wastes


50. Most of the water in an animal's body located within its cells
Molecular Evolution
Ketones
Non shivering thermogensis
Intracellular fluid