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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.
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. 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
Lateral gene transfer
Orthologs
Hardy Weinberg equilibrium
Metabolism

2. Below TNZ must increase metabolic heat production (shivering increase four times above BMR)
Cold fish vs hot fish
Lower critical temperature
Quantitative
Lipoprotein lipase

3. Heat transfers away from a sruface due to evaporation (expensive to sweat and pant - burn more calories)
Absorbed amino acids
Evaporation
Why Hardy Weinberg is Important
Absorbed triglycerides

4. A process in cell division during which the number of chromosomes decreases to half the original number by two divisions of the nucleus - which results in the production of sex cells
Vestigial structures
Excess Glucose
Hypoglycemia
Meiosis

5. When an organisms phenotype influences ability to attract mates
Sexual selection
Glucose Transporters
Ketones
MR equation

6. The differential survival and reproduction of individuals in a population based on specific traits chosen by humans
Thermal insulation
Allele frequency
Artificial selection
Ectotherms

7. Rate at which an organism uses energy to power these reactions
Population size
Why Hardy Weinberg is Important
Metabolism
Metabolic rate

8. Tissues other than skeletal muscles produce metabolic heat by uncoulping oxidative phosphorylation (burn fuel without producing ATP)
Missense Substitution
Non shivering thermogensis
Nervous tissue
Gastrulation

9. If directional selection occurs for generations - however can be stopped due to change in environment or when optimal phenotype reached (then stabilizing)
Energy expenditure
Heterochrony
Evolutionary trend
Population

10. Daily decline of body temp to save energy (bouts of torpor last mustiple days in hibernation)
Sexual recombination vs asexual reproduction
Daily torpor
Muller's Ratchet
Homeostasis

11. Maintenance of stable conditions within the internal environment (temperature - PH level - ion concentrations - 02 levels - co2 levels - fuel molecules ie glucose)
Calorie
Homeostasis
Behavioral thermoregulatory adaptation
Alleles

12. Self fertilization - homozygous genotypes increase - heterozygous genotypes decrease
P53
Tubule
Positive feedback
Selfing

13. Outcrops of species due to suitable habitats separated by areas of unsuitable habitat
Heterotopy
Qualitative
Behavioral thermoregulatory adaptation
Habitat patches

14. Humans do this through clothing
Post absorptive stage
Honest signal
Homeotherms
Thermal insulation

15. Any change in the nucleotide sequences of an organism's DNA (deleterious - neutral - beneficial)
Brown fat
Mutation
Population size
Founder effect

16. Short term control of feeding - stretch receptors in stomach and small intestines sens signals to the brain - realease hormones to supress appetite
Satiation
Muller's Ratchet
Thermoneutral zone (TNZ)
Ketones

17. Cup-shaped strucutre of the nephron of a kidney which encloses the glomerulus and where filtration takes place

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18. The differential survival and reproduction of individuals in a population based on specific traits chosen by humans
Phenotype
Artificial selection
Silent substitution
Negative feedback

19. Stable temperatures
Evolutionary trend
Positive feedback
Missense Substitution
Homeotherms

20. In annelids ie earthworms - coelomic fluid is swept through by cilia and tubule cells actively reabsorb good molecules and secret others - exits as urine
Molecular Evolution
Osmolarity
Metanephridia
Behavioral thermoregulatory adaptation

21. Some animals move around to increase decrease temperature (pray themselves with water/dust - find shade - put on clothing)
Gastrulation
Hypothalamus
Behavioral thermoregulatory adaptation
Thermal insulation

22. Minerals that carry electrical charges that help maintain the body's fluid balance - imbalance can alter membrane potentials/disrupt cell activities
Metabolic rate
Electrolytes
Gluconeogenesis
Vasa recta

23. Generate their own heat - maintain relatively constant body temperature - BMR measured in thermoneutral zone (birds and mammals)
Calorie
Satiation
Obesity
Endotherms

24. High denisty of mitochodira abnd blood vessels (good at non shivering thermogensis)
Connective tissue
Brown fat
Negative feedback
Glycogenolysis

25. Short term control of feeding - stretch receptors in stomach and small intestines sens signals to the brain - realease hormones to supress appetite
Heterochrony
Glycogenolysis
Satiation
Metabolism

26. Actively regulate osmolarity of their extracellular fluid (300 Mosm/L)
Osmoregulators
Deleterious
Daily torpor
Major blood buffer

27. Glycogen hodrolysis in liver
Orthologs
Ectotherms
Glycogenolysis
Electrolytes

28. 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
Orthologs
Electrolytes
Exon shuffling

29. 1. Ectoderm 2. Endoderm 3. Mesoderm
Nonsynonymous vs synonymous
Thermal insulation
3 germ layers
Honest signal

30. A sudden change to population that causes large changes in allele frequencies over time ie population bottleneck
Silent substitution
Population size
Phenotype
Genetic Drift

31. Cells or organisms having two sets of chromosomes
Vestigial structures
Population density
Diploid
Deleterious

32. Species change over time - divergent species share a common ancestor - change is produced by natural selection
Tubule
Missense Substitution
Three theories of Darwin
Genetic Drift

33. 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)
Fitness
Insulin
Negative feedback
Artificial selection

34. Heat transfers from warmer objects to cooler ones via infrared radiation (radiation absorbed or emitted)
Fitness
Radiation
Endotherms
Natural selection

35. High denisty of mitochodira abnd blood vessels (good at non shivering thermogensis)
Brown fat
Adaptation
Connective tissue
Quantitative

36. Heat transfers to a surrounding medium ie air or water via surface
Feedforward information
Temperature sensitivity
Convection
Missense Substitution

37. Total number of individuals in a population
Population size
Genome size
Antidiuretic hormone
Loop of Henle

38. Insects have these which transport uric acid - postassium ions and sodium ions into tubules - but ercovers water (allows insects to live in dry environments
Malpighian tubules
Muscle tissue
Ectotherms
Insulin

39. Human based selection (ie cows with more milk or high fat content)
Artificial directional selection
Absorptive phase
Obligatory Exchanges
Post absorptive stage

40. Creates new genes by inserting exons and flanking introns into a different gene sequence - there by introducing a new domain in the gene product
Gluconeogenesis
Antidiuretic hormone
Metabolism
Exon shuffling

41. Most of the water in an animal's body located within its cells
Muscle tissue
Intracellular fluid
Genetic Drift
Individuals do not evolve

42. Rate at which an organism uses energy to power these reactions
Phenotype
Metabolic rate
Intracellular fluid
Psuedogenes

43. Outcrops of species due to suitable habitats separated by areas of unsuitable habitat
Major blood buffer
Cold fish vs hot fish
Exon shuffling
Habitat patches

44. Cluster of interconnected fenestrated capillaries - supplied by afferent arteriole - drained by efferent arteriole - podocytes form filatration slits
Behavioral thermoregulatory adaptation
Evolutionary trend
Glomerulus
Neutral Theory

45. Heat transfers from warmer objects to cooler ones via infrared radiation (radiation absorbed or emitted)
Muscle tissue
Nucleotide Substitution
Radiation
Muller's Ratchet

46. Total number of individuals in a population
Absorbed amino acids
Population size
Feedforward information
Connective tissue

47. Change in a single nucleotide in a DnA sequence
Nucleotide Substitution
Exon shuffling
Aldosterone
Allele frequency

48. The number of osmoles of solute particles per liter of solvent - must be maintained between extracellular and intracellular fluid or cells can change volume and burst/die
Osmolarity
Thermoneutral zone (TNZ)
Quantitative
Non shivering thermogensis

49. 1. Filtration 2. Reaborption 3. Secretion (Kidney can perform well with only 10% of nephrons functioning)
Excretory organs
Brown fat
Thermoneutral zone (TNZ)
Muscle tissue

50. Below TNZ must increase metabolic heat production (shivering increase four times above BMR)
Neutral Theory
Geographic Range
Lower critical temperature
Aldosterone