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PCAT Biology Genetics

Subjects : pcat, biology

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. The ribosome advances three nucleotides along the mRNA in the 5' to 3' direction and the uncharged tRNA from the P site is expelled - and the peptidyl-tRNA from the A site moves into the P site and completes the cycle
Semiconservative
Silent Mutation
Lytic Cycle
Translocation

2. 1) Genes exist in alternative forms. A gene controls a specific trait in an organism. 2) An organism has two alleles for each inherited trait - one inherited from each parent 3) The two alleles segregate during meiosis - resulting in gametes that car

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3. Diagnostic tool to determine the genotype of an organism -Only with a recessive phenotype can genotype be predicted with 100% accuracy -if dominant phenotype is expressed - the genotype can be either homozygous dominant or heterozygous -used to deter
Silent Mutation
Chromosomal Breakage
Testcross
Bacterial Replication

4. System where the repressor binds to the operator - forming a barrier that prevents RNA polymerase from transcribing the structural genes
Semiconservative
Inducible Systems
Ribosomes
Chromosomal Breakage

5. Complementary to one of the mRNA codons
Lyse
Anticodon
Point Mutation
Episomes

6. True-breeding individuals (which - if self-crossed - produce progeny only with the parental phenotype) with different traits - mated them - and statistically analyzed the inheritance of the traits in the progeny
Crosses
Sex Linked Recessives
Elongation
Transcription

7. Codes for the synthesis of a repressor molecule that binds to the operator and blocks RNA polymerase form transcribing the structural genes
Frameshift Mutation
Regulator Gene
Polyribosome
Genetics

8. Recessive genes that are carried on the X chromosome will produce the recessive phenotypes whenever they occur in men because no dominant allele is present to mask them -ex: hemophilia and color blindness
Transcription
Chromosomal Breakage
Sex Linked Recessives
Transformation

9. Complex that can't bind to the operator - thus permitting transcription
A-site
Inducer-Repressor Complex
Okazaki fragments
Lagging Strand

10. Short segments from lagging strand
Okazaki fragments
Nonsense Mutation
Environmental Factors
Chromosomal Breakage

11. Composed of two subunits (consisting of proteins and rRNA) - one large and one small - that bind together only during protein synthesis -have 3 binding sites (for mRNA and two tRNA)
Monocistronic
Mendelian Genetics
Peptide Bond
Ribosomes

12. The noncoding sequence of DNA that serves as the initial binding site for RNA polymerase
Genotype
Crosses
Promoter gene
Transcription

13. Plasmids that are capable of integration into the bacterial genome
Episomes
Mendel's Law of Dominance
Heterozygous
RNA

14. DNA language must be translated by mRNA in such a way as to produce the 20 words in the amino acid language
Triplet Code
Codons
Termination Codons
Mendel's Law of Dominance

15. Individuals being crossed
Nondisjunction
Inducible Systems
Transformation
Parental (P Generation)

16. TRNA binding site for ribosomes to attach to the growing polypeptide chain (peace out site)
Messenger mRNA
Transduction
P-site
Point Mutation

17. Initiation - elongation - and termination
Codominance
Polypeptide Synthesis
Alleles
Monohybrid Cross

18. Pairs of homologues in sexually differentiated species
Autosomes
Operator Gene
Purines
Triplet Code

19. The sequence of nontranscribable DNA that is the repressor binding site
Virulent
DNA
Operator Gene
Heredity

20. Small RNA found in the ctyoplasm that aids in the translation of mRNA's nucleotide code into a sequence of amino acids -brings amino acids to the ribosomes during protein synthesis
Transcription
Transfer RNA (tRNA)
Environmental Factors
Plasmids

21. Progeny generations
Incomplete Dominance
Filial (F generations)
Homozygous
Transduction

22. Progeny phenotypes are apparently blends of the parental phenotypes
Nucleotide
Incomplete Dominance
Pyrimidines
Nondisjunction

23. Cell burst
Triplet Code
Lyse
Aminoacyl-tRNA synthetase
Gene Mutation

24. Can often affect the expression of a gene -interaction betwen the enironment and the genotype produces the phenotype
Environmental Factors
DNA
Recombination
Inducible Systems

25. System where the repressor is inactive until it combines with the corepressor
Nucleotide
Repressible Systems
Anticodon
Lytic Cycle

26. Can be altered under certain conditions - altering the corresponding characteristics in the organism
Peptide Bond
Sex Linked
Plasmid
Mutable

27. Self replication ensures that its coded sequence will be passed on to successive generations
Homozygous
Heredity
Backcross
Translocation

28. Occurs when linked genes are separated
Parental (P Generation)
Homozygous
Monocistronic
Recombination

29. Language of DNA consists of four letters: A -T -C -G -language of proteins consists of 20 'words': 20 amino acids -universal for almost all organism
Repressible Systems
tRNA Job
Bacterial Genome
Genetic Code

30. Sugar-phosphate chains on the outside of the helix and the bases on the inside -C-G - T-A -AKA Watson Crick DNA model
Pyrimidines
Double-Stranded Helix
Missense Mutation
Lagging Strand

31. Each new daughter helix contains an intact strand from the parent helix and a newly synthesized strand
Semiconservative
Genetics
Okazaki fragments
Autosomes

32. The process whereby information coded in the base sequence of DNA is transcribed into a strand of mRNA that leaves the nucleus through nuclear pores. the remaining events of protein synthesis occur in the cytoplasm
Drosophila Melanogaster
Plasmids
Transcription
Peptide Bond

33. Binds to the incoming aminoacyl-tRNA complex (Arriving site)
A-site
Sex Linked
Operon
Transfer RNA (tRNA)

34. Double stranded DNA molecule unwinds and separates into two single strands
Triplet Code
Bacteriophage
Termination Codons
DNA Replication

35. Reproduction of bacterial cells and proliferate very rapidly under favorable conditions -asexual prcoess -3 kinds (transformation - conjugation and transduction)
Binary fission
Heredity
Purines
Bacterial Replication

36. Changes in the genetic information of a cell coded in the DNA -if occured in the somatic cells - it can lead to tumors in an individual
Mutagenic Agents
A-site
Mendel's Second Law: Law of Independent Assortment
Mutations

37. Basic unit of DNA - which is composed of deoxyribose (a sugar) bonded to both a phosphate group and a nitrogenous base -bases: purines and pyrimidines
P-site
Transformation
Nucleotide
Lytic Cycle

38. The process by which a foreign plasmid is incorporated into the bacterial chromosome via recombination - creating new inheritable genetic combinations
Peptide Bond
Transformation
Varions
Transduction

39. If the bacterioophage does not lyse its host cell - it becomes integrated into the bacterial genome in a harmless form - lying dorant for one or more generations. the virus mays tay integrated indefinitely - replicating along with the bacterial gneom
Mutable
Lysogenic Cycle
Operator Gene
Chromosomal Breakage

40. Hydrogen bonds form between the mRNA codon in the A site and its complementary anticodon on the incoming aminoacyl-tRNA complex
Punnet Square Diagram
Gene
Heredity
Elongation

41. New codon may code for a different amino acid
Missense Mutation
Non-Mendelian Inheritance Patterns
Nucleotide
Promoter gene

42. Degeneracy/redundancy of the genetic code since there are 64 different codons and only 20 amino acids
Missense Mutation
Synonyms
Varions
Parental (P Generation)

43. Cytosine and thymine
Homozygous
Pyrimidines
P-site
DNA

44. Deoxyribonucleic acid -contains information coded in the sequence of its base pairs - provding the cell with a blueprint for protein synthesis -regulate all life functions -has the ability to self replicate -basis of heredity -mutable
Polyribosome
DNA
Sex Linked
Double-Stranded Helix

45. Bacteriophages that replicate by the lytic cycle - killing their host cells
Transcription
Mendel's Law of Dominance
Virulent
Point Mutation

46. New codon may code for the same amino acid
Gene Mutation
Mutable
Alleles
Silent Mutation

47. Genetic makeup of an individual
Transcription
Genotype
Dihybrid Cross
Termination Codons

48. Formed between the amino acid attached to the tRNA in the A site and the fmet attached to the tRNA in the P site
Peptide Bond
Binary fission
Lyse
Parental (P Generation)

49. Dominant allele is expressed in the phenotype

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50. Nitrogen bases are added - deleted - or substituted - thus crating different genes; inappropriate amino acids may be inserted into polypeptide chains - and a mutated protein may be produced
Transfer RNA (tRNA)
Promoter gene
Gene Mutation
DNA