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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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1. Alternative forms of genes when it exists in more than one form
Alleles
Mendel's Law of Dominance
Complementary Base-Pairing
Elongation

2. Daughter strand that is continuously synthesized by DNA polymerase in the 5'->3' direction
Purines
Filial (F generations)
Codominance
Leading Strand

3. Process whereby mRNA codons are translated intoa sequence of amino acids -occurs in cytoplasm and involves tRNA - ribosomes - mRNA - amino acids - enzymes - and other proteins
Translation
Leading Strand
Operon
Messenger mRNA

4. 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)
Inducer-Repressor Complex
Gene Mutation
A-site
Ribosomes

5. Begins at a unique origin of and proceeds in both directions simultaneously
Bacterial Replication
Lytic Cycle
Promoter gene
Monohybrid Cross

6. Consists of structural genes
Double-Stranded Helix
Nucleotide
Operon
Inducer-Repressor Complex

7. Where protein synthesis occurs
Non-Mendelian Inheritance Patterns
Filial (F generations)
DNA
Ribosomes

8. Each new daughter helix contains an intact strand from the parent helix and a newly synthesized strand
Semiconservative
Ribosomes
Ribosomes
Autosomes

9. Cytosine and thymine
Pyrimidines
Filial (F generations)
Semiconservative
Nucleotide

10. Nucleic acid is replaced by another nucleic acid
Point Mutation
Silent Mutation
Translocation
Leading Strand

11. Bacteriophages that replicate by the lytic cycle - killing their host cells
Bacteriophage
Bacterial Genome
Virulent
Transcription

12. Dominant allele is expressed in the phenotype

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13. One way of predicting the genotypes expected form a cross -genotypes are determined by looking at the intersections of the grid -indicates all potential progeny genotypes and the relative frequencies of the different genotypes and phenotypes can be e
Punnet Square Diagram
Triplet Code
Dihybrid Cross
Frameshift Mutation

14. Structural component of ribsomes and is the most abundant of all RNA types -synthesized in the nucleolus
Frameshift Mutation
Ribosomal RNA (rRNA)
Plasmid
Punnet Square Diagram

15. 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
Messenger mRNA
Gene Mutation
Codominance
Frameshift Mutation

16. New codon may code for the same amino acid
Inducer-Repressor Complex
Missense Mutation
Silent Mutation
Monocistronic

17. 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
Dihybrid Cross
Environmental Factors
Genetics
Lysogenic Cycle

18. Ribonucleic acid -polynucleotide structurally similar to DNA except that its sugar is ribose -contains uracil instead of thymine -usually single stranded -found in both nucleus and cytoplasm -several types are involved with mRNA - tRNA - and rRNA
RNA
Mendel's First Law: Law of Segregation (Four Principles)
Non-Mendelian Inheritance Patterns
Mutagenic Agents

19. Fruit fly -produces often (short life cycle) -reproduces in large numbers (large sample size) -chromosomes (especially in the salivary gland) are large and easily recognizable in size and shape -its chromosomes are few (4 pairs - 2n=8) -Mutations occ
Codominance
Drosophila Melanogaster
Autosomes
A-site

20. The noncoding sequence of DNA that serves as the initial binding site for RNA polymerase
Promoter gene
Homozygous
Chromosomes
Inducer-Repressor Complex

21. Regulation of gene expression and enables prokaryotes to control their metabolism
Homozygous
Mendel's First Law: Law of Segregation (Four Principles)
Episomes
Transcription

22. Location of genes on DNA
Dihybrid Cross
Ribosomes
Double-Stranded Helix
Chromosomes

23. Physical manifestation of the genetic makeup
Phenotype
Dominant Allele
Nondisjunction
Heredity

24. Initiation - elongation - and termination
Translocation
Polypeptide Synthesis
Operon
Codons

25. Codes for the synthesis of a repressor molecule that binds to the operator and blocks RNA polymerase form transcribing the structural genes
Regulator Gene
Mutable
Binary fission
Start Codon

26. Silent allele -usually assigned capital letters
Silent Mutation
Gene
Polypeptide Synthesis
Recessive Allele

27. Adenine and guanine
Varions
Antibody resistance
Plasmid
Purines

28. Genes that are located on the X or Y chromosome -in humans - most are located on the X
Double-Stranded Helix
Transfer RNA (tRNA)
Sex Linked
Bacteriophage

29. Formed between the amino acid attached to the tRNA in the A site and the fmet attached to the tRNA in the P site
Monohybrid Cross
Punnet Square Diagram
Peptide Bond
Gene Mutation

30. Progeny phenotypes are apparently blends of the parental phenotypes
Incomplete Dominance
Mutagenic Agents
Elongation
DNA

31. 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
Conjugation
Transfer RNA (tRNA)
Monohybrid Cross
Sex Linked

32. May occur spontaneously or be induced by environmental factors
Recessive Allele
Chromosomal Breakage
Drosophila Melanogaster
Environmental Factors

33. Self replication ensures that its coded sequence will be passed on to successive generations
Chromosomes
Heredity
Sex Linked
Mendel's First Law: Law of Segregation (Four Principles)

34. Reproduction of bacterial cells and proliferate very rapidly under favorable conditions -asexual prcoess -3 kinds (transformation - conjugation and transduction)
Codominance
Binary fission
Translocation
Translation

35. The parents differ in two traits - as long as the genes are on separate chromosomes and assort independently during meiosis
Dihybrid Cross
Bacterial Replication
Chromosomes
Mutations

36. Short segments from lagging strand
Phenotype
Purines
Okazaki fragments
Peptide Bond

37. Double stranded DNA molecule unwinds and separates into two single strands
Monocistronic
DNA Replication
A-site
Genetics

38. The process by which a foreign plasmid is incorporated into the bacterial chromosome via recombination - creating new inheritable genetic combinations
Transformation
Non-Mendelian Inheritance Patterns
Recombination
Inducible Systems

39. The study of how traits are inherited from one generation to the next
Phenotype
Genetics
Gene
Purines

40. Plasmids that are capable of integration into the bacterial genome
Operator Gene
Sex Linked Recessives
Monocistronic
Episomes

41. Individuals being crossed
Transfer RNA (tRNA)
Chromosomal Breakage
Elongation
Parental (P Generation)

42. Genes on the same chromosome will stay together unless crossing over occurs -crossing over exchanges information between chromosomes and may break the linkage of certain patterns

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43. New codon may code for a different amino acid
Missense Mutation
Conjugation
Monocistronic
Homozygous

44. Virus that infcts its host bacterium by attaching to it - boring a hole through the bacterial cell wall - and injecting its DNA while its protein coat remains attached to the cell wall and enters the host in either a lytic cycle or a lysogenic cycle
Dominant Allele
Codominance
Transfer RNA (tRNA)
Bacteriophage

45. Include incomplete dominance - and codominance
Bacteriophage
Non-Mendelian Inheritance Patterns
Antibody resistance
Regulator Gene

46. Genetic makeup of an individual
Testcross
Chromosomal Breakage
Conjugation
Genotype

47. (UAA - UAG - or UGA) terminates polypeptide synthesis
Termination Codons
Silent Mutation
Peptide Bond
Lytic Cycle

48. May be found on the plasmids and transferred into recipient cells along with these factors
Transcription
Peptide Bond
Antibody resistance
Incomplete Dominance

49. Cell burst
Lyse
Inducer-Repressor Complex
Chromosomal Breakage
Transcription

50. Can often affect the expression of a gene -interaction betwen the enironment and the genotype produces the phenotype
Codons
Mendel's Law of Dominance
Environmental Factors
Lytic Cycle