BIO 141 EXAM 3 2025/2026 BANK CURRENTLY TESTING 2 VERSIONS COMPLETE ACTUAL QUESTIONS WITH DETAILED VERIFIED ANSWERS EXPERT VERIFIED /ALREADY GRADED A+.

BIO 141 EXAM 3 2025/2026 BANK CURRENTLY TESTING 2 VERSIONS COMPLETE ACTUAL QUESTIONS WITH DETAILED VERIFIED ANSWERS EXPERT VERIFIED /ALREADY GRADED A+. 1. the central dogma of molecular biology ...ANSWER... The flow of genetic information from DNA to RNA to protein. 2. Name the pyrimidine bases found in DNA. ...ANSWER... Cytosine and Thymine. 3. What type of bond connects the sugar-phosphate backbones of the DNA double helix ...ANSWER... Phosphodiester bonds. 4. During DNA replication, which enzyme synthesizes the RNA primer ...ANSWER... Primase. 5. the function of DNA ligase ...ANSWER... Joins the Okazaki fragments on the lagging strand. 6. Define the term 'semiconservative replication'. ...ANSWER... Each new DNA molecule consists of one old (parental) strand and one new (daughter) strand. 7. a point mutation ...ANSWER... A change in a single nucleotide pair in a DNA sequence. 8. the start codon for protein synthesis, and which amino acid does it code for ...ANSWER... AUG; Methionine. 9. What are the three stop codons ...ANSWER... UAA, UAG, UGA. 10. the role of tRNA in translation ...ANSWER... To bring the correct amino acid to the ribosome based on the mRNA codon. 11. the primary transcript in eukaryotic gene expression ...ANSWER... The initial RNA transcript before processing (pre-mRNA). 12. What are introns and exons ...ANSWER... Introns are non-coding intervening sequences; exons are coding sequences that are expressed. 13. the function of the spliceosome ...ANSWER... To remove introns and join exons from a pre-mRNA molecule. 14. the purpose of the 5' cap and poly-A tail added to eukaryotic mRNA ...ANSWER... To protect the mRNA from degradation and facilitate its export from the nucleus and ribosome binding. 15. Define a 'frameshift mutation'. ...ANSWER... An insertion or deletion of nucleotides that is not a multiple of three, altering the reading frame. 16. the name of the complex where transcription occurs in prokaryotes ...ANSWER... The transcription bubble. 17. a promoter ...ANSWER... A specific DNA sequence where RNA polymerase binds to initiate transcription. 18. the role of RNA polymerase ...ANSWER... To catalyze the synthesis of RNA from a DNA template. 19. In a bacterial operon, the function of the operator ...ANSWER... It is the DNA sequence where a repressor protein binds to block transcription. 20. Name the parts of a nucleotide. ...ANSWER... A nitrogenous base, a pentose sugar, and one or more phosphate groups. 21. What does it mean for the two strands of DNA to be 'antiparallel' ...ANSWER... One strand runs 5' to 3', while the other runs 3' to 5'. 22. Which enzyme relieves the strain caused by the unwinding of the DNA double helix during replication ...ANSWER... Topoisomerase (e.g., DNA gyrase). 23. the function of single-strand binding proteins ...ANSWER... To bind to and stabilize single-stranded DNA after the double helix is unwound. 24. the key difference between the leading and lagging strands during DNA replication ...ANSWER... The leading strand is synthesized continuously toward the replication fork, while the lagging strand is synthesized discontinuously away from the fork in Okazaki fragments. 25. a telomere and its function ...ANSWER... The repetitive nucleotide sequence at the ends of eukaryotic chromosomes; it protects genes from being eroded during repeated rounds of replication. 26. What enzyme maintains telomere length ...ANSWER... 27. the primary level of packing for eukaryotic DNA ...ANSWER... The nucleosome, where DNA is wrapped around histone proteins. 28. a codon ...ANSWER... A three-nucleotide sequence on mRNA that codes for a specific amino acid. 29. the 'wobble' hypothesis ...ANSWER... The third base in a codon can form non-standard base pairs, allowing a single tRNA to recognize multiple codons. 30. What are the P, A, and E sites of a ribosome ...ANSWER... P site holds the tRNA carrying the growing polypeptide chain; A site holds the tRNA carrying the next amino acid; E site is the exit site for discharged tRNAs. 31. a signal peptide and its role ...ANSWER... A sequence at the leading end of a polypeptide that targets the protein to the endoplasmic reticulum. 32. a silent mutation ...ANSWER... A nucleotide change that codes for the same amino acid, resulting in no change to the protein. 33. a missense mutation ...ANSWER... A nucleotide change that results in one amino acid being substituted for another. 34. a nonsense mutation ...ANSWER... A nucleotide change that changes an amino acid codon into a stop codon, leading to a truncated protein. 35. What are mutagens ...ANSWER... Physical or chemical agents that can cause mutations in DNA. 36. the function of the TATA box in eukaryotic promoters ...ANSWER... It is a key DNA sequence for the initiation of transcription, where transcription factors bind. 37. What are transcription factors ...ANSWER... Proteins that assist RNA polymerase in binding to the promoter and initiating transcription in eukaryotes. 38. alternative RNA splicing ...ANSWER... When different combinations of exons from the same primary transcript are joined, allowing one gene to code for multiple proteins. 39. the lac operon and in what type of organism is it found ...ANSWER... A cluster of genes involved in lactose metabolism; found in E. coli (prokaryotes). 40. Under what condition is the lac operon expressed ...ANSWER... When lactose is present and glucose is absent. 41. the role of the repressor protein in the lac operon ...ANSWER... To bind to the operator and prevent transcription unless lactose (the inducer) is present. 42. a constitutive mutant ...ANSWER... A mutant in which the gene is expressed all the time, regardless of conditions (e.g., a lac operon with a defective repressor). 43. the difference between positive and negative gene regulation ...ANSWER... Negative regulation: a repressor protein turns transcription off. Positive regulation: an activator protein turns transcription on. 44. the role of cAMP in the lac operon ...ANSWER... When glucose is low, cAMP levels are high; cAMP binds to CAP, which then binds to the promoter and enhances RNA polymerase binding. 45. a virus ...ANSWER... An infectious particle consisting of genes packaged in a protein coat. 46. a bacteriophage ...ANSWER... A virus that infects bacteria. 47. What are the two major types of reproductive cycles for viruses ...ANSWER... The lytic cycle and the lysogenic cycle. 48. What happens during the lytic cycle ...ANSWER... The viral DNA takes control of the host cell, replicates, and assembles into new viruses, which burst (lyse) the host cell to be released. 49. a prophage ...ANSWER... The phage DNA that is integrated into the bacterial host's genome during the lysogenic cycle. 50. What are retroviruses and their key enzyme ...ANSWER... RNA viruses that use reverse transcriptase to make a DNA copy of their genome. 51. the function of reverse transcriptase ...ANSWER... To catalyze the synthesis of DNA from an RNA template. 52. What are plasmids ...ANSWER... Small, circular, double-stranded DNA molecules separate from the bacterial chromosome. 53. a transformation in bacterial genetics ...ANSWER... The process by which a bacterium takes up and incorporates foreign DNA from its surroundings. 54. transduction ...ANSWER... The process by which phages (viruses) carry bacterial genes from one host cell to another. 55. conjugation ...ANSWER... The direct transfer of genetic material between two bacterial cells that are temporarily joined. 56. an F factor ...ANSWER... A plasmid that confers the ability to form a sex pilus and donate DNA during conjugation. 57. an R plasmid ...ANSWER... A plasmid that carries genes for antibiotic resistance. 58. What are transposons ...ANSWER... DNA sequences that can move from one location to another within the genome ("jumping genes"). 59. the function of an operator in gene regulation ...ANSWER... It is the "on/off" switch for transcription; binding of a repressor protein blocks RNA polymerase. 60. an inducer ...ANSWER... A small molecule that inactivates a repressor, turning on transcription (e.g., allolactose for the lac operon). 61. a corepressor ...ANSWER... A small molecule that cooperates with a repressor to switch an operon off (e.g., tryptophan in the trp operon). 62. differential gene expression ...ANSWER... The expression of different genes by cells with the same genome. 63. histone acetylation and how does it affect gene expression ...ANSWER... The addition of acetyl groups to histones; it loosens chromatin structure, promoting gene expression. 64. DNA methylation and how does it typically affect gene expression ...ANSWER... The addition of methyl groups to DNA; it usually condenses chromatin and