(a.) tRNA: (b) mRNA: (c) rRNA: (d) ligase: (e) helicase: (f) RNA polymerase: (g)
ID: 97895 • Letter: #
Question
(a.) tRNA: (b) mRNA: (c) rRNA: (d) ligase: (e) helicase: (f) RNA polymerase: (g) DNA polymerase (h) plasmids: (i) bacteriophage: (j) exons: (k) introns (l) purines: (m) pyrimidines: (n) spliceosomes (o) restriction enzyme: (p) totipotent: (q) prion: (r) viroid: (s) nucleotides __'assistant script guy' has anticodon attachment ___ a vector used to infect a bacterium ____ DNA building blocks ___ coding gene on mRNA ____ a bacterial circular DNA for recombination DNA use _____ used to cut DNA for recombination DNA ____ enzyme used for DNA replication ____ enzyme used for unzipping DNA ___ small base DNA nucleotide ____ 'actor' transcription of DNA ____ cell differentiability ability to develop into any tissue _____ transcribes DNA ____ large base DNA nucleotide ____ misfolded proteins ____ noncoding gene on mRNA ____ 'director' oversees the translation for polypeptide _____ cuts mRNA in nucleus _____ plant RNA pathogens _____ seals Okazaki fragments Who is crExplanation / Answer
The answers mentioned for No.1 to 19 are correct.
20. b. Watson and Crick
In 1953 the double helix, the twisted-ladder structure of deoxyribonucleic acid (DNA) was discovered by James Watson and Francis Crick. The 1962 Nobel Prize in Physiology or Medicine was awarded for discovery of the double helix model of DNA.
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