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Chapter 20 SUMMARY

700 Chapter 20 NEL


Outcomes


Knowledge



  • describe, in general, how genetic information is contained in
    the sequence of bases in DNA molecules in chromosomes;
    how the DNA molecules replicate themselves; and how the
    genetic information is transcribed into sequences of bases
    in RNA molecules and is finally translated into sequences of
    amino acids in proteins (20.1, 20.2)

  • explain, in general, how restriction enzymes cut DNA
    molecules into smaller fragments and how ligases
    reassemble them (20.3)

  • explain, in general, how cells may be transformed by
    inserting new DNA sequences into their genomes (20.3)

  • explain how a random change (mutation) in the sequence
    of bases results in abnormalities or provides a source of
    genetic variability (20.4)

  • explain how sequences of nucleic acids contained in the
    nucleus, mitochondria, and chloroplasts gives evidence for
    the relationships among organisms of different species by
    examining similarities and differences in base sequences
    (20.4)


STS



  • explain that science and technology have both intended and
    unintended consequences for humans and the environment
    (20.3, 20.4)

  • explain that scientific research and technological
    development help achieve a sustainable society, economy,
    and environment (20.3, 20.4)


Skills



  • ask questions and plan investigations (20.4)

  • conduct investigations and gather and record data and
    information (20.2, 20.3, 20.4)

  • analyze data and apply mathematical and conceptual
    models to develop and assess possible solutions (20.2, 20.4)

  • work as members of a team and apply the skills and
    conventions of science (all)


Key Terms


20.1


20.2


complementary base pairing


antiparallel


DNA replication


semiconservative replication


template


DNA helicase


DNA polymerase III
leading strand
lagging strand
DNA polymerase I
DNA ligase

gene expression
ribonucleic acid (RNA)
transcription
messenger RNA (mRNA)
translation
RNA polymerase
promoter
template strand

termination sequence
codon
start codon
stop codon
ribosome
transfer RNA (tRNA)
anticodon

recombinant DNA
genetic transformation
restriction endonuclease
recognition site
palindromic
sticky ends
blunt ends

methylase
polymerase chain reaction
(PCR)
vector
transgenic
plasmid
multiple-cloning site

point mutation
gene mutation
silent mutation
missense mutation
nonsense mutation
deletion
insertion
frameshift mutation

translocation
inversion
spontaneous mutation
mutagenic agent
induced mutation
phylogeny
SINEs
LINEs

20.3


20.4


MAKE a summary



  1. Starting with the title β€œThe Human Genome,” produce a
    flowchart that illustrates the flow of information from
    gene to protein. Include as many key concepts as
    possible.
    2.Revisit your answers to the Starting Points questions at
    the beginning of the chapter. Would you answer the
    questions differently now? Why?

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