![Page 1: Definitions of the Gene BIT 220 Chapter 15. A typical Gene Figure 15.1 Prokaryotic Gene –Initiator and terminator codon –All done in cytoplasm –Transcription](https://reader036.vdocuments.net/reader036/viewer/2022083009/5697bfd61a28abf838cadf22/html5/thumbnails/1.jpg)
Definitions of the Gene
BIT 220
Chapter 15
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A typical Gene
• Figure 15.1
• Prokaryotic Gene– Initiator and terminator codon– All done in cytoplasm– Transcription and translation coupled
• Eukaryotic Gene– Exons and introns; nucleus and cytoplasm– Cap and poly A+ tail
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Genes
• Focus in chapter on complementation test: controls the synthesis of one polypeptide or one mRNA molecule
• Figure 15.4: Beadle and Tatum: led to one gene – one enzyme theory
• Need only inorganic salts, simple sugar and biotin (vitamin)
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Recombination
• Within a gene – Oliver in the 40s
• Drosophila melanogaster – fruit fly- genetic organism of choice
• Showed that genes could recombine between single nucleotide pairs (figures 15.5 and 15.6)
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Colinearity
• Figures 15.7, 15.8 and 15.9
• Nucleotide sequence co-linear with polypeptide sequence
• First three bases in DNA is first amino acid in polypeptide, etc.
• Introns do not invalidate this colinearity
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Complementation test for a Gene
• Figures 15.10 and up
• Terms to know:– wild-type – “normal” allele– Cis – same chromosome– Trans – opposite chromosome– Cis heterozygote – a+b+/ab– Trans heterozygote - ab+/a+b
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Gene Definition
• Knew about 1 gene-1 enzyme, but how to know if a mutation was on same or different gene?
• Complementation test for function allelism (Ed Lewis, 1942)
• begin with Figure 15.11
• Position effects - + designation for wild-type
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Gene Name Designation
• With Mendel, used dominant gene - e.g., Tall and short would be T and t (learned in 120)
• Now reclassified, would be S and s (named after mutant or recessive allele)
• Fruit flies - white gene, normal eye red, so called w+; apricot mutation, wa
• human gene designations later
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Complementation
• Lewis’ experiment - Figure 15.11
• fruit fly important genetic organism– white locus (where a gene is on a
chromosome)– apricot mutation (apr in this textbook, now
proper designation is wa)
apr w/apr+ w - designation for 2 chromosomes (slash mark), give red eyes. ; apr w+/apr+ w - light apricot eyes (go over Fig. 15.11 here)
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Mutations on the same Gene
• Following looking at Figure 15.11:
• If apricot and white were on different genes, the eyes would be red
• Why? Because the wild-type allele in each case would be dominant over the mutant allele, so they eyes would be wild-type color (red), but they are not.
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Lewis’ Discovery
• The cis-trans position effect
• This led to complementation test or trans test of functional allelism
• can determine if mutations with same or similar phenotypes are in the same or different genes.
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Cis or Cis-trans test
• Cis test important control (Figure 15.2)
• phenotype wild-type whether mutation on same or different chromosome
• Trans test (Figure 15.13) - phenotype mutant if both mutations on same chromosome (15.13a); phenotype wild-type if mutations on 2 different genes.
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Limitations
• Complementation tests only work with simple genes and normal dominant/co-dominant relationships
• Not useful in dominant mutations, or for multigenic traits
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Complex Gene-Protein Relationships
• Figure 15.8 - family of proteins from a single gene
• Figure 15.9 - antibody genes