Yeast is a eukaryote and its DNA resembles more to animals and plants than bacteria,. hence, proteins produced by genetically engenieered yeasts may provide a better match plants, animals and humans than proteins made by bacteris.
it is hypothesized that some of the genes we have (if i remember correctly perhaps ones that encode for a particular enzyme in our mouths) come from yeast. Yeast is a natural dweller with the human body (for example within the vaginal tract) in addition, many of the antibiotics we have discovred today are a result of bacterial chemical warfare designed to limit the growth of yeast.
they're eukaryotic cells
Virus and plasmid. Both can insert the target gene into the host's genome.
Short Answer is: our understanding of genetic engineering.
what made genetic engineering possible
Genetic engineering involves the use of recombinant DNA technology, the process by which a DNA sequence is manipulated in vitro, thus creating recombinant DNA molecules that have new combinations of genetic material
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Simple yeasts is the unicellular ascomycota that is important in food production and genetic engineering.
the risks and benefits of genetic engineering.
Genetic Engineering.
if Jesus wanted us to use genetic engineering, he would've put it in the bible. but for Mormons it's alright.
genetic engineering
Virus and plasmid. Both can insert the target gene into the host's genome.
genetic engineering, chemical engineering, biology
Short Answer is: our understanding of genetic engineering.
what made genetic engineering possible
Genetic engineering involves the use of recombinant DNA technology, the process by which a DNA sequence is manipulated in vitro, thus creating recombinant DNA molecules that have new combinations of genetic material
For Bacteria: E. coliFor Eukaryotes: Probably Saccharomyces cerevisiae (the yeast that makes beer and bread) or Candida albicans (Very common yeast that causes infections in humans).
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