Construction Of A Geneticist


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construction of a geneticist Construction Of A Geneticis

The Construction of a Geneticist
I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work.
B. Genetic Engineering
C. Scope
1- accomplishments
2- job description
3- education
4- opportunities
5- future
6- (interview)
- Personal insight
- Attraction to job
II. Background
III. Accomplishments
IV. Job Description & Opportunities
V. Education & salary
VI. Interview -Attraction, Personal Insight
-Future
VII. Conclusion- Why I would or wouldn’t be a genetic engineer?
The Construction of a Geneticist
The construction of a geneticist is a person that follows a difficult path of education, preparation, and hard work. Geneticists along with all branches of Genetic Engineering have grown in numbers and importance over the last hundred years. Geneticists have accomplished things that Isaac Asimov and authors like him only dreamed about. What was science fiction then is science fact now, the cycle continues through this day. (Facklam 16) The genetic field will continue to grow until every aspect of life is perfect, but that will take quite a while.
Career Opportunities in Genetics are everywhere within the biological community. They may work in colleges and universities, research institutions, medical institution, and commercial enterprises of many kinds. Every work environment is unique, and categorizes overlap-but certain general trends exist. (Career Opportunities in Genetics 9)
Genetic Engineering has a long past and an even longer future, however, to enter the field a person must have a strong background in sciences and intensive training. Despite the controversy of Genetics, Courtney Sailes of the Genentech Inc. has accomplished such training. He is working in the biochemistry division and has an important impact people across the world.
Gregor Mendel is known as the father of Modern Genetics, however he was not the start of the long chain of genetic engineers. (Microsoft Encarta 98) Genetic engineers can be traced back to 6000 BC when Yeast was used to make beer by Sumerians and Babylonians. Before that the domestication of animals was the most complex example of genetic engineering. Today’s geneticists still work with animals and plants, however, instead of just studying them, they can create them. Geneticists also try to perfect and alter deficiencies to help solve problems in today’s world. Geneticists’ creation of bigger fruit, vegetables and vaccinations help people live everyday. Genetic Engineering may one day eliminate horrible genetic defects. (Facklam 79) Genetic Engineering is a science that can alter the ways in which we live, but not with out social and legal problems to solve as we go along. (Facklam sleeve)
The discovery of the structure of DNA resulted in an explosion of research in molecular biology and genetics, paving the way for the biotechnology revolution.
Genetic engineering became a reality when a man-made gene was used to manufacture a human protein in bacteria for the first time. Biotech companies and universities were off to the races, and the world will never be the same again. (Biotechnology Timeline 1977- Present)
Accomplishments done in part of genetic engineering have made the earth a better and safer place to live. Hybridization of rice and wheat has increased food output by more than 100%. (Encarta 98) Geneticist across the world are attempting to stop the spread of deadly cells strains, if there is a virus or bacteria there is a cure and a way to stop it.
The vaccination of polio, the cure for leprosy, and small pox all are possible due to the minds and wills of genetic engineers. On July 25, 1979, Louise Brown became the world’s first test-tube-baby, hailed by many as a biological breakthrough and condemned by other as a way for man to control and manipulate life. (Facklam 87)
The cloning of Dolly, the lamb, and other animals allows scientist to research cures for illness with little deviation in subjects. Almost all breakthroughs in the medical research field are directly related to genetic engineering. Geneticist play an important role in everything around us, they give us more than just better creations they give us a better understanding of life as we know it (C.O. in G. 14),
Geneticist is just a general title given to several occupations. Each specific occupation consists of it’s own environment, but share many common traits. Population Biology, Population Genetics, Evolution, Evolutionary Genetics, Sociology, Molecular Biology, Molecular Genetics, Agriculture, Plant Genetics, Biochemistry, Biochemical Genetics, Cytogenetics, Cytology, Medicine, ... more

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Construction Of A Geneticis


The Construction of a Geneticist
I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work.
B. Genetic Engineering
C. Scope
1- accomplishments
2- job description
3- education
4- opportunities
5- future
6- (interview)
- Personal insight
- Attraction to job
II. Background
III. Accomplishments
IV. Job Description & Opportunities
V. Education & salary
VI. Interview -Attraction, Personal Insight
-Future
VII. Conclusion- Why I would or wouldn’t be a genetic engineer?
The Construction of a Geneticist
The construction of a geneticist is a person that follows a difficult path of education, preparation, and hard work. Geneticists along with all branches of Genetic Engineering have grown in numbers and importance over the last hundred years. Geneticists have accomplished things that Isaac Asimov and authors like him only dreamed about. What was science fiction then is science fact now, the cycle continues through this day. (Facklam 16) The genetic field will continue to grow until every aspect of life is perfect, but that will take quite a while.
Career Opportunities in Genetics are everywhere within the biological community. They may work in colleges and universities, research institutions, medical institution, and commercial enterprises of many kinds. Every work environment is unique, and categorizes overlap-but certain general trends exist. (Career Opportunities in Genetics 9)
Genetic Engineering has a long past and an even longer future, however, to enter the field a person must have a strong background in sciences and intensive training. Despite the controversy of Genetics, Courtney Sailes of the Genentech Inc. has accomplished such training. He is working in the biochemistry division and has an important impact people across the world.
Gregor Mendel is known as the father of Modern Genetics, however he was not the start of the long chain of genetic engineers. (Microsoft Encarta 98) Genetic engineers can be traced back to 6000 BC when Yeast was used to make beer by Sumerians and Babylonians. Before that the domestication of animals was the most complex example of genetic engineering. Today’s geneticists still work with animals and plants, however, instead of just studying them, they can create them. Geneticists also try to perfect and alter deficiencies to help solve problems in today’s world. Geneticists’ creation of bigger fruit, vegetables and vaccinations help people live everyday. Genetic Engineering may one day eliminate horrible genetic defects. (Facklam 79) Genetic Engineering is a science that can alter the ways in which we live, but not with out social and legal problems to solve as we go along. (Facklam sleeve)
The discovery of the structure of DNA resulted in an explosion of research in molecular biology and genetics, paving the way for the biotechnology revolution.
Genetic engineering became a reality when a man-made gene was used to manufacture a human protein in bacteria for the first time. Biotech companies and universities were off to the races, and the world will never be the same again. (Biotechnology Timeline 1977- Present)
Accomplishments done in part of genetic engineering have made the earth a better and safer place to live. Hybridization of rice and wheat has increased food output by more than 100%. (Encarta 98) Geneticist across the world are attempting to stop the spread of deadly cells strains, if there is a virus or bacteria there is a cure and a way to stop it.
The vaccination of polio, the cure for leprosy, and small pox all are possible due to the minds and wills of genetic engineers. On July 25, 1979, Louise Brown became the world’s first test-tube-baby, hailed by many as a biological breakthrough and condemned by other as a way for man to control and manipulate life. (Facklam 87)
The cloning of Dolly, the lamb, and other animals allows scientist to research cures for illness with little deviation in subjects. Almost all breakthroughs in the medical research field are directly related to genetic engineering. Geneticist play an important role in everything around us, they give us more than just better creations they give us a better understanding of life as we know it (C.O. in G. 14),
Geneticist is just a general title given to several occupations. Each specific occupation consists of it’s own environment, but share many common traits. Population Biology, Population Genetics, Evolution, Evolutionary Genetics, Sociology, Molecular Biology, Molecular Genetics, Agriculture, Plant Genetics, Biochemistry, Biochemical Genetics, Cytogenetics, Cytology, Medicine, ... more

construction of a geneticist

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  • C: Construction of a Geneticis C: Construction of a Geneticis Construction of a Geneticis I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work. VI. Interview -Attraction, Personal Insight VII. Conclusion- Why I would or wouldnt be a genetic engineer? The construction of a geneticist is a person that follows a difficult path of education, preparation, and hard work. Geneticists along with all branches of Genetic Engineering have grown in numbers and importance over the last hundred years. Geneticists have...
  • O: Construction Of A Geneticis O: Construction Of A Geneticis Construction Of A Geneticis The Construction of a Geneticist I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work. B. Genetic Engineering C. Scope 1- accomplishments 2- job description 3- education 4- opportunities 5- future 6- (interview) - Personal insight - Attraction to job II. Background III. Accomplishments IV. Job Description & Opportunities V. Education & salary VI. Interview -Attraction, Personal Insight -Future VII. Conclusion- Why I ...
  • N: Construction Of A Geneticis N: Construction Of A Geneticis Construction Of A Geneticis The Construction of a Geneticist I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work. B. Genetic Engineering C. Scope 1- accomplishments 2- job description 3- education 4- opportunities 5- future 6- (interview) - Personal insight - Attraction to job II. Background III. Accomplishments IV. Job Description & Opportunities V. Education & salary VI. Interview -Attraction, Personal Insight -Future VII. Conclusion- Why I ...
  • S: Geneticist Construction S: Geneticist Construction Geneticist Construction I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work. B. Genetic Engineering C. Scope 1- accomplishments 2- job description 3- education 4- opportunities 5- future 6- (interview) - Personal insight - Attraction to job II. Background III. Accomplishments IV. Job Description Opportunities V. Education salary VI. Interview -Attraction, Personal Insight -Future VII. Conclusion- Why I would or wouldnt be a genetic engineer? ...
  • T: Geneticist Construction T: Geneticist Construction Geneticist Construction I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work. B. Genetic Engineering C. Scope 1- accomplishments 2- job description 3- education 4- opportunities 5- future 6- (interview) - Personal insight - Attraction to job II. Background III. Accomplishments IV. Job Description & Opportunities V. Education & salary VI. Interview -Attraction, Personal Insight -Future VII. Conclusion- Why I would or wouldnt be a genetic engine...
  • R: Jurassic park R: Jurassic park jurassic park Introduction-First Iteration Summary Introduction In the late twentieth century, the field of biotechnology and genetic engineering has positioned itself to become one of the great technological revolutions of human history. Yet, things changed when Herber Boyer, a biochemist at the University of California, founded the company Genentech in 1976 to exploit the commercial potential of his research. Since then the field has exploded into a global amalgam of private research firms dev...
  • U: Human genome technology U: Human genome technology Human genome technology Life as we know it is specified by genomes. Every organism posseses a genome that contains the biological information needed to construct and maintain a living example of that organism. Most genomes, including those for all cellular lifeforms, are made of DNA (deoxyribonucleic acid) but a few viruses have RNA (ribonucleic acid) genomes. DNA and RNA are polymeric molecules made up of linear, unbranched chains of monomeric substances called nucleotides. Each nucleotide has ...
  • C: Construction of a Geneticis C: Construction of a Geneticis Construction of a Geneticis I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work. VI. Interview -Attraction, Personal Insight VII. Conclusion- Why I would or wouldnt be a genetic engineer? The construction of a geneticist is a person that follows a difficult path of education, preparation, and hard work. Geneticists along with all branches of Genetic Engineering have grown in numbers and importance over the last hundred years. Geneticists have...
  • T: Construction Of A Geneticis T: Construction Of A Geneticis Construction Of A Geneticis The Construction of a Geneticist I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work. B. Genetic Engineering C. Scope 1- accomplishments 2- job description 3- education 4- opportunities 5- future 6- (interview) - Personal insight - Attraction to job II. Background III. Accomplishments IV. Job Description & Opportunities V. Education & salary VI. Interview -Attraction, Personal Insight -Future VII. Conclusion- Why I ...
  • I: Construction Of A Geneticis I: Construction Of A Geneticis Construction Of A Geneticis The Construction of a Geneticist I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work. B. Genetic Engineering C. Scope 1- accomplishments 2- job description 3- education 4- opportunities 5- future 6- (interview) - Personal insight - Attraction to job II. Background III. Accomplishments IV. Job Description & Opportunities V. Education & salary VI. Interview -Attraction, Personal Insight -Future VII. Conclusion- Why I ...
  • O: Geneticist Construction O: Geneticist Construction Geneticist Construction I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work. B. Genetic Engineering C. Scope 1- accomplishments 2- job description 3- education 4- opportunities 5- future 6- (interview) - Personal insight - Attraction to job II. Background III. Accomplishments IV. Job Description Opportunities V. Education salary VI. Interview -Attraction, Personal Insight -Future VII. Conclusion- Why I would or wouldnt be a genetic engineer? ...
  • N: Geneticist Construction N: Geneticist Construction Geneticist Construction I. A. The construction of a geneticist follows a difficult path of education, preparation, and hard work. B. Genetic Engineering C. Scope 1- accomplishments 2- job description 3- education 4- opportunities 5- future 6- (interview) - Personal insight - Attraction to job II. Background III. Accomplishments IV. Job Description & Opportunities V. Education & salary VI. Interview -Attraction, Personal Insight -Future VII. Conclusion- Why I would or wouldnt be a genetic engine...
  •  : Jurassic park : Jurassic park jurassic park Introduction-First Iteration Summary Introduction In the late twentieth century, the field of biotechnology and genetic engineering has positioned itself to become one of the great technological revolutions of human history. Yet, things changed when Herber Boyer, a biochemist at the University of California, founded the company Genentech in 1976 to exploit the commercial potential of his research. Since then the field has exploded into a global amalgam of private research firms dev...
  • O: Human genome technology O: Human genome technology Human genome technology Life as we know it is specified by genomes. Every organism posseses a genome that contains the biological information needed to construct and maintain a living example of that organism. Most genomes, including those for all cellular lifeforms, are made of DNA (deoxyribonucleic acid) but a few viruses have RNA (ribonucleic acid) genomes. DNA and RNA are polymeric molecules made up of linear, unbranched chains of monomeric substances called nucleotides. Each nucleotide has ...