The Impact of Gene Transfer Techniques in Eukaryotic Cell Biology [electronic resource] /

The Impact of Gene Transfer Techniques in Eukaryotic Cell Biology [electronic resource] /

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The 35th N:osbach Colloquium "The Impact of Gene Transfer Techniques in Eukaryotic CeU Biology" brought together a number of speakers interested in various aspects of cellular and developmental biology and over 600 other scientists, who listened to the lectures and participated in the lively discussions. The questions and experiments described were very varied, but all of them illustrated the importance of recombinant DNA technology. The powerful techniques of identifying and isolating DNA sequences, followed by their introduction into living cells and even into the germ cells of multicellular organisms, have pervaded nearly every branch of molecular biology. The presentations and discussions that followed showed that recombinant DNA has tremendously increased our potential for fundamental research. Now, and for some time to corne, these contri­ butions and the resulting increase in our understanding of life will be the main result of gene manipulation. There will, however, also be applications that will lead to new industrial processes. One section was devoted to novel ways of vaccine production and another to herbicide resistance. These applications are a matter of intense debate in the public domain today. Although they reach beyond the scope of the research labora.tory at a university or research institution, scientists have the knowledge necessary to judge these developments and are sometimes directly involved. There­ fore the development of industrial qene technology requires the attention of the whole scientific community. We hope that this Symposium has also served this purpose.

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Main Authors: Schell, Jozef Stephaan. editor., Starlinger, Peter. editor., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Berlin, Heidelberg : Springer Berlin Heidelberg, 1984
Subjects:Life sciences., Biochemistry., Cell biology., Life Sciences., Cell Biology., Biochemistry, general.,
Online Access:http://dx.doi.org/10.1007/978-3-642-70065-1
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id KOHA-OAI-TEST:217039
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Life sciences.
Biochemistry.
Cell biology.
Life Sciences.
Cell Biology.
Biochemistry, general.
Life sciences.
Biochemistry.
Cell biology.
Life Sciences.
Cell Biology.
Biochemistry, general.
spellingShingle Life sciences.
Biochemistry.
Cell biology.
Life Sciences.
Cell Biology.
Biochemistry, general.
Life sciences.
Biochemistry.
Cell biology.
Life Sciences.
Cell Biology.
Biochemistry, general.
Schell, Jozef Stephaan. editor.
Starlinger, Peter. editor.
SpringerLink (Online service)
The Impact of Gene Transfer Techniques in Eukaryotic Cell Biology [electronic resource] /
description The 35th N:osbach Colloquium "The Impact of Gene Transfer Techniques in Eukaryotic CeU Biology" brought together a number of speakers interested in various aspects of cellular and developmental biology and over 600 other scientists, who listened to the lectures and participated in the lively discussions. The questions and experiments described were very varied, but all of them illustrated the importance of recombinant DNA technology. The powerful techniques of identifying and isolating DNA sequences, followed by their introduction into living cells and even into the germ cells of multicellular organisms, have pervaded nearly every branch of molecular biology. The presentations and discussions that followed showed that recombinant DNA has tremendously increased our potential for fundamental research. Now, and for some time to corne, these contri­ butions and the resulting increase in our understanding of life will be the main result of gene manipulation. There will, however, also be applications that will lead to new industrial processes. One section was devoted to novel ways of vaccine production and another to herbicide resistance. These applications are a matter of intense debate in the public domain today. Although they reach beyond the scope of the research labora.tory at a university or research institution, scientists have the knowledge necessary to judge these developments and are sometimes directly involved. There­ fore the development of industrial qene technology requires the attention of the whole scientific community. We hope that this Symposium has also served this purpose.
format Texto
topic_facet Life sciences.
Biochemistry.
Cell biology.
Life Sciences.
Cell Biology.
Biochemistry, general.
author Schell, Jozef Stephaan. editor.
Starlinger, Peter. editor.
SpringerLink (Online service)
author_facet Schell, Jozef Stephaan. editor.
Starlinger, Peter. editor.
SpringerLink (Online service)
author_sort Schell, Jozef Stephaan. editor.
title The Impact of Gene Transfer Techniques in Eukaryotic Cell Biology [electronic resource] /
title_short The Impact of Gene Transfer Techniques in Eukaryotic Cell Biology [electronic resource] /
title_full The Impact of Gene Transfer Techniques in Eukaryotic Cell Biology [electronic resource] /
title_fullStr The Impact of Gene Transfer Techniques in Eukaryotic Cell Biology [electronic resource] /
title_full_unstemmed The Impact of Gene Transfer Techniques in Eukaryotic Cell Biology [electronic resource] /
title_sort impact of gene transfer techniques in eukaryotic cell biology [electronic resource] /
publisher Berlin, Heidelberg : Springer Berlin Heidelberg,
publishDate 1984
url http://dx.doi.org/10.1007/978-3-642-70065-1
work_keys_str_mv AT schelljozefstephaaneditor theimpactofgenetransfertechniquesineukaryoticcellbiologyelectronicresource
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spelling KOHA-OAI-TEST:2170392018-07-30T23:52:54ZThe Impact of Gene Transfer Techniques in Eukaryotic Cell Biology [electronic resource] / Schell, Jozef Stephaan. editor. Starlinger, Peter. editor. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg,1984.engThe 35th N:osbach Colloquium "The Impact of Gene Transfer Techniques in Eukaryotic CeU Biology" brought together a number of speakers interested in various aspects of cellular and developmental biology and over 600 other scientists, who listened to the lectures and participated in the lively discussions. The questions and experiments described were very varied, but all of them illustrated the importance of recombinant DNA technology. The powerful techniques of identifying and isolating DNA sequences, followed by their introduction into living cells and even into the germ cells of multicellular organisms, have pervaded nearly every branch of molecular biology. The presentations and discussions that followed showed that recombinant DNA has tremendously increased our potential for fundamental research. Now, and for some time to corne, these contri­ butions and the resulting increase in our understanding of life will be the main result of gene manipulation. There will, however, also be applications that will lead to new industrial processes. One section was devoted to novel ways of vaccine production and another to herbicide resistance. These applications are a matter of intense debate in the public domain today. Although they reach beyond the scope of the research labora.tory at a university or research institution, scientists have the knowledge necessary to judge these developments and are sometimes directly involved. There­ fore the development of industrial qene technology requires the attention of the whole scientific community. We hope that this Symposium has also served this purpose.of DNA into Animal Cells and Its Use to Study Gene Function -- Chemical DNA Synthesis and Its Applications in Eukaryotic Gene Transfer Techniques (With 13 Figures) -- An Alternative Gene Cloning Method for the Isolation of Human Genes by Expression in Mouse Cell Clones (With 4 Figures) -- Enhancers as Transcriptional Control Elements (With 1 Figure) -- Z-DNA: Conformational Flexibility of the DNA Double (With 3 Figures) -- DNA Rearrangements in Varions Organisms -- Antigenic Variation in African Trypanosomes (With 1 Figure) -- The Plant Transposable Elements Tam1, Tam2 and Spm-I8 (With 6 Figures) -- Mobile Genetic Elements and Their Use for Gene Transfer in Drosophila (With 4 Figures) -- Genetic Engineering of Plants -- Genetic Engineering of Plants (With 6 Figures) -- The Chloroplast Genome, Its Interaction with the Nucleus, and the Modification of Chloroplast Metabolism (With 1 Figure) -- The T-Region of Ti Plasmid Codes for an Enzyme of Auxin Biosynthesis (With 3 Figures) -- Cauliflower Mosaic Virus: A Plant Gene Vector (With 2 Figures) -- of DNA into the Germ Line of Animals -- Hybrid Dysgenesis as a Gene Transfer System in Drosophila me lanogaster -- Introducing Genes into Mice and into Embryonal Carcinoma Stem Cells -- Gene Transfer in Living Organisms (With 8 Figures) -- Applications of Genetic Engineering -- Genes Involved in Resistance Reactions in Higher Plants: Possible Candidates for Gene Transfer? (With 9 Figures) -- Herbicide Resistance Through Gene Transfer? Biochemical and Toxicological -- Foot and Mouth Disease Virus: Genome Organization, Antigenic Variation, and New Approaches to a Safe Vaccine (With 6 Figures) -- Structure, Proteolytic Processing, and Neutralization Antigenic Sites of Poliovirus (With 4 Figures) -- Expression of the Foot and Mouth Disease Virus Protease in E. coli (With 5 Figures).The 35th N:osbach Colloquium "The Impact of Gene Transfer Techniques in Eukaryotic CeU Biology" brought together a number of speakers interested in various aspects of cellular and developmental biology and over 600 other scientists, who listened to the lectures and participated in the lively discussions. The questions and experiments described were very varied, but all of them illustrated the importance of recombinant DNA technology. The powerful techniques of identifying and isolating DNA sequences, followed by their introduction into living cells and even into the germ cells of multicellular organisms, have pervaded nearly every branch of molecular biology. The presentations and discussions that followed showed that recombinant DNA has tremendously increased our potential for fundamental research. Now, and for some time to corne, these contri­ butions and the resulting increase in our understanding of life will be the main result of gene manipulation. There will, however, also be applications that will lead to new industrial processes. One section was devoted to novel ways of vaccine production and another to herbicide resistance. These applications are a matter of intense debate in the public domain today. Although they reach beyond the scope of the research labora.tory at a university or research institution, scientists have the knowledge necessary to judge these developments and are sometimes directly involved. There­ fore the development of industrial qene technology requires the attention of the whole scientific community. We hope that this Symposium has also served this purpose.Life sciences.Biochemistry.Cell biology.Life Sciences.Cell Biology.Biochemistry, general.Springer eBookshttp://dx.doi.org/10.1007/978-3-642-70065-1URN:ISBN:9783642700651

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