Regulation and expression of transgenes in fish—a review
Identifieur interne : 003181 ( Main/Exploration ); précédent : 003180; suivant : 003182Regulation and expression of transgenes in fish—a review
Auteurs : Arati Iyengar [Royaume-Uni] ; Ferenc Müller [Hongrie] ; Norman Maclean [Royaume-Uni]Source :
- Transgenic Research [ 0962-8819 ] ; 1996-05-01.
English descriptors
- KwdEn :
- Teeft :
- Acad, Academic press, Actin, Actin gene, Afp, African catfish, Alam, Alestr6m, Antifreeze, Aquaculture, Assay, Atlantic salmon, August, August tromso, Biol, Biotechnol, Boundary regions, Carassius auratus, Cell biol, Cell cycle, Chinook salmon, Chloramphenicol acetyl transferase, Chong, Chourrout, Chromatin, Cold tolerance, Comparative study, Copy number, Cyprinus carpio, Danio rerio, Developmental genetics, Devlin, Disease resistance, Early development, Embryo, Enhancer, Eukaryotic genes, Exogenous, Expression assays, Expression patterns, Febs lett, Fish, Fish cells, Fish eggs, Fish embryos, Fish muscle, Foreign genes, Functional analyses, Gene, Gene activity, Gene expression, Gene regulation, Gene transfer, Genet, Genetic engineering, Germ line, Germ line transmission, Gnrh, Good evidence, Growth factor, Growth hormone, Hackett, Heterologous, High levels, Higher levels, Imbc, Inoue, Intron, Iyengar, Lacz, Lacz gene, Lacz reporter gene, Latipes, Linear molecules, Luciferase, Lysozyme, Maclean, Mammalian systems, Marine biol, Medaka, Medaka embryos, Metallothionein, Methylation, Microinjection, Moav, Molecular biology, Mouse tyrosinase gene, Natl, Natl acad, Novel genes, Nucleotide sequence, Oncorhynchus, Oncorhynchus mykiss, Oocyte, Oreochromis niloticus, Oryzias, Oryzias latipes, Ozato, Palmiter, Personal communication, Plasmid, Position effects, Proc, Progeny, Promoter, Rahman, Rainbow trout, Rapid cleavage stages, Regulatory, Regulatory elements, Regulatory sequence, Regulatory sequences, Replication, Reporter gene, Reporter genes, Salmon, Salmonid, Schartl, Sexual maturation, Spatial expression patterns, Stable lines, Such studies, Tilapia, Tissue homogenates, Transcription, Transgene, Transgene copies, Transgene expression, Transgene integration, Transgenic, Transgenic animals, Transgenic fish, Transgenic individuals, Transgenic mice, Transient expression, Tromso, Trout, Tyrosinase, Vertebrate, Vertebrate development, Vielkind, Vivo assays, Vivo situation, Volckaert, Wakamatsu, Westerfield, Winkler, Xenopus, Zebrafish, Zebrafish embryos.
Abstract
Abstract: Transgenic fish, owing to a number of advantages which they offer over other species, are proving to be valuable model systems for the study of gene regulation and developmental genetics in addition to being useful targets for the genetic manipulation of commercially important traits. Despite having begun only a decade ago, the production of transgenic fish has become commonplace in a number of laboratories world-wide and considerable progress has been made. In this review, we initially consider the various regulatory elements and coding genes which have been used in fish, and subsequently discuss and compare both the transient and long-term fate and expression patterns of injected DNA sequences in the context of the different factors which are likely to have an effect on the expression of transgenes.
Url:
DOI: 10.1007/BF01969704
Affiliations:
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eggs</term><term>Fish embryos</term><term>Fish muscle</term><term>Foreign genes</term><term>Functional analyses</term><term>Gene</term><term>Gene activity</term><term>Gene expression</term><term>Gene regulation</term><term>Gene transfer</term><term>Genet</term><term>Genetic engineering</term><term>Germ line</term><term>Germ line transmission</term><term>Gnrh</term><term>Good evidence</term><term>Growth factor</term><term>Growth hormone</term><term>Hackett</term><term>Heterologous</term><term>High levels</term><term>Higher levels</term><term>Imbc</term><term>Inoue</term><term>Intron</term><term>Iyengar</term><term>Lacz</term><term>Lacz gene</term><term>Lacz reporter gene</term><term>Latipes</term><term>Linear molecules</term><term>Luciferase</term><term>Lysozyme</term><term>Maclean</term><term>Mammalian systems</term><term>Marine biol</term><term>Medaka</term><term>Medaka 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patterns</term><term>Stable lines</term><term>Such studies</term><term>Tilapia</term><term>Tissue homogenates</term><term>Transcription</term><term>Transgene</term><term>Transgene copies</term><term>Transgene expression</term><term>Transgene integration</term><term>Transgenic</term><term>Transgenic animals</term><term>Transgenic fish</term><term>Transgenic individuals</term><term>Transgenic mice</term><term>Transient expression</term><term>Tromso</term><term>Trout</term><term>Tyrosinase</term><term>Vertebrate</term><term>Vertebrate development</term><term>Vielkind</term><term>Vivo assays</term><term>Vivo situation</term><term>Volckaert</term><term>Wakamatsu</term><term>Westerfield</term><term>Winkler</term><term>Xenopus</term><term>Zebrafish</term><term>Zebrafish embryos</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Abstract: Transgenic fish, owing to a number of advantages which they offer over other species, are proving to be valuable model systems for the study of gene regulation and developmental genetics in addition to being useful targets for the genetic manipulation of commercially important traits. Despite having begun only a decade ago, the production of transgenic fish has become commonplace in a number of laboratories world-wide and considerable progress has been made. In this review, we initially consider the various regulatory elements and coding genes which have been used in fish, and subsequently discuss and compare both the transient and long-term fate and expression patterns of injected DNA sequences in the context of the different factors which are likely to have an effect on the expression of transgenes.</div></front></TEI><affiliations><list><country><li>Hongrie</li><li>Royaume-Uni</li></country></list><tree><country name="Royaume-Uni"><noRegion><name sortKey="Iyengar, Arati" sort="Iyengar, Arati" uniqKey="Iyengar A" first="Arati" last="Iyengar">Arati Iyengar</name></noRegion><name sortKey="Maclean, Norman" sort="Maclean, Norman" uniqKey="Maclean N" first="Norman" last="Maclean">Norman Maclean</name></country><country name="Hongrie"><noRegion><name sortKey="Muller, Ferenc" sort="Muller, Ferenc" uniqKey="Muller F" first="Ferenc" last="Müller">Ferenc Müller</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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