Allelic composition and genetic background effects on transgene expression and inheritance in white clover

Allelic composition and genetic background effects on transgene expression and inheritance in white clover

Allelic composition and genetic background effects on GUS expression and inheritance using a chimeric (cauliflower mosaic virus 35Sp:uidA) transgene were investigated in white clover as a prelude to transgenic cultivar development. Stable expression and Mendelian inheritance of the uidA transgene wa...

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Bibliographic Details
Published in:Molecular breeding Vol. 4; no. 6; pp. 479 - 490
Main Authors: Scott, Alicia, Woodfield, Derek, White, Derek WR
Format: Journal Article
Language:English
Published: Dordrecht Springer Nature B.V 01-12-1998
Subjects:
Composition effects
Cultivars
Deactivation
Gene expression
Genetic crosses
Heredity
Inactivation
Molecular biology
Offspring
Plant biology
Populations
Progeny
Transgenes
Transgenic plants
Trifolium repens
UidA gene
Viruses
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Summary:Allelic composition and genetic background effects on GUS expression and inheritance using a chimeric (cauliflower mosaic virus 35Sp:uidA) transgene were investigated in white clover as a prelude to transgenic cultivar development. Stable expression and Mendelian inheritance of the uidA transgene was observed over two generations when the uidA transgene was maintained in a heterozygous state. Transgenic backcross progeny (BC1) were intercrossed to produce segregating F2 populations. GUS-positive F2 plants were test-crossed with a non-transgenic control plant to determine whether individuals were heterozygous or homozygous for the transgene. Both expected and distorted segregation ratios were observed. Distortion of the segregation ratio was not caused by transgene inactivation or rearrangement, but was influenced by genetic background. BC1, BC2 and F2 populations were found to have similar levels of uidA gene expression. Quantification of GUS expression from progeny of high and low GUS expressing plants indicate that it is possible to alter transgene expression through selection. No difference was found between the level of expression for F2 plants homozygous or heterozygous for the transgene. These results indicate that F2 plants, homozygous for a transgene, might be used to develop a transgenic cultivar. However, progeny testing to determine the influence of genetic background is a prerequisite to such a development.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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ISSN:1380-3743
1572-9788
DOI:10.1023/A:1009601321343