Production of phenocopies by Krüppel antisense RNA injection into Drosophila embryos

1 February 1985

journal article
Published by Springer Nature in Nature

Vol. 313 (6004) , 703-706
https://doi.org/10.1038/313703a0

Abstract

The demonstration that a specific messenger RNA can be functionally inactivated in vivo by hybridization to complementary polynucleotide sequences suggests a direct approach to the study of gene function in cells of higher organisms. The experiments described here were designed to inhibit, by complementary RNA sequences, a specific gene function affecting the fate of the Drosophila embryo. We used the SP6 vector in vitro transcription system to transcribe parts of the normally untranscribed (nonsense) strand of the Krüppel (Kr) gene into complementary Kr RNA (Kr antisense RNA). Wild-type Drosophila embryos, injected with this RNA, developed into phenocopies of Kr mutant embryos.

Keywords

This publication has 17 references indexed in Scilit:

Molecular genetics of Krüppel, a gene required for segmentation of the Drosophila embryo
Nature, 1985
Krüppel, a gene whose activity is required early in the zygotic genome for normal embryonic segmentation
Developmental Biology, 1984
The use of RNAs complementary to specific mRNAs to regulate the expression of individual bacterial genes
Cell, 1984
A unique mechanism regulating gene expression: translational inhibition by a complementary RNA transcript (micRNA).
Proceedings of the National Academy of Sciences, 1984
Inhibition of thymidine kinase gene expression by anti-sense RNA: A molecular approach to genetic analysis
Cell, 1984
Translational control of IS10 transposition
Cell, 1983
Human β-globin pre-mRNA synthesized in vitro is accurately spliced in xenopus oocyte nuclei
Cell, 1983
Mutations affecting segment number and polarity in Drosophila
Nature, 1980
A fate map for the larval epidermis ofDrosophila melanogaster: localized cuticle defects following irradiation of the blastoderm with an ultraviolet laser microbeam
Developmental Biology, 1979
Inhibition of Rous sarcoma virus replication and cell transformation by a specific oligodeoxynucleotide.
Proceedings of the National Academy of Sciences, 1978