A recombinant plasmid composed of segments of herpes simplex virus and simian virus 40 viral DNA inserted into the bacterial plasmid pBR322 was microinjected into pronuclei of fertilized mouse oocytes. The embryos were implanted in the oviducts of pseudopregnant females and allowed to develop to term. DNA from newborn mice was evaluated by the Southern blotting technique for the presence of DNA homologous to the injected plasmid. Two of 78 mice in one series of injections showed clear homology, though the injected sequences had been rearranged. Band intensities from the two positive mice were consistent with the presence of donor DNA in most or all of the cells of the newborns. These results demonstrate that genes can be introduced into the mouse genome by direct insertion into the nuclei of early embryos. This technique affords the opportunity to study problems of gene regulation and cell differentiation in a mammalian system by application of recombinant DNA technology.
The protein kinase domains of v‐kit, the oncogene of the acute transforming feline retrovirus HZ4‐FeSV (HZ4‐feline sarcoma virus), CSF‐1R (macrophage colony stimulating factor receptor) and PDGFR (platelet derived growth factor receptor) display extensive homology. Because of the close structural relationship of v‐kit, CSF‐1R and PDGFR we predicted that c‐kit would encode a protein kinase transmembrane receptor (Besmer et al., 1986a; Yarden et al., 1986). We have now determined the primary structure of murine c‐kit from a DNA clone isolated from a brain cDNA library. The nucleotide sequence of the c‐kit cDNA predicts a 975 amino acid protein product with a calculated mol. wt of 109.001 kd. It contains an N‐terminal signal peptide, a transmembrane domain (residues 519‐543) and in the C‐terminal half the v‐kit homologous sequences (residues 558‐925). c‐kit therefore contains the features which are characteristic of a transmembrane receptor kinase. Comparison of c‐kit, CSF‐1R and PDGFR revealed a unique structural relationship of these receptor kinases suggesting a common evolutionary origin. The outer cellular domain of c‐kit was shown to be related to the immunoglobulin superfamily. The sites of expression of c‐kit in normal tissue predict a function in the brain and in hematopoietic cells. N‐terminal sequences which include the extracellular domain and the transmembrane domain as well as 50 amino acids from the C‐terminus of c‐kit are deleted in v‐kit. These structural alterations are likely determinants of the oncogenic activation of v‐kit.(ABSTRACT TRUNCATED AT 250 WORDS)
Genetic material has been successfully transferred into the genomes of newborn mice by injection of that material into pronuclei of fertilized eggs. Initial results indicated two patterns of processing the injected DNA: one in which the material was not integrated into the host genome, and another in which the injected genes became associated with high molecular weight DNA. These patterns are maintained through further development to adulthood. The evidence presented indicates the covalent association of injected DNA with host sequences, and transmission of such linked sequences in a Mendelian distribution to two succeeding generations of progeny.
The vertebrate Dlx gene family consists of homeobox-containing transcription factors distributed in pairs on the same chromosomes as the Hox genes. To investigate the evolutionary history of Dlx genes, we have cloned five new zebrafish family members and have provided additional sequence information for two mouse genes. Phylogenetic analyses of Dlx gene sequences considered in the context of their chromosomal arrangements suggest that an initial tandem duplication produced a linked pair of Dlx genes after the divergence of chordates and arthropods but prior to the divergence of tunicates and vertebrates. This pair of Dlx genes was then duplicated in the chromosomal events that led to the four clusters of Hox genes characteristic of bony fish and tetrapods. It is possible that a pair of Dlx genes linked to the Hoxc cluster has been lost from mammals. We were unable to distinguish between independent duplication and retention of the ancestral state of bony vertebrates to explain the presence of a greater number of Dlx genes in zebrafish than mammals. Determination of the linkage relationship of these additional zebrafish Dlx genes to Hox clusters should help resolve this issue.
Heteroduplex analysis shows that the transferrin receptor gene contains at least 19 distinct coding sequences distributed over 31 kb of genomic DNA. The nucleotide sequence of these coding regions has been determined from a cDNA clone. The sequence contains a single complete open reading frame of 2280 bases which specifies a 760 residue polypeptide with a molecular weight of 85K daltons. The deduced amino acid sequence of the receptor shows that it does not contain an N-terminal hydrophobic signal peptide. We have found a single region of sufficient length and hydrophobicity to span the membrane, located 61 amino acids from the N-terminus. This leads to the prediction that the receptor is oriented in the membrane with a cytoplasmic N-terminus and an extracellular C-terminus. The receptor has no significant homology with transferrin, or with any receptor for which a sequence is available.
Hox genes play a key role in animal body plan development. These genes tend to occur in tightly linked clusters in the genome. Vertebrates and invertebrates differ in their Hox cluster number, with vertebrates having multiple clusters and invertebrates usually having only one. Recent evidence shows that vertebrate Hox clusters are structurally more constrained than invertebrate Hox clusters; they exclude transposable elements, do not undergo tandem duplications, and conserve their intergenic distances and gene order. These constraints are only relaxed after a cluster duplication. In contrast, invertebrate Hox clusters are structurally more plastic; tandem duplications are common, the linkage of Hox genes can change quickly, or they can lose their structural integrity completely. We propose that the constraints on vertebrate Hox cluster structure lead to an association between the retention of duplicated Hox clusters and adaptive radiations. After a duplication the constraints on Hox cluster structure are temporarily lifted, which opens a window of evolvability for the Hox clusters. If this window of evolvability coincides with an adaptive radiation, chances are that a modified Hox cluster becomes recruited in an evolutionary novelty and then both copies of duplicated Hox clusters are retained.
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